summaryrefslogtreecommitdiffstats
diff options
context:
space:
mode:
-rw-r--r--.travis.yml18
-rw-r--r--Makefile.am1
-rw-r--r--NEWS2
-rw-r--r--NPTest.pm252
-rw-r--r--THANKS.in1
-rw-r--r--configure.ac4
-rw-r--r--gl/fsusage.c5
-rw-r--r--gl/fsusage.h3
-rw-r--r--lib/utils_base.c19
-rw-r--r--lib/utils_base.h5
-rw-r--r--lib/utils_cmd.c42
-rw-r--r--lib/utils_cmd.h13
-rw-r--r--lib/utils_disk.c2
-rw-r--r--lib/utils_disk.h3
-rw-r--r--plugins-root/check_icmp.c465
-rw-r--r--plugins-scripts/t/check_file_age.t103
-rw-r--r--plugins/check_apt.c17
-rw-r--r--plugins/check_cluster.c10
-rw-r--r--plugins/check_dbi.c1
-rw-r--r--plugins/check_disk.c50
-rw-r--r--plugins/check_dns.c36
-rw-r--r--plugins/check_hpjd.c12
-rw-r--r--plugins/check_http.c31
-rw-r--r--plugins/check_load.c61
-rw-r--r--plugins/check_mysql.c3
-rw-r--r--plugins/check_pgsql.c1
-rw-r--r--plugins/check_procs.c5
-rw-r--r--plugins/check_smtp.c1
-rw-r--r--plugins/check_snmp.c3
-rw-r--r--plugins/check_swap.c16
-rw-r--r--plugins/common.h14
-rw-r--r--plugins/popen.c29
-rw-r--r--plugins/runcmd.c13
-rw-r--r--plugins/t/NPTest.cache.travis44
-rw-r--r--plugins/t/check_by_ssh.t14
-rw-r--r--plugins/t/check_fping.t12
-rw-r--r--plugins/t/check_ftp.t11
-rw-r--r--plugins/t/check_http.t58
-rw-r--r--plugins/t/check_imap.t15
-rw-r--r--plugins/t/check_jabber.t20
-rw-r--r--plugins/t/check_ldap.t17
-rw-r--r--plugins/t/check_mysql.t29
-rw-r--r--plugins/t/check_mysql_query.t11
-rw-r--r--plugins/t/check_snmp.t16
-rw-r--r--plugins/t/check_ssh.t14
-rw-r--r--plugins/t/check_tcp.t20
-rw-r--r--plugins/t/check_time.t11
-rw-r--r--plugins/tests/certs/server-cert.pem41
-rw-r--r--plugins/tests/certs/server-key.pem43
-rwxr-xr-xplugins/tests/check_http.t16
-rwxr-xr-xplugins/tests/check_snmp.t110
-rw-r--r--plugins/utils.c31
-rw-r--r--plugins/utils.h9
-rw-r--r--tools/squid.conf7979
54 files changed, 8964 insertions, 798 deletions
diff --git a/.travis.yml b/.travis.yml
index dc56356..3d9fe64 100644
--- a/.travis.yml
+++ b/.travis.yml
@@ -1,5 +1,5 @@
1sudo: required 1sudo: required
2dist: trusty 2dist: xenial
3language: c 3language: c
4 4
5env: 5env:
@@ -39,12 +39,8 @@ before_install:
39 - "sudo killall -9 ntpd ||:" 39 - "sudo killall -9 ntpd ||:"
40 # Trusty has no swap, lets create some 40 # Trusty has no swap, lets create some
41 - sudo fallocate -l 20M /swapfile; sudo chmod 600 /swapfile; sudo mkswap /swapfile; sudo swapon /swapfile 41 - sudo fallocate -l 20M /swapfile; sudo chmod 600 /swapfile; sudo mkswap /swapfile; sudo swapon /swapfile
42 - sudo add-apt-repository -y ppa:waja/trusty-backports
43 - sudo apt-get update -qq 42 - sudo apt-get update -qq
44 - sudo apt-get purge -qq gawk 43 - sudo apt-get purge -qq gawk
45 # http://docs.travis-ci.com/user/trusty-ci-environment/ indicates, no MySQL on Trusty (yet)
46 # # ensure we have a test database in place for tests
47 # - mysql -e "create database IF NOT EXISTS test;" -uroot
48 44
49install: 45install:
50 - sudo apt-get install -qq --no-install-recommends perl autotools-dev libdbi-dev libldap2-dev libpq-dev libmysqlclient-dev libradcli-dev libkrb5-dev libnet-snmp-perl procps 46 - sudo apt-get install -qq --no-install-recommends perl autotools-dev libdbi-dev libldap2-dev libpq-dev libmysqlclient-dev libradcli-dev libkrb5-dev libnet-snmp-perl procps
@@ -57,6 +53,7 @@ install:
57 - sudo apt-get install -qq --no-install-recommends libmonitoring-plugin-perl 53 - sudo apt-get install -qq --no-install-recommends libmonitoring-plugin-perl
58 - sudo apt-get install -qq --no-install-recommends libcurl4-openssl-dev 54 - sudo apt-get install -qq --no-install-recommends libcurl4-openssl-dev
59 - sudo apt-get install -qq --no-install-recommends liburiparser-dev 55 - sudo apt-get install -qq --no-install-recommends liburiparser-dev
56 - sudo apt-get install -qq --no-install-recommends squid
60 # Trusty related dependencies (not yet provided) 57 # Trusty related dependencies (not yet provided)
61 - test "$(dpkg -l | grep -E "mysql-(client|server)-[0-9].[0-9]" | grep -c ^ii)" -gt 0 || sudo apt-get install -qq --no-install-recommends mariadb-client mariadb-server 58 - test "$(dpkg -l | grep -E "mysql-(client|server)-[0-9].[0-9]" | grep -c ^ii)" -gt 0 || sudo apt-get install -qq --no-install-recommends mariadb-client mariadb-server
62 # enable ssl apache 59 # enable ssl apache
@@ -64,6 +61,9 @@ install:
64 - sudo a2ensite default-ssl 61 - sudo a2ensite default-ssl
65 - sudo make-ssl-cert generate-default-snakeoil --force-overwrite 62 - sudo make-ssl-cert generate-default-snakeoil --force-overwrite
66 - sudo service apache2 reload 63 - sudo service apache2 reload
64 - sudo cp tools/squid.conf /etc/squid/squid.conf
65 - sudo service squid reload
66 - sudo service mysql restart
67 67
68before_script: 68before_script:
69 # ensure we have a test database in place for tests 69 # ensure we have a test database in place for tests
@@ -73,15 +73,16 @@ before_script:
73 - tools/setup 73 - tools/setup
74 - ./configure --enable-libtap 74 - ./configure --enable-libtap
75 - make 75 - make
76 - export NPTEST_ACCEPTDEFAULT=1
76 - export NPTEST_CACHE="$(pwd)/plugins/t/NPTest.cache.travis" 77 - export NPTEST_CACHE="$(pwd)/plugins/t/NPTest.cache.travis"
77 - ssh-keygen -t dsa -N "" -f ~/.ssh/id_dsa 78 - ssh-keygen -t rsa -N "" -f ~/.ssh/id_rsa
78 - cat ~/.ssh/id_dsa.pub >> ~/.ssh/authorized_keys 79 - cat ~/.ssh/id_rsa.pub >> ~/.ssh/authorized_keys
79 - ssh-keyscan localhost >> ~/.ssh/known_hosts 80 - ssh-keyscan localhost >> ~/.ssh/known_hosts
80 - touch ~/.ssh/config 81 - touch ~/.ssh/config
81 - sudo rm -f /usr/share/mibs/ietf/SNMPv2-PDU /usr/share/mibs/ietf/IPSEC-SPD-MIB /usr/share/mibs/ietf/IPATM-IPMC-MIB /usr/share/mibs/iana/IANA-IPPM-METRICS-REGISTRY-MIB 82 - sudo rm -f /usr/share/mibs/ietf/SNMPv2-PDU /usr/share/mibs/ietf/IPSEC-SPD-MIB /usr/share/mibs/ietf/IPATM-IPMC-MIB /usr/share/mibs/iana/IANA-IPPM-METRICS-REGISTRY-MIB
82 - sudo mkdir -p /var/lib/snmp/mib_indexes 83 - sudo mkdir -p /var/lib/snmp/mib_indexes
83 - sudo mkdir /media/ramdisk && sudo chmod 777 /media/ramdisk && sudo mount -t tmpfs -o size=20% none /media/ramdisk 84 - sudo mkdir /media/ramdisk && sudo chmod 777 /media/ramdisk && sudo mount -t tmpfs -o size=20% none /media/ramdisk
84 - sed "/host_tls_cert/s/.*/'host_tls_cert' => '$(hostname)',/" -i $NPTEST_CACHE 85 - sed "/NP_HOST_TLS_CERT/s/.*/'NP_HOST_TLS_CERT' => '$(hostname)',/" -i $NPTEST_CACHE
85 86
86script: 87script:
87 - if [ "$COVERITY_SCAN_BRANCH" != 1 ]; then make test; fi 88 - if [ "$COVERITY_SCAN_BRANCH" != 1 ]; then make test; fi
@@ -95,4 +96,3 @@ notifications:
95 skip_join: true 96 skip_join: true
96 email: 97 email:
97 # - team@monitoring-plugins.org 98 # - team@monitoring-plugins.org
98
diff --git a/Makefile.am b/Makefile.am
index 7e0d413..df1bcbb 100644
--- a/Makefile.am
+++ b/Makefile.am
@@ -34,6 +34,7 @@ test test-debug:
34 if test "$(PERLMODS_DIR)" != ""; then cd perlmods && $(MAKE) $@; fi 34 if test "$(PERLMODS_DIR)" != ""; then cd perlmods && $(MAKE) $@; fi
35 cd plugins && $(MAKE) $@ 35 cd plugins && $(MAKE) $@
36 cd plugins-scripts && $(MAKE) $@ 36 cd plugins-scripts && $(MAKE) $@
37 cd plugins-root && $(MAKE) $@
37 38
38# Solaris pkgmk 39# Solaris pkgmk
39BUILDDIR = build-solaris 40BUILDDIR = build-solaris
diff --git a/NEWS b/NEWS
index 2db2a2c..0848705 100644
--- a/NEWS
+++ b/NEWS
@@ -5,6 +5,8 @@ This file documents the major additions and syntax changes between releases.
5 check_dns: allow 'expected address' (-a) to be specified in CIDR notation 5 check_dns: allow 'expected address' (-a) to be specified in CIDR notation
6 (IPv4 only). 6 (IPv4 only).
7 check_dns: allow for IPv6 RDNS 7 check_dns: allow for IPv6 RDNS
8 check_dns: allow unsorted addresses
9 check_dns: allow forcing complete match of all addresses
8 check_apt: add --only-critical switch 10 check_apt: add --only-critical switch
9 check_apt: add -l/--list option to print packages 11 check_apt: add -l/--list option to print packages
10 12
diff --git a/NPTest.pm b/NPTest.pm
index f72ed2d..4b2de39 100644
--- a/NPTest.pm
+++ b/NPTest.pm
@@ -53,8 +53,8 @@ developer to interactively request test parameter information from the
53user. The user can accept the developer's default value or reply "none" 53user. The user can accept the developer's default value or reply "none"
54which will then be returned as "" for the test to skip if appropriate. 54which will then be returned as "" for the test to skip if appropriate.
55 55
56If a parameter needs to be entered and the test is run without a tty 56If a parameter needs to be entered and the test is run without a tty
57attached (such as a cronjob), the parameter will be assigned as if it 57attached (such as a cronjob), the parameter will be assigned as if it
58was "none". Tests can check for the parameter and skip if not set. 58was "none". Tests can check for the parameter and skip if not set.
59 59
60Responses are stored in an external, file-based cache so subsequent test 60Responses are stored in an external, file-based cache so subsequent test
@@ -62,17 +62,6 @@ runs will use these values. The user is able to change the values by
62amending the values in the file /var/tmp/NPTest.cache, or by setting 62amending the values in the file /var/tmp/NPTest.cache, or by setting
63the appropriate environment variable before running the test. 63the appropriate environment variable before running the test.
64 64
65The option exists to store parameters in a scoped means, allowing a
66test harness to a localise a parameter should the need arise. This
67allows a parameter of the same name to exist in a test harness
68specific scope, while not affecting the globally scoped parameter. The
69scoping identifier is the name of the test harness sans the trailing
70".t". All cache searches first look to a scoped parameter before
71looking for the parameter at global scope. Thus for a test harness
72called "check_disk.t" requesting the parameter "mountpoint_valid", the
73cache is first searched for "check_disk"/"mountpoint_valid", if this
74fails, then a search is conducted for "mountpoint_valid".
75
76To facilitate quick testing setup, it is possible to accept all the 65To facilitate quick testing setup, it is possible to accept all the
77developer provided defaults by setting the environment variable 66developer provided defaults by setting the environment variable
78"NPTEST_ACCEPTDEFAULT" to "1" (or any other perl truth value). Note 67"NPTEST_ACCEPTDEFAULT" to "1" (or any other perl truth value). Note
@@ -249,26 +238,26 @@ sub checkCmd
249 { 238 {
250 if ( scalar( grep { $_ == $exitStatus } @{$desiredExitStatus} ) ) 239 if ( scalar( grep { $_ == $exitStatus } @{$desiredExitStatus} ) )
251 { 240 {
252 $desiredExitStatus = $exitStatus; 241 $desiredExitStatus = $exitStatus;
253 } 242 }
254 else 243 else
255 { 244 {
256 $desiredExitStatus = -1; 245 $desiredExitStatus = -1;
257 } 246 }
258 } 247 }
259 elsif ( ref $desiredExitStatus eq "HASH" ) 248 elsif ( ref $desiredExitStatus eq "HASH" )
260 { 249 {
261 if ( exists( ${$desiredExitStatus}{$exitStatus} ) ) 250 if ( exists( ${$desiredExitStatus}{$exitStatus} ) )
262 { 251 {
263 if ( defined( ${$desiredExitStatus}{$exitStatus} ) ) 252 if ( defined( ${$desiredExitStatus}{$exitStatus} ) )
264 { 253 {
265 $testOutput = ${$desiredExitStatus}{$exitStatus}; 254 $testOutput = ${$desiredExitStatus}{$exitStatus};
266 } 255 }
267 $desiredExitStatus = $exitStatus; 256 $desiredExitStatus = $exitStatus;
268 } 257 }
269 else 258 else
270 { 259 {
271 $desiredExitStatus = -1; 260 $desiredExitStatus = -1;
272 } 261 }
273 } 262 }
274 263
@@ -327,78 +316,51 @@ sub skipMsg
327 return $testStatus; 316 return $testStatus;
328} 317}
329 318
330sub getTestParameter 319sub getTestParameter {
331{ 320 my($param, $description, $default) = @_;
332 my( $param, $envvar, $default, $brief, $scoped );
333 my $new_style;
334 if (scalar @_ <= 3) {
335 ($param, $brief, $default) = @_;
336 $envvar = $param;
337 $new_style = 1;
338 } else {
339 ( $param, $envvar, $default, $brief, $scoped ) = @_;
340 $new_style = 0;
341 }
342
343 # Apply default values for optional arguments
344 $scoped = ( defined( $scoped ) && $scoped );
345
346 my $testharness = basename( (caller(0))[1], ".t" ); # used for scoping
347 321
348 if ( defined( $envvar ) && exists( $ENV{$envvar} ) && $ENV{$envvar} ) 322 if($param !~ m/^NP_[A-Z0-9_]+$/mx) {
349 { 323 die("parameter should be all uppercase and start with NP_ (requested from ".(caller(0))[1].")");
350 return $ENV{$envvar};
351 } 324 }
352 325
353 my $cachedValue = SearchCache( $param, $testharness ); 326 return $ENV{$param} if $ENV{$param};
354 if ( defined( $cachedValue ) ) 327
355 { 328 my $cachedValue = SearchCache($param);
356 # This save required to convert to new style because the key required is 329 if(defined $cachedValue) {
357 # changing to the environment variable
358 if ($new_style == 0) {
359 SetCacheParameter( $envvar, undef, $cachedValue );
360 }
361 return $cachedValue; 330 return $cachedValue;
362 } 331 }
363 332
364 my $defaultValid = ( defined( $default ) && $default ); 333 if($ENV{'NPTEST_ACCEPTDEFAULT'}) {
365 my $autoAcceptDefault = ( exists( $ENV{'NPTEST_ACCEPTDEFAULT'} ) && $ENV{'NPTEST_ACCEPTDEFAULT'} ); 334 return $default if $default;
366 335 return "";
367 if ( $autoAcceptDefault && $defaultValid )
368 {
369 return $default;
370 } 336 }
371 337
372 # Set "none" if no terminal attached (eg, tinderbox build servers when new variables set) 338 # Set "none" if no terminal attached (eg, tinderbox build servers when new variables set)
373 return "" unless (-t STDIN); 339 return "" unless (-t STDIN);
374 340
375 my $userResponse = ""; 341 my $userResponse = "";
376 342 while($userResponse eq "") {
377 while ( $userResponse eq "" )
378 {
379 print STDERR "\n"; 343 print STDERR "\n";
380 print STDERR "Test Harness : $testharness\n"; 344 print STDERR "Test File : ".(caller(0))[1]."\n";
381 print STDERR "Test Parameter : $param\n"; 345 print STDERR "Test Parameter : $param\n";
382 print STDERR "Environment Variable : $envvar\n" if ($param ne $envvar); 346 print STDERR "Description : $description\n";
383 print STDERR "Brief Description : $brief\n"; 347 print STDERR "Enter value (or 'none') ", ($default ? "[${default}]" : "[]"), " => ";
384 print STDERR "Enter value (or 'none') ", ($defaultValid ? "[${default}]" : "[]"), " => ";
385 $userResponse = <STDIN>; 348 $userResponse = <STDIN>;
386 $userResponse = "" if ! defined( $userResponse ); # Handle EOF 349 $userResponse = "" if ! defined( $userResponse ); # Handle EOF
387 chomp( $userResponse ); 350 chomp($userResponse);
388 if ( $defaultValid && $userResponse eq "" ) 351 if($default && $userResponse eq "") {
389 {
390 $userResponse = $default; 352 $userResponse = $default;
391 } 353 }
392 } 354 }
393 355
394 print STDERR "\n"; 356 print STDERR "\n";
395 357
396 if ($userResponse =~ /^(na|none)$/) { 358 if($userResponse =~ /^(na|none)$/) {
397 $userResponse = ""; 359 $userResponse = "";
398 } 360 }
399 361
400 # define all user responses at global scope 362 # store user responses
401 SetCacheParameter( $param, ( $scoped ? $testharness : undef ), $userResponse ); 363 SetCacheParameter($param, $userResponse);
402 364
403 return $userResponse; 365 return $userResponse;
404} 366}
@@ -407,37 +369,20 @@ sub getTestParameter
407# Internal Cache Management Functions 369# Internal Cache Management Functions
408# 370#
409 371
410sub SearchCache 372sub SearchCache {
411{ 373 my($param) = @_;
412 my( $param, $scope ) = @_;
413 374
414 LoadCache(); 375 LoadCache();
415 376
416 if ( exists( $CACHE{$scope} ) && exists( $CACHE{$scope}{$param} ) ) 377 if(exists $CACHE{$param}) {
417 {
418 return $CACHE{$scope}{$param};
419 }
420
421 if ( exists( $CACHE{$param} ) )
422 {
423 return $CACHE{$param}; 378 return $CACHE{$param};
424 } 379 }
425 return undef; # Need this to say "nothing found" 380 return undef; # Need this to say "nothing found"
426} 381}
427 382
428sub SetCacheParameter 383sub SetCacheParameter {
429{ 384 my($param, $value) = @_;
430 my( $param, $scope, $value ) = @_; 385 $CACHE{$param} = $value;
431
432 if ( defined( $scope ) )
433 {
434 $CACHE{$scope}{$param} = $value;
435 }
436 else
437 {
438 $CACHE{$param} = $value;
439 }
440
441 SaveCache(); 386 SaveCache();
442} 387}
443 388
@@ -475,6 +420,11 @@ sub SaveCache
475 delete $CACHE{'_cache_loaded_'}; 420 delete $CACHE{'_cache_loaded_'};
476 my $oldFileContents = delete $CACHE{'_original_cache'}; 421 my $oldFileContents = delete $CACHE{'_original_cache'};
477 422
423 # clean up old style params
424 for my $key (keys %CACHE) {
425 delete $CACHE{$key} if $key !~ m/^NP_[A-Z0-9_]+$/mx;
426 }
427
478 my($dataDumper) = new Data::Dumper([\%CACHE]); 428 my($dataDumper) = new Data::Dumper([\%CACHE]);
479 $dataDumper->Terse(1); 429 $dataDumper->Terse(1);
480 $dataDumper->Sortkeys(1); 430 $dataDumper->Sortkeys(1);
@@ -486,7 +436,7 @@ sub SaveCache
486 if($oldFileContents ne $data) { 436 if($oldFileContents ne $data) {
487 my($fileHandle) = new IO::File; 437 my($fileHandle) = new IO::File;
488 if (!$fileHandle->open( "> ${CACHEFILENAME}")) { 438 if (!$fileHandle->open( "> ${CACHEFILENAME}")) {
489 print STDERR "NPTest::LoadCache() : Problem saving ${CACHEFILENAME} : $!\n"; 439 print STDERR "NPTest::SaveCache() : Problem saving ${CACHEFILENAME} : $!\n";
490 return; 440 return;
491 } 441 }
492 print $fileHandle $data; 442 print $fileHandle $data;
@@ -542,10 +492,10 @@ sub DetermineTestHarnessDirectory
542 push ( @dirs, "./tests"); 492 push ( @dirs, "./tests");
543 } 493 }
544 494
545 if ( @dirs > 0 ) 495 if ( @dirs > 0 )
546 { 496 {
547 return @dirs; 497 return @dirs;
548 } 498 }
549 499
550 # To be honest I don't understand which case satisfies the 500 # To be honest I don't understand which case satisfies the
551 # original code in test.pl : when $tstdir == `pwd` w.r.t. 501 # original code in test.pl : when $tstdir == `pwd` w.r.t.
@@ -611,73 +561,73 @@ sub TestsFrom
611 561
612# All the new object oriented stuff below 562# All the new object oriented stuff below
613 563
614sub new { 564sub new {
615 my $type = shift; 565 my $type = shift;
616 my $self = {}; 566 my $self = {};
617 return bless $self, $type; 567 return bless $self, $type;
618} 568}
619 569
620# Accessors 570# Accessors
621sub return_code { 571sub return_code {
622 my $self = shift; 572 my $self = shift;
623 if (@_) { 573 if (@_) {
624 return $self->{return_code} = shift; 574 return $self->{return_code} = shift;
625 } else { 575 } else {
626 return $self->{return_code}; 576 return $self->{return_code};
627 } 577 }
628} 578}
629sub output { 579sub output {
630 my $self = shift; 580 my $self = shift;
631 if (@_) { 581 if (@_) {
632 return $self->{output} = shift; 582 return $self->{output} = shift;
633 } else { 583 } else {
634 return $self->{output}; 584 return $self->{output};
635 } 585 }
636} 586}
637 587
638sub perf_output { 588sub perf_output {
639 my $self = shift; 589 my $self = shift;
640 $_ = $self->{output}; 590 $_ = $self->{output};
641 /\|(.*)$/; 591 /\|(.*)$/;
642 return $1 || ""; 592 return $1 || "";
643} 593}
644 594
645sub only_output { 595sub only_output {
646 my $self = shift; 596 my $self = shift;
647 $_ = $self->{output}; 597 $_ = $self->{output};
648 /(.*?)\|/; 598 /(.*?)\|/;
649 return $1 || ""; 599 return $1 || "";
650} 600}
651 601
652sub testCmd { 602sub testCmd {
653 my $class = shift; 603 my $class = shift;
654 my $command = shift or die "No command passed to testCmd"; 604 my $command = shift or die "No command passed to testCmd";
655 my $timeout = shift || 120; 605 my $timeout = shift || 120;
656 my $object = $class->new; 606 my $object = $class->new;
657 607
658 local $SIG{'ALRM'} = sub { die("timeout in command: $command"); }; 608 local $SIG{'ALRM'} = sub { die("timeout in command: $command"); };
659 alarm($timeout); # no test should take longer than 120 seconds 609 alarm($timeout); # no test should take longer than 120 seconds
660 610
661 my $output = `$command`; 611 my $output = `$command`;
662 $object->return_code($? >> 8); 612 $object->return_code($? >> 8);
663 $_ = $? & 127; 613 $_ = $? & 127;
664 if ($_) { 614 if ($_) {
665 die "Got signal $_ for command $command"; 615 die "Got signal $_ for command $command";
666 } 616 }
667 chomp $output; 617 chomp $output;
668 $object->output($output); 618 $object->output($output);
669 619
670 alarm(0); 620 alarm(0);
671 621
672 my ($pkg, $file, $line) = caller(0); 622 my ($pkg, $file, $line) = caller(0);
673 print "Testing: $command", $/; 623 print "Testing: $command", $/;
674 if ($ENV{'NPTEST_DEBUG'}) { 624 if ($ENV{'NPTEST_DEBUG'}) {
675 print "testCmd: Called from line $line in $file", $/; 625 print "testCmd: Called from line $line in $file", $/;
676 print "Output: ", $object->output, $/; 626 print "Output: ", $object->output, $/;
677 print "Return code: ", $object->return_code, $/; 627 print "Return code: ", $object->return_code, $/;
678 } 628 }
679 629
680 return $object; 630 return $object;
681} 631}
682 632
683# do we have ipv6 633# do we have ipv6
diff --git a/THANKS.in b/THANKS.in
index ebc8155..9bb4382 100644
--- a/THANKS.in
+++ b/THANKS.in
@@ -356,3 +356,4 @@ Sven Geggus
356Thomas Kurschel 356Thomas Kurschel
357Yannick Charton 357Yannick Charton
358Nicolai Søborg 358Nicolai Søborg
359Rolf Eike Beer
diff --git a/configure.ac b/configure.ac
index d50e4e9..4ce1409 100644
--- a/configure.ac
+++ b/configure.ac
@@ -1053,6 +1053,10 @@ if test -n "$ac_cv_ps_varlist" ; then
1053 AC_DEFINE(PS_USES_PROCETIME,"yes", 1053 AC_DEFINE(PS_USES_PROCETIME,"yes",
1054 [Whether the ps utility uses the "procetime" field]) 1054 [Whether the ps utility uses the "procetime" field])
1055 fi 1055 fi
1056 if echo "$ac_cv_ps_varlist" | grep "procpcpu" >/dev/null; then
1057 AC_DEFINE(PS_USES_PROCPCPU,"yes",
1058 [Whether the ps utility uses the "procpcpu" field])
1059 fi
1056fi 1060fi
1057 1061
1058AC_PATH_PROG(PATH_TO_PING,ping) 1062AC_PATH_PROG(PATH_TO_PING,ping)
diff --git a/gl/fsusage.c b/gl/fsusage.c
index 0657555..6103ecf 100644
--- a/gl/fsusage.c
+++ b/gl/fsusage.c
@@ -143,6 +143,7 @@ get_fs_usage (char const *file, char const *disk, struct fs_usage *fsp)
143 fsp->fsu_bavail_top_bit_set = EXTRACT_TOP_BIT (vfsd.f_bavail) != 0; 143 fsp->fsu_bavail_top_bit_set = EXTRACT_TOP_BIT (vfsd.f_bavail) != 0;
144 fsp->fsu_files = PROPAGATE_ALL_ONES (vfsd.f_files); 144 fsp->fsu_files = PROPAGATE_ALL_ONES (vfsd.f_files);
145 fsp->fsu_ffree = PROPAGATE_ALL_ONES (vfsd.f_ffree); 145 fsp->fsu_ffree = PROPAGATE_ALL_ONES (vfsd.f_ffree);
146 fsp->fsu_favail = PROPAGATE_ALL_ONES (vfsd.f_favail);
146 return 0; 147 return 0;
147 } 148 }
148 149
@@ -174,6 +175,7 @@ get_fs_usage (char const *file, char const *disk, struct fs_usage *fsp)
174 fsp->fsu_bavail_top_bit_set = EXTRACT_TOP_BIT (fsd.fd_req.bfreen) != 0; 175 fsp->fsu_bavail_top_bit_set = EXTRACT_TOP_BIT (fsd.fd_req.bfreen) != 0;
175 fsp->fsu_files = PROPAGATE_ALL_ONES (fsd.fd_req.gtot); 176 fsp->fsu_files = PROPAGATE_ALL_ONES (fsd.fd_req.gtot);
176 fsp->fsu_ffree = PROPAGATE_ALL_ONES (fsd.fd_req.gfree); 177 fsp->fsu_ffree = PROPAGATE_ALL_ONES (fsd.fd_req.gfree);
178 fsp->fsu_favail = PROPAGATE_ALL_ONES (fsd.fd_req.gfree);
177 179
178#elif defined STAT_READ_FILSYS /* SVR2 */ 180#elif defined STAT_READ_FILSYS /* SVR2 */
179# ifndef SUPERBOFF 181# ifndef SUPERBOFF
@@ -209,6 +211,7 @@ get_fs_usage (char const *file, char const *disk, struct fs_usage *fsp)
209 ? UINTMAX_MAX 211 ? UINTMAX_MAX
210 : (fsd.s_isize - 2) * INOPB * (fsd.s_type == Fs2b ? 2 : 1)); 212 : (fsd.s_isize - 2) * INOPB * (fsd.s_type == Fs2b ? 2 : 1));
211 fsp->fsu_ffree = PROPAGATE_ALL_ONES (fsd.s_tinode); 213 fsp->fsu_ffree = PROPAGATE_ALL_ONES (fsd.s_tinode);
214 fsp->fsu_favail = PROPAGATE_ALL_ONES (fsd.s_tinode);
212 215
213#elif defined STAT_STATFS3_OSF1 /* OSF/1 */ 216#elif defined STAT_STATFS3_OSF1 /* OSF/1 */
214 217
@@ -296,6 +299,7 @@ get_fs_usage (char const *file, char const *disk, struct fs_usage *fsp)
296 fsp->fsu_bavail_top_bit_set = EXTRACT_TOP_BIT (fsd.f_bavail) != 0; 299 fsp->fsu_bavail_top_bit_set = EXTRACT_TOP_BIT (fsd.f_bavail) != 0;
297 fsp->fsu_files = PROPAGATE_ALL_ONES (fsd.f_files); 300 fsp->fsu_files = PROPAGATE_ALL_ONES (fsd.f_files);
298 fsp->fsu_ffree = PROPAGATE_ALL_ONES (fsd.f_ffree); 301 fsp->fsu_ffree = PROPAGATE_ALL_ONES (fsd.f_ffree);
302 fsp->fsu_favail = PROPAGATE_ALL_ONES (fsd.f_ffree);
299 303
300#endif 304#endif
301 305
@@ -323,6 +327,7 @@ statfs (char *file, struct statfs *fsb)
323 fsb->f_bavail = fsd.du_tfree; 327 fsb->f_bavail = fsd.du_tfree;
324 fsb->f_files = (fsd.du_isize - 2) * fsd.du_inopb; 328 fsb->f_files = (fsd.du_isize - 2) * fsd.du_inopb;
325 fsb->f_ffree = fsd.du_tinode; 329 fsb->f_ffree = fsd.du_tinode;
330 fsb->f_favail = fsd.du_tinode;
326 fsb->f_fsid.val[0] = fsd.du_site; 331 fsb->f_fsid.val[0] = fsd.du_site;
327 fsb->f_fsid.val[1] = fsd.du_pckno; 332 fsb->f_fsid.val[1] = fsd.du_pckno;
328 return 0; 333 return 0;
diff --git a/gl/fsusage.h b/gl/fsusage.h
index 7810fc0..e2654fd 100644
--- a/gl/fsusage.h
+++ b/gl/fsusage.h
@@ -32,7 +32,8 @@ struct fs_usage
32 uintmax_t fsu_bavail; /* Free blocks available to non-superuser. */ 32 uintmax_t fsu_bavail; /* Free blocks available to non-superuser. */
33 bool fsu_bavail_top_bit_set; /* 1 if fsu_bavail represents a value < 0. */ 33 bool fsu_bavail_top_bit_set; /* 1 if fsu_bavail represents a value < 0. */
34 uintmax_t fsu_files; /* Total file nodes. */ 34 uintmax_t fsu_files; /* Total file nodes. */
35 uintmax_t fsu_ffree; /* Free file nodes. */ 35 uintmax_t fsu_ffree; /* Free file nodes to superuser. */
36 uintmax_t fsu_favail; /* Free file nodes to non-superuser. */
36}; 37};
37 38
38int get_fs_usage (char const *file, char const *disk, struct fs_usage *fsp); 39int get_fs_usage (char const *file, char const *disk, struct fs_usage *fsp);
diff --git a/lib/utils_base.c b/lib/utils_base.c
index 19a531f..fd7058d 100644
--- a/lib/utils_base.c
+++ b/lib/utils_base.c
@@ -37,6 +37,9 @@
37 37
38monitoring_plugin *this_monitoring_plugin=NULL; 38monitoring_plugin *this_monitoring_plugin=NULL;
39 39
40unsigned int timeout_state = STATE_CRITICAL;
41unsigned int timeout_interval = DEFAULT_SOCKET_TIMEOUT;
42
40int _np_state_read_file(FILE *); 43int _np_state_read_file(FILE *);
41 44
42void np_init( char *plugin_name, int argc, char **argv ) { 45void np_init( char *plugin_name, int argc, char **argv ) {
@@ -359,6 +362,22 @@ char *np_extract_value(const char *varlist, const char *name, char sep) {
359 return value; 362 return value;
360} 363}
361 364
365const char *
366state_text (int result)
367{
368 switch (result) {
369 case STATE_OK:
370 return "OK";
371 case STATE_WARNING:
372 return "WARNING";
373 case STATE_CRITICAL:
374 return "CRITICAL";
375 case STATE_DEPENDENT:
376 return "DEPENDENT";
377 default:
378 return "UNKNOWN";
379 }
380}
362 381
363/* 382/*
364 * Read a string representing a state (ok, warning... or numeric: 0, 1) and 383 * Read a string representing a state (ok, warning... or numeric: 0, 1) and
diff --git a/lib/utils_base.h b/lib/utils_base.h
index 42ae0c0..d7e7dff 100644
--- a/lib/utils_base.h
+++ b/lib/utils_base.h
@@ -61,6 +61,10 @@ void print_thresholds(const char *, thresholds *);
61int check_range(double, range *); 61int check_range(double, range *);
62int get_status(double, thresholds *); 62int get_status(double, thresholds *);
63 63
64/* Handle timeouts */
65extern unsigned int timeout_state;
66extern unsigned int timeout_interval;
67
64/* All possible characters in a threshold range */ 68/* All possible characters in a threshold range */
65#define NP_THRESHOLDS_CHARS "-0123456789.:@~" 69#define NP_THRESHOLDS_CHARS "-0123456789.:@~"
66 70
@@ -107,5 +111,6 @@ void np_state_write_string(time_t, char *);
107void np_init(char *, int argc, char **argv); 111void np_init(char *, int argc, char **argv);
108void np_set_args(int argc, char **argv); 112void np_set_args(int argc, char **argv);
109void np_cleanup(); 113void np_cleanup();
114const char *state_text (int);
110 115
111#endif /* _UTILS_BASE_ */ 116#endif /* _UTILS_BASE_ */
diff --git a/lib/utils_cmd.c b/lib/utils_cmd.c
index 7eb9a3a..795840d 100644
--- a/lib/utils_cmd.c
+++ b/lib/utils_cmd.c
@@ -40,6 +40,7 @@
40 40
41/** includes **/ 41/** includes **/
42#include "common.h" 42#include "common.h"
43#include "utils.h"
43#include "utils_cmd.h" 44#include "utils_cmd.h"
44#include "utils_base.h" 45#include "utils_base.h"
45#include <fcntl.h> 46#include <fcntl.h>
@@ -65,31 +66,6 @@ extern char **environ;
65# define SIG_ERR ((Sigfunc *)-1) 66# define SIG_ERR ((Sigfunc *)-1)
66#endif 67#endif
67 68
68/* This variable must be global, since there's no way the caller
69 * can forcibly slay a dead or ungainly running program otherwise.
70 * Multithreading apps and plugins can initialize it (via CMD_INIT)
71 * in an async safe manner PRIOR to calling cmd_run() or cmd_run_array()
72 * for the first time.
73 *
74 * The check for initialized values is atomic and can
75 * occur in any number of threads simultaneously. */
76static pid_t *_cmd_pids = NULL;
77
78/* Try sysconf(_SC_OPEN_MAX) first, as it can be higher than OPEN_MAX.
79 * If that fails and the macro isn't defined, we fall back to an educated
80 * guess. There's no guarantee that our guess is adequate and the program
81 * will die with SIGSEGV if it isn't and the upper boundary is breached. */
82#define DEFAULT_MAXFD 256 /* fallback value if no max open files value is set */
83#define MAXFD_LIMIT 8192 /* upper limit of open files */
84#ifdef _SC_OPEN_MAX
85static long maxfd = 0;
86#elif defined(OPEN_MAX)
87# define maxfd OPEN_MAX
88#else /* sysconf macro unavailable, so guess (may be wildly inaccurate) */
89# define maxfd DEFAULT_MAXFD
90#endif
91
92
93/** prototypes **/ 69/** prototypes **/
94static int _cmd_open (char *const *, int *, int *) 70static int _cmd_open (char *const *, int *, int *)
95 __attribute__ ((__nonnull__ (1, 2, 3))); 71 __attribute__ ((__nonnull__ (1, 2, 3)));
@@ -406,3 +382,19 @@ cmd_file_read ( char *filename, output *out, int flags)
406 382
407 return 0; 383 return 0;
408} 384}
385
386void
387timeout_alarm_handler (int signo)
388{
389 size_t i;
390 if (signo == SIGALRM) {
391 printf (_("%s - Plugin timed out after %d seconds\n"),
392 state_text(timeout_state), timeout_interval);
393
394 if(_cmd_pids) for(i = 0; i < maxfd; i++) {
395 if(_cmd_pids[i] != 0) kill(_cmd_pids[i], SIGKILL);
396 }
397
398 exit (timeout_state);
399 }
400}
diff --git a/lib/utils_cmd.h b/lib/utils_cmd.h
index ebaf15b..6f3aeb8 100644
--- a/lib/utils_cmd.h
+++ b/lib/utils_cmd.h
@@ -32,4 +32,17 @@ void cmd_init (void);
32#define CMD_NO_ARRAYS 0x01 /* don't populate arrays at all */ 32#define CMD_NO_ARRAYS 0x01 /* don't populate arrays at all */
33#define CMD_NO_ASSOC 0x02 /* output.line won't point to buf */ 33#define CMD_NO_ASSOC 0x02 /* output.line won't point to buf */
34 34
35/* This variable must be global, since there's no way the caller
36 * can forcibly slay a dead or ungainly running program otherwise.
37 * Multithreading apps and plugins can initialize it (via CMD_INIT)
38 * in an async safe manner PRIOR to calling cmd_run() or cmd_run_array()
39 * for the first time.
40 *
41 * The check for initialized values is atomic and can
42 * occur in any number of threads simultaneously. */
43static pid_t *_cmd_pids = NULL;
44
45RETSIGTYPE timeout_alarm_handler (int);
46
47
35#endif /* _UTILS_CMD_ */ 48#endif /* _UTILS_CMD_ */
diff --git a/lib/utils_disk.c b/lib/utils_disk.c
index efe35fc..c7c9126 100644
--- a/lib/utils_disk.c
+++ b/lib/utils_disk.c
@@ -69,6 +69,8 @@ np_add_parameter(struct parameter_list **list, const char *name)
69 new_path->dtotal_units = 0; 69 new_path->dtotal_units = 0;
70 new_path->inodes_total = 0; 70 new_path->inodes_total = 0;
71 new_path->inodes_free = 0; 71 new_path->inodes_free = 0;
72 new_path->inodes_free_to_root = 0;
73 new_path->inodes_used = 0;
72 new_path->dused_inodes_percent = 0; 74 new_path->dused_inodes_percent = 0;
73 new_path->dfree_inodes_percent = 0; 75 new_path->dfree_inodes_percent = 0;
74 76
diff --git a/lib/utils_disk.h b/lib/utils_disk.h
index 83a3763..999270c 100644
--- a/lib/utils_disk.h
+++ b/lib/utils_disk.h
@@ -24,7 +24,8 @@ struct parameter_list
24 char *group; 24 char *group;
25 struct mount_entry *best_match; 25 struct mount_entry *best_match;
26 struct parameter_list *name_next; 26 struct parameter_list *name_next;
27 uintmax_t total, available, available_to_root, used, inodes_free, inodes_total; 27 uintmax_t total, available, available_to_root, used,
28 inodes_free, inodes_free_to_root, inodes_used, inodes_total;
28 double dfree_pct, dused_pct; 29 double dfree_pct, dused_pct;
29 double dused_units, dfree_units, dtotal_units; 30 double dused_units, dfree_units, dtotal_units;
30 double dused_inodes_percent, dfree_inodes_percent; 31 double dused_inodes_percent, dfree_inodes_percent;
diff --git a/plugins-root/check_icmp.c b/plugins-root/check_icmp.c
index 4098874..e45fdf6 100644
--- a/plugins-root/check_icmp.c
+++ b/plugins-root/check_icmp.c
@@ -67,7 +67,9 @@ const char *email = "devel@monitoring-plugins.org";
67#include <netinet/in_systm.h> 67#include <netinet/in_systm.h>
68#include <netinet/in.h> 68#include <netinet/in.h>
69#include <netinet/ip.h> 69#include <netinet/ip.h>
70#include <netinet/ip6.h>
70#include <netinet/ip_icmp.h> 71#include <netinet/ip_icmp.h>
72#include <netinet/icmp6.h>
71#include <arpa/inet.h> 73#include <arpa/inet.h>
72#include <signal.h> 74#include <signal.h>
73#include <float.h> 75#include <float.h>
@@ -113,8 +115,8 @@ typedef struct rta_host {
113 unsigned short id; /* id in **table, and icmp pkts */ 115 unsigned short id; /* id in **table, and icmp pkts */
114 char *name; /* arg used for adding this host */ 116 char *name; /* arg used for adding this host */
115 char *msg; /* icmp error message, if any */ 117 char *msg; /* icmp error message, if any */
116 struct sockaddr_in saddr_in; /* the address of this host */ 118 struct sockaddr_storage saddr_in; /* the address of this host */
117 struct in_addr error_addr; /* stores address of error replies */ 119 struct sockaddr_storage error_addr; /* stores address of error replies */
118 unsigned long long time_waited; /* total time waited, in usecs */ 120 unsigned long long time_waited; /* total time waited, in usecs */
119 unsigned int icmp_sent, icmp_recv, icmp_lost; /* counters */ 121 unsigned int icmp_sent, icmp_recv, icmp_lost; /* counters */
120 unsigned char icmp_type, icmp_code; /* type and code from errors */ 122 unsigned char icmp_type, icmp_code; /* type and code from errors */
@@ -140,6 +142,18 @@ typedef struct icmp_ping_data {
140 unsigned short ping_id; 142 unsigned short ping_id;
141} icmp_ping_data; 143} icmp_ping_data;
142 144
145typedef union ip_hdr {
146 struct ip ip;
147 struct ip6_hdr ip6;
148} ip_hdr;
149
150typedef union icmp_packet {
151 void *buf;
152 struct icmp *icp;
153 struct icmp6_hdr *icp6;
154 u_short *cksum_in;
155} icmp_packet;
156
143/* the different modes of this program are as follows: 157/* the different modes of this program are as follows:
144 * MODE_RTA: send all packets no matter what (mimic check_icmp and check_ping) 158 * MODE_RTA: send all packets no matter what (mimic check_icmp and check_ping)
145 * MODE_HOSTCHECK: Return immediately upon any sign of life 159 * MODE_HOSTCHECK: Return immediately upon any sign of life
@@ -190,8 +204,9 @@ static int get_threshold(char *str, threshold *th);
190static void run_checks(void); 204static void run_checks(void);
191static void set_source_ip(char *); 205static void set_source_ip(char *);
192static int add_target(char *); 206static int add_target(char *);
193static int add_target_ip(char *, struct in_addr *); 207static int add_target_ip(char *, struct sockaddr_storage *);
194static int handle_random_icmp(unsigned char *, struct sockaddr_in *); 208static int handle_random_icmp(unsigned char *, struct sockaddr_storage *);
209static void parse_address(struct sockaddr_storage *, char *, int);
195static unsigned short icmp_checksum(unsigned short *, int); 210static unsigned short icmp_checksum(unsigned short *, int);
196static void finish(int); 211static void finish(int);
197static void crash(const char *, ...); 212static void crash(const char *, ...);
@@ -300,7 +315,7 @@ get_icmp_error_msg(unsigned char icmp_type, unsigned char icmp_code)
300} 315}
301 316
302static int 317static int
303handle_random_icmp(unsigned char *packet, struct sockaddr_in *addr) 318handle_random_icmp(unsigned char *packet, struct sockaddr_storage *addr)
304{ 319{
305 struct icmp p, sent_icmp; 320 struct icmp p, sent_icmp;
306 struct rta_host *host = NULL; 321 struct rta_host *host = NULL;
@@ -342,9 +357,11 @@ handle_random_icmp(unsigned char *packet, struct sockaddr_in *addr)
342 /* it is indeed a response for us */ 357 /* it is indeed a response for us */
343 host = table[ntohs(sent_icmp.icmp_seq)/packets]; 358 host = table[ntohs(sent_icmp.icmp_seq)/packets];
344 if(debug) { 359 if(debug) {
360 char address[INET6_ADDRSTRLEN];
361 parse_address(addr, address, sizeof(address));
345 printf("Received \"%s\" from %s for ICMP ECHO sent to %s.\n", 362 printf("Received \"%s\" from %s for ICMP ECHO sent to %s.\n",
346 get_icmp_error_msg(p.icmp_type, p.icmp_code), 363 get_icmp_error_msg(p.icmp_type, p.icmp_code),
347 inet_ntoa(addr->sin_addr), host->name); 364 address, host->name);
348 } 365 }
349 366
350 icmp_lost++; 367 icmp_lost++;
@@ -364,11 +381,23 @@ handle_random_icmp(unsigned char *packet, struct sockaddr_in *addr)
364 } 381 }
365 host->icmp_type = p.icmp_type; 382 host->icmp_type = p.icmp_type;
366 host->icmp_code = p.icmp_code; 383 host->icmp_code = p.icmp_code;
367 host->error_addr.s_addr = addr->sin_addr.s_addr; 384 host->error_addr = *addr;
368 385
369 return 0; 386 return 0;
370} 387}
371 388
389void parse_address(struct sockaddr_storage *addr, char *address, int size)
390{
391 switch (address_family) {
392 case AF_INET:
393 inet_ntop(address_family, &((struct sockaddr_in *)addr)->sin_addr, address, size);
394 break;
395 case AF_INET6:
396 inet_ntop(address_family, &((struct sockaddr_in6 *)addr)->sin6_addr, address, size);
397 break;
398 }
399}
400
372int 401int
373main(int argc, char **argv) 402main(int argc, char **argv)
374{ 403{
@@ -381,6 +410,7 @@ main(int argc, char **argv)
381#ifdef SO_TIMESTAMP 410#ifdef SO_TIMESTAMP
382 int on = 1; 411 int on = 1;
383#endif 412#endif
413 char * opts_str = "vhVw:c:n:p:t:H:s:i:b:I:l:m:64";
384 414
385 setlocale (LC_ALL, ""); 415 setlocale (LC_ALL, "");
386 bindtextdomain (PACKAGE, LOCALEDIR); 416 bindtextdomain (PACKAGE, LOCALEDIR);
@@ -390,33 +420,8 @@ main(int argc, char **argv)
390 * that before pointer magic (esp. on network data) */ 420 * that before pointer magic (esp. on network data) */
391 icmp_sockerrno = udp_sockerrno = tcp_sockerrno = sockets = 0; 421 icmp_sockerrno = udp_sockerrno = tcp_sockerrno = sockets = 0;
392 422
393 if((icmp_sock = socket(PF_INET, SOCK_RAW, IPPROTO_ICMP)) != -1) 423 address_family = -1;
394 sockets |= HAVE_ICMP; 424 int icmp_proto = IPPROTO_ICMP;
395 else icmp_sockerrno = errno;
396
397 /* if((udp_sock = socket(PF_INET, SOCK_DGRAM, IPPROTO_UDP)) != -1) */
398 /* sockets |= HAVE_UDP; */
399 /* else udp_sockerrno = errno; */
400
401 /* if((tcp_sock = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP)) != -1) */
402 /* sockets |= HAVE_TCP; */
403 /* else tcp_sockerrno = errno; */
404
405 /* now drop privileges (no effect if not setsuid or geteuid() == 0) */
406 setuid(getuid());
407
408#ifdef SO_TIMESTAMP
409 if(setsockopt(icmp_sock, SOL_SOCKET, SO_TIMESTAMP, &on, sizeof(on)))
410 if(debug) printf("Warning: no SO_TIMESTAMP support\n");
411#endif // SO_TIMESTAMP
412
413 /* POSIXLY_CORRECT might break things, so unset it (the portable way) */
414 environ = NULL;
415
416 /* use the pid to mark packets as ours */
417 /* Some systems have 32-bit pid_t so mask off only 16 bits */
418 pid = getpid() & 0xffff;
419 /* printf("pid = %u\n", pid); */
420 425
421 /* get calling name the old-fashioned way for portability instead 426 /* get calling name the old-fashioned way for portability instead
422 * of relying on the glibc-ism __progname */ 427 * of relying on the glibc-ism __progname */
@@ -456,20 +461,35 @@ main(int argc, char **argv)
456 packets = 5; 461 packets = 5;
457 } 462 }
458 463
459 /* Parse extra opts if any */ 464 /* Parse protocol arguments first */
460 argv=np_extra_opts(&argc, argv, progname); 465 for(i = 1; i < argc; i++) {
461 466 while((arg = getopt(argc, argv, opts_str)) != EOF) {
462 /* support "--help" and "--version" */ 467 unsigned short size;
463 if(argc == 2) { 468 switch(arg) {
464 if(!strcmp(argv[1], "--help")) 469 case '4':
465 strcpy(argv[1], "-h"); 470 if (address_family != -1)
466 if(!strcmp(argv[1], "--version")) 471 crash("Multiple protocol versions not supported");
467 strcpy(argv[1], "-V"); 472 address_family = AF_INET;
473 break;
474 case '6':
475#ifdef USE_IPV6
476 if (address_family != -1)
477 crash("Multiple protocol versions not supported");
478 address_family = AF_INET6;
479#else
480 usage (_("IPv6 support not available\n"));
481#endif
482 break;
483 }
484 }
468 } 485 }
469 486
487 /* Reset argument scanning */
488 optind = 1;
489
470 /* parse the arguments */ 490 /* parse the arguments */
471 for(i = 1; i < argc; i++) { 491 for(i = 1; i < argc; i++) {
472 while((arg = getopt(argc, argv, "vhVw:c:n:p:t:H:s:i:b:I:l:m:")) != EOF) { 492 while((arg = getopt(argc, argv, opts_str)) != EOF) {
473 unsigned short size; 493 unsigned short size;
474 switch(arg) { 494 switch(arg) {
475 case 'v': 495 case 'v':
@@ -530,10 +550,30 @@ main(int argc, char **argv)
530 case 'h': /* help */ 550 case 'h': /* help */
531 print_help (); 551 print_help ();
532 exit (STATE_UNKNOWN); 552 exit (STATE_UNKNOWN);
553 break;
533 } 554 }
534 } 555 }
535 } 556 }
536 557
558 /* POSIXLY_CORRECT might break things, so unset it (the portable way) */
559 environ = NULL;
560
561 /* use the pid to mark packets as ours */
562 /* Some systems have 32-bit pid_t so mask off only 16 bits */
563 pid = getpid() & 0xffff;
564 /* printf("pid = %u\n", pid); */
565
566 /* Parse extra opts if any */
567 argv=np_extra_opts(&argc, argv, progname);
568
569 /* support "--help" and "--version" */
570 if(argc == 2) {
571 if(!strcmp(argv[1], "--help"))
572 strcpy(argv[1], "-h");
573 if(!strcmp(argv[1], "--version"))
574 strcpy(argv[1], "-V");
575 }
576
537 argv = &argv[optind]; 577 argv = &argv[optind];
538 while(*argv) { 578 while(*argv) {
539 add_target(*argv); 579 add_target(*argv);
@@ -545,6 +585,30 @@ main(int argc, char **argv)
545 exit(3); 585 exit(3);
546 } 586 }
547 587
588 // add_target might change address_family
589 switch ( address_family ){
590 case AF_INET: icmp_proto = IPPROTO_ICMP;
591 break;
592 case AF_INET6: icmp_proto = IPPROTO_ICMPV6;
593 break;
594 default: crash("Address family not supported");
595 }
596 if((icmp_sock = socket(address_family, SOCK_RAW, icmp_proto)) != -1)
597 sockets |= HAVE_ICMP;
598 else icmp_sockerrno = errno;
599
600
601#ifdef SO_TIMESTAMP
602 if(setsockopt(icmp_sock, SOL_SOCKET, SO_TIMESTAMP, &on, sizeof(on)))
603 if(debug) printf("Warning: no SO_TIMESTAMP support\n");
604#endif // SO_TIMESTAMP
605
606 /* now drop privileges (no effect if not setsuid or geteuid() == 0) */
607 if (setuid(getuid()) == -1) {
608 printf("ERROR: Failed to drop privileges\n");
609 return 1;
610 }
611
548 if(!sockets) { 612 if(!sockets) {
549 if(icmp_sock == -1) { 613 if(icmp_sock == -1) {
550 errno = icmp_sockerrno; 614 errno = icmp_sockerrno;
@@ -633,7 +697,7 @@ main(int argc, char **argv)
633 } 697 }
634 698
635 host = list; 699 host = list;
636 table = malloc(sizeof(struct rta_host **) * targets); 700 table = (struct rta_host**)malloc(sizeof(struct rta_host **) * targets);
637 i = 0; 701 i = 0;
638 while(host) { 702 while(host) {
639 host->id = i*packets; 703 host->id = i*packets;
@@ -697,9 +761,15 @@ run_checks()
697 } 761 }
698} 762}
699 763
764
700/* response structure: 765/* response structure:
766 * IPv4:
701 * ip header : 20 bytes 767 * ip header : 20 bytes
702 * icmp header : 28 bytes 768 * icmp header : 28 bytes
769 * IPv6:
770 * ip header : 40 bytes
771 * icmp header : 28 bytes
772 * both:
703 * icmp echo reply : the rest 773 * icmp echo reply : the rest
704 */ 774 */
705static int 775static int
@@ -707,16 +777,27 @@ wait_for_reply(int sock, u_int t)
707{ 777{
708 int n, hlen; 778 int n, hlen;
709 static unsigned char buf[4096]; 779 static unsigned char buf[4096];
710 struct sockaddr_in resp_addr; 780 struct sockaddr_storage resp_addr;
711 struct ip *ip; 781 union ip_hdr *ip;
712 struct icmp icp; 782 union icmp_packet packet;
713 struct rta_host *host; 783 struct rta_host *host;
714 struct icmp_ping_data data; 784 struct icmp_ping_data data;
715 struct timeval wait_start, now; 785 struct timeval wait_start, now;
716 u_int tdiff, i, per_pkt_wait; 786 u_int tdiff, i, per_pkt_wait;
717 787
788 if (!(packet.buf = malloc(icmp_pkt_size))) {
789 crash("send_icmp_ping(): failed to malloc %d bytes for send buffer",
790 icmp_pkt_size);
791 return -1; /* might be reached if we're in debug mode */
792 }
793
794 memset(packet.buf, 0, icmp_pkt_size);
795
718 /* if we can't listen or don't have anything to listen to, just return */ 796 /* if we can't listen or don't have anything to listen to, just return */
719 if(!t || !icmp_pkts_en_route) return 0; 797 if(!t || !icmp_pkts_en_route) {
798 free(packet.buf);
799 return 0;
800 }
720 801
721 gettimeofday(&wait_start, &tz); 802 gettimeofday(&wait_start, &tz);
722 803
@@ -735,7 +816,7 @@ wait_for_reply(int sock, u_int t)
735 816
736 /* reap responses until we hit a timeout */ 817 /* reap responses until we hit a timeout */
737 n = recvfrom_wto(sock, buf, sizeof(buf), 818 n = recvfrom_wto(sock, buf, sizeof(buf),
738 (struct sockaddr *)&resp_addr, &t, &now); 819 (struct sockaddr *)&resp_addr, &t, &now);
739 if(!n) { 820 if(!n) {
740 if(debug > 1) { 821 if(debug > 1) {
741 printf("recvfrom_wto() timed out during a %u usecs wait\n", 822 printf("recvfrom_wto() timed out during a %u usecs wait\n",
@@ -745,12 +826,23 @@ wait_for_reply(int sock, u_int t)
745 } 826 }
746 if(n < 0) { 827 if(n < 0) {
747 if(debug) printf("recvfrom_wto() returned errors\n"); 828 if(debug) printf("recvfrom_wto() returned errors\n");
829 free(packet.buf);
748 return n; 830 return n;
749 } 831 }
750 832
751 ip = (struct ip *)buf; 833 // FIXME: with ipv6 we don't have an ip header here
752 if(debug > 1) printf("received %u bytes from %s\n", 834 if (address_family != AF_INET6) {
753 ntohs(ip->ip_len), inet_ntoa(resp_addr.sin_addr)); 835 ip = (union ip_hdr *)buf;
836
837 if(debug > 1) {
838 char address[INET6_ADDRSTRLEN];
839 parse_address(&resp_addr, address, sizeof(address));
840 printf("received %u bytes from %s\n",
841 address_family == AF_INET6 ? ntohs(ip->ip6.ip6_plen)
842 : ntohs(ip->ip.ip_len),
843 address);
844 }
845 }
754 846
755/* obsolete. alpha on tru64 provides the necessary defines, but isn't broken */ 847/* obsolete. alpha on tru64 provides the necessary defines, but isn't broken */
756/* #if defined( __alpha__ ) && __STDC__ && !defined( __GLIBC__ ) */ 848/* #if defined( __alpha__ ) && __STDC__ && !defined( __GLIBC__ ) */
@@ -759,12 +851,14 @@ wait_for_reply(int sock, u_int t)
759 * off the bottom 4 bits */ 851 * off the bottom 4 bits */
760/* hlen = (ip->ip_vhl & 0x0f) << 2; */ 852/* hlen = (ip->ip_vhl & 0x0f) << 2; */
761/* #else */ 853/* #else */
762 hlen = ip->ip_hl << 2; 854 hlen = (address_family == AF_INET6) ? 0 : ip->ip.ip_hl << 2;
763/* #endif */ 855/* #endif */
764 856
765 if(n < (hlen + ICMP_MINLEN)) { 857 if(n < (hlen + ICMP_MINLEN)) {
858 char address[INET6_ADDRSTRLEN];
859 parse_address(&resp_addr, address, sizeof(address));
766 crash("received packet too short for ICMP (%d bytes, expected %d) from %s\n", 860 crash("received packet too short for ICMP (%d bytes, expected %d) from %s\n",
767 n, hlen + icmp_pkt_size, inet_ntoa(resp_addr.sin_addr)); 861 n, hlen + icmp_pkt_size, address);
768 } 862 }
769 /* else if(debug) { */ 863 /* else if(debug) { */
770 /* printf("ip header size: %u, packet size: %u (expected %u, %u)\n", */ 864 /* printf("ip header size: %u, packet size: %u (expected %u, %u)\n", */
@@ -773,23 +867,39 @@ wait_for_reply(int sock, u_int t)
773 /* } */ 867 /* } */
774 868
775 /* check the response */ 869 /* check the response */
776 memcpy(&icp, buf + hlen, sizeof(icp));
777 870
778 if(ntohs(icp.icmp_id) != pid || icp.icmp_type != ICMP_ECHOREPLY || 871 memcpy(packet.buf, buf + hlen, icmp_pkt_size);
779 ntohs(icp.icmp_seq) >= targets*packets) { 872/* address_family == AF_INET6 ? sizeof(struct icmp6_hdr)
873 : sizeof(struct icmp));*/
874
875 if( (address_family == PF_INET &&
876 (ntohs(packet.icp->icmp_id) != pid || packet.icp->icmp_type != ICMP_ECHOREPLY
877 || ntohs(packet.icp->icmp_seq) >= targets * packets))
878 || (address_family == PF_INET6 &&
879 (ntohs(packet.icp6->icmp6_id) != pid || packet.icp6->icmp6_type != ICMP6_ECHO_REPLY
880 || ntohs(packet.icp6->icmp6_seq) >= targets * packets))) {
780 if(debug > 2) printf("not a proper ICMP_ECHOREPLY\n"); 881 if(debug > 2) printf("not a proper ICMP_ECHOREPLY\n");
781 handle_random_icmp(buf + hlen, &resp_addr); 882 handle_random_icmp(buf + hlen, &resp_addr);
782 continue; 883 continue;
783 } 884 }
784 885
785 /* this is indeed a valid response */ 886 /* this is indeed a valid response */
786 memcpy(&data, icp.icmp_data, sizeof(data)); 887 if (address_family == PF_INET) {
787 if (debug > 2) 888 memcpy(&data, packet.icp->icmp_data, sizeof(data));
788 printf("ICMP echo-reply of len %lu, id %u, seq %u, cksum 0x%X\n", 889 if (debug > 2)
789 (unsigned long)sizeof(data), ntohs(icp.icmp_id), 890 printf("ICMP echo-reply of len %lu, id %u, seq %u, cksum 0x%X\n",
790 ntohs(icp.icmp_seq), icp.icmp_cksum); 891 (unsigned long)sizeof(data), ntohs(packet.icp->icmp_id),
892 ntohs(packet.icp->icmp_seq), packet.icp->icmp_cksum);
893 host = table[ntohs(packet.icp->icmp_seq)/packets];
894 } else {
895 memcpy(&data, &packet.icp6->icmp6_dataun.icmp6_un_data8[4], sizeof(data));
896 if (debug > 2)
897 printf("ICMP echo-reply of len %lu, id %u, seq %u, cksum 0x%X\n",
898 (unsigned long)sizeof(data), ntohs(packet.icp6->icmp6_id),
899 ntohs(packet.icp6->icmp6_seq), packet.icp6->icmp6_cksum);
900 host = table[ntohs(packet.icp6->icmp6_seq)/packets];
901 }
791 902
792 host = table[ntohs(icp.icmp_seq)/packets];
793 tdiff = get_timevaldiff(&data.stime, &now); 903 tdiff = get_timevaldiff(&data.stime, &now);
794 904
795 host->time_waited += tdiff; 905 host->time_waited += tdiff;
@@ -801,22 +911,25 @@ wait_for_reply(int sock, u_int t)
801 host->rtmin = tdiff; 911 host->rtmin = tdiff;
802 912
803 if(debug) { 913 if(debug) {
914 char address[INET6_ADDRSTRLEN];
915 parse_address(&resp_addr, address, sizeof(address));
804 printf("%0.3f ms rtt from %s, outgoing ttl: %u, incoming ttl: %u, max: %0.3f, min: %0.3f\n", 916 printf("%0.3f ms rtt from %s, outgoing ttl: %u, incoming ttl: %u, max: %0.3f, min: %0.3f\n",
805 (float)tdiff / 1000, inet_ntoa(resp_addr.sin_addr), 917 (float)tdiff / 1000, address,
806 ttl, ip->ip_ttl, (float)host->rtmax / 1000, (float)host->rtmin / 1000); 918 ttl, ip->ip.ip_ttl, (float)host->rtmax / 1000, (float)host->rtmin / 1000);
807 } 919 }
808 920
809 /* if we're in hostcheck mode, exit with limited printouts */ 921 /* if we're in hostcheck mode, exit with limited printouts */
810 if(mode == MODE_HOSTCHECK) { 922 if(mode == MODE_HOSTCHECK) {
811 printf("OK - %s responds to ICMP. Packet %u, rta %0.3fms|" 923 printf("OK - %s responds to ICMP. Packet %u, rta %0.3fms|"
812 "pkt=%u;;0;%u rta=%0.3f;%0.3f;%0.3f;;\n", 924 "pkt=%u;;0;%u rta=%0.3f;%0.3f;%0.3f;;\n",
813 host->name, icmp_recv, (float)tdiff / 1000, 925 host->name, icmp_recv, (float)tdiff / 1000,
814 icmp_recv, packets, (float)tdiff / 1000, 926 icmp_recv, packets, (float)tdiff / 1000,
815 (float)warn.rta / 1000, (float)crit.rta / 1000); 927 (float)warn.rta / 1000, (float)crit.rta / 1000);
816 exit(STATE_OK); 928 exit(STATE_OK);
817 } 929 }
818 } 930 }
819 931
932 free(packet.buf);
820 return 0; 933 return 0;
821} 934}
822 935
@@ -824,62 +937,81 @@ wait_for_reply(int sock, u_int t)
824static int 937static int
825send_icmp_ping(int sock, struct rta_host *host) 938send_icmp_ping(int sock, struct rta_host *host)
826{ 939{
827 static union {
828 void *buf; /* re-use so we prevent leaks */
829 struct icmp *icp;
830 u_short *cksum_in;
831 } packet = { NULL };
832 long int len; 940 long int len;
833 struct icmp_ping_data data; 941 struct icmp_ping_data data;
834 struct msghdr hdr; 942 struct msghdr hdr;
835 struct iovec iov; 943 struct iovec iov;
836 struct timeval tv; 944 struct timeval tv;
837 struct sockaddr *addr; 945 void *buf = NULL;
838 946
839 if(sock == -1) { 947 if(sock == -1) {
840 errno = 0; 948 errno = 0;
841 crash("Attempt to send on bogus socket"); 949 crash("Attempt to send on bogus socket");
842 return -1; 950 return -1;
843 } 951 }
844 addr = (struct sockaddr *)&host->saddr_in;
845 952
846 if(!packet.buf) { 953 if(!buf) {
847 if (!(packet.buf = malloc(icmp_pkt_size))) { 954 if (!(buf = malloc(icmp_pkt_size))) {
848 crash("send_icmp_ping(): failed to malloc %d bytes for send buffer", 955 crash("send_icmp_ping(): failed to malloc %d bytes for send buffer",
849 icmp_pkt_size); 956 icmp_pkt_size);
850 return -1; /* might be reached if we're in debug mode */ 957 return -1; /* might be reached if we're in debug mode */
851 } 958 }
852 } 959 }
853 memset(packet.buf, 0, icmp_pkt_size); 960 memset(buf, 0, icmp_pkt_size);
854 961
855 if((gettimeofday(&tv, &tz)) == -1) return -1; 962 if((gettimeofday(&tv, &tz)) == -1) {
963 free(buf);
964 return -1;
965 }
856 966
857 data.ping_id = 10; /* host->icmp.icmp_sent; */ 967 data.ping_id = 10; /* host->icmp.icmp_sent; */
858 memcpy(&data.stime, &tv, sizeof(tv)); 968 memcpy(&data.stime, &tv, sizeof(tv));
859 memcpy(&packet.icp->icmp_data, &data, sizeof(data)); 969
860 packet.icp->icmp_type = ICMP_ECHO; 970 if (address_family == AF_INET) {
861 packet.icp->icmp_code = 0; 971 struct icmp *icp = (struct icmp*)buf;
862 packet.icp->icmp_cksum = 0; 972
863 packet.icp->icmp_id = htons(pid); 973 memcpy(&icp->icmp_data, &data, sizeof(data));
864 packet.icp->icmp_seq = htons(host->id++); 974
865 packet.icp->icmp_cksum = icmp_checksum(packet.cksum_in, icmp_pkt_size); 975 icp->icmp_type = ICMP_ECHO;
866 976 icp->icmp_code = 0;
867 if (debug > 2) 977 icp->icmp_cksum = 0;
868 printf("Sending ICMP echo-request of len %lu, id %u, seq %u, cksum 0x%X to host %s\n", 978 icp->icmp_id = htons(pid);
869 (unsigned long)sizeof(data), ntohs(packet.icp->icmp_id), 979 icp->icmp_seq = htons(host->id++);
870 ntohs(packet.icp->icmp_seq), packet.icp->icmp_cksum, 980 icp->icmp_cksum = icmp_checksum((unsigned short*)buf, icmp_pkt_size);
871 host->name); 981
982 if (debug > 2)
983 printf("Sending ICMP echo-request of len %lu, id %u, seq %u, cksum 0x%X to host %s\n",
984 (unsigned long)sizeof(data), ntohs(icp->icmp_id), ntohs(icp->icmp_seq), icp->icmp_cksum, host->name);
985 }
986 else {
987 struct icmp6_hdr *icp6 = (struct icmp6_hdr*)buf;
988 memcpy(&icp6->icmp6_dataun.icmp6_un_data8[4], &data, sizeof(data));
989 icp6->icmp6_type = ICMP6_ECHO_REQUEST;
990 icp6->icmp6_code = 0;
991 icp6->icmp6_cksum = 0;
992 icp6->icmp6_id = htons(pid);
993 icp6->icmp6_seq = htons(host->id++);
994 // let checksum be calculated automatically
995
996 if (debug > 2) {
997 printf("Sending ICMP echo-request of len %lu, id %u, seq %u, cksum 0x%X to host %s\n",
998 (unsigned long)sizeof(data), ntohs(icp6->icmp6_id),
999 ntohs(icp6->icmp6_seq), icp6->icmp6_cksum, host->name);
1000 }
1001 }
872 1002
873 memset(&iov, 0, sizeof(iov)); 1003 memset(&iov, 0, sizeof(iov));
874 iov.iov_base = packet.buf; 1004 iov.iov_base = buf;
875 iov.iov_len = icmp_pkt_size; 1005 iov.iov_len = icmp_pkt_size;
876 1006
877 memset(&hdr, 0, sizeof(hdr)); 1007 memset(&hdr, 0, sizeof(hdr));
878 hdr.msg_name = addr; 1008 hdr.msg_name = (struct sockaddr *)&host->saddr_in;
879 hdr.msg_namelen = sizeof(struct sockaddr); 1009 hdr.msg_namelen = sizeof(struct sockaddr_storage);
880 hdr.msg_iov = &iov; 1010 hdr.msg_iov = &iov;
881 hdr.msg_iovlen = 1; 1011 hdr.msg_iovlen = 1;
882 1012
1013 errno = 0;
1014
883/* MSG_CONFIRM is a linux thing and only available on linux kernels >= 2.3.15, see send(2) */ 1015/* MSG_CONFIRM is a linux thing and only available on linux kernels >= 2.3.15, see send(2) */
884#ifdef MSG_CONFIRM 1016#ifdef MSG_CONFIRM
885 len = sendmsg(sock, &hdr, MSG_CONFIRM); 1017 len = sendmsg(sock, &hdr, MSG_CONFIRM);
@@ -887,9 +1019,15 @@ send_icmp_ping(int sock, struct rta_host *host)
887 len = sendmsg(sock, &hdr, 0); 1019 len = sendmsg(sock, &hdr, 0);
888#endif 1020#endif
889 1021
1022 free(buf);
1023
890 if(len < 0 || (unsigned int)len != icmp_pkt_size) { 1024 if(len < 0 || (unsigned int)len != icmp_pkt_size) {
891 if(debug) printf("Failed to send ping to %s\n", 1025 if(debug) {
892 inet_ntoa(host->saddr_in.sin_addr)); 1026 char address[INET6_ADDRSTRLEN];
1027 parse_address((struct sockaddr_storage *)&host->saddr_in, address, sizeof(address));
1028 printf("Failed to send ping to %s: %s\n", address, strerror(errno));
1029 }
1030 errno = 0;
893 return -1; 1031 return -1;
894 } 1032 }
895 1033
@@ -934,7 +1072,7 @@ recvfrom_wto(int sock, void *buf, unsigned int len, struct sockaddr *saddr,
934 1072
935 if(!n) return 0; /* timeout */ 1073 if(!n) return 0; /* timeout */
936 1074
937 slen = sizeof(struct sockaddr); 1075 slen = sizeof(struct sockaddr_storage);
938 1076
939 memset(&iov, 0, sizeof(iov)); 1077 memset(&iov, 0, sizeof(iov));
940 iov.iov_base = buf; 1078 iov.iov_base = buf;
@@ -958,6 +1096,7 @@ recvfrom_wto(int sock, void *buf, unsigned int len, struct sockaddr *saddr,
958 break ; 1096 break ;
959 } 1097 }
960 } 1098 }
1099
961 if (!chdr) 1100 if (!chdr)
962#endif // SO_TIMESTAMP 1101#endif // SO_TIMESTAMP
963 gettimeofday(tv, &tz); 1102 gettimeofday(tv, &tz);
@@ -991,6 +1130,7 @@ finish(int sig)
991 1130
992 /* iterate thrice to calculate values, give output, and print perfparse */ 1131 /* iterate thrice to calculate values, give output, and print perfparse */
993 host = list; 1132 host = list;
1133
994 while(host) { 1134 while(host) {
995 if(!host->icmp_recv) { 1135 if(!host->icmp_recv) {
996 /* rta 0 is ofcourse not entirely correct, but will still show up 1136 /* rta 0 is ofcourse not entirely correct, but will still show up
@@ -1039,10 +1179,12 @@ finish(int sig)
1039 if(!host->icmp_recv) { 1179 if(!host->icmp_recv) {
1040 status = STATE_CRITICAL; 1180 status = STATE_CRITICAL;
1041 if(host->flags & FLAG_LOST_CAUSE) { 1181 if(host->flags & FLAG_LOST_CAUSE) {
1182 char address[INET6_ADDRSTRLEN];
1183 parse_address(&host->error_addr, address, sizeof(address));
1042 printf("%s: %s @ %s. rta nan, lost %d%%", 1184 printf("%s: %s @ %s. rta nan, lost %d%%",
1043 host->name, 1185 host->name,
1044 get_icmp_error_msg(host->icmp_type, host->icmp_code), 1186 get_icmp_error_msg(host->icmp_type, host->icmp_code),
1045 inet_ntoa(host->error_addr), 1187 address,
1046 100); 1188 100);
1047 } 1189 }
1048 else { /* not marked as lost cause, so we have no flags for it */ 1190 else { /* not marked as lost cause, so we have no flags for it */
@@ -1104,7 +1246,6 @@ get_timevaldiff(struct timeval *early, struct timeval *later)
1104 { 1246 {
1105 return 0; 1247 return 0;
1106 } 1248 }
1107
1108 ret = (later->tv_sec - early->tv_sec) * 1000000; 1249 ret = (later->tv_sec - early->tv_sec) * 1000000;
1109 ret += later->tv_usec - early->tv_usec; 1250 ret += later->tv_usec - early->tv_usec;
1110 1251
@@ -1112,18 +1253,35 @@ get_timevaldiff(struct timeval *early, struct timeval *later)
1112} 1253}
1113 1254
1114static int 1255static int
1115add_target_ip(char *arg, struct in_addr *in) 1256add_target_ip(char *arg, struct sockaddr_storage *in)
1116{ 1257{
1117 struct rta_host *host; 1258 struct rta_host *host;
1259 struct sockaddr_in *sin, *host_sin;
1260 struct sockaddr_in6 *sin6, *host_sin6;
1261
1262 if (address_family == AF_INET)
1263 sin = (struct sockaddr_in *)in;
1264 else
1265 sin6 = (struct sockaddr_in6 *)in;
1118 1266
1119 /* disregard obviously stupid addresses */ 1267
1120 if(in->s_addr == INADDR_NONE || in->s_addr == INADDR_ANY) 1268
1269 /* disregard obviously stupid addresses
1270 * (I didn't find an ipv6 equivalent to INADDR_NONE) */
1271 if (((address_family == AF_INET && (sin->sin_addr.s_addr == INADDR_NONE
1272 || sin->sin_addr.s_addr == INADDR_ANY)))
1273 || (address_family == AF_INET6 && (sin6->sin6_addr.s6_addr == in6addr_any.s6_addr))) {
1121 return -1; 1274 return -1;
1275 }
1122 1276
1123 /* no point in adding two identical IP's, so don't. ;) */ 1277 /* no point in adding two identical IP's, so don't. ;) */
1124 host = list; 1278 host = list;
1125 while(host) { 1279 while(host) {
1126 if(host->saddr_in.sin_addr.s_addr == in->s_addr) { 1280 host_sin = (struct sockaddr_in *)&host->saddr_in;
1281 host_sin6 = (struct sockaddr_in6 *)&host->saddr_in;
1282
1283 if( (address_family == AF_INET && host_sin->sin_addr.s_addr == sin->sin_addr.s_addr)
1284 || (address_family == AF_INET6 && host_sin6->sin6_addr.s6_addr == sin6->sin6_addr.s6_addr)) {
1127 if(debug) printf("Identical IP already exists. Not adding %s\n", arg); 1285 if(debug) printf("Identical IP already exists. Not adding %s\n", arg);
1128 return -1; 1286 return -1;
1129 } 1287 }
@@ -1131,19 +1289,29 @@ add_target_ip(char *arg, struct in_addr *in)
1131 } 1289 }
1132 1290
1133 /* add the fresh ip */ 1291 /* add the fresh ip */
1134 host = malloc(sizeof(struct rta_host)); 1292 host = (struct rta_host*)malloc(sizeof(struct rta_host));
1135 if(!host) { 1293 if(!host) {
1294 char straddr[INET6_ADDRSTRLEN];
1295 parse_address((struct sockaddr_storage*)&in, straddr, sizeof(straddr));
1136 crash("add_target_ip(%s, %s): malloc(%d) failed", 1296 crash("add_target_ip(%s, %s): malloc(%d) failed",
1137 arg, inet_ntoa(*in), sizeof(struct rta_host)); 1297 arg, straddr, sizeof(struct rta_host));
1138 } 1298 }
1139 memset(host, 0, sizeof(struct rta_host)); 1299 memset(host, 0, sizeof(struct rta_host));
1140 1300
1141 /* set the values. use calling name for output */ 1301 /* set the values. use calling name for output */
1142 host->name = strdup(arg); 1302 host->name = strdup(arg);
1143 1303
1144 /* fill out the sockaddr_in struct */ 1304 /* fill out the sockaddr_storage struct */
1145 host->saddr_in.sin_family = AF_INET; 1305 if(address_family == AF_INET) {
1146 host->saddr_in.sin_addr.s_addr = in->s_addr; 1306 host_sin = (struct sockaddr_in *)&host->saddr_in;
1307 host_sin->sin_family = AF_INET;
1308 host_sin->sin_addr.s_addr = sin->sin_addr.s_addr;
1309 }
1310 else {
1311 host_sin6 = (struct sockaddr_in6 *)&host->saddr_in;
1312 host_sin6->sin6_family = AF_INET6;
1313 memcpy(host_sin6->sin6_addr.s6_addr, sin6->sin6_addr.s6_addr, sizeof host_sin6->sin6_addr.s6_addr);
1314 }
1147 1315
1148 host->rtmin = DBL_MAX; 1316 host->rtmin = DBL_MAX;
1149 1317
@@ -1160,31 +1328,67 @@ add_target_ip(char *arg, struct in_addr *in)
1160static int 1328static int
1161add_target(char *arg) 1329add_target(char *arg)
1162{ 1330{
1163 int i; 1331 int error, result;
1164 struct hostent *he; 1332 struct sockaddr_storage ip;
1165 struct in_addr *in, ip; 1333 struct addrinfo hints, *res, *p;
1334 struct sockaddr_in *sin;
1335 struct sockaddr_in6 *sin6;
1336
1337 switch (address_family) {
1338 case -1:
1339 /* -4 and -6 are not specified on cmdline */
1340 address_family = AF_INET;
1341 sin = (struct sockaddr_in *)&ip;
1342 result = inet_pton(address_family, arg, &sin->sin_addr);
1343#ifdef USE_IPV6
1344 if( result != 1 ){
1345 address_family = AF_INET6;
1346 sin6 = (struct sockaddr_in6 *)&ip;
1347 result = inet_pton(address_family, arg, &sin6->sin6_addr);
1348 }
1349#endif
1350 /* If we don't find any valid addresses, we still don't know the address_family */
1351 if ( result != 1) {
1352 address_family = -1;
1353 }
1354 break;
1355 case AF_INET:
1356 sin = (struct sockaddr_in *)&ip;
1357 result = inet_pton(address_family, arg, &sin->sin_addr);
1358 break;
1359 case AF_INET6:
1360 sin6 = (struct sockaddr_in6 *)&ip;
1361 result = inet_pton(address_family, arg, &sin6->sin6_addr);
1362 break;
1363 default: crash("Address family not supported");
1364 }
1166 1365
1167 /* don't resolve if we don't have to */ 1366 /* don't resolve if we don't have to */
1168 if((ip.s_addr = inet_addr(arg)) != INADDR_NONE) { 1367 if(result == 1) {
1169 /* don't add all ip's if we were given a specific one */ 1368 /* don't add all ip's if we were given a specific one */
1170 return add_target_ip(arg, &ip); 1369 return add_target_ip(arg, &ip);
1171 /* he = gethostbyaddr((char *)in, sizeof(struct in_addr), AF_INET); */
1172 /* if(!he) return add_target_ip(arg, in); */
1173 } 1370 }
1174 else { 1371 else {
1175 errno = 0; 1372 errno = 0;
1176 he = gethostbyname(arg); 1373 memset(&hints, 0, sizeof(hints));
1177 if(!he) { 1374 if (address_family == -1) {
1375 hints.ai_family = AF_UNSPEC;
1376 } else {
1377 hints.ai_family = address_family == AF_INET ? PF_INET : PF_INET6;
1378 }
1379 hints.ai_socktype = SOCK_RAW;
1380 if((error = getaddrinfo(arg, NULL, &hints, &res)) != 0) {
1178 errno = 0; 1381 errno = 0;
1179 crash("Failed to resolve %s", arg); 1382 crash("Failed to resolve %s: %s", arg, gai_strerror(error));
1180 return -1; 1383 return -1;
1181 } 1384 }
1385 address_family = res->ai_family;
1182 } 1386 }
1183 1387
1184 /* possibly add all the IP's as targets */ 1388 /* possibly add all the IP's as targets */
1185 for(i = 0; he->h_addr_list[i]; i++) { 1389 for(p = res; p != NULL; p = p->ai_next) {
1186 in = (struct in_addr *)he->h_addr_list[i]; 1390 memcpy(&ip, p->ai_addr, p->ai_addrlen);
1187 add_target_ip(arg, in); 1391 add_target_ip(arg, &ip);
1188 1392
1189 /* this is silly, but it works */ 1393 /* this is silly, but it works */
1190 if(mode == MODE_HOSTCHECK || mode == MODE_ALL) { 1394 if(mode == MODE_HOSTCHECK || mode == MODE_ALL) {
@@ -1193,6 +1397,7 @@ add_target(char *arg)
1193 } 1397 }
1194 break; 1398 break;
1195 } 1399 }
1400 freeaddrinfo(res);
1196 1401
1197 return 0; 1402 return 0;
1198} 1403}
@@ -1203,7 +1408,7 @@ set_source_ip(char *arg)
1203 struct sockaddr_in src; 1408 struct sockaddr_in src;
1204 1409
1205 memset(&src, 0, sizeof(src)); 1410 memset(&src, 0, sizeof(src));
1206 src.sin_family = AF_INET; 1411 src.sin_family = address_family;
1207 if((src.sin_addr.s_addr = inet_addr(arg)) == INADDR_NONE) 1412 if((src.sin_addr.s_addr = inet_addr(arg)) == INADDR_NONE)
1208 src.sin_addr.s_addr = get_ip_address(arg); 1413 src.sin_addr.s_addr = get_ip_address(arg);
1209 if(bind(icmp_sock, (struct sockaddr *)&src, sizeof(src)) == -1) 1414 if(bind(icmp_sock, (struct sockaddr *)&src, sizeof(src)) == -1)
@@ -1311,12 +1516,12 @@ get_threshold(char *str, threshold *th)
1311unsigned short 1516unsigned short
1312icmp_checksum(unsigned short *p, int n) 1517icmp_checksum(unsigned short *p, int n)
1313{ 1518{
1314 register unsigned short cksum; 1519 unsigned short cksum;
1315 register long sum = 0; 1520 long sum = 0;
1316 1521
1317 while(n > 1) { 1522 while(n > 2) {
1318 sum += *p++; 1523 sum += *p++;
1319 n -= 2; 1524 n -= sizeof(unsigned short);
1320 } 1525 }
1321 1526
1322 /* mop up the occasional odd byte */ 1527 /* mop up the occasional odd byte */
@@ -1347,6 +1552,8 @@ print_help(void)
1347 1552
1348 printf (" %s\n", "-H"); 1553 printf (" %s\n", "-H");
1349 printf (" %s\n", _("specify a target")); 1554 printf (" %s\n", _("specify a target"));
1555 printf (" %s\n", "[-4|-6]");
1556 printf (" %s\n", _("Use IPv4 (default) or IPv6 to communicate with the targets"));
1350 printf (" %s\n", "-w"); 1557 printf (" %s\n", "-w");
1351 printf (" %s", _("warning threshold (currently ")); 1558 printf (" %s", _("warning threshold (currently "));
1352 printf ("%0.3fms,%u%%)\n", (float)warn.rta / 1000, warn.pl); 1559 printf ("%0.3fms,%u%%)\n", (float)warn.rta / 1000, warn.pl);
diff --git a/plugins-scripts/t/check_file_age.t b/plugins-scripts/t/check_file_age.t
index ebf673f..8b87670 100644
--- a/plugins-scripts/t/check_file_age.t
+++ b/plugins-scripts/t/check_file_age.t
@@ -20,105 +20,74 @@ my $temp_link = "/tmp/check_file_age.link.tmp";
20 20
21unlink $temp_file, $temp_link; 21unlink $temp_file, $temp_link;
22 22
23$result = NPTest->testCmd( 23$result = NPTest->testCmd("./check_file_age");
24 "./check_file_age"
25 );
26cmp_ok( $result->return_code, '==', 3, "Missing parameters" ); 24cmp_ok( $result->return_code, '==', 3, "Missing parameters" );
27like ( $result->output, $unknownOutput, "Output for unknown correct" ); 25like ( $result->output, $unknownOutput, "Output for unknown correct" );
28 26
29$result = NPTest->testCmd( 27$result = NPTest->testCmd("./check_file_age -f $temp_file");
30 "./check_file_age -f $temp_file"
31 );
32cmp_ok( $result->return_code, '==', 2, "File not exists" ); 28cmp_ok( $result->return_code, '==', 2, "File not exists" );
33like ( $result->output, $criticalOutput, "Output for file missing correct" ); 29like ( $result->output, $criticalOutput, "Output for file missing correct" );
34 30
35write_chars(100); 31write_chars(100);
36$result = NPTest->testCmd( 32$result = NPTest->testCmd("./check_file_age -f $temp_file");
37 "./check_file_age -f $temp_file"
38 );
39cmp_ok( $result->return_code, '==', 0, "File is new enough" ); 33cmp_ok( $result->return_code, '==', 0, "File is new enough" );
40like ( $result->output, $successOutput, "Output for success correct" ); 34like ( $result->output, $successOutput, "Output for success correct" );
41 35
42sleep 2; 36sleep 2;
43 37
44$result = NPTest->testCmd( 38$result = NPTest->testCmd("./check_file_age -f $temp_file -w 1");
45 "./check_file_age -f $temp_file -w 1"
46 );
47cmp_ok( $result->return_code, '==', 1, "Warning for file over 1 second old" ); 39cmp_ok( $result->return_code, '==', 1, "Warning for file over 1 second old" );
48like ( $result->output, $warningOutput, "Output for warning correct" ); 40like ( $result->output, $warningOutput, "Output for warning correct" );
49 41
50$result = NPTest->testCmd( 42$result = NPTest->testCmd("./check_file_age -f $temp_file -c 1");
51 "./check_file_age -f $temp_file -w 0:1"
52 );
53cmp_ok( $result->return_code, '==', 1, "Warning for file over 1 second old by range" );
54like ( $result->output, $warningOutput, "Output for warning by range correct" );
55
56$result = NPTest->testCmd(
57 "./check_file_age -f $temp_file -c 1"
58 );
59cmp_ok( $result->return_code, '==', 2, "Critical for file over 1 second old" ); 43cmp_ok( $result->return_code, '==', 2, "Critical for file over 1 second old" );
60like ( $result->output, $criticalOutput, "Output for critical correct" ); 44like ( $result->output, $criticalOutput, "Output for critical correct" );
61 45
62$result = NPTest->testCmd( 46$result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -W 100");
63 "./check_file_age -f $temp_file -c 0:1"
64 );
65cmp_ok( $result->return_code, '==', 2, "Critical for file over 1 second old by range" );
66like ( $result->output, $criticalOutput, "Output for critical by range correct" );
67
68$result = NPTest->testCmd(
69 "./check_file_age -f $temp_file -c 1000 -W 100"
70 );
71cmp_ok( $result->return_code, '==', 0, "Checking file size" ); 47cmp_ok( $result->return_code, '==', 0, "Checking file size" );
72 48
73$result = NPTest->testCmd( 49$result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -W 100");
74 "./check_file_age -f $temp_file -c 0:1000 -W 0:100"
75 );
76cmp_ok( $result->return_code, '==', 0, "Checking file size by range" );
77
78$result = NPTest->testCmd(
79 "./check_file_age -f $temp_file -c 1000 -W 100"
80 );
81like( $result->output, $performanceOutput, "Checking for performance Output" ); 50like( $result->output, $performanceOutput, "Checking for performance Output" );
82 51
83$result = NPTest->testCmd( 52$result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -W 100");
84 "./check_file_age -f $temp_file -c 1000 -W 100"
85 );
86like( $result->output, $performanceOutput, "Checking for performance Output from range" ); 53like( $result->output, $performanceOutput, "Checking for performance Output from range" );
87 54
88$result = NPTest->testCmd( 55$result = NPTest->testCmd("./check_file_age -f /non/existent --ignore-missing");
89 "./check_file_age -f /non/existent --ignore-missing"
90 );
91cmp_ok( $result->return_code, '==', 0, "Honours --ignore-missing" ); 56cmp_ok( $result->return_code, '==', 0, "Honours --ignore-missing" );
92 57
93$result = NPTest->testCmd( 58$result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -W 101");
94 "./check_file_age -f $temp_file -c 1000 -W 101"
95 );
96cmp_ok( $result->return_code, '==', 1, "One byte too short" ); 59cmp_ok( $result->return_code, '==', 1, "One byte too short" );
97 60
98$result = NPTest->testCmd( 61$result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -C 101");
99 "./check_file_age -f $temp_file -c 1000 -W 101:"
100 );
101cmp_ok( $result->return_code, '==', 1, "One byte too short by range" );
102
103$result = NPTest->testCmd(
104 "./check_file_age -f $temp_file -c 1000 -C 101"
105 );
106cmp_ok( $result->return_code, '==', 2, "One byte too short - critical" ); 62cmp_ok( $result->return_code, '==', 2, "One byte too short - critical" );
107 63
108$result = NPTest->testCmd( 64SKIP: {
109 "./check_file_age -f $temp_file -c 1000 -C 101:" 65 eval 'use Monitoring::Plugin::Range';
110 ); 66 skip "Monitoring::Plugin::Range module require", 9 if $@;
111cmp_ok( $result->return_code, '==', 2, "One byte too short by range - critical" ); 67
68 $result = NPTest->testCmd("./check_file_age -f $temp_file -w 0:1");
69 cmp_ok( $result->return_code, '==', 1, "Warning for file over 1 second old by range" );
70 like ( $result->output, $warningOutput, "Output for warning by range correct" );
71
72 $result = NPTest->testCmd("./check_file_age -f $temp_file -c 0:1");
73 cmp_ok( $result->return_code, '==', 2, "Critical for file over 1 second old by range" );
74 like ( $result->output, $criticalOutput, "Output for critical by range correct" );
75
76 $result = NPTest->testCmd("./check_file_age -f $temp_file -c 0:1000 -W 0:100");
77 cmp_ok( $result->return_code, '==', 0, "Checking file size by range" );
78
79 $result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -W 101:");
80 cmp_ok( $result->return_code, '==', 1, "One byte too short by range" );
81
82 $result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -W 0:99");
83 cmp_ok( $result->return_code, '==', 1, "One byte too long by range" );
112 84
113$result = NPTest->testCmd( 85 $result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -C 101:");
114 "./check_file_age -f $temp_file -c 1000 -W 0:99" 86 cmp_ok( $result->return_code, '==', 2, "One byte too short by range - critical" );
115 );
116cmp_ok( $result->return_code, '==', 1, "One byte too long by range" );
117 87
118$result = NPTest->testCmd( 88 $result = NPTest->testCmd("./check_file_age -f $temp_file -c 1000 -C 0:99");
119 "./check_file_age -f $temp_file -c 1000 -C 0:99" 89 cmp_ok( $result->return_code, '==', 2, "One byte too long by range - critical" );
120 ); 90};
121cmp_ok( $result->return_code, '==', 2, "One byte too long by range - critical" );
122 91
123symlink $temp_file, $temp_link or die "Cannot create symlink"; 92symlink $temp_file, $temp_link or die "Cannot create symlink";
124$result = NPTest->testCmd("./check_file_age -f $temp_link -c 10"); 93$result = NPTest->testCmd("./check_file_age -f $temp_link -c 10");
diff --git a/plugins/check_apt.c b/plugins/check_apt.c
index b69680c..d7be575 100644
--- a/plugins/check_apt.c
+++ b/plugins/check_apt.c
@@ -86,6 +86,8 @@ static char *do_include = NULL; /* regexp to only include certain packages */
86static char *do_exclude = NULL; /* regexp to only exclude certain packages */ 86static char *do_exclude = NULL; /* regexp to only exclude certain packages */
87static char *do_critical = NULL; /* regexp specifying critical packages */ 87static char *do_critical = NULL; /* regexp specifying critical packages */
88static char *input_filename = NULL; /* input filename for testing */ 88static char *input_filename = NULL; /* input filename for testing */
89/* number of packages available for upgrade to return WARNING status */
90static int packages_warning = 1;
89 91
90/* other global variables */ 92/* other global variables */
91static int stderr_warning = 0; /* if a cmd issued output on stderr */ 93static int stderr_warning = 0; /* if a cmd issued output on stderr */
@@ -117,7 +119,7 @@ int main (int argc, char **argv) {
117 119
118 if(sec_count > 0){ 120 if(sec_count > 0){
119 result = max_state(result, STATE_CRITICAL); 121 result = max_state(result, STATE_CRITICAL);
120 } else if(packages_available > 0 && only_critical == 0){ 122 } else if(packages_available >= packages_warning && only_critical == 0){
121 result = max_state(result, STATE_WARNING); 123 result = max_state(result, STATE_WARNING);
122 } else if(result > STATE_UNKNOWN){ 124 } else if(result > STATE_UNKNOWN){
123 result = STATE_UNKNOWN; 125 result = STATE_UNKNOWN;
@@ -170,11 +172,12 @@ int process_arguments (int argc, char **argv) {
170 {"critical", required_argument, 0, 'c'}, 172 {"critical", required_argument, 0, 'c'},
171 {"only-critical", no_argument, 0, 'o'}, 173 {"only-critical", no_argument, 0, 'o'},
172 {"input-file", required_argument, 0, INPUT_FILE_OPT}, 174 {"input-file", required_argument, 0, INPUT_FILE_OPT},
175 {"packages-warning", required_argument, 0, 'w'},
173 {0, 0, 0, 0} 176 {0, 0, 0, 0}
174 }; 177 };
175 178
176 while(1) { 179 while(1) {
177 c = getopt_long(argc, argv, "hVvt:u::U::d::nli:e:c:o", longopts, NULL); 180 c = getopt_long(argc, argv, "hVvt:u::U::d::nli:e:c:ow:", longopts, NULL);
178 181
179 if(c == -1 || c == EOF || c == 1) break; 182 if(c == -1 || c == EOF || c == 1) break;
180 183
@@ -233,6 +236,9 @@ int process_arguments (int argc, char **argv) {
233 case INPUT_FILE_OPT: 236 case INPUT_FILE_OPT:
234 input_filename = optarg; 237 input_filename = optarg;
235 break; 238 break;
239 case 'w':
240 packages_warning = atoi(optarg);
241 break;
236 default: 242 default:
237 /* print short usage statement if args not parsable */ 243 /* print short usage statement if args not parsable */
238 usage5(); 244 usage5();
@@ -530,7 +536,10 @@ print_help (void)
530 printf (" %s\n", "-o, --only-critical"); 536 printf (" %s\n", "-o, --only-critical");
531 printf (" %s\n", _("Only warn about upgrades matching the critical list. The total number")); 537 printf (" %s\n", _("Only warn about upgrades matching the critical list. The total number"));
532 printf (" %s\n", _("of upgrades will be printed, but any non-critical upgrades will not cause")); 538 printf (" %s\n", _("of upgrades will be printed, but any non-critical upgrades will not cause"));
533 printf (" %s\n\n", _("the plugin to return WARNING status.")); 539 printf (" %s\n", _("the plugin to return WARNING status."));
540 printf (" %s\n", "-w, --packages-warning");
541 printf (" %s\n", _("Minumum number of packages available for upgrade to return WARNING status."));
542 printf (" %s\n\n", _("Default is 1 package."));
534 543
535 printf ("%s\n\n", _("The following options require root privileges and should be used with care:")); 544 printf ("%s\n\n", _("The following options require root privileges and should be used with care:"));
536 printf (" %s\n", "-u, --update=OPTS"); 545 printf (" %s\n", "-u, --update=OPTS");
@@ -548,5 +557,5 @@ void
548print_usage(void) 557print_usage(void)
549{ 558{
550 printf ("%s\n", _("Usage:")); 559 printf ("%s\n", _("Usage:"));
551 printf ("%s [[-d|-u|-U]opts] [-n] [-l] [-t timeout]\n", progname); 560 printf ("%s [[-d|-u|-U]opts] [-n] [-l] [-t timeout] [-w packages-warning]\n", progname);
552} 561}
diff --git a/plugins/check_cluster.c b/plugins/check_cluster.c
index b86e501..e1ede9f 100644
--- a/plugins/check_cluster.c
+++ b/plugins/check_cluster.c
@@ -143,6 +143,7 @@ int main(int argc, char **argv){
143 143
144int process_arguments(int argc, char **argv){ 144int process_arguments(int argc, char **argv){
145 int c; 145 int c;
146 char *ptr;
146 int option=0; 147 int option=0;
147 static struct option longopts[]={ 148 static struct option longopts[]={
148 {"data", required_argument,0,'d'}, 149 {"data", required_argument,0,'d'},
@@ -188,6 +189,15 @@ int process_arguments(int argc, char **argv){
188 189
189 case 'd': /* data values */ 190 case 'd': /* data values */
190 data_vals=(char *)strdup(optarg); 191 data_vals=(char *)strdup(optarg);
192 /* validate data */
193 for (ptr=data_vals;ptr!=NULL;ptr+=2){
194 if (ptr[0]<'0' || ptr[0]>'3')
195 return ERROR;
196 if (ptr[1]=='\0')
197 break;
198 if (ptr[1]!=',')
199 return ERROR;
200 }
191 break; 201 break;
192 202
193 case 'l': /* text label */ 203 case 'l': /* text label */
diff --git a/plugins/check_dbi.c b/plugins/check_dbi.c
index 826eb8d..ced13d0 100644
--- a/plugins/check_dbi.c
+++ b/plugins/check_dbi.c
@@ -35,6 +35,7 @@ const char *email = "devel@monitoring-plugins.org";
35 35
36#include "common.h" 36#include "common.h"
37#include "utils.h" 37#include "utils.h"
38#include "utils_cmd.h"
38 39
39#include "netutils.h" 40#include "netutils.h"
40 41
diff --git a/plugins/check_disk.c b/plugins/check_disk.c
index e73a008..1c43e85 100644
--- a/plugins/check_disk.c
+++ b/plugins/check_disk.c
@@ -141,6 +141,7 @@ int erronly = FALSE;
141int display_mntp = FALSE; 141int display_mntp = FALSE;
142int exact_match = FALSE; 142int exact_match = FALSE;
143int freespace_ignore_reserved = FALSE; 143int freespace_ignore_reserved = FALSE;
144int display_inodes_perfdata = FALSE;
144char *warn_freespace_units = NULL; 145char *warn_freespace_units = NULL;
145char *crit_freespace_units = NULL; 146char *crit_freespace_units = NULL;
146char *warn_freespace_percent = NULL; 147char *warn_freespace_percent = NULL;
@@ -167,6 +168,7 @@ main (int argc, char **argv)
167 char *output; 168 char *output;
168 char *details; 169 char *details;
169 char *perf; 170 char *perf;
171 char *perf_ilabel;
170 char *preamble; 172 char *preamble;
171 char *flag_header; 173 char *flag_header;
172 double inode_space_pct; 174 double inode_space_pct;
@@ -186,6 +188,7 @@ main (int argc, char **argv)
186 output = strdup (""); 188 output = strdup ("");
187 details = strdup (""); 189 details = strdup ("");
188 perf = strdup (""); 190 perf = strdup ("");
191 perf_ilabel = strdup ("");
189 stat_buf = malloc(sizeof *stat_buf); 192 stat_buf = malloc(sizeof *stat_buf);
190 193
191 setlocale (LC_ALL, ""); 194 setlocale (LC_ALL, "");
@@ -348,6 +351,29 @@ main (int argc, char **argv)
348 TRUE, 0, 351 TRUE, 0,
349 TRUE, path->dtotal_units)); 352 TRUE, path->dtotal_units));
350 353
354 if (display_inodes_perfdata) {
355 /* *_high_tide must be reinitialized at each run */
356 warning_high_tide = UINT_MAX;
357 critical_high_tide = UINT_MAX;
358
359 if (path->freeinodes_percent->warning != NULL) {
360 warning_high_tide = abs( min( (double) warning_high_tide, (double) (1.0 - path->freeinodes_percent->warning->end/100)*path->inodes_total ));
361 }
362 if (path->freeinodes_percent->critical != NULL) {
363 critical_high_tide = abs( min( (double) critical_high_tide, (double) (1.0 - path->freeinodes_percent->critical->end/100)*path->inodes_total ));
364 }
365
366 xasprintf (&perf_ilabel, "%s (inodes)", (!strcmp(me->me_mountdir, "none") || display_mntp) ? me->me_devname : me->me_mountdir);
367 /* Nb: *_high_tide are unset when == UINT_MAX */
368 xasprintf (&perf, "%s %s", perf,
369 perfdata (perf_ilabel,
370 path->inodes_used, "",
371 (warning_high_tide != UINT_MAX ? TRUE : FALSE), warning_high_tide,
372 (critical_high_tide != UINT_MAX ? TRUE : FALSE), critical_high_tide,
373 TRUE, 0,
374 TRUE, path->inodes_total));
375 }
376
351 if (disk_result==STATE_OK && erronly && !verbose) 377 if (disk_result==STATE_OK && erronly && !verbose)
352 continue; 378 continue;
353 379
@@ -455,6 +481,7 @@ process_arguments (int argc, char **argv)
455 {"ignore-eregi-partition", required_argument, 0, 'I'}, 481 {"ignore-eregi-partition", required_argument, 0, 'I'},
456 {"local", no_argument, 0, 'l'}, 482 {"local", no_argument, 0, 'l'},
457 {"stat-remote-fs", no_argument, 0, 'L'}, 483 {"stat-remote-fs", no_argument, 0, 'L'},
484 {"iperfdata", no_argument, 0, 'P'},
458 {"mountpoint", no_argument, 0, 'M'}, 485 {"mountpoint", no_argument, 0, 'M'},
459 {"errors-only", no_argument, 0, 'e'}, 486 {"errors-only", no_argument, 0, 'e'},
460 {"exact-match", no_argument, 0, 'E'}, 487 {"exact-match", no_argument, 0, 'E'},
@@ -477,7 +504,7 @@ process_arguments (int argc, char **argv)
477 strcpy (argv[c], "-t"); 504 strcpy (argv[c], "-t");
478 505
479 while (1) { 506 while (1) {
480 c = getopt_long (argc, argv, "+?VqhvefCt:c:w:K:W:u:p:x:X:N:mklLg:R:r:i:I:MEA", longopts, &option); 507 c = getopt_long (argc, argv, "+?VqhvefCt:c:w:K:W:u:p:x:X:N:mklLPg:R:r:i:I:MEA", longopts, &option);
481 508
482 if (c == -1 || c == EOF) 509 if (c == -1 || c == EOF)
483 break; 510 break;
@@ -582,9 +609,13 @@ process_arguments (int argc, char **argv)
582 break; 609 break;
583 case 'L': 610 case 'L':
584 stat_remote_fs = 1; 611 stat_remote_fs = 1;
612 /* fallthrough */
585 case 'l': 613 case 'l':
586 show_local_fs = 1; 614 show_local_fs = 1;
587 break; 615 break;
616 case 'P':
617 display_inodes_perfdata = 1;
618 break;
588 case 'p': /* select path */ 619 case 'p': /* select path */
589 if (! (warn_freespace_units || crit_freespace_units || warn_freespace_percent || 620 if (! (warn_freespace_units || crit_freespace_units || warn_freespace_percent ||
590 crit_freespace_percent || warn_usedspace_units || crit_usedspace_units || 621 crit_freespace_percent || warn_usedspace_units || crit_usedspace_units ||
@@ -1012,6 +1043,8 @@ get_stats (struct parameter_list *p, struct fs_usage *fsp) {
1012 p->dtotal_units += p_list->dtotal_units; 1043 p->dtotal_units += p_list->dtotal_units;
1013 p->inodes_total += p_list->inodes_total; 1044 p->inodes_total += p_list->inodes_total;
1014 p->inodes_free += p_list->inodes_free; 1045 p->inodes_free += p_list->inodes_free;
1046 p->inodes_free_to_root += p_list->inodes_free_to_root;
1047 p->inodes_used += p_list->inodes_used;
1015 } 1048 }
1016 first = 0; 1049 first = 0;
1017 } 1050 }
@@ -1050,7 +1083,18 @@ get_path_stats (struct parameter_list *p, struct fs_usage *fsp) {
1050 p->dused_units = p->used*fsp->fsu_blocksize/mult; 1083 p->dused_units = p->used*fsp->fsu_blocksize/mult;
1051 p->dfree_units = p->available*fsp->fsu_blocksize/mult; 1084 p->dfree_units = p->available*fsp->fsu_blocksize/mult;
1052 p->dtotal_units = p->total*fsp->fsu_blocksize/mult; 1085 p->dtotal_units = p->total*fsp->fsu_blocksize/mult;
1053 p->inodes_total = fsp->fsu_files; /* Total file nodes. */ 1086 /* Free file nodes. Not sure the workaround is required, but in case...*/
1054 p->inodes_free = fsp->fsu_ffree; /* Free file nodes. */ 1087 p->inodes_free = fsp->fsu_favail > fsp->fsu_ffree ? 0 : fsp->fsu_favail;
1088 p->inodes_free_to_root = fsp->fsu_ffree; /* Free file nodes for root. */
1089 p->inodes_used = fsp->fsu_files - fsp->fsu_ffree;
1090 if (freespace_ignore_reserved) {
1091 /* option activated : we substract the root-reserved inodes from the total */
1092 /* not all OS report fsp->fsu_favail, only the ones with statvfs syscall */
1093 /* for others, fsp->fsu_ffree == fsp->fsu_favail */
1094 p->inodes_total = fsp->fsu_files - p->inodes_free_to_root + p->inodes_free;
1095 } else {
1096 /* default behaviour : take all the inodes into account */
1097 p->inodes_total = fsp->fsu_files;
1098 }
1055 np_add_name(&seen, p->best_match->me_mountdir); 1099 np_add_name(&seen, p->best_match->me_mountdir);
1056} 1100}
diff --git a/plugins/check_dns.c b/plugins/check_dns.c
index f206163..d4d0b88 100644
--- a/plugins/check_dns.c
+++ b/plugins/check_dns.c
@@ -56,6 +56,7 @@ char **expected_address = NULL;
56int expected_address_cnt = 0; 56int expected_address_cnt = 0;
57 57
58int expect_authority = FALSE; 58int expect_authority = FALSE;
59int all_match = FALSE;
59thresholds *time_thresholds = NULL; 60thresholds *time_thresholds = NULL;
60 61
61static int 62static int
@@ -168,8 +169,8 @@ main (int argc, char **argv)
168 temp_buffer++; 169 temp_buffer++;
169 170
170 /* Strip leading spaces */ 171 /* Strip leading spaces */
171 for (; *temp_buffer != '\0' && *temp_buffer == ' '; temp_buffer++) 172 while (*temp_buffer == ' ')
172 /* NOOP */; 173 temp_buffer++;
173 174
174 strip(temp_buffer); 175 strip(temp_buffer);
175 if (temp_buffer==NULL || strlen(temp_buffer)==0) { 176 if (temp_buffer==NULL || strlen(temp_buffer)==0) {
@@ -228,16 +229,27 @@ main (int argc, char **argv)
228 if (result == STATE_OK && expected_address_cnt > 0) { 229 if (result == STATE_OK && expected_address_cnt > 0) {
229 result = STATE_CRITICAL; 230 result = STATE_CRITICAL;
230 temp_buffer = ""; 231 temp_buffer = "";
232 unsigned long expect_match = (1 << expected_address_cnt) - 1;
233 unsigned long addr_match = (1 << n_addresses) - 1;
231 234
232 for (i=0; i<expected_address_cnt; i++) { 235 for (i=0; i<expected_address_cnt; i++) {
236 int j;
233 /* check if we get a match on 'raw' ip or cidr */ 237 /* check if we get a match on 'raw' ip or cidr */
234 if ( strcmp(address, expected_address[i]) == 0 238 for (j=0; j<n_addresses; j++) {
235 || ip_match_cidr(address, expected_address[i]) ) 239 if ( strcmp(addresses[j], expected_address[i]) == 0
236 result = STATE_OK; 240 || ip_match_cidr(addresses[j], expected_address[i]) ) {
241 result = STATE_OK;
242 addr_match &= ~(1 << j);
243 expect_match &= ~(1 << i);
244 }
245 }
237 246
238 /* prepare an error string */ 247 /* prepare an error string */
239 xasprintf(&temp_buffer, "%s%s; ", temp_buffer, expected_address[i]); 248 xasprintf(&temp_buffer, "%s%s; ", temp_buffer, expected_address[i]);
240 } 249 }
250 /* check if expected_address must cover all in addresses and none may be missing */
251 if (all_match && (expect_match != 0 || addr_match != 0))
252 result = STATE_CRITICAL;
241 if (result == STATE_CRITICAL) { 253 if (result == STATE_CRITICAL) {
242 /* Strip off last semicolon... */ 254 /* Strip off last semicolon... */
243 temp_buffer[strlen(temp_buffer)-2] = '\0'; 255 temp_buffer[strlen(temp_buffer)-2] = '\0';
@@ -401,6 +413,7 @@ process_arguments (int argc, char **argv)
401 {"reverse-server", required_argument, 0, 'r'}, 413 {"reverse-server", required_argument, 0, 'r'},
402 {"expected-address", required_argument, 0, 'a'}, 414 {"expected-address", required_argument, 0, 'a'},
403 {"expect-authority", no_argument, 0, 'A'}, 415 {"expect-authority", no_argument, 0, 'A'},
416 {"all", no_argument, 0, 'L'},
404 {"warning", required_argument, 0, 'w'}, 417 {"warning", required_argument, 0, 'w'},
405 {"critical", required_argument, 0, 'c'}, 418 {"critical", required_argument, 0, 'c'},
406 {0, 0, 0, 0} 419 {0, 0, 0, 0}
@@ -414,7 +427,7 @@ process_arguments (int argc, char **argv)
414 strcpy (argv[c], "-t"); 427 strcpy (argv[c], "-t");
415 428
416 while (1) { 429 while (1) {
417 c = getopt_long (argc, argv, "hVvAt:H:s:r:a:w:c:", long_opts, &opt_index); 430 c = getopt_long (argc, argv, "hVvALt:H:s:r:a:w:c:", long_opts, &opt_index);
418 431
419 if (c == -1 || c == EOF) 432 if (c == -1 || c == EOF)
420 break; 433 break;
@@ -462,6 +475,9 @@ process_arguments (int argc, char **argv)
462 case 'A': /* expect authority */ 475 case 'A': /* expect authority */
463 expect_authority = TRUE; 476 expect_authority = TRUE;
464 break; 477 break;
478 case 'L': /* all must match */
479 all_match = TRUE;
480 break;
465 case 'w': 481 case 'w':
466 warning = optarg; 482 warning = optarg;
467 break; 483 break;
@@ -530,14 +546,16 @@ print_help (void)
530 printf (" -a, --expected-address=IP-ADDRESS|CIDR|HOST\n"); 546 printf (" -a, --expected-address=IP-ADDRESS|CIDR|HOST\n");
531 printf (" %s\n", _("Optional IP-ADDRESS/CIDR you expect the DNS server to return. HOST must end")); 547 printf (" %s\n", _("Optional IP-ADDRESS/CIDR you expect the DNS server to return. HOST must end"));
532 printf (" %s\n", _("with a dot (.). This option can be repeated multiple times (Returns OK if any")); 548 printf (" %s\n", _("with a dot (.). This option can be repeated multiple times (Returns OK if any"));
533 printf (" %s\n", _("value match). If multiple addresses are returned at once, you have to match")); 549 printf (" %s\n", _("value matches)."));
534 printf (" %s\n", _("the whole string of addresses separated with commas (sorted alphabetically)."));
535 printf (" -A, --expect-authority\n"); 550 printf (" -A, --expect-authority\n");
536 printf (" %s\n", _("Optionally expect the DNS server to be authoritative for the lookup")); 551 printf (" %s\n", _("Optionally expect the DNS server to be authoritative for the lookup"));
537 printf (" -w, --warning=seconds\n"); 552 printf (" -w, --warning=seconds\n");
538 printf (" %s\n", _("Return warning if elapsed time exceeds value. Default off")); 553 printf (" %s\n", _("Return warning if elapsed time exceeds value. Default off"));
539 printf (" -c, --critical=seconds\n"); 554 printf (" -c, --critical=seconds\n");
540 printf (" %s\n", _("Return critical if elapsed time exceeds value. Default off")); 555 printf (" %s\n", _("Return critical if elapsed time exceeds value. Default off"));
556 printf (" -L, --all\n");
557 printf (" %s\n", _("Return critical if the list of expected addresses does not match all addresses"));
558 printf (" %s\n", _("returned. Default off"));
541 559
542 printf (UT_CONN_TIMEOUT, DEFAULT_SOCKET_TIMEOUT); 560 printf (UT_CONN_TIMEOUT, DEFAULT_SOCKET_TIMEOUT);
543 561
@@ -549,5 +567,5 @@ void
549print_usage (void) 567print_usage (void)
550{ 568{
551 printf ("%s\n", _("Usage:")); 569 printf ("%s\n", _("Usage:"));
552 printf ("%s -H host [-s server] [-a expected-address] [-A] [-t timeout] [-w warn] [-c crit]\n", progname); 570 printf ("%s -H host [-s server] [-a expected-address] [-A] [-t timeout] [-w warn] [-c crit] [-L]\n", progname);
553} 571}
diff --git a/plugins/check_hpjd.c b/plugins/check_hpjd.c
index f159f5a..6546556 100644
--- a/plugins/check_hpjd.c
+++ b/plugins/check_hpjd.c
@@ -67,6 +67,7 @@ void print_usage (void);
67char *community = NULL; 67char *community = NULL;
68char *address = NULL; 68char *address = NULL;
69char *port = NULL; 69char *port = NULL;
70int check_paper_out = 1;
70 71
71int 72int
72main (int argc, char **argv) 73main (int argc, char **argv)
@@ -240,7 +241,8 @@ main (int argc, char **argv)
240 strcpy (errmsg, _("Paper Jam")); 241 strcpy (errmsg, _("Paper Jam"));
241 } 242 }
242 else if (paper_out) { 243 else if (paper_out) {
243 result = STATE_WARNING; 244 if (check_paper_out)
245 result = STATE_WARNING;
244 strcpy (errmsg, _("Out of Paper")); 246 strcpy (errmsg, _("Out of Paper"));
245 } 247 }
246 else if (line_status == OFFLINE) { 248 else if (line_status == OFFLINE) {
@@ -325,7 +327,7 @@ process_arguments (int argc, char **argv)
325 327
326 328
327 while (1) { 329 while (1) {
328 c = getopt_long (argc, argv, "+hVH:C:p:", longopts, &option); 330 c = getopt_long (argc, argv, "+hVH:C:p:D", longopts, &option);
329 331
330 if (c == -1 || c == EOF || c == 1) 332 if (c == -1 || c == EOF || c == 1)
331 break; 333 break;
@@ -347,6 +349,8 @@ process_arguments (int argc, char **argv)
347 usage2 (_("Port must be a positive short integer"), optarg); 349 usage2 (_("Port must be a positive short integer"), optarg);
348 else 350 else
349 port = atoi(optarg); 351 port = atoi(optarg);
352 case 'D': /* disable paper out check*/
353 check_paper_out = 0;
350 break; 354 break;
351 case 'V': /* version */ 355 case 'V': /* version */
352 print_revision (progname, NP_VERSION); 356 print_revision (progname, NP_VERSION);
@@ -420,6 +424,8 @@ print_help (void)
420 printf (" %s", _("Specify the port to check ")); 424 printf (" %s", _("Specify the port to check "));
421 printf (_("(default=%s)"), DEFAULT_PORT); 425 printf (_("(default=%s)"), DEFAULT_PORT);
422 printf ("\n"); 426 printf ("\n");
427 printf (" %s\n", "-D");
428 printf (" %s", _("Disable paper check "));
423 429
424 printf (UT_SUPPORT); 430 printf (UT_SUPPORT);
425} 431}
@@ -430,5 +436,5 @@ void
430print_usage (void) 436print_usage (void)
431{ 437{
432 printf ("%s\n", _("Usage:")); 438 printf ("%s\n", _("Usage:"));
433 printf ("%s -H host [-C community] [-p port]\n", progname); 439 printf ("%s -H host [-C community] [-p port] [-D]\n", progname);
434} 440}
diff --git a/plugins/check_http.c b/plugins/check_http.c
index 86a36c2..de59a06 100644
--- a/plugins/check_http.c
+++ b/plugins/check_http.c
@@ -120,12 +120,14 @@ int use_ssl = FALSE;
120int use_sni = FALSE; 120int use_sni = FALSE;
121int verbose = FALSE; 121int verbose = FALSE;
122int show_extended_perfdata = FALSE; 122int show_extended_perfdata = FALSE;
123int show_body = FALSE;
123int sd; 124int sd;
124int min_page_len = 0; 125int min_page_len = 0;
125int max_page_len = 0; 126int max_page_len = 0;
126int redir_depth = 0; 127int redir_depth = 0;
127int max_depth = 15; 128int max_depth = 15;
128char *http_method; 129char *http_method;
130char *http_method_proxy;
129char *http_post_data; 131char *http_post_data;
130char *http_content_type; 132char *http_content_type;
131char buffer[MAX_INPUT_BUFFER]; 133char buffer[MAX_INPUT_BUFFER];
@@ -239,6 +241,7 @@ process_arguments (int argc, char **argv)
239 {"use-ipv4", no_argument, 0, '4'}, 241 {"use-ipv4", no_argument, 0, '4'},
240 {"use-ipv6", no_argument, 0, '6'}, 242 {"use-ipv6", no_argument, 0, '6'},
241 {"extended-perfdata", no_argument, 0, 'E'}, 243 {"extended-perfdata", no_argument, 0, 'E'},
244 {"show-body", no_argument, 0, 'B'},
242 {0, 0, 0, 0} 245 {0, 0, 0, 0}
243 }; 246 };
244 247
@@ -259,7 +262,7 @@ process_arguments (int argc, char **argv)
259 } 262 }
260 263
261 while (1) { 264 while (1) {
262 c = getopt_long (argc, argv, "Vvh46t:c:w:A:k:H:P:j:T:I:a:b:d:e:p:s:R:r:u:f:C:J:K:nlLS::m:M:NE", longopts, &option); 265 c = getopt_long (argc, argv, "Vvh46t:c:w:A:k:H:P:j:T:I:a:b:d:e:p:s:R:r:u:f:C:J:K:nlLS::m:M:NEB", longopts, &option);
263 if (c == -1 || c == EOF) 266 if (c == -1 || c == EOF)
264 break; 267 break;
265 268
@@ -446,6 +449,12 @@ process_arguments (int argc, char **argv)
446 if (http_method) 449 if (http_method)
447 free(http_method); 450 free(http_method);
448 http_method = strdup (optarg); 451 http_method = strdup (optarg);
452 char *tmp;
453 if ((tmp = strstr(http_method, ":")) > 0) {
454 tmp[0] = '\0';
455 http_method = http_method;
456 http_method_proxy = ++tmp;
457 }
449 break; 458 break;
450 case 'd': /* string or substring */ 459 case 'd': /* string or substring */
451 strncpy (header_expect, optarg, MAX_INPUT_BUFFER - 1); 460 strncpy (header_expect, optarg, MAX_INPUT_BUFFER - 1);
@@ -540,6 +549,9 @@ process_arguments (int argc, char **argv)
540 case 'E': /* show extended perfdata */ 549 case 'E': /* show extended perfdata */
541 show_extended_perfdata = TRUE; 550 show_extended_perfdata = TRUE;
542 break; 551 break;
552 case 'B': /* print body content after status line */
553 show_body = TRUE;
554 break;
543 } 555 }
544 } 556 }
545 557
@@ -566,6 +578,9 @@ process_arguments (int argc, char **argv)
566 if (http_method == NULL) 578 if (http_method == NULL)
567 http_method = strdup ("GET"); 579 http_method = strdup ("GET");
568 580
581 if (http_method_proxy == NULL)
582 http_method_proxy = strdup ("GET");
583
569 if (client_cert && !client_privkey) 584 if (client_cert && !client_privkey)
570 usage4 (_("If you use a client certificate you must also specify a private key file")); 585 usage4 (_("If you use a client certificate you must also specify a private key file"));
571 586
@@ -950,7 +965,7 @@ check_http (void)
950 965
951 if ( server_address != NULL && strcmp(http_method, "CONNECT") == 0 966 if ( server_address != NULL && strcmp(http_method, "CONNECT") == 0
952 && host_name != NULL && use_ssl == TRUE) 967 && host_name != NULL && use_ssl == TRUE)
953 asprintf (&buf, "%s %s %s\r\n%s\r\n", "GET", server_url, host_name ? "HTTP/1.1" : "HTTP/1.0", user_agent); 968 asprintf (&buf, "%s %s %s\r\n%s\r\n", http_method_proxy, server_url, host_name ? "HTTP/1.1" : "HTTP/1.0", user_agent);
954 else 969 else
955 asprintf (&buf, "%s %s %s\r\n%s\r\n", http_method, server_url, host_name ? "HTTP/1.1" : "HTTP/1.0", user_agent); 970 asprintf (&buf, "%s %s %s\r\n%s\r\n", http_method, server_url, host_name ? "HTTP/1.1" : "HTTP/1.0", user_agent);
956 971
@@ -1140,6 +1155,8 @@ check_http (void)
1140 xasprintf (&msg, 1155 xasprintf (&msg,
1141 _("Invalid HTTP response received from host on port %d: %s\n"), 1156 _("Invalid HTTP response received from host on port %d: %s\n"),
1142 server_port, status_line); 1157 server_port, status_line);
1158 if (show_body)
1159 xasprintf (&msg, _("%s\n%s"), msg, page);
1143 die (STATE_CRITICAL, "HTTP CRITICAL - %s", msg); 1160 die (STATE_CRITICAL, "HTTP CRITICAL - %s", msg);
1144 } 1161 }
1145 1162
@@ -1290,6 +1307,9 @@ check_http (void)
1290 perfd_time (elapsed_time), 1307 perfd_time (elapsed_time),
1291 perfd_size (page_len)); 1308 perfd_size (page_len));
1292 1309
1310 if (show_body)
1311 xasprintf (&msg, _("%s\n%s"), msg, page);
1312
1293 result = max_state_alt(get_status(elapsed_time, thlds), result); 1313 result = max_state_alt(get_status(elapsed_time, thlds), result);
1294 1314
1295 die (result, "HTTP %s: %s\n", state_text(result), msg); 1315 die (result, "HTTP %s: %s\n", state_text(result), msg);
@@ -1581,7 +1601,7 @@ print_help (void)
1581 printf (" %s\n", _("URL to GET or POST (default: /)")); 1601 printf (" %s\n", _("URL to GET or POST (default: /)"));
1582 printf (" %s\n", "-P, --post=STRING"); 1602 printf (" %s\n", "-P, --post=STRING");
1583 printf (" %s\n", _("URL encoded http POST data")); 1603 printf (" %s\n", _("URL encoded http POST data"));
1584 printf (" %s\n", "-j, --method=STRING (for example: HEAD, OPTIONS, TRACE, PUT, DELETE, CONNECT)"); 1604 printf (" %s\n", "-j, --method=STRING (for example: HEAD, OPTIONS, TRACE, PUT, DELETE, CONNECT, CONNECT:POST)");
1585 printf (" %s\n", _("Set HTTP method.")); 1605 printf (" %s\n", _("Set HTTP method."));
1586 printf (" %s\n", "-N, --no-body"); 1606 printf (" %s\n", "-N, --no-body");
1587 printf (" %s\n", _("Don't wait for document body: stop reading after headers.")); 1607 printf (" %s\n", _("Don't wait for document body: stop reading after headers."));
@@ -1611,6 +1631,8 @@ print_help (void)
1611 printf (" %s\n", _("Any other tags to be sent in http header. Use multiple times for additional headers")); 1631 printf (" %s\n", _("Any other tags to be sent in http header. Use multiple times for additional headers"));
1612 printf (" %s\n", "-E, --extended-perfdata"); 1632 printf (" %s\n", "-E, --extended-perfdata");
1613 printf (" %s\n", _("Print additional performance data")); 1633 printf (" %s\n", _("Print additional performance data"));
1634 printf (" %s\n", "-B, --show-body");
1635 printf (" %s\n", _("Print body content below status line"));
1614 printf (" %s\n", "-L, --link"); 1636 printf (" %s\n", "-L, --link");
1615 printf (" %s\n", _("Wrap output in HTML link (obsoleted by urlize)")); 1637 printf (" %s\n", _("Wrap output in HTML link (obsoleted by urlize)"));
1616 printf (" %s\n", "-f, --onredirect=<ok|warning|critical|follow|sticky|stickyport>"); 1638 printf (" %s\n", "-f, --onredirect=<ok|warning|critical|follow|sticky|stickyport>");
@@ -1668,7 +1690,8 @@ print_help (void)
1668 printf (" %s\n", _("all these options are needed: -I <proxy> -p <proxy-port> -u <check-url> -S(sl) -j CONNECT -H <webserver>")); 1690 printf (" %s\n", _("all these options are needed: -I <proxy> -p <proxy-port> -u <check-url> -S(sl) -j CONNECT -H <webserver>"));
1669 printf (" %s\n", _("a STATE_OK will be returned. When the server returns its content but exceeds")); 1691 printf (" %s\n", _("a STATE_OK will be returned. When the server returns its content but exceeds"));
1670 printf (" %s\n", _("the 5-second threshold, a STATE_WARNING will be returned. When an error occurs,")); 1692 printf (" %s\n", _("the 5-second threshold, a STATE_WARNING will be returned. When an error occurs,"));
1671 printf (" %s\n", _("a STATE_CRITICAL will be returned.")); 1693 printf (" %s\n", _("a STATE_CRITICAL will be returned. By adding a colon to the method you can set the method used"));
1694 printf (" %s\n", _("inside the proxied connection: -j CONNECT:POST"));
1672 1695
1673#endif 1696#endif
1674 1697
diff --git a/plugins/check_load.c b/plugins/check_load.c
index b1cc498..bf7b94b 100644
--- a/plugins/check_load.c
+++ b/plugins/check_load.c
@@ -33,6 +33,7 @@ const char *copyright = "1999-2007";
33const char *email = "devel@monitoring-plugins.org"; 33const char *email = "devel@monitoring-plugins.org";
34 34
35#include "common.h" 35#include "common.h"
36#include "runcmd.h"
36#include "utils.h" 37#include "utils.h"
37#include "popen.h" 38#include "popen.h"
38 39
@@ -52,6 +53,9 @@ static int process_arguments (int argc, char **argv);
52static int validate_arguments (void); 53static int validate_arguments (void);
53void print_help (void); 54void print_help (void);
54void print_usage (void); 55void print_usage (void);
56static int print_top_consuming_processes();
57
58static int n_procs_to_show = 0;
55 59
56/* strictly for pretty-print usage in loops */ 60/* strictly for pretty-print usage in loops */
57static const int nums[3] = { 1, 5, 15 }; 61static const int nums[3] = { 1, 5, 15 };
@@ -210,6 +214,9 @@ main (int argc, char **argv)
210 printf("load%d=%.3f;%.3f;%.3f;0; ", nums[i], la[i], wload[i], cload[i]); 214 printf("load%d=%.3f;%.3f;%.3f;0; ", nums[i], la[i], wload[i], cload[i]);
211 215
212 putchar('\n'); 216 putchar('\n');
217 if (n_procs_to_show > 0) {
218 print_top_consuming_processes();
219 }
213 return result; 220 return result;
214} 221}
215 222
@@ -227,6 +234,7 @@ process_arguments (int argc, char **argv)
227 {"percpu", no_argument, 0, 'r'}, 234 {"percpu", no_argument, 0, 'r'},
228 {"version", no_argument, 0, 'V'}, 235 {"version", no_argument, 0, 'V'},
229 {"help", no_argument, 0, 'h'}, 236 {"help", no_argument, 0, 'h'},
237 {"procs-to-show", required_argument, 0, 'n'},
230 {0, 0, 0, 0} 238 {0, 0, 0, 0}
231 }; 239 };
232 240
@@ -234,7 +242,7 @@ process_arguments (int argc, char **argv)
234 return ERROR; 242 return ERROR;
235 243
236 while (1) { 244 while (1) {
237 c = getopt_long (argc, argv, "Vhrc:w:", longopts, &option); 245 c = getopt_long (argc, argv, "Vhrc:w:n:", longopts, &option);
238 246
239 if (c == -1 || c == EOF) 247 if (c == -1 || c == EOF)
240 break; 248 break;
@@ -255,6 +263,9 @@ process_arguments (int argc, char **argv)
255 case 'h': /* help */ 263 case 'h': /* help */
256 print_help (); 264 print_help ();
257 exit (STATE_UNKNOWN); 265 exit (STATE_UNKNOWN);
266 case 'n':
267 n_procs_to_show = atoi(optarg);
268 break;
258 case '?': /* help */ 269 case '?': /* help */
259 usage5 (); 270 usage5 ();
260 } 271 }
@@ -324,6 +335,9 @@ print_help (void)
324 printf (" %s\n", _("the load average format is the same used by \"uptime\" and \"w\"")); 335 printf (" %s\n", _("the load average format is the same used by \"uptime\" and \"w\""));
325 printf (" %s\n", "-r, --percpu"); 336 printf (" %s\n", "-r, --percpu");
326 printf (" %s\n", _("Divide the load averages by the number of CPUs (when possible)")); 337 printf (" %s\n", _("Divide the load averages by the number of CPUs (when possible)"));
338 printf (" %s\n", "-n, --procs-to-show=NUMBER_OF_PROCS");
339 printf (" %s\n", _("Number of processes to show when printing the top consuming processes."));
340 printf (" %s\n", _("NUMBER_OF_PROCS=0 disables this feature. Default value is 0"));
327 341
328 printf (UT_SUPPORT); 342 printf (UT_SUPPORT);
329} 343}
@@ -332,5 +346,48 @@ void
332print_usage (void) 346print_usage (void)
333{ 347{
334 printf ("%s\n", _("Usage:")); 348 printf ("%s\n", _("Usage:"));
335 printf ("%s [-r] -w WLOAD1,WLOAD5,WLOAD15 -c CLOAD1,CLOAD5,CLOAD15\n", progname); 349 printf ("%s [-r] -w WLOAD1,WLOAD5,WLOAD15 -c CLOAD1,CLOAD5,CLOAD15 [-n NUMBER_OF_PROCS]\n", progname);
350}
351
352#ifdef PS_USES_PROCPCPU
353int cmpstringp(const void *p1, const void *p2) {
354 int procuid = 0;
355 int procpid = 0;
356 int procppid = 0;
357 int procvsz = 0;
358 int procrss = 0;
359 float procpcpu = 0;
360 char procstat[8];
361#ifdef PS_USES_PROCETIME
362 char procetime[MAX_INPUT_BUFFER];
363#endif /* PS_USES_PROCETIME */
364 char procprog[MAX_INPUT_BUFFER];
365 int pos;
366 sscanf (* (char * const *) p1, PS_FORMAT, PS_VARLIST);
367 float procpcpu1 = procpcpu;
368 sscanf (* (char * const *) p2, PS_FORMAT, PS_VARLIST);
369 return procpcpu1 < procpcpu;
370}
371#endif /* PS_USES_PROCPCPU */
372
373static int print_top_consuming_processes() {
374 int i = 0;
375 struct output chld_out, chld_err;
376 if(np_runcmd(PS_COMMAND, &chld_out, &chld_err, 0) != 0){
377 fprintf(stderr, _("'%s' exited with non-zero status.\n"), PS_COMMAND);
378 return STATE_UNKNOWN;
379 }
380 if (chld_out.lines < 2) {
381 fprintf(stderr, _("some error occurred getting procs list.\n"));
382 return STATE_UNKNOWN;
383 }
384#ifdef PS_USES_PROCPCPU
385 qsort(chld_out.line + 1, chld_out.lines - 1, sizeof(char*), cmpstringp);
386#endif /* PS_USES_PROCPCPU */
387 int lines_to_show = chld_out.lines < (n_procs_to_show + 1)
388 ? chld_out.lines : n_procs_to_show + 1;
389 for (i = 0; i < lines_to_show; i += 1) {
390 printf("%s\n", chld_out.line[i]);
391 }
392 return OK;
336} 393}
diff --git a/plugins/check_mysql.c b/plugins/check_mysql.c
index 5773afd..0cba50e 100644
--- a/plugins/check_mysql.c
+++ b/plugins/check_mysql.c
@@ -379,6 +379,9 @@ process_arguments (int argc, char **argv)
379 if (is_host (optarg)) { 379 if (is_host (optarg)) {
380 db_host = optarg; 380 db_host = optarg;
381 } 381 }
382 else if (*optarg == '/') {
383 db_socket = optarg;
384 }
382 else { 385 else {
383 usage2 (_("Invalid hostname/address"), optarg); 386 usage2 (_("Invalid hostname/address"), optarg);
384 } 387 }
diff --git a/plugins/check_pgsql.c b/plugins/check_pgsql.c
index 5cd4709..11ce691 100644
--- a/plugins/check_pgsql.c
+++ b/plugins/check_pgsql.c
@@ -34,6 +34,7 @@ const char *email = "devel@monitoring-plugins.org";
34 34
35#include "common.h" 35#include "common.h"
36#include "utils.h" 36#include "utils.h"
37#include "utils_cmd.h"
37 38
38#include "netutils.h" 39#include "netutils.h"
39#include <libpq-fe.h> 40#include <libpq-fe.h>
diff --git a/plugins/check_procs.c b/plugins/check_procs.c
index 4bcc56b..f7917c3 100644
--- a/plugins/check_procs.c
+++ b/plugins/check_procs.c
@@ -764,6 +764,11 @@ be the total number of running processes\n\n"));
764 printf (" %s\n", "check_procs -w 2:2 -c 2:1024 -C portsentry"); 764 printf (" %s\n", "check_procs -w 2:2 -c 2:1024 -C portsentry");
765 printf (" %s\n", _("Warning if not two processes with command name portsentry.")); 765 printf (" %s\n", _("Warning if not two processes with command name portsentry."));
766 printf (" %s\n\n", _("Critical if < 2 or > 1024 processes")); 766 printf (" %s\n\n", _("Critical if < 2 or > 1024 processes"));
767 printf (" %s\n", "check_procs -c 1: -C sshd");
768 printf (" %s\n", _("Critical if not at least 1 process with command sshd"));
769 printf (" %s\n", "check_procs -w 1024 -c 1: -C sshd");
770 printf (" %s\n", _("Warning if > 1024 processes with command name sshd."));
771 printf (" %s\n\n", _("Critical if < 1 processes with command name sshd."));
767 printf (" %s\n", "check_procs -w 10 -a '/usr/local/bin/perl' -u root"); 772 printf (" %s\n", "check_procs -w 10 -a '/usr/local/bin/perl' -u root");
768 printf (" %s\n", _("Warning alert if > 10 processes with command arguments containing")); 773 printf (" %s\n", _("Warning alert if > 10 processes with command arguments containing"));
769 printf (" %s\n\n", _("'/usr/local/bin/perl' and owned by root")); 774 printf (" %s\n\n", _("'/usr/local/bin/perl' and owned by root"));
diff --git a/plugins/check_smtp.c b/plugins/check_smtp.c
index 0fcf4c6..d37c57c 100644
--- a/plugins/check_smtp.c
+++ b/plugins/check_smtp.c
@@ -293,6 +293,7 @@ main (int argc, char **argv)
293 printf("%s", buffer); 293 printf("%s", buffer);
294 } 294 }
295 295
296 n = 0;
296 while (n < ncommands) { 297 while (n < ncommands) {
297 xasprintf (&cmd_str, "%s%s", commands[n], "\r\n"); 298 xasprintf (&cmd_str, "%s%s", commands[n], "\r\n");
298 my_send(cmd_str, strlen(cmd_str)); 299 my_send(cmd_str, strlen(cmd_str));
diff --git a/plugins/check_snmp.c b/plugins/check_snmp.c
index da9638c..e8a21a4 100644
--- a/plugins/check_snmp.c
+++ b/plugins/check_snmp.c
@@ -1207,8 +1207,9 @@ print_help (void)
1207 printf (" %s\n", _("Separates output on multiple OID requests")); 1207 printf (" %s\n", _("Separates output on multiple OID requests"));
1208 1208
1209 printf (UT_CONN_TIMEOUT, DEFAULT_SOCKET_TIMEOUT); 1209 printf (UT_CONN_TIMEOUT, DEFAULT_SOCKET_TIMEOUT);
1210 printf (" %s\n", _("NOTE the final timeout value is calculated using this formula: timeout_interval * retries + 5"));
1210 printf (" %s\n", "-e, --retries=INTEGER"); 1211 printf (" %s\n", "-e, --retries=INTEGER");
1211 printf (" %s\n", _("Number of retries to be used in the requests")); 1212 printf (" %s%i\n", _("Number of retries to be used in the requests, default: "), DEFAULT_RETRIES);
1212 1213
1213 printf (" %s\n", "-O, --perf-oids"); 1214 printf (" %s\n", "-O, --perf-oids");
1214 printf (" %s\n", _("Label performance data with OIDs instead of --label's")); 1215 printf (" %s\n", _("Label performance data with OIDs instead of --label's"));
diff --git a/plugins/check_swap.c b/plugins/check_swap.c
index 4d5a407..0ff0c77 100644
--- a/plugins/check_swap.c
+++ b/plugins/check_swap.c
@@ -51,7 +51,7 @@ const char *email = "devel@monitoring-plugins.org";
51# define SWAP_CONVERSION 1 51# define SWAP_CONVERSION 1
52#endif 52#endif
53 53
54int check_swap (int usp, float free_swap_mb); 54int check_swap (int usp, float free_swap_mb, float total_swap_mb);
55int process_arguments (int argc, char **argv); 55int process_arguments (int argc, char **argv);
56int validate_arguments (void); 56int validate_arguments (void);
57void print_usage (void); 57void print_usage (void);
@@ -128,7 +128,7 @@ main (int argc, char **argv)
128 percent=100.0; 128 percent=100.0;
129 else 129 else
130 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb)); 130 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb));
131 result = max_state (result, check_swap (percent, dskfree_mb)); 131 result = max_state (result, check_swap (percent, dskfree_mb, dsktotal_mb));
132 if (verbose) 132 if (verbose)
133 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent); 133 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent);
134 } 134 }
@@ -227,7 +227,7 @@ main (int argc, char **argv)
227 free_swap_mb += dskfree_mb; 227 free_swap_mb += dskfree_mb;
228 if (allswaps) { 228 if (allswaps) {
229 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb)); 229 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb));
230 result = max_state (result, check_swap (percent, dskfree_mb)); 230 result = max_state (result, check_swap (percent, dskfree_mb, dsktotal_mb));
231 if (verbose) 231 if (verbose)
232 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent); 232 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent);
233 } 233 }
@@ -289,7 +289,7 @@ main (int argc, char **argv)
289 289
290 if(allswaps && dsktotal_mb > 0){ 290 if(allswaps && dsktotal_mb > 0){
291 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb)); 291 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb));
292 result = max_state (result, check_swap (percent, dskfree_mb)); 292 result = max_state (result, check_swap (percent, dskfree_mb, dsktotal_mb));
293 if (verbose) { 293 if (verbose) {
294 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent); 294 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent);
295 } 295 }
@@ -328,7 +328,7 @@ main (int argc, char **argv)
328 328
329 if(allswaps && dsktotal_mb > 0){ 329 if(allswaps && dsktotal_mb > 0){
330 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb)); 330 percent = 100 * (((double) dskused_mb) / ((double) dsktotal_mb));
331 result = max_state (result, check_swap (percent, dskfree_mb)); 331 result = max_state (result, check_swap (percent, dskfree_mb, dsktotal_mb));
332 if (verbose) { 332 if (verbose) {
333 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent); 333 xasprintf (&status, "%s [%.0f (%d%%)]", status, dskfree_mb, 100 - percent);
334 } 334 }
@@ -355,7 +355,7 @@ main (int argc, char **argv)
355 status = "- Swap is either disabled, not present, or of zero size. "; 355 status = "- Swap is either disabled, not present, or of zero size. ";
356 } 356 }
357 357
358 result = max_state (result, check_swap (percent_used, free_swap_mb)); 358 result = max_state (result, check_swap (percent_used, free_swap_mb, total_swap_mb));
359 printf (_("SWAP %s - %d%% free (%d MB out of %d MB) %s|"), 359 printf (_("SWAP %s - %d%% free (%d MB out of %d MB) %s|"),
360 state_text (result), 360 state_text (result),
361 (100 - percent_used), (int) free_swap_mb, (int) total_swap_mb, status); 361 (100 - percent_used), (int) free_swap_mb, (int) total_swap_mb, status);
@@ -372,10 +372,10 @@ main (int argc, char **argv)
372 372
373 373
374int 374int
375check_swap (int usp, float free_swap_mb) 375check_swap (int usp, float free_swap_mb, float total_swap_mb)
376{ 376{
377 377
378 if (!free_swap_mb) return no_swap_state; 378 if (!total_swap_mb) return no_swap_state;
379 379
380 int result = STATE_UNKNOWN; 380 int result = STATE_UNKNOWN;
381 float free_swap = free_swap_mb * (1024 * 1024); /* Convert back to bytes as warn and crit specified in bytes */ 381 float free_swap = free_swap_mb * (1024 * 1024); /* Convert back to bytes as warn and crit specified in bytes */
diff --git a/plugins/common.h b/plugins/common.h
index 6bf4fca..0f08e2f 100644
--- a/plugins/common.h
+++ b/plugins/common.h
@@ -225,4 +225,18 @@ enum {
225# define __attribute__(x) /* do nothing */ 225# define __attribute__(x) /* do nothing */
226#endif 226#endif
227 227
228/* Try sysconf(_SC_OPEN_MAX) first, as it can be higher than OPEN_MAX.
229 * If that fails and the macro isn't defined, we fall back to an educated
230 * guess. There's no guarantee that our guess is adequate and the program
231 * will die with SIGSEGV if it isn't and the upper boundary is breached. */
232#define DEFAULT_MAXFD 256 /* fallback value if no max open files value is set */
233#define MAXFD_LIMIT 8192 /* upper limit of open files */
234#ifdef _SC_OPEN_MAX
235static long maxfd = 0;
236#elif defined(OPEN_MAX)
237# define maxfd OPEN_MAX
238#else /* sysconf macro unavailable, so guess (may be wildly inaccurate) */
239# define maxfd DEFAULT_MAXFD
240#endif
241
228#endif /* _COMMON_H_ */ 242#endif /* _COMMON_H_ */
diff --git a/plugins/popen.c b/plugins/popen.c
index 592263f..116d168 100644
--- a/plugins/popen.c
+++ b/plugins/popen.c
@@ -78,7 +78,6 @@ RETSIGTYPE popen_timeout_alarm_handler (int);
78 78
79#define min(a,b) ((a) < (b) ? (a) : (b)) 79#define min(a,b) ((a) < (b) ? (a) : (b))
80#define max(a,b) ((a) > (b) ? (a) : (b)) 80#define max(a,b) ((a) > (b) ? (a) : (b))
81int open_max (void); /* {Prog openmax} */
82static void err_sys (const char *, ...) __attribute__((noreturn,format(printf, 1, 2))); 81static void err_sys (const char *, ...) __attribute__((noreturn,format(printf, 1, 2)));
83char *rtrim (char *, const char *); 82char *rtrim (char *, const char *);
84 83
@@ -86,7 +85,6 @@ char *pname = NULL; /* caller can set this from argv[0] */
86 85
87/*int *childerr = NULL;*//* ptr to array allocated at run-time */ 86/*int *childerr = NULL;*//* ptr to array allocated at run-time */
88/*extern pid_t *childpid = NULL; *//* ptr to array allocated at run-time */ 87/*extern pid_t *childpid = NULL; *//* ptr to array allocated at run-time */
89static int maxfd; /* from our open_max(), {Prog openmax} */
90 88
91#ifdef REDHAT_SPOPEN_ERROR 89#ifdef REDHAT_SPOPEN_ERROR
92static volatile int childtermd = 0; 90static volatile int childtermd = 0;
@@ -187,13 +185,11 @@ spopen (const char *cmdstring)
187 argv[i] = NULL; 185 argv[i] = NULL;
188 186
189 if (childpid == NULL) { /* first time through */ 187 if (childpid == NULL) { /* first time through */
190 maxfd = open_max (); /* allocate zeroed out array for child pids */
191 if ((childpid = calloc ((size_t)maxfd, sizeof (pid_t))) == NULL) 188 if ((childpid = calloc ((size_t)maxfd, sizeof (pid_t))) == NULL)
192 return (NULL); 189 return (NULL);
193 } 190 }
194 191
195 if (child_stderr_array == NULL) { /* first time through */ 192 if (child_stderr_array == NULL) { /* first time through */
196 maxfd = open_max (); /* allocate zeroed out array for child pids */
197 if ((child_stderr_array = calloc ((size_t)maxfd, sizeof (int))) == NULL) 193 if ((child_stderr_array = calloc ((size_t)maxfd, sizeof (int))) == NULL)
198 return (NULL); 194 return (NULL);
199 } 195 }
@@ -273,15 +269,6 @@ spclose (FILE * fp)
273 return (1); 269 return (1);
274} 270}
275 271
276#ifdef OPEN_MAX
277static int openmax = OPEN_MAX;
278#else
279static int openmax = 0;
280#endif
281
282#define OPEN_MAX_GUESS 256 /* if OPEN_MAX is indeterminate */
283 /* no guarantee this is adequate */
284
285#ifdef REDHAT_SPOPEN_ERROR 272#ifdef REDHAT_SPOPEN_ERROR
286RETSIGTYPE 273RETSIGTYPE
287popen_sigchld_handler (int signo) 274popen_sigchld_handler (int signo)
@@ -311,22 +298,6 @@ popen_timeout_alarm_handler (int signo)
311} 298}
312 299
313 300
314int
315open_max (void)
316{
317 if (openmax == 0) { /* first time through */
318 errno = 0;
319 if ((openmax = sysconf (_SC_OPEN_MAX)) < 0) {
320 if (errno == 0)
321 openmax = OPEN_MAX_GUESS; /* it's indeterminate */
322 else
323 err_sys (_("sysconf error for _SC_OPEN_MAX"));
324 }
325 }
326 return (openmax);
327}
328
329
330/* Fatal error related to a system call. 301/* Fatal error related to a system call.
331 * Print a message and die. */ 302 * Print a message and die. */
332 303
diff --git a/plugins/runcmd.c b/plugins/runcmd.c
index 1a7c904..c382867 100644
--- a/plugins/runcmd.c
+++ b/plugins/runcmd.c
@@ -67,19 +67,6 @@
67 * occur in any number of threads simultaneously. */ 67 * occur in any number of threads simultaneously. */
68static pid_t *np_pids = NULL; 68static pid_t *np_pids = NULL;
69 69
70/* Try sysconf(_SC_OPEN_MAX) first, as it can be higher than OPEN_MAX.
71 * If that fails and the macro isn't defined, we fall back to an educated
72 * guess. There's no guarantee that our guess is adequate and the program
73 * will die with SIGSEGV if it isn't and the upper boundary is breached. */
74#ifdef _SC_OPEN_MAX
75static long maxfd = 0;
76#elif defined(OPEN_MAX)
77# define maxfd OPEN_MAX
78#else /* sysconf macro unavailable, so guess (may be wildly inaccurate) */
79# define maxfd 256
80#endif
81
82
83/** prototypes **/ 70/** prototypes **/
84static int np_runcmd_open(const char *, int *, int *) 71static int np_runcmd_open(const char *, int *, int *)
85 __attribute__((__nonnull__(1, 2, 3))); 72 __attribute__((__nonnull__(1, 2, 3)));
diff --git a/plugins/t/NPTest.cache.travis b/plugins/t/NPTest.cache.travis
index e9705f3..9b9f805 100644
--- a/plugins/t/NPTest.cache.travis
+++ b/plugins/t/NPTest.cache.travis
@@ -1,62 +1,54 @@
1{ 1{
2 'MYSQL_LOGIN_DETAILS' => '-u root -d test',
3 'NP_ALLOW_SUDO' => 'yes', 2 'NP_ALLOW_SUDO' => 'yes',
4 'NP_DNS_SERVER' => '8.8.8.8', 3 'NP_DNS_SERVER' => '8.8.8.8',
5 'NP_GOOD_NTP_SERVICE' => '', 4 'NP_GOOD_NTP_SERVICE' => '',
5 'NP_HOST_DHCP_RESPONSIVE' => '',
6 'NP_HOST_HPJD_PORT_INVALID' => '161',
7 'NP_HOST_HPJD_PORT_VALID' => '',
8 'NP_HOSTNAME_INVALID_CIDR' => '130.133.8.39/30',
6 'NP_HOSTNAME_INVALID' => 'nosuchhost', 9 'NP_HOSTNAME_INVALID' => 'nosuchhost',
7 'NP_HOSTNAME_VALID' => 'monitoring-plugins.org',
8 'NP_HOSTNAME_VALID_IP' => '130.133.8.40',
9 'NP_HOSTNAME_VALID_CIDR' => '130.133.8.41/30', 10 'NP_HOSTNAME_VALID_CIDR' => '130.133.8.41/30',
10 'NP_HOSTNAME_INVALID_CIDR' => '130.133.8.39/30', 11 'NP_HOSTNAME_VALID_IP' => '130.133.8.40',
12 'NP_HOSTNAME_VALID' => 'monitoring-plugins.org',
11 'NP_HOSTNAME_VALID_REVERSE' => 'orwell.monitoring-plugins.org.', 13 'NP_HOSTNAME_VALID_REVERSE' => 'orwell.monitoring-plugins.org.',
12 'NP_HOST_DHCP_RESPONSIVE' => '',
13 'NP_HOST_NONRESPONSIVE' => '10.0.0.1', 14 'NP_HOST_NONRESPONSIVE' => '10.0.0.1',
14 'NP_HOST_RESPONSIVE' => 'localhost', 15 'NP_HOST_RESPONSIVE' => 'localhost',
15 'NP_HOST_SMB' => '', 16 'NP_HOST_SMB' => '',
16 'NP_HOST_SNMP' => 'localhost', 17 'NP_HOST_SNMP' => '',
17 'NP_HOST_TCP_FTP' => '', 18 'NP_HOST_TCP_FTP' => '',
18 'NP_HOST_TCP_HPJD' => '', 19 'NP_HOST_TCP_HPJD' => '',
19 'NP_HOST_HPJD_PORT_INVALID' => '161',
20 'NP_HOST_HPJD_PORT_VALID' => '',
21 'NP_HOST_TCP_HTTP' => 'localhost',
22 'NP_HOST_TCP_HTTP2' => 'test.monitoring-plugins.org', 20 'NP_HOST_TCP_HTTP2' => 'test.monitoring-plugins.org',
21 'NP_HOST_TCP_HTTP' => 'localhost',
23 'NP_HOST_TCP_IMAP' => 'imap.web.de', 22 'NP_HOST_TCP_IMAP' => 'imap.web.de',
23 'NP_HOST_TCP_JABBER' => 'jabber.org',
24 'NP_HOST_TCP_LDAP' => 'localhost', 24 'NP_HOST_TCP_LDAP' => 'localhost',
25 'NP_HOST_TCP_POP' => 'pop.web.de', 25 'NP_HOST_TCP_POP' => 'pop.web.de',
26 'NP_HOST_TCP_PROXY' => 'localhost',
26 'NP_HOST_TCP_SMTP' => 'localhost', 27 'NP_HOST_TCP_SMTP' => 'localhost',
27 'NP_HOST_TCP_SMTP_NOTLS' => '', 28 'NP_HOST_TCP_SMTP_NOTLS' => '',
28 'NP_HOST_TCP_SMTP_TLS' => '', 29 'NP_HOST_TCP_SMTP_TLS' => '',
30 'NP_HOST_TLS_CERT' => 'localhost,
31 'NP_HOST_TLS_HTTP' => 'localhost',
32 'NP_HOST_UDP_TIME' => 'none',
29 'NP_INTERNET_ACCESS' => 'yes', 33 'NP_INTERNET_ACCESS' => 'yes',
30 'NP_LDAP_BASE_DN' => 'cn=admin,dc=nodomain', 34 'NP_LDAP_BASE_DN' => 'cn=admin,dc=nodomain',
31 'NP_MOUNTPOINT2_VALID' => '/media/ramdisk', 35 'NP_MOUNTPOINT2_VALID' => '/media/ramdisk',
32 'NP_MOUNTPOINT_VALID' => '/', 36 'NP_MOUNTPOINT_VALID' => '/',
37 'NP_MYSQL_LOGIN_DETAILS' => '-u root -d test',
33 'NP_MYSQL_SERVER' => 'localhost', 38 'NP_MYSQL_SERVER' => 'localhost',
34 'NP_HOST_UDP_TIME' => 'localhost',
35 'NP_MYSQL_SOCKET' => '/var/run/mysqld/mysqld.sock', 39 'NP_MYSQL_SOCKET' => '/var/run/mysqld/mysqld.sock',
36 'NP_MYSQL_WITH_SLAVE' => '', 40 'NP_MYSQL_WITH_SLAVE' => '',
37 'NP_MYSQL_WITH_SLAVE_LOGIN' => '', 41 'NP_MYSQL_WITH_SLAVE_LOGIN' => '',
38 'NP_NO_NTP_SERVICE' => 'localhost', 42 'NP_NO_NTP_SERVICE' => 'localhost',
43 'NP_PORT_TCP_PROXY' => '3128',
39 'NP_SMB_SHARE' => '', 44 'NP_SMB_SHARE' => '',
40 'NP_SMB_SHARE_DENY' => '', 45 'NP_SMB_SHARE_DENY' => '',
41 'NP_SMB_SHARE_SPC' => '', 46 'NP_SMB_SHARE_SPC' => '',
42 'NP_SMB_VALID_USER' => '', 47 'NP_SMB_VALID_USER' => '',
43 'NP_SMB_VALID_USER_PASS' => '', 48 'NP_SMB_VALID_USER_PASS' => '',
44 'NP_SNMP_COMMUNITY' => 'public', 49 'NP_SNMP_COMMUNITY' => '',
50 'NP_SNMP_USER' => '',
45 'NP_SSH_CONFIGFILE' => '~/.ssh/config', 51 'NP_SSH_CONFIGFILE' => '~/.ssh/config',
46 'NP_SSH_HOST' => 'localhost', 52 'NP_SSH_HOST' => 'localhost',
47 'NP_SSH_IDENTITY' => '~/.ssh/id_dsa', 53 'NP_SSH_IDENTITY' => '~/.ssh/id_rsa'
48 'NP_HOST_TCP_JABBER' => 'jabber.org',
49 'host_nonresponsive' => '10.0.0.1',
50 'host_responsive' => 'localhost',
51 'host_snmp' => '',
52 'host_tcp_ftp' => '',
53 'host_tcp_http' => 'localhost',
54 'host_tcp_imap' => 'imap.nierlein.de',
55 'host_tcp_smtp' => 'localhost',
56 'hostname_invalid' => 'nosuchhost',
57 'snmp_community' => '',
58 'user_snmp' => '',
59 'host_udp_time' => 'none',
60 'host_tls_http' => 'localhost',
61 'host_tls_cert' => 'localhost',
62} 54}
diff --git a/plugins/t/check_by_ssh.t b/plugins/t/check_by_ssh.t
index 4797390..1d2939e 100644
--- a/plugins/t/check_by_ssh.t
+++ b/plugins/t/check_by_ssh.t
@@ -9,17 +9,9 @@ use Test::More;
9use NPTest; 9use NPTest;
10 10
11# Required parameters 11# Required parameters
12my $ssh_service = getTestParameter( "NP_SSH_HOST", 12my $ssh_service = getTestParameter("NP_SSH_HOST", "A host providing SSH service", "localhost");
13 "A host providing SSH service", 13my $ssh_key = getTestParameter("NP_SSH_IDENTITY", "A key allowing access to NP_SSH_HOST", "~/.ssh/id_dsa");
14 "localhost"); 14my $ssh_conf = getTestParameter( "NP_SSH_CONFIGFILE", "A config file with ssh settings", "~/.ssh/config");
15
16my $ssh_key = getTestParameter( "NP_SSH_IDENTITY",
17 "A key allowing access to NP_SSH_HOST",
18 "~/.ssh/id_dsa");
19
20my $ssh_conf = getTestParameter( "NP_SSH_CONFIGFILE",
21 "A config file with ssh settings",
22 "~/.ssh/config");
23 15
24 16
25plan skip_all => "SSH_HOST and SSH_IDENTITY must be defined" unless ($ssh_service && $ssh_key); 17plan skip_all => "SSH_HOST and SSH_IDENTITY must be defined" unless ($ssh_service && $ssh_key);
diff --git a/plugins/t/check_fping.t b/plugins/t/check_fping.t
index 08692e4..342b0a7 100644
--- a/plugins/t/check_fping.t
+++ b/plugins/t/check_fping.t
@@ -15,15 +15,9 @@ BEGIN {$tests = 4; plan tests => $tests}
15my $successOutput = '/^FPING OK - /'; 15my $successOutput = '/^FPING OK - /';
16my $failureOutput = '/^FPING CRITICAL - /'; 16my $failureOutput = '/^FPING CRITICAL - /';
17 17
18my $host_responsive = getTestParameter( "host_responsive", "NP_HOST_RESPONSIVE", "localhost", 18my $host_responsive = getTestParameter("NP_HOST_RESPONSIVE", "The hostname of system responsive to network requests", "localhost");
19 "The hostname of system responsive to network requests" ); 19my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
20 20my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
21my $host_nonresponsive = getTestParameter( "host_nonresponsive", "NP_HOST_NONRESPONSIVE", "10.0.0.1",
22 "The hostname of system not responsive to network requests" );
23
24my $hostname_invalid = getTestParameter( "hostname_invalid", "NP_HOSTNAME_INVALID", "nosuchhost",
25 "An invalid (not known to DNS) hostname" );
26
27 21
28my $t; 22my $t;
29 23
diff --git a/plugins/t/check_ftp.t b/plugins/t/check_ftp.t
index de6831b..93a7d7c 100644
--- a/plugins/t/check_ftp.t
+++ b/plugins/t/check_ftp.t
@@ -11,14 +11,9 @@ use NPTest;
11use vars qw($tests); 11use vars qw($tests);
12BEGIN {$tests = 4; plan tests => $tests} 12BEGIN {$tests = 4; plan tests => $tests}
13 13
14my $host_tcp_ftp = getTestParameter( "host_tcp_ftp", "NP_HOST_TCP_FTP", "localhost", 14my $host_tcp_ftp = getTestParameter("NP_HOST_TCP_FTP", "A host providing the FTP Service (an FTP server)", "localhost");
15 "A host providing the FTP Service (an FTP server)"); 15my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
16 16my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
17my $host_nonresponsive = getTestParameter( "host_nonresponsive", "NP_HOST_NONRESPONSIVE", "10.0.0.1",
18 "The hostname of system not responsive to network requests" );
19
20my $hostname_invalid = getTestParameter( "hostname_invalid", "NP_HOSTNAME_INVALID", "nosuchhost",
21 "An invalid (not known to DNS) hostname" );
22 17
23my $successOutput = '/FTP OK -\s+[0-9]?\.?[0-9]+ second response time/'; 18my $successOutput = '/FTP OK -\s+[0-9]?\.?[0-9]+ second response time/';
24 19
diff --git a/plugins/t/check_http.t b/plugins/t/check_http.t
index 281fa36..e92681e 100644
--- a/plugins/t/check_http.t
+++ b/plugins/t/check_http.t
@@ -9,7 +9,7 @@ use Test::More;
9use POSIX qw/mktime strftime/; 9use POSIX qw/mktime strftime/;
10use NPTest; 10use NPTest;
11 11
12plan tests => 49; 12plan tests => 50;
13 13
14my $successOutput = '/OK.*HTTP.*second/'; 14my $successOutput = '/OK.*HTTP.*second/';
15 15
@@ -17,32 +17,15 @@ my $res;
17my $plugin = 'check_http'; 17my $plugin = 'check_http';
18$plugin = 'check_curl' if $0 =~ m/check_curl/mx; 18$plugin = 'check_curl' if $0 =~ m/check_curl/mx;
19 19
20my $host_tcp_http = getTestParameter( "NP_HOST_TCP_HTTP", 20my $host_tcp_http = getTestParameter("NP_HOST_TCP_HTTP", "A host providing the HTTP Service (a web server)", "localhost");
21 "A host providing the HTTP Service (a web server)", 21my $host_tls_http = getTestParameter("NP_HOST_TLS_HTTP", "A host providing the HTTPS Service (a tls web server)", "localhost");
22 "localhost" ); 22my $host_tls_cert = getTestParameter("NP_HOST_TLS_CERT", "the common name of the certificate.", "localhost");
23 23my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
24my $host_tls_http = getTestParameter( "host_tls_http", "NP_HOST_TLS_HTTP", "localhost", 24my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
25 "A host providing the HTTPS Service (a tls web server)" ); 25my $internet_access = getTestParameter("NP_INTERNET_ACCESS", "Is this system directly connected to the internet?", "yes");
26 26my $host_tcp_http2 = getTestParameter("NP_HOST_TCP_HTTP2", "A host providing an index page containing the string 'monitoring'", "test.monitoring-plugins.org");
27my $host_tls_cert = getTestParameter( "host_tls_cert", "NP_HOST_TLS_CERT", "localhost", 27my $host_tcp_proxy = getTestParameter("NP_HOST_TCP_PROXY", "A host providing a HTTP proxy with CONNECT support", "localhost");
28 "the common name of the certificate." ); 28my $port_tcp_proxy = getTestParameter("NP_PORT_TCP_PROXY", "Port of the proxy with HTTP and CONNECT support", "3128");
29
30
31my $host_nonresponsive = getTestParameter( "NP_HOST_NONRESPONSIVE",
32 "The hostname of system not responsive to network requests",
33 "10.0.0.1" );
34
35my $hostname_invalid = getTestParameter( "NP_HOSTNAME_INVALID",
36 "An invalid (not known to DNS) hostname",
37 "nosuchhost");
38
39my $internet_access = getTestParameter( "NP_INTERNET_ACCESS",
40 "Is this system directly connected to the internet?",
41 "yes");
42
43my $host_tcp_http2 = getTestParameter( "NP_HOST_TCP_HTTP2",
44 "A host providing an index page containing the string 'monitoring'",
45 "test.monitoring-plugins.org" );
46 29
47my $faketime = -x '/usr/bin/faketime' ? 1 : 0; 30my $faketime = -x '/usr/bin/faketime' ? 1 : 0;
48 31
@@ -165,23 +148,18 @@ SKIP: {
165 my $time = strftime("%Y-%m-%d %H:%M:%S", localtime($ts)); 148 my $time = strftime("%Y-%m-%d %H:%M:%S", localtime($ts));
166 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts))."' ./$plugin -C 1 $host_tls_http"); 149 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts))."' ./$plugin -C 1 $host_tls_http");
167 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' just expired/, "Output on expire date"); 150 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' just expired/, "Output on expire date");
168 is( $res->return_code, 2, "Output on expire date" );
169 151
170 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts-1))."' ./$plugin -C 1 $host_tls_http"); 152 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts-1))."' ./$plugin -C 1 $host_tls_http");
171 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expires in 0 minutes/, "cert expires in 1 second output"); 153 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expires in 0 minutes/, "cert expires in 1 second output");
172 is( $res->return_code, 2, "cert expires in 1 second exit code" );
173 154
174 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts-120))."' ./$plugin -C 1 $host_tls_http"); 155 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts-120))."' ./$plugin -C 1 $host_tls_http");
175 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expires in 2 minutes/, "cert expires in 2 minutes output"); 156 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expires in 2 minutes/, "cert expires in 2 minutes output");
176 is( $res->return_code, 2, "cert expires in 2 minutes exit code" );
177 157
178 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts-7200))."' ./$plugin -C 1 $host_tls_http"); 158 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts-7200))."' ./$plugin -C 1 $host_tls_http");
179 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expires in 2 hours/, "cert expires in 2 hours output"); 159 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expires in 2 hours/, "cert expires in 2 hours output");
180 is( $res->return_code, 2, "cert expires in 2 hours exit code" );
181 160
182 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts+1))."' ./$plugin -C 1 $host_tls_http"); 161 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts+1))."' ./$plugin -C 1 $host_tls_http");
183 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expired on/, "Certificate expired output"); 162 like($res->output, qr/CRITICAL - Certificate '$host_tls_cert' expired on/, "Certificate expired output");
184 is( $res->return_code, 2, "Certificate expired exit code" );
185 }; 163 };
186 164
187 $res = NPTest->testCmd( "./$plugin --ssl $host_tls_http -E" ); 165 $res = NPTest->testCmd( "./$plugin --ssl $host_tls_http -E" );
@@ -200,3 +178,19 @@ SKIP: {
200 $res = NPTest->testCmd( "./$plugin -H www.mozilla.com --extended-perfdata" ); 178 $res = NPTest->testCmd( "./$plugin -H www.mozilla.com --extended-perfdata" );
201 like ( $res->output, '/time_connect=[\d\.]+/', 'Extended Performance Data Output OK' ); 179 like ( $res->output, '/time_connect=[\d\.]+/', 'Extended Performance Data Output OK' );
202} 180}
181
182SKIP: {
183 skip "No internet access or proxy configured", 6 if $internet_access eq "no" or ! $host_tcp_proxy;
184
185 $res = NPTest->testCmd( "./$plugin -I $host_tcp_proxy -p $port_tcp_proxy -u http://$host_tcp_http -e 200,301,302");
186 is( $res->return_code, 0, "Proxy HTTP works");
187 like($res->output, qr/OK: Status line output matched/, "Proxy HTTP Output is sufficent");
188
189 $res = NPTest->testCmd( "./$plugin -I $host_tcp_proxy -p $port_tcp_proxy -H $host_tls_http -S -j CONNECT");
190 is( $res->return_code, 0, "Proxy HTTP CONNECT works");
191 like($res->output, qr/HTTP OK:/, "Proxy HTTP CONNECT output sufficent");
192
193 $res = NPTest->testCmd( "./$plugin -I $host_tcp_proxy -p $port_tcp_proxy -H $host_tls_http -S -j CONNECT:HEAD");
194 is( $res->return_code, 0, "Proxy HTTP CONNECT works with override method");
195 like($res->output, qr/HTTP OK:/, "Proxy HTTP CONNECT output sufficent");
196}
diff --git a/plugins/t/check_imap.t b/plugins/t/check_imap.t
index 9c6eae1..7c74e56 100644
--- a/plugins/t/check_imap.t
+++ b/plugins/t/check_imap.t
@@ -8,17 +8,10 @@ use strict;
8use Test::More tests => 7; 8use Test::More tests => 7;
9use NPTest; 9use NPTest;
10 10
11my $host_tcp_smtp = getTestParameter( "host_tcp_smtp", "NP_HOST_TCP_SMTP", "mailhost", 11my $host_tcp_smtp = getTestParameter("NP_HOST_TCP_SMTP", "A host providing an STMP Service (a mail server)", "mailhost");
12 "A host providing an STMP Service (a mail server)"); 12my $host_tcp_imap = getTestParameter("NP_HOST_TCP_IMAP", "A host providing an IMAP Service (a mail server)", $host_tcp_smtp);
13 13my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
14my $host_tcp_imap = getTestParameter( "host_tcp_imap", "NP_HOST_TCP_IMAP", $host_tcp_smtp, 14my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
15 "A host providing an IMAP Service (a mail server)");
16
17my $host_nonresponsive = getTestParameter( "host_nonresponsive", "NP_HOST_NONRESPONSIVE", "10.0.0.1",
18 "The hostname of system not responsive to network requests" );
19
20my $hostname_invalid = getTestParameter( "hostname_invalid", "NP_HOSTNAME_INVALID", "nosuchhost",
21 "An invalid (not known to DNS) hostname" );
22 15
23my $t; 16my $t;
24 17
diff --git a/plugins/t/check_jabber.t b/plugins/t/check_jabber.t
index 7a708d5..fcdae17 100644
--- a/plugins/t/check_jabber.t
+++ b/plugins/t/check_jabber.t
@@ -10,23 +10,9 @@ use NPTest;
10 10
11plan tests => 10; 11plan tests => 10;
12 12
13my $host_tcp_jabber = getTestParameter( 13my $host_tcp_jabber = getTestParameter("NP_HOST_TCP_JABBER", "A host providing the Jabber Service", "jabber.de");
14 "NP_HOST_TCP_JABBER", 14my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
15 "A host providing the Jabber Service", 15my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
16 "jabber.org"
17 );
18
19my $host_nonresponsive = getTestParameter(
20 "NP_HOST_NONRESPONSIVE",
21 "The hostname of system not responsive to network requests",
22 "10.0.0.1",
23 );
24
25my $hostname_invalid = getTestParameter(
26 "NP_HOSTNAME_INVALID",
27 "An invalid (not known to DNS) hostname",
28 "nosuchhost",
29 );
30 16
31 17
32my $jabberOK = '/JABBER OK\s-\s\d+\.\d+\ssecond response time on '.$host_tcp_jabber.' port 5222/'; 18my $jabberOK = '/JABBER OK\s-\s\d+\.\d+\ssecond response time on '.$host_tcp_jabber.' port 5222/';
diff --git a/plugins/t/check_ldap.t b/plugins/t/check_ldap.t
index b8944d4..b8a4a76 100644
--- a/plugins/t/check_ldap.t
+++ b/plugins/t/check_ldap.t
@@ -9,19 +9,10 @@ use warnings;
9use Test::More; 9use Test::More;
10use NPTest; 10use NPTest;
11 11
12my $host_tcp_ldap = getTestParameter("NP_HOST_TCP_LDAP", 12my $host_tcp_ldap = getTestParameter("NP_HOST_TCP_LDAP", "A host providing the LDAP Service", "localhost");
13 "A host providing the LDAP Service", 13my $ldap_base_dn = getTestParameter("NP_LDAP_BASE_DN", "A base dn for the LDAP Service", "cn=admin");
14 "localhost" ); 14my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
15 15my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
16my $ldap_base_dn = getTestParameter("NP_LDAP_BASE_DN",
17 "A base dn for the LDAP Service",
18 "cn=admin" );
19
20my $host_nonresponsive = getTestParameter("host_nonresponsive", "NP_HOST_NONRESPONSIVE", "10.0.0.1",
21 "The hostname of system not responsive to network requests" );
22
23my $hostname_invalid = getTestParameter("hostname_invalid", "NP_HOSTNAME_INVALID", "nosuchhost",
24 "An invalid (not known to DNS) hostname" );
25 16
26my($result, $cmd); 17my($result, $cmd);
27my $command = './check_ldap'; 18my $command = './check_ldap';
diff --git a/plugins/t/check_mysql.t b/plugins/t/check_mysql.t
index 28cd4cd..e426bf5 100644
--- a/plugins/t/check_mysql.t
+++ b/plugins/t/check_mysql.t
@@ -21,30 +21,11 @@ plan skip_all => "check_mysql not compiled" unless (-x "check_mysql");
21plan tests => 15; 21plan tests => 15;
22 22
23my $bad_login_output = '/Access denied for user /'; 23my $bad_login_output = '/Access denied for user /';
24my $mysqlserver = getTestParameter( 24my $mysqlserver = getTestParameter("NP_MYSQL_SERVER", "A MySQL Server hostname or IP with no slaves setup");
25 "NP_MYSQL_SERVER", 25my $mysqlsocket = getTestParameter("NP_MYSQL_SOCKET", "Full path to a MySQL Server socket with no slaves setup");
26 "A MySQL Server hostname or IP with no slaves setup" 26my $mysql_login_details = getTestParameter("NP_MYSQL_LOGIN_DETAILS", "Command line parameters to specify login access (requires REPLICATION CLIENT privleges)", "-u test -ptest");
27 ); 27my $with_slave = getTestParameter("NP_MYSQL_WITH_SLAVE", "MySQL server with slaves setup");
28my $mysqlsocket = getTestParameter( 28my $with_slave_login = getTestParameter("NP_MYSQL_WITH_SLAVE_LOGIN", "Login details for server with slave (requires REPLICATION CLIENT privleges)", $mysql_login_details || "-u test -ptest");
29 "NP_MYSQL_SOCKET",
30 "Full path to a MySQL Server socket with no slaves setup"
31 );
32my $mysql_login_details = getTestParameter(
33 "MYSQL_LOGIN_DETAILS",
34 "Command line parameters to specify login access (requires " .
35 "REPLICATION CLIENT privleges)",
36 "-u test -ptest",
37 );
38my $with_slave = getTestParameter(
39 "NP_MYSQL_WITH_SLAVE",
40 "MySQL server with slaves setup"
41 );
42my $with_slave_login = getTestParameter(
43 "NP_MYSQL_WITH_SLAVE_LOGIN",
44 "Login details for server with slave (requires REPLICATION CLIENT " .
45 "privleges)",
46 $mysql_login_details || "-u test -ptest"
47 );
48 29
49my $result; 30my $result;
50 31
diff --git a/plugins/t/check_mysql_query.t b/plugins/t/check_mysql_query.t
index 407af88..96899ac 100644
--- a/plugins/t/check_mysql_query.t
+++ b/plugins/t/check_mysql_query.t
@@ -17,15 +17,8 @@ use vars qw($tests);
17 17
18plan skip_all => "check_mysql_query not compiled" unless (-x "check_mysql_query"); 18plan skip_all => "check_mysql_query not compiled" unless (-x "check_mysql_query");
19 19
20my $mysqlserver = getTestParameter( 20my $mysqlserver = getTestParameter("NP_MYSQL_SERVER", "A MySQL Server with no slaves setup");
21 "NP_MYSQL_SERVER", 21my $mysql_login_details = getTestParameter("NP_MYSQL_LOGIN_DETAILS", "Command line parameters to specify login access", "-u user -ppw -d db");
22 "A MySQL Server with no slaves setup"
23 );
24my $mysql_login_details = getTestParameter(
25 "MYSQL_LOGIN_DETAILS",
26 "Command line parameters to specify login access",
27 "-u user -ppw -d db",
28 );
29my $result; 22my $result;
30 23
31if (! $mysqlserver) { 24if (! $mysqlserver) {
diff --git a/plugins/t/check_snmp.t b/plugins/t/check_snmp.t
index 9a6cd2b..f2f218f 100644
--- a/plugins/t/check_snmp.t
+++ b/plugins/t/check_snmp.t
@@ -15,18 +15,12 @@ BEGIN {
15 15
16my $res; 16my $res;
17 17
18my $host_snmp = getTestParameter( "host_snmp", "NP_HOST_SNMP", "localhost", 18my $host_snmp = getTestParameter("NP_HOST_SNMP", "A host providing an SNMP Service", "localhost");
19 "A host providing an SNMP Service"); 19my $snmp_community = getTestParameter("NP_SNMP_COMMUNITY", "The SNMP Community string for SNMP Testing (assumes snmp v1)", "public");
20my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
21my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
22my $user_snmp = getTestParameter("NP_SNMP_USER", "An SNMP user", "auth_md5");
20 23
21my $snmp_community = getTestParameter( "snmp_community", "NP_SNMP_COMMUNITY", "public",
22 "The SNMP Community string for SNMP Testing (assumes snmp v1)" );
23
24my $host_nonresponsive = getTestParameter( "host_nonresponsive", "NP_HOST_NONRESPONSIVE", "10.0.0.1",
25 "The hostname of system not responsive to network requests" );
26
27my $hostname_invalid = getTestParameter( "hostname_invalid", "NP_HOSTNAME_INVALID", "nosuchhost",
28 "An invalid (not known to DNS) hostname" );
29my $user_snmp = getTestParameter( "user_snmp", "NP_SNMP_USER", "auth_md5", "An SNMP user");
30 24
31$res = NPTest->testCmd( "./check_snmp -t 1" ); 25$res = NPTest->testCmd( "./check_snmp -t 1" );
32is( $res->return_code, 3, "No host name" ); 26is( $res->return_code, 3, "No host name" );
diff --git a/plugins/t/check_ssh.t b/plugins/t/check_ssh.t
index 8008349..a5cd23c 100644
--- a/plugins/t/check_ssh.t
+++ b/plugins/t/check_ssh.t
@@ -9,17 +9,9 @@ use Test::More;
9use NPTest; 9use NPTest;
10 10
11# Required parameters 11# Required parameters
12my $ssh_host = getTestParameter("NP_SSH_HOST", 12my $ssh_host = getTestParameter("NP_SSH_HOST", "A host providing SSH service", "localhost");
13 "A host providing SSH service", 13my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1" );
14 "localhost"); 14my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost" );
15
16my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE",
17 "The hostname of system not responsive to network requests",
18 "10.0.0.1" );
19
20my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID",
21 "An invalid (not known to DNS) hostname",
22 "nosuchhost" );
23 15
24 16
25plan skip_all => "SSH_HOST must be defined" unless $ssh_host; 17plan skip_all => "SSH_HOST must be defined" unless $ssh_host;
diff --git a/plugins/t/check_tcp.t b/plugins/t/check_tcp.t
index 121b0cb..cb4de53 100644
--- a/plugins/t/check_tcp.t
+++ b/plugins/t/check_tcp.t
@@ -15,21 +15,11 @@ BEGIN {
15} 15}
16 16
17 17
18my $host_tcp_http = getTestParameter( "host_tcp_http", "NP_HOST_TCP_HTTP", "localhost", 18my $host_tcp_http = getTestParameter("NP_HOST_TCP_HTTP", "A host providing the HTTP Service (a web server)", "localhost");
19 "A host providing the HTTP Service (a web server)" ); 19my $host_tls_http = getTestParameter("NP_HOST_TLS_HTTP", "A host providing the HTTPS Service (a tls web server)", "localhost");
20 20my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
21my $host_tls_http = getTestParameter( "host_tls_http", "NP_HOST_TLS_HTTP", "localhost", 21my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
22 "A host providing the HTTPS Service (a tls web server)" ); 22my $internet_access = getTestParameter("NP_INTERNET_ACCESS", "Is this system directly connected to the internet?", "yes");
23
24my $host_nonresponsive = getTestParameter( "host_nonresponsive", "NP_HOST_NONRESPONSIVE", "10.0.0.1",
25 "The hostname of system not responsive to network requests" );
26
27my $hostname_invalid = getTestParameter( "hostname_invalid", "NP_HOSTNAME_INVALID", "nosuchhost",
28 "An invalid (not known to DNS) hostname" );
29
30my $internet_access = getTestParameter( "NP_INTERNET_ACCESS",
31 "Is this system directly connected to the internet?",
32 "yes");
33 23
34my $successOutput = '/^TCP OK\s-\s+[0-9]?\.?[0-9]+ second response time on port [0-9]+/'; 24my $successOutput = '/^TCP OK\s-\s+[0-9]?\.?[0-9]+ second response time on port [0-9]+/';
35 25
diff --git a/plugins/t/check_time.t b/plugins/t/check_time.t
index 961f56e..92c2f89 100644
--- a/plugins/t/check_time.t
+++ b/plugins/t/check_time.t
@@ -11,14 +11,9 @@ use NPTest;
11use vars qw($tests); 11use vars qw($tests);
12BEGIN {$tests = 8; plan tests => $tests} 12BEGIN {$tests = 8; plan tests => $tests}
13 13
14my $host_udp_time = getTestParameter( "host_udp_time", "NP_HOST_UDP_TIME", "localhost", 14my $host_udp_time = getTestParameter("NP_HOST_UDP_TIME", "A host providing the UDP Time Service", "localhost");
15 "A host providing the UDP Time Service" ); 15my $host_nonresponsive = getTestParameter("NP_HOST_NONRESPONSIVE", "The hostname of system not responsive to network requests", "10.0.0.1");
16 16my $hostname_invalid = getTestParameter("NP_HOSTNAME_INVALID", "An invalid (not known to DNS) hostname", "nosuchhost");
17my $host_nonresponsive = getTestParameter( "host_nonresponsive", "NP_HOST_NONRESPONSIVE", "10.0.0.1",
18 "The hostname of system not responsive to network requests" );
19
20my $hostname_invalid = getTestParameter( "hostname_invalid", "NP_HOSTNAME_INVALID", "nosuchhost",
21 "An invalid (not known to DNS) hostname" );
22 17
23my $successOutput = '/^TIME OK - [0-9]+ second time difference/'; 18my $successOutput = '/^TIME OK - [0-9]+ second time difference/';
24 19
diff --git a/plugins/tests/certs/server-cert.pem b/plugins/tests/certs/server-cert.pem
index 549e4f7..b84b91d 100644
--- a/plugins/tests/certs/server-cert.pem
+++ b/plugins/tests/certs/server-cert.pem
@@ -1,21 +1,24 @@
1-----BEGIN CERTIFICATE----- 1-----BEGIN CERTIFICATE-----
2MIIDYzCCAsygAwIBAgIJAL8LkpNwzYdxMA0GCSqGSIb3DQEBBAUAMH8xCzAJBgNV 2MIIEBjCCAu6gAwIBAgIJANbQ5QQrKhUGMA0GCSqGSIb3DQEBCwUAMIGXMQswCQYD
3BAYTAlVLMRMwEQYDVQQIEwpEZXJieXNoaXJlMQ8wDQYDVQQHEwZCZWxwZXIxFzAV 3VQQGEwJERTEQMA4GA1UECAwHQmF2YXJpYTEPMA0GA1UEBwwGTXVuaWNoMRswGQYD
4BgNVBAoTDk5hZ2lvcyBQbHVnaW5zMREwDwYDVQQDEwhUb24gVm9vbjEeMBwGCSqG 4VQQKDBJNb25pdG9yaW5nIFBsdWdpbnMxGzAZBgNVBAMMEk1vbml0b3JpbmcgUGx1
5SIb3DQEJARYPdG9udm9vbkBtYWMuY29tMB4XDTA5MDMwNTIxNDEyOFoXDTE5MDMw 5Z2luczErMCkGCSqGSIb3DQEJARYcZGV2ZWxAbW9uaXRvcmluZy1wbHVnaW5zLm9y
6MzIxNDEyOFowfzELMAkGA1UEBhMCVUsxEzARBgNVBAgTCkRlcmJ5c2hpcmUxDzAN 6ZzAeFw0xOTAyMTkxNTMxNDRaFw0yOTAyMTYxNTMxNDRaMIGXMQswCQYDVQQGEwJE
7BgNVBAcTBkJlbHBlcjEXMBUGA1UEChMOTmFnaW9zIFBsdWdpbnMxETAPBgNVBAMT 7RTEQMA4GA1UECAwHQmF2YXJpYTEPMA0GA1UEBwwGTXVuaWNoMRswGQYDVQQKDBJN
8CFRvbiBWb29uMR4wHAYJKoZIhvcNAQkBFg90b252b29uQG1hYy5jb20wgZ8wDQYJ 8b25pdG9yaW5nIFBsdWdpbnMxGzAZBgNVBAMMEk1vbml0b3JpbmcgUGx1Z2luczEr
9KoZIhvcNAQEBBQADgY0AMIGJAoGBAKcWMBtNtfY8vZXk0SN6/EYTVN/LOvaOSegy 9MCkGCSqGSIb3DQEJARYcZGV2ZWxAbW9uaXRvcmluZy1wbHVnaW5zLm9yZzCCASIw
10oVdLoGwuwjagk+XmCzvCqHZRp8lnCLay7AO8AQI7TSN02ihCcSrgGA9OT+HciIJ1 10DQYJKoZIhvcNAQEBBQADggEPADCCAQoCggEBAKgV2yp8pQvJuN+aJGdAe6Hd0tja
11l5/kEYUAuA1PR6YKK/T713zUAlMzy2tsugx5+xSsSEwsXkmne52jJiG/wuE5CLT0 11uteCPcNIcM92WLOF69TLTSYon1XDon4tHTh4Z5d4lD8bfsGzFVBmDSgWidhAUf+v
129pF8HQqHAgMBAAGjgeYwgeMwHQYDVR0OBBYEFGioSPQ/rdE19+zaeY2YvHTXlUDI 12EqEXwbp293ej/Frc0pXCvmrz6kI1tWrLtQhL/VdbxFYxhV7JjKb+PY3SxGFpSLPe
13MIGzBgNVHSMEgaswgaiAFGioSPQ/rdE19+zaeY2YvHTXlUDIoYGEpIGBMH8xCzAJ 13PQ/5SwVndv7rZIwcjseL22K5Uy2TIrkgzzm2pRs/IvoxRybYr/+LGoHyrtJC6AO8
14BgNVBAYTAlVLMRMwEQYDVQQIEwpEZXJieXNoaXJlMQ8wDQYDVQQHEwZCZWxwZXIx 14ylp8A/etL0gwtUvRnrnZeTQ2pA1uZ5QN3anTL8JP/ZRZYNegIkaawqMtTKbhM6pi
15FzAVBgNVBAoTDk5hZ2lvcyBQbHVnaW5zMREwDwYDVQQDEwhUb24gVm9vbjEeMBwG 15u3/4a3Uppvt0y7vmGfQlYejxCpICnMrvHMpw8L58zv/98AbCGjDU3UwCt6MCAwEA
16CSqGSIb3DQEJARYPdG9udm9vbkBtYWMuY29tggkAvwuSk3DNh3EwDAYDVR0TBAUw 16AaNTMFEwHQYDVR0OBBYEFG/UH6nGYPlVcM75UXzXBF5GZyrcMB8GA1UdIwQYMBaA
17AwEB/zANBgkqhkiG9w0BAQQFAAOBgQCdqasaIO6JiV5ONFG6Tr1++85UfEdZKMUX 17FG/UH6nGYPlVcM75UXzXBF5GZyrcMA8GA1UdEwEB/wQFMAMBAf8wDQYJKoZIhvcN
18N2NHiNNUunolIZEYR+dW99ezKmHlDiQ/tMgoLVYpl2Ubho2pAkLGQR+W0ZASgWQ1 18AQELBQADggEBAGwitJPOnlIKLndNf+iCLMIs0dxsl8kAaejFcjoT0n4ja7Y6Zrqz
19NjfV27Rv0y6lYQMTA0lVAU93L1x9reo3FMedmL5+H+lIEpLCxEPtAJNISrJOneZB 19VSIidzz9vQWvy24xKJpAOdj/iLRHCUOG+Pf5fA6+/FiuqXr6gE2/lm0eC58BNONr
20W5jDadwkoQ== 20E5OzjQ/VoQ8RX4hDntgu6FYbaVa/vhwn16igt9qmdNGGZXf2/+DM3JADwyaA4EK8
21vm7KdofX9zkxXecHPNvf3jiVLPiDDt6tkGpHPEsyP/yc+RUdltUeZvHfliV0cCuC
22jJX+Fm9ysjSpHIFFr+jUMuMHibWoOD8iy3eYxfCDoWsH488pCbj8MNuAq6vd6DBk
23bOZxDz43vjWuYMkwXJTxJQh7Pne6kK0vE1g=
21-----END CERTIFICATE----- 24-----END CERTIFICATE-----
diff --git a/plugins/tests/certs/server-key.pem b/plugins/tests/certs/server-key.pem
index eacaeaa..1194755 100644
--- a/plugins/tests/certs/server-key.pem
+++ b/plugins/tests/certs/server-key.pem
@@ -1,15 +1,28 @@
1-----BEGIN RSA PRIVATE KEY----- 1-----BEGIN PRIVATE KEY-----
2MIICWwIBAAKBgQCnFjAbTbX2PL2V5NEjevxGE1Tfyzr2jknoMqFXS6BsLsI2oJPl 2MIIEvgIBADANBgkqhkiG9w0BAQEFAASCBKgwggSkAgEAAoIBAQCoFdsqfKULybjf
35gs7wqh2UafJZwi2suwDvAECO00jdNooQnEq4BgPTk/h3IiCdZef5BGFALgNT0em 3miRnQHuh3dLY2rrXgj3DSHDPdlizhevUy00mKJ9Vw6J+LR04eGeXeJQ/G37BsxVQ
4Civ0+9d81AJTM8trbLoMefsUrEhMLF5Jp3udoyYhv8LhOQi09PaRfB0KhwIDAQAB 4Zg0oFonYQFH/rxKhF8G6dvd3o/xa3NKVwr5q8+pCNbVqy7UIS/1XW8RWMYVeyYym
5AoGAfpxclcP8N3vteXErXURrd7pcXT0GECDgNjhvc9PV20RPXM+vYs1AA+fMeeQE 5/j2N0sRhaUiz3j0P+UsFZ3b+62SMHI7Hi9tiuVMtkyK5IM85tqUbPyL6MUcm2K//
6TaRqwO6x016aMRO4rz5ztYArecTBznkds1k59pkN/Ne/nsueU4tvGK8MNyS2o986 6ixqB8q7SQugDvMpafAP3rS9IMLVL0Z652Xk0NqQNbmeUDd2p0y/CT/2UWWDXoCJG
7Voohqkaq4Lcy1bcHJb9su1ELjegEr1R76Mz452Hsy+uTbAECQQDcg/tZWKVeh5CQ 7msKjLUym4TOqYrt/+Gt1Kab7dMu75hn0JWHo8QqSApzK7xzKcPC+fM7//fAGwhow
8dOEB3YWHwfn0NDgfPm/X2i2kAZ7n7URaUy/ffdlfsrr1mBtHCfedLoOxmmlNfEpM 81N1MArejAgMBAAECggEANuvdTwanTzC8jaNqHaq+OuemS2E9B8nwsGxtH/zFgvNR
9hXAAurSHAkEAwfk7fEb0iN0Sj9gTozO7c6Ky10KwePZyjVzqSQIiJq3NX8BEaIeb 9WZiMPtmrJnTkFWJcV+VPw/iMSAqN4nDHmBugVOb4Z4asxGTKK4T9shXJSnh0rqPU
1051TXxE5VxaLjjMLRkA0hWTYXClgERFZ6AQJAN7ChPqwzf08PRFwwIw911JY5cOHr 1000ZsvbmxY6z0+E5TesCJqQ+9GYTY1V357V7JchvaOxIRxWPqg9urHbru8OCtW/I5
11NoDHMCUql5vNLNdwBruxgGjBB/kUXEfgw60RusFvgt/zLh1wiii844JDawJAGQBF 11Fh5HPUZlgCvlMpjlhyjydIf/oXyVA3RNsXlwe8+2cKuGIrjEzm2j9o3VF0sctTX0
12sYP3urg7zzx7c3qUe5gJ0wLuefjR1PSX4ecbfb7DDMdcSdjIuG1QDiZGmd2f1KG7 12ItP8A9qDmDQN7GIWX0MW6gncojpS1omC2wcFsdjj/xfPyiDal1X4aq/2YqG8351c
13nwSCOtxk5dloW2KGAQJAQh/iBn0QhfKLFAP5eZBVk8E8XlZuw+S2DLy5SnBlIiYJ 13YlM/+6Va0u9WWE/i64gASTAVqpMV4Yg8y0gGycuA0QKBgQDbgI2QeLd3FvMcURiU
14GB5I2OClgtudXMv1labFrcST8O9eFrtsrhU1iUGUOw== 14l3w9qJgw/Jp3jaNC/9LkVGGz4f4lKKB67lPZvI4noMK8GqO/LcXgqP/RY1oJojoA
15-----END RSA PRIVATE KEY----- 15/6JKVvzYGASZ7VgMoG9bk1AneP1PGdibuTUEwimGlcObxnDFIC/yjwPFu3jIdqdS
16zZi1RZzyqAogN5y3SBEypSmn9wKBgQDECKsqqlcizmCl8v5aVk875AzGN+DOHZqx
17bkmztlnLO/2e2Fmk3G5Vvnui0FYisf8Eq19tUTQCF6lSfJlGQeFAT119wkFZhLu+
18FfLGqoEMH0ijJg/8PpdpFRK3I94YcISoTNN6yxMvE6xdDGfKCt5a+IX5bwQi9Zdc
19B242gEc6tQKBgA6tM8n7KFlAIZU9HuWgk2AUC8kKutFPmSD7tgAqXDYI4FNfugs+
20MEEYyHCB4UNujJBV4Ss6YZCAkh6eyD4U2aca1eElCfm40vBVMdzvpqZdAqLtWXxg
21D9l3mgszrFaYGCY2Fr6jLV9lP5g3xsxUjudf9jSLY9HvpfzjRrMaNATVAoGBALTl
22/vYfPMucwKlC5B7++J0e4/7iv6vUu9SyHocdZh1anb9AjPDKjXLIlZT4RhQ8R0XK
230wOw5JpttU2uN08TKkbLNk3/vYhbKVjPLjrQSseh8sjDLgsqw1QwIxYnniLVakVY
24p+rvjSNrNyqicQCMKQavwgocvSd5lJRTMwxOMezlAoGBAKWj71BX+0CK00/2S6lC
25TcNcuUPG0d8y1czZ4q6tUlG4htwq1FMOpaghATXjkdsOGTLS+H1aA0Kt7Ai9zDhc
26/bzOJEJ+jvBXV4Gcs7jl1r/HTKv0tT9ZSI5Vzkida0rfqxDGzcMVlLuCdH0cb8Iu
27N0wdmCAqlQwHR13+F1zrAD7V
28-----END PRIVATE KEY-----
diff --git a/plugins/tests/check_http.t b/plugins/tests/check_http.t
index f5c570a..fe65325 100755
--- a/plugins/tests/check_http.t
+++ b/plugins/tests/check_http.t
@@ -4,13 +4,13 @@
4# 4#
5# To create the https server certificate: 5# To create the https server certificate:
6# openssl req -new -x509 -keyout server-key.pem -out server-cert.pem -days 3650 -nodes 6# openssl req -new -x509 -keyout server-key.pem -out server-cert.pem -days 3650 -nodes
7# Country Name (2 letter code) [AU]:UK 7# Country Name (2 letter code) [AU]:DE
8# State or Province Name (full name) [Some-State]:Derbyshire 8# State or Province Name (full name) [Some-State]:Bavaria
9# Locality Name (eg, city) []:Belper 9# Locality Name (eg, city) []:Munich
10# Organization Name (eg, company) [Internet Widgits Pty Ltd]:Monitoring Plugins 10# Organization Name (eg, company) [Internet Widgits Pty Ltd]:Monitoring Plugins
11# Organizational Unit Name (eg, section) []: 11# Organizational Unit Name (eg, section) []:
12# Common Name (eg, YOUR name) []:Ton Voon 12# Common Name (e.g. server FQDN or YOUR name) []:Monitoring Plugins
13# Email Address []:tonvoon@mac.com 13# Email Address []:devel@monitoring-plugins.org
14 14
15use strict; 15use strict;
16use Test::More; 16use Test::More;
@@ -197,16 +197,16 @@ SKIP: {
197 197
198 $result = NPTest->testCmd( "$command -p $port_https -S -C 14" ); 198 $result = NPTest->testCmd( "$command -p $port_https -S -C 14" );
199 is( $result->return_code, 0, "$command -p $port_https -S -C 14" ); 199 is( $result->return_code, 0, "$command -p $port_https -S -C 14" );
200 is( $result->output, 'OK - Certificate \'Ton Voon\' will expire on Sun Mar 3 21:41:28 2019 +0000.', "output ok" ); 200 is( $result->output, "OK - Certificate 'Monitoring Plugins' will expire on Fri Feb 16 15:31:44 2029 +0000.", "output ok" );
201 201
202 $result = NPTest->testCmd( "$command -p $port_https -S -C 14000" ); 202 $result = NPTest->testCmd( "$command -p $port_https -S -C 14000" );
203 is( $result->return_code, 1, "$command -p $port_https -S -C 14000" ); 203 is( $result->return_code, 1, "$command -p $port_https -S -C 14000" );
204 like( $result->output, '/WARNING - Certificate \'Ton Voon\' expires in \d+ day\(s\) \(Sun Mar 3 21:41:28 2019 \+0000\)./', "output ok" ); 204 like( $result->output, '/WARNING - Certificate \'Monitoring Plugins\' expires in \d+ day\(s\) \(Fri Feb 16 15:31:44 2029 \+0000\)./', "output ok" );
205 205
206 # Expired cert tests 206 # Expired cert tests
207 $result = NPTest->testCmd( "$command -p $port_https -S -C 13960,14000" ); 207 $result = NPTest->testCmd( "$command -p $port_https -S -C 13960,14000" );
208 is( $result->return_code, 2, "$command -p $port_https -S -C 13960,14000" ); 208 is( $result->return_code, 2, "$command -p $port_https -S -C 13960,14000" );
209 like( $result->output, '/CRITICAL - Certificate \'Ton Voon\' expires in \d+ day\(s\) \(Sun Mar 3 21:41:28 2019 \+0000\)./', "output ok" ); 209 like( $result->output, '/CRITICAL - Certificate \'Monitoring Plugins\' expires in \d+ day\(s\) \(Fri Feb 16 15:31:44 2029 \+0000\)./', "output ok" );
210 210
211 $result = NPTest->testCmd( "$command -p $port_https_expired -S -C 7" ); 211 $result = NPTest->testCmd( "$command -p $port_https_expired -S -C 7" );
212 is( $result->return_code, 2, "$command -p $port_https_expired -S -C 7" ); 212 is( $result->return_code, 2, "$command -p $port_https_expired -S -C 7" );
diff --git a/plugins/tests/check_snmp.t b/plugins/tests/check_snmp.t
index 73a68b2..85d6bf5 100755
--- a/plugins/tests/check_snmp.t
+++ b/plugins/tests/check_snmp.t
@@ -7,6 +7,7 @@ use strict;
7use Test::More; 7use Test::More;
8use NPTest; 8use NPTest;
9use FindBin qw($Bin); 9use FindBin qw($Bin);
10use POSIX qw/strftime/;
10 11
11my $tests = 67; 12my $tests = 67;
12# Check that all dependent modules are available 13# Check that all dependent modules are available
@@ -37,6 +38,7 @@ if ($@) {
37 38
38my $port_snmp = 16100 + int(rand(100)); 39my $port_snmp = 16100 + int(rand(100));
39 40
41my $faketime = -x '/usr/bin/faketime' ? 1 : 0;
40 42
41# Start up server 43# Start up server
42my @pids; 44my @pids;
@@ -118,77 +120,81 @@ like($res->output, '/'.quotemeta('SNMP OK - And now have fun with with this: \"C
118"And now have fun with with this: \"C:\\\\\" 120"And now have fun with with this: \"C:\\\\\"
119because we\'re not done yet!"').'/m', "Attempt to confuse parser No.3"); 121because we\'re not done yet!"').'/m', "Attempt to confuse parser No.3");
120 122
121system("rm -f ".$ENV{'MP_STATE_PATH'}."/check_snmp/*"); 123system("rm -f ".$ENV{'MP_STATE_PATH'}."/*/check_snmp/*");
122$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -w 600" );
123is($res->return_code, 0, "Returns OK");
124is($res->output, "No previous data to calculate rate - assume okay");
125 124
126# Need to sleep, otherwise duration=0 125# run rate checks with faketime. rate checks depend on the exact amount of time spend between the
127sleep 1; 126# plugin runs which may fail on busy machines.
127# using faketime removes this race condition and also saves all the sleeps in between.
128SKIP: {
129 skip "No faketime binary found", 28 if !$faketime;
128 130
129$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -w 600" ); 131 my $ts = time();
130is($res->return_code, 1, "WARNING - due to going above rate calculation" ); 132 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -w 600" );
131is($res->output, "SNMP RATE WARNING - *666* | iso.3.6.1.4.1.8072.3.2.67.10=666;600 "); 133 is($res->return_code, 0, "Returns OK");
134 is($res->output, "No previous data to calculate rate - assume okay");
132 135
133$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -w 600" ); 136 # test rate 1 second later
134is($res->return_code, 3, "UNKNOWN - basically the divide by zero error" ); 137 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts+1))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -w 600" );
135is($res->output, "Time duration between plugin calls is invalid"); 138 is($res->return_code, 1, "WARNING - due to going above rate calculation" );
139 is($res->output, "SNMP RATE WARNING - *666* | iso.3.6.1.4.1.8072.3.2.67.10=666;600 ");
136 140
141 # test rate with same time
142 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts+1))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -w 600" );
143 is($res->return_code, 3, "UNKNOWN - basically the divide by zero error" );
144 is($res->output, "Time duration between plugin calls is invalid");
137 145
138$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets" );
139is($res->return_code, 0, "OK for first call" );
140is($res->output, "No previous data to calculate rate - assume okay" );
141 146
142# Need to sleep, otherwise duration=0 147 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets" );
143sleep 1; 148 is($res->return_code, 0, "OK for first call" );
149 is($res->output, "No previous data to calculate rate - assume okay" );
144 150
145$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets" ); 151 # test rate 1 second later
146is($res->return_code, 0, "OK as no thresholds" ); 152 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts+1))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets" );
147is($res->output, "SNMP RATE OK - inoctets 666 | inoctets=666 ", "Check label"); 153 is($res->return_code, 0, "OK as no thresholds" );
154 is($res->output, "SNMP RATE OK - inoctets 666 | inoctets=666 ", "Check label");
148 155
149sleep 2; 156 # test rate 3 seconds later
157 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts+3))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets" );
158 is($res->return_code, 0, "OK as no thresholds" );
159 is($res->output, "SNMP RATE OK - inoctets 333 | inoctets=333 ", "Check rate decreases due to longer interval");
150 160
151$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets" );
152is($res->return_code, 0, "OK as no thresholds" );
153is($res->output, "SNMP RATE OK - inoctets 333 | inoctets=333 ", "Check rate decreases due to longer interval");
154 161
162 # label performance data check
163 $res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l test" );
164 is($res->return_code, 0, "OK as no thresholds" );
165 is($res->output, "SNMP OK - test 67996 | test=67996c ", "Check label");
155 166
156# label performance data check 167 $res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l \"test'test\"" );
157$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l test" ); 168 is($res->return_code, 0, "OK as no thresholds" );
158is($res->return_code, 0, "OK as no thresholds" ); 169 is($res->output, "SNMP OK - test'test 68662 | \"test'test\"=68662c ", "Check label");
159is($res->output, "SNMP OK - test 67996 | test=67996c ", "Check label");
160 170
161$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l \"test'test\"" ); 171 $res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l 'test\"test'" );
162is($res->return_code, 0, "OK as no thresholds" ); 172 is($res->return_code, 0, "OK as no thresholds" );
163is($res->output, "SNMP OK - test'test 68662 | \"test'test\"=68662c ", "Check label"); 173 is($res->output, "SNMP OK - test\"test 69328 | 'test\"test'=69328c ", "Check label");
164 174
165$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l 'test\"test'" ); 175 $res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l test -O" );
166is($res->return_code, 0, "OK as no thresholds" ); 176 is($res->return_code, 0, "OK as no thresholds" );
167is($res->output, "SNMP OK - test\"test 69328 | 'test\"test'=69328c ", "Check label"); 177 is($res->output, "SNMP OK - test 69994 | iso.3.6.1.4.1.8072.3.2.67.10=69994c ", "Check label");
168 178
169$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l test -O" ); 179 $res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10" );
170is($res->return_code, 0, "OK as no thresholds" ); 180 is($res->return_code, 0, "OK as no thresholds" );
171is($res->output, "SNMP OK - test 69994 | iso.3.6.1.4.1.8072.3.2.67.10=69994c ", "Check label"); 181 is($res->output, "SNMP OK - 70660 | iso.3.6.1.4.1.8072.3.2.67.10=70660c ", "Check label");
172 182
173$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10" ); 183 $res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l 'test test'" );
174is($res->return_code, 0, "OK as no thresholds" ); 184 is($res->return_code, 0, "OK as no thresholds" );
175is($res->output, "SNMP OK - 70660 | iso.3.6.1.4.1.8072.3.2.67.10=70660c ", "Check label"); 185 is($res->output, "SNMP OK - test test 71326 | 'test test'=71326c ", "Check label");
176 186
177$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 -l 'test test'" );
178is($res->return_code, 0, "OK as no thresholds" );
179is($res->output, "SNMP OK - test test 71326 | 'test test'=71326c ", "Check label");
180 187
188 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets_per_minute --rate-multiplier=60" );
189 is($res->return_code, 0, "OK for first call" );
190 is($res->output, "No previous data to calculate rate - assume okay" );
181 191
182$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets_per_minute --rate-multiplier=60" ); 192 # test 1 second later
183is($res->return_code, 0, "OK for first call" ); 193 $res = NPTest->testCmd("LC_TIME=C TZ=UTC faketime -f '".strftime("%Y-%m-%d %H:%M:%S", localtime($ts+1))."' ./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets_per_minute --rate-multiplier=60" );
184is($res->output, "No previous data to calculate rate - assume okay" ); 194 is($res->return_code, 0, "OK as no thresholds" );
185 195 is($res->output, "SNMP RATE OK - inoctets_per_minute 39960 | inoctets_per_minute=39960 ", "Checking multiplier");
186# Need to sleep, otherwise duration=0 196};
187sleep 1;
188 197
189$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.10 --rate -l inoctets_per_minute --rate-multiplier=60" );
190is($res->return_code, 0, "OK as no thresholds" );
191is($res->output, "SNMP RATE OK - inoctets_per_minute 39960 | inoctets_per_minute=39960 ", "Checking multiplier");
192 198
193 199
194$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.11 -s '\"stringtests\"'" ); 200$res = NPTest->testCmd( "./check_snmp -H 127.0.0.1 -C public -p $port_snmp -o .1.3.6.1.4.1.8072.3.2.67.11 -s '\"stringtests\"'" );
diff --git a/plugins/utils.c b/plugins/utils.c
index 231af92..ee62013 100644
--- a/plugins/utils.c
+++ b/plugins/utils.c
@@ -36,9 +36,6 @@ extern const char *progname;
36#define STRLEN 64 36#define STRLEN 64
37#define TXTBLK 128 37#define TXTBLK 128
38 38
39unsigned int timeout_state = STATE_CRITICAL;
40unsigned int timeout_interval = DEFAULT_SOCKET_TIMEOUT;
41
42time_t start_time, end_time; 39time_t start_time, end_time;
43 40
44/* ************************************************************************** 41/* **************************************************************************
@@ -148,33 +145,6 @@ print_revision (const char *command_name, const char *revision)
148 command_name, revision, PACKAGE, VERSION); 145 command_name, revision, PACKAGE, VERSION);
149} 146}
150 147
151const char *
152state_text (int result)
153{
154 switch (result) {
155 case STATE_OK:
156 return "OK";
157 case STATE_WARNING:
158 return "WARNING";
159 case STATE_CRITICAL:
160 return "CRITICAL";
161 case STATE_DEPENDENT:
162 return "DEPENDENT";
163 default:
164 return "UNKNOWN";
165 }
166}
167
168void
169timeout_alarm_handler (int signo)
170{
171 if (signo == SIGALRM) {
172 printf (_("%s - Plugin timed out after %d seconds\n"),
173 state_text(timeout_state), timeout_interval);
174 exit (timeout_state);
175 }
176}
177
178int 148int
179is_numeric (char *number) 149is_numeric (char *number)
180{ 150{
@@ -708,4 +678,3 @@ char *sperfdata_int (const char *label,
708 678
709 return data; 679 return data;
710} 680}
711
diff --git a/plugins/utils.h b/plugins/utils.h
index a436e1c..6aa316f 100644
--- a/plugins/utils.h
+++ b/plugins/utils.h
@@ -29,13 +29,6 @@ suite of plugins. */
29void support (void); 29void support (void);
30void print_revision (const char *, const char *); 30void print_revision (const char *, const char *);
31 31
32/* Handle timeouts */
33
34extern unsigned int timeout_state;
35extern unsigned int timeout_interval;
36
37RETSIGTYPE timeout_alarm_handler (int);
38
39extern time_t start_time, end_time; 32extern time_t start_time, end_time;
40 33
41/* Test input types */ 34/* Test input types */
@@ -89,8 +82,6 @@ void usage4(const char *) __attribute__((noreturn));
89void usage5(void) __attribute__((noreturn)); 82void usage5(void) __attribute__((noreturn));
90void usage_va(const char *fmt, ...) __attribute__((noreturn)); 83void usage_va(const char *fmt, ...) __attribute__((noreturn));
91 84
92const char *state_text (int);
93
94#define max(a,b) (((a)>(b))?(a):(b)) 85#define max(a,b) (((a)>(b))?(a):(b))
95#define min(a,b) (((a)<(b))?(a):(b)) 86#define min(a,b) (((a)<(b))?(a):(b))
96 87
diff --git a/tools/squid.conf b/tools/squid.conf
new file mode 100644
index 0000000..bed7a58
--- /dev/null
+++ b/tools/squid.conf
@@ -0,0 +1,7979 @@
1# WELCOME TO SQUID 3.5.27
2# ----------------------------
3#
4# This is the documentation for the Squid configuration file.
5# This documentation can also be found online at:
6# http://www.squid-cache.org/Doc/config/
7#
8# You may wish to look at the Squid home page and wiki for the
9# FAQ and other documentation:
10# http://www.squid-cache.org/
11# http://wiki.squid-cache.org/SquidFaq
12# http://wiki.squid-cache.org/ConfigExamples
13#
14# This documentation shows what the defaults for various directives
15# happen to be. If you don't need to change the default, you should
16# leave the line out of your squid.conf in most cases.
17#
18# In some cases "none" refers to no default setting at all,
19# while in other cases it refers to the value of the option
20# - the comments for that keyword indicate if this is the case.
21#
22
23# Configuration options can be included using the "include" directive.
24# Include takes a list of files to include. Quoting and wildcards are
25# supported.
26#
27# For example,
28#
29# include /path/to/included/file/squid.acl.config
30#
31# Includes can be nested up to a hard-coded depth of 16 levels.
32# This arbitrary restriction is to prevent recursive include references
33# from causing Squid entering an infinite loop whilst trying to load
34# configuration files.
35#
36# Values with byte units
37#
38# Squid accepts size units on some size related directives. All
39# such directives are documented with a default value displaying
40# a unit.
41#
42# Units accepted by Squid are:
43# bytes - byte
44# KB - Kilobyte (1024 bytes)
45# MB - Megabyte
46# GB - Gigabyte
47#
48# Values with spaces, quotes, and other special characters
49#
50# Squid supports directive parameters with spaces, quotes, and other
51# special characters. Surround such parameters with "double quotes". Use
52# the configuration_includes_quoted_values directive to enable or
53# disable that support.
54#
55# Squid supports reading configuration option parameters from external
56# files using the syntax:
57# parameters("/path/filename")
58# For example:
59# acl whitelist dstdomain parameters("/etc/squid/whitelist.txt")
60#
61# Conditional configuration
62#
63# If-statements can be used to make configuration directives
64# depend on conditions:
65#
66# if <CONDITION>
67# ... regular configuration directives ...
68# [else
69# ... regular configuration directives ...]
70# endif
71#
72# The else part is optional. The keywords "if", "else", and "endif"
73# must be typed on their own lines, as if they were regular
74# configuration directives.
75#
76# NOTE: An else-if condition is not supported.
77#
78# These individual conditions types are supported:
79#
80# true
81# Always evaluates to true.
82# false
83# Always evaluates to false.
84# <integer> = <integer>
85# Equality comparison of two integer numbers.
86#
87#
88# SMP-Related Macros
89#
90# The following SMP-related preprocessor macros can be used.
91#
92# ${process_name} expands to the current Squid process "name"
93# (e.g., squid1, squid2, or cache1).
94#
95# ${process_number} expands to the current Squid process
96# identifier, which is an integer number (e.g., 1, 2, 3) unique
97# across all Squid processes of the current service instance.
98#
99# ${service_name} expands into the current Squid service instance
100# name identifier which is provided by -n on the command line.
101#
102
103# TAG: broken_vary_encoding
104# This option is not yet supported by Squid-3.
105#Default:
106# none
107
108# TAG: cache_vary
109# This option is not yet supported by Squid-3.
110#Default:
111# none
112
113# TAG: error_map
114# This option is not yet supported by Squid-3.
115#Default:
116# none
117
118# TAG: external_refresh_check
119# This option is not yet supported by Squid-3.
120#Default:
121# none
122
123# TAG: location_rewrite_program
124# This option is not yet supported by Squid-3.
125#Default:
126# none
127
128# TAG: refresh_stale_hit
129# This option is not yet supported by Squid-3.
130#Default:
131# none
132
133# TAG: hierarchy_stoplist
134# Remove this line. Use always_direct or cache_peer_access ACLs instead if you need to prevent cache_peer use.
135#Default:
136# none
137
138# TAG: log_access
139# Remove this line. Use acls with access_log directives to control access logging
140#Default:
141# none
142
143# TAG: log_icap
144# Remove this line. Use acls with icap_log directives to control icap logging
145#Default:
146# none
147
148# TAG: ignore_ims_on_miss
149# Remove this line. The HTTP/1.1 feature is now configured by 'cache_miss_revalidate'.
150#Default:
151# none
152
153# TAG: chunked_request_body_max_size
154# Remove this line. Squid is now HTTP/1.1 compliant.
155#Default:
156# none
157
158# TAG: dns_v4_fallback
159# Remove this line. Squid performs a 'Happy Eyeballs' algorithm, the 'fallback' algorithm is no longer relevant.
160#Default:
161# none
162
163# TAG: emulate_httpd_log
164# Replace this with an access_log directive using the format 'common' or 'combined'.
165#Default:
166# none
167
168# TAG: forward_log
169# Use a regular access.log with ACL limiting it to MISS events.
170#Default:
171# none
172
173# TAG: ftp_list_width
174# Remove this line. Configure FTP page display using the CSS controls in errorpages.css instead.
175#Default:
176# none
177
178# TAG: ignore_expect_100
179# Remove this line. The HTTP/1.1 feature is now fully supported by default.
180#Default:
181# none
182
183# TAG: log_fqdn
184# Remove this option from your config. To log FQDN use %>A in the log format.
185#Default:
186# none
187
188# TAG: log_ip_on_direct
189# Remove this option from your config. To log server or peer names use %<A in the log format.
190#Default:
191# none
192
193# TAG: maximum_single_addr_tries
194# Replaced by connect_retries. The behaviour has changed, please read the documentation before altering.
195#Default:
196# none
197
198# TAG: referer_log
199# Replace this with an access_log directive using the format 'referrer'.
200#Default:
201# none
202
203# TAG: update_headers
204# Remove this line. The feature is supported by default in storage types where update is implemented.
205#Default:
206# none
207
208# TAG: url_rewrite_concurrency
209# Remove this line. Set the 'concurrency=' option of url_rewrite_children instead.
210#Default:
211# none
212
213# TAG: useragent_log
214# Replace this with an access_log directive using the format 'useragent'.
215#Default:
216# none
217
218# TAG: dns_testnames
219# Remove this line. DNS is no longer tested on startup.
220#Default:
221# none
222
223# TAG: extension_methods
224# Remove this line. All valid methods for HTTP are accepted by default.
225#Default:
226# none
227
228# TAG: zero_buffers
229#Default:
230# none
231
232# TAG: incoming_rate
233#Default:
234# none
235
236# TAG: server_http11
237# Remove this line. HTTP/1.1 is supported by default.
238#Default:
239# none
240
241# TAG: upgrade_http0.9
242# Remove this line. ICY/1.0 streaming protocol is supported by default.
243#Default:
244# none
245
246# TAG: zph_local
247# Alter these entries. Use the qos_flows directive instead.
248#Default:
249# none
250
251# TAG: header_access
252# Since squid-3.0 replace with request_header_access or reply_header_access
253# depending on whether you wish to match client requests or server replies.
254#Default:
255# none
256
257# TAG: httpd_accel_no_pmtu_disc
258# Since squid-3.0 use the 'disable-pmtu-discovery' flag on http_port instead.
259#Default:
260# none
261
262# TAG: wais_relay_host
263# Replace this line with 'cache_peer' configuration.
264#Default:
265# none
266
267# TAG: wais_relay_port
268# Replace this line with 'cache_peer' configuration.
269#Default:
270# none
271
272# OPTIONS FOR SMP
273# -----------------------------------------------------------------------------
274
275# TAG: workers
276# Number of main Squid processes or "workers" to fork and maintain.
277# 0: "no daemon" mode, like running "squid -N ..."
278# 1: "no SMP" mode, start one main Squid process daemon (default)
279# N: start N main Squid process daemons (i.e., SMP mode)
280#
281# In SMP mode, each worker does nearly all what a single Squid daemon
282# does (e.g., listen on http_port and forward HTTP requests).
283#Default:
284# SMP support disabled.
285
286# TAG: cpu_affinity_map
287# Usage: cpu_affinity_map process_numbers=P1,P2,... cores=C1,C2,...
288#
289# Sets 1:1 mapping between Squid processes and CPU cores. For example,
290#
291# cpu_affinity_map process_numbers=1,2,3,4 cores=1,3,5,7
292#
293# affects processes 1 through 4 only and places them on the first
294# four even cores, starting with core #1.
295#
296# CPU cores are numbered starting from 1. Requires support for
297# sched_getaffinity(2) and sched_setaffinity(2) system calls.
298#
299# Multiple cpu_affinity_map options are merged.
300#
301# See also: workers
302#Default:
303# Let operating system decide.
304
305# OPTIONS FOR AUTHENTICATION
306# -----------------------------------------------------------------------------
307
308# TAG: auth_param
309# This is used to define parameters for the various authentication
310# schemes supported by Squid.
311#
312# format: auth_param scheme parameter [setting]
313#
314# The order in which authentication schemes are presented to the client is
315# dependent on the order the scheme first appears in config file. IE
316# has a bug (it's not RFC 2617 compliant) in that it will use the basic
317# scheme if basic is the first entry presented, even if more secure
318# schemes are presented. For now use the order in the recommended
319# settings section below. If other browsers have difficulties (don't
320# recognize the schemes offered even if you are using basic) either
321# put basic first, or disable the other schemes (by commenting out their
322# program entry).
323#
324# Once an authentication scheme is fully configured, it can only be
325# shutdown by shutting squid down and restarting. Changes can be made on
326# the fly and activated with a reconfigure. I.E. You can change to a
327# different helper, but not unconfigure the helper completely.
328#
329# Please note that while this directive defines how Squid processes
330# authentication it does not automatically activate authentication.
331# To use authentication you must in addition make use of ACLs based
332# on login name in http_access (proxy_auth, proxy_auth_regex or
333# external with %LOGIN used in the format tag). The browser will be
334# challenged for authentication on the first such acl encountered
335# in http_access processing and will also be re-challenged for new
336# login credentials if the request is being denied by a proxy_auth
337# type acl.
338#
339# WARNING: authentication can't be used in a transparently intercepting
340# proxy as the client then thinks it is talking to an origin server and
341# not the proxy. This is a limitation of bending the TCP/IP protocol to
342# transparently intercepting port 80, not a limitation in Squid.
343# Ports flagged 'transparent', 'intercept', or 'tproxy' have
344# authentication disabled.
345#
346# === Parameters common to all schemes. ===
347#
348# "program" cmdline
349# Specifies the command for the external authenticator.
350#
351# By default, each authentication scheme is not used unless a
352# program is specified.
353#
354# See http://wiki.squid-cache.org/Features/AddonHelpers for
355# more details on helper operations and creating your own.
356#
357# "key_extras" format
358# Specifies a string to be append to request line format for
359# the authentication helper. "Quoted" format values may contain
360# spaces and logformat %macros. In theory, any logformat %macro
361# can be used. In practice, a %macro expands as a dash (-) if
362# the helper request is sent before the required macro
363# information is available to Squid.
364#
365# By default, Squid uses request formats provided in
366# scheme-specific examples below (search for %credentials).
367#
368# The expanded key_extras value is added to the Squid credentials
369# cache and, hence, will affect authentication. It can be used to
370# autenticate different users with identical user names (e.g.,
371# when user authentication depends on http_port).
372#
373# Avoid adding frequently changing information to key_extras. For
374# example, if you add user source IP, and it changes frequently
375# in your environment, then max_user_ip ACL is going to treat
376# every user+IP combination as a unique "user", breaking the ACL
377# and wasting a lot of memory on those user records. It will also
378# force users to authenticate from scratch whenever their IP
379# changes.
380#
381# "realm" string
382# Specifies the protection scope (aka realm name) which is to be
383# reported to the client for the authentication scheme. It is
384# commonly part of the text the user will see when prompted for
385# their username and password.
386#
387# For Basic the default is "Squid proxy-caching web server".
388# For Digest there is no default, this parameter is mandatory.
389# For NTLM and Negotiate this parameter is ignored.
390#
391# "children" numberofchildren [startup=N] [idle=N] [concurrency=N]
392#
393# The maximum number of authenticator processes to spawn. If
394# you start too few Squid will have to wait for them to process
395# a backlog of credential verifications, slowing it down. When
396# password verifications are done via a (slow) network you are
397# likely to need lots of authenticator processes.
398#
399# The startup= and idle= options permit some skew in the exact
400# amount run. A minimum of startup=N will begin during startup
401# and reconfigure. Squid will start more in groups of up to
402# idle=N in an attempt to meet traffic needs and to keep idle=N
403# free above those traffic needs up to the maximum.
404#
405# The concurrency= option sets the number of concurrent requests
406# the helper can process. The default of 0 is used for helpers
407# who only supports one request at a time. Setting this to a
408# number greater than 0 changes the protocol used to include a
409# channel ID field first on the request/response line, allowing
410# multiple requests to be sent to the same helper in parallel
411# without waiting for the response.
412#
413# Concurrency must not be set unless it's known the helper
414# supports the input format with channel-ID fields.
415#
416# NOTE: NTLM and Negotiate schemes do not support concurrency
417# in the Squid code module even though some helpers can.
418#
419#
420#
421# === Example Configuration ===
422#
423# This configuration displays the recommended authentication scheme
424# order from most to least secure with recommended minimum configuration
425# settings for each scheme:
426#
427##auth_param negotiate program <uncomment and complete this line to activate>
428##auth_param negotiate children 20 startup=0 idle=1
429##auth_param negotiate keep_alive on
430##
431##auth_param digest program <uncomment and complete this line to activate>
432##auth_param digest children 20 startup=0 idle=1
433##auth_param digest realm Squid proxy-caching web server
434##auth_param digest nonce_garbage_interval 5 minutes
435##auth_param digest nonce_max_duration 30 minutes
436##auth_param digest nonce_max_count 50
437##
438##auth_param ntlm program <uncomment and complete this line to activate>
439##auth_param ntlm children 20 startup=0 idle=1
440##auth_param ntlm keep_alive on
441##
442##auth_param basic program <uncomment and complete this line>
443##auth_param basic children 5 startup=5 idle=1
444##auth_param basic realm Squid proxy-caching web server
445##auth_param basic credentialsttl 2 hours
446#Default:
447# none
448
449# TAG: authenticate_cache_garbage_interval
450# The time period between garbage collection across the username cache.
451# This is a trade-off between memory utilization (long intervals - say
452# 2 days) and CPU (short intervals - say 1 minute). Only change if you
453# have good reason to.
454#Default:
455# authenticate_cache_garbage_interval 1 hour
456
457# TAG: authenticate_ttl
458# The time a user & their credentials stay in the logged in
459# user cache since their last request. When the garbage
460# interval passes, all user credentials that have passed their
461# TTL are removed from memory.
462#Default:
463# authenticate_ttl 1 hour
464
465# TAG: authenticate_ip_ttl
466# If you use proxy authentication and the 'max_user_ip' ACL,
467# this directive controls how long Squid remembers the IP
468# addresses associated with each user. Use a small value
469# (e.g., 60 seconds) if your users might change addresses
470# quickly, as is the case with dialup. You might be safe
471# using a larger value (e.g., 2 hours) in a corporate LAN
472# environment with relatively static address assignments.
473#Default:
474# authenticate_ip_ttl 1 second
475
476# ACCESS CONTROLS
477# -----------------------------------------------------------------------------
478
479# TAG: external_acl_type
480# This option defines external acl classes using a helper program
481# to look up the status
482#
483# external_acl_type name [options] FORMAT.. /path/to/helper [helper arguments..]
484#
485# Options:
486#
487# ttl=n TTL in seconds for cached results (defaults to 3600
488# for 1 hour)
489#
490# negative_ttl=n
491# TTL for cached negative lookups (default same
492# as ttl)
493#
494# grace=n Percentage remaining of TTL where a refresh of a
495# cached entry should be initiated without needing to
496# wait for a new reply. (default is for no grace period)
497#
498# cache=n The maximum number of entries in the result cache. The
499# default limit is 262144 entries. Each cache entry usually
500# consumes at least 256 bytes. Squid currently does not remove
501# expired cache entries until the limit is reached, so a proxy
502# will sooner or later reach the limit. The expanded FORMAT
503# value is used as the cache key, so if the details in FORMAT
504# are highly variable, a larger cache may be needed to produce
505# reduction in helper load.
506#
507# children-max=n
508# Maximum number of acl helper processes spawned to service
509# external acl lookups of this type. (default 5)
510#
511# children-startup=n
512# Minimum number of acl helper processes to spawn during
513# startup and reconfigure to service external acl lookups
514# of this type. (default 0)
515#
516# children-idle=n
517# Number of acl helper processes to keep ahead of traffic
518# loads. Squid will spawn this many at once whenever load
519# rises above the capabilities of existing processes.
520# Up to the value of children-max. (default 1)
521#
522# concurrency=n concurrency level per process. Only used with helpers
523# capable of processing more than one query at a time.
524#
525# protocol=2.5 Compatibility mode for Squid-2.5 external acl helpers.
526#
527# ipv4 / ipv6 IP protocol used to communicate with this helper.
528# The default is to auto-detect IPv6 and use it when available.
529#
530#
531# FORMAT specifications
532#
533# %LOGIN Authenticated user login name
534# %un A user name. Expands to the first available name
535# from the following list of information sources:
536# - authenticated user name, like %ul or %LOGIN
537# - user name sent by an external ACL, like %EXT_USER
538# - SSL client name, like %us in logformat
539# - ident user name, like %ui in logformat
540# %EXT_USER Username from previous external acl
541# %EXT_LOG Log details from previous external acl
542# %EXT_TAG Tag from previous external acl
543# %IDENT Ident user name
544# %SRC Client IP
545# %SRCPORT Client source port
546# %URI Requested URI
547# %DST Requested host
548# %PROTO Requested URL scheme
549# %PORT Requested port
550# %PATH Requested URL path
551# %METHOD Request method
552# %MYADDR Squid interface address
553# %MYPORT Squid http_port number
554# %PATH Requested URL-path (including query-string if any)
555# %USER_CERT SSL User certificate in PEM format
556# %USER_CERTCHAIN SSL User certificate chain in PEM format
557# %USER_CERT_xx SSL User certificate subject attribute xx
558# %USER_CA_CERT_xx SSL User certificate issuer attribute xx
559# %ssl::>sni SSL client SNI sent to Squid
560# %ssl::<cert_subject SSL server certificate DN
561# %ssl::<cert_issuer SSL server certificate issuer DN
562#
563# %>{Header} HTTP request header "Header"
564# %>{Hdr:member}
565# HTTP request header "Hdr" list member "member"
566# %>{Hdr:;member}
567# HTTP request header list member using ; as
568# list separator. ; can be any non-alphanumeric
569# character.
570#
571# %<{Header} HTTP reply header "Header"
572# %<{Hdr:member}
573# HTTP reply header "Hdr" list member "member"
574# %<{Hdr:;member}
575# HTTP reply header list member using ; as
576# list separator. ; can be any non-alphanumeric
577# character.
578#
579# %ACL The name of the ACL being tested.
580# %DATA The ACL arguments. If not used then any arguments
581# is automatically added at the end of the line
582# sent to the helper.
583# NOTE: this will encode the arguments as one token,
584# whereas the default will pass each separately.
585#
586# %% The percent sign. Useful for helpers which need
587# an unchanging input format.
588#
589#
590# General request syntax:
591#
592# [channel-ID] FORMAT-values [acl-values ...]
593#
594#
595# FORMAT-values consists of transaction details expanded with
596# whitespace separation per the config file FORMAT specification
597# using the FORMAT macros listed above.
598#
599# acl-values consists of any string specified in the referencing
600# config 'acl ... external' line. see the "acl external" directive.
601#
602# Request values sent to the helper are URL escaped to protect
603# each value in requests against whitespaces.
604#
605# If using protocol=2.5 then the request sent to the helper is not
606# URL escaped to protect against whitespace.
607#
608# NOTE: protocol=3.0 is deprecated as no longer necessary.
609#
610# When using the concurrency= option the protocol is changed by
611# introducing a query channel tag in front of the request/response.
612# The query channel tag is a number between 0 and concurrency-1.
613# This value must be echoed back unchanged to Squid as the first part
614# of the response relating to its request.
615#
616#
617# The helper receives lines expanded per the above format specification
618# and for each input line returns 1 line starting with OK/ERR/BH result
619# code and optionally followed by additional keywords with more details.
620#
621#
622# General result syntax:
623#
624# [channel-ID] result keyword=value ...
625#
626# Result consists of one of the codes:
627#
628# OK
629# the ACL test produced a match.
630#
631# ERR
632# the ACL test does not produce a match.
633#
634# BH
635# An internal error occurred in the helper, preventing
636# a result being identified.
637#
638# The meaning of 'a match' is determined by your squid.conf
639# access control configuration. See the Squid wiki for details.
640#
641# Defined keywords:
642#
643# user= The users name (login)
644#
645# password= The users password (for login= cache_peer option)
646#
647# message= Message describing the reason for this response.
648# Available as %o in error pages.
649# Useful on (ERR and BH results).
650#
651# tag= Apply a tag to a request. Only sets a tag once,
652# does not alter existing tags.
653#
654# log= String to be logged in access.log. Available as
655# %ea in logformat specifications.
656#
657# clt_conn_tag= Associates a TAG with the client TCP connection.
658# Please see url_rewrite_program related documentation
659# for this kv-pair.
660#
661# Any keywords may be sent on any response whether OK, ERR or BH.
662#
663# All response keyword values need to be a single token with URL
664# escaping, or enclosed in double quotes (") and escaped using \ on
665# any double quotes or \ characters within the value. The wrapping
666# double quotes are removed before the value is interpreted by Squid.
667# \r and \n are also replace by CR and LF.
668#
669# Some example key values:
670#
671# user=John%20Smith
672# user="John Smith"
673# user="J. \"Bob\" Smith"
674#Default:
675# none
676
677# TAG: acl
678# Defining an Access List
679#
680# Every access list definition must begin with an aclname and acltype,
681# followed by either type-specific arguments or a quoted filename that
682# they are read from.
683#
684# acl aclname acltype argument ...
685# acl aclname acltype "file" ...
686#
687# When using "file", the file should contain one item per line.
688#
689# Some acl types supports options which changes their default behaviour.
690# The available options are:
691#
692# -i,+i By default, regular expressions are CASE-SENSITIVE. To make them
693# case-insensitive, use the -i option. To return case-sensitive
694# use the +i option between patterns, or make a new ACL line
695# without -i.
696#
697# -n Disable lookups and address type conversions. If lookup or
698# conversion is required because the parameter type (IP or
699# domain name) does not match the message address type (domain
700# name or IP), then the ACL would immediately declare a mismatch
701# without any warnings or lookups.
702#
703# -- Used to stop processing all options, in the case the first acl
704# value has '-' character as first character (for example the '-'
705# is a valid domain name)
706#
707# Some acl types require suspending the current request in order
708# to access some external data source.
709# Those which do are marked with the tag [slow], those which
710# don't are marked as [fast].
711# See http://wiki.squid-cache.org/SquidFaq/SquidAcl
712# for further information
713#
714# ***** ACL TYPES AVAILABLE *****
715#
716# acl aclname src ip-address/mask ... # clients IP address [fast]
717# acl aclname src addr1-addr2/mask ... # range of addresses [fast]
718# acl aclname dst [-n] ip-address/mask ... # URL host's IP address [slow]
719# acl aclname localip ip-address/mask ... # IP address the client connected to [fast]
720#
721# acl aclname arp mac-address ... (xx:xx:xx:xx:xx:xx notation)
722# # [fast]
723# # The 'arp' ACL code is not portable to all operating systems.
724# # It works on Linux, Solaris, Windows, FreeBSD, and some other
725# # BSD variants.
726# #
727# # NOTE: Squid can only determine the MAC/EUI address for IPv4
728# # clients that are on the same subnet. If the client is on a
729# # different subnet, then Squid cannot find out its address.
730# #
731# # NOTE 2: IPv6 protocol does not contain ARP. MAC/EUI is either
732# # encoded directly in the IPv6 address or not available.
733#
734# acl aclname srcdomain .foo.com ...
735# # reverse lookup, from client IP [slow]
736# acl aclname dstdomain [-n] .foo.com ...
737# # Destination server from URL [fast]
738# acl aclname srcdom_regex [-i] \.foo\.com ...
739# # regex matching client name [slow]
740# acl aclname dstdom_regex [-n] [-i] \.foo\.com ...
741# # regex matching server [fast]
742# #
743# # For dstdomain and dstdom_regex a reverse lookup is tried if a IP
744# # based URL is used and no match is found. The name "none" is used
745# # if the reverse lookup fails.
746#
747# acl aclname src_as number ...
748# acl aclname dst_as number ...
749# # [fast]
750# # Except for access control, AS numbers can be used for
751# # routing of requests to specific caches. Here's an
752# # example for routing all requests for AS#1241 and only
753# # those to mycache.mydomain.net:
754# # acl asexample dst_as 1241
755# # cache_peer_access mycache.mydomain.net allow asexample
756# # cache_peer_access mycache_mydomain.net deny all
757#
758# acl aclname peername myPeer ...
759# # [fast]
760# # match against a named cache_peer entry
761# # set unique name= on cache_peer lines for reliable use.
762#
763# acl aclname time [day-abbrevs] [h1:m1-h2:m2]
764# # [fast]
765# # day-abbrevs:
766# # S - Sunday
767# # M - Monday
768# # T - Tuesday
769# # W - Wednesday
770# # H - Thursday
771# # F - Friday
772# # A - Saturday
773# # h1:m1 must be less than h2:m2
774#
775# acl aclname url_regex [-i] ^http:// ...
776# # regex matching on whole URL [fast]
777# acl aclname urllogin [-i] [^a-zA-Z0-9] ...
778# # regex matching on URL login field
779# acl aclname urlpath_regex [-i] \.gif$ ...
780# # regex matching on URL path [fast]
781#
782# acl aclname port 80 70 21 0-1024... # destination TCP port [fast]
783# # ranges are alloed
784# acl aclname localport 3128 ... # TCP port the client connected to [fast]
785# # NP: for interception mode this is usually '80'
786#
787# acl aclname myportname 3128 ... # *_port name [fast]
788#
789# acl aclname proto HTTP FTP ... # request protocol [fast]
790#
791# acl aclname method GET POST ... # HTTP request method [fast]
792#
793# acl aclname http_status 200 301 500- 400-403 ...
794# # status code in reply [fast]
795#
796# acl aclname browser [-i] regexp ...
797# # pattern match on User-Agent header (see also req_header below) [fast]
798#
799# acl aclname referer_regex [-i] regexp ...
800# # pattern match on Referer header [fast]
801# # Referer is highly unreliable, so use with care
802#
803# acl aclname ident username ...
804# acl aclname ident_regex [-i] pattern ...
805# # string match on ident output [slow]
806# # use REQUIRED to accept any non-null ident.
807#
808# acl aclname proxy_auth [-i] username ...
809# acl aclname proxy_auth_regex [-i] pattern ...
810# # perform http authentication challenge to the client and match against
811# # supplied credentials [slow]
812# #
813# # takes a list of allowed usernames.
814# # use REQUIRED to accept any valid username.
815# #
816# # Will use proxy authentication in forward-proxy scenarios, and plain
817# # http authenticaiton in reverse-proxy scenarios
818# #
819# # NOTE: when a Proxy-Authentication header is sent but it is not
820# # needed during ACL checking the username is NOT logged
821# # in access.log.
822# #
823# # NOTE: proxy_auth requires a EXTERNAL authentication program
824# # to check username/password combinations (see
825# # auth_param directive).
826# #
827# # NOTE: proxy_auth can't be used in a transparent/intercepting proxy
828# # as the browser needs to be configured for using a proxy in order
829# # to respond to proxy authentication.
830#
831# acl aclname snmp_community string ...
832# # A community string to limit access to your SNMP Agent [fast]
833# # Example:
834# #
835# # acl snmppublic snmp_community public
836#
837# acl aclname maxconn number
838# # This will be matched when the client's IP address has
839# # more than <number> TCP connections established. [fast]
840# # NOTE: This only measures direct TCP links so X-Forwarded-For
841# # indirect clients are not counted.
842#
843# acl aclname max_user_ip [-s] number
844# # This will be matched when the user attempts to log in from more
845# # than <number> different ip addresses. The authenticate_ip_ttl
846# # parameter controls the timeout on the ip entries. [fast]
847# # If -s is specified the limit is strict, denying browsing
848# # from any further IP addresses until the ttl has expired. Without
849# # -s Squid will just annoy the user by "randomly" denying requests.
850# # (the counter is reset each time the limit is reached and a
851# # request is denied)
852# # NOTE: in acceleration mode or where there is mesh of child proxies,
853# # clients may appear to come from multiple addresses if they are
854# # going through proxy farms, so a limit of 1 may cause user problems.
855#
856# acl aclname random probability
857# # Pseudo-randomly match requests. Based on the probability given.
858# # Probability may be written as a decimal (0.333), fraction (1/3)
859# # or ratio of matches:non-matches (3:5).
860#
861# acl aclname req_mime_type [-i] mime-type ...
862# # regex match against the mime type of the request generated
863# # by the client. Can be used to detect file upload or some
864# # types HTTP tunneling requests [fast]
865# # NOTE: This does NOT match the reply. You cannot use this
866# # to match the returned file type.
867#
868# acl aclname req_header header-name [-i] any\.regex\.here
869# # regex match against any of the known request headers. May be
870# # thought of as a superset of "browser", "referer" and "mime-type"
871# # ACL [fast]
872#
873# acl aclname rep_mime_type [-i] mime-type ...
874# # regex match against the mime type of the reply received by
875# # squid. Can be used to detect file download or some
876# # types HTTP tunneling requests. [fast]
877# # NOTE: This has no effect in http_access rules. It only has
878# # effect in rules that affect the reply data stream such as
879# # http_reply_access.
880#
881# acl aclname rep_header header-name [-i] any\.regex\.here
882# # regex match against any of the known reply headers. May be
883# # thought of as a superset of "browser", "referer" and "mime-type"
884# # ACLs [fast]
885#
886# acl aclname external class_name [arguments...]
887# # external ACL lookup via a helper class defined by the
888# # external_acl_type directive [slow]
889#
890# acl aclname user_cert attribute values...
891# # match against attributes in a user SSL certificate
892# # attribute is one of DN/C/O/CN/L/ST or a numerical OID [fast]
893#
894# acl aclname ca_cert attribute values...
895# # match against attributes a users issuing CA SSL certificate
896# # attribute is one of DN/C/O/CN/L/ST or a numerical OID [fast]
897#
898# acl aclname ext_user username ...
899# acl aclname ext_user_regex [-i] pattern ...
900# # string match on username returned by external acl helper [slow]
901# # use REQUIRED to accept any non-null user name.
902#
903# acl aclname tag tagvalue ...
904# # string match on tag returned by external acl helper [fast]
905# # DEPRECATED. Only the first tag will match with this ACL.
906# # Use the 'note' ACL instead for handling multiple tag values.
907#
908# acl aclname hier_code codename ...
909# # string match against squid hierarchy code(s); [fast]
910# # e.g., DIRECT, PARENT_HIT, NONE, etc.
911# #
912# # NOTE: This has no effect in http_access rules. It only has
913# # effect in rules that affect the reply data stream such as
914# # http_reply_access.
915#
916# acl aclname note name [value ...]
917# # match transaction annotation [fast]
918# # Without values, matches any annotation with a given name.
919# # With value(s), matches any annotation with a given name that
920# # also has one of the given values.
921# # Names and values are compared using a string equality test.
922# # Annotation sources include note and adaptation_meta directives
923# # as well as helper and eCAP responses.
924#
925# acl aclname adaptation_service service ...
926# # Matches the name of any icap_service, ecap_service,
927# # adaptation_service_set, or adaptation_service_chain that Squid
928# # has used (or attempted to use) for the master transaction.
929# # This ACL must be defined after the corresponding adaptation
930# # service is named in squid.conf. This ACL is usable with
931# # adaptation_meta because it starts matching immediately after
932# # the service has been selected for adaptation.
933#
934# acl aclname any-of acl1 acl2 ...
935# # match any one of the acls [fast or slow]
936# # The first matching ACL stops further ACL evaluation.
937# #
938# # ACLs from multiple any-of lines with the same name are ORed.
939# # For example, A = (a1 or a2) or (a3 or a4) can be written as
940# # acl A any-of a1 a2
941# # acl A any-of a3 a4
942# #
943# # This group ACL is fast if all evaluated ACLs in the group are fast
944# # and slow otherwise.
945#
946# acl aclname all-of acl1 acl2 ...
947# # match all of the acls [fast or slow]
948# # The first mismatching ACL stops further ACL evaluation.
949# #
950# # ACLs from multiple all-of lines with the same name are ORed.
951# # For example, B = (b1 and b2) or (b3 and b4) can be written as
952# # acl B all-of b1 b2
953# # acl B all-of b3 b4
954# #
955# # This group ACL is fast if all evaluated ACLs in the group are fast
956# # and slow otherwise.
957#
958# Examples:
959# acl macaddress arp 09:00:2b:23:45:67
960# acl myexample dst_as 1241
961# acl password proxy_auth REQUIRED
962# acl fileupload req_mime_type -i ^multipart/form-data$
963# acl javascript rep_mime_type -i ^application/x-javascript$
964#
965#Default:
966# ACLs all, manager, localhost, and to_localhost are predefined.
967#
968#
969# Recommended minimum configuration:
970#
971
972# Example rule allowing access from your local networks.
973# Adapt to list your (internal) IP networks from where browsing
974# should be allowed
975acl localnet src 10.0.0.0/8 # RFC1918 possible internal network
976acl localnet src 172.16.0.0/12 # RFC1918 possible internal network
977acl localnet src 192.168.0.0/16 # RFC1918 possible internal network
978acl localnet src fc00::/7 # RFC 4193 local private network range
979acl localnet src fe80::/10 # RFC 4291 link-local (directly plugged) machines
980
981acl SSL_ports port 443
982acl Safe_ports port 80 # http
983acl Safe_ports port 21 # ftp
984acl Safe_ports port 443 # https
985acl Safe_ports port 70 # gopher
986acl Safe_ports port 210 # wais
987acl Safe_ports port 1025-65535 # unregistered ports
988acl Safe_ports port 280 # http-mgmt
989acl Safe_ports port 488 # gss-http
990acl Safe_ports port 591 # filemaker
991acl Safe_ports port 777 # multiling http
992acl CONNECT method CONNECT
993
994# TAG: proxy_protocol_access
995# Determine which client proxies can be trusted to provide correct
996# information regarding real client IP address using PROXY protocol.
997#
998# Requests may pass through a chain of several other proxies
999# before reaching us. The original source details may by sent in:
1000# * HTTP message Forwarded header, or
1001# * HTTP message X-Forwarded-For header, or
1002# * PROXY protocol connection header.
1003#
1004# This directive is solely for validating new PROXY protocol
1005# connections received from a port flagged with require-proxy-header.
1006# It is checked only once after TCP connection setup.
1007#
1008# A deny match results in TCP connection closure.
1009#
1010# An allow match is required for Squid to permit the corresponding
1011# TCP connection, before Squid even looks for HTTP request headers.
1012# If there is an allow match, Squid starts using PROXY header information
1013# to determine the source address of the connection for all future ACL
1014# checks, logging, etc.
1015#
1016# SECURITY CONSIDERATIONS:
1017#
1018# Any host from which we accept client IP details can place
1019# incorrect information in the relevant header, and Squid
1020# will use the incorrect information as if it were the
1021# source address of the request. This may enable remote
1022# hosts to bypass any access control restrictions that are
1023# based on the client's source addresses.
1024#
1025# This clause only supports fast acl types.
1026# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1027#Default:
1028# all TCP connections to ports with require-proxy-header will be denied
1029
1030# TAG: follow_x_forwarded_for
1031# Determine which client proxies can be trusted to provide correct
1032# information regarding real client IP address.
1033#
1034# Requests may pass through a chain of several other proxies
1035# before reaching us. The original source details may by sent in:
1036# * HTTP message Forwarded header, or
1037# * HTTP message X-Forwarded-For header, or
1038# * PROXY protocol connection header.
1039#
1040# PROXY protocol connections are controlled by the proxy_protocol_access
1041# directive which is checked before this.
1042#
1043# If a request reaches us from a source that is allowed by this
1044# directive, then we trust the information it provides regarding
1045# the IP of the client it received from (if any).
1046#
1047# For the purpose of ACLs used in this directive the src ACL type always
1048# matches the address we are testing and srcdomain matches its rDNS.
1049#
1050# On each HTTP request Squid checks for X-Forwarded-For header fields.
1051# If found the header values are iterated in reverse order and an allow
1052# match is required for Squid to continue on to the next value.
1053# The verification ends when a value receives a deny match, cannot be
1054# tested, or there are no more values to test.
1055# NOTE: Squid does not yet follow the Forwarded HTTP header.
1056#
1057# The end result of this process is an IP address that we will
1058# refer to as the indirect client address. This address may
1059# be treated as the client address for access control, ICAP, delay
1060# pools and logging, depending on the acl_uses_indirect_client,
1061# icap_uses_indirect_client, delay_pool_uses_indirect_client,
1062# log_uses_indirect_client and tproxy_uses_indirect_client options.
1063#
1064# This clause only supports fast acl types.
1065# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1066#
1067# SECURITY CONSIDERATIONS:
1068#
1069# Any host from which we accept client IP details can place
1070# incorrect information in the relevant header, and Squid
1071# will use the incorrect information as if it were the
1072# source address of the request. This may enable remote
1073# hosts to bypass any access control restrictions that are
1074# based on the client's source addresses.
1075#
1076# For example:
1077#
1078# acl localhost src 127.0.0.1
1079# acl my_other_proxy srcdomain .proxy.example.com
1080# follow_x_forwarded_for allow localhost
1081# follow_x_forwarded_for allow my_other_proxy
1082#Default:
1083# X-Forwarded-For header will be ignored.
1084
1085# TAG: acl_uses_indirect_client on|off
1086# Controls whether the indirect client address
1087# (see follow_x_forwarded_for) is used instead of the
1088# direct client address in acl matching.
1089#
1090# NOTE: maxconn ACL considers direct TCP links and indirect
1091# clients will always have zero. So no match.
1092#Default:
1093# acl_uses_indirect_client on
1094
1095# TAG: delay_pool_uses_indirect_client on|off
1096# Controls whether the indirect client address
1097# (see follow_x_forwarded_for) is used instead of the
1098# direct client address in delay pools.
1099#Default:
1100# delay_pool_uses_indirect_client on
1101
1102# TAG: log_uses_indirect_client on|off
1103# Controls whether the indirect client address
1104# (see follow_x_forwarded_for) is used instead of the
1105# direct client address in the access log.
1106#Default:
1107# log_uses_indirect_client on
1108
1109# TAG: tproxy_uses_indirect_client on|off
1110# Controls whether the indirect client address
1111# (see follow_x_forwarded_for) is used instead of the
1112# direct client address when spoofing the outgoing client.
1113#
1114# This has no effect on requests arriving in non-tproxy
1115# mode ports.
1116#
1117# SECURITY WARNING: Usage of this option is dangerous
1118# and should not be used trivially. Correct configuration
1119# of follow_x_forwarded_for with a limited set of trusted
1120# sources is required to prevent abuse of your proxy.
1121#Default:
1122# tproxy_uses_indirect_client off
1123
1124# TAG: spoof_client_ip
1125# Control client IP address spoofing of TPROXY traffic based on
1126# defined access lists.
1127#
1128# spoof_client_ip allow|deny [!]aclname ...
1129#
1130# If there are no "spoof_client_ip" lines present, the default
1131# is to "allow" spoofing of any suitable request.
1132#
1133# Note that the cache_peer "no-tproxy" option overrides this ACL.
1134#
1135# This clause supports fast acl types.
1136# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1137#Default:
1138# Allow spoofing on all TPROXY traffic.
1139
1140# TAG: http_access
1141# Allowing or Denying access based on defined access lists
1142#
1143# To allow or deny a message received on an HTTP, HTTPS, or FTP port:
1144# http_access allow|deny [!]aclname ...
1145#
1146# NOTE on default values:
1147#
1148# If there are no "access" lines present, the default is to deny
1149# the request.
1150#
1151# If none of the "access" lines cause a match, the default is the
1152# opposite of the last line in the list. If the last line was
1153# deny, the default is allow. Conversely, if the last line
1154# is allow, the default will be deny. For these reasons, it is a
1155# good idea to have an "deny all" entry at the end of your access
1156# lists to avoid potential confusion.
1157#
1158# This clause supports both fast and slow acl types.
1159# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1160#
1161#Default:
1162# Deny, unless rules exist in squid.conf.
1163#
1164
1165#
1166# Recommended minimum Access Permission configuration:
1167#
1168# Deny requests to certain unsafe ports
1169http_access deny !Safe_ports
1170
1171# Deny CONNECT to other than secure SSL ports
1172http_access deny CONNECT !SSL_ports
1173
1174# Only allow cachemgr access from localhost
1175http_access allow localhost manager
1176http_access deny manager
1177
1178# We strongly recommend the following be uncommented to protect innocent
1179# web applications running on the proxy server who think the only
1180# one who can access services on "localhost" is a local user
1181#http_access deny to_localhost
1182
1183#
1184# INSERT YOUR OWN RULE(S) HERE TO ALLOW ACCESS FROM YOUR CLIENTS
1185#
1186
1187# Example rule allowing access from your local networks.
1188# Adapt localnet in the ACL section to list your (internal) IP networks
1189# from where browsing should be allowed
1190http_access allow localnet
1191http_access allow localhost
1192
1193# And finally deny all other access to this proxy
1194http_access deny all
1195
1196# TAG: adapted_http_access
1197# Allowing or Denying access based on defined access lists
1198#
1199# Essentially identical to http_access, but runs after redirectors
1200# and ICAP/eCAP adaptation. Allowing access control based on their
1201# output.
1202#
1203# If not set then only http_access is used.
1204#Default:
1205# Allow, unless rules exist in squid.conf.
1206
1207# TAG: http_reply_access
1208# Allow replies to client requests. This is complementary to http_access.
1209#
1210# http_reply_access allow|deny [!] aclname ...
1211#
1212# NOTE: if there are no access lines present, the default is to allow
1213# all replies.
1214#
1215# If none of the access lines cause a match the opposite of the
1216# last line will apply. Thus it is good practice to end the rules
1217# with an "allow all" or "deny all" entry.
1218#
1219# This clause supports both fast and slow acl types.
1220# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1221#Default:
1222# Allow, unless rules exist in squid.conf.
1223
1224# TAG: icp_access
1225# Allowing or Denying access to the ICP port based on defined
1226# access lists
1227#
1228# icp_access allow|deny [!]aclname ...
1229#
1230# NOTE: The default if no icp_access lines are present is to
1231# deny all traffic. This default may cause problems with peers
1232# using ICP.
1233#
1234# This clause only supports fast acl types.
1235# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1236#
1237## Allow ICP queries from local networks only
1238##icp_access allow localnet
1239##icp_access deny all
1240#Default:
1241# Deny, unless rules exist in squid.conf.
1242
1243# TAG: htcp_access
1244# Allowing or Denying access to the HTCP port based on defined
1245# access lists
1246#
1247# htcp_access allow|deny [!]aclname ...
1248#
1249# See also htcp_clr_access for details on access control for
1250# cache purge (CLR) HTCP messages.
1251#
1252# NOTE: The default if no htcp_access lines are present is to
1253# deny all traffic. This default may cause problems with peers
1254# using the htcp option.
1255#
1256# This clause only supports fast acl types.
1257# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1258#
1259## Allow HTCP queries from local networks only
1260##htcp_access allow localnet
1261##htcp_access deny all
1262#Default:
1263# Deny, unless rules exist in squid.conf.
1264
1265# TAG: htcp_clr_access
1266# Allowing or Denying access to purge content using HTCP based
1267# on defined access lists.
1268# See htcp_access for details on general HTCP access control.
1269#
1270# htcp_clr_access allow|deny [!]aclname ...
1271#
1272# This clause only supports fast acl types.
1273# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1274#
1275## Allow HTCP CLR requests from trusted peers
1276#acl htcp_clr_peer src 192.0.2.2 2001:DB8::2
1277#htcp_clr_access allow htcp_clr_peer
1278#htcp_clr_access deny all
1279#Default:
1280# Deny, unless rules exist in squid.conf.
1281
1282# TAG: miss_access
1283# Determines whether network access is permitted when satisfying a request.
1284#
1285# For example;
1286# to force your neighbors to use you as a sibling instead of
1287# a parent.
1288#
1289# acl localclients src 192.0.2.0/24 2001:DB8::a:0/64
1290# miss_access deny !localclients
1291# miss_access allow all
1292#
1293# This means only your local clients are allowed to fetch relayed/MISS
1294# replies from the network and all other clients can only fetch cached
1295# objects (HITs).
1296#
1297# The default for this setting allows all clients who passed the
1298# http_access rules to relay via this proxy.
1299#
1300# This clause only supports fast acl types.
1301# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1302#Default:
1303# Allow, unless rules exist in squid.conf.
1304
1305# TAG: ident_lookup_access
1306# A list of ACL elements which, if matched, cause an ident
1307# (RFC 931) lookup to be performed for this request. For
1308# example, you might choose to always perform ident lookups
1309# for your main multi-user Unix boxes, but not for your Macs
1310# and PCs. By default, ident lookups are not performed for
1311# any requests.
1312#
1313# To enable ident lookups for specific client addresses, you
1314# can follow this example:
1315#
1316# acl ident_aware_hosts src 198.168.1.0/24
1317# ident_lookup_access allow ident_aware_hosts
1318# ident_lookup_access deny all
1319#
1320# Only src type ACL checks are fully supported. A srcdomain
1321# ACL might work at times, but it will not always provide
1322# the correct result.
1323#
1324# This clause only supports fast acl types.
1325# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
1326#Default:
1327# Unless rules exist in squid.conf, IDENT is not fetched.
1328
1329# TAG: reply_body_max_size size [acl acl...]
1330# This option specifies the maximum size of a reply body. It can be
1331# used to prevent users from downloading very large files, such as
1332# MP3's and movies. When the reply headers are received, the
1333# reply_body_max_size lines are processed, and the first line where
1334# all (if any) listed ACLs are true is used as the maximum body size
1335# for this reply.
1336#
1337# This size is checked twice. First when we get the reply headers,
1338# we check the content-length value. If the content length value exists
1339# and is larger than the allowed size, the request is denied and the
1340# user receives an error message that says "the request or reply
1341# is too large." If there is no content-length, and the reply
1342# size exceeds this limit, the client's connection is just closed
1343# and they will receive a partial reply.
1344#
1345# WARNING: downstream caches probably can not detect a partial reply
1346# if there is no content-length header, so they will cache
1347# partial responses and give them out as hits. You should NOT
1348# use this option if you have downstream caches.
1349#
1350# WARNING: A maximum size smaller than the size of squid's error messages
1351# will cause an infinite loop and crash squid. Ensure that the smallest
1352# non-zero value you use is greater that the maximum header size plus
1353# the size of your largest error page.
1354#
1355# If you set this parameter none (the default), there will be
1356# no limit imposed.
1357#
1358# Configuration Format is:
1359# reply_body_max_size SIZE UNITS [acl ...]
1360# ie.
1361# reply_body_max_size 10 MB
1362#
1363#Default:
1364# No limit is applied.
1365
1366# NETWORK OPTIONS
1367# -----------------------------------------------------------------------------
1368
1369# TAG: http_port
1370# Usage: port [mode] [options]
1371# hostname:port [mode] [options]
1372# 1.2.3.4:port [mode] [options]
1373#
1374# The socket addresses where Squid will listen for HTTP client
1375# requests. You may specify multiple socket addresses.
1376# There are three forms: port alone, hostname with port, and
1377# IP address with port. If you specify a hostname or IP
1378# address, Squid binds the socket to that specific
1379# address. Most likely, you do not need to bind to a specific
1380# address, so you can use the port number alone.
1381#
1382# If you are running Squid in accelerator mode, you
1383# probably want to listen on port 80 also, or instead.
1384#
1385# The -a command line option may be used to specify additional
1386# port(s) where Squid listens for proxy request. Such ports will
1387# be plain proxy ports with no options.
1388#
1389# You may specify multiple socket addresses on multiple lines.
1390#
1391# Modes:
1392#
1393# intercept Support for IP-Layer NAT interception delivering
1394# traffic to this Squid port.
1395# NP: disables authentication on the port.
1396#
1397# tproxy Support Linux TPROXY (or BSD divert-to) with spoofing
1398# of outgoing connections using the client IP address.
1399# NP: disables authentication on the port.
1400#
1401# accel Accelerator / reverse proxy mode
1402#
1403# ssl-bump For each CONNECT request allowed by ssl_bump ACLs,
1404# establish secure connection with the client and with
1405# the server, decrypt HTTPS messages as they pass through
1406# Squid, and treat them as unencrypted HTTP messages,
1407# becoming the man-in-the-middle.
1408#
1409# The ssl_bump option is required to fully enable
1410# bumping of CONNECT requests.
1411#
1412# Omitting the mode flag causes default forward proxy mode to be used.
1413#
1414#
1415# Accelerator Mode Options:
1416#
1417# defaultsite=domainname
1418# What to use for the Host: header if it is not present
1419# in a request. Determines what site (not origin server)
1420# accelerators should consider the default.
1421#
1422# no-vhost Disable using HTTP/1.1 Host header for virtual domain support.
1423#
1424# protocol= Protocol to reconstruct accelerated and intercepted
1425# requests with. Defaults to HTTP/1.1 for http_port and
1426# HTTPS/1.1 for https_port.
1427# When an unsupported value is configured Squid will
1428# produce a FATAL error.
1429# Values: HTTP or HTTP/1.1, HTTPS or HTTPS/1.1
1430#
1431# vport Virtual host port support. Using the http_port number
1432# instead of the port passed on Host: headers.
1433#
1434# vport=NN Virtual host port support. Using the specified port
1435# number instead of the port passed on Host: headers.
1436#
1437# act-as-origin
1438# Act as if this Squid is the origin server.
1439# This currently means generate new Date: and Expires:
1440# headers on HIT instead of adding Age:.
1441#
1442# ignore-cc Ignore request Cache-Control headers.
1443#
1444# WARNING: This option violates HTTP specifications if
1445# used in non-accelerator setups.
1446#
1447# allow-direct Allow direct forwarding in accelerator mode. Normally
1448# accelerated requests are denied direct forwarding as if
1449# never_direct was used.
1450#
1451# WARNING: this option opens accelerator mode to security
1452# vulnerabilities usually only affecting in interception
1453# mode. Make sure to protect forwarding with suitable
1454# http_access rules when using this.
1455#
1456#
1457# SSL Bump Mode Options:
1458# In addition to these options ssl-bump requires TLS/SSL options.
1459#
1460# generate-host-certificates[=<on|off>]
1461# Dynamically create SSL server certificates for the
1462# destination hosts of bumped CONNECT requests.When
1463# enabled, the cert and key options are used to sign
1464# generated certificates. Otherwise generated
1465# certificate will be selfsigned.
1466# If there is a CA certificate lifetime of the generated
1467# certificate equals lifetime of the CA certificate. If
1468# generated certificate is selfsigned lifetime is three
1469# years.
1470# This option is disabled by default. See the ssl-bump
1471# option above for more information.
1472#
1473# dynamic_cert_mem_cache_size=SIZE
1474# Approximate total RAM size spent on cached generated
1475# certificates. If set to zero, caching is disabled.
1476#
1477# TLS / SSL Options:
1478#
1479# cert= Path to SSL certificate (PEM format).
1480#
1481# key= Path to SSL private key file (PEM format)
1482# if not specified, the certificate file is
1483# assumed to be a combined certificate and
1484# key file.
1485#
1486# version= The version of SSL/TLS supported
1487# 1 automatic (default)
1488# 2 SSLv2 only
1489# 3 SSLv3 only
1490# 4 TLSv1.0 only
1491# 5 TLSv1.1 only
1492# 6 TLSv1.2 only
1493#
1494# cipher= Colon separated list of supported ciphers.
1495# NOTE: some ciphers such as EDH ciphers depend on
1496# additional settings. If those settings are
1497# omitted the ciphers may be silently ignored
1498# by the OpenSSL library.
1499#
1500# options= Various SSL implementation options. The most important
1501# being:
1502# NO_SSLv2 Disallow the use of SSLv2
1503# NO_SSLv3 Disallow the use of SSLv3
1504# NO_TLSv1 Disallow the use of TLSv1.0
1505# NO_TLSv1_1 Disallow the use of TLSv1.1
1506# NO_TLSv1_2 Disallow the use of TLSv1.2
1507# SINGLE_DH_USE Always create a new key when using
1508# temporary/ephemeral DH key exchanges
1509# NO_TICKET Disables TLS tickets extension
1510#
1511# SINGLE_ECDH_USE
1512# Enable ephemeral ECDH key exchange.
1513# The adopted curve should be specified
1514# using the tls-dh option.
1515#
1516# ALL Enable various bug workarounds
1517# suggested as "harmless" by OpenSSL
1518# Be warned that this reduces SSL/TLS
1519# strength to some attacks.
1520# See OpenSSL SSL_CTX_set_options documentation for a
1521# complete list of options.
1522#
1523# clientca= File containing the list of CAs to use when
1524# requesting a client certificate.
1525#
1526# cafile= File containing additional CA certificates to
1527# use when verifying client certificates. If unset
1528# clientca will be used.
1529#
1530# capath= Directory containing additional CA certificates
1531# and CRL lists to use when verifying client certificates.
1532#
1533# crlfile= File of additional CRL lists to use when verifying
1534# the client certificate, in addition to CRLs stored in
1535# the capath. Implies VERIFY_CRL flag below.
1536#
1537# tls-dh=[curve:]file
1538# File containing DH parameters for temporary/ephemeral DH key
1539# exchanges, optionally prefixed by a curve for ephemeral ECDH
1540# key exchanges.
1541# See OpenSSL documentation for details on how to create the
1542# DH parameter file. Supported curves for ECDH can be listed
1543# using the "openssl ecparam -list_curves" command.
1544# WARNING: EDH and EECDH ciphers will be silently disabled if
1545# this option is not set.
1546#
1547# sslflags= Various flags modifying the use of SSL:
1548# DELAYED_AUTH
1549# Don't request client certificates
1550# immediately, but wait until acl processing
1551# requires a certificate (not yet implemented).
1552# NO_DEFAULT_CA
1553# Don't use the default CA lists built in
1554# to OpenSSL.
1555# NO_SESSION_REUSE
1556# Don't allow for session reuse. Each connection
1557# will result in a new SSL session.
1558# VERIFY_CRL
1559# Verify CRL lists when accepting client
1560# certificates.
1561# VERIFY_CRL_ALL
1562# Verify CRL lists for all certificates in the
1563# client certificate chain.
1564#
1565# sslcontext= SSL session ID context identifier.
1566#
1567# Other Options:
1568#
1569# connection-auth[=on|off]
1570# use connection-auth=off to tell Squid to prevent
1571# forwarding Microsoft connection oriented authentication
1572# (NTLM, Negotiate and Kerberos)
1573#
1574# disable-pmtu-discovery=
1575# Control Path-MTU discovery usage:
1576# off lets OS decide on what to do (default).
1577# transparent disable PMTU discovery when transparent
1578# support is enabled.
1579# always disable always PMTU discovery.
1580#
1581# In many setups of transparently intercepting proxies
1582# Path-MTU discovery can not work on traffic towards the
1583# clients. This is the case when the intercepting device
1584# does not fully track connections and fails to forward
1585# ICMP must fragment messages to the cache server. If you
1586# have such setup and experience that certain clients
1587# sporadically hang or never complete requests set
1588# disable-pmtu-discovery option to 'transparent'.
1589#
1590# name= Specifies a internal name for the port. Defaults to
1591# the port specification (port or addr:port)
1592#
1593# tcpkeepalive[=idle,interval,timeout]
1594# Enable TCP keepalive probes of idle connections.
1595# In seconds; idle is the initial time before TCP starts
1596# probing the connection, interval how often to probe, and
1597# timeout the time before giving up.
1598#
1599# require-proxy-header
1600# Require PROXY protocol version 1 or 2 connections.
1601# The proxy_protocol_access is required to whitelist
1602# downstream proxies which can be trusted.
1603#
1604# If you run Squid on a dual-homed machine with an internal
1605# and an external interface we recommend you to specify the
1606# internal address:port in http_port. This way Squid will only be
1607# visible on the internal address.
1608#
1609#
1610
1611# Squid normally listens to port 3128
1612http_port 3128
1613
1614# TAG: https_port
1615# Note: This option is only available if Squid is rebuilt with the
1616# --with-openssl
1617#
1618# Usage: [ip:]port cert=certificate.pem [key=key.pem] [mode] [options...]
1619#
1620# The socket address where Squid will listen for client requests made
1621# over TLS or SSL connections. Commonly referred to as HTTPS.
1622#
1623# This is most useful for situations where you are running squid in
1624# accelerator mode and you want to do the SSL work at the accelerator level.
1625#
1626# You may specify multiple socket addresses on multiple lines,
1627# each with their own SSL certificate and/or options.
1628#
1629# Modes:
1630#
1631# accel Accelerator / reverse proxy mode
1632#
1633# intercept Support for IP-Layer interception of
1634# outgoing requests without browser settings.
1635# NP: disables authentication and IPv6 on the port.
1636#
1637# tproxy Support Linux TPROXY for spoofing outgoing
1638# connections using the client IP address.
1639# NP: disables authentication and maybe IPv6 on the port.
1640#
1641# ssl-bump For each intercepted connection allowed by ssl_bump
1642# ACLs, establish a secure connection with the client and with
1643# the server, decrypt HTTPS messages as they pass through
1644# Squid, and treat them as unencrypted HTTP messages,
1645# becoming the man-in-the-middle.
1646#
1647# An "ssl_bump server-first" match is required to
1648# fully enable bumping of intercepted SSL connections.
1649#
1650# Requires tproxy or intercept.
1651#
1652# Omitting the mode flag causes default forward proxy mode to be used.
1653#
1654#
1655# See http_port for a list of generic options
1656#
1657#
1658# SSL Options:
1659#
1660# cert= Path to SSL certificate (PEM format).
1661#
1662# key= Path to SSL private key file (PEM format)
1663# if not specified, the certificate file is
1664# assumed to be a combined certificate and
1665# key file.
1666#
1667# version= The version of SSL/TLS supported
1668# 1 automatic (default)
1669# 2 SSLv2 only
1670# 3 SSLv3 only
1671# 4 TLSv1 only
1672#
1673# cipher= Colon separated list of supported ciphers.
1674#
1675# options= Various SSL engine options. The most important
1676# being:
1677# NO_SSLv2 Disallow the use of SSLv2
1678# NO_SSLv3 Disallow the use of SSLv3
1679# NO_TLSv1 Disallow the use of TLSv1
1680#
1681# SINGLE_DH_USE Always create a new key when using
1682# temporary/ephemeral DH key exchanges
1683#
1684# SINGLE_ECDH_USE
1685# Enable ephemeral ECDH key exchange.
1686# The adopted curve should be specified
1687# using the tls-dh option.
1688#
1689# See src/ssl_support.c or OpenSSL SSL_CTX_set_options
1690# documentation for a complete list of options.
1691#
1692# clientca= File containing the list of CAs to use when
1693# requesting a client certificate.
1694#
1695# cafile= File containing additional CA certificates to
1696# use when verifying client certificates. If unset
1697# clientca will be used.
1698#
1699# capath= Directory containing additional CA certificates
1700# and CRL lists to use when verifying client certificates.
1701#
1702# crlfile= File of additional CRL lists to use when verifying
1703# the client certificate, in addition to CRLs stored in
1704# the capath. Implies VERIFY_CRL flag below.
1705#
1706# tls-dh=[curve:]file
1707# File containing DH parameters for temporary/ephemeral DH key
1708# exchanges, optionally prefixed by a curve for ephemeral ECDH
1709# key exchanges.
1710#
1711# sslflags= Various flags modifying the use of SSL:
1712# DELAYED_AUTH
1713# Don't request client certificates
1714# immediately, but wait until acl processing
1715# requires a certificate (not yet implemented).
1716# NO_DEFAULT_CA
1717# Don't use the default CA lists built in
1718# to OpenSSL.
1719# NO_SESSION_REUSE
1720# Don't allow for session reuse. Each connection
1721# will result in a new SSL session.
1722# VERIFY_CRL
1723# Verify CRL lists when accepting client
1724# certificates.
1725# VERIFY_CRL_ALL
1726# Verify CRL lists for all certificates in the
1727# client certificate chain.
1728#
1729# sslcontext= SSL session ID context identifier.
1730#
1731# generate-host-certificates[=<on|off>]
1732# Dynamically create SSL server certificates for the
1733# destination hosts of bumped SSL requests.When
1734# enabled, the cert and key options are used to sign
1735# generated certificates. Otherwise generated
1736# certificate will be selfsigned.
1737# If there is CA certificate life time of generated
1738# certificate equals lifetime of CA certificate. If
1739# generated certificate is selfsigned lifetime is three
1740# years.
1741# This option is disabled by default. See the ssl-bump
1742# option above for more information.
1743#
1744# dynamic_cert_mem_cache_size=SIZE
1745# Approximate total RAM size spent on cached generated
1746# certificates. If set to zero, caching is disabled.
1747#
1748# See http_port for a list of available options.
1749#Default:
1750# none
1751
1752# TAG: ftp_port
1753# Enables Native FTP proxy by specifying the socket address where Squid
1754# listens for FTP client requests. See http_port directive for various
1755# ways to specify the listening address and mode.
1756#
1757# Usage: ftp_port address [mode] [options]
1758#
1759# WARNING: This is a new, experimental, complex feature that has seen
1760# limited production exposure. Some Squid modules (e.g., caching) do not
1761# currently work with native FTP proxying, and many features have not
1762# even been tested for compatibility. Test well before deploying!
1763#
1764# Native FTP proxying differs substantially from proxying HTTP requests
1765# with ftp:// URIs because Squid works as an FTP server and receives
1766# actual FTP commands (rather than HTTP requests with FTP URLs).
1767#
1768# Native FTP commands accepted at ftp_port are internally converted or
1769# wrapped into HTTP-like messages. The same happens to Native FTP
1770# responses received from FTP origin servers. Those HTTP-like messages
1771# are shoveled through regular access control and adaptation layers
1772# between the FTP client and the FTP origin server. This allows Squid to
1773# examine, adapt, block, and log FTP exchanges. Squid reuses most HTTP
1774# mechanisms when shoveling wrapped FTP messages. For example,
1775# http_access and adaptation_access directives are used.
1776#
1777# Modes:
1778#
1779# intercept Same as http_port intercept. The FTP origin address is
1780# determined based on the intended destination of the
1781# intercepted connection.
1782#
1783# tproxy Support Linux TPROXY for spoofing outgoing
1784# connections using the client IP address.
1785# NP: disables authentication and maybe IPv6 on the port.
1786#
1787# By default (i.e., without an explicit mode option), Squid extracts the
1788# FTP origin address from the login@origin parameter of the FTP USER
1789# command. Many popular FTP clients support such native FTP proxying.
1790#
1791# Options:
1792#
1793# name=token Specifies an internal name for the port. Defaults to
1794# the port address. Usable with myportname ACL.
1795#
1796# ftp-track-dirs
1797# Enables tracking of FTP directories by injecting extra
1798# PWD commands and adjusting Request-URI (in wrapping
1799# HTTP requests) to reflect the current FTP server
1800# directory. Tracking is disabled by default.
1801#
1802# protocol=FTP Protocol to reconstruct accelerated and intercepted
1803# requests with. Defaults to FTP. No other accepted
1804# values have been tested with. An unsupported value
1805# results in a FATAL error. Accepted values are FTP,
1806# HTTP (or HTTP/1.1), and HTTPS (or HTTPS/1.1).
1807#
1808# Other http_port modes and options that are not specific to HTTP and
1809# HTTPS may also work.
1810#Default:
1811# none
1812
1813# TAG: tcp_outgoing_tos
1814# Allows you to select a TOS/Diffserv value for packets outgoing
1815# on the server side, based on an ACL.
1816#
1817# tcp_outgoing_tos ds-field [!]aclname ...
1818#
1819# Example where normal_service_net uses the TOS value 0x00
1820# and good_service_net uses 0x20
1821#
1822# acl normal_service_net src 10.0.0.0/24
1823# acl good_service_net src 10.0.1.0/24
1824# tcp_outgoing_tos 0x00 normal_service_net
1825# tcp_outgoing_tos 0x20 good_service_net
1826#
1827# TOS/DSCP values really only have local significance - so you should
1828# know what you're specifying. For more information, see RFC2474,
1829# RFC2475, and RFC3260.
1830#
1831# The TOS/DSCP byte must be exactly that - a octet value 0 - 255, or
1832# "default" to use whatever default your host has.
1833# Note that only multiples of 4 are usable as the two rightmost bits have
1834# been redefined for use by ECN (RFC 3168 section 23.1).
1835# The squid parser will enforce this by masking away the ECN bits.
1836#
1837# Processing proceeds in the order specified, and stops at first fully
1838# matching line.
1839#
1840# Only fast ACLs are supported.
1841#Default:
1842# none
1843
1844# TAG: clientside_tos
1845# Allows you to select a TOS/DSCP value for packets being transmitted
1846# on the client-side, based on an ACL.
1847#
1848# clientside_tos ds-field [!]aclname ...
1849#
1850# Example where normal_service_net uses the TOS value 0x00
1851# and good_service_net uses 0x20
1852#
1853# acl normal_service_net src 10.0.0.0/24
1854# acl good_service_net src 10.0.1.0/24
1855# clientside_tos 0x00 normal_service_net
1856# clientside_tos 0x20 good_service_net
1857#
1858# Note: This feature is incompatible with qos_flows. Any TOS values set here
1859# will be overwritten by TOS values in qos_flows.
1860#
1861# The TOS/DSCP byte must be exactly that - a octet value 0 - 255, or
1862# "default" to use whatever default your host has.
1863# Note that only multiples of 4 are usable as the two rightmost bits have
1864# been redefined for use by ECN (RFC 3168 section 23.1).
1865# The squid parser will enforce this by masking away the ECN bits.
1866#
1867#Default:
1868# none
1869
1870# TAG: tcp_outgoing_mark
1871# Note: This option is only available if Squid is rebuilt with the
1872# Packet MARK (Linux)
1873#
1874# Allows you to apply a Netfilter mark value to outgoing packets
1875# on the server side, based on an ACL.
1876#
1877# tcp_outgoing_mark mark-value [!]aclname ...
1878#
1879# Example where normal_service_net uses the mark value 0x00
1880# and good_service_net uses 0x20
1881#
1882# acl normal_service_net src 10.0.0.0/24
1883# acl good_service_net src 10.0.1.0/24
1884# tcp_outgoing_mark 0x00 normal_service_net
1885# tcp_outgoing_mark 0x20 good_service_net
1886#
1887# Only fast ACLs are supported.
1888#Default:
1889# none
1890
1891# TAG: clientside_mark
1892# Note: This option is only available if Squid is rebuilt with the
1893# Packet MARK (Linux)
1894#
1895# Allows you to apply a Netfilter mark value to packets being transmitted
1896# on the client-side, based on an ACL.
1897#
1898# clientside_mark mark-value [!]aclname ...
1899#
1900# Example where normal_service_net uses the mark value 0x00
1901# and good_service_net uses 0x20
1902#
1903# acl normal_service_net src 10.0.0.0/24
1904# acl good_service_net src 10.0.1.0/24
1905# clientside_mark 0x00 normal_service_net
1906# clientside_mark 0x20 good_service_net
1907#
1908# Note: This feature is incompatible with qos_flows. Any mark values set here
1909# will be overwritten by mark values in qos_flows.
1910#Default:
1911# none
1912
1913# TAG: qos_flows
1914# Allows you to select a TOS/DSCP value to mark outgoing
1915# connections to the client, based on where the reply was sourced.
1916# For platforms using netfilter, allows you to set a netfilter mark
1917# value instead of, or in addition to, a TOS value.
1918#
1919# By default this functionality is disabled. To enable it with the default
1920# settings simply use "qos_flows mark" or "qos_flows tos". Default
1921# settings will result in the netfilter mark or TOS value being copied
1922# from the upstream connection to the client. Note that it is the connection
1923# CONNMARK value not the packet MARK value that is copied.
1924#
1925# It is not currently possible to copy the mark or TOS value from the
1926# client to the upstream connection request.
1927#
1928# TOS values really only have local significance - so you should
1929# know what you're specifying. For more information, see RFC2474,
1930# RFC2475, and RFC3260.
1931#
1932# The TOS/DSCP byte must be exactly that - a octet value 0 - 255.
1933# Note that only multiples of 4 are usable as the two rightmost bits have
1934# been redefined for use by ECN (RFC 3168 section 23.1).
1935# The squid parser will enforce this by masking away the ECN bits.
1936#
1937# Mark values can be any unsigned 32-bit integer value.
1938#
1939# This setting is configured by setting the following values:
1940#
1941# tos|mark Whether to set TOS or netfilter mark values
1942#
1943# local-hit=0xFF Value to mark local cache hits.
1944#
1945# sibling-hit=0xFF Value to mark hits from sibling peers.
1946#
1947# parent-hit=0xFF Value to mark hits from parent peers.
1948#
1949# miss=0xFF[/mask] Value to mark cache misses. Takes precedence
1950# over the preserve-miss feature (see below), unless
1951# mask is specified, in which case only the bits
1952# specified in the mask are written.
1953#
1954# The TOS variant of the following features are only possible on Linux
1955# and require your kernel to be patched with the TOS preserving ZPH
1956# patch, available from http://zph.bratcheda.org
1957# No patch is needed to preserve the netfilter mark, which will work
1958# with all variants of netfilter.
1959#
1960# disable-preserve-miss
1961# This option disables the preservation of the TOS or netfilter
1962# mark. By default, the existing TOS or netfilter mark value of
1963# the response coming from the remote server will be retained
1964# and masked with miss-mark.
1965# NOTE: in the case of a netfilter mark, the mark must be set on
1966# the connection (using the CONNMARK target) not on the packet
1967# (MARK target).
1968#
1969# miss-mask=0xFF
1970# Allows you to mask certain bits in the TOS or mark value
1971# received from the remote server, before copying the value to
1972# the TOS sent towards clients.
1973# Default for tos: 0xFF (TOS from server is not changed).
1974# Default for mark: 0xFFFFFFFF (mark from server is not changed).
1975#
1976# All of these features require the --enable-zph-qos compilation flag
1977# (enabled by default). Netfilter marking also requires the
1978# libnetfilter_conntrack libraries (--with-netfilter-conntrack) and
1979# libcap 2.09+ (--with-libcap).
1980#
1981#Default:
1982# none
1983
1984# TAG: tcp_outgoing_address
1985# Allows you to map requests to different outgoing IP addresses
1986# based on the username or source address of the user making
1987# the request.
1988#
1989# tcp_outgoing_address ipaddr [[!]aclname] ...
1990#
1991# For example;
1992# Forwarding clients with dedicated IPs for certain subnets.
1993#
1994# acl normal_service_net src 10.0.0.0/24
1995# acl good_service_net src 10.0.2.0/24
1996#
1997# tcp_outgoing_address 2001:db8::c001 good_service_net
1998# tcp_outgoing_address 10.1.0.2 good_service_net
1999#
2000# tcp_outgoing_address 2001:db8::beef normal_service_net
2001# tcp_outgoing_address 10.1.0.1 normal_service_net
2002#
2003# tcp_outgoing_address 2001:db8::1
2004# tcp_outgoing_address 10.1.0.3
2005#
2006# Processing proceeds in the order specified, and stops at first fully
2007# matching line.
2008#
2009# Squid will add an implicit IP version test to each line.
2010# Requests going to IPv4 websites will use the outgoing 10.1.0.* addresses.
2011# Requests going to IPv6 websites will use the outgoing 2001:db8:* addresses.
2012#
2013#
2014# NOTE: The use of this directive using client dependent ACLs is
2015# incompatible with the use of server side persistent connections. To
2016# ensure correct results it is best to set server_persistent_connections
2017# to off when using this directive in such configurations.
2018#
2019# NOTE: The use of this directive to set a local IP on outgoing TCP links
2020# is incompatible with using TPROXY to set client IP out outbound TCP links.
2021# When needing to contact peers use the no-tproxy cache_peer option and the
2022# client_dst_passthru directive re-enable normal forwarding such as this.
2023#
2024#Default:
2025# Address selection is performed by the operating system.
2026
2027# TAG: host_verify_strict
2028# Regardless of this option setting, when dealing with intercepted
2029# traffic, Squid always verifies that the destination IP address matches
2030# the Host header domain or IP (called 'authority form URL').
2031#
2032# This enforcement is performed to satisfy a MUST-level requirement in
2033# RFC 2616 section 14.23: "The Host field value MUST represent the naming
2034# authority of the origin server or gateway given by the original URL".
2035#
2036# When set to ON:
2037# Squid always responds with an HTTP 409 (Conflict) error
2038# page and logs a security warning if there is no match.
2039#
2040# Squid verifies that the destination IP address matches
2041# the Host header for forward-proxy and reverse-proxy traffic
2042# as well. For those traffic types, Squid also enables the
2043# following checks, comparing the corresponding Host header
2044# and Request-URI components:
2045#
2046# * The host names (domain or IP) must be identical,
2047# but valueless or missing Host header disables all checks.
2048# For the two host names to match, both must be either IP
2049# or FQDN.
2050#
2051# * Port numbers must be identical, but if a port is missing
2052# the scheme-default port is assumed.
2053#
2054#
2055# When set to OFF (the default):
2056# Squid allows suspicious requests to continue but logs a
2057# security warning and blocks caching of the response.
2058#
2059# * Forward-proxy traffic is not checked at all.
2060#
2061# * Reverse-proxy traffic is not checked at all.
2062#
2063# * Intercepted traffic which passes verification is handled
2064# according to client_dst_passthru.
2065#
2066# * Intercepted requests which fail verification are sent
2067# to the client original destination instead of DIRECT.
2068# This overrides 'client_dst_passthru off'.
2069#
2070# For now suspicious intercepted CONNECT requests are always
2071# responded to with an HTTP 409 (Conflict) error page.
2072#
2073#
2074# SECURITY NOTE:
2075#
2076# As described in CVE-2009-0801 when the Host: header alone is used
2077# to determine the destination of a request it becomes trivial for
2078# malicious scripts on remote websites to bypass browser same-origin
2079# security policy and sandboxing protections.
2080#
2081# The cause of this is that such applets are allowed to perform their
2082# own HTTP stack, in which case the same-origin policy of the browser
2083# sandbox only verifies that the applet tries to contact the same IP
2084# as from where it was loaded at the IP level. The Host: header may
2085# be different from the connected IP and approved origin.
2086#
2087#Default:
2088# host_verify_strict off
2089
2090# TAG: client_dst_passthru
2091# With NAT or TPROXY intercepted traffic Squid may pass the request
2092# directly to the original client destination IP or seek a faster
2093# source using the HTTP Host header.
2094#
2095# Using Host to locate alternative servers can provide faster
2096# connectivity with a range of failure recovery options.
2097# But can also lead to connectivity trouble when the client and
2098# server are attempting stateful interactions unaware of the proxy.
2099#
2100# This option (on by default) prevents alternative DNS entries being
2101# located to send intercepted traffic DIRECT to an origin server.
2102# The clients original destination IP and port will be used instead.
2103#
2104# Regardless of this option setting, when dealing with intercepted
2105# traffic Squid will verify the Host: header and any traffic which
2106# fails Host verification will be treated as if this option were ON.
2107#
2108# see host_verify_strict for details on the verification process.
2109#Default:
2110# client_dst_passthru on
2111
2112# SSL OPTIONS
2113# -----------------------------------------------------------------------------
2114
2115# TAG: ssl_unclean_shutdown
2116# Note: This option is only available if Squid is rebuilt with the
2117# --with-openssl
2118#
2119# Some browsers (especially MSIE) bugs out on SSL shutdown
2120# messages.
2121#Default:
2122# ssl_unclean_shutdown off
2123
2124# TAG: ssl_engine
2125# Note: This option is only available if Squid is rebuilt with the
2126# --with-openssl
2127#
2128# The OpenSSL engine to use. You will need to set this if you
2129# would like to use hardware SSL acceleration for example.
2130#Default:
2131# none
2132
2133# TAG: sslproxy_client_certificate
2134# Note: This option is only available if Squid is rebuilt with the
2135# --with-openssl
2136#
2137# Client SSL Certificate to use when proxying https:// URLs
2138#Default:
2139# none
2140
2141# TAG: sslproxy_client_key
2142# Note: This option is only available if Squid is rebuilt with the
2143# --with-openssl
2144#
2145# Client SSL Key to use when proxying https:// URLs
2146#Default:
2147# none
2148
2149# TAG: sslproxy_version
2150# Note: This option is only available if Squid is rebuilt with the
2151# --with-openssl
2152#
2153# SSL version level to use when proxying https:// URLs
2154#
2155# The versions of SSL/TLS supported:
2156#
2157# 1 automatic (default)
2158# 2 SSLv2 only
2159# 3 SSLv3 only
2160# 4 TLSv1.0 only
2161# 5 TLSv1.1 only
2162# 6 TLSv1.2 only
2163#Default:
2164# automatic SSL/TLS version negotiation
2165
2166# TAG: sslproxy_options
2167# Note: This option is only available if Squid is rebuilt with the
2168# --with-openssl
2169#
2170# Colon (:) or comma (,) separated list of SSL implementation options
2171# to use when proxying https:// URLs
2172#
2173# The most important being:
2174#
2175# NO_SSLv2 Disallow the use of SSLv2
2176# NO_SSLv3 Disallow the use of SSLv3
2177# NO_TLSv1 Disallow the use of TLSv1.0
2178# NO_TLSv1_1 Disallow the use of TLSv1.1
2179# NO_TLSv1_2 Disallow the use of TLSv1.2
2180#
2181# SINGLE_DH_USE
2182# Always create a new key when using temporary/ephemeral
2183# DH key exchanges
2184#
2185# NO_TICKET
2186# Disable use of RFC5077 session tickets. Some servers
2187# may have problems understanding the TLS extension due
2188# to ambiguous specification in RFC4507.
2189#
2190# ALL Enable various bug workarounds suggested as "harmless"
2191# by OpenSSL. Be warned that this may reduce SSL/TLS
2192# strength to some attacks.
2193#
2194# See the OpenSSL SSL_CTX_set_options documentation for a
2195# complete list of possible options.
2196#
2197# WARNING: This directive takes a single token. If a space is used
2198# the value(s) after that space are SILENTLY IGNORED.
2199#Default:
2200# none
2201
2202# TAG: sslproxy_cipher
2203# Note: This option is only available if Squid is rebuilt with the
2204# --with-openssl
2205#
2206# SSL cipher list to use when proxying https:// URLs
2207#
2208# Colon separated list of supported ciphers.
2209#Default:
2210# none
2211
2212# TAG: sslproxy_cafile
2213# Note: This option is only available if Squid is rebuilt with the
2214# --with-openssl
2215#
2216# file containing CA certificates to use when verifying server
2217# certificates while proxying https:// URLs
2218#Default:
2219# none
2220
2221# TAG: sslproxy_capath
2222# Note: This option is only available if Squid is rebuilt with the
2223# --with-openssl
2224#
2225# directory containing CA certificates to use when verifying
2226# server certificates while proxying https:// URLs
2227#Default:
2228# none
2229
2230# TAG: sslproxy_session_ttl
2231# Note: This option is only available if Squid is rebuilt with the
2232# --with-openssl
2233#
2234# Sets the timeout value for SSL sessions
2235#Default:
2236# sslproxy_session_ttl 300
2237
2238# TAG: sslproxy_session_cache_size
2239# Note: This option is only available if Squid is rebuilt with the
2240# --with-openssl
2241#
2242# Sets the cache size to use for ssl session
2243#Default:
2244# sslproxy_session_cache_size 2 MB
2245
2246# TAG: sslproxy_foreign_intermediate_certs
2247# Note: This option is only available if Squid is rebuilt with the
2248# --with-openssl
2249#
2250# Many origin servers fail to send their full server certificate
2251# chain for verification, assuming the client already has or can
2252# easily locate any missing intermediate certificates.
2253#
2254# Squid uses the certificates from the specified file to fill in
2255# these missing chains when trying to validate origin server
2256# certificate chains.
2257#
2258# The file is expected to contain zero or more PEM-encoded
2259# intermediate certificates. These certificates are not treated
2260# as trusted root certificates, and any self-signed certificate in
2261# this file will be ignored.
2262#Default:
2263# none
2264
2265# TAG: sslproxy_cert_sign_hash
2266# Note: This option is only available if Squid is rebuilt with the
2267# --with-openssl
2268#
2269# Sets the hashing algorithm to use when signing generated certificates.
2270# Valid algorithm names depend on the OpenSSL library used. The following
2271# names are usually available: sha1, sha256, sha512, and md5. Please see
2272# your OpenSSL library manual for the available hashes. By default, Squids
2273# that support this option use sha256 hashes.
2274#
2275# Squid does not forcefully purge cached certificates that were generated
2276# with an algorithm other than the currently configured one. They remain
2277# in the cache, subject to the regular cache eviction policy, and become
2278# useful if the algorithm changes again.
2279#Default:
2280# none
2281
2282# TAG: ssl_bump
2283# Note: This option is only available if Squid is rebuilt with the
2284# --with-openssl
2285#
2286# This option is consulted when a CONNECT request is received on
2287# an http_port (or a new connection is intercepted at an
2288# https_port), provided that port was configured with an ssl-bump
2289# flag. The subsequent data on the connection is either treated as
2290# HTTPS and decrypted OR tunneled at TCP level without decryption,
2291# depending on the first matching bumping "action".
2292#
2293# ssl_bump <action> [!]acl ...
2294#
2295# The following bumping actions are currently supported:
2296#
2297# splice
2298# Become a TCP tunnel without decrypting proxied traffic.
2299# This is the default action.
2300#
2301# bump
2302# When used on step SslBump1, establishes a secure connection
2303# with the client first, then connect to the server.
2304# When used on step SslBump2 or SslBump3, establishes a secure
2305# connection with the server and, using a mimicked server
2306# certificate, with the client.
2307#
2308# peek
2309# Receive client (step SslBump1) or server (step SslBump2)
2310# certificate while preserving the possibility of splicing the
2311# connection. Peeking at the server certificate (during step 2)
2312# usually precludes bumping of the connection at step 3.
2313#
2314# stare
2315# Receive client (step SslBump1) or server (step SslBump2)
2316# certificate while preserving the possibility of bumping the
2317# connection. Staring at the server certificate (during step 2)
2318# usually precludes splicing of the connection at step 3.
2319#
2320# terminate
2321# Close client and server connections.
2322#
2323# Backward compatibility actions available at step SslBump1:
2324#
2325# client-first
2326# Bump the connection. Establish a secure connection with the
2327# client first, then connect to the server. This old mode does
2328# not allow Squid to mimic server SSL certificate and does not
2329# work with intercepted SSL connections.
2330#
2331# server-first
2332# Bump the connection. Establish a secure connection with the
2333# server first, then establish a secure connection with the
2334# client, using a mimicked server certificate. Works with both
2335# CONNECT requests and intercepted SSL connections, but does
2336# not allow to make decisions based on SSL handshake info.
2337#
2338# peek-and-splice
2339# Decide whether to bump or splice the connection based on
2340# client-to-squid and server-to-squid SSL hello messages.
2341# XXX: Remove.
2342#
2343# none
2344# Same as the "splice" action.
2345#
2346# All ssl_bump rules are evaluated at each of the supported bumping
2347# steps. Rules with actions that are impossible at the current step are
2348# ignored. The first matching ssl_bump action wins and is applied at the
2349# end of the current step. If no rules match, the splice action is used.
2350# See the at_step ACL for a list of the supported SslBump steps.
2351#
2352# This clause supports both fast and slow acl types.
2353# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
2354#
2355# See also: http_port ssl-bump, https_port ssl-bump, and acl at_step.
2356#
2357#
2358# # Example: Bump all TLS connections except those originating from
2359# # localhost or those going to example.com.
2360#
2361# acl broken_sites ssl::server_name .example.com
2362# ssl_bump splice localhost
2363# ssl_bump splice broken_sites
2364# ssl_bump bump all
2365#Default:
2366# Become a TCP tunnel without decrypting proxied traffic.
2367
2368# TAG: sslproxy_flags
2369# Note: This option is only available if Squid is rebuilt with the
2370# --with-openssl
2371#
2372# Various flags modifying the use of SSL while proxying https:// URLs:
2373# DONT_VERIFY_PEER Accept certificates that fail verification.
2374# For refined control, see sslproxy_cert_error.
2375# NO_DEFAULT_CA Don't use the default CA list built in
2376# to OpenSSL.
2377#Default:
2378# none
2379
2380# TAG: sslproxy_cert_error
2381# Note: This option is only available if Squid is rebuilt with the
2382# --with-openssl
2383#
2384# Use this ACL to bypass server certificate validation errors.
2385#
2386# For example, the following lines will bypass all validation errors
2387# when talking to servers for example.com. All other
2388# validation errors will result in ERR_SECURE_CONNECT_FAIL error.
2389#
2390# acl BrokenButTrustedServers dstdomain example.com
2391# sslproxy_cert_error allow BrokenButTrustedServers
2392# sslproxy_cert_error deny all
2393#
2394# This clause only supports fast acl types.
2395# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
2396# Using slow acl types may result in server crashes
2397#
2398# Without this option, all server certificate validation errors
2399# terminate the transaction to protect Squid and the client.
2400#
2401# SQUID_X509_V_ERR_INFINITE_VALIDATION error cannot be bypassed
2402# but should not happen unless your OpenSSL library is buggy.
2403#
2404# SECURITY WARNING:
2405# Bypassing validation errors is dangerous because an
2406# error usually implies that the server cannot be trusted
2407# and the connection may be insecure.
2408#
2409# See also: sslproxy_flags and DONT_VERIFY_PEER.
2410#Default:
2411# Server certificate errors terminate the transaction.
2412
2413# TAG: sslproxy_cert_sign
2414# Note: This option is only available if Squid is rebuilt with the
2415# --with-openssl
2416#
2417#
2418# sslproxy_cert_sign <signing algorithm> acl ...
2419#
2420# The following certificate signing algorithms are supported:
2421#
2422# signTrusted
2423# Sign using the configured CA certificate which is usually
2424# placed in and trusted by end-user browsers. This is the
2425# default for trusted origin server certificates.
2426#
2427# signUntrusted
2428# Sign to guarantee an X509_V_ERR_CERT_UNTRUSTED browser error.
2429# This is the default for untrusted origin server certificates
2430# that are not self-signed (see ssl::certUntrusted).
2431#
2432# signSelf
2433# Sign using a self-signed certificate with the right CN to
2434# generate a X509_V_ERR_DEPTH_ZERO_SELF_SIGNED_CERT error in the
2435# browser. This is the default for self-signed origin server
2436# certificates (see ssl::certSelfSigned).
2437#
2438# This clause only supports fast acl types.
2439#
2440# When sslproxy_cert_sign acl(s) match, Squid uses the corresponding
2441# signing algorithm to generate the certificate and ignores all
2442# subsequent sslproxy_cert_sign options (the first match wins). If no
2443# acl(s) match, the default signing algorithm is determined by errors
2444# detected when obtaining and validating the origin server certificate.
2445#
2446# WARNING: SQUID_X509_V_ERR_DOMAIN_MISMATCH and ssl:certDomainMismatch can
2447# be used with sslproxy_cert_adapt, but if and only if Squid is bumping a
2448# CONNECT request that carries a domain name. In all other cases (CONNECT
2449# to an IP address or an intercepted SSL connection), Squid cannot detect
2450# the domain mismatch at certificate generation time when
2451# bump-server-first is used.
2452#Default:
2453# none
2454
2455# TAG: sslproxy_cert_adapt
2456# Note: This option is only available if Squid is rebuilt with the
2457# --with-openssl
2458#
2459#
2460# sslproxy_cert_adapt <adaptation algorithm> acl ...
2461#
2462# The following certificate adaptation algorithms are supported:
2463#
2464# setValidAfter
2465# Sets the "Not After" property to the "Not After" property of
2466# the CA certificate used to sign generated certificates.
2467#
2468# setValidBefore
2469# Sets the "Not Before" property to the "Not Before" property of
2470# the CA certificate used to sign generated certificates.
2471#
2472# setCommonName or setCommonName{CN}
2473# Sets Subject.CN property to the host name specified as a
2474# CN parameter or, if no explicit CN parameter was specified,
2475# extracted from the CONNECT request. It is a misconfiguration
2476# to use setCommonName without an explicit parameter for
2477# intercepted or tproxied SSL connections.
2478#
2479# This clause only supports fast acl types.
2480#
2481# Squid first groups sslproxy_cert_adapt options by adaptation algorithm.
2482# Within a group, when sslproxy_cert_adapt acl(s) match, Squid uses the
2483# corresponding adaptation algorithm to generate the certificate and
2484# ignores all subsequent sslproxy_cert_adapt options in that algorithm's
2485# group (i.e., the first match wins within each algorithm group). If no
2486# acl(s) match, the default mimicking action takes place.
2487#
2488# WARNING: SQUID_X509_V_ERR_DOMAIN_MISMATCH and ssl:certDomainMismatch can
2489# be used with sslproxy_cert_adapt, but if and only if Squid is bumping a
2490# CONNECT request that carries a domain name. In all other cases (CONNECT
2491# to an IP address or an intercepted SSL connection), Squid cannot detect
2492# the domain mismatch at certificate generation time when
2493# bump-server-first is used.
2494#Default:
2495# none
2496
2497# TAG: sslpassword_program
2498# Note: This option is only available if Squid is rebuilt with the
2499# --with-openssl
2500#
2501# Specify a program used for entering SSL key passphrases
2502# when using encrypted SSL certificate keys. If not specified
2503# keys must either be unencrypted, or Squid started with the -N
2504# option to allow it to query interactively for the passphrase.
2505#
2506# The key file name is given as argument to the program allowing
2507# selection of the right password if you have multiple encrypted
2508# keys.
2509#Default:
2510# none
2511
2512# OPTIONS RELATING TO EXTERNAL SSL_CRTD
2513# -----------------------------------------------------------------------------
2514
2515# TAG: sslcrtd_program
2516# Note: This option is only available if Squid is rebuilt with the
2517# --enable-ssl-crtd
2518#
2519# Specify the location and options of the executable for ssl_crtd process.
2520# /usr/lib/squid/ssl_crtd program requires -s and -M parameters
2521# For more information use:
2522# /usr/lib/squid/ssl_crtd -h
2523#Default:
2524# sslcrtd_program /usr/lib/squid/ssl_crtd -s /var/lib/ssl_db -M 4MB
2525
2526# TAG: sslcrtd_children
2527# Note: This option is only available if Squid is rebuilt with the
2528# --enable-ssl-crtd
2529#
2530# The maximum number of processes spawn to service ssl server.
2531# The maximum this may be safely set to is 32.
2532#
2533# The startup= and idle= options allow some measure of skew in your
2534# tuning.
2535#
2536# startup=N
2537#
2538# Sets the minimum number of processes to spawn when Squid
2539# starts or reconfigures. When set to zero the first request will
2540# cause spawning of the first child process to handle it.
2541#
2542# Starting too few children temporary slows Squid under load while it
2543# tries to spawn enough additional processes to cope with traffic.
2544#
2545# idle=N
2546#
2547# Sets a minimum of how many processes Squid is to try and keep available
2548# at all times. When traffic begins to rise above what the existing
2549# processes can handle this many more will be spawned up to the maximum
2550# configured. A minimum setting of 1 is required.
2551#
2552# You must have at least one ssl_crtd process.
2553#Default:
2554# sslcrtd_children 32 startup=5 idle=1
2555
2556# TAG: sslcrtvalidator_program
2557# Note: This option is only available if Squid is rebuilt with the
2558# --with-openssl
2559#
2560# Specify the location and options of the executable for ssl_crt_validator
2561# process.
2562#
2563# Usage: sslcrtvalidator_program [ttl=n] [cache=n] path ...
2564#
2565# Options:
2566# ttl=n TTL in seconds for cached results. The default is 60 secs
2567# cache=n limit the result cache size. The default value is 2048
2568#Default:
2569# none
2570
2571# TAG: sslcrtvalidator_children
2572# Note: This option is only available if Squid is rebuilt with the
2573# --with-openssl
2574#
2575# The maximum number of processes spawn to service SSL server.
2576# The maximum this may be safely set to is 32.
2577#
2578# The startup= and idle= options allow some measure of skew in your
2579# tuning.
2580#
2581# startup=N
2582#
2583# Sets the minimum number of processes to spawn when Squid
2584# starts or reconfigures. When set to zero the first request will
2585# cause spawning of the first child process to handle it.
2586#
2587# Starting too few children temporary slows Squid under load while it
2588# tries to spawn enough additional processes to cope with traffic.
2589#
2590# idle=N
2591#
2592# Sets a minimum of how many processes Squid is to try and keep available
2593# at all times. When traffic begins to rise above what the existing
2594# processes can handle this many more will be spawned up to the maximum
2595# configured. A minimum setting of 1 is required.
2596#
2597# concurrency=
2598#
2599# The number of requests each certificate validator helper can handle in
2600# parallel. A value of 0 indicates the certficate validator does not
2601# support concurrency. Defaults to 1.
2602#
2603# When this directive is set to a value >= 1 then the protocol
2604# used to communicate with the helper is modified to include
2605# a request ID in front of the request/response. The request
2606# ID from the request must be echoed back with the response
2607# to that request.
2608#
2609# You must have at least one ssl_crt_validator process.
2610#Default:
2611# sslcrtvalidator_children 32 startup=5 idle=1 concurrency=1
2612
2613# OPTIONS WHICH AFFECT THE NEIGHBOR SELECTION ALGORITHM
2614# -----------------------------------------------------------------------------
2615
2616# TAG: cache_peer
2617# To specify other caches in a hierarchy, use the format:
2618#
2619# cache_peer hostname type http-port icp-port [options]
2620#
2621# For example,
2622#
2623# # proxy icp
2624# # hostname type port port options
2625# # -------------------- -------- ----- ----- -----------
2626# cache_peer parent.foo.net parent 3128 3130 default
2627# cache_peer sib1.foo.net sibling 3128 3130 proxy-only
2628# cache_peer sib2.foo.net sibling 3128 3130 proxy-only
2629# cache_peer example.com parent 80 0 default
2630# cache_peer cdn.example.com sibling 3128 0
2631#
2632# type: either 'parent', 'sibling', or 'multicast'.
2633#
2634# proxy-port: The port number where the peer accept HTTP requests.
2635# For other Squid proxies this is usually 3128
2636# For web servers this is usually 80
2637#
2638# icp-port: Used for querying neighbor caches about objects.
2639# Set to 0 if the peer does not support ICP or HTCP.
2640# See ICP and HTCP options below for additional details.
2641#
2642#
2643# ==== ICP OPTIONS ====
2644#
2645# You MUST also set icp_port and icp_access explicitly when using these options.
2646# The defaults will prevent peer traffic using ICP.
2647#
2648#
2649# no-query Disable ICP queries to this neighbor.
2650#
2651# multicast-responder
2652# Indicates the named peer is a member of a multicast group.
2653# ICP queries will not be sent directly to the peer, but ICP
2654# replies will be accepted from it.
2655#
2656# closest-only Indicates that, for ICP_OP_MISS replies, we'll only forward
2657# CLOSEST_PARENT_MISSes and never FIRST_PARENT_MISSes.
2658#
2659# background-ping
2660# To only send ICP queries to this neighbor infrequently.
2661# This is used to keep the neighbor round trip time updated
2662# and is usually used in conjunction with weighted-round-robin.
2663#
2664#
2665# ==== HTCP OPTIONS ====
2666#
2667# You MUST also set htcp_port and htcp_access explicitly when using these options.
2668# The defaults will prevent peer traffic using HTCP.
2669#
2670#
2671# htcp Send HTCP, instead of ICP, queries to the neighbor.
2672# You probably also want to set the "icp-port" to 4827
2673# instead of 3130. This directive accepts a comma separated
2674# list of options described below.
2675#
2676# htcp=oldsquid Send HTCP to old Squid versions (2.5 or earlier).
2677#
2678# htcp=no-clr Send HTCP to the neighbor but without
2679# sending any CLR requests. This cannot be used with
2680# only-clr.
2681#
2682# htcp=only-clr Send HTCP to the neighbor but ONLY CLR requests.
2683# This cannot be used with no-clr.
2684#
2685# htcp=no-purge-clr
2686# Send HTCP to the neighbor including CLRs but only when
2687# they do not result from PURGE requests.
2688#
2689# htcp=forward-clr
2690# Forward any HTCP CLR requests this proxy receives to the peer.
2691#
2692#
2693# ==== PEER SELECTION METHODS ====
2694#
2695# The default peer selection method is ICP, with the first responding peer
2696# being used as source. These options can be used for better load balancing.
2697#
2698#
2699# default This is a parent cache which can be used as a "last-resort"
2700# if a peer cannot be located by any of the peer-selection methods.
2701# If specified more than once, only the first is used.
2702#
2703# round-robin Load-Balance parents which should be used in a round-robin
2704# fashion in the absence of any ICP queries.
2705# weight=N can be used to add bias.
2706#
2707# weighted-round-robin
2708# Load-Balance parents which should be used in a round-robin
2709# fashion with the frequency of each parent being based on the
2710# round trip time. Closer parents are used more often.
2711# Usually used for background-ping parents.
2712# weight=N can be used to add bias.
2713#
2714# carp Load-Balance parents which should be used as a CARP array.
2715# The requests will be distributed among the parents based on the
2716# CARP load balancing hash function based on their weight.
2717#
2718# userhash Load-balance parents based on the client proxy_auth or ident username.
2719#
2720# sourcehash Load-balance parents based on the client source IP.
2721#
2722# multicast-siblings
2723# To be used only for cache peers of type "multicast".
2724# ALL members of this multicast group have "sibling"
2725# relationship with it, not "parent". This is to a multicast
2726# group when the requested object would be fetched only from
2727# a "parent" cache, anyway. It's useful, e.g., when
2728# configuring a pool of redundant Squid proxies, being
2729# members of the same multicast group.
2730#
2731#
2732# ==== PEER SELECTION OPTIONS ====
2733#
2734# weight=N use to affect the selection of a peer during any weighted
2735# peer-selection mechanisms.
2736# The weight must be an integer; default is 1,
2737# larger weights are favored more.
2738# This option does not affect parent selection if a peering
2739# protocol is not in use.
2740#
2741# basetime=N Specify a base amount to be subtracted from round trip
2742# times of parents.
2743# It is subtracted before division by weight in calculating
2744# which parent to fectch from. If the rtt is less than the
2745# base time the rtt is set to a minimal value.
2746#
2747# ttl=N Specify a TTL to use when sending multicast ICP queries
2748# to this address.
2749# Only useful when sending to a multicast group.
2750# Because we don't accept ICP replies from random
2751# hosts, you must configure other group members as
2752# peers with the 'multicast-responder' option.
2753#
2754# no-delay To prevent access to this neighbor from influencing the
2755# delay pools.
2756#
2757# digest-url=URL Tell Squid to fetch the cache digest (if digests are
2758# enabled) for this host from the specified URL rather
2759# than the Squid default location.
2760#
2761#
2762# ==== CARP OPTIONS ====
2763#
2764# carp-key=key-specification
2765# use a different key than the full URL to hash against the peer.
2766# the key-specification is a comma-separated list of the keywords
2767# scheme, host, port, path, params
2768# Order is not important.
2769#
2770# ==== ACCELERATOR / REVERSE-PROXY OPTIONS ====
2771#
2772# originserver Causes this parent to be contacted as an origin server.
2773# Meant to be used in accelerator setups when the peer
2774# is a web server.
2775#
2776# forceddomain=name
2777# Set the Host header of requests forwarded to this peer.
2778# Useful in accelerator setups where the server (peer)
2779# expects a certain domain name but clients may request
2780# others. ie example.com or www.example.com
2781#
2782# no-digest Disable request of cache digests.
2783#
2784# no-netdb-exchange
2785# Disables requesting ICMP RTT database (NetDB).
2786#
2787#
2788# ==== AUTHENTICATION OPTIONS ====
2789#
2790# login=user:password
2791# If this is a personal/workgroup proxy and your parent
2792# requires proxy authentication.
2793#
2794# Note: The string can include URL escapes (i.e. %20 for
2795# spaces). This also means % must be written as %%.
2796#
2797# login=PASSTHRU
2798# Send login details received from client to this peer.
2799# Both Proxy- and WWW-Authorization headers are passed
2800# without alteration to the peer.
2801# Authentication is not required by Squid for this to work.
2802#
2803# Note: This will pass any form of authentication but
2804# only Basic auth will work through a proxy unless the
2805# connection-auth options are also used.
2806#
2807# login=PASS Send login details received from client to this peer.
2808# Authentication is not required by this option.
2809#
2810# If there are no client-provided authentication headers
2811# to pass on, but username and password are available
2812# from an external ACL user= and password= result tags
2813# they may be sent instead.
2814#
2815# Note: To combine this with proxy_auth both proxies must
2816# share the same user database as HTTP only allows for
2817# a single login (one for proxy, one for origin server).
2818# Also be warned this will expose your users proxy
2819# password to the peer. USE WITH CAUTION
2820#
2821# login=*:password
2822# Send the username to the upstream cache, but with a
2823# fixed password. This is meant to be used when the peer
2824# is in another administrative domain, but it is still
2825# needed to identify each user.
2826# The star can optionally be followed by some extra
2827# information which is added to the username. This can
2828# be used to identify this proxy to the peer, similar to
2829# the login=username:password option above.
2830#
2831# login=NEGOTIATE
2832# If this is a personal/workgroup proxy and your parent
2833# requires a secure proxy authentication.
2834# The first principal from the default keytab or defined by
2835# the environment variable KRB5_KTNAME will be used.
2836#
2837# WARNING: The connection may transmit requests from multiple
2838# clients. Negotiate often assumes end-to-end authentication
2839# and a single-client. Which is not strictly true here.
2840#
2841# login=NEGOTIATE:principal_name
2842# If this is a personal/workgroup proxy and your parent
2843# requires a secure proxy authentication.
2844# The principal principal_name from the default keytab or
2845# defined by the environment variable KRB5_KTNAME will be
2846# used.
2847#
2848# WARNING: The connection may transmit requests from multiple
2849# clients. Negotiate often assumes end-to-end authentication
2850# and a single-client. Which is not strictly true here.
2851#
2852# connection-auth=on|off
2853# Tell Squid that this peer does or not support Microsoft
2854# connection oriented authentication, and any such
2855# challenges received from there should be ignored.
2856# Default is auto to automatically determine the status
2857# of the peer.
2858#
2859#
2860# ==== SSL / HTTPS / TLS OPTIONS ====
2861#
2862# ssl Encrypt connections to this peer with SSL/TLS.
2863#
2864# sslcert=/path/to/ssl/certificate
2865# A client SSL certificate to use when connecting to
2866# this peer.
2867#
2868# sslkey=/path/to/ssl/key
2869# The private SSL key corresponding to sslcert above.
2870# If 'sslkey' is not specified 'sslcert' is assumed to
2871# reference a combined file containing both the
2872# certificate and the key.
2873#
2874# Notes:
2875#
2876# On Debian/Ubuntu systems a default snakeoil certificate is
2877# available in /etc/ssl and users can set:
2878#
2879# cert=/etc/ssl/certs/ssl-cert-snakeoil.pem
2880#
2881# and
2882#
2883# key=/etc/ssl/private/ssl-cert-snakeoil.key
2884#
2885# for testing.
2886#
2887# sslversion=1|2|3|4|5|6
2888# The SSL version to use when connecting to this peer
2889# 1 = automatic (default)
2890# 2 = SSL v2 only
2891# 3 = SSL v3 only
2892# 4 = TLS v1.0 only
2893# 5 = TLS v1.1 only
2894# 6 = TLS v1.2 only
2895#
2896# sslcipher=... The list of valid SSL ciphers to use when connecting
2897# to this peer.
2898#
2899# ssloptions=... Specify various SSL implementation options:
2900#
2901# NO_SSLv2 Disallow the use of SSLv2
2902# NO_SSLv3 Disallow the use of SSLv3
2903# NO_TLSv1 Disallow the use of TLSv1.0
2904# NO_TLSv1_1 Disallow the use of TLSv1.1
2905# NO_TLSv1_2 Disallow the use of TLSv1.2
2906#
2907# SINGLE_DH_USE
2908# Always create a new key when using
2909# temporary/ephemeral DH key exchanges
2910#
2911# NO_TICKET
2912# Disable use of RFC5077 session tickets. Some servers
2913# may have problems understanding the TLS extension due
2914# to ambiguous specification in RFC4507.
2915#
2916# ALL Enable various bug workarounds
2917# suggested as "harmless" by OpenSSL
2918# Be warned that this reduces SSL/TLS
2919# strength to some attacks.
2920#
2921# See the OpenSSL SSL_CTX_set_options documentation for a
2922# more complete list.
2923#
2924# sslcafile=... A file containing additional CA certificates to use
2925# when verifying the peer certificate.
2926#
2927# sslcapath=... A directory containing additional CA certificates to
2928# use when verifying the peer certificate.
2929#
2930# sslcrlfile=... A certificate revocation list file to use when
2931# verifying the peer certificate.
2932#
2933# sslflags=... Specify various flags modifying the SSL implementation:
2934#
2935# DONT_VERIFY_PEER
2936# Accept certificates even if they fail to
2937# verify.
2938# NO_DEFAULT_CA
2939# Don't use the default CA list built in
2940# to OpenSSL.
2941# DONT_VERIFY_DOMAIN
2942# Don't verify the peer certificate
2943# matches the server name
2944#
2945# ssldomain= The peer name as advertised in it's certificate.
2946# Used for verifying the correctness of the received peer
2947# certificate. If not specified the peer hostname will be
2948# used.
2949#
2950# front-end-https
2951# Enable the "Front-End-Https: On" header needed when
2952# using Squid as a SSL frontend in front of Microsoft OWA.
2953# See MS KB document Q307347 for details on this header.
2954# If set to auto the header will only be added if the
2955# request is forwarded as a https:// URL.
2956#
2957#
2958# ==== GENERAL OPTIONS ====
2959#
2960# connect-timeout=N
2961# A peer-specific connect timeout.
2962# Also see the peer_connect_timeout directive.
2963#
2964# connect-fail-limit=N
2965# How many times connecting to a peer must fail before
2966# it is marked as down. Standby connection failures
2967# count towards this limit. Default is 10.
2968#
2969# allow-miss Disable Squid's use of only-if-cached when forwarding
2970# requests to siblings. This is primarily useful when
2971# icp_hit_stale is used by the sibling. Excessive use
2972# of this option may result in forwarding loops. One way
2973# to prevent peering loops when using this option, is to
2974# deny cache peer usage on requests from a peer:
2975# acl fromPeer ...
2976# cache_peer_access peerName deny fromPeer
2977#
2978# max-conn=N Limit the number of concurrent connections the Squid
2979# may open to this peer, including already opened idle
2980# and standby connections. There is no peer-specific
2981# connection limit by default.
2982#
2983# A peer exceeding the limit is not used for new
2984# requests unless a standby connection is available.
2985#
2986# max-conn currently works poorly with idle persistent
2987# connections: When a peer reaches its max-conn limit,
2988# and there are idle persistent connections to the peer,
2989# the peer may not be selected because the limiting code
2990# does not know whether Squid can reuse those idle
2991# connections.
2992#
2993# standby=N Maintain a pool of N "hot standby" connections to an
2994# UP peer, available for requests when no idle
2995# persistent connection is available (or safe) to use.
2996# By default and with zero N, no such pool is maintained.
2997# N must not exceed the max-conn limit (if any).
2998#
2999# At start or after reconfiguration, Squid opens new TCP
3000# standby connections until there are N connections
3001# available and then replenishes the standby pool as
3002# opened connections are used up for requests. A used
3003# connection never goes back to the standby pool, but
3004# may go to the regular idle persistent connection pool
3005# shared by all peers and origin servers.
3006#
3007# Squid never opens multiple new standby connections
3008# concurrently. This one-at-a-time approach minimizes
3009# flooding-like effect on peers. Furthermore, just a few
3010# standby connections should be sufficient in most cases
3011# to supply most new requests with a ready-to-use
3012# connection.
3013#
3014# Standby connections obey server_idle_pconn_timeout.
3015# For the feature to work as intended, the peer must be
3016# configured to accept and keep them open longer than
3017# the idle timeout at the connecting Squid, to minimize
3018# race conditions typical to idle used persistent
3019# connections. Default request_timeout and
3020# server_idle_pconn_timeout values ensure such a
3021# configuration.
3022#
3023# name=xxx Unique name for the peer.
3024# Required if you have multiple peers on the same host
3025# but different ports.
3026# This name can be used in cache_peer_access and similar
3027# directives to identify the peer.
3028# Can be used by outgoing access controls through the
3029# peername ACL type.
3030#
3031# no-tproxy Do not use the client-spoof TPROXY support when forwarding
3032# requests to this peer. Use normal address selection instead.
3033# This overrides the spoof_client_ip ACL.
3034#
3035# proxy-only objects fetched from the peer will not be stored locally.
3036#
3037#Default:
3038# none
3039
3040# TAG: cache_peer_domain
3041# Use to limit the domains for which a neighbor cache will be
3042# queried.
3043#
3044# Usage:
3045# cache_peer_domain cache-host domain [domain ...]
3046# cache_peer_domain cache-host !domain
3047#
3048# For example, specifying
3049#
3050# cache_peer_domain parent.foo.net .edu
3051#
3052# has the effect such that UDP query packets are sent to
3053# 'bigserver' only when the requested object exists on a
3054# server in the .edu domain. Prefixing the domainname
3055# with '!' means the cache will be queried for objects
3056# NOT in that domain.
3057#
3058# NOTE: * Any number of domains may be given for a cache-host,
3059# either on the same or separate lines.
3060# * When multiple domains are given for a particular
3061# cache-host, the first matched domain is applied.
3062# * Cache hosts with no domain restrictions are queried
3063# for all requests.
3064# * There are no defaults.
3065# * There is also a 'cache_peer_access' tag in the ACL
3066# section.
3067#Default:
3068# none
3069
3070# TAG: cache_peer_access
3071# Restricts usage of cache_peer proxies.
3072#
3073# Usage:
3074# cache_peer_access peer-name allow|deny [!]aclname ...
3075#
3076# For the required peer-name parameter, use either the value of the
3077# cache_peer name=value parameter or, if name=value is missing, the
3078# cache_peer hostname parameter.
3079#
3080# This directive narrows down the selection of peering candidates, but
3081# does not determine the order in which the selected candidates are
3082# contacted. That order is determined by the peer selection algorithms
3083# (see PEER SELECTION sections in the cache_peer documentation).
3084#
3085# If a deny rule matches, the corresponding peer will not be contacted
3086# for the current transaction -- Squid will not send ICP queries and
3087# will not forward HTTP requests to that peer. An allow match leaves
3088# the corresponding peer in the selection. The first match for a given
3089# peer wins for that peer.
3090#
3091# The relative order of cache_peer_access directives for the same peer
3092# matters. The relative order of any two cache_peer_access directives
3093# for different peers does not matter. To ease interpretation, it is a
3094# good idea to group cache_peer_access directives for the same peer
3095# together.
3096#
3097# A single cache_peer_access directive may be evaluated multiple times
3098# for a given transaction because individual peer selection algorithms
3099# may check it independently from each other. These redundant checks
3100# may be optimized away in future Squid versions.
3101#
3102# This clause only supports fast acl types.
3103# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
3104#Default:
3105# No peer usage restrictions.
3106
3107# TAG: neighbor_type_domain
3108# Modify the cache_peer neighbor type when passing requests
3109# about specific domains to the peer.
3110#
3111# Usage:
3112# neighbor_type_domain neighbor parent|sibling domain domain ...
3113#
3114# For example:
3115# cache_peer foo.example.com parent 3128 3130
3116# neighbor_type_domain foo.example.com sibling .au .de
3117#
3118# The above configuration treats all requests to foo.example.com as a
3119# parent proxy unless the request is for a .au or .de ccTLD domain name.
3120#Default:
3121# The peer type from cache_peer directive is used for all requests to that peer.
3122
3123# TAG: dead_peer_timeout (seconds)
3124# This controls how long Squid waits to declare a peer cache
3125# as "dead." If there are no ICP replies received in this
3126# amount of time, Squid will declare the peer dead and not
3127# expect to receive any further ICP replies. However, it
3128# continues to send ICP queries, and will mark the peer as
3129# alive upon receipt of the first subsequent ICP reply.
3130#
3131# This timeout also affects when Squid expects to receive ICP
3132# replies from peers. If more than 'dead_peer' seconds have
3133# passed since the last ICP reply was received, Squid will not
3134# expect to receive an ICP reply on the next query. Thus, if
3135# your time between requests is greater than this timeout, you
3136# will see a lot of requests sent DIRECT to origin servers
3137# instead of to your parents.
3138#Default:
3139# dead_peer_timeout 10 seconds
3140
3141# TAG: forward_max_tries
3142# Controls how many different forward paths Squid will try
3143# before giving up. See also forward_timeout.
3144#
3145# NOTE: connect_retries (default: none) can make each of these
3146# possible forwarding paths be tried multiple times.
3147#Default:
3148# forward_max_tries 25
3149
3150# MEMORY CACHE OPTIONS
3151# -----------------------------------------------------------------------------
3152
3153# TAG: cache_mem (bytes)
3154# NOTE: THIS PARAMETER DOES NOT SPECIFY THE MAXIMUM PROCESS SIZE.
3155# IT ONLY PLACES A LIMIT ON HOW MUCH ADDITIONAL MEMORY SQUID WILL
3156# USE AS A MEMORY CACHE OF OBJECTS. SQUID USES MEMORY FOR OTHER
3157# THINGS AS WELL. SEE THE SQUID FAQ SECTION 8 FOR DETAILS.
3158#
3159# 'cache_mem' specifies the ideal amount of memory to be used
3160# for:
3161# * In-Transit objects
3162# * Hot Objects
3163# * Negative-Cached objects
3164#
3165# Data for these objects are stored in 4 KB blocks. This
3166# parameter specifies the ideal upper limit on the total size of
3167# 4 KB blocks allocated. In-Transit objects take the highest
3168# priority.
3169#
3170# In-transit objects have priority over the others. When
3171# additional space is needed for incoming data, negative-cached
3172# and hot objects will be released. In other words, the
3173# negative-cached and hot objects will fill up any unused space
3174# not needed for in-transit objects.
3175#
3176# If circumstances require, this limit will be exceeded.
3177# Specifically, if your incoming request rate requires more than
3178# 'cache_mem' of memory to hold in-transit objects, Squid will
3179# exceed this limit to satisfy the new requests. When the load
3180# decreases, blocks will be freed until the high-water mark is
3181# reached. Thereafter, blocks will be used to store hot
3182# objects.
3183#
3184# If shared memory caching is enabled, Squid does not use the shared
3185# cache space for in-transit objects, but they still consume as much
3186# local memory as they need. For more details about the shared memory
3187# cache, see memory_cache_shared.
3188#Default:
3189# cache_mem 256 MB
3190
3191# TAG: maximum_object_size_in_memory (bytes)
3192# Objects greater than this size will not be attempted to kept in
3193# the memory cache. This should be set high enough to keep objects
3194# accessed frequently in memory to improve performance whilst low
3195# enough to keep larger objects from hoarding cache_mem.
3196#Default:
3197# maximum_object_size_in_memory 512 KB
3198
3199# TAG: memory_cache_shared on|off
3200# Controls whether the memory cache is shared among SMP workers.
3201#
3202# The shared memory cache is meant to occupy cache_mem bytes and replace
3203# the non-shared memory cache, although some entities may still be
3204# cached locally by workers for now (e.g., internal and in-transit
3205# objects may be served from a local memory cache even if shared memory
3206# caching is enabled).
3207#
3208# By default, the memory cache is shared if and only if all of the
3209# following conditions are satisfied: Squid runs in SMP mode with
3210# multiple workers, cache_mem is positive, and Squid environment
3211# supports required IPC primitives (e.g., POSIX shared memory segments
3212# and GCC-style atomic operations).
3213#
3214# To avoid blocking locks, shared memory uses opportunistic algorithms
3215# that do not guarantee that every cachable entity that could have been
3216# shared among SMP workers will actually be shared.
3217#Default:
3218# "on" where supported if doing memory caching with multiple SMP workers.
3219
3220# TAG: memory_cache_mode
3221# Controls which objects to keep in the memory cache (cache_mem)
3222#
3223# always Keep most recently fetched objects in memory (default)
3224#
3225# disk Only disk cache hits are kept in memory, which means
3226# an object must first be cached on disk and then hit
3227# a second time before cached in memory.
3228#
3229# network Only objects fetched from network is kept in memory
3230#Default:
3231# Keep the most recently fetched objects in memory
3232
3233# TAG: memory_replacement_policy
3234# The memory replacement policy parameter determines which
3235# objects are purged from memory when memory space is needed.
3236#
3237# See cache_replacement_policy for details on algorithms.
3238#Default:
3239# memory_replacement_policy lru
3240
3241# DISK CACHE OPTIONS
3242# -----------------------------------------------------------------------------
3243
3244# TAG: cache_replacement_policy
3245# The cache replacement policy parameter determines which
3246# objects are evicted (replaced) when disk space is needed.
3247#
3248# lru : Squid's original list based LRU policy
3249# heap GDSF : Greedy-Dual Size Frequency
3250# heap LFUDA: Least Frequently Used with Dynamic Aging
3251# heap LRU : LRU policy implemented using a heap
3252#
3253# Applies to any cache_dir lines listed below this directive.
3254#
3255# The LRU policies keeps recently referenced objects.
3256#
3257# The heap GDSF policy optimizes object hit rate by keeping smaller
3258# popular objects in cache so it has a better chance of getting a
3259# hit. It achieves a lower byte hit rate than LFUDA though since
3260# it evicts larger (possibly popular) objects.
3261#
3262# The heap LFUDA policy keeps popular objects in cache regardless of
3263# their size and thus optimizes byte hit rate at the expense of
3264# hit rate since one large, popular object will prevent many
3265# smaller, slightly less popular objects from being cached.
3266#
3267# Both policies utilize a dynamic aging mechanism that prevents
3268# cache pollution that can otherwise occur with frequency-based
3269# replacement policies.
3270#
3271# NOTE: if using the LFUDA replacement policy you should increase
3272# the value of maximum_object_size above its default of 4 MB to
3273# to maximize the potential byte hit rate improvement of LFUDA.
3274#
3275# For more information about the GDSF and LFUDA cache replacement
3276# policies see http://www.hpl.hp.com/techreports/1999/HPL-1999-69.html
3277# and http://fog.hpl.external.hp.com/techreports/98/HPL-98-173.html.
3278#Default:
3279# cache_replacement_policy lru
3280
3281# TAG: minimum_object_size (bytes)
3282# Objects smaller than this size will NOT be saved on disk. The
3283# value is specified in bytes, and the default is 0 KB, which
3284# means all responses can be stored.
3285#Default:
3286# no limit
3287
3288# TAG: maximum_object_size (bytes)
3289# Set the default value for max-size parameter on any cache_dir.
3290# The value is specified in bytes, and the default is 4 MB.
3291#
3292# If you wish to get a high BYTES hit ratio, you should probably
3293# increase this (one 32 MB object hit counts for 3200 10KB
3294# hits).
3295#
3296# If you wish to increase hit ratio more than you want to
3297# save bandwidth you should leave this low.
3298#
3299# NOTE: if using the LFUDA replacement policy you should increase
3300# this value to maximize the byte hit rate improvement of LFUDA!
3301# See cache_replacement_policy for a discussion of this policy.
3302#Default:
3303# maximum_object_size 4 MB
3304
3305# TAG: cache_dir
3306# Format:
3307# cache_dir Type Directory-Name Fs-specific-data [options]
3308#
3309# You can specify multiple cache_dir lines to spread the
3310# cache among different disk partitions.
3311#
3312# Type specifies the kind of storage system to use. Only "ufs"
3313# is built by default. To enable any of the other storage systems
3314# see the --enable-storeio configure option.
3315#
3316# 'Directory' is a top-level directory where cache swap
3317# files will be stored. If you want to use an entire disk
3318# for caching, this can be the mount-point directory.
3319# The directory must exist and be writable by the Squid
3320# process. Squid will NOT create this directory for you.
3321#
3322# In SMP configurations, cache_dir must not precede the workers option
3323# and should use configuration macros or conditionals to give each
3324# worker interested in disk caching a dedicated cache directory.
3325#
3326#
3327# ==== The ufs store type ====
3328#
3329# "ufs" is the old well-known Squid storage format that has always
3330# been there.
3331#
3332# Usage:
3333# cache_dir ufs Directory-Name Mbytes L1 L2 [options]
3334#
3335# 'Mbytes' is the amount of disk space (MB) to use under this
3336# directory. The default is 100 MB. Change this to suit your
3337# configuration. Do NOT put the size of your disk drive here.
3338# Instead, if you want Squid to use the entire disk drive,
3339# subtract 20% and use that value.
3340#
3341# 'L1' is the number of first-level subdirectories which
3342# will be created under the 'Directory'. The default is 16.
3343#
3344# 'L2' is the number of second-level subdirectories which
3345# will be created under each first-level directory. The default
3346# is 256.
3347#
3348#
3349# ==== The aufs store type ====
3350#
3351# "aufs" uses the same storage format as "ufs", utilizing
3352# POSIX-threads to avoid blocking the main Squid process on
3353# disk-I/O. This was formerly known in Squid as async-io.
3354#
3355# Usage:
3356# cache_dir aufs Directory-Name Mbytes L1 L2 [options]
3357#
3358# see argument descriptions under ufs above
3359#
3360#
3361# ==== The diskd store type ====
3362#
3363# "diskd" uses the same storage format as "ufs", utilizing a
3364# separate process to avoid blocking the main Squid process on
3365# disk-I/O.
3366#
3367# Usage:
3368# cache_dir diskd Directory-Name Mbytes L1 L2 [options] [Q1=n] [Q2=n]
3369#
3370# see argument descriptions under ufs above
3371#
3372# Q1 specifies the number of unacknowledged I/O requests when Squid
3373# stops opening new files. If this many messages are in the queues,
3374# Squid won't open new files. Default is 64
3375#
3376# Q2 specifies the number of unacknowledged messages when Squid
3377# starts blocking. If this many messages are in the queues,
3378# Squid blocks until it receives some replies. Default is 72
3379#
3380# When Q1 < Q2 (the default), the cache directory is optimized
3381# for lower response time at the expense of a decrease in hit
3382# ratio. If Q1 > Q2, the cache directory is optimized for
3383# higher hit ratio at the expense of an increase in response
3384# time.
3385#
3386#
3387# ==== The rock store type ====
3388#
3389# Usage:
3390# cache_dir rock Directory-Name Mbytes [options]
3391#
3392# The Rock Store type is a database-style storage. All cached
3393# entries are stored in a "database" file, using fixed-size slots.
3394# A single entry occupies one or more slots.
3395#
3396# If possible, Squid using Rock Store creates a dedicated kid
3397# process called "disker" to avoid blocking Squid worker(s) on disk
3398# I/O. One disker kid is created for each rock cache_dir. Diskers
3399# are created only when Squid, running in daemon mode, has support
3400# for the IpcIo disk I/O module.
3401#
3402# swap-timeout=msec: Squid will not start writing a miss to or
3403# reading a hit from disk if it estimates that the swap operation
3404# will take more than the specified number of milliseconds. By
3405# default and when set to zero, disables the disk I/O time limit
3406# enforcement. Ignored when using blocking I/O module because
3407# blocking synchronous I/O does not allow Squid to estimate the
3408# expected swap wait time.
3409#
3410# max-swap-rate=swaps/sec: Artificially limits disk access using
3411# the specified I/O rate limit. Swap out requests that
3412# would cause the average I/O rate to exceed the limit are
3413# delayed. Individual swap in requests (i.e., hits or reads) are
3414# not delayed, but they do contribute to measured swap rate and
3415# since they are placed in the same FIFO queue as swap out
3416# requests, they may wait longer if max-swap-rate is smaller.
3417# This is necessary on file systems that buffer "too
3418# many" writes and then start blocking Squid and other processes
3419# while committing those writes to disk. Usually used together
3420# with swap-timeout to avoid excessive delays and queue overflows
3421# when disk demand exceeds available disk "bandwidth". By default
3422# and when set to zero, disables the disk I/O rate limit
3423# enforcement. Currently supported by IpcIo module only.
3424#
3425# slot-size=bytes: The size of a database "record" used for
3426# storing cached responses. A cached response occupies at least
3427# one slot and all database I/O is done using individual slots so
3428# increasing this parameter leads to more disk space waste while
3429# decreasing it leads to more disk I/O overheads. Should be a
3430# multiple of your operating system I/O page size. Defaults to
3431# 16KBytes. A housekeeping header is stored with each slot and
3432# smaller slot-sizes will be rejected. The header is smaller than
3433# 100 bytes.
3434#
3435#
3436# ==== COMMON OPTIONS ====
3437#
3438# no-store no new objects should be stored to this cache_dir.
3439#
3440# min-size=n the minimum object size in bytes this cache_dir
3441# will accept. It's used to restrict a cache_dir
3442# to only store large objects (e.g. AUFS) while
3443# other stores are optimized for smaller objects
3444# (e.g. Rock).
3445# Defaults to 0.
3446#
3447# max-size=n the maximum object size in bytes this cache_dir
3448# supports.
3449# The value in maximum_object_size directive sets
3450# the default unless more specific details are
3451# available (ie a small store capacity).
3452#
3453# Note: To make optimal use of the max-size limits you should order
3454# the cache_dir lines with the smallest max-size value first.
3455#
3456#Default:
3457# No disk cache. Store cache ojects only in memory.
3458#
3459
3460# Uncomment and adjust the following to add a disk cache directory.
3461#cache_dir ufs /var/spool/squid 100 16 256
3462
3463# TAG: store_dir_select_algorithm
3464# How Squid selects which cache_dir to use when the response
3465# object will fit into more than one.
3466#
3467# Regardless of which algorithm is used the cache_dir min-size
3468# and max-size parameters are obeyed. As such they can affect
3469# the selection algorithm by limiting the set of considered
3470# cache_dir.
3471#
3472# Algorithms:
3473#
3474# least-load
3475#
3476# This algorithm is suited to caches with similar cache_dir
3477# sizes and disk speeds.
3478#
3479# The disk with the least I/O pending is selected.
3480# When there are multiple disks with the same I/O load ranking
3481# the cache_dir with most available capacity is selected.
3482#
3483# When a mix of cache_dir sizes are configured the faster disks
3484# have a naturally lower I/O loading and larger disks have more
3485# capacity. So space used to store objects and data throughput
3486# may be very unbalanced towards larger disks.
3487#
3488#
3489# round-robin
3490#
3491# This algorithm is suited to caches with unequal cache_dir
3492# disk sizes.
3493#
3494# Each cache_dir is selected in a rotation. The next suitable
3495# cache_dir is used.
3496#
3497# Available cache_dir capacity is only considered in relation
3498# to whether the object will fit and meets the min-size and
3499# max-size parameters.
3500#
3501# Disk I/O loading is only considered to prevent overload on slow
3502# disks. This algorithm does not spread objects by size, so any
3503# I/O loading per-disk may appear very unbalanced and volatile.
3504#
3505# If several cache_dirs use similar min-size, max-size, or other
3506# limits to to reject certain responses, then do not group such
3507# cache_dir lines together, to avoid round-robin selection bias
3508# towards the first cache_dir after the group. Instead, interleave
3509# cache_dir lines from different groups. For example:
3510#
3511# store_dir_select_algorithm round-robin
3512# cache_dir rock /hdd1 ... min-size=100000
3513# cache_dir rock /ssd1 ... max-size=99999
3514# cache_dir rock /hdd2 ... min-size=100000
3515# cache_dir rock /ssd2 ... max-size=99999
3516# cache_dir rock /hdd3 ... min-size=100000
3517# cache_dir rock /ssd3 ... max-size=99999
3518#Default:
3519# store_dir_select_algorithm least-load
3520
3521# TAG: max_open_disk_fds
3522# To avoid having disk as the I/O bottleneck Squid can optionally
3523# bypass the on-disk cache if more than this amount of disk file
3524# descriptors are open.
3525#
3526# A value of 0 indicates no limit.
3527#Default:
3528# no limit
3529
3530# TAG: cache_swap_low (percent, 0-100)
3531# The low-water mark for AUFS/UFS/diskd cache object eviction by
3532# the cache_replacement_policy algorithm.
3533#
3534# Removal begins when the swap (disk) usage of a cache_dir is
3535# above this low-water mark and attempts to maintain utilization
3536# near the low-water mark.
3537#
3538# As swap utilization increases towards the high-water mark set
3539# by cache_swap_high object eviction becomes more agressive.
3540#
3541# The value difference in percentages between low- and high-water
3542# marks represent an eviction rate of 300 objects per second and
3543# the rate continues to scale in agressiveness by multiples of
3544# this above the high-water mark.
3545#
3546# Defaults are 90% and 95%. If you have a large cache, 5% could be
3547# hundreds of MB. If this is the case you may wish to set these
3548# numbers closer together.
3549#
3550# See also cache_swap_high and cache_replacement_policy
3551#Default:
3552# cache_swap_low 90
3553
3554# TAG: cache_swap_high (percent, 0-100)
3555# The high-water mark for AUFS/UFS/diskd cache object eviction by
3556# the cache_replacement_policy algorithm.
3557#
3558# Removal begins when the swap (disk) usage of a cache_dir is
3559# above the low-water mark set by cache_swap_low and attempts to
3560# maintain utilization near the low-water mark.
3561#
3562# As swap utilization increases towards this high-water mark object
3563# eviction becomes more agressive.
3564#
3565# The value difference in percentages between low- and high-water
3566# marks represent an eviction rate of 300 objects per second and
3567# the rate continues to scale in agressiveness by multiples of
3568# this above the high-water mark.
3569#
3570# Defaults are 90% and 95%. If you have a large cache, 5% could be
3571# hundreds of MB. If this is the case you may wish to set these
3572# numbers closer together.
3573#
3574# See also cache_swap_low and cache_replacement_policy
3575#Default:
3576# cache_swap_high 95
3577
3578# LOGFILE OPTIONS
3579# -----------------------------------------------------------------------------
3580
3581# TAG: logformat
3582# Usage:
3583#
3584# logformat <name> <format specification>
3585#
3586# Defines an access log format.
3587#
3588# The <format specification> is a string with embedded % format codes
3589#
3590# % format codes all follow the same basic structure where all but
3591# the formatcode is optional. Output strings are automatically escaped
3592# as required according to their context and the output format
3593# modifiers are usually not needed, but can be specified if an explicit
3594# output format is desired.
3595#
3596# % ["|[|'|#] [-] [[0]width] [{argument}] formatcode
3597#
3598# " output in quoted string format
3599# [ output in squid text log format as used by log_mime_hdrs
3600# # output in URL quoted format
3601# ' output as-is
3602#
3603# - left aligned
3604#
3605# width minimum and/or maximum field width:
3606# [width_min][.width_max]
3607# When minimum starts with 0, the field is zero-padded.
3608# String values exceeding maximum width are truncated.
3609#
3610# {arg} argument such as header name etc
3611#
3612# Format codes:
3613#
3614# % a literal % character
3615# sn Unique sequence number per log line entry
3616# err_code The ID of an error response served by Squid or
3617# a similar internal error identifier.
3618# err_detail Additional err_code-dependent error information.
3619# note The annotation specified by the argument. Also
3620# logs the adaptation meta headers set by the
3621# adaptation_meta configuration parameter.
3622# If no argument given all annotations logged.
3623# The argument may include a separator to use with
3624# annotation values:
3625# name[:separator]
3626# By default, multiple note values are separated with ","
3627# and multiple notes are separated with "\r\n".
3628# When logging named notes with %{name}note, the
3629# explicitly configured separator is used between note
3630# values. When logging all notes with %note, the
3631# explicitly configured separator is used between
3632# individual notes. There is currently no way to
3633# specify both value and notes separators when logging
3634# all notes with %note.
3635#
3636# Connection related format codes:
3637#
3638# >a Client source IP address
3639# >A Client FQDN
3640# >p Client source port
3641# >eui Client source EUI (MAC address, EUI-48 or EUI-64 identifier)
3642# >la Local IP address the client connected to
3643# >lp Local port number the client connected to
3644# >qos Client connection TOS/DSCP value set by Squid
3645# >nfmark Client connection netfilter mark set by Squid
3646#
3647# la Local listening IP address the client connection was connected to.
3648# lp Local listening port number the client connection was connected to.
3649#
3650# <a Server IP address of the last server or peer connection
3651# <A Server FQDN or peer name
3652# <p Server port number of the last server or peer connection
3653# <la Local IP address of the last server or peer connection
3654# <lp Local port number of the last server or peer connection
3655# <qos Server connection TOS/DSCP value set by Squid
3656# <nfmark Server connection netfilter mark set by Squid
3657#
3658# Time related format codes:
3659#
3660# ts Seconds since epoch
3661# tu subsecond time (milliseconds)
3662# tl Local time. Optional strftime format argument
3663# default %d/%b/%Y:%H:%M:%S %z
3664# tg GMT time. Optional strftime format argument
3665# default %d/%b/%Y:%H:%M:%S %z
3666# tr Response time (milliseconds)
3667# dt Total time spent making DNS lookups (milliseconds)
3668# tS Approximate master transaction start time in
3669# <full seconds since epoch>.<fractional seconds> format.
3670# Currently, Squid considers the master transaction
3671# started when a complete HTTP request header initiating
3672# the transaction is received from the client. This is
3673# the same value that Squid uses to calculate transaction
3674# response time when logging %tr to access.log. Currently,
3675# Squid uses millisecond resolution for %tS values,
3676# similar to the default access.log "current time" field
3677# (%ts.%03tu).
3678#
3679# Access Control related format codes:
3680#
3681# et Tag returned by external acl
3682# ea Log string returned by external acl
3683# un User name (any available)
3684# ul User name from authentication
3685# ue User name from external acl helper
3686# ui User name from ident
3687# un A user name. Expands to the first available name
3688# from the following list of information sources:
3689# - authenticated user name, like %ul
3690# - user name supplied by an external ACL, like %ue
3691# - SSL client name, like %us
3692# - ident user name, like %ui
3693# credentials Client credentials. The exact meaning depends on
3694# the authentication scheme: For Basic authentication,
3695# it is the password; for Digest, the realm sent by the
3696# client; for NTLM and Negotiate, the client challenge
3697# or client credentials prefixed with "YR " or "KK ".
3698#
3699# HTTP related format codes:
3700#
3701# REQUEST
3702#
3703# [http::]rm Request method (GET/POST etc)
3704# [http::]>rm Request method from client
3705# [http::]<rm Request method sent to server or peer
3706# [http::]ru Request URL from client (historic, filtered for logging)
3707# [http::]>ru Request URL from client
3708# [http::]<ru Request URL sent to server or peer
3709# [http::]>rs Request URL scheme from client
3710# [http::]<rs Request URL scheme sent to server or peer
3711# [http::]>rd Request URL domain from client
3712# [http::]<rd Request URL domain sent to server or peer
3713# [http::]>rP Request URL port from client
3714# [http::]<rP Request URL port sent to server or peer
3715# [http::]rp Request URL path excluding hostname
3716# [http::]>rp Request URL path excluding hostname from client
3717# [http::]<rp Request URL path excluding hostname sent to server or peer
3718# [http::]rv Request protocol version
3719# [http::]>rv Request protocol version from client
3720# [http::]<rv Request protocol version sent to server or peer
3721#
3722# [http::]>h Original received request header.
3723# Usually differs from the request header sent by
3724# Squid, although most fields are often preserved.
3725# Accepts optional header field name/value filter
3726# argument using name[:[separator]element] format.
3727# [http::]>ha Received request header after adaptation and
3728# redirection (pre-cache REQMOD vectoring point).
3729# Usually differs from the request header sent by
3730# Squid, although most fields are often preserved.
3731# Optional header name argument as for >h
3732#
3733#
3734# RESPONSE
3735#
3736# [http::]<Hs HTTP status code received from the next hop
3737# [http::]>Hs HTTP status code sent to the client
3738#
3739# [http::]<h Reply header. Optional header name argument
3740# as for >h
3741#
3742# [http::]mt MIME content type
3743#
3744#
3745# SIZE COUNTERS
3746#
3747# [http::]st Total size of request + reply traffic with client
3748# [http::]>st Total size of request received from client.
3749# Excluding chunked encoding bytes.
3750# [http::]<st Total size of reply sent to client (after adaptation)
3751#
3752# [http::]>sh Size of request headers received from client
3753# [http::]<sh Size of reply headers sent to client (after adaptation)
3754#
3755# [http::]<sH Reply high offset sent
3756# [http::]<sS Upstream object size
3757#
3758# [http::]<bs Number of HTTP-equivalent message body bytes
3759# received from the next hop, excluding chunked
3760# transfer encoding and control messages.
3761# Generated FTP/Gopher listings are treated as
3762# received bodies.
3763#
3764#
3765# TIMING
3766#
3767# [http::]<pt Peer response time in milliseconds. The timer starts
3768# when the last request byte is sent to the next hop
3769# and stops when the last response byte is received.
3770# [http::]<tt Total time in milliseconds. The timer
3771# starts with the first connect request (or write I/O)
3772# sent to the first selected peer. The timer stops
3773# with the last I/O with the last peer.
3774#
3775# Squid handling related format codes:
3776#
3777# Ss Squid request status (TCP_MISS etc)
3778# Sh Squid hierarchy status (DEFAULT_PARENT etc)
3779#
3780# SSL-related format codes:
3781#
3782# ssl::bump_mode SslBump decision for the transaction:
3783#
3784# For CONNECT requests that initiated bumping of
3785# a connection and for any request received on
3786# an already bumped connection, Squid logs the
3787# corresponding SslBump mode ("server-first" or
3788# "client-first"). See the ssl_bump option for
3789# more information about these modes.
3790#
3791# A "none" token is logged for requests that
3792# triggered "ssl_bump" ACL evaluation matching
3793# either a "none" rule or no rules at all.
3794#
3795# In all other cases, a single dash ("-") is
3796# logged.
3797#
3798# ssl::>sni SSL client SNI sent to Squid. Available only
3799# after the peek, stare, or splice SSL bumping
3800# actions.
3801#
3802# If ICAP is enabled, the following code becomes available (as
3803# well as ICAP log codes documented with the icap_log option):
3804#
3805# icap::tt Total ICAP processing time for the HTTP
3806# transaction. The timer ticks when ICAP
3807# ACLs are checked and when ICAP
3808# transaction is in progress.
3809#
3810# If adaptation is enabled the following three codes become available:
3811#
3812# adapt::<last_h The header of the last ICAP response or
3813# meta-information from the last eCAP
3814# transaction related to the HTTP transaction.
3815# Like <h, accepts an optional header name
3816# argument.
3817#
3818# adapt::sum_trs Summed adaptation transaction response
3819# times recorded as a comma-separated list in
3820# the order of transaction start time. Each time
3821# value is recorded as an integer number,
3822# representing response time of one or more
3823# adaptation (ICAP or eCAP) transaction in
3824# milliseconds. When a failed transaction is
3825# being retried or repeated, its time is not
3826# logged individually but added to the
3827# replacement (next) transaction. See also:
3828# adapt::all_trs.
3829#
3830# adapt::all_trs All adaptation transaction response times.
3831# Same as adaptation_strs but response times of
3832# individual transactions are never added
3833# together. Instead, all transaction response
3834# times are recorded individually.
3835#
3836# You can prefix adapt::*_trs format codes with adaptation
3837# service name in curly braces to record response time(s) specific
3838# to that service. For example: %{my_service}adapt::sum_trs
3839#
3840# If SSL is enabled, the following formating codes become available:
3841#
3842# %ssl::>cert_subject The Subject field of the received client
3843# SSL certificate or a dash ('-') if Squid has
3844# received an invalid/malformed certificate or
3845# no certificate at all. Consider encoding the
3846# logged value because Subject often has spaces.
3847#
3848# %ssl::>cert_issuer The Issuer field of the received client
3849# SSL certificate or a dash ('-') if Squid has
3850# received an invalid/malformed certificate or
3851# no certificate at all. Consider encoding the
3852# logged value because Issuer often has spaces.
3853#
3854# The default formats available (which do not need re-defining) are:
3855#
3856#logformat squid %ts.%03tu %6tr %>a %Ss/%03>Hs %<st %rm %ru %[un %Sh/%<a %mt
3857#logformat common %>a %[ui %[un [%tl] "%rm %ru HTTP/%rv" %>Hs %<st %Ss:%Sh
3858#logformat combined %>a %[ui %[un [%tl] "%rm %ru HTTP/%rv" %>Hs %<st "%{Referer}>h" "%{User-Agent}>h" %Ss:%Sh
3859#logformat referrer %ts.%03tu %>a %{Referer}>h %ru
3860#logformat useragent %>a [%tl] "%{User-Agent}>h"
3861#
3862# NOTE: When the log_mime_hdrs directive is set to ON.
3863# The squid, common and combined formats have a safely encoded copy
3864# of the mime headers appended to each line within a pair of brackets.
3865#
3866# NOTE: The common and combined formats are not quite true to the Apache definition.
3867# The logs from Squid contain an extra status and hierarchy code appended.
3868#
3869#Default:
3870# The format definitions squid, common, combined, referrer, useragent are built in.
3871
3872# TAG: access_log
3873# Configures whether and how Squid logs HTTP and ICP transactions.
3874# If access logging is enabled, a single line is logged for every
3875# matching HTTP or ICP request. The recommended directive formats are:
3876#
3877# access_log <module>:<place> [option ...] [acl acl ...]
3878# access_log none [acl acl ...]
3879#
3880# The following directive format is accepted but may be deprecated:
3881# access_log <module>:<place> [<logformat name> [acl acl ...]]
3882#
3883# In most cases, the first ACL name must not contain the '=' character
3884# and should not be equal to an existing logformat name. You can always
3885# start with an 'all' ACL to work around those restrictions.
3886#
3887# Will log to the specified module:place using the specified format (which
3888# must be defined in a logformat directive) those entries which match
3889# ALL the acl's specified (which must be defined in acl clauses).
3890# If no acl is specified, all requests will be logged to this destination.
3891#
3892# ===== Available options for the recommended directive format =====
3893#
3894# logformat=name Names log line format (either built-in or
3895# defined by a logformat directive). Defaults
3896# to 'squid'.
3897#
3898# buffer-size=64KB Defines approximate buffering limit for log
3899# records (see buffered_logs). Squid should not
3900# keep more than the specified size and, hence,
3901# should flush records before the buffer becomes
3902# full to avoid overflows under normal
3903# conditions (the exact flushing algorithm is
3904# module-dependent though). The on-error option
3905# controls overflow handling.
3906#
3907# on-error=die|drop Defines action on unrecoverable errors. The
3908# 'drop' action ignores (i.e., does not log)
3909# affected log records. The default 'die' action
3910# kills the affected worker. The drop action
3911# support has not been tested for modules other
3912# than tcp.
3913#
3914# ===== Modules Currently available =====
3915#
3916# none Do not log any requests matching these ACL.
3917# Do not specify Place or logformat name.
3918#
3919# stdio Write each log line to disk immediately at the completion of
3920# each request.
3921# Place: the filename and path to be written.
3922#
3923# daemon Very similar to stdio. But instead of writing to disk the log
3924# line is passed to a daemon helper for asychronous handling instead.
3925# Place: varies depending on the daemon.
3926#
3927# log_file_daemon Place: the file name and path to be written.
3928#
3929# syslog To log each request via syslog facility.
3930# Place: The syslog facility and priority level for these entries.
3931# Place Format: facility.priority
3932#
3933# where facility could be any of:
3934# authpriv, daemon, local0 ... local7 or user.
3935#
3936# And priority could be any of:
3937# err, warning, notice, info, debug.
3938#
3939# udp To send each log line as text data to a UDP receiver.
3940# Place: The destination host name or IP and port.
3941# Place Format: //host:port
3942#
3943# tcp To send each log line as text data to a TCP receiver.
3944# Lines may be accumulated before sending (see buffered_logs).
3945# Place: The destination host name or IP and port.
3946# Place Format: //host:port
3947#
3948# Default:
3949# access_log daemon:/var/log/squid/access.log squid
3950#Default:
3951# access_log daemon:/var/log/squid/access.log squid
3952
3953# TAG: icap_log
3954# ICAP log files record ICAP transaction summaries, one line per
3955# transaction.
3956#
3957# The icap_log option format is:
3958# icap_log <filepath> [<logformat name> [acl acl ...]]
3959# icap_log none [acl acl ...]]
3960#
3961# Please see access_log option documentation for details. The two
3962# kinds of logs share the overall configuration approach and many
3963# features.
3964#
3965# ICAP processing of a single HTTP message or transaction may
3966# require multiple ICAP transactions. In such cases, multiple
3967# ICAP transaction log lines will correspond to a single access
3968# log line.
3969#
3970# ICAP log supports many access.log logformat %codes. In ICAP context,
3971# HTTP message-related %codes are applied to the HTTP message embedded
3972# in an ICAP message. Logformat "%http::>..." codes are used for HTTP
3973# messages embedded in ICAP requests while "%http::<..." codes are used
3974# for HTTP messages embedded in ICAP responses. For example:
3975#
3976# http::>h To-be-adapted HTTP message headers sent by Squid to
3977# the ICAP service. For REQMOD transactions, these are
3978# HTTP request headers. For RESPMOD, these are HTTP
3979# response headers, but Squid currently cannot log them
3980# (i.e., %http::>h will expand to "-" for RESPMOD).
3981#
3982# http::<h Adapted HTTP message headers sent by the ICAP
3983# service to Squid (i.e., HTTP request headers in regular
3984# REQMOD; HTTP response headers in RESPMOD and during
3985# request satisfaction in REQMOD).
3986#
3987# ICAP OPTIONS transactions do not embed HTTP messages.
3988#
3989# Several logformat codes below deal with ICAP message bodies. An ICAP
3990# message body, if any, typically includes a complete HTTP message
3991# (required HTTP headers plus optional HTTP message body). When
3992# computing HTTP message body size for these logformat codes, Squid
3993# either includes or excludes chunked encoding overheads; see
3994# code-specific documentation for details.
3995#
3996# For Secure ICAP services, all size-related information is currently
3997# computed before/after TLS encryption/decryption, as if TLS was not
3998# in use at all.
3999#
4000# The following format codes are also available for ICAP logs:
4001#
4002# icap::<A ICAP server IP address. Similar to <A.
4003#
4004# icap::<service_name ICAP service name from the icap_service
4005# option in Squid configuration file.
4006#
4007# icap::ru ICAP Request-URI. Similar to ru.
4008#
4009# icap::rm ICAP request method (REQMOD, RESPMOD, or
4010# OPTIONS). Similar to existing rm.
4011#
4012# icap::>st The total size of the ICAP request sent to the ICAP
4013# server (ICAP headers + ICAP body), including chunking
4014# metadata (if any).
4015#
4016# icap::<st The total size of the ICAP response received from the
4017# ICAP server (ICAP headers + ICAP body), including
4018# chunking metadata (if any).
4019#
4020# icap::<bs The size of the ICAP response body received from the
4021# ICAP server, excluding chunking metadata (if any).
4022#
4023# icap::tr Transaction response time (in
4024# milliseconds). The timer starts when
4025# the ICAP transaction is created and
4026# stops when the transaction is completed.
4027# Similar to tr.
4028#
4029# icap::tio Transaction I/O time (in milliseconds). The
4030# timer starts when the first ICAP request
4031# byte is scheduled for sending. The timers
4032# stops when the last byte of the ICAP response
4033# is received.
4034#
4035# icap::to Transaction outcome: ICAP_ERR* for all
4036# transaction errors, ICAP_OPT for OPTION
4037# transactions, ICAP_ECHO for 204
4038# responses, ICAP_MOD for message
4039# modification, and ICAP_SAT for request
4040# satisfaction. Similar to Ss.
4041#
4042# icap::Hs ICAP response status code. Similar to Hs.
4043#
4044# icap::>h ICAP request header(s). Similar to >h.
4045#
4046# icap::<h ICAP response header(s). Similar to <h.
4047#
4048# The default ICAP log format, which can be used without an explicit
4049# definition, is called icap_squid:
4050#
4051#logformat icap_squid %ts.%03tu %6icap::tr %>A %icap::to/%03icap::Hs %icap::<st %icap::rm %icap::ru %un -/%icap::<A -
4052#
4053# See also: logformat and %adapt::<last_h
4054#Default:
4055# none
4056
4057# TAG: logfile_daemon
4058# Specify the path to the logfile-writing daemon. This daemon is
4059# used to write the access and store logs, if configured.
4060#
4061# Squid sends a number of commands to the log daemon:
4062# L<data>\n - logfile data
4063# R\n - rotate file
4064# T\n - truncate file
4065# O\n - reopen file
4066# F\n - flush file
4067# r<n>\n - set rotate count to <n>
4068# b<n>\n - 1 = buffer output, 0 = don't buffer output
4069#
4070# No responses is expected.
4071#Default:
4072# logfile_daemon /usr/lib/squid/log_file_daemon
4073
4074# TAG: stats_collection allow|deny acl acl...
4075# This options allows you to control which requests gets accounted
4076# in performance counters.
4077#
4078# This clause only supports fast acl types.
4079# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
4080#Default:
4081# Allow logging for all transactions.
4082
4083# TAG: cache_store_log
4084# Logs the activities of the storage manager. Shows which
4085# objects are ejected from the cache, and which objects are
4086# saved and for how long.
4087# There are not really utilities to analyze this data, so you can safely
4088# disable it (the default).
4089#
4090# Store log uses modular logging outputs. See access_log for the list
4091# of modules supported.
4092#
4093# Example:
4094# cache_store_log stdio:/var/log/squid/store.log
4095# cache_store_log daemon:/var/log/squid/store.log
4096#Default:
4097# none
4098
4099# TAG: cache_swap_state
4100# Location for the cache "swap.state" file. This index file holds
4101# the metadata of objects saved on disk. It is used to rebuild
4102# the cache during startup. Normally this file resides in each
4103# 'cache_dir' directory, but you may specify an alternate
4104# pathname here. Note you must give a full filename, not just
4105# a directory. Since this is the index for the whole object
4106# list you CANNOT periodically rotate it!
4107#
4108# If %s can be used in the file name it will be replaced with a
4109# a representation of the cache_dir name where each / is replaced
4110# with '.'. This is needed to allow adding/removing cache_dir
4111# lines when cache_swap_log is being used.
4112#
4113# If have more than one 'cache_dir', and %s is not used in the name
4114# these swap logs will have names such as:
4115#
4116# cache_swap_log.00
4117# cache_swap_log.01
4118# cache_swap_log.02
4119#
4120# The numbered extension (which is added automatically)
4121# corresponds to the order of the 'cache_dir' lines in this
4122# configuration file. If you change the order of the 'cache_dir'
4123# lines in this file, these index files will NOT correspond to
4124# the correct 'cache_dir' entry (unless you manually rename
4125# them). We recommend you do NOT use this option. It is
4126# better to keep these index files in each 'cache_dir' directory.
4127#Default:
4128# Store the journal inside its cache_dir
4129
4130# TAG: logfile_rotate
4131# Specifies the number of logfile rotations to make when you
4132# type 'squid -k rotate'. The default is 10, which will rotate
4133# with extensions 0 through 9. Setting logfile_rotate to 0 will
4134# disable the file name rotation, but the logfiles are still closed
4135# and re-opened. This will enable you to rename the logfiles
4136# yourself just before sending the rotate signal.
4137#
4138# Note, the 'squid -k rotate' command normally sends a USR1
4139# signal to the running squid process. In certain situations
4140# (e.g. on Linux with Async I/O), USR1 is used for other
4141# purposes, so -k rotate uses another signal. It is best to get
4142# in the habit of using 'squid -k rotate' instead of 'kill -USR1
4143# <pid>'.
4144#
4145# Note, from Squid-3.1 this option is only a default for cache.log,
4146# that log can be rotated separately by using debug_options.
4147#
4148# Note2, for Debian/Linux the default of logfile_rotate is
4149# zero, since it includes external logfile-rotation methods.
4150#Default:
4151# logfile_rotate 0
4152
4153# TAG: mime_table
4154# Path to Squid's icon configuration file.
4155#
4156# You shouldn't need to change this, but the default file contains
4157# examples and formatting information if you do.
4158#Default:
4159# mime_table /usr/share/squid/mime.conf
4160
4161# TAG: log_mime_hdrs on|off
4162# The Cache can record both the request and the response MIME
4163# headers for each HTTP transaction. The headers are encoded
4164# safely and will appear as two bracketed fields at the end of
4165# the access log (for either the native or httpd-emulated log
4166# formats). To enable this logging set log_mime_hdrs to 'on'.
4167#Default:
4168# log_mime_hdrs off
4169
4170# TAG: pid_filename
4171# A filename to write the process-id to. To disable, enter "none".
4172#Default:
4173# pid_filename /var/run/squid.pid
4174
4175# TAG: client_netmask
4176# A netmask for client addresses in logfiles and cachemgr output.
4177# Change this to protect the privacy of your cache clients.
4178# A netmask of 255.255.255.0 will log all IP's in that range with
4179# the last digit set to '0'.
4180#Default:
4181# Log full client IP address
4182
4183# TAG: strip_query_terms
4184# By default, Squid strips query terms from requested URLs before
4185# logging. This protects your user's privacy and reduces log size.
4186#
4187# When investigating HIT/MISS or other caching behaviour you
4188# will need to disable this to see the full URL used by Squid.
4189#Default:
4190# strip_query_terms on
4191
4192# TAG: buffered_logs on|off
4193# Whether to write/send access_log records ASAP or accumulate them and
4194# then write/send them in larger chunks. Buffering may improve
4195# performance because it decreases the number of I/Os. However,
4196# buffering increases the delay before log records become available to
4197# the final recipient (e.g., a disk file or logging daemon) and,
4198# hence, increases the risk of log records loss.
4199#
4200# Note that even when buffered_logs are off, Squid may have to buffer
4201# records if it cannot write/send them immediately due to pending I/Os
4202# (e.g., the I/O writing the previous log record) or connectivity loss.
4203#
4204# Currently honored by 'daemon' and 'tcp' access_log modules only.
4205#Default:
4206# buffered_logs off
4207
4208# TAG: netdb_filename
4209# Where Squid stores it's netdb journal.
4210# When enabled this journal preserves netdb state between restarts.
4211#
4212# To disable, enter "none".
4213#Default:
4214# netdb_filename stdio:/var/log/squid/netdb.state
4215
4216# OPTIONS FOR TROUBLESHOOTING
4217# -----------------------------------------------------------------------------
4218
4219# TAG: cache_log
4220# Squid administrative logging file.
4221#
4222# This is where general information about Squid behavior goes. You can
4223# increase the amount of data logged to this file and how often it is
4224# rotated with "debug_options"
4225#Default:
4226# cache_log /var/log/squid/cache.log
4227
4228# TAG: debug_options
4229# Logging options are set as section,level where each source file
4230# is assigned a unique section. Lower levels result in less
4231# output, Full debugging (level 9) can result in a very large
4232# log file, so be careful.
4233#
4234# The magic word "ALL" sets debugging levels for all sections.
4235# The default is to run with "ALL,1" to record important warnings.
4236#
4237# The rotate=N option can be used to keep more or less of these logs
4238# than would otherwise be kept by logfile_rotate.
4239# For most uses a single log should be enough to monitor current
4240# events affecting Squid.
4241#Default:
4242# Log all critical and important messages.
4243
4244# TAG: coredump_dir
4245# By default Squid leaves core files in the directory from where
4246# it was started. If you set 'coredump_dir' to a directory
4247# that exists, Squid will chdir() to that directory at startup
4248# and coredump files will be left there.
4249#
4250#Default:
4251# Use the directory from where Squid was started.
4252#
4253
4254# Leave coredumps in the first cache dir
4255coredump_dir /var/spool/squid
4256
4257# OPTIONS FOR FTP GATEWAYING
4258# -----------------------------------------------------------------------------
4259
4260# TAG: ftp_user
4261# If you want the anonymous login password to be more informative
4262# (and enable the use of picky FTP servers), set this to something
4263# reasonable for your domain, like wwwuser@somewhere.net
4264#
4265# The reason why this is domainless by default is the
4266# request can be made on the behalf of a user in any domain,
4267# depending on how the cache is used.
4268# Some FTP server also validate the email address is valid
4269# (for example perl.com).
4270#Default:
4271# ftp_user Squid@
4272
4273# TAG: ftp_passive
4274# If your firewall does not allow Squid to use passive
4275# connections, turn off this option.
4276#
4277# Use of ftp_epsv_all option requires this to be ON.
4278#Default:
4279# ftp_passive on
4280
4281# TAG: ftp_epsv_all
4282# FTP Protocol extensions permit the use of a special "EPSV ALL" command.
4283#
4284# NATs may be able to put the connection on a "fast path" through the
4285# translator, as the EPRT command will never be used and therefore,
4286# translation of the data portion of the segments will never be needed.
4287#
4288# When a client only expects to do two-way FTP transfers this may be
4289# useful.
4290# If squid finds that it must do a three-way FTP transfer after issuing
4291# an EPSV ALL command, the FTP session will fail.
4292#
4293# If you have any doubts about this option do not use it.
4294# Squid will nicely attempt all other connection methods.
4295#
4296# Requires ftp_passive to be ON (default) for any effect.
4297#Default:
4298# ftp_epsv_all off
4299
4300# TAG: ftp_epsv
4301# FTP Protocol extensions permit the use of a special "EPSV" command.
4302#
4303# NATs may be able to put the connection on a "fast path" through the
4304# translator using EPSV, as the EPRT command will never be used
4305# and therefore, translation of the data portion of the segments
4306# will never be needed.
4307#
4308# EPSV is often required to interoperate with FTP servers on IPv6
4309# networks. On the other hand, it may break some IPv4 servers.
4310#
4311# By default, EPSV may try EPSV with any FTP server. To fine tune
4312# that decision, you may restrict EPSV to certain clients or servers
4313# using ACLs:
4314#
4315# ftp_epsv allow|deny al1 acl2 ...
4316#
4317# WARNING: Disabling EPSV may cause problems with external NAT and IPv6.
4318#
4319# Only fast ACLs are supported.
4320# Requires ftp_passive to be ON (default) for any effect.
4321#Default:
4322# none
4323
4324# TAG: ftp_eprt
4325# FTP Protocol extensions permit the use of a special "EPRT" command.
4326#
4327# This extension provides a protocol neutral alternative to the
4328# IPv4-only PORT command. When supported it enables active FTP data
4329# channels over IPv6 and efficient NAT handling.
4330#
4331# Turning this OFF will prevent EPRT being attempted and will skip
4332# straight to using PORT for IPv4 servers.
4333#
4334# Some devices are known to not handle this extension correctly and
4335# may result in crashes. Devices which suport EPRT enough to fail
4336# cleanly will result in Squid attempting PORT anyway. This directive
4337# should only be disabled when EPRT results in device failures.
4338#
4339# WARNING: Doing so will convert Squid back to the old behavior with all
4340# the related problems with external NAT devices/layers and IPv4-only FTP.
4341#Default:
4342# ftp_eprt on
4343
4344# TAG: ftp_sanitycheck
4345# For security and data integrity reasons Squid by default performs
4346# sanity checks of the addresses of FTP data connections ensure the
4347# data connection is to the requested server. If you need to allow
4348# FTP connections to servers using another IP address for the data
4349# connection turn this off.
4350#Default:
4351# ftp_sanitycheck on
4352
4353# TAG: ftp_telnet_protocol
4354# The FTP protocol is officially defined to use the telnet protocol
4355# as transport channel for the control connection. However, many
4356# implementations are broken and does not respect this aspect of
4357# the FTP protocol.
4358#
4359# If you have trouble accessing files with ASCII code 255 in the
4360# path or similar problems involving this ASCII code you can
4361# try setting this directive to off. If that helps, report to the
4362# operator of the FTP server in question that their FTP server
4363# is broken and does not follow the FTP standard.
4364#Default:
4365# ftp_telnet_protocol on
4366
4367# OPTIONS FOR EXTERNAL SUPPORT PROGRAMS
4368# -----------------------------------------------------------------------------
4369
4370# TAG: diskd_program
4371# Specify the location of the diskd executable.
4372# Note this is only useful if you have compiled in
4373# diskd as one of the store io modules.
4374#Default:
4375# diskd_program /usr/lib/squid/diskd
4376
4377# TAG: unlinkd_program
4378# Specify the location of the executable for file deletion process.
4379#Default:
4380# unlinkd_program /usr/lib/squid/unlinkd
4381
4382# TAG: pinger_program
4383# Specify the location of the executable for the pinger process.
4384#Default:
4385# pinger_program /usr/lib/squid/pinger
4386
4387# TAG: pinger_enable
4388# Control whether the pinger is active at run-time.
4389# Enables turning ICMP pinger on and off with a simple
4390# squid -k reconfigure.
4391#Default:
4392# pinger_enable on
4393
4394# OPTIONS FOR URL REWRITING
4395# -----------------------------------------------------------------------------
4396
4397# TAG: url_rewrite_program
4398# Specify the location of the executable URL rewriter to use.
4399# Since they can perform almost any function there isn't one included.
4400#
4401# For each requested URL, the rewriter will receive on line with the format
4402#
4403# [channel-ID <SP>] URL [<SP> extras]<NL>
4404#
4405# See url_rewrite_extras on how to send "extras" with optional values to
4406# the helper.
4407# After processing the request the helper must reply using the following format:
4408#
4409# [channel-ID <SP>] result [<SP> kv-pairs]
4410#
4411# The result code can be:
4412#
4413# OK status=30N url="..."
4414# Redirect the URL to the one supplied in 'url='.
4415# 'status=' is optional and contains the status code to send
4416# the client in Squids HTTP response. It must be one of the
4417# HTTP redirect status codes: 301, 302, 303, 307, 308.
4418# When no status is given Squid will use 302.
4419#
4420# OK rewrite-url="..."
4421# Rewrite the URL to the one supplied in 'rewrite-url='.
4422# The new URL is fetched directly by Squid and returned to
4423# the client as the response to its request.
4424#
4425# OK
4426# When neither of url= and rewrite-url= are sent Squid does
4427# not change the URL.
4428#
4429# ERR
4430# Do not change the URL.
4431#
4432# BH
4433# An internal error occurred in the helper, preventing
4434# a result being identified. The 'message=' key name is
4435# reserved for delivering a log message.
4436#
4437#
4438# In addition to the above kv-pairs Squid also understands the following
4439# optional kv-pairs received from URL rewriters:
4440# clt_conn_tag=TAG
4441# Associates a TAG with the client TCP connection.
4442# The TAG is treated as a regular annotation but persists across
4443# future requests on the client connection rather than just the
4444# current request. A helper may update the TAG during subsequent
4445# requests be returning a new kv-pair.
4446#
4447# When using the concurrency= option the protocol is changed by
4448# introducing a query channel tag in front of the request/response.
4449# The query channel tag is a number between 0 and concurrency-1.
4450# This value must be echoed back unchanged to Squid as the first part
4451# of the response relating to its request.
4452#
4453# WARNING: URL re-writing ability should be avoided whenever possible.
4454# Use the URL redirect form of response instead.
4455#
4456# Re-write creates a difference in the state held by the client
4457# and server. Possibly causing confusion when the server response
4458# contains snippets of its view state. Embeded URLs, response
4459# and content Location headers, etc. are not re-written by this
4460# interface.
4461#
4462# By default, a URL rewriter is not used.
4463#Default:
4464# none
4465
4466# TAG: url_rewrite_children
4467# The maximum number of redirector processes to spawn. If you limit
4468# it too few Squid will have to wait for them to process a backlog of
4469# URLs, slowing it down. If you allow too many they will use RAM
4470# and other system resources noticably.
4471#
4472# The startup= and idle= options allow some measure of skew in your
4473# tuning.
4474#
4475# startup=
4476#
4477# Sets a minimum of how many processes are to be spawned when Squid
4478# starts or reconfigures. When set to zero the first request will
4479# cause spawning of the first child process to handle it.
4480#
4481# Starting too few will cause an initial slowdown in traffic as Squid
4482# attempts to simultaneously spawn enough processes to cope.
4483#
4484# idle=
4485#
4486# Sets a minimum of how many processes Squid is to try and keep available
4487# at all times. When traffic begins to rise above what the existing
4488# processes can handle this many more will be spawned up to the maximum
4489# configured. A minimum setting of 1 is required.
4490#
4491# concurrency=
4492#
4493# The number of requests each redirector helper can handle in
4494# parallel. Defaults to 0 which indicates the redirector
4495# is a old-style single threaded redirector.
4496#
4497# When this directive is set to a value >= 1 then the protocol
4498# used to communicate with the helper is modified to include
4499# an ID in front of the request/response. The ID from the request
4500# must be echoed back with the response to that request.
4501#Default:
4502# url_rewrite_children 20 startup=0 idle=1 concurrency=0
4503
4504# TAG: url_rewrite_host_header
4505# To preserve same-origin security policies in browsers and
4506# prevent Host: header forgery by redirectors Squid rewrites
4507# any Host: header in redirected requests.
4508#
4509# If you are running an accelerator this may not be a wanted
4510# effect of a redirector. This directive enables you disable
4511# Host: alteration in reverse-proxy traffic.
4512#
4513# WARNING: Entries are cached on the result of the URL rewriting
4514# process, so be careful if you have domain-virtual hosts.
4515#
4516# WARNING: Squid and other software verifies the URL and Host
4517# are matching, so be careful not to relay through other proxies
4518# or inspecting firewalls with this disabled.
4519#Default:
4520# url_rewrite_host_header on
4521
4522# TAG: url_rewrite_access
4523# If defined, this access list specifies which requests are
4524# sent to the redirector processes.
4525#
4526# This clause supports both fast and slow acl types.
4527# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
4528#Default:
4529# Allow, unless rules exist in squid.conf.
4530
4531# TAG: url_rewrite_bypass
4532# When this is 'on', a request will not go through the
4533# redirector if all the helpers are busy. If this is 'off'
4534# and the redirector queue grows too large, Squid will exit
4535# with a FATAL error and ask you to increase the number of
4536# redirectors. You should only enable this if the redirectors
4537# are not critical to your caching system. If you use
4538# redirectors for access control, and you enable this option,
4539# users may have access to pages they should not
4540# be allowed to request.
4541#Default:
4542# url_rewrite_bypass off
4543
4544# TAG: url_rewrite_extras
4545# Specifies a string to be append to request line format for the
4546# rewriter helper. "Quoted" format values may contain spaces and
4547# logformat %macros. In theory, any logformat %macro can be used.
4548# In practice, a %macro expands as a dash (-) if the helper request is
4549# sent before the required macro information is available to Squid.
4550#Default:
4551# url_rewrite_extras "%>a/%>A %un %>rm myip=%la myport=%lp"
4552
4553# OPTIONS FOR STORE ID
4554# -----------------------------------------------------------------------------
4555
4556# TAG: store_id_program
4557# Specify the location of the executable StoreID helper to use.
4558# Since they can perform almost any function there isn't one included.
4559#
4560# For each requested URL, the helper will receive one line with the format
4561#
4562# [channel-ID <SP>] URL [<SP> extras]<NL>
4563#
4564#
4565# After processing the request the helper must reply using the following format:
4566#
4567# [channel-ID <SP>] result [<SP> kv-pairs]
4568#
4569# The result code can be:
4570#
4571# OK store-id="..."
4572# Use the StoreID supplied in 'store-id='.
4573#
4574# ERR
4575# The default is to use HTTP request URL as the store ID.
4576#
4577# BH
4578# An internal error occured in the helper, preventing
4579# a result being identified.
4580#
4581# In addition to the above kv-pairs Squid also understands the following
4582# optional kv-pairs received from URL rewriters:
4583# clt_conn_tag=TAG
4584# Associates a TAG with the client TCP connection.
4585# Please see url_rewrite_program related documentation for this
4586# kv-pair
4587#
4588# Helper programs should be prepared to receive and possibly ignore
4589# additional whitespace-separated tokens on each input line.
4590#
4591# When using the concurrency= option the protocol is changed by
4592# introducing a query channel tag in front of the request/response.
4593# The query channel tag is a number between 0 and concurrency-1.
4594# This value must be echoed back unchanged to Squid as the first part
4595# of the response relating to its request.
4596#
4597# NOTE: when using StoreID refresh_pattern will apply to the StoreID
4598# returned from the helper and not the URL.
4599#
4600# WARNING: Wrong StoreID value returned by a careless helper may result
4601# in the wrong cached response returned to the user.
4602#
4603# By default, a StoreID helper is not used.
4604#Default:
4605# none
4606
4607# TAG: store_id_extras
4608# Specifies a string to be append to request line format for the
4609# StoreId helper. "Quoted" format values may contain spaces and
4610# logformat %macros. In theory, any logformat %macro can be used.
4611# In practice, a %macro expands as a dash (-) if the helper request is
4612# sent before the required macro information is available to Squid.
4613#Default:
4614# store_id_extras "%>a/%>A %un %>rm myip=%la myport=%lp"
4615
4616# TAG: store_id_children
4617# The maximum number of StoreID helper processes to spawn. If you limit
4618# it too few Squid will have to wait for them to process a backlog of
4619# requests, slowing it down. If you allow too many they will use RAM
4620# and other system resources noticably.
4621#
4622# The startup= and idle= options allow some measure of skew in your
4623# tuning.
4624#
4625# startup=
4626#
4627# Sets a minimum of how many processes are to be spawned when Squid
4628# starts or reconfigures. When set to zero the first request will
4629# cause spawning of the first child process to handle it.
4630#
4631# Starting too few will cause an initial slowdown in traffic as Squid
4632# attempts to simultaneously spawn enough processes to cope.
4633#
4634# idle=
4635#
4636# Sets a minimum of how many processes Squid is to try and keep available
4637# at all times. When traffic begins to rise above what the existing
4638# processes can handle this many more will be spawned up to the maximum
4639# configured. A minimum setting of 1 is required.
4640#
4641# concurrency=
4642#
4643# The number of requests each storeID helper can handle in
4644# parallel. Defaults to 0 which indicates the helper
4645# is a old-style single threaded program.
4646#
4647# When this directive is set to a value >= 1 then the protocol
4648# used to communicate with the helper is modified to include
4649# an ID in front of the request/response. The ID from the request
4650# must be echoed back with the response to that request.
4651#Default:
4652# store_id_children 20 startup=0 idle=1 concurrency=0
4653
4654# TAG: store_id_access
4655# If defined, this access list specifies which requests are
4656# sent to the StoreID processes. By default all requests
4657# are sent.
4658#
4659# This clause supports both fast and slow acl types.
4660# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
4661#Default:
4662# Allow, unless rules exist in squid.conf.
4663
4664# TAG: store_id_bypass
4665# When this is 'on', a request will not go through the
4666# helper if all helpers are busy. If this is 'off'
4667# and the helper queue grows too large, Squid will exit
4668# with a FATAL error and ask you to increase the number of
4669# helpers. You should only enable this if the helperss
4670# are not critical to your caching system. If you use
4671# helpers for critical caching components, and you enable this
4672# option, users may not get objects from cache.
4673#Default:
4674# store_id_bypass on
4675
4676# OPTIONS FOR TUNING THE CACHE
4677# -----------------------------------------------------------------------------
4678
4679# TAG: cache
4680# Requests denied by this directive will not be served from the cache
4681# and their responses will not be stored in the cache. This directive
4682# has no effect on other transactions and on already cached responses.
4683#
4684# This clause supports both fast and slow acl types.
4685# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
4686#
4687# This and the two other similar caching directives listed below are
4688# checked at different transaction processing stages, have different
4689# access to response information, affect different cache operations,
4690# and differ in slow ACLs support:
4691#
4692# * cache: Checked before Squid makes a hit/miss determination.
4693# No access to reply information!
4694# Denies both serving a hit and storing a miss.
4695# Supports both fast and slow ACLs.
4696# * send_hit: Checked after a hit was detected.
4697# Has access to reply (hit) information.
4698# Denies serving a hit only.
4699# Supports fast ACLs only.
4700# * store_miss: Checked before storing a cachable miss.
4701# Has access to reply (miss) information.
4702# Denies storing a miss only.
4703# Supports fast ACLs only.
4704#
4705# If you are not sure which of the three directives to use, apply the
4706# following decision logic:
4707#
4708# * If your ACL(s) are of slow type _and_ need response info, redesign.
4709# Squid does not support that particular combination at this time.
4710# Otherwise:
4711# * If your directive ACL(s) are of slow type, use "cache"; and/or
4712# * if your directive ACL(s) need no response info, use "cache".
4713# Otherwise:
4714# * If you do not want the response cached, use store_miss; and/or
4715# * if you do not want a hit on a cached response, use send_hit.
4716#Default:
4717# By default, this directive is unused and has no effect.
4718
4719# TAG: send_hit
4720# Responses denied by this directive will not be served from the cache
4721# (but may still be cached, see store_miss). This directive has no
4722# effect on the responses it allows and on the cached objects.
4723#
4724# Please see the "cache" directive for a summary of differences among
4725# store_miss, send_hit, and cache directives.
4726#
4727# Unlike the "cache" directive, send_hit only supports fast acl
4728# types. See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
4729#
4730# For example:
4731#
4732# # apply custom Store ID mapping to some URLs
4733# acl MapMe dstdomain .c.example.com
4734# store_id_program ...
4735# store_id_access allow MapMe
4736#
4737# # but prevent caching of special responses
4738# # such as 302 redirects that cause StoreID loops
4739# acl Ordinary http_status 200-299
4740# store_miss deny MapMe !Ordinary
4741#
4742# # and do not serve any previously stored special responses
4743# # from the cache (in case they were already cached before
4744# # the above store_miss rule was in effect).
4745# send_hit deny MapMe !Ordinary
4746#Default:
4747# By default, this directive is unused and has no effect.
4748
4749# TAG: store_miss
4750# Responses denied by this directive will not be cached (but may still
4751# be served from the cache, see send_hit). This directive has no
4752# effect on the responses it allows and on the already cached responses.
4753#
4754# Please see the "cache" directive for a summary of differences among
4755# store_miss, send_hit, and cache directives. See the
4756# send_hit directive for a usage example.
4757#
4758# Unlike the "cache" directive, store_miss only supports fast acl
4759# types. See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
4760#Default:
4761# By default, this directive is unused and has no effect.
4762
4763# TAG: max_stale time-units
4764# This option puts an upper limit on how stale content Squid
4765# will serve from the cache if cache validation fails.
4766# Can be overriden by the refresh_pattern max-stale option.
4767#Default:
4768# max_stale 1 week
4769
4770# TAG: refresh_pattern
4771# usage: refresh_pattern [-i] regex min percent max [options]
4772#
4773# By default, regular expressions are CASE-SENSITIVE. To make
4774# them case-insensitive, use the -i option.
4775#
4776# 'Min' is the time (in minutes) an object without an explicit
4777# expiry time should be considered fresh. The recommended
4778# value is 0, any higher values may cause dynamic applications
4779# to be erroneously cached unless the application designer
4780# has taken the appropriate actions.
4781#
4782# 'Percent' is a percentage of the objects age (time since last
4783# modification age) an object without explicit expiry time
4784# will be considered fresh.
4785#
4786# 'Max' is an upper limit on how long objects without an explicit
4787# expiry time will be considered fresh. The value is also used
4788# to form Cache-Control: max-age header for a request sent from
4789# Squid to origin/parent.
4790#
4791# options: override-expire
4792# override-lastmod
4793# reload-into-ims
4794# ignore-reload
4795# ignore-no-store
4796# ignore-must-revalidate
4797# ignore-private
4798# ignore-auth
4799# max-stale=NN
4800# refresh-ims
4801# store-stale
4802#
4803# override-expire enforces min age even if the server
4804# sent an explicit expiry time (e.g., with the
4805# Expires: header or Cache-Control: max-age). Doing this
4806# VIOLATES the HTTP standard. Enabling this feature
4807# could make you liable for problems which it causes.
4808#
4809# Note: override-expire does not enforce staleness - it only extends
4810# freshness / min. If the server returns a Expires time which
4811# is longer than your max time, Squid will still consider
4812# the object fresh for that period of time.
4813#
4814# override-lastmod enforces min age even on objects
4815# that were modified recently.
4816#
4817# reload-into-ims changes a client no-cache or ``reload''
4818# request for a cached entry into a conditional request using
4819# If-Modified-Since and/or If-None-Match headers, provided the
4820# cached entry has a Last-Modified and/or a strong ETag header.
4821# Doing this VIOLATES the HTTP standard. Enabling this feature
4822# could make you liable for problems which it causes.
4823#
4824# ignore-reload ignores a client no-cache or ``reload''
4825# header. Doing this VIOLATES the HTTP standard. Enabling
4826# this feature could make you liable for problems which
4827# it causes.
4828#
4829# ignore-no-store ignores any ``Cache-control: no-store''
4830# headers received from a server. Doing this VIOLATES
4831# the HTTP standard. Enabling this feature could make you
4832# liable for problems which it causes.
4833#
4834# ignore-must-revalidate ignores any ``Cache-Control: must-revalidate``
4835# headers received from a server. Doing this VIOLATES
4836# the HTTP standard. Enabling this feature could make you
4837# liable for problems which it causes.
4838#
4839# ignore-private ignores any ``Cache-control: private''
4840# headers received from a server. Doing this VIOLATES
4841# the HTTP standard. Enabling this feature could make you
4842# liable for problems which it causes.
4843#
4844# ignore-auth caches responses to requests with authorization,
4845# as if the originserver had sent ``Cache-control: public''
4846# in the response header. Doing this VIOLATES the HTTP standard.
4847# Enabling this feature could make you liable for problems which
4848# it causes.
4849#
4850# refresh-ims causes squid to contact the origin server
4851# when a client issues an If-Modified-Since request. This
4852# ensures that the client will receive an updated version
4853# if one is available.
4854#
4855# store-stale stores responses even if they don't have explicit
4856# freshness or a validator (i.e., Last-Modified or an ETag)
4857# present, or if they're already stale. By default, Squid will
4858# not cache such responses because they usually can't be
4859# reused. Note that such responses will be stale by default.
4860#
4861# max-stale=NN provide a maximum staleness factor. Squid won't
4862# serve objects more stale than this even if it failed to
4863# validate the object. Default: use the max_stale global limit.
4864#
4865# Basically a cached object is:
4866#
4867# FRESH if expire > now, else STALE
4868# STALE if age > max
4869# FRESH if lm-factor < percent, else STALE
4870# FRESH if age < min
4871# else STALE
4872#
4873# The refresh_pattern lines are checked in the order listed here.
4874# The first entry which matches is used. If none of the entries
4875# match the default will be used.
4876#
4877# Note, you must uncomment all the default lines if you want
4878# to change one. The default setting is only active if none is
4879# used.
4880#
4881#
4882
4883#
4884# Add any of your own refresh_pattern entries above these.
4885#
4886refresh_pattern ^ftp: 1440 20% 10080
4887refresh_pattern ^gopher: 1440 0% 1440
4888refresh_pattern -i (/cgi-bin/|\?) 0 0% 0
4889refresh_pattern (Release|Packages(.gz)*)$ 0 20% 2880
4890# example lin deb packages
4891#refresh_pattern (\.deb|\.udeb)$ 129600 100% 129600
4892refresh_pattern . 0 20% 4320
4893
4894# TAG: quick_abort_min (KB)
4895#Default:
4896# quick_abort_min 16 KB
4897
4898# TAG: quick_abort_max (KB)
4899#Default:
4900# quick_abort_max 16 KB
4901
4902# TAG: quick_abort_pct (percent)
4903# The cache by default continues downloading aborted requests
4904# which are almost completed (less than 16 KB remaining). This
4905# may be undesirable on slow (e.g. SLIP) links and/or very busy
4906# caches. Impatient users may tie up file descriptors and
4907# bandwidth by repeatedly requesting and immediately aborting
4908# downloads.
4909#
4910# When the user aborts a request, Squid will check the
4911# quick_abort values to the amount of data transferred until
4912# then.
4913#
4914# If the transfer has less than 'quick_abort_min' KB remaining,
4915# it will finish the retrieval.
4916#
4917# If the transfer has more than 'quick_abort_max' KB remaining,
4918# it will abort the retrieval.
4919#
4920# If more than 'quick_abort_pct' of the transfer has completed,
4921# it will finish the retrieval.
4922#
4923# If you do not want any retrieval to continue after the client
4924# has aborted, set both 'quick_abort_min' and 'quick_abort_max'
4925# to '0 KB'.
4926#
4927# If you want retrievals to always continue if they are being
4928# cached set 'quick_abort_min' to '-1 KB'.
4929#Default:
4930# quick_abort_pct 95
4931
4932# TAG: read_ahead_gap buffer-size
4933# The amount of data the cache will buffer ahead of what has been
4934# sent to the client when retrieving an object from another server.
4935#Default:
4936# read_ahead_gap 16 KB
4937
4938# TAG: negative_ttl time-units
4939# Set the Default Time-to-Live (TTL) for failed requests.
4940# Certain types of failures (such as "connection refused" and
4941# "404 Not Found") are able to be negatively-cached for a short time.
4942# Modern web servers should provide Expires: header, however if they
4943# do not this can provide a minimum TTL.
4944# The default is not to cache errors with unknown expiry details.
4945#
4946# Note that this is different from negative caching of DNS lookups.
4947#
4948# WARNING: Doing this VIOLATES the HTTP standard. Enabling
4949# this feature could make you liable for problems which it
4950# causes.
4951#Default:
4952# negative_ttl 0 seconds
4953
4954# TAG: positive_dns_ttl time-units
4955# Upper limit on how long Squid will cache positive DNS responses.
4956# Default is 6 hours (360 minutes). This directive must be set
4957# larger than negative_dns_ttl.
4958#Default:
4959# positive_dns_ttl 6 hours
4960
4961# TAG: negative_dns_ttl time-units
4962# Time-to-Live (TTL) for negative caching of failed DNS lookups.
4963# This also sets the lower cache limit on positive lookups.
4964# Minimum value is 1 second, and it is not recommendable to go
4965# much below 10 seconds.
4966#Default:
4967# negative_dns_ttl 1 minutes
4968
4969# TAG: range_offset_limit size [acl acl...]
4970# usage: (size) [units] [[!]aclname]
4971#
4972# Sets an upper limit on how far (number of bytes) into the file
4973# a Range request may be to cause Squid to prefetch the whole file.
4974# If beyond this limit, Squid forwards the Range request as it is and
4975# the result is NOT cached.
4976#
4977# This is to stop a far ahead range request (lets say start at 17MB)
4978# from making Squid fetch the whole object up to that point before
4979# sending anything to the client.
4980#
4981# Multiple range_offset_limit lines may be specified, and they will
4982# be searched from top to bottom on each request until a match is found.
4983# The first match found will be used. If no line matches a request, the
4984# default limit of 0 bytes will be used.
4985#
4986# 'size' is the limit specified as a number of units.
4987#
4988# 'units' specifies whether to use bytes, KB, MB, etc.
4989# If no units are specified bytes are assumed.
4990#
4991# A size of 0 causes Squid to never fetch more than the
4992# client requested. (default)
4993#
4994# A size of 'none' causes Squid to always fetch the object from the
4995# beginning so it may cache the result. (2.0 style)
4996#
4997# 'aclname' is the name of a defined ACL.
4998#
4999# NP: Using 'none' as the byte value here will override any quick_abort settings
5000# that may otherwise apply to the range request. The range request will
5001# be fully fetched from start to finish regardless of the client
5002# actions. This affects bandwidth usage.
5003#Default:
5004# none
5005
5006# TAG: minimum_expiry_time (seconds)
5007# The minimum caching time according to (Expires - Date)
5008# headers Squid honors if the object can't be revalidated.
5009# The default is 60 seconds.
5010#
5011# In reverse proxy environments it might be desirable to honor
5012# shorter object lifetimes. It is most likely better to make
5013# your server return a meaningful Last-Modified header however.
5014#
5015# In ESI environments where page fragments often have short
5016# lifetimes, this will often be best set to 0.
5017#Default:
5018# minimum_expiry_time 60 seconds
5019
5020# TAG: store_avg_object_size (bytes)
5021# Average object size, used to estimate number of objects your
5022# cache can hold. The default is 13 KB.
5023#
5024# This is used to pre-seed the cache index memory allocation to
5025# reduce expensive reallocate operations while handling clients
5026# traffic. Too-large values may result in memory allocation during
5027# peak traffic, too-small values will result in wasted memory.
5028#
5029# Check the cache manager 'info' report metrics for the real
5030# object sizes seen by your Squid before tuning this.
5031#Default:
5032# store_avg_object_size 13 KB
5033
5034# TAG: store_objects_per_bucket
5035# Target number of objects per bucket in the store hash table.
5036# Lowering this value increases the total number of buckets and
5037# also the storage maintenance rate. The default is 20.
5038#Default:
5039# store_objects_per_bucket 20
5040
5041# HTTP OPTIONS
5042# -----------------------------------------------------------------------------
5043
5044# TAG: request_header_max_size (KB)
5045# This specifies the maximum size for HTTP headers in a request.
5046# Request headers are usually relatively small (about 512 bytes).
5047# Placing a limit on the request header size will catch certain
5048# bugs (for example with persistent connections) and possibly
5049# buffer-overflow or denial-of-service attacks.
5050#Default:
5051# request_header_max_size 64 KB
5052
5053# TAG: reply_header_max_size (KB)
5054# This specifies the maximum size for HTTP headers in a reply.
5055# Reply headers are usually relatively small (about 512 bytes).
5056# Placing a limit on the reply header size will catch certain
5057# bugs (for example with persistent connections) and possibly
5058# buffer-overflow or denial-of-service attacks.
5059#Default:
5060# reply_header_max_size 64 KB
5061
5062# TAG: request_body_max_size (bytes)
5063# This specifies the maximum size for an HTTP request body.
5064# In other words, the maximum size of a PUT/POST request.
5065# A user who attempts to send a request with a body larger
5066# than this limit receives an "Invalid Request" error message.
5067# If you set this parameter to a zero (the default), there will
5068# be no limit imposed.
5069#
5070# See also client_request_buffer_max_size for an alternative
5071# limitation on client uploads which can be configured.
5072#Default:
5073# No limit.
5074
5075# TAG: client_request_buffer_max_size (bytes)
5076# This specifies the maximum buffer size of a client request.
5077# It prevents squid eating too much memory when somebody uploads
5078# a large file.
5079#Default:
5080# client_request_buffer_max_size 512 KB
5081
5082# TAG: broken_posts
5083# A list of ACL elements which, if matched, causes Squid to send
5084# an extra CRLF pair after the body of a PUT/POST request.
5085#
5086# Some HTTP servers has broken implementations of PUT/POST,
5087# and rely on an extra CRLF pair sent by some WWW clients.
5088#
5089# Quote from RFC2616 section 4.1 on this matter:
5090#
5091# Note: certain buggy HTTP/1.0 client implementations generate an
5092# extra CRLF's after a POST request. To restate what is explicitly
5093# forbidden by the BNF, an HTTP/1.1 client must not preface or follow
5094# a request with an extra CRLF.
5095#
5096# This clause only supports fast acl types.
5097# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
5098#
5099#Example:
5100# acl buggy_server url_regex ^http://....
5101# broken_posts allow buggy_server
5102#Default:
5103# Obey RFC 2616.
5104
5105# TAG: adaptation_uses_indirect_client on|off
5106# Controls whether the indirect client IP address (instead of the direct
5107# client IP address) is passed to adaptation services.
5108#
5109# See also: follow_x_forwarded_for adaptation_send_client_ip
5110#Default:
5111# adaptation_uses_indirect_client on
5112
5113# TAG: via on|off
5114# If set (default), Squid will include a Via header in requests and
5115# replies as required by RFC2616.
5116#Default:
5117# via on
5118
5119# TAG: ie_refresh on|off
5120# Microsoft Internet Explorer up until version 5.5 Service
5121# Pack 1 has an issue with transparent proxies, wherein it
5122# is impossible to force a refresh. Turning this on provides
5123# a partial fix to the problem, by causing all IMS-REFRESH
5124# requests from older IE versions to check the origin server
5125# for fresh content. This reduces hit ratio by some amount
5126# (~10% in my experience), but allows users to actually get
5127# fresh content when they want it. Note because Squid
5128# cannot tell if the user is using 5.5 or 5.5SP1, the behavior
5129# of 5.5 is unchanged from old versions of Squid (i.e. a
5130# forced refresh is impossible). Newer versions of IE will,
5131# hopefully, continue to have the new behavior and will be
5132# handled based on that assumption. This option defaults to
5133# the old Squid behavior, which is better for hit ratios but
5134# worse for clients using IE, if they need to be able to
5135# force fresh content.
5136#Default:
5137# ie_refresh off
5138
5139# TAG: vary_ignore_expire on|off
5140# Many HTTP servers supporting Vary gives such objects
5141# immediate expiry time with no cache-control header
5142# when requested by a HTTP/1.0 client. This option
5143# enables Squid to ignore such expiry times until
5144# HTTP/1.1 is fully implemented.
5145#
5146# WARNING: If turned on this may eventually cause some
5147# varying objects not intended for caching to get cached.
5148#Default:
5149# vary_ignore_expire off
5150
5151# TAG: request_entities
5152# Squid defaults to deny GET and HEAD requests with request entities,
5153# as the meaning of such requests are undefined in the HTTP standard
5154# even if not explicitly forbidden.
5155#
5156# Set this directive to on if you have clients which insists
5157# on sending request entities in GET or HEAD requests. But be warned
5158# that there is server software (both proxies and web servers) which
5159# can fail to properly process this kind of request which may make you
5160# vulnerable to cache pollution attacks if enabled.
5161#Default:
5162# request_entities off
5163
5164# TAG: request_header_access
5165# Usage: request_header_access header_name allow|deny [!]aclname ...
5166#
5167# WARNING: Doing this VIOLATES the HTTP standard. Enabling
5168# this feature could make you liable for problems which it
5169# causes.
5170#
5171# This option replaces the old 'anonymize_headers' and the
5172# older 'http_anonymizer' option with something that is much
5173# more configurable. A list of ACLs for each header name allows
5174# removal of specific header fields under specific conditions.
5175#
5176# This option only applies to outgoing HTTP request headers (i.e.,
5177# headers sent by Squid to the next HTTP hop such as a cache peer
5178# or an origin server). The option has no effect during cache hit
5179# detection. The equivalent adaptation vectoring point in ICAP
5180# terminology is post-cache REQMOD.
5181#
5182# The option is applied to individual outgoing request header
5183# fields. For each request header field F, Squid uses the first
5184# qualifying sets of request_header_access rules:
5185#
5186# 1. Rules with header_name equal to F's name.
5187# 2. Rules with header_name 'Other', provided F's name is not
5188# on the hard-coded list of commonly used HTTP header names.
5189# 3. Rules with header_name 'All'.
5190#
5191# Within that qualifying rule set, rule ACLs are checked as usual.
5192# If ACLs of an "allow" rule match, the header field is allowed to
5193# go through as is. If ACLs of a "deny" rule match, the header is
5194# removed and request_header_replace is then checked to identify
5195# if the removed header has a replacement. If no rules within the
5196# set have matching ACLs, the header field is left as is.
5197#
5198# For example, to achieve the same behavior as the old
5199# 'http_anonymizer standard' option, you should use:
5200#
5201# request_header_access From deny all
5202# request_header_access Referer deny all
5203# request_header_access User-Agent deny all
5204#
5205# Or, to reproduce the old 'http_anonymizer paranoid' feature
5206# you should use:
5207#
5208# request_header_access Authorization allow all
5209# request_header_access Proxy-Authorization allow all
5210# request_header_access Cache-Control allow all
5211# request_header_access Content-Length allow all
5212# request_header_access Content-Type allow all
5213# request_header_access Date allow all
5214# request_header_access Host allow all
5215# request_header_access If-Modified-Since allow all
5216# request_header_access Pragma allow all
5217# request_header_access Accept allow all
5218# request_header_access Accept-Charset allow all
5219# request_header_access Accept-Encoding allow all
5220# request_header_access Accept-Language allow all
5221# request_header_access Connection allow all
5222# request_header_access All deny all
5223#
5224# HTTP reply headers are controlled with the reply_header_access directive.
5225#
5226# By default, all headers are allowed (no anonymizing is performed).
5227#Default:
5228# No limits.
5229
5230# TAG: reply_header_access
5231# Usage: reply_header_access header_name allow|deny [!]aclname ...
5232#
5233# WARNING: Doing this VIOLATES the HTTP standard. Enabling
5234# this feature could make you liable for problems which it
5235# causes.
5236#
5237# This option only applies to reply headers, i.e., from the
5238# server to the client.
5239#
5240# This is the same as request_header_access, but in the other
5241# direction. Please see request_header_access for detailed
5242# documentation.
5243#
5244# For example, to achieve the same behavior as the old
5245# 'http_anonymizer standard' option, you should use:
5246#
5247# reply_header_access Server deny all
5248# reply_header_access WWW-Authenticate deny all
5249# reply_header_access Link deny all
5250#
5251# Or, to reproduce the old 'http_anonymizer paranoid' feature
5252# you should use:
5253#
5254# reply_header_access Allow allow all
5255# reply_header_access WWW-Authenticate allow all
5256# reply_header_access Proxy-Authenticate allow all
5257# reply_header_access Cache-Control allow all
5258# reply_header_access Content-Encoding allow all
5259# reply_header_access Content-Length allow all
5260# reply_header_access Content-Type allow all
5261# reply_header_access Date allow all
5262# reply_header_access Expires allow all
5263# reply_header_access Last-Modified allow all
5264# reply_header_access Location allow all
5265# reply_header_access Pragma allow all
5266# reply_header_access Content-Language allow all
5267# reply_header_access Retry-After allow all
5268# reply_header_access Title allow all
5269# reply_header_access Content-Disposition allow all
5270# reply_header_access Connection allow all
5271# reply_header_access All deny all
5272#
5273# HTTP request headers are controlled with the request_header_access directive.
5274#
5275# By default, all headers are allowed (no anonymizing is
5276# performed).
5277#Default:
5278# No limits.
5279
5280# TAG: request_header_replace
5281# Usage: request_header_replace header_name message
5282# Example: request_header_replace User-Agent Nutscrape/1.0 (CP/M; 8-bit)
5283#
5284# This option allows you to change the contents of headers
5285# denied with request_header_access above, by replacing them
5286# with some fixed string.
5287#
5288# This only applies to request headers, not reply headers.
5289#
5290# By default, headers are removed if denied.
5291#Default:
5292# none
5293
5294# TAG: reply_header_replace
5295# Usage: reply_header_replace header_name message
5296# Example: reply_header_replace Server Foo/1.0
5297#
5298# This option allows you to change the contents of headers
5299# denied with reply_header_access above, by replacing them
5300# with some fixed string.
5301#
5302# This only applies to reply headers, not request headers.
5303#
5304# By default, headers are removed if denied.
5305#Default:
5306# none
5307
5308# TAG: request_header_add
5309# Usage: request_header_add field-name field-value acl1 [acl2] ...
5310# Example: request_header_add X-Client-CA "CA=%ssl::>cert_issuer" all
5311#
5312# This option adds header fields to outgoing HTTP requests (i.e.,
5313# request headers sent by Squid to the next HTTP hop such as a
5314# cache peer or an origin server). The option has no effect during
5315# cache hit detection. The equivalent adaptation vectoring point
5316# in ICAP terminology is post-cache REQMOD.
5317#
5318# Field-name is a token specifying an HTTP header name. If a
5319# standard HTTP header name is used, Squid does not check whether
5320# the new header conflicts with any existing headers or violates
5321# HTTP rules. If the request to be modified already contains a
5322# field with the same name, the old field is preserved but the
5323# header field values are not merged.
5324#
5325# Field-value is either a token or a quoted string. If quoted
5326# string format is used, then the surrounding quotes are removed
5327# while escape sequences and %macros are processed.
5328#
5329# In theory, all of the logformat codes can be used as %macros.
5330# However, unlike logging (which happens at the very end of
5331# transaction lifetime), the transaction may not yet have enough
5332# information to expand a macro when the new header value is needed.
5333# And some information may already be available to Squid but not yet
5334# committed where the macro expansion code can access it (report
5335# such instances!). The macro will be expanded into a single dash
5336# ('-') in such cases. Not all macros have been tested.
5337#
5338# One or more Squid ACLs may be specified to restrict header
5339# injection to matching requests. As always in squid.conf, all
5340# ACLs in an option ACL list must be satisfied for the insertion
5341# to happen. The request_header_add option supports fast ACLs
5342# only.
5343#Default:
5344# none
5345
5346# TAG: note
5347# This option used to log custom information about the master
5348# transaction. For example, an admin may configure Squid to log
5349# which "user group" the transaction belongs to, where "user group"
5350# will be determined based on a set of ACLs and not [just]
5351# authentication information.
5352# Values of key/value pairs can be logged using %{key}note macros:
5353#
5354# note key value acl ...
5355# logformat myFormat ... %{key}note ...
5356#Default:
5357# none
5358
5359# TAG: relaxed_header_parser on|off|warn
5360# In the default "on" setting Squid accepts certain forms
5361# of non-compliant HTTP messages where it is unambiguous
5362# what the sending application intended even if the message
5363# is not correctly formatted. The messages is then normalized
5364# to the correct form when forwarded by Squid.
5365#
5366# If set to "warn" then a warning will be emitted in cache.log
5367# each time such HTTP error is encountered.
5368#
5369# If set to "off" then such HTTP errors will cause the request
5370# or response to be rejected.
5371#Default:
5372# relaxed_header_parser on
5373
5374# TAG: collapsed_forwarding (on|off)
5375# When enabled, instead of forwarding each concurrent request for
5376# the same URL, Squid just sends the first of them. The other, so
5377# called "collapsed" requests, wait for the response to the first
5378# request and, if it happens to be cachable, use that response.
5379# Here, "concurrent requests" means "received after the first
5380# request headers were parsed and before the corresponding response
5381# headers were parsed".
5382#
5383# This feature is disabled by default: enabling collapsed
5384# forwarding needlessly delays forwarding requests that look
5385# cachable (when they are collapsed) but then need to be forwarded
5386# individually anyway because they end up being for uncachable
5387# content. However, in some cases, such as acceleration of highly
5388# cachable content with periodic or grouped expiration times, the
5389# gains from collapsing [large volumes of simultaneous refresh
5390# requests] outweigh losses from such delays.
5391#
5392# Squid collapses two kinds of requests: regular client requests
5393# received on one of the listening ports and internal "cache
5394# revalidation" requests which are triggered by those regular
5395# requests hitting a stale cached object. Revalidation collapsing
5396# is currently disabled for Squid instances containing SMP-aware
5397# disk or memory caches and for Vary-controlled cached objects.
5398#Default:
5399# collapsed_forwarding off
5400
5401# TIMEOUTS
5402# -----------------------------------------------------------------------------
5403
5404# TAG: forward_timeout time-units
5405# This parameter specifies how long Squid should at most attempt in
5406# finding a forwarding path for the request before giving up.
5407#Default:
5408# forward_timeout 4 minutes
5409
5410# TAG: connect_timeout time-units
5411# This parameter specifies how long to wait for the TCP connect to
5412# the requested server or peer to complete before Squid should
5413# attempt to find another path where to forward the request.
5414#Default:
5415# connect_timeout 1 minute
5416
5417# TAG: peer_connect_timeout time-units
5418# This parameter specifies how long to wait for a pending TCP
5419# connection to a peer cache. The default is 30 seconds. You
5420# may also set different timeout values for individual neighbors
5421# with the 'connect-timeout' option on a 'cache_peer' line.
5422#Default:
5423# peer_connect_timeout 30 seconds
5424
5425# TAG: read_timeout time-units
5426# Applied on peer server connections.
5427#
5428# After each successful read(), the timeout will be extended by this
5429# amount. If no data is read again after this amount of time,
5430# the request is aborted and logged with ERR_READ_TIMEOUT.
5431#
5432# The default is 15 minutes.
5433#Default:
5434# read_timeout 15 minutes
5435
5436# TAG: write_timeout time-units
5437# This timeout is tracked for all connections that have data
5438# available for writing and are waiting for the socket to become
5439# ready. After each successful write, the timeout is extended by
5440# the configured amount. If Squid has data to write but the
5441# connection is not ready for the configured duration, the
5442# transaction associated with the connection is terminated. The
5443# default is 15 minutes.
5444#Default:
5445# write_timeout 15 minutes
5446
5447# TAG: request_timeout
5448# How long to wait for complete HTTP request headers after initial
5449# connection establishment.
5450#Default:
5451# request_timeout 5 minutes
5452
5453# TAG: client_idle_pconn_timeout
5454# How long to wait for the next HTTP request on a persistent
5455# client connection after the previous request completes.
5456#Default:
5457# client_idle_pconn_timeout 2 minutes
5458
5459# TAG: ftp_client_idle_timeout
5460# How long to wait for an FTP request on a connection to Squid ftp_port.
5461# Many FTP clients do not deal with idle connection closures well,
5462# necessitating a longer default timeout than client_idle_pconn_timeout
5463# used for incoming HTTP requests.
5464#Default:
5465# ftp_client_idle_timeout 30 minutes
5466
5467# TAG: client_lifetime time-units
5468# The maximum amount of time a client (browser) is allowed to
5469# remain connected to the cache process. This protects the Cache
5470# from having a lot of sockets (and hence file descriptors) tied up
5471# in a CLOSE_WAIT state from remote clients that go away without
5472# properly shutting down (either because of a network failure or
5473# because of a poor client implementation). The default is one
5474# day, 1440 minutes.
5475#
5476# NOTE: The default value is intended to be much larger than any
5477# client would ever need to be connected to your cache. You
5478# should probably change client_lifetime only as a last resort.
5479# If you seem to have many client connections tying up
5480# filedescriptors, we recommend first tuning the read_timeout,
5481# request_timeout, persistent_request_timeout and quick_abort values.
5482#Default:
5483# client_lifetime 1 day
5484
5485# TAG: half_closed_clients
5486# Some clients may shutdown the sending side of their TCP
5487# connections, while leaving their receiving sides open. Sometimes,
5488# Squid can not tell the difference between a half-closed and a
5489# fully-closed TCP connection.
5490#
5491# By default, Squid will immediately close client connections when
5492# read(2) returns "no more data to read."
5493#
5494# Change this option to 'on' and Squid will keep open connections
5495# until a read(2) or write(2) on the socket returns an error.
5496# This may show some benefits for reverse proxies. But if not
5497# it is recommended to leave OFF.
5498#Default:
5499# half_closed_clients off
5500
5501# TAG: server_idle_pconn_timeout
5502# Timeout for idle persistent connections to servers and other
5503# proxies.
5504#Default:
5505# server_idle_pconn_timeout 1 minute
5506
5507# TAG: ident_timeout
5508# Maximum time to wait for IDENT lookups to complete.
5509#
5510# If this is too high, and you enabled IDENT lookups from untrusted
5511# users, you might be susceptible to denial-of-service by having
5512# many ident requests going at once.
5513#Default:
5514# ident_timeout 10 seconds
5515
5516# TAG: shutdown_lifetime time-units
5517# When SIGTERM or SIGHUP is received, the cache is put into
5518# "shutdown pending" mode until all active sockets are closed.
5519# This value is the lifetime to set for all open descriptors
5520# during shutdown mode. Any active clients after this many
5521# seconds will receive a 'timeout' message.
5522#Default:
5523# shutdown_lifetime 30 seconds
5524
5525# ADMINISTRATIVE PARAMETERS
5526# -----------------------------------------------------------------------------
5527
5528# TAG: cache_mgr
5529# Email-address of local cache manager who will receive
5530# mail if the cache dies. The default is "webmaster".
5531#Default:
5532# cache_mgr webmaster
5533
5534# TAG: mail_from
5535# From: email-address for mail sent when the cache dies.
5536# The default is to use 'squid@unique_hostname'.
5537#
5538# See also: unique_hostname directive.
5539#Default:
5540# none
5541
5542# TAG: mail_program
5543# Email program used to send mail if the cache dies.
5544# The default is "mail". The specified program must comply
5545# with the standard Unix mail syntax:
5546# mail-program recipient < mailfile
5547#
5548# Optional command line options can be specified.
5549#Default:
5550# mail_program mail
5551
5552# TAG: cache_effective_user
5553# If you start Squid as root, it will change its effective/real
5554# UID/GID to the user specified below. The default is to change
5555# to UID of proxy.
5556# see also; cache_effective_group
5557#Default:
5558# cache_effective_user proxy
5559
5560# TAG: cache_effective_group
5561# Squid sets the GID to the effective user's default group ID
5562# (taken from the password file) and supplementary group list
5563# from the groups membership.
5564#
5565# If you want Squid to run with a specific GID regardless of
5566# the group memberships of the effective user then set this
5567# to the group (or GID) you want Squid to run as. When set
5568# all other group privileges of the effective user are ignored
5569# and only this GID is effective. If Squid is not started as
5570# root the user starting Squid MUST be member of the specified
5571# group.
5572#
5573# This option is not recommended by the Squid Team.
5574# Our preference is for administrators to configure a secure
5575# user account for squid with UID/GID matching system policies.
5576#Default:
5577# Use system group memberships of the cache_effective_user account
5578
5579# TAG: httpd_suppress_version_string on|off
5580# Suppress Squid version string info in HTTP headers and HTML error pages.
5581#Default:
5582# httpd_suppress_version_string off
5583
5584# TAG: visible_hostname
5585# If you want to present a special hostname in error messages, etc,
5586# define this. Otherwise, the return value of gethostname()
5587# will be used. If you have multiple caches in a cluster and
5588# get errors about IP-forwarding you must set them to have individual
5589# names with this setting.
5590#Default:
5591# Automatically detect the system host name
5592
5593# TAG: unique_hostname
5594# If you want to have multiple machines with the same
5595# 'visible_hostname' you must give each machine a different
5596# 'unique_hostname' so forwarding loops can be detected.
5597#Default:
5598# Copy the value from visible_hostname
5599
5600# TAG: hostname_aliases
5601# A list of other DNS names your cache has.
5602#Default:
5603# none
5604
5605# TAG: umask
5606# Minimum umask which should be enforced while the proxy
5607# is running, in addition to the umask set at startup.
5608#
5609# For a traditional octal representation of umasks, start
5610# your value with 0.
5611#Default:
5612# umask 027
5613
5614# OPTIONS FOR THE CACHE REGISTRATION SERVICE
5615# -----------------------------------------------------------------------------
5616#
5617# This section contains parameters for the (optional) cache
5618# announcement service. This service is provided to help
5619# cache administrators locate one another in order to join or
5620# create cache hierarchies.
5621#
5622# An 'announcement' message is sent (via UDP) to the registration
5623# service by Squid. By default, the announcement message is NOT
5624# SENT unless you enable it with 'announce_period' below.
5625#
5626# The announcement message includes your hostname, plus the
5627# following information from this configuration file:
5628#
5629# http_port
5630# icp_port
5631# cache_mgr
5632#
5633# All current information is processed regularly and made
5634# available on the Web at http://www.ircache.net/Cache/Tracker/.
5635
5636# TAG: announce_period
5637# This is how frequently to send cache announcements.
5638#
5639# To enable announcing your cache, just set an announce period.
5640#
5641# Example:
5642# announce_period 1 day
5643#Default:
5644# Announcement messages disabled.
5645
5646# TAG: announce_host
5647# Set the hostname where announce registration messages will be sent.
5648#
5649# See also announce_port and announce_file
5650#Default:
5651# announce_host tracker.ircache.net
5652
5653# TAG: announce_file
5654# The contents of this file will be included in the announce
5655# registration messages.
5656#Default:
5657# none
5658
5659# TAG: announce_port
5660# Set the port where announce registration messages will be sent.
5661#
5662# See also announce_host and announce_file
5663#Default:
5664# announce_port 3131
5665
5666# HTTPD-ACCELERATOR OPTIONS
5667# -----------------------------------------------------------------------------
5668
5669# TAG: httpd_accel_surrogate_id
5670# Surrogates (http://www.esi.org/architecture_spec_1.0.html)
5671# need an identification token to allow control targeting. Because
5672# a farm of surrogates may all perform the same tasks, they may share
5673# an identification token.
5674#Default:
5675# visible_hostname is used if no specific ID is set.
5676
5677# TAG: http_accel_surrogate_remote on|off
5678# Remote surrogates (such as those in a CDN) honour the header
5679# "Surrogate-Control: no-store-remote".
5680#
5681# Set this to on to have squid behave as a remote surrogate.
5682#Default:
5683# http_accel_surrogate_remote off
5684
5685# TAG: esi_parser libxml2|expat|custom
5686# ESI markup is not strictly XML compatible. The custom ESI parser
5687# will give higher performance, but cannot handle non ASCII character
5688# encodings.
5689#Default:
5690# esi_parser custom
5691
5692# DELAY POOL PARAMETERS
5693# -----------------------------------------------------------------------------
5694
5695# TAG: delay_pools
5696# This represents the number of delay pools to be used. For example,
5697# if you have one class 2 delay pool and one class 3 delays pool, you
5698# have a total of 2 delay pools.
5699#
5700# See also delay_parameters, delay_class, delay_access for pool
5701# configuration details.
5702#Default:
5703# delay_pools 0
5704
5705# TAG: delay_class
5706# This defines the class of each delay pool. There must be exactly one
5707# delay_class line for each delay pool. For example, to define two
5708# delay pools, one of class 2 and one of class 3, the settings above
5709# and here would be:
5710#
5711# Example:
5712# delay_pools 4 # 4 delay pools
5713# delay_class 1 2 # pool 1 is a class 2 pool
5714# delay_class 2 3 # pool 2 is a class 3 pool
5715# delay_class 3 4 # pool 3 is a class 4 pool
5716# delay_class 4 5 # pool 4 is a class 5 pool
5717#
5718# The delay pool classes are:
5719#
5720# class 1 Everything is limited by a single aggregate
5721# bucket.
5722#
5723# class 2 Everything is limited by a single aggregate
5724# bucket as well as an "individual" bucket chosen
5725# from bits 25 through 32 of the IPv4 address.
5726#
5727# class 3 Everything is limited by a single aggregate
5728# bucket as well as a "network" bucket chosen
5729# from bits 17 through 24 of the IP address and a
5730# "individual" bucket chosen from bits 17 through
5731# 32 of the IPv4 address.
5732#
5733# class 4 Everything in a class 3 delay pool, with an
5734# additional limit on a per user basis. This
5735# only takes effect if the username is established
5736# in advance - by forcing authentication in your
5737# http_access rules.
5738#
5739# class 5 Requests are grouped according their tag (see
5740# external_acl's tag= reply).
5741#
5742#
5743# Each pool also requires a delay_parameters directive to configure the pool size
5744# and speed limits used whenever the pool is applied to a request. Along with
5745# a set of delay_access directives to determine when it is used.
5746#
5747# NOTE: If an IP address is a.b.c.d
5748# -> bits 25 through 32 are "d"
5749# -> bits 17 through 24 are "c"
5750# -> bits 17 through 32 are "c * 256 + d"
5751#
5752# NOTE-2: Due to the use of bitmasks in class 2,3,4 pools they only apply to
5753# IPv4 traffic. Class 1 and 5 pools may be used with IPv6 traffic.
5754#
5755# This clause only supports fast acl types.
5756# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
5757#
5758# See also delay_parameters and delay_access.
5759#Default:
5760# none
5761
5762# TAG: delay_access
5763# This is used to determine which delay pool a request falls into.
5764#
5765# delay_access is sorted per pool and the matching starts with pool 1,
5766# then pool 2, ..., and finally pool N. The first delay pool where the
5767# request is allowed is selected for the request. If it does not allow
5768# the request to any pool then the request is not delayed (default).
5769#
5770# For example, if you want some_big_clients in delay
5771# pool 1 and lotsa_little_clients in delay pool 2:
5772#
5773# delay_access 1 allow some_big_clients
5774# delay_access 1 deny all
5775# delay_access 2 allow lotsa_little_clients
5776# delay_access 2 deny all
5777# delay_access 3 allow authenticated_clients
5778#
5779# See also delay_parameters and delay_class.
5780#
5781#Default:
5782# Deny using the pool, unless allow rules exist in squid.conf for the pool.
5783
5784# TAG: delay_parameters
5785# This defines the parameters for a delay pool. Each delay pool has
5786# a number of "buckets" associated with it, as explained in the
5787# description of delay_class.
5788#
5789# For a class 1 delay pool, the syntax is:
5790# delay_class pool 1
5791# delay_parameters pool aggregate
5792#
5793# For a class 2 delay pool:
5794# delay_class pool 2
5795# delay_parameters pool aggregate individual
5796#
5797# For a class 3 delay pool:
5798# delay_class pool 3
5799# delay_parameters pool aggregate network individual
5800#
5801# For a class 4 delay pool:
5802# delay_class pool 4
5803# delay_parameters pool aggregate network individual user
5804#
5805# For a class 5 delay pool:
5806# delay_class pool 5
5807# delay_parameters pool tagrate
5808#
5809# The option variables are:
5810#
5811# pool a pool number - ie, a number between 1 and the
5812# number specified in delay_pools as used in
5813# delay_class lines.
5814#
5815# aggregate the speed limit parameters for the aggregate bucket
5816# (class 1, 2, 3).
5817#
5818# individual the speed limit parameters for the individual
5819# buckets (class 2, 3).
5820#
5821# network the speed limit parameters for the network buckets
5822# (class 3).
5823#
5824# user the speed limit parameters for the user buckets
5825# (class 4).
5826#
5827# tagrate the speed limit parameters for the tag buckets
5828# (class 5).
5829#
5830# A pair of delay parameters is written restore/maximum, where restore is
5831# the number of bytes (not bits - modem and network speeds are usually
5832# quoted in bits) per second placed into the bucket, and maximum is the
5833# maximum number of bytes which can be in the bucket at any time.
5834#
5835# There must be one delay_parameters line for each delay pool.
5836#
5837#
5838# For example, if delay pool number 1 is a class 2 delay pool as in the
5839# above example, and is being used to strictly limit each host to 64Kbit/sec
5840# (plus overheads), with no overall limit, the line is:
5841#
5842# delay_parameters 1 none 8000/8000
5843#
5844# Note that 8 x 8K Byte/sec -> 64K bit/sec.
5845#
5846# Note that the word 'none' is used to represent no limit.
5847#
5848#
5849# And, if delay pool number 2 is a class 3 delay pool as in the above
5850# example, and you want to limit it to a total of 256Kbit/sec (strict limit)
5851# with each 8-bit network permitted 64Kbit/sec (strict limit) and each
5852# individual host permitted 4800bit/sec with a bucket maximum size of 64Kbits
5853# to permit a decent web page to be downloaded at a decent speed
5854# (if the network is not being limited due to overuse) but slow down
5855# large downloads more significantly:
5856#
5857# delay_parameters 2 32000/32000 8000/8000 600/8000
5858#
5859# Note that 8 x 32K Byte/sec -> 256K bit/sec.
5860# 8 x 8K Byte/sec -> 64K bit/sec.
5861# 8 x 600 Byte/sec -> 4800 bit/sec.
5862#
5863#
5864# Finally, for a class 4 delay pool as in the example - each user will
5865# be limited to 128Kbits/sec no matter how many workstations they are logged into.:
5866#
5867# delay_parameters 4 32000/32000 8000/8000 600/64000 16000/16000
5868#
5869#
5870# See also delay_class and delay_access.
5871#
5872#Default:
5873# none
5874
5875# TAG: delay_initial_bucket_level (percent, 0-100)
5876# The initial bucket percentage is used to determine how much is put
5877# in each bucket when squid starts, is reconfigured, or first notices
5878# a host accessing it (in class 2 and class 3, individual hosts and
5879# networks only have buckets associated with them once they have been
5880# "seen" by squid).
5881#Default:
5882# delay_initial_bucket_level 50
5883
5884# CLIENT DELAY POOL PARAMETERS
5885# -----------------------------------------------------------------------------
5886
5887# TAG: client_delay_pools
5888# This option specifies the number of client delay pools used. It must
5889# preceed other client_delay_* options.
5890#
5891# Example:
5892# client_delay_pools 2
5893#
5894# See also client_delay_parameters and client_delay_access.
5895#Default:
5896# client_delay_pools 0
5897
5898# TAG: client_delay_initial_bucket_level (percent, 0-no_limit)
5899# This option determines the initial bucket size as a percentage of
5900# max_bucket_size from client_delay_parameters. Buckets are created
5901# at the time of the "first" connection from the matching IP. Idle
5902# buckets are periodically deleted up.
5903#
5904# You can specify more than 100 percent but note that such "oversized"
5905# buckets are not refilled until their size goes down to max_bucket_size
5906# from client_delay_parameters.
5907#
5908# Example:
5909# client_delay_initial_bucket_level 50
5910#Default:
5911# client_delay_initial_bucket_level 50
5912
5913# TAG: client_delay_parameters
5914#
5915# This option configures client-side bandwidth limits using the
5916# following format:
5917#
5918# client_delay_parameters pool speed_limit max_bucket_size
5919#
5920# pool is an integer ID used for client_delay_access matching.
5921#
5922# speed_limit is bytes added to the bucket per second.
5923#
5924# max_bucket_size is the maximum size of a bucket, enforced after any
5925# speed_limit additions.
5926#
5927# Please see the delay_parameters option for more information and
5928# examples.
5929#
5930# Example:
5931# client_delay_parameters 1 1024 2048
5932# client_delay_parameters 2 51200 16384
5933#
5934# See also client_delay_access.
5935#
5936#Default:
5937# none
5938
5939# TAG: client_delay_access
5940# This option determines the client-side delay pool for the
5941# request:
5942#
5943# client_delay_access pool_ID allow|deny acl_name
5944#
5945# All client_delay_access options are checked in their pool ID
5946# order, starting with pool 1. The first checked pool with allowed
5947# request is selected for the request. If no ACL matches or there
5948# are no client_delay_access options, the request bandwidth is not
5949# limited.
5950#
5951# The ACL-selected pool is then used to find the
5952# client_delay_parameters for the request. Client-side pools are
5953# not used to aggregate clients. Clients are always aggregated
5954# based on their source IP addresses (one bucket per source IP).
5955#
5956# This clause only supports fast acl types.
5957# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
5958# Additionally, only the client TCP connection details are available.
5959# ACLs testing HTTP properties will not work.
5960#
5961# Please see delay_access for more examples.
5962#
5963# Example:
5964# client_delay_access 1 allow low_rate_network
5965# client_delay_access 2 allow vips_network
5966#
5967#
5968# See also client_delay_parameters and client_delay_pools.
5969#Default:
5970# Deny use of the pool, unless allow rules exist in squid.conf for the pool.
5971
5972# WCCPv1 AND WCCPv2 CONFIGURATION OPTIONS
5973# -----------------------------------------------------------------------------
5974
5975# TAG: wccp_router
5976# Use this option to define your WCCP ``home'' router for
5977# Squid.
5978#
5979# wccp_router supports a single WCCP(v1) router
5980#
5981# wccp2_router supports multiple WCCPv2 routers
5982#
5983# only one of the two may be used at the same time and defines
5984# which version of WCCP to use.
5985#Default:
5986# WCCP disabled.
5987
5988# TAG: wccp2_router
5989# Use this option to define your WCCP ``home'' router for
5990# Squid.
5991#
5992# wccp_router supports a single WCCP(v1) router
5993#
5994# wccp2_router supports multiple WCCPv2 routers
5995#
5996# only one of the two may be used at the same time and defines
5997# which version of WCCP to use.
5998#Default:
5999# WCCPv2 disabled.
6000
6001# TAG: wccp_version
6002# This directive is only relevant if you need to set up WCCP(v1)
6003# to some very old and end-of-life Cisco routers. In all other
6004# setups it must be left unset or at the default setting.
6005# It defines an internal version in the WCCP(v1) protocol,
6006# with version 4 being the officially documented protocol.
6007#
6008# According to some users, Cisco IOS 11.2 and earlier only
6009# support WCCP version 3. If you're using that or an earlier
6010# version of IOS, you may need to change this value to 3, otherwise
6011# do not specify this parameter.
6012#Default:
6013# wccp_version 4
6014
6015# TAG: wccp2_rebuild_wait
6016# If this is enabled Squid will wait for the cache dir rebuild to finish
6017# before sending the first wccp2 HereIAm packet
6018#Default:
6019# wccp2_rebuild_wait on
6020
6021# TAG: wccp2_forwarding_method
6022# WCCP2 allows the setting of forwarding methods between the
6023# router/switch and the cache. Valid values are as follows:
6024#
6025# gre - GRE encapsulation (forward the packet in a GRE/WCCP tunnel)
6026# l2 - L2 redirect (forward the packet using Layer 2/MAC rewriting)
6027#
6028# Currently (as of IOS 12.4) cisco routers only support GRE.
6029# Cisco switches only support the L2 redirect assignment method.
6030#Default:
6031# wccp2_forwarding_method gre
6032
6033# TAG: wccp2_return_method
6034# WCCP2 allows the setting of return methods between the
6035# router/switch and the cache for packets that the cache
6036# decides not to handle. Valid values are as follows:
6037#
6038# gre - GRE encapsulation (forward the packet in a GRE/WCCP tunnel)
6039# l2 - L2 redirect (forward the packet using Layer 2/MAC rewriting)
6040#
6041# Currently (as of IOS 12.4) cisco routers only support GRE.
6042# Cisco switches only support the L2 redirect assignment.
6043#
6044# If the "ip wccp redirect exclude in" command has been
6045# enabled on the cache interface, then it is still safe for
6046# the proxy server to use a l2 redirect method even if this
6047# option is set to GRE.
6048#Default:
6049# wccp2_return_method gre
6050
6051# TAG: wccp2_assignment_method
6052# WCCP2 allows the setting of methods to assign the WCCP hash
6053# Valid values are as follows:
6054#
6055# hash - Hash assignment
6056# mask - Mask assignment
6057#
6058# As a general rule, cisco routers support the hash assignment method
6059# and cisco switches support the mask assignment method.
6060#Default:
6061# wccp2_assignment_method hash
6062
6063# TAG: wccp2_service
6064# WCCP2 allows for multiple traffic services. There are two
6065# types: "standard" and "dynamic". The standard type defines
6066# one service id - http (id 0). The dynamic service ids can be from
6067# 51 to 255 inclusive. In order to use a dynamic service id
6068# one must define the type of traffic to be redirected; this is done
6069# using the wccp2_service_info option.
6070#
6071# The "standard" type does not require a wccp2_service_info option,
6072# just specifying the service id will suffice.
6073#
6074# MD5 service authentication can be enabled by adding
6075# "password=<password>" to the end of this service declaration.
6076#
6077# Examples:
6078#
6079# wccp2_service standard 0 # for the 'web-cache' standard service
6080# wccp2_service dynamic 80 # a dynamic service type which will be
6081# # fleshed out with subsequent options.
6082# wccp2_service standard 0 password=foo
6083#Default:
6084# Use the 'web-cache' standard service.
6085
6086# TAG: wccp2_service_info
6087# Dynamic WCCPv2 services require further information to define the
6088# traffic you wish to have diverted.
6089#
6090# The format is:
6091#
6092# wccp2_service_info <id> protocol=<protocol> flags=<flag>,<flag>..
6093# priority=<priority> ports=<port>,<port>..
6094#
6095# The relevant WCCPv2 flags:
6096# + src_ip_hash, dst_ip_hash
6097# + source_port_hash, dst_port_hash
6098# + src_ip_alt_hash, dst_ip_alt_hash
6099# + src_port_alt_hash, dst_port_alt_hash
6100# + ports_source
6101#
6102# The port list can be one to eight entries.
6103#
6104# Example:
6105#
6106# wccp2_service_info 80 protocol=tcp flags=src_ip_hash,ports_source
6107# priority=240 ports=80
6108#
6109# Note: the service id must have been defined by a previous
6110# 'wccp2_service dynamic <id>' entry.
6111#Default:
6112# none
6113
6114# TAG: wccp2_weight
6115# Each cache server gets assigned a set of the destination
6116# hash proportional to their weight.
6117#Default:
6118# wccp2_weight 10000
6119
6120# TAG: wccp_address
6121# Use this option if you require WCCPv2 to use a specific
6122# interface address.
6123#
6124# The default behavior is to not bind to any specific address.
6125#Default:
6126# Address selected by the operating system.
6127
6128# TAG: wccp2_address
6129# Use this option if you require WCCP to use a specific
6130# interface address.
6131#
6132# The default behavior is to not bind to any specific address.
6133#Default:
6134# Address selected by the operating system.
6135
6136# PERSISTENT CONNECTION HANDLING
6137# -----------------------------------------------------------------------------
6138#
6139# Also see "pconn_timeout" in the TIMEOUTS section
6140
6141# TAG: client_persistent_connections
6142# Persistent connection support for clients.
6143# Squid uses persistent connections (when allowed). You can use
6144# this option to disable persistent connections with clients.
6145#Default:
6146# client_persistent_connections on
6147
6148# TAG: server_persistent_connections
6149# Persistent connection support for servers.
6150# Squid uses persistent connections (when allowed). You can use
6151# this option to disable persistent connections with servers.
6152#Default:
6153# server_persistent_connections on
6154
6155# TAG: persistent_connection_after_error
6156# With this directive the use of persistent connections after
6157# HTTP errors can be disabled. Useful if you have clients
6158# who fail to handle errors on persistent connections proper.
6159#Default:
6160# persistent_connection_after_error on
6161
6162# TAG: detect_broken_pconn
6163# Some servers have been found to incorrectly signal the use
6164# of HTTP/1.0 persistent connections even on replies not
6165# compatible, causing significant delays. This server problem
6166# has mostly been seen on redirects.
6167#
6168# By enabling this directive Squid attempts to detect such
6169# broken replies and automatically assume the reply is finished
6170# after 10 seconds timeout.
6171#Default:
6172# detect_broken_pconn off
6173
6174# CACHE DIGEST OPTIONS
6175# -----------------------------------------------------------------------------
6176
6177# TAG: digest_generation
6178# This controls whether the server will generate a Cache Digest
6179# of its contents. By default, Cache Digest generation is
6180# enabled if Squid is compiled with --enable-cache-digests defined.
6181#Default:
6182# digest_generation on
6183
6184# TAG: digest_bits_per_entry
6185# This is the number of bits of the server's Cache Digest which
6186# will be associated with the Digest entry for a given HTTP
6187# Method and URL (public key) combination. The default is 5.
6188#Default:
6189# digest_bits_per_entry 5
6190
6191# TAG: digest_rebuild_period (seconds)
6192# This is the wait time between Cache Digest rebuilds.
6193#Default:
6194# digest_rebuild_period 1 hour
6195
6196# TAG: digest_rewrite_period (seconds)
6197# This is the wait time between Cache Digest writes to
6198# disk.
6199#Default:
6200# digest_rewrite_period 1 hour
6201
6202# TAG: digest_swapout_chunk_size (bytes)
6203# This is the number of bytes of the Cache Digest to write to
6204# disk at a time. It defaults to 4096 bytes (4KB), the Squid
6205# default swap page.
6206#Default:
6207# digest_swapout_chunk_size 4096 bytes
6208
6209# TAG: digest_rebuild_chunk_percentage (percent, 0-100)
6210# This is the percentage of the Cache Digest to be scanned at a
6211# time. By default it is set to 10% of the Cache Digest.
6212#Default:
6213# digest_rebuild_chunk_percentage 10
6214
6215# SNMP OPTIONS
6216# -----------------------------------------------------------------------------
6217
6218# TAG: snmp_port
6219# The port number where Squid listens for SNMP requests. To enable
6220# SNMP support set this to a suitable port number. Port number
6221# 3401 is often used for the Squid SNMP agent. By default it's
6222# set to "0" (disabled)
6223#
6224# Example:
6225# snmp_port 3401
6226#Default:
6227# SNMP disabled.
6228
6229# TAG: snmp_access
6230# Allowing or denying access to the SNMP port.
6231#
6232# All access to the agent is denied by default.
6233# usage:
6234#
6235# snmp_access allow|deny [!]aclname ...
6236#
6237# This clause only supports fast acl types.
6238# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
6239#
6240#Example:
6241# snmp_access allow snmppublic localhost
6242# snmp_access deny all
6243#Default:
6244# Deny, unless rules exist in squid.conf.
6245
6246# TAG: snmp_incoming_address
6247# Just like 'udp_incoming_address', but for the SNMP port.
6248#
6249# snmp_incoming_address is used for the SNMP socket receiving
6250# messages from SNMP agents.
6251#
6252# The default snmp_incoming_address is to listen on all
6253# available network interfaces.
6254#Default:
6255# Accept SNMP packets from all machine interfaces.
6256
6257# TAG: snmp_outgoing_address
6258# Just like 'udp_outgoing_address', but for the SNMP port.
6259#
6260# snmp_outgoing_address is used for SNMP packets returned to SNMP
6261# agents.
6262#
6263# If snmp_outgoing_address is not set it will use the same socket
6264# as snmp_incoming_address. Only change this if you want to have
6265# SNMP replies sent using another address than where this Squid
6266# listens for SNMP queries.
6267#
6268# NOTE, snmp_incoming_address and snmp_outgoing_address can not have
6269# the same value since they both use the same port.
6270#Default:
6271# Use snmp_incoming_address or an address selected by the operating system.
6272
6273# ICP OPTIONS
6274# -----------------------------------------------------------------------------
6275
6276# TAG: icp_port
6277# The port number where Squid sends and receives ICP queries to
6278# and from neighbor caches. The standard UDP port for ICP is 3130.
6279#
6280# Example:
6281# icp_port 3130
6282#Default:
6283# ICP disabled.
6284
6285# TAG: htcp_port
6286# The port number where Squid sends and receives HTCP queries to
6287# and from neighbor caches. To turn it on you want to set it to
6288# 4827.
6289#
6290# Example:
6291# htcp_port 4827
6292#Default:
6293# HTCP disabled.
6294
6295# TAG: log_icp_queries on|off
6296# If set, ICP queries are logged to access.log. You may wish
6297# do disable this if your ICP load is VERY high to speed things
6298# up or to simplify log analysis.
6299#Default:
6300# log_icp_queries on
6301
6302# TAG: udp_incoming_address
6303# udp_incoming_address is used for UDP packets received from other
6304# caches.
6305#
6306# The default behavior is to not bind to any specific address.
6307#
6308# Only change this if you want to have all UDP queries received on
6309# a specific interface/address.
6310#
6311# NOTE: udp_incoming_address is used by the ICP, HTCP, and DNS
6312# modules. Altering it will affect all of them in the same manner.
6313#
6314# see also; udp_outgoing_address
6315#
6316# NOTE, udp_incoming_address and udp_outgoing_address can not
6317# have the same value since they both use the same port.
6318#Default:
6319# Accept packets from all machine interfaces.
6320
6321# TAG: udp_outgoing_address
6322# udp_outgoing_address is used for UDP packets sent out to other
6323# caches.
6324#
6325# The default behavior is to not bind to any specific address.
6326#
6327# Instead it will use the same socket as udp_incoming_address.
6328# Only change this if you want to have UDP queries sent using another
6329# address than where this Squid listens for UDP queries from other
6330# caches.
6331#
6332# NOTE: udp_outgoing_address is used by the ICP, HTCP, and DNS
6333# modules. Altering it will affect all of them in the same manner.
6334#
6335# see also; udp_incoming_address
6336#
6337# NOTE, udp_incoming_address and udp_outgoing_address can not
6338# have the same value since they both use the same port.
6339#Default:
6340# Use udp_incoming_address or an address selected by the operating system.
6341
6342# TAG: icp_hit_stale on|off
6343# If you want to return ICP_HIT for stale cache objects, set this
6344# option to 'on'. If you have sibling relationships with caches
6345# in other administrative domains, this should be 'off'. If you only
6346# have sibling relationships with caches under your control,
6347# it is probably okay to set this to 'on'.
6348# If set to 'on', your siblings should use the option "allow-miss"
6349# on their cache_peer lines for connecting to you.
6350#Default:
6351# icp_hit_stale off
6352
6353# TAG: minimum_direct_hops
6354# If using the ICMP pinging stuff, do direct fetches for sites
6355# which are no more than this many hops away.
6356#Default:
6357# minimum_direct_hops 4
6358
6359# TAG: minimum_direct_rtt (msec)
6360# If using the ICMP pinging stuff, do direct fetches for sites
6361# which are no more than this many rtt milliseconds away.
6362#Default:
6363# minimum_direct_rtt 400
6364
6365# TAG: netdb_low
6366# The low water mark for the ICMP measurement database.
6367#
6368# Note: high watermark controlled by netdb_high directive.
6369#
6370# These watermarks are counts, not percents. The defaults are
6371# (low) 900 and (high) 1000. When the high water mark is
6372# reached, database entries will be deleted until the low
6373# mark is reached.
6374#Default:
6375# netdb_low 900
6376
6377# TAG: netdb_high
6378# The high water mark for the ICMP measurement database.
6379#
6380# Note: low watermark controlled by netdb_low directive.
6381#
6382# These watermarks are counts, not percents. The defaults are
6383# (low) 900 and (high) 1000. When the high water mark is
6384# reached, database entries will be deleted until the low
6385# mark is reached.
6386#Default:
6387# netdb_high 1000
6388
6389# TAG: netdb_ping_period
6390# The minimum period for measuring a site. There will be at
6391# least this much delay between successive pings to the same
6392# network. The default is five minutes.
6393#Default:
6394# netdb_ping_period 5 minutes
6395
6396# TAG: query_icmp on|off
6397# If you want to ask your peers to include ICMP data in their ICP
6398# replies, enable this option.
6399#
6400# If your peer has configured Squid (during compilation) with
6401# '--enable-icmp' that peer will send ICMP pings to origin server
6402# sites of the URLs it receives. If you enable this option the
6403# ICP replies from that peer will include the ICMP data (if available).
6404# Then, when choosing a parent cache, Squid will choose the parent with
6405# the minimal RTT to the origin server. When this happens, the
6406# hierarchy field of the access.log will be
6407# "CLOSEST_PARENT_MISS". This option is off by default.
6408#Default:
6409# query_icmp off
6410
6411# TAG: test_reachability on|off
6412# When this is 'on', ICP MISS replies will be ICP_MISS_NOFETCH
6413# instead of ICP_MISS if the target host is NOT in the ICMP
6414# database, or has a zero RTT.
6415#Default:
6416# test_reachability off
6417
6418# TAG: icp_query_timeout (msec)
6419# Normally Squid will automatically determine an optimal ICP
6420# query timeout value based on the round-trip-time of recent ICP
6421# queries. If you want to override the value determined by
6422# Squid, set this 'icp_query_timeout' to a non-zero value. This
6423# value is specified in MILLISECONDS, so, to use a 2-second
6424# timeout (the old default), you would write:
6425#
6426# icp_query_timeout 2000
6427#Default:
6428# Dynamic detection.
6429
6430# TAG: maximum_icp_query_timeout (msec)
6431# Normally the ICP query timeout is determined dynamically. But
6432# sometimes it can lead to very large values (say 5 seconds).
6433# Use this option to put an upper limit on the dynamic timeout
6434# value. Do NOT use this option to always use a fixed (instead
6435# of a dynamic) timeout value. To set a fixed timeout see the
6436# 'icp_query_timeout' directive.
6437#Default:
6438# maximum_icp_query_timeout 2000
6439
6440# TAG: minimum_icp_query_timeout (msec)
6441# Normally the ICP query timeout is determined dynamically. But
6442# sometimes it can lead to very small timeouts, even lower than
6443# the normal latency variance on your link due to traffic.
6444# Use this option to put an lower limit on the dynamic timeout
6445# value. Do NOT use this option to always use a fixed (instead
6446# of a dynamic) timeout value. To set a fixed timeout see the
6447# 'icp_query_timeout' directive.
6448#Default:
6449# minimum_icp_query_timeout 5
6450
6451# TAG: background_ping_rate time-units
6452# Controls how often the ICP pings are sent to siblings that
6453# have background-ping set.
6454#Default:
6455# background_ping_rate 10 seconds
6456
6457# MULTICAST ICP OPTIONS
6458# -----------------------------------------------------------------------------
6459
6460# TAG: mcast_groups
6461# This tag specifies a list of multicast groups which your server
6462# should join to receive multicasted ICP queries.
6463#
6464# NOTE! Be very careful what you put here! Be sure you
6465# understand the difference between an ICP _query_ and an ICP
6466# _reply_. This option is to be set only if you want to RECEIVE
6467# multicast queries. Do NOT set this option to SEND multicast
6468# ICP (use cache_peer for that). ICP replies are always sent via
6469# unicast, so this option does not affect whether or not you will
6470# receive replies from multicast group members.
6471#
6472# You must be very careful to NOT use a multicast address which
6473# is already in use by another group of caches.
6474#
6475# If you are unsure about multicast, please read the Multicast
6476# chapter in the Squid FAQ (http://www.squid-cache.org/FAQ/).
6477#
6478# Usage: mcast_groups 239.128.16.128 224.0.1.20
6479#
6480# By default, Squid doesn't listen on any multicast groups.
6481#Default:
6482# none
6483
6484# TAG: mcast_miss_addr
6485# Note: This option is only available if Squid is rebuilt with the
6486# -DMULTICAST_MISS_STREAM define
6487#
6488# If you enable this option, every "cache miss" URL will
6489# be sent out on the specified multicast address.
6490#
6491# Do not enable this option unless you are are absolutely
6492# certain you understand what you are doing.
6493#Default:
6494# disabled.
6495
6496# TAG: mcast_miss_ttl
6497# Note: This option is only available if Squid is rebuilt with the
6498# -DMULTICAST_MISS_STREAM define
6499#
6500# This is the time-to-live value for packets multicasted
6501# when multicasting off cache miss URLs is enabled. By
6502# default this is set to 'site scope', i.e. 16.
6503#Default:
6504# mcast_miss_ttl 16
6505
6506# TAG: mcast_miss_port
6507# Note: This option is only available if Squid is rebuilt with the
6508# -DMULTICAST_MISS_STREAM define
6509#
6510# This is the port number to be used in conjunction with
6511# 'mcast_miss_addr'.
6512#Default:
6513# mcast_miss_port 3135
6514
6515# TAG: mcast_miss_encode_key
6516# Note: This option is only available if Squid is rebuilt with the
6517# -DMULTICAST_MISS_STREAM define
6518#
6519# The URLs that are sent in the multicast miss stream are
6520# encrypted. This is the encryption key.
6521#Default:
6522# mcast_miss_encode_key XXXXXXXXXXXXXXXX
6523
6524# TAG: mcast_icp_query_timeout (msec)
6525# For multicast peers, Squid regularly sends out ICP "probes" to
6526# count how many other peers are listening on the given multicast
6527# address. This value specifies how long Squid should wait to
6528# count all the replies. The default is 2000 msec, or 2
6529# seconds.
6530#Default:
6531# mcast_icp_query_timeout 2000
6532
6533# INTERNAL ICON OPTIONS
6534# -----------------------------------------------------------------------------
6535
6536# TAG: icon_directory
6537# Where the icons are stored. These are normally kept in
6538# /usr/share/squid/icons
6539#Default:
6540# icon_directory /usr/share/squid/icons
6541
6542# TAG: global_internal_static
6543# This directive controls is Squid should intercept all requests for
6544# /squid-internal-static/ no matter which host the URL is requesting
6545# (default on setting), or if nothing special should be done for
6546# such URLs (off setting). The purpose of this directive is to make
6547# icons etc work better in complex cache hierarchies where it may
6548# not always be possible for all corners in the cache mesh to reach
6549# the server generating a directory listing.
6550#Default:
6551# global_internal_static on
6552
6553# TAG: short_icon_urls
6554# If this is enabled Squid will use short URLs for icons.
6555# If disabled it will revert to the old behavior of including
6556# it's own name and port in the URL.
6557#
6558# If you run a complex cache hierarchy with a mix of Squid and
6559# other proxies you may need to disable this directive.
6560#Default:
6561# short_icon_urls on
6562
6563# ERROR PAGE OPTIONS
6564# -----------------------------------------------------------------------------
6565
6566# TAG: error_directory
6567# If you wish to create your own versions of the default
6568# error files to customize them to suit your company copy
6569# the error/template files to another directory and point
6570# this tag at them.
6571#
6572# WARNING: This option will disable multi-language support
6573# on error pages if used.
6574#
6575# The squid developers are interested in making squid available in
6576# a wide variety of languages. If you are making translations for a
6577# language that Squid does not currently provide please consider
6578# contributing your translation back to the project.
6579# http://wiki.squid-cache.org/Translations
6580#
6581# The squid developers working on translations are happy to supply drop-in
6582# translated error files in exchange for any new language contributions.
6583#Default:
6584# Send error pages in the clients preferred language
6585
6586# TAG: error_default_language
6587# Set the default language which squid will send error pages in
6588# if no existing translation matches the clients language
6589# preferences.
6590#
6591# If unset (default) generic English will be used.
6592#
6593# The squid developers are interested in making squid available in
6594# a wide variety of languages. If you are interested in making
6595# translations for any language see the squid wiki for details.
6596# http://wiki.squid-cache.org/Translations
6597#Default:
6598# Generate English language pages.
6599
6600# TAG: error_log_languages
6601# Log to cache.log what languages users are attempting to
6602# auto-negotiate for translations.
6603#
6604# Successful negotiations are not logged. Only failures
6605# have meaning to indicate that Squid may need an upgrade
6606# of its error page translations.
6607#Default:
6608# error_log_languages on
6609
6610# TAG: err_page_stylesheet
6611# CSS Stylesheet to pattern the display of Squid default error pages.
6612#
6613# For information on CSS see http://www.w3.org/Style/CSS/
6614#Default:
6615# err_page_stylesheet /etc/squid/errorpage.css
6616
6617# TAG: err_html_text
6618# HTML text to include in error messages. Make this a "mailto"
6619# URL to your admin address, or maybe just a link to your
6620# organizations Web page.
6621#
6622# To include this in your error messages, you must rewrite
6623# the error template files (found in the "errors" directory).
6624# Wherever you want the 'err_html_text' line to appear,
6625# insert a %L tag in the error template file.
6626#Default:
6627# none
6628
6629# TAG: email_err_data on|off
6630# If enabled, information about the occurred error will be
6631# included in the mailto links of the ERR pages (if %W is set)
6632# so that the email body contains the data.
6633# Syntax is <A HREF="mailto:%w%W">%w</A>
6634#Default:
6635# email_err_data on
6636
6637# TAG: deny_info
6638# Usage: deny_info err_page_name acl
6639# or deny_info http://... acl
6640# or deny_info TCP_RESET acl
6641#
6642# This can be used to return a ERR_ page for requests which
6643# do not pass the 'http_access' rules. Squid remembers the last
6644# acl it evaluated in http_access, and if a 'deny_info' line exists
6645# for that ACL Squid returns a corresponding error page.
6646#
6647# The acl is typically the last acl on the http_access deny line which
6648# denied access. The exceptions to this rule are:
6649# - When Squid needs to request authentication credentials. It's then
6650# the first authentication related acl encountered
6651# - When none of the http_access lines matches. It's then the last
6652# acl processed on the last http_access line.
6653# - When the decision to deny access was made by an adaptation service,
6654# the acl name is the corresponding eCAP or ICAP service_name.
6655#
6656# NP: If providing your own custom error pages with error_directory
6657# you may also specify them by your custom file name:
6658# Example: deny_info ERR_CUSTOM_ACCESS_DENIED bad_guys
6659#
6660# By defaut Squid will send "403 Forbidden". A different 4xx or 5xx
6661# may be specified by prefixing the file name with the code and a colon.
6662# e.g. 404:ERR_CUSTOM_ACCESS_DENIED
6663#
6664# Alternatively you can tell Squid to reset the TCP connection
6665# by specifying TCP_RESET.
6666#
6667# Or you can specify an error URL or URL pattern. The browsers will
6668# get redirected to the specified URL after formatting tags have
6669# been replaced. Redirect will be done with 302 or 307 according to
6670# HTTP/1.1 specs. A different 3xx code may be specified by prefixing
6671# the URL. e.g. 303:http://example.com/
6672#
6673# URL FORMAT TAGS:
6674# %a - username (if available. Password NOT included)
6675# %B - FTP path URL
6676# %e - Error number
6677# %E - Error description
6678# %h - Squid hostname
6679# %H - Request domain name
6680# %i - Client IP Address
6681# %M - Request Method
6682# %o - Message result from external ACL helper
6683# %p - Request Port number
6684# %P - Request Protocol name
6685# %R - Request URL path
6686# %T - Timestamp in RFC 1123 format
6687# %U - Full canonical URL from client
6688# (HTTPS URLs terminate with *)
6689# %u - Full canonical URL from client
6690# %w - Admin email from squid.conf
6691# %x - Error name
6692# %% - Literal percent (%) code
6693#
6694#Default:
6695# none
6696
6697# OPTIONS INFLUENCING REQUEST FORWARDING
6698# -----------------------------------------------------------------------------
6699
6700# TAG: nonhierarchical_direct
6701# By default, Squid will send any non-hierarchical requests
6702# (not cacheable request type) direct to origin servers.
6703#
6704# When this is set to "off", Squid will prefer to send these
6705# requests to parents.
6706#
6707# Note that in most configurations, by turning this off you will only
6708# add latency to these request without any improvement in global hit
6709# ratio.
6710#
6711# This option only sets a preference. If the parent is unavailable a
6712# direct connection to the origin server may still be attempted. To
6713# completely prevent direct connections use never_direct.
6714#Default:
6715# nonhierarchical_direct on
6716
6717# TAG: prefer_direct
6718# Normally Squid tries to use parents for most requests. If you for some
6719# reason like it to first try going direct and only use a parent if
6720# going direct fails set this to on.
6721#
6722# By combining nonhierarchical_direct off and prefer_direct on you
6723# can set up Squid to use a parent as a backup path if going direct
6724# fails.
6725#
6726# Note: If you want Squid to use parents for all requests see
6727# the never_direct directive. prefer_direct only modifies how Squid
6728# acts on cacheable requests.
6729#Default:
6730# prefer_direct off
6731
6732# TAG: cache_miss_revalidate on|off
6733# RFC 7232 defines a conditional request mechanism to prevent
6734# response objects being unnecessarily transferred over the network.
6735# If that mechanism is used by the client and a cache MISS occurs
6736# it can prevent new cache entries being created.
6737#
6738# This option determines whether Squid on cache MISS will pass the
6739# client revalidation request to the server or tries to fetch new
6740# content for caching. It can be useful while the cache is mostly
6741# empty to more quickly have the cache populated by generating
6742# non-conditional GETs.
6743#
6744# When set to 'on' (default), Squid will pass all client If-* headers
6745# to the server. This permits server responses without a cacheable
6746# payload to be delivered and on MISS no new cache entry is created.
6747#
6748# When set to 'off' and if the request is cacheable, Squid will
6749# remove the clients If-Modified-Since and If-None-Match headers from
6750# the request sent to the server. This requests a 200 status response
6751# from the server to create a new cache entry with.
6752#Default:
6753# cache_miss_revalidate on
6754
6755# TAG: always_direct
6756# Usage: always_direct allow|deny [!]aclname ...
6757#
6758# Here you can use ACL elements to specify requests which should
6759# ALWAYS be forwarded by Squid to the origin servers without using
6760# any peers. For example, to always directly forward requests for
6761# local servers ignoring any parents or siblings you may have use
6762# something like:
6763#
6764# acl local-servers dstdomain my.domain.net
6765# always_direct allow local-servers
6766#
6767# To always forward FTP requests directly, use
6768#
6769# acl FTP proto FTP
6770# always_direct allow FTP
6771#
6772# NOTE: There is a similar, but opposite option named
6773# 'never_direct'. You need to be aware that "always_direct deny
6774# foo" is NOT the same thing as "never_direct allow foo". You
6775# may need to use a deny rule to exclude a more-specific case of
6776# some other rule. Example:
6777#
6778# acl local-external dstdomain external.foo.net
6779# acl local-servers dstdomain .foo.net
6780# always_direct deny local-external
6781# always_direct allow local-servers
6782#
6783# NOTE: If your goal is to make the client forward the request
6784# directly to the origin server bypassing Squid then this needs
6785# to be done in the client configuration. Squid configuration
6786# can only tell Squid how Squid should fetch the object.
6787#
6788# NOTE: This directive is not related to caching. The replies
6789# is cached as usual even if you use always_direct. To not cache
6790# the replies see the 'cache' directive.
6791#
6792# This clause supports both fast and slow acl types.
6793# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
6794#Default:
6795# Prevent any cache_peer being used for this request.
6796
6797# TAG: never_direct
6798# Usage: never_direct allow|deny [!]aclname ...
6799#
6800# never_direct is the opposite of always_direct. Please read
6801# the description for always_direct if you have not already.
6802#
6803# With 'never_direct' you can use ACL elements to specify
6804# requests which should NEVER be forwarded directly to origin
6805# servers. For example, to force the use of a proxy for all
6806# requests, except those in your local domain use something like:
6807#
6808# acl local-servers dstdomain .foo.net
6809# never_direct deny local-servers
6810# never_direct allow all
6811#
6812# or if Squid is inside a firewall and there are local intranet
6813# servers inside the firewall use something like:
6814#
6815# acl local-intranet dstdomain .foo.net
6816# acl local-external dstdomain external.foo.net
6817# always_direct deny local-external
6818# always_direct allow local-intranet
6819# never_direct allow all
6820#
6821# This clause supports both fast and slow acl types.
6822# See http://wiki.squid-cache.org/SquidFaq/SquidAcl for details.
6823#Default:
6824# Allow DNS results to be used for this request.
6825
6826# ADVANCED NETWORKING OPTIONS
6827# -----------------------------------------------------------------------------
6828
6829# TAG: incoming_udp_average
6830# Heavy voodoo here. I can't even believe you are reading this.
6831# Are you crazy? Don't even think about adjusting these unless
6832# you understand the algorithms in comm_select.c first!
6833#Default:
6834# incoming_udp_average 6
6835
6836# TAG: incoming_tcp_average
6837# Heavy voodoo here. I can't even believe you are reading this.
6838# Are you crazy? Don't even think about adjusting these unless
6839# you understand the algorithms in comm_select.c first!
6840#Default:
6841# incoming_tcp_average 4
6842
6843# TAG: incoming_dns_average
6844# Heavy voodoo here. I can't even believe you are reading this.
6845# Are you crazy? Don't even think about adjusting these unless
6846# you understand the algorithms in comm_select.c first!
6847#Default:
6848# incoming_dns_average 4
6849
6850# TAG: min_udp_poll_cnt
6851# Heavy voodoo here. I can't even believe you are reading this.
6852# Are you crazy? Don't even think about adjusting these unless
6853# you understand the algorithms in comm_select.c first!
6854#Default:
6855# min_udp_poll_cnt 8
6856
6857# TAG: min_dns_poll_cnt
6858# Heavy voodoo here. I can't even believe you are reading this.
6859# Are you crazy? Don't even think about adjusting these unless
6860# you understand the algorithms in comm_select.c first!
6861#Default:
6862# min_dns_poll_cnt 8
6863
6864# TAG: min_tcp_poll_cnt
6865# Heavy voodoo here. I can't even believe you are reading this.
6866# Are you crazy? Don't even think about adjusting these unless
6867# you understand the algorithms in comm_select.c first!
6868#Default:
6869# min_tcp_poll_cnt 8
6870
6871# TAG: accept_filter
6872# FreeBSD:
6873#
6874# The name of an accept(2) filter to install on Squid's
6875# listen socket(s). This feature is perhaps specific to
6876# FreeBSD and requires support in the kernel.
6877#
6878# The 'httpready' filter delays delivering new connections
6879# to Squid until a full HTTP request has been received.
6880# See the accf_http(9) man page for details.
6881#
6882# The 'dataready' filter delays delivering new connections
6883# to Squid until there is some data to process.
6884# See the accf_dataready(9) man page for details.
6885#
6886# Linux:
6887#
6888# The 'data' filter delays delivering of new connections
6889# to Squid until there is some data to process by TCP_ACCEPT_DEFER.
6890# You may optionally specify a number of seconds to wait by
6891# 'data=N' where N is the number of seconds. Defaults to 30
6892# if not specified. See the tcp(7) man page for details.
6893#EXAMPLE:
6894## FreeBSD
6895#accept_filter httpready
6896## Linux
6897#accept_filter data
6898#Default:
6899# none
6900
6901# TAG: client_ip_max_connections
6902# Set an absolute limit on the number of connections a single
6903# client IP can use. Any more than this and Squid will begin to drop
6904# new connections from the client until it closes some links.
6905#
6906# Note that this is a global limit. It affects all HTTP, HTCP, Gopher and FTP
6907# connections from the client. For finer control use the ACL access controls.
6908#
6909# Requires client_db to be enabled (the default).
6910#
6911# WARNING: This may noticably slow down traffic received via external proxies
6912# or NAT devices and cause them to rebound error messages back to their clients.
6913#Default:
6914# No limit.
6915
6916# TAG: tcp_recv_bufsize (bytes)
6917# Size of receive buffer to set for TCP sockets. Probably just
6918# as easy to change your kernel's default.
6919# Omit from squid.conf to use the default buffer size.
6920#Default:
6921# Use operating system TCP defaults.
6922
6923# ICAP OPTIONS
6924# -----------------------------------------------------------------------------
6925
6926# TAG: icap_enable on|off
6927# If you want to enable the ICAP module support, set this to on.
6928#Default:
6929# icap_enable off
6930
6931# TAG: icap_connect_timeout
6932# This parameter specifies how long to wait for the TCP connect to
6933# the requested ICAP server to complete before giving up and either
6934# terminating the HTTP transaction or bypassing the failure.
6935#
6936# The default for optional services is peer_connect_timeout.
6937# The default for essential services is connect_timeout.
6938# If this option is explicitly set, its value applies to all services.
6939#Default:
6940# none
6941
6942# TAG: icap_io_timeout time-units
6943# This parameter specifies how long to wait for an I/O activity on
6944# an established, active ICAP connection before giving up and
6945# either terminating the HTTP transaction or bypassing the
6946# failure.
6947#Default:
6948# Use read_timeout.
6949
6950# TAG: icap_service_failure_limit limit [in memory-depth time-units]
6951# The limit specifies the number of failures that Squid tolerates
6952# when establishing a new TCP connection with an ICAP service. If
6953# the number of failures exceeds the limit, the ICAP service is
6954# not used for new ICAP requests until it is time to refresh its
6955# OPTIONS.
6956#
6957# A negative value disables the limit. Without the limit, an ICAP
6958# service will not be considered down due to connectivity failures
6959# between ICAP OPTIONS requests.
6960#
6961# Squid forgets ICAP service failures older than the specified
6962# value of memory-depth. The memory fading algorithm
6963# is approximate because Squid does not remember individual
6964# errors but groups them instead, splitting the option
6965# value into ten time slots of equal length.
6966#
6967# When memory-depth is 0 and by default this option has no
6968# effect on service failure expiration.
6969#
6970# Squid always forgets failures when updating service settings
6971# using an ICAP OPTIONS transaction, regardless of this option
6972# setting.
6973#
6974# For example,
6975# # suspend service usage after 10 failures in 5 seconds:
6976# icap_service_failure_limit 10 in 5 seconds
6977#Default:
6978# icap_service_failure_limit 10
6979
6980# TAG: icap_service_revival_delay
6981# The delay specifies the number of seconds to wait after an ICAP
6982# OPTIONS request failure before requesting the options again. The
6983# failed ICAP service is considered "down" until fresh OPTIONS are
6984# fetched.
6985#
6986# The actual delay cannot be smaller than the hardcoded minimum
6987# delay of 30 seconds.
6988#Default:
6989# icap_service_revival_delay 180
6990
6991# TAG: icap_preview_enable on|off
6992# The ICAP Preview feature allows the ICAP server to handle the
6993# HTTP message by looking only at the beginning of the message body
6994# or even without receiving the body at all. In some environments,
6995# previews greatly speedup ICAP processing.
6996#
6997# During an ICAP OPTIONS transaction, the server may tell Squid what
6998# HTTP messages should be previewed and how big the preview should be.
6999# Squid will not use Preview if the server did not request one.
7000#
7001# To disable ICAP Preview for all ICAP services, regardless of
7002# individual ICAP server OPTIONS responses, set this option to "off".
7003#Example:
7004#icap_preview_enable off
7005#Default:
7006# icap_preview_enable on
7007
7008# TAG: icap_preview_size
7009# The default size of preview data to be sent to the ICAP server.
7010# This value might be overwritten on a per server basis by OPTIONS requests.
7011#Default:
7012# No preview sent.
7013
7014# TAG: icap_206_enable on|off
7015# 206 (Partial Content) responses is an ICAP extension that allows the
7016# ICAP agents to optionally combine adapted and original HTTP message
7017# content. The decision to combine is postponed until the end of the
7018# ICAP response. Squid supports Partial Content extension by default.
7019#
7020# Activation of the Partial Content extension is negotiated with each
7021# ICAP service during OPTIONS exchange. Most ICAP servers should handle
7022# negotation correctly even if they do not support the extension, but
7023# some might fail. To disable Partial Content support for all ICAP
7024# services and to avoid any negotiation, set this option to "off".
7025#
7026# Example:
7027# icap_206_enable off
7028#Default:
7029# icap_206_enable on
7030
7031# TAG: icap_default_options_ttl
7032# The default TTL value for ICAP OPTIONS responses that don't have
7033# an Options-TTL header.
7034#Default:
7035# icap_default_options_ttl 60
7036
7037# TAG: icap_persistent_connections on|off
7038# Whether or not Squid should use persistent connections to
7039# an ICAP server.
7040#Default:
7041# icap_persistent_connections on
7042
7043# TAG: adaptation_send_client_ip on|off
7044# If enabled, Squid shares HTTP client IP information with adaptation
7045# services. For ICAP, Squid adds the X-Client-IP header to ICAP requests.
7046# For eCAP, Squid sets the libecap::metaClientIp transaction option.
7047#
7048# See also: adaptation_uses_indirect_client
7049#Default:
7050# adaptation_send_client_ip off
7051
7052# TAG: adaptation_send_username on|off
7053# This sends authenticated HTTP client username (if available) to
7054# the adaptation service.
7055#
7056# For ICAP, the username value is encoded based on the
7057# icap_client_username_encode option and is sent using the header
7058# specified by the icap_client_username_header option.
7059#Default:
7060# adaptation_send_username off
7061
7062# TAG: icap_client_username_header
7063# ICAP request header name to use for adaptation_send_username.
7064#Default:
7065# icap_client_username_header X-Client-Username
7066
7067# TAG: icap_client_username_encode on|off
7068# Whether to base64 encode the authenticated client username.
7069#Default:
7070# icap_client_username_encode off
7071
7072# TAG: icap_service
7073# Defines a single ICAP service using the following format:
7074#
7075# icap_service id vectoring_point uri [option ...]
7076#
7077# id: ID
7078# an opaque identifier or name which is used to direct traffic to
7079# this specific service. Must be unique among all adaptation
7080# services in squid.conf.
7081#
7082# vectoring_point: reqmod_precache|reqmod_postcache|respmod_precache|respmod_postcache
7083# This specifies at which point of transaction processing the
7084# ICAP service should be activated. *_postcache vectoring points
7085# are not yet supported.
7086#
7087# uri: icap://servername:port/servicepath
7088# ICAP server and service location.
7089#
7090# ICAP does not allow a single service to handle both REQMOD and RESPMOD
7091# transactions. Squid does not enforce that requirement. You can specify
7092# services with the same service_url and different vectoring_points. You
7093# can even specify multiple identical services as long as their
7094# service_names differ.
7095#
7096# To activate a service, use the adaptation_access directive. To group
7097# services, use adaptation_service_chain and adaptation_service_set.
7098#
7099# Service options are separated by white space. ICAP services support
7100# the following name=value options:
7101#
7102# bypass=on|off|1|0
7103# If set to 'on' or '1', the ICAP service is treated as
7104# optional. If the service cannot be reached or malfunctions,
7105# Squid will try to ignore any errors and process the message as
7106# if the service was not enabled. No all ICAP errors can be
7107# bypassed. If set to 0, the ICAP service is treated as
7108# essential and all ICAP errors will result in an error page
7109# returned to the HTTP client.
7110#
7111# Bypass is off by default: services are treated as essential.
7112#
7113# routing=on|off|1|0
7114# If set to 'on' or '1', the ICAP service is allowed to
7115# dynamically change the current message adaptation plan by
7116# returning a chain of services to be used next. The services
7117# are specified using the X-Next-Services ICAP response header
7118# value, formatted as a comma-separated list of service names.
7119# Each named service should be configured in squid.conf. Other
7120# services are ignored. An empty X-Next-Services value results
7121# in an empty plan which ends the current adaptation.
7122#
7123# Dynamic adaptation plan may cross or cover multiple supported
7124# vectoring points in their natural processing order.
7125#
7126# Routing is not allowed by default: the ICAP X-Next-Services
7127# response header is ignored.
7128#
7129# ipv6=on|off
7130# Only has effect on split-stack systems. The default on those systems
7131# is to use IPv4-only connections. When set to 'on' this option will
7132# make Squid use IPv6-only connections to contact this ICAP service.
7133#
7134# on-overload=block|bypass|wait|force
7135# If the service Max-Connections limit has been reached, do
7136# one of the following for each new ICAP transaction:
7137# * block: send an HTTP error response to the client
7138# * bypass: ignore the "over-connected" ICAP service
7139# * wait: wait (in a FIFO queue) for an ICAP connection slot
7140# * force: proceed, ignoring the Max-Connections limit
7141#
7142# In SMP mode with N workers, each worker assumes the service
7143# connection limit is Max-Connections/N, even though not all
7144# workers may use a given service.
7145#
7146# The default value is "bypass" if service is bypassable,
7147# otherwise it is set to "wait".
7148#
7149#
7150# max-conn=number
7151# Use the given number as the Max-Connections limit, regardless
7152# of the Max-Connections value given by the service, if any.
7153#
7154# Older icap_service format without optional named parameters is
7155# deprecated but supported for backward compatibility.
7156#
7157#Example:
7158#icap_service svcBlocker reqmod_precache icap://icap1.mydomain.net:1344/reqmod bypass=0
7159#icap_service svcLogger reqmod_precache icap://icap2.mydomain.net:1344/respmod routing=on
7160#Default:
7161# none
7162
7163# TAG: icap_class
7164# This deprecated option was documented to define an ICAP service
7165# chain, even though it actually defined a set of similar, redundant
7166# services, and the chains were not supported.
7167#
7168# To define a set of redundant services, please use the
7169# adaptation_service_set directive. For service chains, use
7170# adaptation_service_chain.
7171#Default:
7172# none
7173
7174# TAG: icap_access
7175# This option is deprecated. Please use adaptation_access, which
7176# has the same ICAP functionality, but comes with better
7177# documentation, and eCAP support.
7178#Default:
7179# none
7180
7181# eCAP OPTIONS
7182# -----------------------------------------------------------------------------
7183
7184# TAG: ecap_enable on|off
7185# Controls whether eCAP support is enabled.
7186#Default:
7187# ecap_enable off
7188
7189# TAG: ecap_service
7190# Defines a single eCAP service
7191#
7192# ecap_service id vectoring_point uri [option ...]
7193#
7194# id: ID
7195# an opaque identifier or name which is used to direct traffic to
7196# this specific service. Must be unique among all adaptation
7197# services in squid.conf.
7198#
7199# vectoring_point: reqmod_precache|reqmod_postcache|respmod_precache|respmod_postcache
7200# This specifies at which point of transaction processing the
7201# eCAP service should be activated. *_postcache vectoring points
7202# are not yet supported.
7203#
7204# uri: ecap://vendor/service_name?custom&cgi=style&parameters=optional
7205# Squid uses the eCAP service URI to match this configuration
7206# line with one of the dynamically loaded services. Each loaded
7207# eCAP service must have a unique URI. Obtain the right URI from
7208# the service provider.
7209#
7210# To activate a service, use the adaptation_access directive. To group
7211# services, use adaptation_service_chain and adaptation_service_set.
7212#
7213# Service options are separated by white space. eCAP services support
7214# the following name=value options:
7215#
7216# bypass=on|off|1|0
7217# If set to 'on' or '1', the eCAP service is treated as optional.
7218# If the service cannot be reached or malfunctions, Squid will try
7219# to ignore any errors and process the message as if the service
7220# was not enabled. No all eCAP errors can be bypassed.
7221# If set to 'off' or '0', the eCAP service is treated as essential
7222# and all eCAP errors will result in an error page returned to the
7223# HTTP client.
7224#
7225# Bypass is off by default: services are treated as essential.
7226#
7227# routing=on|off|1|0
7228# If set to 'on' or '1', the eCAP service is allowed to
7229# dynamically change the current message adaptation plan by
7230# returning a chain of services to be used next.
7231#
7232# Dynamic adaptation plan may cross or cover multiple supported
7233# vectoring points in their natural processing order.
7234#
7235# Routing is not allowed by default.
7236#
7237# Older ecap_service format without optional named parameters is
7238# deprecated but supported for backward compatibility.
7239#
7240#
7241#Example:
7242#ecap_service s1 reqmod_precache ecap://filters.R.us/leakDetector?on_error=block bypass=off
7243#ecap_service s2 respmod_precache ecap://filters.R.us/virusFilter config=/etc/vf.cfg bypass=on
7244#Default:
7245# none
7246
7247# TAG: loadable_modules
7248# Instructs Squid to load the specified dynamic module(s) or activate
7249# preloaded module(s).
7250#Example:
7251#loadable_modules /usr/lib/MinimalAdapter.so
7252#Default:
7253# none
7254
7255# MESSAGE ADAPTATION OPTIONS
7256# -----------------------------------------------------------------------------
7257
7258# TAG: adaptation_service_set
7259#
7260# Configures an ordered set of similar, redundant services. This is
7261# useful when hot standby or backup adaptation servers are available.
7262#
7263# adaptation_service_set set_name service_name1 service_name2 ...
7264#
7265# The named services are used in the set declaration order. The first
7266# applicable adaptation service from the set is used first. The next
7267# applicable service is tried if and only if the transaction with the
7268# previous service fails and the message waiting to be adapted is still
7269# intact.
7270#
7271# When adaptation starts, broken services are ignored as if they were
7272# not a part of the set. A broken service is a down optional service.
7273#
7274# The services in a set must be attached to the same vectoring point
7275# (e.g., pre-cache) and use the same adaptation method (e.g., REQMOD).
7276#
7277# If all services in a set are optional then adaptation failures are
7278# bypassable. If all services in the set are essential, then a
7279# transaction failure with one service may still be retried using
7280# another service from the set, but when all services fail, the master
7281# transaction fails as well.
7282#
7283# A set may contain a mix of optional and essential services, but that
7284# is likely to lead to surprising results because broken services become
7285# ignored (see above), making previously bypassable failures fatal.
7286# Technically, it is the bypassability of the last failed service that
7287# matters.
7288#
7289# See also: adaptation_access adaptation_service_chain
7290#
7291#Example:
7292#adaptation_service_set svcBlocker urlFilterPrimary urlFilterBackup
7293#adaptation service_set svcLogger loggerLocal loggerRemote
7294#Default:
7295# none
7296
7297# TAG: adaptation_service_chain
7298#
7299# Configures a list of complementary services that will be applied
7300# one-by-one, forming an adaptation chain or pipeline. This is useful
7301# when Squid must perform different adaptations on the same message.
7302#
7303# adaptation_service_chain chain_name service_name1 svc_name2 ...
7304#
7305# The named services are used in the chain declaration order. The first
7306# applicable adaptation service from the chain is used first. The next
7307# applicable service is applied to the successful adaptation results of
7308# the previous service in the chain.
7309#
7310# When adaptation starts, broken services are ignored as if they were
7311# not a part of the chain. A broken service is a down optional service.
7312#
7313# Request satisfaction terminates the adaptation chain because Squid
7314# does not currently allow declaration of RESPMOD services at the
7315# "reqmod_precache" vectoring point (see icap_service or ecap_service).
7316#
7317# The services in a chain must be attached to the same vectoring point
7318# (e.g., pre-cache) and use the same adaptation method (e.g., REQMOD).
7319#
7320# A chain may contain a mix of optional and essential services. If an
7321# essential adaptation fails (or the failure cannot be bypassed for
7322# other reasons), the master transaction fails. Otherwise, the failure
7323# is bypassed as if the failed adaptation service was not in the chain.
7324#
7325# See also: adaptation_access adaptation_service_set
7326#
7327#Example:
7328#adaptation_service_chain svcRequest requestLogger urlFilter leakDetector
7329#Default:
7330# none
7331
7332# TAG: adaptation_access
7333# Sends an HTTP transaction to an ICAP or eCAP adaptation service.
7334#
7335# adaptation_access service_name allow|deny [!]aclname...
7336# adaptation_access set_name allow|deny [!]aclname...
7337#
7338# At each supported vectoring point, the adaptation_access
7339# statements are processed in the order they appear in this
7340# configuration file. Statements pointing to the following services
7341# are ignored (i.e., skipped without checking their ACL):
7342#
7343# - services serving different vectoring points
7344# - "broken-but-bypassable" services
7345# - "up" services configured to ignore such transactions
7346# (e.g., based on the ICAP Transfer-Ignore header).
7347#
7348# When a set_name is used, all services in the set are checked
7349# using the same rules, to find the first applicable one. See
7350# adaptation_service_set for details.
7351#
7352# If an access list is checked and there is a match, the
7353# processing stops: For an "allow" rule, the corresponding
7354# adaptation service is used for the transaction. For a "deny"
7355# rule, no adaptation service is activated.
7356#
7357# It is currently not possible to apply more than one adaptation
7358# service at the same vectoring point to the same HTTP transaction.
7359#
7360# See also: icap_service and ecap_service
7361#
7362#Example:
7363#adaptation_access service_1 allow all
7364#Default:
7365# Allow, unless rules exist in squid.conf.
7366
7367# TAG: adaptation_service_iteration_limit
7368# Limits the number of iterations allowed when applying adaptation
7369# services to a message. If your longest adaptation set or chain
7370# may have more than 16 services, increase the limit beyond its
7371# default value of 16. If detecting infinite iteration loops sooner
7372# is critical, make the iteration limit match the actual number
7373# of services in your longest adaptation set or chain.
7374#
7375# Infinite adaptation loops are most likely with routing services.
7376#
7377# See also: icap_service routing=1
7378#Default:
7379# adaptation_service_iteration_limit 16
7380
7381# TAG: adaptation_masterx_shared_names
7382# For each master transaction (i.e., the HTTP request and response
7383# sequence, including all related ICAP and eCAP exchanges), Squid
7384# maintains a table of metadata. The table entries are (name, value)
7385# pairs shared among eCAP and ICAP exchanges. The table is destroyed
7386# with the master transaction.
7387#
7388# This option specifies the table entry names that Squid must accept
7389# from and forward to the adaptation transactions.
7390#
7391# An ICAP REQMOD or RESPMOD transaction may set an entry in the
7392# shared table by returning an ICAP header field with a name
7393# specified in adaptation_masterx_shared_names.
7394#
7395# An eCAP REQMOD or RESPMOD transaction may set an entry in the
7396# shared table by implementing the libecap::visitEachOption() API
7397# to provide an option with a name specified in
7398# adaptation_masterx_shared_names.
7399#
7400# Squid will store and forward the set entry to subsequent adaptation
7401# transactions within the same master transaction scope.
7402#
7403# Only one shared entry name is supported at this time.
7404#
7405#Example:
7406## share authentication information among ICAP services
7407#adaptation_masterx_shared_names X-Subscriber-ID
7408#Default:
7409# none
7410
7411# TAG: adaptation_meta
7412# This option allows Squid administrator to add custom ICAP request
7413# headers or eCAP options to Squid ICAP requests or eCAP transactions.
7414# Use it to pass custom authentication tokens and other
7415# transaction-state related meta information to an ICAP/eCAP service.
7416#
7417# The addition of a meta header is ACL-driven:
7418# adaptation_meta name value [!]aclname ...
7419#
7420# Processing for a given header name stops after the first ACL list match.
7421# Thus, it is impossible to add two headers with the same name. If no ACL
7422# lists match for a given header name, no such header is added. For
7423# example:
7424#
7425# # do not debug transactions except for those that need debugging
7426# adaptation_meta X-Debug 1 needs_debugging
7427#
7428# # log all transactions except for those that must remain secret
7429# adaptation_meta X-Log 1 !keep_secret
7430#
7431# # mark transactions from users in the "G 1" group
7432# adaptation_meta X-Authenticated-Groups "G 1" authed_as_G1
7433#
7434# The "value" parameter may be a regular squid.conf token or a "double
7435# quoted string". Within the quoted string, use backslash (\) to escape
7436# any character, which is currently only useful for escaping backslashes
7437# and double quotes. For example,
7438# "this string has one backslash (\\) and two \"quotes\""
7439#
7440# Used adaptation_meta header values may be logged via %note
7441# logformat code. If multiple adaptation_meta headers with the same name
7442# are used during master transaction lifetime, the header values are
7443# logged in the order they were used and duplicate values are ignored
7444# (only the first repeated value will be logged).
7445#Default:
7446# none
7447
7448# TAG: icap_retry
7449# This ACL determines which retriable ICAP transactions are
7450# retried. Transactions that received a complete ICAP response
7451# and did not have to consume or produce HTTP bodies to receive
7452# that response are usually retriable.
7453#
7454# icap_retry allow|deny [!]aclname ...
7455#
7456# Squid automatically retries some ICAP I/O timeouts and errors
7457# due to persistent connection race conditions.
7458#
7459# See also: icap_retry_limit
7460#Default:
7461# icap_retry deny all
7462
7463# TAG: icap_retry_limit
7464# Limits the number of retries allowed.
7465#
7466# Communication errors due to persistent connection race
7467# conditions are unavoidable, automatically retried, and do not
7468# count against this limit.
7469#
7470# See also: icap_retry
7471#Default:
7472# No retries are allowed.
7473
7474# DNS OPTIONS
7475# -----------------------------------------------------------------------------
7476
7477# TAG: check_hostnames
7478# For security and stability reasons Squid can check
7479# hostnames for Internet standard RFC compliance. If you want
7480# Squid to perform these checks turn this directive on.
7481#Default:
7482# check_hostnames off
7483
7484# TAG: allow_underscore
7485# Underscore characters is not strictly allowed in Internet hostnames
7486# but nevertheless used by many sites. Set this to off if you want
7487# Squid to be strict about the standard.
7488# This check is performed only when check_hostnames is set to on.
7489#Default:
7490# allow_underscore on
7491
7492# TAG: dns_retransmit_interval
7493# Initial retransmit interval for DNS queries. The interval is
7494# doubled each time all configured DNS servers have been tried.
7495#Default:
7496# dns_retransmit_interval 5 seconds
7497
7498# TAG: dns_timeout
7499# DNS Query timeout. If no response is received to a DNS query
7500# within this time all DNS servers for the queried domain
7501# are assumed to be unavailable.
7502#Default:
7503# dns_timeout 30 seconds
7504
7505# TAG: dns_packet_max
7506# Maximum number of bytes packet size to advertise via EDNS.
7507# Set to "none" to disable EDNS large packet support.
7508#
7509# For legacy reasons DNS UDP replies will default to 512 bytes which
7510# is too small for many responses. EDNS provides a means for Squid to
7511# negotiate receiving larger responses back immediately without having
7512# to failover with repeat requests. Responses larger than this limit
7513# will retain the old behaviour of failover to TCP DNS.
7514#
7515# Squid has no real fixed limit internally, but allowing packet sizes
7516# over 1500 bytes requires network jumbogram support and is usually not
7517# necessary.
7518#
7519# WARNING: The RFC also indicates that some older resolvers will reply
7520# with failure of the whole request if the extension is added. Some
7521# resolvers have already been identified which will reply with mangled
7522# EDNS response on occasion. Usually in response to many-KB jumbogram
7523# sizes being advertised by Squid.
7524# Squid will currently treat these both as an unable-to-resolve domain
7525# even if it would be resolvable without EDNS.
7526#Default:
7527# EDNS disabled
7528
7529# TAG: dns_defnames on|off
7530# Normally the RES_DEFNAMES resolver option is disabled
7531# (see res_init(3)). This prevents caches in a hierarchy
7532# from interpreting single-component hostnames locally. To allow
7533# Squid to handle single-component names, enable this option.
7534#Default:
7535# Search for single-label domain names is disabled.
7536
7537# TAG: dns_multicast_local on|off
7538# When set to on, Squid sends multicast DNS lookups on the local
7539# network for domains ending in .local and .arpa.
7540# This enables local servers and devices to be contacted in an
7541# ad-hoc or zero-configuration network environment.
7542#Default:
7543# Search for .local and .arpa names is disabled.
7544
7545# TAG: dns_nameservers
7546# Use this if you want to specify a list of DNS name servers
7547# (IP addresses) to use instead of those given in your
7548# /etc/resolv.conf file.
7549#
7550# On Windows platforms, if no value is specified here or in
7551# the /etc/resolv.conf file, the list of DNS name servers are
7552# taken from the Windows registry, both static and dynamic DHCP
7553# configurations are supported.
7554#
7555# Example: dns_nameservers 10.0.0.1 192.172.0.4
7556#Default:
7557# Use operating system definitions
7558
7559# TAG: hosts_file
7560# Location of the host-local IP name-address associations
7561# database. Most Operating Systems have such a file on different
7562# default locations:
7563# - Un*X & Linux: /etc/hosts
7564# - Windows NT/2000: %SystemRoot%\system32\drivers\etc\hosts
7565# (%SystemRoot% value install default is c:\winnt)
7566# - Windows XP/2003: %SystemRoot%\system32\drivers\etc\hosts
7567# (%SystemRoot% value install default is c:\windows)
7568# - Windows 9x/Me: %windir%\hosts
7569# (%windir% value is usually c:\windows)
7570# - Cygwin: /etc/hosts
7571#
7572# The file contains newline-separated definitions, in the
7573# form ip_address_in_dotted_form name [name ...] names are
7574# whitespace-separated. Lines beginning with an hash (#)
7575# character are comments.
7576#
7577# The file is checked at startup and upon configuration.
7578# If set to 'none', it won't be checked.
7579# If append_domain is used, that domain will be added to
7580# domain-local (i.e. not containing any dot character) host
7581# definitions.
7582#Default:
7583# hosts_file /etc/hosts
7584
7585# TAG: append_domain
7586# Appends local domain name to hostnames without any dots in
7587# them. append_domain must begin with a period.
7588#
7589# Be warned there are now Internet names with no dots in
7590# them using only top-domain names, so setting this may
7591# cause some Internet sites to become unavailable.
7592#
7593#Example:
7594# append_domain .yourdomain.com
7595#Default:
7596# Use operating system definitions
7597
7598# TAG: ignore_unknown_nameservers
7599# By default Squid checks that DNS responses are received
7600# from the same IP addresses they are sent to. If they
7601# don't match, Squid ignores the response and writes a warning
7602# message to cache.log. You can allow responses from unknown
7603# nameservers by setting this option to 'off'.
7604#Default:
7605# ignore_unknown_nameservers on
7606
7607# TAG: dns_v4_first
7608# With the IPv6 Internet being as fast or faster than IPv4 Internet
7609# for most networks Squid prefers to contact websites over IPv6.
7610#
7611# This option reverses the order of preference to make Squid contact
7612# dual-stack websites over IPv4 first. Squid will still perform both
7613# IPv6 and IPv4 DNS lookups before connecting.
7614#
7615# WARNING:
7616# This option will restrict the situations under which IPv6
7617# connectivity is used (and tested), potentially hiding network
7618# problems which would otherwise be detected and warned about.
7619#Default:
7620# dns_v4_first off
7621
7622# TAG: ipcache_size (number of entries)
7623# Maximum number of DNS IP cache entries.
7624#Default:
7625# ipcache_size 1024
7626
7627# TAG: ipcache_low (percent)
7628#Default:
7629# ipcache_low 90
7630
7631# TAG: ipcache_high (percent)
7632# The size, low-, and high-water marks for the IP cache.
7633#Default:
7634# ipcache_high 95
7635
7636# TAG: fqdncache_size (number of entries)
7637# Maximum number of FQDN cache entries.
7638#Default:
7639# fqdncache_size 1024
7640
7641# MISCELLANEOUS
7642# -----------------------------------------------------------------------------
7643
7644# TAG: configuration_includes_quoted_values on|off
7645# If set, Squid will recognize each "quoted string" after a configuration
7646# directive as a single parameter. The quotes are stripped before the
7647# parameter value is interpreted or used.
7648# See "Values with spaces, quotes, and other special characters"
7649# section for more details.
7650#Default:
7651# configuration_includes_quoted_values off
7652
7653# TAG: memory_pools on|off
7654# If set, Squid will keep pools of allocated (but unused) memory
7655# available for future use. If memory is a premium on your
7656# system and you believe your malloc library outperforms Squid
7657# routines, disable this.
7658#Default:
7659# memory_pools on
7660
7661# TAG: memory_pools_limit (bytes)
7662# Used only with memory_pools on:
7663# memory_pools_limit 50 MB
7664#
7665# If set to a non-zero value, Squid will keep at most the specified
7666# limit of allocated (but unused) memory in memory pools. All free()
7667# requests that exceed this limit will be handled by your malloc
7668# library. Squid does not pre-allocate any memory, just safe-keeps
7669# objects that otherwise would be free()d. Thus, it is safe to set
7670# memory_pools_limit to a reasonably high value even if your
7671# configuration will use less memory.
7672#
7673# If set to none, Squid will keep all memory it can. That is, there
7674# will be no limit on the total amount of memory used for safe-keeping.
7675#
7676# To disable memory allocation optimization, do not set
7677# memory_pools_limit to 0 or none. Set memory_pools to "off" instead.
7678#
7679# An overhead for maintaining memory pools is not taken into account
7680# when the limit is checked. This overhead is close to four bytes per
7681# object kept. However, pools may actually _save_ memory because of
7682# reduced memory thrashing in your malloc library.
7683#Default:
7684# memory_pools_limit 5 MB
7685
7686# TAG: forwarded_for on|off|transparent|truncate|delete
7687# If set to "on", Squid will append your client's IP address
7688# in the HTTP requests it forwards. By default it looks like:
7689#
7690# X-Forwarded-For: 192.1.2.3
7691#
7692# If set to "off", it will appear as
7693#
7694# X-Forwarded-For: unknown
7695#
7696# If set to "transparent", Squid will not alter the
7697# X-Forwarded-For header in any way.
7698#
7699# If set to "delete", Squid will delete the entire
7700# X-Forwarded-For header.
7701#
7702# If set to "truncate", Squid will remove all existing
7703# X-Forwarded-For entries, and place the client IP as the sole entry.
7704#Default:
7705# forwarded_for on
7706
7707# TAG: cachemgr_passwd
7708# Specify passwords for cachemgr operations.
7709#
7710# Usage: cachemgr_passwd password action action ...
7711#
7712# Some valid actions are (see cache manager menu for a full list):
7713# 5min
7714# 60min
7715# asndb
7716# authenticator
7717# cbdata
7718# client_list
7719# comm_incoming
7720# config *
7721# counters
7722# delay
7723# digest_stats
7724# dns
7725# events
7726# filedescriptors
7727# fqdncache
7728# histograms
7729# http_headers
7730# info
7731# io
7732# ipcache
7733# mem
7734# menu
7735# netdb
7736# non_peers
7737# objects
7738# offline_toggle *
7739# pconn
7740# peer_select
7741# reconfigure *
7742# redirector
7743# refresh
7744# server_list
7745# shutdown *
7746# store_digest
7747# storedir
7748# utilization
7749# via_headers
7750# vm_objects
7751#
7752# * Indicates actions which will not be performed without a
7753# valid password, others can be performed if not listed here.
7754#
7755# To disable an action, set the password to "disable".
7756# To allow performing an action without a password, set the
7757# password to "none".
7758#
7759# Use the keyword "all" to set the same password for all actions.
7760#
7761#Example:
7762# cachemgr_passwd secret shutdown
7763# cachemgr_passwd lesssssssecret info stats/objects
7764# cachemgr_passwd disable all
7765#Default:
7766# No password. Actions which require password are denied.
7767
7768# TAG: client_db on|off
7769# If you want to disable collecting per-client statistics,
7770# turn off client_db here.
7771#Default:
7772# client_db on
7773
7774# TAG: refresh_all_ims on|off
7775# When you enable this option, squid will always check
7776# the origin server for an update when a client sends an
7777# If-Modified-Since request. Many browsers use IMS
7778# requests when the user requests a reload, and this
7779# ensures those clients receive the latest version.
7780#
7781# By default (off), squid may return a Not Modified response
7782# based on the age of the cached version.
7783#Default:
7784# refresh_all_ims off
7785
7786# TAG: reload_into_ims on|off
7787# When you enable this option, client no-cache or ``reload''
7788# requests will be changed to If-Modified-Since requests.
7789# Doing this VIOLATES the HTTP standard. Enabling this
7790# feature could make you liable for problems which it
7791# causes.
7792#
7793# see also refresh_pattern for a more selective approach.
7794#Default:
7795# reload_into_ims off
7796
7797# TAG: connect_retries
7798# This sets the maximum number of connection attempts made for each
7799# TCP connection. The connect_retries attempts must all still
7800# complete within the connection timeout period.
7801#
7802# The default is not to re-try if the first connection attempt fails.
7803# The (not recommended) maximum is 10 tries.
7804#
7805# A warning message will be generated if it is set to a too-high
7806# value and the configured value will be over-ridden.
7807#
7808# Note: These re-tries are in addition to forward_max_tries
7809# which limit how many different addresses may be tried to find
7810# a useful server.
7811#Default:
7812# Do not retry failed connections.
7813
7814# TAG: retry_on_error
7815# If set to ON Squid will automatically retry requests when
7816# receiving an error response with status 403 (Forbidden),
7817# 500 (Internal Error), 501 or 503 (Service not available).
7818# Status 502 and 504 (Gateway errors) are always retried.
7819#
7820# This is mainly useful if you are in a complex cache hierarchy to
7821# work around access control errors.
7822#
7823# NOTE: This retry will attempt to find another working destination.
7824# Which is different from the server which just failed.
7825#Default:
7826# retry_on_error off
7827
7828# TAG: as_whois_server
7829# WHOIS server to query for AS numbers. NOTE: AS numbers are
7830# queried only when Squid starts up, not for every request.
7831#Default:
7832# as_whois_server whois.ra.net
7833
7834# TAG: offline_mode
7835# Enable this option and Squid will never try to validate cached
7836# objects.
7837#Default:
7838# offline_mode off
7839
7840# TAG: uri_whitespace
7841# What to do with requests that have whitespace characters in the
7842# URI. Options:
7843#
7844# strip: The whitespace characters are stripped out of the URL.
7845# This is the behavior recommended by RFC2396 and RFC3986
7846# for tolerant handling of generic URI.
7847# NOTE: This is one difference between generic URI and HTTP URLs.
7848#
7849# deny: The request is denied. The user receives an "Invalid
7850# Request" message.
7851# This is the behaviour recommended by RFC2616 for safe
7852# handling of HTTP request URL.
7853#
7854# allow: The request is allowed and the URI is not changed. The
7855# whitespace characters remain in the URI. Note the
7856# whitespace is passed to redirector processes if they
7857# are in use.
7858# Note this may be considered a violation of RFC2616
7859# request parsing where whitespace is prohibited in the
7860# URL field.
7861#
7862# encode: The request is allowed and the whitespace characters are
7863# encoded according to RFC1738.
7864#
7865# chop: The request is allowed and the URI is chopped at the
7866# first whitespace.
7867#
7868#
7869# NOTE the current Squid implementation of encode and chop violates
7870# RFC2616 by not using a 301 redirect after altering the URL.
7871#Default:
7872# uri_whitespace strip
7873
7874# TAG: chroot
7875# Specifies a directory where Squid should do a chroot() while
7876# initializing. This also causes Squid to fully drop root
7877# privileges after initializing. This means, for example, if you
7878# use a HTTP port less than 1024 and try to reconfigure, you may
7879# get an error saying that Squid can not open the port.
7880#Default:
7881# none
7882
7883# TAG: balance_on_multiple_ip
7884# Modern IP resolvers in squid sort lookup results by preferred access.
7885# By default squid will use these IP in order and only rotates to
7886# the next listed when the most preffered fails.
7887#
7888# Some load balancing servers based on round robin DNS have been
7889# found not to preserve user session state across requests
7890# to different IP addresses.
7891#
7892# Enabling this directive Squid rotates IP's per request.
7893#Default:
7894# balance_on_multiple_ip off
7895
7896# TAG: pipeline_prefetch
7897# HTTP clients may send a pipeline of 1+N requests to Squid using a
7898# single connection, without waiting for Squid to respond to the first
7899# of those requests. This option limits the number of concurrent
7900# requests Squid will try to handle in parallel. If set to N, Squid
7901# will try to receive and process up to 1+N requests on the same
7902# connection concurrently.
7903#
7904# Defaults to 0 (off) for bandwidth management and access logging
7905# reasons.
7906#
7907# NOTE: pipelining requires persistent connections to clients.
7908#
7909# WARNING: pipelining breaks NTLM and Negotiate/Kerberos authentication.
7910#Default:
7911# Do not pre-parse pipelined requests.
7912
7913# TAG: high_response_time_warning (msec)
7914# If the one-minute median response time exceeds this value,
7915# Squid prints a WARNING with debug level 0 to get the
7916# administrators attention. The value is in milliseconds.
7917#Default:
7918# disabled.
7919
7920# TAG: high_page_fault_warning
7921# If the one-minute average page fault rate exceeds this
7922# value, Squid prints a WARNING with debug level 0 to get
7923# the administrators attention. The value is in page faults
7924# per second.
7925#Default:
7926# disabled.
7927
7928# TAG: high_memory_warning
7929# Note: This option is only available if Squid is rebuilt with the
7930# GNU Malloc with mstats()
7931#
7932# If the memory usage (as determined by gnumalloc, if available and used)
7933# exceeds this amount, Squid prints a WARNING with debug level 0 to get
7934# the administrators attention.
7935#Default:
7936# disabled.
7937
7938# TAG: sleep_after_fork (microseconds)
7939# When this is set to a non-zero value, the main Squid process
7940# sleeps the specified number of microseconds after a fork()
7941# system call. This sleep may help the situation where your
7942# system reports fork() failures due to lack of (virtual)
7943# memory. Note, however, if you have a lot of child
7944# processes, these sleep delays will add up and your
7945# Squid will not service requests for some amount of time
7946# until all the child processes have been started.
7947# On Windows value less then 1000 (1 milliseconds) are
7948# rounded to 1000.
7949#Default:
7950# sleep_after_fork 0
7951
7952# TAG: windows_ipaddrchangemonitor on|off
7953# Note: This option is only available if Squid is rebuilt with the
7954# MS Windows
7955#
7956# On Windows Squid by default will monitor IP address changes and will
7957# reconfigure itself after any detected event. This is very useful for
7958# proxies connected to internet with dial-up interfaces.
7959# In some cases (a Proxy server acting as VPN gateway is one) it could be
7960# desiderable to disable this behaviour setting this to 'off'.
7961# Note: after changing this, Squid service must be restarted.
7962#Default:
7963# windows_ipaddrchangemonitor on
7964
7965# TAG: eui_lookup
7966# Whether to lookup the EUI or MAC address of a connected client.
7967#Default:
7968# eui_lookup on
7969
7970# TAG: max_filedescriptors
7971# Reduce the maximum number of filedescriptors supported below
7972# the usual operating system defaults.
7973#
7974# Remove from squid.conf to inherit the current ulimit setting.
7975#
7976# Note: Changing this requires a restart of Squid. Also
7977# not all I/O types supports large values (eg on Windows).
7978#Default:
7979# Use operating system limits set by ulimit.