Mercurial > hg > nginx-tests
view geoip.t @ 1236:93f749c1d5c5
Tests: fixed parallel tests execution with UDP.
Previously, when checking ports availability, a UDP socket was always created
first, then a TCP socket was created. On success, one of UDP and TCP sockets
was closed (depending on the "udp" option) and the second one was used to busy
this port in other scripts. This lead to the following problem: in an attempt
to reopen a UDP socket used in a given testing script it could be stolen by
another script as part of checking ports availability.
To solve this problem, UDP and TCP ports were split into two non-overlapping
ranges: TCP ports are only used in the range 8000-8499, and UDP ports - in
the range 8500-8999. In addition, the order of creating sockets in UDP tests
has been reversed: now a TCP socket used as a lock precedes a UDP socket.
author | Andrey Zelenkov <zelenkov@nginx.com> |
---|---|
date | Thu, 26 Oct 2017 18:00:21 +0300 |
parents | cf14cfe9ec8c |
children |
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#!/usr/bin/perl # (C) Andrey Zelenkov # (C) Nginx, Inc. # Tests for geoip module. ############################################################################### use warnings; use strict; use Test::More; BEGIN { use FindBin; chdir($FindBin::Bin); } use lib 'lib'; use Test::Nginx; ############################################################################### select STDERR; $| = 1; select STDOUT; $| = 1; my $t = Test::Nginx->new()->has(qw/http http_geoip/) ->write_file_expand('nginx.conf', <<'EOF'); %%TEST_GLOBALS%% daemon off; events { } http { %%TEST_GLOBALS_HTTP%% geoip_proxy 127.0.0.1/32; geoip_country %%TESTDIR%%/country.dat; geoip_city %%TESTDIR%%/city.dat; geoip_org %%TESTDIR%%/org.dat; server { listen 127.0.0.1:8080; server_name localhost; location / { add_header X-Country-Code $geoip_country_code; add_header X-Country-Code3 $geoip_country_code3; add_header X-Country-Name $geoip_country_name; add_header X-Area-Code $geoip_area_code; add_header X-C-Continent-Code $geoip_city_continent_code; add_header X-C-Country-Code $geoip_city_country_code; add_header X-C-Country-Code3 $geoip_city_country_code3; add_header X-C-Country-Name $geoip_city_country_name; add_header X-Dma-Code $geoip_dma_code; add_header X-Latitude $geoip_latitude; add_header X-Longitude $geoip_longitude; add_header X-Region $geoip_region; add_header X-Region-Name $geoip_region_name; add_header X-City $geoip_city; add_header X-Postal-Code $geoip_postal_code; add_header X-Org $geoip_org; } } } EOF my $d = $t->testdir(); # country database: # # "10.0.0.1","10.0.0.1","RU","Russian Federation" # "2001:db8::","2001:db8::","US","United States" my $data = ''; for my $i (0 .. 156) { # skip to offset 32 if 1st bit set in ipv6 address wins $data .= pack_node($i + 1) . pack_node(32), next if $i == 2; # otherwise default to RU $data .= pack_node(0xffffb9) . pack_node(0xffff00), next if $i == 31; # continue checking bits set in ipv6 address $data .= pack_node(0xffff00) . pack_node($i + 1), next if grep $_ == $i, (44, 49, 50, 52, 53, 55, 56, 57); # last bit set in ipv6 address $data .= pack_node(0xffffe1) . pack_node(0xffff00), next if $i == 156; $data .= pack_node($i + 1) . pack_node(0xffff00); } $data .= chr(0x00) x 3; $data .= chr(0xFF) x 3; $data .= chr(12); $t->write_file('country.dat', $data); # city database: # # "167772161","167772161","RU","48","Moscow","119034","55.7543",37.6202",, $data = ''; for my $i (0 .. 31) { $data .= pack_node(32) . pack_node($i + 1), next if $i == 4 or $i == 6; $data .= pack_node(32) . pack_node($i + 2), next if $i == 31; $data .= pack_node($i + 1) . pack_node(32); } $data .= chr(42); $data .= chr(185); $data .= pack('Z*', 48); $data .= pack('Z*', 'Moscow'); $data .= pack('Z*', 119034); $data .= pack_node(int((55.7543 + 180) * 10000)); $data .= pack_node(int((37.6202 + 180) * 10000)); $data .= chr(0) x 3; $data .= chr(0xFF) x 3; $data .= chr(2); $data .= pack_node(32); $t->write_file('city.dat', $data); # organization database: # # "167772161","167772161","Nginx" $data = ''; for my $i (0 .. 31) { $data .= pack_org(32) . pack_org($i + 1), next if $i == 4 or $i == 6; $data .= pack_org(32) . pack_org($i + 2), next if $i == 31; $data .= pack_org($i + 1) . pack_org(32); } $data .= chr(42); $data .= pack('Z*', 'Nginx'); $data .= chr(0xFF) x 3; $data .= chr(5); $data .= pack_node(32); $t->write_file('org.dat', $data); $t->write_file('index.html', ''); $t->try_run('no inet6 support')->plan(20); ############################################################################### my $r = http_xff('10.0.0.1'); like($r, qr/X-Country-Code: RU/, 'geoip country code'); like($r, qr/X-Country-Code3: RUS/, 'geoip country code 3'); like($r, qr/X-Country-Name: Russian Federation/, 'geoip country name'); like($r, qr/X-Area-Code: 0/, 'geoip area code'); like($r, qr/X-C-Continent-Code: EU/, 'geoip city continent code'); like($r, qr/X-C-Country-Code: RU/, 'geoip city country code'); like($r, qr/X-C-Country-Code3: RUS/, 'geoip city country code 3'); like($r, qr/X-C-Country-Name: Russian Federation/, 'geoip city country name'); like($r, qr/X-Dma-Code: 0/, 'geoip dma code'); like($r, qr/X-Latitude: 55.7543/, 'geoip latitude'); like($r, qr/X-Longitude: 37.6202/, 'geoip longitude'); like($r, qr/X-Region: 48/, 'geoip region'); like($r, qr/X-Region-Name: Moscow City/, 'geoip region name'); like($r, qr/X-City: Moscow/, 'geoip city'); like($r, qr/X-Postal-Code: 119034/, 'geoip postal code'); like($r, qr/X-Org: Nginx/, 'geoip org'); like(http_xff('::ffff:10.0.0.1'), qr/X-Org: Nginx/, 'geoip ipv6 ipv4-mapped'); $r = http_xff('2001:db8::'); like($r, qr/X-Country-Code: US/, 'geoip ipv6 country code'); like($r, qr/X-Country-Code3: USA/, 'geoip ipv6 country code 3'); like($r, qr/X-Country-Name: United States/, 'geoip ipv6 country name'); ############################################################################### sub http_xff { my ($xff) = @_; return http(<<EOF); GET / HTTP/1.0 Host: localhost X-Forwarded-For: $xff EOF } sub pack_node { substr pack('V', shift), 0, 3; } sub pack_org { pack('V', shift); } ###############################################################################