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Tests: optimized processing of large QUIC packets with padding. Path MTU discovery packets might contain a lot of padding, and creating a copy of the whole buffer for each PADDING frame, which is just one byte with type 0, consumes lots of resources. This was seen to result in flapping of at least h3_keepalive.t and h3_ssl_early_data.t tests. Fix is to copy at most 8 bytes for parse_int() calls when parsing frame types.
author Maxim Dounin <mdounin@mdounin.ru>
date Mon, 03 Jun 2024 04:17:28 +0300
parents 62e2baa3bc60
children
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#!/usr/bin/perl

# (C) Maxim Dounin

# Tests for nginx limit_req 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 limit_req/)->plan(6);

$t->write_file_expand('nginx.conf', <<'EOF');

%%TEST_GLOBALS%%

daemon off;

events {
}

http {
    %%TEST_GLOBALS_HTTP%%

    limit_req_zone  $binary_remote_addr  zone=one:1m   rate=2r/s;
    limit_req_zone  $binary_remote_addr  zone=long:1m  rate=2r/s;
    limit_req_zone  $binary_remote_addr  zone=fast:1m  rate=1000r/s;

    server {
        listen       127.0.0.1:8080;
        server_name  localhost;
        location / {
            limit_req    zone=one  burst=1  nodelay;
        }
        location /status {
            limit_req    zone=one  burst=1  nodelay;

            limit_req_status  501;
        }
        location /long {
            limit_req    zone=long  burst=5;
        }
        location /fast {
            limit_req    zone=fast  burst=1;
        }
    }
}

EOF

$t->write_file('test1.html', 'XtestX');
$t->write_file('long.html', "1234567890\n" x (1 << 16));
$t->write_file('fast.html', 'XtestX');
$t->run();

###############################################################################

like(http_get('/test1.html'), qr/^HTTP\/1.. 200 /m, 'request');
http_get('/test1.html');
like(http_get('/test1.html'), qr/^HTTP\/1.. 503 /m, 'request rejected');
like(http_get('/status.html'), qr/^HTTP\/1.. 501 /m, 'request rejected status');
http_get('/test1.html');
http_get('/test1.html');

# Second request will be delayed by limit_req, make sure it isn't truncated.
# The bug only manifests itself if buffer will be filled, so sleep for a while
# before reading response.

my $l1 = length(http_get('/long.html'));
my $l2 = length(http_get('/long.html', sleep => 0.6));
is($l2, $l1, 'delayed big request not truncated');

# make sure rejected requests are not counted, and access is again allowed
# after 1/rate seconds

like(http_get('/test1.html'), qr/^HTTP\/1.. 200 /m, 'rejects not counted');

# make sure negative excess values are handled properly

http_get('/fast.html');
select undef, undef, undef, 0.1;
like(http_get('/fast.html'), qr/^HTTP\/1.. 200 /m, 'negative excess');

###############################################################################