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view http_header_buffers.t @ 1851:0351dee227a8

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Tests: unbreak tests with dynamic certificates on stable. In 74cffa9d4c43, ticket based session reuse is enabled in addition to using a shared SSL session cache. This changed how a session can be resumed in a different server: - for a session ID based resumption, it is resumed in the same context - when using session tickets, a key name is also checked for matching - with a ticket callback, this is skipped in favor of callback's logic This makes 'session id context match' tests fail with session tickets on stable since ticket key names are unique in distinct SSL contexts. On the other hand, tests pass on 1.23.2+ due to automatic ticket keys rotation that installs ticket callback, and using a common shared SSL session cache.
author Sergey Kandaurov <pluknet@nginx.com>
date Tue, 28 Mar 2023 01:36:32 +0400
parents 66c7dee0431c
children
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#!/usr/bin/perl

# (C) Maxim Dounin
# (C) Nginx, Inc.

# Tests for large_client_header_buffers directive.

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

use warnings;
use strict;

use Test::More;

use Socket qw/ CRLF /;

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 rewrite/)->plan(10)
	->write_file_expand('nginx.conf', <<'EOF');

%%TEST_GLOBALS%%

daemon off;

events {
}

http {
    %%TEST_GLOBALS_HTTP%%

    connection_pool_size 128;
    client_header_buffer_size 128;

    server {
        listen       127.0.0.1:8080;
        server_name  five;

        large_client_header_buffers 5 256;

        return 204;
    }

    server {
        listen       127.0.0.1:8080;
        server_name  ten;

        large_client_header_buffers 10 256;

        return 204;
    }

    server {
        listen       127.0.0.1:8080;
        server_name  one;

        large_client_header_buffers 1 256;

        return 204;
    }

    server {
        listen       127.0.0.1:8080;
        server_name  foo;

        large_client_header_buffers 5 256;

        add_header X-URI $uri;
        add_header X-Foo $http_x_foo;
        return 204;
    }
}

EOF

$t->run();

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

TODO: {
todo_skip 'overflow', 2 unless $ENV{TEST_NGINX_UNSAFE};

# if hc->busy is allocated before the virtual server is selected,
# and then additional buffers are allocated in a virtual server with larger
# number of buffers configured, hc->busy will be overflowed

like(http(
	"GET / HTTP/1.0" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"Host: ten" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF
), qr/204|400/, 'additional buffers in virtual server');

# for pipelined requests large header buffers are saved to hc->free;
# it sized for number of buffers in the current virtual server, but
# saves previously allocated buffers, and there may be more buffers if
# allocatad before the virtual server was selected

like(http(
	"GET / HTTP/1.1" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"Host: one" . CRLF .
	CRLF .
	"GET / HTTP/1.1" . CRLF .
	"Host: one" . CRLF .
	"Connection: close" . CRLF .
	CRLF
), qr/204/, 'pipelined with too many buffers');

}

# check if long header and long request lines are correctly returned
# when nginx allocates a long header buffer

like(http(
	"GET / HTTP/1.0" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: foo" . ("1234567890" x 20) . "bar" . CRLF .
	CRLF
), qr/X-Foo: foo(1234567890){20}bar/, 'long header');

like(http(
	"GET /foo" . ("1234567890" x 20) . "bar HTTP/1.0" . CRLF .
	"Host: foo" . CRLF .
	CRLF
), qr!X-URI: /foo(1234567890){20}bar!, 'long request line');

# the same as the above, but with pipelining, so there is a buffer
# allocated in the previous request

like(http(
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF .
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"Connection: close" . CRLF .
	"X-Foo: foo" . ("1234567890" x 20) . "bar" . CRLF .
	CRLF
), qr/X-Foo: foo(1234567890){20}bar/, 'long header after pipelining');

like(http(
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF .
	"GET /foo" . ("1234567890" x 20) . "bar HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"Connection: close" . CRLF .
	CRLF
), qr!X-URI: /foo(1234567890){20}bar!, 'long request line after pipelining');

# the same as the above, but with keepalive; this ensures that previously
# allocated buffers are properly cleaned up when we set keepalive handler

like(http(
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF,
sleep => 0.1, body =>
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"Connection: close" . CRLF .
	"X-Foo: foo" . ("1234567890" x 20) . "bar" . CRLF .
	CRLF
), qr/X-Foo: foo(1234567890){20}bar/, 'long header after keepalive');

like(http(
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF,
sleep => 0.1, body =>
	"GET /foo" . ("1234567890" x 20) . "bar HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"Connection: close" . CRLF .
	CRLF
), qr!X-URI: /foo(1234567890){20}bar!, 'long request line after keepalive');

# the same as the above, but with pipelining and then keepalive;
# this ensures that previously allocated buffers are properly cleaned
# up when we set keepalive handler, including hc->free

like(http(
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF .
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF,
sleep => 0.1, body =>
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"Connection: close" . CRLF .
	"X-Foo: foo" . ("1234567890" x 20) . "bar" . CRLF .
	CRLF
), qr/X-Foo: foo(1234567890){20}bar/, 'long header after both');

like(http(
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF .
	"GET / HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"X-Foo: " . ("1234567890" x 20) . CRLF .
	CRLF,
sleep => 0.1, body =>
	"GET /foo" . ("1234567890" x 20) . "bar HTTP/1.1" . CRLF .
	"Host: foo" . CRLF .
	"Connection: close" . CRLF .
	CRLF
), qr!X-URI: /foo(1234567890){20}bar!, 'long request line after both');

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