# Copyright (C) 2016-2018 all contributors # License: AGPL-3.0+ # note: our HTTP server should be standalone and capable of running # generic Rack apps. use strict; use warnings; use Test::More; use Time::HiRes qw(gettimeofday tv_interval); foreach my $mod (qw(Plack::Util Plack::Builder Danga::Socket HTTP::Date HTTP::Status IPC::Run)) { eval "require $mod"; plan skip_all => "$mod missing for httpd-corner.t" if $@; } use Digest::SHA qw(sha1_hex); use File::Temp qw/tempdir/; use Cwd qw/getcwd/; use IO::Socket; use IO::Socket::UNIX; use Fcntl qw(:seek); use Socket qw(SO_KEEPALIVE IPPROTO_TCP TCP_NODELAY); use POSIX qw(mkfifo :sys_wait_h); require './t/common.perl'; my $tmpdir = tempdir('httpd-corner-XXXXXX', TMPDIR => 1, CLEANUP => 1); my $fifo = "$tmpdir/fifo"; ok(defined mkfifo($fifo, 0777), 'created FIFO'); my $err = "$tmpdir/stderr.log"; my $out = "$tmpdir/stdout.log"; my $httpd = 'blib/script/public-inbox-httpd'; my $psgi = getcwd()."/t/httpd-corner.psgi"; my %opts = ( LocalAddr => '127.0.0.1', ReuseAddr => 1, Proto => 'tcp', Type => SOCK_STREAM, Listen => 1024, ); my $sock = IO::Socket::INET->new(%opts); my $upath = "$tmpdir/s"; my $unix = IO::Socket::UNIX->new( Listen => 1024, Type => SOCK_STREAM, Local => $upath ); ok($unix, 'UNIX socket created'); my $pid; END { kill 'TERM', $pid if defined $pid }; my $spawn_httpd = sub { my (@args) = @_; my $cmd = [ $httpd, @args, "--stdout=$out", "--stderr=$err", $psgi ]; $pid = spawn_listener(undef, $cmd, [ $sock, $unix ]); ok(defined $pid, 'forked httpd process successfully'); }; { ok($sock, 'sock created'); $spawn_httpd->('-W0'); } { my $conn = conn_for($sock, 'streaming callback'); $conn->write("GET /callback HTTP/1.0\r\n\r\n"); ok($conn->read(my $buf, 8192), 'read response'); my ($head, $body) = split(/\r\n\r\n/, $buf); is($body, "hello world\n", 'callback body matches expected'); } { my $conn = conn_for($sock, 'getline-die'); $conn->write("GET /getline-die HTTP/1.1\r\nHost: example.com\r\n\r\n"); ok($conn->read(my $buf, 8192), 'read some response'); like($buf, qr!HTTP/1\.1 200\b[^\r]*\r\n!, 'got some sort of header'); is($conn->read(my $nil, 8192), 0, 'read EOF'); $conn = undef; my $after = capture($err); is(scalar(grep(/GETLINE FAIL/, @$after)), 1, 'failure logged'); is(scalar(grep(/CLOSE FAIL/, @$after)), 1, 'body->close not called'); } { my $conn = conn_for($sock, 'close-die'); $conn->write("GET /close-die HTTP/1.1\r\nHost: example.com\r\n\r\n"); ok($conn->read(my $buf, 8192), 'read some response'); like($buf, qr!HTTP/1\.1 200\b[^\r]*\r\n!, 'got some sort of header'); is($conn->read(my $nil, 8192), 0, 'read EOF'); $conn = undef; my $after = capture($err); is(scalar(grep(/GETLINE FAIL/, @$after)), 0, 'getline not failed'); is(scalar(grep(/CLOSE FAIL/, @$after)), 1, 'body->close not called'); } { my $conn = conn_for($sock, 'excessive header'); $SIG{PIPE} = 'IGNORE'; $conn->write("GET /callback HTTP/1.0\r\n"); foreach my $i (1..500000) { last unless $conn->write("X-xxxxxJunk-$i: omg\r\n"); } ok(!$conn->write("\r\n"), 'broken request'); ok($conn->read(my $buf, 8192), 'read response'); my ($head, $body) = split(/\r\n\r\n/, $buf); like($head, qr/\b400\b/, 'got 400 response'); } { my $conn = conn_for($sock, 'excessive body Content-Length'); $SIG{PIPE} = 'IGNORE'; my $n = (10 * 1024 * 1024) + 1; $conn->write("PUT /sha1 HTTP/1.0\r\nContent-Length: $n\r\n\r\n"); ok($conn->read(my $buf, 8192), 'read response'); my ($head, $body) = split(/\r\n\r\n/, $buf); like($head, qr/\b413\b/, 'got 413 response'); } { my $conn = conn_for($sock, 'excessive body chunked'); $SIG{PIPE} = 'IGNORE'; my $n = (10 * 1024 * 1024) + 1; $conn->write("PUT /sha1 HTTP/1.1\r\nTransfer-Encoding: chunked\r\n"); $conn->write("\r\n".sprintf("%x\r\n", $n)); ok($conn->read(my $buf, 8192), 'read response'); my ($head, $body) = split(/\r\n\r\n/, $buf); like($head, qr/\b413\b/, 'got 413 response'); } # Unix domain sockets { my $u = IO::Socket::UNIX->new(Type => SOCK_STREAM, Peer => $upath); ok($u, 'unix socket connected'); $u->write("GET /host-port HTTP/1.0\r\n\r\n"); $u->read(my $buf, 4096); like($buf, qr!\r\n\r\n127\.0\.0\.1:0\z!, 'set REMOTE_ADDR and REMOTE_PORT for Unix socket'); } sub conn_for { my ($sock, $msg) = @_; my $conn = IO::Socket::INET->new( PeerAddr => $sock->sockhost, PeerPort => $sock->sockport, Proto => 'tcp', Type => SOCK_STREAM); ok($conn, "connected for $msg"); $conn->autoflush(1); setsockopt($conn, IPPROTO_TCP, TCP_NODELAY, 1); return $conn; } { my $conn = conn_for($sock, 'host-port'); $conn->write("GET /host-port HTTP/1.0\r\n\r\n"); $conn->read(my $buf, 4096); my ($head, $body) = split(/\r\n\r\n/, $buf); my ($addr, $port) = split(/:/, $body); is($addr, $conn->sockhost, 'host matches addr'); is($port, $conn->sockport, 'port matches'); } # graceful termination { my $conn = conn_for($sock, 'graceful termination via slow header'); $conn->write("GET /slow-header HTTP/1.0\r\n" . "X-Check-Fifo: $fifo\r\n\r\n"); open my $f, '>', $fifo or die "open $fifo: $!\n"; $f->autoflush(1); ok(print($f "hello\n"), 'wrote something to fifo'); my $kpid = $pid; $pid = undef; is(kill('TERM', $kpid), 1, 'started graceful shutdown'); ok(print($f "world\n"), 'wrote else to fifo'); close $f or die "close fifo: $!\n"; $conn->read(my $buf, 8192); my ($head, $body) = split(/\r\n\r\n/, $buf, 2); like($head, qr!\AHTTP/1\.[01] 200 OK!, 'got 200 for slow-header'); is($body, "hello\nworld\n", 'read expected body'); is(waitpid($kpid, 0), $kpid, 'reaped httpd'); is($?, 0, 'no error'); $spawn_httpd->('-W0'); } { my $conn = conn_for($sock, 'graceful termination via slow-body'); $conn->write("GET /slow-body HTTP/1.0\r\n" . "X-Check-Fifo: $fifo\r\n\r\n"); open my $f, '>', $fifo or die "open $fifo: $!\n"; $f->autoflush(1); my $buf; $conn->sysread($buf, 8192); like($buf, qr!\AHTTP/1\.[01] 200 OK!, 'got 200 for slow-body'); like($buf, qr!\r\n\r\n!, 'finished HTTP response header'); foreach my $c ('a'..'c') { $c .= "\n"; ok(print($f $c), 'wrote line to fifo'); $conn->sysread($buf, 8192); is($buf, $c, 'got trickle for reading'); } my $kpid = $pid; $pid = undef; is(kill('TERM', $kpid), 1, 'started graceful shutdown'); ok(print($f "world\n"), 'wrote else to fifo'); close $f or die "close fifo: $!\n"; $conn->sysread($buf, 8192); is($buf, "world\n", 'read expected body'); is($conn->sysread($buf, 8192), 0, 'got EOF from server'); is(waitpid($kpid, 0), $kpid, 'reaped httpd'); is($?, 0, 'no error'); $spawn_httpd->('-W0'); } sub delay { select(undef, undef, undef, shift || rand(0.02)) } my $str = 'abcdefghijklmnopqrstuvwxyz'; my $len = length $str; is($len, 26, 'got the alphabet'); my $check_self = sub { my ($conn) = @_; $conn->read(my $buf, 4096); my ($head, $body) = split(/\r\n\r\n/, $buf, 2); like($head, qr/\r\nContent-Length: 40\r\n/s, 'got expected length'); is($body, sha1_hex($str), 'read expected body'); }; SKIP: { my $have_curl = 0; foreach my $p (split(':', $ENV{PATH})) { -x "$p/curl" or next; $have_curl = 1; last; } my $ntest = 2; $have_curl or skip('curl(1) missing', $ntest); my $url = 'http://' . $sock->sockhost . ':' . $sock->sockport . '/sha1'; my ($r, $w); pipe($r, $w) or die "pipe: $!"; my $cmd = [qw(curl --tcp-nodelay --no-buffer -T- -HExpect: -sS), $url]; my ($out, $err) = ('', ''); my $h = IPC::Run::start($cmd, $r, \$out, \$err); $w->autoflush(1); foreach my $c ('a'..'z') { print $w $c or die "failed to write to curl: $!"; delay(); } close $w or die "close write pipe: $!"; close $r or die "close read pipe: $!"; IPC::Run::finish($h); is($?, 0, 'curl exited successfully'); is($err, '', 'no errors from curl'); is($out, sha1_hex($str), 'read expected body'); } { my $conn = conn_for($sock, '1.1 pipeline together'); $conn->write("PUT /sha1 HTTP/1.1\r\nUser-agent: hello\r\n\r\n" . "PUT /sha1 HTTP/1.1\r\n\r\n"); my $buf = ''; my @r; until (scalar(@r) >= 2) { my $r = $conn->sysread(my $tmp, 4096); die $! unless defined $r; die "EOF <$buf>" unless $r; $buf .= $tmp; @r = ($buf =~ /\r\n\r\n([a-f0-9]{40})/g); } is(2, scalar @r, 'got 2 responses'); my $i = 3; foreach my $hex (@r) { is($hex, sha1_hex(''), "read expected body $i"); $i++; } } { my $conn = conn_for($sock, 'no TCP_CORK on empty body'); $conn->write("GET /empty HTTP/1.1\r\nHost:example.com\r\n\r\n"); my $buf = ''; my $t0 = [ gettimeofday ]; until ($buf =~ /\r\n\r\n/s) { $conn->sysread($buf, 4096, length($buf)); } my $elapsed = tv_interval($t0, [ gettimeofday ]); ok($elapsed < 0.190, 'no 200ms TCP cork delay on empty body'); } { my $conn = conn_for($sock, 'graceful termination during slow request'); $conn->write("PUT /sha1 HTTP/1.0\r\n"); delay(); $conn->write("Content-Length: $len\r\n"); delay(); $conn->write("\r\n"); my $kpid = $pid; $pid = undef; is(kill('TERM', $kpid), 1, 'started graceful shutdown'); delay(); my $n = 0; foreach my $c ('a'..'z') { $n += $conn->write($c); } is($n, $len, 'wrote alphabet'); $check_self->($conn); is(waitpid($kpid, 0), $kpid, 'reaped httpd'); is($?, 0, 'no error'); $spawn_httpd->('-W0'); } # various DoS attacks against the chunk parser: { local $SIG{PIPE} = 'IGNORE'; my $conn = conn_for($sock, '1.1 chunk header excessive'); $conn->write("PUT /sha1 HTTP/1.1\r\nTransfer-Encoding:chunked\r\n\r\n"); my $n = 0; my $w; while ($w = $conn->write('ffffffff')) { $n += $w; } ok($!, 'got error set in $!'); is($w, undef, 'write error happened'); ok($n > 0, 'was able to write'); my $r = $conn->read(my $buf, 66666); ok($r > 0, 'got non-empty response'); like($buf, qr!HTTP/1\.\d 400 !, 'got 400 response'); $conn = conn_for($sock, '1.1 chunk trailer excessive'); $conn->write("PUT /sha1 HTTP/1.1\r\nTransfer-Encoding:chunked\r\n\r\n"); is($conn->syswrite("1\r\na"), 4, 'wrote first header + chunk'); delay(); $n = 0; while ($w = $conn->write("\r")) { $n += $w; } ok($!, 'got error set in $!'); ok($n > 0, 'wrote part of chunk end (\r)'); $r = $conn->read($buf, 66666); ok($r > 0, 'got non-empty response'); like($buf, qr!HTTP/1\.\d 400 !, 'got 400 response'); } { my $conn = conn_for($sock, '1.1 chunked close trickle'); $conn->write("PUT /sha1 HTTP/1.1\r\nConnection:close\r\n"); $conn->write("Transfer-encoding: chunked\r\n\r\n"); foreach my $x ('a'..'z') { delay(); $conn->write('1'); delay(); $conn->write("\r"); delay(); $conn->write("\n"); delay(); $conn->write($x); delay(); $conn->write("\r"); delay(); $conn->write("\n"); } $conn->write('0'); delay(); $conn->write("\r"); delay(); $conn->write("\n"); delay(); $conn->write("\r"); delay(); $conn->write("\n"); delay(); $check_self->($conn); } { my $conn = conn_for($sock, '1.1 chunked close'); $conn->write("PUT /sha1 HTTP/1.1\r\nConnection:close\r\n"); my $xlen = sprintf('%x', $len); $conn->write("Transfer-Encoding: chunked\r\n\r\n$xlen\r\n" . "$str\r\n0\r\n\r\n"); $check_self->($conn); } { my $conn = conn_for($sock, 'chunked body + pipeline'); $conn->write("PUT /sha1 HTTP/1.1\r\n" . "Transfer-Encoding: chunked\r\n"); delay(); $conn->write("\r\n1\r\n"); delay(); $conn->write('a'); delay(); $conn->write("\r\n0\r\n\r\nPUT /sha1 HTTP/1.1\r\n"); delay(); my $buf = ''; until ($buf =~ /\r\n\r\n[a-f0-9]{40}\z/) { $conn->sysread(my $tmp, 4096); $buf .= $tmp; } my ($head, $body) = split(/\r\n\r\n/, $buf, 2); like($head, qr/\r\nContent-Length: 40\r\n/s, 'got expected length'); is($body, sha1_hex('a'), 'read expected body'); $conn->write("Connection: close\r\n"); $conn->write("Content-Length: $len\r\n\r\n$str"); $check_self->($conn); } { my $conn = conn_for($sock, 'trickle header, one-shot body + pipeline'); $conn->write("PUT /sha1 HTTP/1.0\r\n" . "Connection: keep-alive\r\n"); delay(); $conn->write("Content-Length: $len\r\n\r\n${str}PUT"); my $buf = ''; until ($buf =~ /\r\n\r\n[a-f0-9]{40}\z/) { $conn->sysread(my $tmp, 4096); $buf .= $tmp; } my ($head, $body) = split(/\r\n\r\n/, $buf, 2); like($head, qr/\r\nContent-Length: 40\r\n/s, 'got expected length'); is($body, sha1_hex($str), 'read expected body'); $conn->write(" /sha1 HTTP/1.0\r\nContent-Length: $len\r\n\r\n$str"); $check_self->($conn); } { my $conn = conn_for($sock, 'trickle body'); $conn->write("PUT /sha1 HTTP/1.0\r\n"); $conn->write("Content-Length: $len\r\n\r\n"); my $beg = substr($str, 0, 10); my $end = substr($str, 10); is($beg . $end, $str, 'substr setup correct'); delay(); $conn->write($beg); delay(); $conn->write($end); $check_self->($conn); } { my $conn = conn_for($sock, 'one-shot write'); $conn->write("PUT /sha1 HTTP/1.0\r\n" . "Content-Length: $len\r\n\r\n$str"); $check_self->($conn); } { my $conn = conn_for($sock, 'trickle header, one-shot body'); $conn->write("PUT /sha1 HTTP/1.0\r\n"); delay(); $conn->write("Content-Length: $len\r\n\r\n$str"); $check_self->($conn); } { my $conn = conn_for($sock, '1.1 Connnection: close'); $conn->write("PUT /sha1 HTTP/1.1\r\nConnection:close\r\n"); delay(); $conn->write("Content-Length: $len\r\n\r\n$str"); $check_self->($conn); } { my $conn = conn_for($sock, '1.1 pipeline start'); $conn->write("PUT /sha1 HTTP/1.1\r\n\r\nPUT"); my $buf = ''; until ($buf =~ /\r\n\r\n[a-f0-9]{40}\z/) { $conn->sysread(my $tmp, 4096); $buf .= $tmp; } my ($head, $body) = split(/\r\n\r\n/, $buf, 2); like($head, qr/\r\nContent-Length: 40\r\n/s, 'got expected length'); is($body, sha1_hex(''), 'read expected body'); # 2nd request $conn->write(" /sha1 HTTP/1.1\r\n\r\n"); $buf = ''; until ($buf =~ /\r\n\r\n[a-f0-9]{40}\z/) { $conn->sysread(my $tmp, 4096); $buf .= $tmp; } ($head, $body) = split(/\r\n\r\n/, $buf, 2); like($head, qr/\r\nContent-Length: 40\r\n/s, 'got expected length'); is($body, sha1_hex(''), 'read expected body #2'); } done_testing(); sub capture { my ($f) = @_; open my $fh, '+<', $f or die "failed to open $f: $!\n"; local $/ = "\n"; my @r = <$fh>; truncate($fh, 0) or die "truncate failed on $f: $!\n"; \@r } 1;