Mercurial > hg > nginx-tests
view http_resolver_cname.t @ 1974:b5036a0f9ae0
Tests: improved compatibility when using recent "openssl" app.
Starting with OpenSSL 3.0, "openssl genrsa" generates encrypted keys
in PKCS#8 format instead of previously used PKCS#1 format. Further,
since OpenSSL 1.1.0 such keys are using PBKDF2 hmacWithSHA256.
Such keys are not supported by old SSL libraries, notably by OpenSSL
before 1.0.0 (OpenSSL 0.9.8 only supports hmacWithSHA1) and by BoringSSL
before May 21, 2019 (support for hmacWithSHA256 was added in 302a4dee6c),
and trying to load such keys into nginx compiled with an old SSL library
results in "unsupported prf" errors.
To facilitate testing with old SSL libraries, keys are now generated
with "openssl genrsa -traditional" if the flag is available.
author | Maxim Dounin <mdounin@mdounin.ru> |
---|---|
date | Mon, 06 May 2024 00:04:26 +0300 |
parents | e4974af3fb12 |
children |
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#!/usr/bin/perl # (C) Sergey Kandaurov # (C) Nginx, Inc. # Tests for http resolver with CNAME. ############################################################################### use warnings; use strict; use Test::More; BEGIN { use FindBin; chdir($FindBin::Bin); } use lib 'lib'; use Test::Nginx qw/ :DEFAULT http_end /; ############################################################################### select STDERR; $| = 1; select STDOUT; $| = 1; my $t = Test::Nginx->new()->has(qw/http proxy/)->plan(11); $t->write_file_expand('nginx.conf', <<'EOF'); %%TEST_GLOBALS%% daemon off; events { } http { %%TEST_GLOBALS_HTTP%% server { listen 127.0.0.1:8080; server_name localhost; location /short { resolver 127.0.0.1:%%PORT_8981_UDP%%; resolver_timeout 2s; proxy_pass http://$host:%%PORT_8080%%/t; } location /long { resolver 127.0.0.1:%%PORT_8981_UDP%%; resolver_timeout 5s; proxy_pass http://$host:%%PORT_8080%%/t; } location / { } } } EOF $t->run_daemon(\&dns_daemon, port(8981), $t); $t->write_file('t', ''); $t->run(); $t->waitforfile($t->testdir . '/' . port(8981)); ############################################################################### # CNAME pointing to name which times out like(http_host('cn01.example.net', '/short'), qr/502 Bad/, 'CNAME timeout'); # several requests on CNAME pointing to invalid name my @s; push @s, http_host('cn03.example.net', '/long', start => 1); push @s, http_host('cn03.example.net', '/long', start => 1); like(http_end(pop @s), qr/502 Bad/, 'invalid CNAME - first'); like(http_end(pop @s), qr/502 Bad/, 'invalid CNAME - last'); # several requests on CNAME pointing to cached name @s = (); http_host('a.example.net', '/long'); push @s, http_host('cn04.example.net', '/long', start => 1); push @s, http_host('cn04.example.net', '/long', start => 1); like(http_end(pop @s), qr/200 OK/, 'cached CNAME - first'); like(http_end(pop @s), qr/200 OK/, 'cached CNAME - last'); # several requests on CNAME pointing to name being resolved @s = (); my $s = http_host('cn06.example.net', '/long', start => 1); sleep 1; push @s, http_host('cn05.example.net', '/long', start => 1); push @s, http_host('cn05.example.net', '/long', start => 1); like(http_end(pop @s), qr/502 Bad/, 'CNAME in progress - first'); like(http_end(pop @s), qr/502 Bad/, 'CNAME in progress - last'); # several requests on CNAME pointing to name which times out # 1st request receives CNAME with short ttl # 2nd request replaces expired CNAME @s = (); push @s, http_host('cn07.example.net', '/long', start => 1); sleep 2; push @s, http_host('cn07.example.net', '/long', start => 1); like(http_end(pop @s), qr/502 Bad/, 'CNAME ttl - first'); like(http_end(pop @s), qr/502 Bad/, 'CNAME ttl - last'); # several requests on CNAME pointing to name # 1st request aborts before name is resolved # 2nd request finishes with name resolved @s = (); push @s, http_host('cn09.example.net', '/long', start => 1); push @s, http_host('cn09.example.net', '/long', start => 1); select undef, undef, undef, 0.4; # let resolver hang on CNAME close(shift @s); like(http_end(pop @s), qr/200 OK/, 'abort on CNAME'); like(http_host('cn001.example.net', '/short'), qr/502 Bad/, 'recurse uncached'); ############################################################################### sub http_host { my ($host, $uri, %extra) = @_; return http(<<EOF, %extra); GET $uri HTTP/1.0 Host: $host EOF } ############################################################################### sub reply_handler { my ($recv_data) = @_; my (@name, @rdata); use constant NOERROR => 0; use constant A => 1; use constant CNAME => 5; use constant IN => 1; # default values my ($hdr, $rcode, $ttl) = (0x8180, NOERROR, 3600); # decode name my ($len, $offset) = (undef, 12); while (1) { $len = unpack("\@$offset C", $recv_data); last if $len == 0; $offset++; push @name, unpack("\@$offset A$len", $recv_data); $offset += $len; } $offset -= 1; my ($id, $type, $class) = unpack("n x$offset n2", $recv_data); my $name = join('.', @name); if ($name eq 'a.example.net' && $type == A) { push @rdata, rd_addr($ttl, '127.0.0.1'); } elsif ($name eq 'b.example.net' && $type == A) { sleep 2; push @rdata, rd_addr($ttl, '127.0.0.1'); } elsif ($name eq 'cn01.example.net') { $ttl = 1; push @rdata, pack("n3N nCa4n", 0xc00c, CNAME, IN, $ttl, 7, 4, "cn02", 0xc011); } elsif ($name =~ /cn0[268].example.net/) { # resolver timeout return; } elsif ($name eq 'cn03.example.net') { select undef, undef, undef, 1.1; push @rdata, pack("n3N nC", 0xc00c, CNAME, IN, $ttl, 0); } elsif ($name eq 'cn04.example.net') { select undef, undef, undef, 1.1; push @rdata, pack("n3N nCa1n", 0xc00c, CNAME, IN, $ttl, 4, 1, "a", 0xc011); } elsif ($name eq 'cn05.example.net') { select undef, undef, undef, 1.1; push @rdata, pack("n3N nCa4n", 0xc00c, CNAME, IN, $ttl, 7, 4, "cn06", 0xc011); } elsif ($name eq 'cn07.example.net') { $ttl = 1; push @rdata, pack("n3N nCa4n", 0xc00c, CNAME, IN, $ttl, 7, 4, "cn08", 0xc011); } elsif ($name eq 'cn09.example.net') { if ($type == A) { # await both HTTP requests select undef, undef, undef, 0.2; } push @rdata, pack("n3N nCa1n", 0xc00c, CNAME, IN, $ttl, 4, 1, "b", 0xc011); } elsif ($name eq 'cn052.example.net') { if ($type == A) { push @rdata, rd_addr($ttl, '127.0.0.1'); } } elsif ($name =~ /cn0\d+.example.net/) { my ($id) = $name =~ /cn(\d+)/; $id++; push @rdata, pack("n3N nCa5n", 0xc00c, CNAME, IN, $ttl, 8, 5, "cn$id", 0xc012); } $len = @name; pack("n6 (C/a*)$len x n2", $id, $hdr | $rcode, 1, scalar @rdata, 0, 0, @name, $type, $class) . join('', @rdata); } sub rd_addr { my ($ttl, $addr) = @_; my $code = 'split(/\./, $addr)'; return pack 'n3N', 0xc00c, A, IN, $ttl if $addr eq ''; pack 'n3N nC4', 0xc00c, A, IN, $ttl, eval "scalar $code", eval($code); } sub dns_daemon { my ($port, $t) = @_; my ($data, $recv_data); my $socket = IO::Socket::INET->new( LocalAddr => '127.0.0.1', LocalPort => $port, Proto => 'udp', ) or die "Can't create listening socket: $!\n"; # signal we are ready open my $fh, '>', $t->testdir() . '/' . $port; close $fh; while (1) { $socket->recv($recv_data, 65536); $data = reply_handler($recv_data); $socket->send($data); } } ###############################################################################