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qemu / ipxe / c8e50bb0fd3d9d1629e5c78f92bbf7bc9af84f2c / . / src / tests / uri_test.c
blob: 7ce87a20813ca2b706a855770aa0133f0faa5672 [file] [log] [blame]
/*
* Copyright (C) 2014 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*
* You can also choose to distribute this program under the terms of
* the Unmodified Binary Distribution Licence (as given in the file
* COPYING.UBDL), provided that you have satisfied its requirements.
*/
FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
/** @file
*
* URI self-tests
*
*/
/* Forcibly enable assertions */
#undef NDEBUG
#include <string.h>
#include <byteswap.h>
#include <ipxe/uri.h>
#include <ipxe/tcpip.h>
#include <ipxe/params.h>
#include <ipxe/test.h>
/** A URI parsing/formatting test */
struct uri_test {
/** URI string */
const char *string;
/** URI */
struct uri uri;
};
/** A URI port number test */
struct uri_port_test {
/** URI string */
const char *string;
/** Default port number */
unsigned int default_port;
/** Expected port number */
unsigned int port;
};
/** A URI or path resolution test */
struct uri_resolve_test {
/** Base path or URI */
const char *base;
/** Relative path or URI */
const char *relative;
/** Expected resolved path or URI */
const char *resolved;
};
/** A PXE URI test */
struct uri_pxe_test {
/** Server address */
union {
struct sockaddr sa;
struct sockaddr_in sin;
struct sockaddr_in6 sin6;
struct sockaddr_tcpip st;
} server;
/** Filename */
const char *filename;
/** URI */
struct uri uri;
/** URI string (for display only; cannot be reparsed) */
const char *string;
};
/** A current working URI test */
struct uri_churi_test {
/** Relative URI */
const char *relative;
/** Expected new working URI */
const char *expected;
};
/** A request parameter URI test list */
struct uri_params_test_list {
/** Key */
const char *key;
/** Value */
const char *value;
/** Flags */
unsigned int flags;
};
/** A request parameter URI test */
struct uri_params_test {
/** URI string */
const char *string;
/** URI */
struct uri uri;
/** Parameter list name */
const char *name;
/** Parameter list */
struct uri_params_test_list *list;
};
/**
* Compare two URI component strings
*
* @v first First string, or NULL
* @v second Second string, or NULL
* @v difference Difference
*/
static int uristrcmp ( const char *first, const char *second ) {
/* Compare strings, allowing for either to be NULL */
if ( first == second ) {
return 0;
} else if ( ( first == NULL ) || ( second == NULL ) ) {
return -1;
} else {
return strcmp ( first, second );
}
}
/**
* Report URI equality test result
*
* @v uri URI
* @v expected Expected URI
* @v file Test code file
* @v line Test code line
*/
static void uri_okx ( struct uri *uri, struct uri *expected, const char *file,
unsigned int line ) {
okx ( uristrcmp ( uri->scheme, expected->scheme ) == 0, file, line );
okx ( uristrcmp ( uri->opaque, expected->opaque ) == 0, file, line );
okx ( uristrcmp ( uri->user, expected->user ) == 0, file, line );
okx ( uristrcmp ( uri->password, expected->password ) == 0, file, line);
okx ( uristrcmp ( uri->host, expected->host ) == 0, file, line );
okx ( uristrcmp ( uri->port, expected->port ) == 0, file, line );
okx ( uristrcmp ( uri->path, expected->path ) == 0, file, line );
okx ( uristrcmp ( uri->epath, expected->epath ) == 0, file, line );
okx ( uristrcmp ( uri->equery, expected->equery ) == 0, file, line );
okx ( uristrcmp ( uri->efragment, expected->efragment ) == 0,
file, line);
okx ( uri->params == expected->params, file, line );
}
#define uri_ok( uri, expected ) uri_okx ( uri, expected, __FILE__, __LINE__ )
/**
* Report URI parsing test result
*
* @v test URI test
* @v file Test code file
* @v line Test code line
*/
static void uri_parse_okx ( struct uri_test *test, const char *file,
unsigned int line ) {
struct uri *uri;
/* Parse URI */
uri = parse_uri ( test->string );
okx ( uri != NULL, file, line );
if ( uri )
uri_okx ( uri, &test->uri, file, line );
uri_put ( uri );
}
#define uri_parse_ok( test ) uri_parse_okx ( test, __FILE__, __LINE__ )
/**
* Report URI formatting test result
*
* @v test URI test
* @v file Test code file
* @v line Test code line
*/
static void uri_format_okx ( struct uri_test *test, const char *file,
unsigned int line ) {
char buf[ strlen ( test->string ) + 1 /* NUL */ ];
char *tmp;
size_t len;
/* Format into fixed-size buffer */
len = format_uri ( &test->uri, buf, sizeof ( buf ) );
okx ( len == ( sizeof ( buf ) - 1 /* NUL */ ), file, line );
okx ( strcmp ( buf, test->string ) == 0, file, line );
/* Format into temporarily allocated buffer */
tmp = format_uri_alloc ( &test->uri );
okx ( tmp != NULL, file, line );
if ( tmp )
okx ( strcmp ( tmp, test->string ) == 0, file, line );
free ( tmp );
}
#define uri_format_ok( test ) uri_format_okx ( test, __FILE__, __LINE__ )
/**
* Report URI duplication test result
*
* @v test URI
* @v file Test code file
* @v line Test code line
*/
static void uri_dup_okx ( struct uri *uri, const char *file,
unsigned int line ) {
struct uri *dup;
dup = uri_dup ( uri );
okx ( dup != NULL, file, line );
if ( dup )
uri_okx ( dup, uri, file, line );
uri_put ( dup );
}
#define uri_dup_ok( test ) uri_dup_okx ( test, __FILE__, __LINE__ )
/**
* Report URI combined parsing and formatting test result
*
* @v test URI test
* @v file Test code file
* @v line Test code line
*/
static void uri_parse_format_dup_okx ( struct uri_test *test, const char *file,
unsigned int line ) {
uri_parse_okx ( test, file, line );
uri_format_okx ( test, file, line );
uri_dup_okx ( &test->uri, file, line );
}
#define uri_parse_format_dup_ok( test ) \
uri_parse_format_dup_okx ( test, __FILE__, __LINE__ )
/**
* Report URI port number test result
*
* @v test URI port number test
* @v file Test code file
* @v line Test code line
*/
static void uri_port_okx ( struct uri_port_test *test, const char *file,
unsigned int line ) {
struct uri *uri;
unsigned int port;
/* Parse URI */
uri = parse_uri ( test->string );
okx ( uri != NULL, file, line );
if ( uri ) {
port = uri_port ( uri, test->default_port );
okx ( port == test->port, file, line );
}
uri_put ( uri );
}
#define uri_port_ok( test ) uri_port_okx ( test, __FILE__, __LINE__ )
/**
* Report URI resolution test result
*
* @v test Path resolution test
* @v file Test code file
* @v line Test code line
*/
static void uri_resolve_okx ( struct uri_resolve_test *test,
const char *file, unsigned int line ) {
struct uri *base;
struct uri *relative;
struct uri *resolved = NULL;
char *formatted;
/* Parse URIs */
base = parse_uri ( test->base );
okx ( base != NULL, file, line );
relative = parse_uri ( test->relative );
okx ( relative != NULL, file, line );
/* Resolve URI */
if ( base && relative ) {
resolved = resolve_uri ( base, relative );
okx ( resolved != NULL, file, line );
}
/* Format resolved URI */
formatted = format_uri_alloc ( resolved );
okx ( formatted != NULL, file, line );
/* Check resolved URI */
if ( formatted )
okx ( strcmp ( formatted, test->resolved ) == 0, file, line );
free ( formatted );
uri_put ( resolved );
uri_put ( relative );
uri_put ( base );
}
#define uri_resolve_ok( test ) uri_resolve_okx ( test, __FILE__, __LINE__ )
/**
* Report path resolution test result
*
* @v test Path resolution test
* @v file Test code file
* @v line Test code line
*/
static void uri_resolve_path_okx ( struct uri_resolve_test *test,
const char *file, unsigned int line ) {
char *resolved;
/* Resolve paths using resolve_path() directly */
resolved = resolve_path ( test->base, test->relative );
okx ( resolved != NULL, file, line );
if ( resolved )
okx ( strcmp ( resolved, test->resolved ) == 0, file, line );
free ( resolved );
/* Resolve paths as URIs (since all paths are valid URIs) */
uri_resolve_okx ( test, file, line );
}
#define uri_resolve_path_ok( test ) \
uri_resolve_path_okx ( test, __FILE__, __LINE__ )
/**
* Report URI PXE test result
*
* @v test URI PXE test
* @v file Test code file
* @v line Test code line
*/
static void uri_pxe_okx ( struct uri_pxe_test *test, const char *file,
unsigned int line ) {
char buf[ strlen ( test->string ) + 1 /* NUL */ ];
struct uri *uri;
size_t len;
/* Construct URI */
uri = pxe_uri ( &test->server.sa, test->filename );
okx ( uri != NULL, file, line );
if ( uri ) {
uri_okx ( uri, &test->uri, file, line );
len = format_uri ( uri, buf, sizeof ( buf ) );
okx ( len == ( sizeof ( buf ) - 1 /* NUL */ ), file, line );
okx ( strcmp ( buf, test->string ) == 0, file, line );
}
uri_put ( uri );
}
#define uri_pxe_ok( test ) uri_pxe_okx ( test, __FILE__, __LINE__ )
/**
* Report current working URI test result
*
* @v tests List of current working URI tests
* @v file Test code file
* @v line Test code line
*/
static void uri_churi_okx ( struct uri_churi_test *test, const char *file,
unsigned int line ) {
struct uri *old_cwuri;
struct uri *uri;
char *formatted;
/* Preserve original current working URI */
old_cwuri = uri_get ( cwuri );
/* Perform sequence of current working URI changes */
do {
/* Parse relative URI */
uri = parse_uri ( test->relative );
okx ( uri != NULL, file, line );
/* Move to this URI */
churi ( uri );
/* Format new current working URI */
formatted = format_uri_alloc ( cwuri );
okx ( formatted != NULL, file, line );
if ( formatted ) {
okx ( strcmp ( formatted, test->expected ) == 0,
file, line );
}
/* Free temporary storage */
free ( formatted );
uri_put ( uri );
/* Move to next current working URI test */
test++;
} while ( test->relative != NULL );
/* Restore original current working URI */
churi ( old_cwuri );
uri_put ( old_cwuri );
}
#define uri_churi_ok( test ) uri_churi_okx ( test, __FILE__, __LINE__ )
/**
* Report request parameter URI test list result
*
* @v test Request parameter URI test
* @v uri URI
* @v file Test code file
* @v line Test code line
*/
static void uri_params_list_okx ( struct uri_params_test *test,
struct uri *uri, const char *file,
unsigned int line ) {
struct uri_params_test_list *list;
struct parameter *param;
/* Check URI */
uri_okx ( uri, &test->uri, file, line );
/* Check URI parameters */
okx ( uri->params != NULL, file, line );
if ( uri->params ) {
list = test->list;
for_each_param ( param, uri->params ) {
okx ( strcmp ( param->key, list->key ) == 0,
file, line );
okx ( strcmp ( param->value, list->value ) == 0,
file, line );
okx ( param->flags == list->flags, file, line );
list++;
}
okx ( list->key == NULL, file, line );
}
}
#define uri_params_list_ok( test ) \
uri_params_list_okx ( test, __FILE__, __LINE__ )
/**
* Report request parameter URI test result
*
* @v test Request parameter URI test
* @v file Test code file
* @v line Test code line
*/
static void uri_params_okx ( struct uri_params_test *test, const char *file,
unsigned int line ) {
struct uri_params_test_list *list;
struct parameters *params;
struct parameter *param;
struct uri *uri;
struct uri *dup;
/* Create parameter list */
params = create_parameters ( test->name );
okx ( params != NULL, file, line );
if ( params ) {
for ( list = test->list ; list->key ; list++ ) {
param = add_parameter ( params, list->key, list->value,
list->flags );
okx ( param != NULL, file, line );
}
}
/* Record parameter list as part of expected URI */
test->uri.params = params;
/* Parse URI */
uri = parse_uri ( test->string );
okx ( uri != NULL, file, line );
if ( uri )
uri_params_list_okx ( test, uri, file, line );
/* Duplicate URI */
dup = uri_dup ( uri );
okx ( dup != NULL, file, line );
if ( dup )
uri_params_list_okx ( test, dup, file, line );
/* Clear parameter list in expected URI */
test->uri.params = NULL;
uri_put ( uri );
uri_put ( dup );
}
#define uri_params_ok( test ) uri_params_okx ( test, __FILE__, __LINE__ )
/** Empty URI */
static struct uri_test uri_empty = {
.string = "",
};
/** Basic HTTP URI */
static struct uri_test uri_boot_ipxe_org = {
"http://boot.ipxe.org/demo/boot.php",
{ .scheme = "http", .host = "boot.ipxe.org",
.path = "/demo/boot.php", .epath = "/demo/boot.php" },
};
/** Basic opaque URI */
static struct uri_test uri_mailto = {
"mailto:ipxe-devel@lists.ipxe.org",
{ .scheme = "mailto", .opaque = "ipxe-devel@lists.ipxe.org" },
};
/** Basic host-only URI */
static struct uri_test uri_host = {
"http://boot.ipxe.org",
{ .scheme = "http", .host = "boot.ipxe.org" },
};
/** Basic path-only URI */
static struct uri_test uri_path = {
"/var/lib/tftpboot/pxelinux.0",
{ .path = "/var/lib/tftpboot/pxelinux.0",
.epath ="/var/lib/tftpboot/pxelinux.0" },
};
/** Path-only URI with escaped characters */
static struct uri_test uri_path_escaped = {
"/hello%20world%3F",
{ .path = "/hello world?", .epath = "/hello%20world%3F" },
};
/** HTTP URI with all the trimmings */
static struct uri_test uri_http_all = {
"http://anon:password@example.com:3001/~foo/cgi-bin/foo.pl?a=b&c=d#bit",
{
.scheme = "http",
.user = "anon",
.password = "password",
.host = "example.com",
.port = "3001",
.path = "/~foo/cgi-bin/foo.pl",
.epath = "/~foo/cgi-bin/foo.pl",
.equery = "a=b&c=d",
.efragment = "bit",
},
};
/** HTTP URI with escaped characters */
static struct uri_test uri_http_escaped = {
"https://test.ipxe.org/wtf%3F%0A?kind%23of/uri%20is#this%3F",
{
.scheme = "https",
.host = "test.ipxe.org",
.path = "/wtf?\n",
.epath = "/wtf%3F%0A",
.equery = "kind%23of/uri%20is",
.efragment = "this%3F",
},
};
/** HTTP URI with improperly escaped characters */
static struct uri_test uri_http_escaped_improper = {
/* We accept for parsing improperly escaped characters.
* (Formatting the parsed URI would produce the properly
* encoded form, and so would not exactly match the original
* URI string.)
*/
"https://test%2eipxe.org/wt%66%3f\n?kind%23of/uri is#this?",
{
.scheme = "https",
.host = "test.ipxe.org",
.path = "/wtf?\n",
.epath = "/wt%66%3f\n",
.equery = "kind%23of/uri is",
.efragment = "this?",
},
};
/** IPv6 URI */
static struct uri_test uri_ipv6 = {
"http://[2001:ba8:0:1d4::6950:5845]/",
{
.scheme = "http",
.host = "[2001:ba8:0:1d4::6950:5845]",
.path = "/",
.epath = "/",
},
};
/** IPv6 URI with port */
static struct uri_test uri_ipv6_port = {
"http://[2001:ba8:0:1d4::6950:5845]:8001/boot",
{
.scheme = "http",
.host = "[2001:ba8:0:1d4::6950:5845]",
.port = "8001",
.path = "/boot",
.epath = "/boot",
},
};
/** IPv6 URI with link-local address */
static struct uri_test uri_ipv6_local = {
"http://[fe80::69ff:fe50:5845%25net0]/ipxe",
{
.scheme = "http",
.host = "[fe80::69ff:fe50:5845%net0]",
.path = "/ipxe",
.epath = "/ipxe",
},
};
/** IPv6 URI with link-local address not conforming to RFC 6874 */
static struct uri_test uri_ipv6_local_non_conforming = {
/* We accept for parsing a single "%" in "%net0" (rather than
* the properly encoded form "%25net0"). (Formatting the
* parsed URI would produce the properly encoded form, and so
* would not exactly match the original URI string.)
*/
"http://[fe80::69ff:fe50:5845%net0]/ipxe",
{
.scheme = "http",
.host = "[fe80::69ff:fe50:5845%net0]",
.path = "/ipxe",
.epath = "/ipxe",
},
};
/** iSCSI URI */
static struct uri_test uri_iscsi = {
"iscsi:10.253.253.1::::iqn.2010-04.org.ipxe:rabbit",
{
.scheme = "iscsi",
.opaque = "10.253.253.1::::iqn.2010-04.org.ipxe:rabbit",
},
};
/** File URI with relative (opaque) path */
static struct uri_test uri_file_relative = {
"file:boot/script.ipxe",
{
.scheme = "file",
.opaque = "boot/script.ipxe",
},
};
/** File URI with absolute path */
static struct uri_test uri_file_absolute = {
"file:/boot/script.ipxe",
{
.scheme = "file",
.path = "/boot/script.ipxe",
.epath = "/boot/script.ipxe",
},
};
/** File URI with volume name */
static struct uri_test uri_file_volume = {
"file://hpilo/boot/script.ipxe",
{
.scheme = "file",
.host = "hpilo",
.path = "/boot/script.ipxe",
.epath = "/boot/script.ipxe",
},
};
/** Relative URI with colons in path */
static struct uri_test uri_colons = {
"/boot/52:54:00:12:34:56/boot.ipxe",
{
.path = "/boot/52:54:00:12:34:56/boot.ipxe",
.epath = "/boot/52:54:00:12:34:56/boot.ipxe",
},
};
/** URI with port number */
static struct uri_port_test uri_explicit_port = {
"http://192.168.0.1:8080/boot.php",
80,
8080,
};
/** URI without port number */
static struct uri_port_test uri_default_port = {
"http://192.168.0.1/boot.php",
80,
80,
};
/** Simple path resolution test */
static struct uri_resolve_test uri_simple_path = {
"/etc/passwd",
"group",
"/etc/group",
};
/** Path resolution test with "." and ".." elements */
static struct uri_resolve_test uri_relative_path = {
"/var/lib/tftpboot/pxe/pxelinux.0",
"./../ipxe/undionly.kpxe",
"/var/lib/tftpboot/ipxe/undionly.kpxe",
};
/** Path resolution test terminating with directory */
static struct uri_resolve_test uri_directory_path = {
"/test/cgi-bin.pl/boot.ipxe",
"..",
"/test/",
};
/** Path resolution test with excessive ".." elements */
static struct uri_resolve_test uri_excessive_path = {
"/var/lib/tftpboot/ipxe.pxe",
"../../../../../../../foo",
"/foo",
};
/** Path resolution test with absolute path */
static struct uri_resolve_test uri_absolute_path = {
"/var/lib/tftpboot",
"/etc/hostname",
"/etc/hostname",
};
/** Relative URI resolution test */
static struct uri_resolve_test uri_relative = {
"http://boot.ipxe.org/demo/boot.php?vendor=10ec&device=8139",
"initrd.img",
"http://boot.ipxe.org/demo/initrd.img",
};
/** Absolute URI resolution test */
static struct uri_resolve_test uri_absolute = {
"http://boot.ipxe.org/demo/boot.php",
"ftp://192.168.0.1/boot.ipxe",
"ftp://192.168.0.1/boot.ipxe",
};
/** Absolute path URI resolution test */
static struct uri_resolve_test uri_absolute_uri_path = {
"http://boot.ipxe.org/demo/boot.php#test",
"/demo/vmlinuz",
"http://boot.ipxe.org/demo/vmlinuz",
};
/** Query URI resolution test */
static struct uri_resolve_test uri_query = {
"http://10.253.253.1/test.pl?mac=02-00-69-50-58-45",
"?mac=00-1f-16-bc-fe-2f",
"http://10.253.253.1/test.pl?mac=00-1f-16-bc-fe-2f",
};
/** Fragment URI resolution test */
static struct uri_resolve_test uri_fragment = {
"http://192.168.0.254/test#foo",
"#bar",
"http://192.168.0.254/test#bar",
};
/** Empty relative URI resolution test */
static struct uri_resolve_test uri_self = {
"http://192.168.0.1/path/to/me",
"",
"http://192.168.0.1/path/to/me",
};
/** Current directory URI resolution test */
static struct uri_resolve_test uri_cwd = {
"http://192.168.0.1/path/to/me",
".",
"http://192.168.0.1/path/to/",
};
/** PXE URI with absolute URI */
static struct uri_pxe_test uri_pxe_absolute = {
{
/* 192.168.0.3 */
.sin = {
.sin_family = AF_INET,
.sin_addr = { .s_addr = htonl ( 0xc0a80003 ) },
},
},
"http://not.a.tftp/uri",
{
.scheme = "http",
.host = "not.a.tftp",
.path = "/uri",
.epath = "/uri",
},
"http://not.a.tftp/uri",
};
/** PXE URI with absolute path */
static struct uri_pxe_test uri_pxe_absolute_path = {
{
/* 192.168.0.2 */
.sin = {
.sin_family = AF_INET,
.sin_addr = { .s_addr = htonl ( 0xc0a80002 ) },
},
},
"/absolute/path",
{
.scheme = "tftp",
.host = "192.168.0.2",
.path = "//absolute/path",
.epath = "//absolute/path",
},
"tftp://192.168.0.2//absolute/path",
};
/** PXE URI with relative path */
static struct uri_pxe_test uri_pxe_relative_path = {
{
/* 192.168.0.3 */
.sin = {
.sin_family = AF_INET,
.sin_addr = { .s_addr = htonl ( 0xc0a80003 ) },
},
},
"relative/path",
{
.scheme = "tftp",
.host = "192.168.0.3",
.path = "/relative/path",
.epath = "/relative/path",
},
"tftp://192.168.0.3/relative/path",
};
/** PXE URI with path containing special characters */
static struct uri_pxe_test uri_pxe_icky = {
{
/* 10.0.0.6 */
.sin = {
.sin_family = AF_INET,
.sin_addr = { .s_addr = htonl ( 0x0a000006 ) },
},
},
"C:\\tftpboot\\icky#path",
{
.scheme = "tftp",
.host = "10.0.0.6",
.path = "/C:\\tftpboot\\icky#path",
.epath = "/C:\\tftpboot\\icky#path",
},
"tftp://10.0.0.6/C:\\tftpboot\\icky#path",
};
/** PXE URI with custom port */
static struct uri_pxe_test uri_pxe_port = {
{
/* 192.168.0.1:4069 */
.sin = {
.sin_family = AF_INET,
.sin_addr = { .s_addr = htonl ( 0xc0a80001 ) },
.sin_port = htons ( 4069 ),
},
},
"/another/path",
{
.scheme = "tftp",
.host = "192.168.0.1",
.port = "4069",
.path = "//another/path",
.epath = "//another/path",
},
"tftp://192.168.0.1:4069//another/path",
};
/** Current working URI test */
static struct uri_churi_test uri_churi[] = {
{
"http://boot.ipxe.org/demo/boot.php",
"http://boot.ipxe.org/demo/boot.php",
},
{
"?vendor=10ec&device=8139",
"http://boot.ipxe.org/demo/boot.php?vendor=10ec&device=8139",
},
{
"fedora/fedora.ipxe",
"http://boot.ipxe.org/demo/fedora/fedora.ipxe",
},
{
"vmlinuz",
"http://boot.ipxe.org/demo/fedora/vmlinuz",
},
{
"http://local/boot/initrd.img",
"http://local/boot/initrd.img",
},
{
"modules/8139too.ko",
"http://local/boot/modules/8139too.ko",
},
{
NULL,
NULL,
}
};
/** Request parameter URI test list */
static struct uri_params_test_list uri_params_list[] = {
{
"vendor",
"10ec",
PARAMETER_FORM,
},
{
"device",
"8139",
PARAMETER_FORM,
},
{
"uuid",
"f59fac00-758f-498f-9fe5-87d790045d94",
PARAMETER_HEADER,
},
{
NULL,
NULL,
0,
}
};
/** Request parameter URI test */
static struct uri_params_test uri_params = {
"http://boot.ipxe.org/demo/boot.php##params",
{
.scheme = "http",
.host = "boot.ipxe.org",
.path = "/demo/boot.php",
.epath = "/demo/boot.php",
},
NULL,
uri_params_list,
};
/** Named request parameter URI test list */
static struct uri_params_test_list uri_named_params_list[] = {
{
"mac",
"00:1e:65:80:d3:b6",
PARAMETER_FORM,
},
{
"serial",
"LXTQ20Z1139322762F2000",
PARAMETER_FORM,
},
{
NULL,
NULL,
0,
}
};
/** Named request parameter URI test */
static struct uri_params_test uri_named_params = {
"http://192.168.100.4:3001/register##params=foo",
{
.scheme = "http",
.host = "192.168.100.4",
.port = "3001",
.path = "/register",
.epath = "/register",
},
"foo",
uri_named_params_list,
};
/**
* Perform URI self-test
*
*/
static void uri_test_exec ( void ) {
/* URI parsing, formatting, and duplication tests */
uri_parse_format_dup_ok ( &uri_empty );
uri_parse_format_dup_ok ( &uri_boot_ipxe_org );
uri_parse_format_dup_ok ( &uri_mailto );
uri_parse_format_dup_ok ( &uri_host );
uri_parse_format_dup_ok ( &uri_path );
uri_parse_format_dup_ok ( &uri_path_escaped );
uri_parse_format_dup_ok ( &uri_http_all );
uri_parse_format_dup_ok ( &uri_http_escaped );
uri_parse_ok ( &uri_http_escaped_improper ); /* Parse only */
uri_parse_format_dup_ok ( &uri_ipv6 );
uri_parse_format_dup_ok ( &uri_ipv6_port );
uri_parse_format_dup_ok ( &uri_ipv6_local );
uri_parse_ok ( &uri_ipv6_local_non_conforming ); /* Parse only */
uri_parse_format_dup_ok ( &uri_iscsi );
uri_parse_format_dup_ok ( &uri_file_relative );
uri_parse_format_dup_ok ( &uri_file_absolute );
uri_parse_format_dup_ok ( &uri_file_volume );
uri_parse_format_dup_ok ( &uri_colons );
/** URI port number tests */
uri_port_ok ( &uri_explicit_port );
uri_port_ok ( &uri_default_port );
/** Path resolution tests */
uri_resolve_path_ok ( &uri_simple_path );
uri_resolve_path_ok ( &uri_relative_path );
uri_resolve_path_ok ( &uri_directory_path );
uri_resolve_path_ok ( &uri_excessive_path );
uri_resolve_path_ok ( &uri_absolute_path );
/** URI resolution tests */
uri_resolve_ok ( &uri_relative );
uri_resolve_ok ( &uri_absolute );
uri_resolve_ok ( &uri_absolute_uri_path );
uri_resolve_ok ( &uri_query );
uri_resolve_ok ( &uri_fragment );
uri_resolve_ok ( &uri_self );
uri_resolve_ok ( &uri_cwd );
/* PXE URI construction tests */
uri_pxe_ok ( &uri_pxe_absolute );
uri_pxe_ok ( &uri_pxe_absolute_path );
uri_pxe_ok ( &uri_pxe_relative_path );
uri_pxe_ok ( &uri_pxe_icky );
uri_pxe_ok ( &uri_pxe_port );
/* Current working URI tests */
uri_churi_ok ( uri_churi );
/* Request parameter URI tests */
uri_params_ok ( &uri_params );
uri_params_ok ( &uri_named_params );
}
/** URI self-test */
struct self_test uri_test __self_test = {
.name = "uri",
.exec = uri_test_exec,
};