/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2010, Digium, Inc.
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
/*!
* \file
* \brief sip request parsing functions and unit tests
*/
/*** MODULEINFO
deprecated
***/
#include "asterisk.h"
#include "include/sip.h"
#include "include/sip_utils.h"
#include "include/reqresp_parser.h"
#ifdef HAVE_XLOCALE_H
locale_t c_locale;
#endif
/*! \brief * parses a URI in its components.*/
int parse_uri_full(char *uri, const char *scheme, char **user, char **pass,
char **hostport, struct uriparams *params, char **headers,
char **residue)
{
char *userinfo = NULL;
char *parameters = NULL;
char *endparams = NULL;
char *c = NULL;
int error = 0;
int teluri_scheme = 0;
/*
* Initialize requested strings - some functions don't care if parse_uri fails
* and will attempt to use string pointers passed into parse_uri even after a
* parse_uri failure
*/
if (user) {
*user = "";
}
if (pass) {
*pass = "";
}
if (hostport) {
*hostport = "";
}
if (headers) {
*headers = "";
}
if (residue) {
*residue = "";
}
/* check for valid input */
if (ast_strlen_zero(uri)) {
return -1;
}
if (scheme) {
int l;
char *scheme2 = ast_strdupa(scheme);
char *cur = strsep(&scheme2, ",");
for (; !ast_strlen_zero(cur); cur = strsep(&scheme2, ",")) {
l = strlen(cur);
if (!strncasecmp(uri, cur, l)) {
teluri_scheme = !strncasecmp(uri, "tel:", 4); /* TEL URI */
uri += l;
break;
}
}
if (ast_strlen_zero(cur)) {
ast_debug(1, "No supported scheme found in '%s' using the scheme[s] %s\n", uri, scheme);
error = -1;
}
}
if (!hostport) {
/* if we don't want to split around hostport, keep everything as a
* userinfo - cos thats how old parse_uri operated*/
userinfo = uri;
} else if (teluri_scheme) {
/*
* tel: TEL URI INVITE RFC 3966 patch
* See http://www.ietf.org/rfc/rfc3966.txt
*
* Once the full RFC 3966 parsing is implemented,
* the ext= or isub= parameters would be extracted from userinfo.
* When this kind of subaddressing would be implemented, the userinfo must be further parsed.
* Those parameters would be used for ISDN or PSTN local extensions.
*
* Current restrictions:
* We currently consider the ";isub=" or the ";ext=" as part of the userinfo (unparsed).
*/
if ((c = strstr(uri, ";phone-context="))) {
/*
* Local number with context or domain.
* ext= or isub= TEL URI parameters should be upfront.
* All other parameters should come after the ";phone-context=" parameter.
* If other parameters would occur before ";phone-context=" they will be ignored.
*/
*c = '\0';
userinfo = uri;
uri = c + 15;
*hostport = uri;
} else if ('+' == uri[0]) {
/* Global number without context or domain; possibly followed by RFC 3966 and optional other parameters. */
userinfo = uri;
*hostport = uri;
} else {
ast_debug(1, "No RFC 3966 global number or context found in '%s'; returning local number anyway\n", uri);
userinfo = uri; /* Return local number anyway */
error = -1;
}
} else {
char *dom = "";
if ((c = strchr(uri, '@'))) {
*c++ = '\0';
dom = c;
userinfo = uri;
uri = c; /* userinfo can contain ? and ; chars so step forward before looking for params and headers */
} else {
/* domain-only URI, according to the SIP RFC. */
dom = uri;
userinfo = "";
}
*hostport = dom;
}
if (pass && (c = strchr(userinfo, ':'))) { /* user:password */
*c++ = '\0';
*pass = c;
} else if (pass) {
*pass = "";
}
if (user) {
*user = userinfo;
}
parameters = uri;
/* strip [?headers] from end of uri - even if no header pointer exists*/
if ((c = strrchr(uri, '?'))) {
*c++ = '\0';
uri = c;
if (headers) {
*headers = c;
}
if ((c = strrchr(uri, ';'))) {
*c++ = '\0';
} else {
c = strrchr(uri, '\0');
}
uri = c; /* residue */
} else if (headers) {
*headers = "";
}
/* parse parameters */
endparams = strchr(parameters,'\0');
if ((c = strchr(parameters, ';'))) {
*c++ = '\0';
parameters = c;
} else {
parameters = endparams;
}
if (params) {
char *rem = parameters; /* unparsed or unrecognised remainder */
char *label;
char *value;
int lr = 0;
params->transport = "";
params->user = "";
params->method = "";
params->ttl = "";
params->maddr = "";
params->lr = 0;
rem = parameters;
while ((value = strchr(parameters, '=')) || (lr = !strncmp(parameters, "lr", 2))) {
/* The while condition will not continue evaluation to set lr if it matches "lr=" */
if (lr) {
value = parameters;
} else {
*value++ = '\0';
}
label = parameters;
if ((c = strchr(value, ';'))) {
*c++ = '\0';
parameters = c;
} else {
parameters = endparams;
}
if (!strcmp(label, "transport")) {
params->transport = value;
rem = parameters;
} else if (!strcmp(label, "user")) {
params->user = value;
rem = parameters;
} else if (!strcmp(label, "method")) {
params->method = value;
rem = parameters;
} else if (!strcmp(label, "ttl")) {
params->ttl = value;
rem = parameters;
} else if (!strcmp(label, "maddr")) {
params->maddr = value;
rem = parameters;
/* Treat "lr", "lr=yes", "lr=on", "lr=1", "lr=almostanything" as lr enabled and "", "lr=no", "lr=off", "lr=0", "lr=" and "lranything" as lr disabled */
} else if ((!strcmp(label, "lr") && strcmp(value, "no") && strcmp(value, "off") && strcmp(value, "0") && strcmp(value, "")) || ((lr) && strcmp(value, "lr"))) {
params->lr = 1;
rem = parameters;
} else {
value--;
*value = '=';
if (c) {
c--;
*c = ';';
}
}
}
if (rem > uri) { /* no headers */
uri = rem;
}
}
if (residue) {
*residue = uri;
}
return error;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(sip_parse_uri_full_test)
{
int res = AST_TEST_PASS;
char uri[1024];
char *user, *pass, *hostport, *headers, *residue;
struct uriparams params;
struct testdata {
char *desc;
char *uri;
char *user;
char *pass;
char *hostport;
char *headers;
char *residue;
struct uriparams params;
AST_LIST_ENTRY(testdata) list;
};
struct testdata *testdataptr;
static AST_LIST_HEAD_NOLOCK(testdataliststruct, testdata) testdatalist;
struct testdata td1 = {
.desc = "no headers",
.uri = "sip:user:secret@host:5060;param=discard;transport=tcp;param2=residue",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "",
.residue = "param2=residue",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td2 = {
.desc = "with headers",
.uri = "sip:user:secret@host:5060;param=discard;transport=tcp;param2=discard2?header=blah&header2=blah2;param3=residue",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "header=blah&header2=blah2",
.residue = "param3=residue",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td3 = {
.desc = "difficult user",
.uri = "sip:-_.!~*'()&=+$,;?/:secret@host:5060;transport=tcp",
.user = "-_.!~*'()&=+$,;?/",
.pass = "secret",
.hostport = "host:5060",
.headers = "",
.residue = "",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td4 = {
.desc = "difficult pass",
.uri = "sip:user:-_.!~*'()&=+$,@host:5060;transport=tcp",
.user = "user",
.pass = "-_.!~*'()&=+$,",
.hostport = "host:5060",
.headers = "",
.residue = "",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td5 = {
.desc = "difficult host",
.uri = "sip:user:secret@1-1.a-1.:5060;transport=tcp",
.user = "user",
.pass = "secret",
.hostport = "1-1.a-1.:5060",
.headers = "",
.residue = "",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td6 = {
.desc = "difficult params near transport",
.uri = "sip:user:secret@host:5060;-_.!~*'()[]/:&+$=-_.!~*'()[]/:&+$;transport=tcp",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "",
.residue = "",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td7 = {
.desc = "difficult params near headers",
.uri = "sip:user:secret@host:5060;-_.!~*'()[]/:&+$=-_.!~*'()[]/:&+$?header=blah&header2=blah2;-_.!~*'()[]/:&+$=residue",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "header=blah&header2=blah2",
.residue = "-_.!~*'()[]/:&+$=residue",
.params.transport = "",
.params.lr = 0,
.params.user = ""
};
struct testdata td8 = {
.desc = "lr parameter",
.uri = "sip:user:secret@host:5060;param=discard;lr?header=blah",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "header=blah",
.residue = "",
.params.transport = "",
.params.lr = 1,
.params.user = ""
};
struct testdata td9 = {
.desc = "alternative lr parameter",
.uri = "sip:user:secret@host:5060;param=discard;lr=yes?header=blah",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "header=blah",
.residue = "",
.params.transport = "",
.params.lr = 1,
.params.user = ""
};
struct testdata td10 = {
.desc = "no lr parameter",
.uri = "sip:user:secret@host:5060;paramlr=lr;lr=no;lr=off;lr=0;lr=;=lr;lrextra;lrparam2=lr?header=blah",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "header=blah",
.residue = "",
.params.transport = "",
.params.lr = 0,
.params.user = ""
};
/* RFC 3966 TEL URI INVITE */
struct testdata td11 = {
.desc = "tel local number",
.uri = "tel:0987654321;phone-context=+32987654321",
.user = "0987654321",
.pass = "",
.hostport = "+32987654321",
.headers = "",
.residue = "",
.params.transport = "",
.params.lr = 0,
.params.user = ""
};
struct testdata td12 = {
.desc = "tel global number",
.uri = "tel:+32987654321",
.user = "+32987654321",
.pass = "",
.hostport = "+32987654321",
.headers = "",
.residue = "",
.params.transport = "",
.params.lr = 0,
.params.user = ""
};
/*
* Once the full RFC 3966 parsing is implemented,
* only the ext= or isub= parameters would be extracted from .user
* Then the ;param=discard would be ignored,
* and the .user would only contain "0987654321"
*/
struct testdata td13 = {
.desc = "tel local number",
.uri = "tel:0987654321;ext=1234;param=discard;phone-context=+32987654321;transport=udp;param2=discard2?header=blah&header2=blah2;param3=residue",
.user = "0987654321;ext=1234;param=discard",
.pass = "",
.hostport = "+32987654321",
.headers = "header=blah&header2=blah2",
.residue = "param3=residue",
.params.transport = "udp",
.params.lr = 0,
.params.user = ""
};
AST_LIST_HEAD_SET_NOLOCK(&testdatalist, &td1);
AST_LIST_INSERT_TAIL(&testdatalist, &td2, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td3, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td4, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td5, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td6, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td7, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td8, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td9, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td10, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td11, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td12, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td13, list);
switch (cmd) {
case TEST_INIT:
info->name = "sip_uri_full_parse_test";
info->category = "/channels/chan_sip/";
info->summary = "tests sip full uri parsing";
info->description =
"Tests full parsing of various URIs "
"Verifies output matches expected behavior.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
AST_LIST_TRAVERSE(&testdatalist, testdataptr, list) {
user = pass = hostport = headers = residue = NULL;
params.transport = params.user = params.method = params.ttl = params.maddr = NULL;
params.lr = 0;
ast_copy_string(uri,testdataptr->uri,sizeof(uri));
if (parse_uri_full(uri, "sip:,sips:,tel:", &user,
&pass, &hostport,
¶ms,
&headers,
&residue) ||
(user && strcmp(testdataptr->user, user)) ||
(pass && strcmp(testdataptr->pass, pass)) ||
(hostport && strcmp(testdataptr->hostport, hostport)) ||
(headers && strcmp(testdataptr->headers, headers)) ||
(residue && strcmp(testdataptr->residue, residue)) ||
(strcmp(testdataptr->params.transport,params.transport)) ||
(testdataptr->params.lr != params.lr) ||
(strcmp(testdataptr->params.user,params.user))
) {
ast_test_status_update(test, "Sub-Test: %s, failed.\n", testdataptr->desc);
res = AST_TEST_FAIL;
}
}
return res;
}
#endif
int parse_uri(char *uri, const char *scheme, char **user, char **pass,
char **hostport, char **transport) {
int ret;
char *headers;
struct uriparams params;
headers = NULL;
ret = parse_uri_full(uri, scheme, user, pass, hostport, ¶ms, &headers, NULL);
if (transport) {
*transport=params.transport;
}
return ret;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(sip_parse_uri_test)
{
int res = AST_TEST_PASS;
char *name, *pass, *hostport, *transport;
char uri1[] = "sip:name@host";
char uri2[] = "sip:name@host;transport=tcp";
char uri3[] = "sip:name:secret@host;transport=tcp";
char uri4[] = "sip:name:secret@host:port;transport=tcp?headers=%40%40testblah&headers2=blah%20blah";
/* test 5 is for NULL input */
char uri6[] = "sip:name:secret@host:port;transport=tcp?headers=%40%40testblah&headers2=blah%20blah";
char uri7[] = "sip:name:secret@host:port;transport=tcp?headers=%40%40testblah&headers2=blah%20blah";
char uri8[] = "sip:host";
char uri9[] = "sip:host:port;transport=tcp?headers=%40%40testblah&headers2=blah%20blah";
char uri10[] = "host:port;transport=tcp?headers=%40%40testblah&headers2=blah%20blah";
char uri11[] = "host";
char uri12[] = "tel:911"; /* TEL URI Local number without context or global number */
switch (cmd) {
case TEST_INIT:
info->name = "sip_uri_parse_test";
info->category = "/channels/chan_sip/";
info->summary = "tests sip uri parsing";
info->description =
"Tests parsing of various URIs "
"Verifies output matches expected behavior.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
/* Test 1, simple URI */
name = pass = hostport = transport = NULL;
if (parse_uri(uri1, "sip:,sips:", &name, &pass, &hostport, &transport) ||
strcmp(name, "name") ||
!ast_strlen_zero(pass) ||
strcmp(hostport, "host") ||
!ast_strlen_zero(transport)) {
ast_test_status_update(test, "Test 1: simple uri failed. \n");
res = AST_TEST_FAIL;
}
/* Test 2, add tcp transport */
name = pass = hostport = transport = NULL;
if (parse_uri(uri2, "sip:,sips:", &name, &pass, &hostport, &transport) ||
strcmp(name, "name") ||
!ast_strlen_zero(pass) ||
strcmp(hostport, "host") ||
strcmp(transport, "tcp")) {
ast_test_status_update(test, "Test 2: uri with addtion of tcp transport failed. \n");
res = AST_TEST_FAIL;
}
/* Test 3, add secret */
name = pass = hostport = transport = NULL;
if (parse_uri(uri3, "sip:,sips:", &name, &pass, &hostport, &transport) ||
strcmp(name, "name") ||
strcmp(pass, "secret") ||
strcmp(hostport, "host") ||
strcmp(transport, "tcp")) {
ast_test_status_update(test, "Test 3: uri with addition of secret failed.\n");
res = AST_TEST_FAIL;
}
/* Test 4, add port and unparsed header field*/
name = pass = hostport = transport = NULL;
if (parse_uri(uri4, "sip:,sips:", &name, &pass, &hostport, &transport) ||
strcmp(name, "name") ||
strcmp(pass, "secret") ||
strcmp(hostport, "host:port") ||
strcmp(transport, "tcp")) {
ast_test_status_update(test, "Test 4: add port and unparsed header field failed.\n");
res = AST_TEST_FAIL;
}
/* Test 5, verify parse_uri does not crash when given a NULL uri */
name = pass = hostport = transport = NULL;
if (!parse_uri(NULL, "sip:,sips:", &name, &pass, &hostport, &transport)) {
ast_test_status_update(test, "Test 5: passing a NULL uri failed.\n");
res = AST_TEST_FAIL;
}
/* Test 6, verify parse_uri does not crash when given a NULL output parameters */
name = pass = hostport = transport = NULL;
if (parse_uri(uri6, "sip:,sips:", NULL, NULL, NULL, NULL)) {
ast_test_status_update(test, "Test 6: passing NULL output parameters failed.\n");
res = AST_TEST_FAIL;
}
/* Test 7, verify parse_uri returns user:secret and hostport when no port or secret output parameters are supplied. */
name = pass = hostport = transport = NULL;
if (parse_uri(uri7, "sip:,sips:", &name, NULL, &hostport, NULL) ||
strcmp(name, "name:secret") ||
strcmp(hostport, "host:port")) {
ast_test_status_update(test, "Test 7: providing no port and secret output parameters failed.\n");
res = AST_TEST_FAIL;
}
/* Test 8, verify parse_uri can handle a hostport only uri */
name = pass = hostport = transport = NULL;
if (parse_uri(uri8, "sip:,sips:", &name, &pass, &hostport, &transport) ||
strcmp(hostport, "host") ||
!ast_strlen_zero(name)) {
ast_test_status_update(test, "Test 8: add port and unparsed header field failed.\n");
res = AST_TEST_FAIL;
}
/* Test 9, add port and unparsed header field with hostport only uri*/
name = pass = hostport = transport = NULL;
if (parse_uri(uri9, "sip:,sips:", &name, &pass, &hostport, &transport) ||
!ast_strlen_zero(name) ||
!ast_strlen_zero(pass) ||
strcmp(hostport, "host:port") ||
strcmp(transport, "tcp")) {
ast_test_status_update(test, "Test 9: hostport only uri failed \n");
res = AST_TEST_FAIL;
}
/* Test 10, handle invalid/missing "sip:,sips:" scheme
* we expect parse_uri to return an error, but still parse
* the results correctly here */
name = pass = hostport = transport = NULL;
if (!parse_uri(uri10, "sip:,sips:", &name, &pass, &hostport, &transport) ||
!ast_strlen_zero(name) ||
!ast_strlen_zero(pass) ||
strcmp(hostport, "host:port") ||
strcmp(transport, "tcp")) {
ast_test_status_update(test, "Test 10: missing \"sip:sips:\" scheme failed\n");
res = AST_TEST_FAIL;
}
/* Test 11, simple hostport only URI with missing scheme
* we expect parse_uri to return an error, but still parse
* the results correctly here */
name = pass = hostport = transport = NULL;
if (!parse_uri(uri11, "sip:,sips:", &name, &pass, &hostport, &transport) ||
!ast_strlen_zero(name) ||
!ast_strlen_zero(pass) ||
strcmp(hostport, "host") ||
!ast_strlen_zero(transport)) {
ast_test_status_update(test, "Test 11: simple uri with missing scheme failed. \n");
res = AST_TEST_FAIL;
}
/* Test 12, simple URI */
name = pass = hostport = transport = NULL;
if (!parse_uri(uri12, "sip:,sips:,tel:", &name, &pass, &hostport, &transport) ||
strcmp(name, "911") || /* We return local number anyway */
!ast_strlen_zero(pass) ||
!ast_strlen_zero(hostport) || /* No global number nor context */
!ast_strlen_zero(transport)) {
ast_test_status_update(test, "Test 12: TEL URI INVITE failed.\n");
res = AST_TEST_FAIL;
}
return res;
}
#endif
/*! \brief Get caller id name from SIP headers, copy into output buffer
*
* \return input string pointer placed after display-name field if possible
*/
const char *get_calleridname(const char *input, char *output, size_t outputsize)
{
/* From RFC3261:
*
* From = ( "From" / "f" ) HCOLON from-spec
* from-spec = ( name-addr / addr-spec ) *( SEMI from-param )
* name-addr = [ display-name ] LAQUOT addr-spec RAQUOT
* display-name = *(token LWS)/ quoted-string
* token = 1*(alphanum / "-" / "." / "!" / "%" / "*"
* / "_" / "+" / "`" / "'" / "~" )
* quoted-string = SWS DQUOTE *(qdtext / quoted-pair ) DQUOTE
* qdtext = LWS / %x21 / %x23-5B / %x5D-7E
* / UTF8-NONASCII
* quoted-pair = "\" (%x00-09 / %x0B-0C / %x0E-7F)
*
* HCOLON = *WSP ":" SWS
* SWS = [LWS]
* LWS = *[*WSP CRLF] 1*WSP
* WSP = (SP / HTAB)
*
* Deviations from it:
* - following CRLF's in LWS is not done (here at least)
* - ascii NUL is never legal as it terminates the C-string
* - utf8-nonascii is not checked for validity
*/
char *orig_output = output;
const char *orig_input = input;
if (!output || !outputsize) {
/* Bad output parameters. Should never happen. */
return input;
}
/* clear any empty characters in the beginning */
input = ast_skip_blanks(input);
/* make sure the output buffer is initialized */
*orig_output = '\0';
/* make room for '\0' at the end of the output buffer */
--outputsize;
/* no data at all or no display name? */
if (!input || *input == '<') {
return input;
}
/* quoted-string rules */
if (input[0] == '"') {
input++; /* skip the first " */
for (; *input; ++input) {
if (*input == '"') { /* end of quoted-string */
break;
} else if (*input == 0x5c) { /* quoted-pair = "\" (%x00-09 / %x0B-0C / %x0E-7F) */
++input;
if (!*input) {
break;
}
if ((unsigned char) *input > 0x7f || *input == 0xa || *input == 0xd) {
continue; /* not a valid quoted-pair, so skip it */
}
} else if ((*input != 0x9 && (unsigned char) *input < 0x20)
|| *input == 0x7f) {
continue; /* skip this invalid character. */
}
if (0 < outputsize) {
/* We still have room for the output display-name. */
*output++ = *input;
--outputsize;
}
}
/* if this is successful, input should be at the ending quote */
if (*input != '"') {
ast_log(LOG_WARNING, "No ending quote for display-name was found\n");
*orig_output = '\0';
return orig_input;
}
/* make sure input is past the last quote */
++input;
/* terminate output */
*output = '\0';
} else { /* either an addr-spec or tokenLWS-combo */
for (; *input; ++input) {
/* token or WSP (without LWS) */
if ((*input >= '0' && *input <= '9') || (*input >= 'A' && *input <= 'Z')
|| (*input >= 'a' && *input <= 'z') || *input == '-' || *input == '.'
|| *input == '!' || *input == '%' || *input == '*' || *input == '_'
|| *input == '+' || *input == '`' || *input == '\'' || *input == '~'
|| *input == 0x9 || *input == ' ') {
if (0 < outputsize) {
/* We still have room for the output display-name. */
*output++ = *input;
--outputsize;
}
} else if (*input == '<') { /* end of tokenLWS-combo */
/* we could assert that the previous char is LWS, but we don't care */
break;
} else if (*input == ':') {
/* This invalid character which indicates this is addr-spec rather than display-name. */
*orig_output = '\0';
return orig_input;
} else { /* else, invalid character we can skip. */
continue; /* skip this character */
}
}
if (*input != '<') { /* if we never found the start of addr-spec then this is invalid */
*orig_output = '\0';
return orig_input;
}
/* terminate output while trimming any trailing whitespace */
do {
*output-- = '\0';
} while (orig_output <= output && (*output == 0x9 || *output == ' '));
}
return input;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(get_calleridname_test)
{
int res = AST_TEST_PASS;
const char *in1 = " \" quoted-text internal \\\" quote \"";
const char *in2 = " token text with no quotes ";
const char *overflow1 = " \"quoted-text overflow 1234567890123456789012345678901234567890\" ";
const char *overflow2 = " non-quoted text overflow 1234567890123456789012345678901234567890 ";
const char *noendquote = " \"quoted-text no end ";
const char *addrspec = " sip:blah@blah";
const char *no_quotes_no_brackets = "blah@blah";
const char *after_dname;
char dname[40];
switch (cmd) {
case TEST_INIT:
info->name = "sip_get_calleridname_test";
info->category = "/channels/chan_sip/";
info->summary = "decodes callerid name from sip header";
info->description = "Decodes display-name field of sip header. Checks for valid output and expected failure cases.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
/* quoted-text with backslash escaped quote */
after_dname = get_calleridname(in1, dname, sizeof(dname));
ast_test_status_update(test, "display-name1: %s\nafter: %s\n", dname, after_dname);
if (strcmp(dname, " quoted-text internal \" quote ")) {
ast_test_status_update(test, "display-name1 test failed\n");
res = AST_TEST_FAIL;
}
/* token text */
after_dname = get_calleridname(in2, dname, sizeof(dname));
ast_test_status_update(test, "display-name2: %s\nafter: %s\n", dname, after_dname);
if (strcmp(dname, "token text with no quotes")) {
ast_test_status_update(test, "display-name2 test failed\n");
res = AST_TEST_FAIL;
}
/* quoted-text buffer overflow */
after_dname = get_calleridname(overflow1, dname, sizeof(dname));
ast_test_status_update(test, "overflow display-name1: %s\nafter: %s\n", dname, after_dname);
if (strcmp(dname, "quoted-text overflow 123456789012345678")) {
ast_test_status_update(test, "overflow display-name1 test failed\n");
res = AST_TEST_FAIL;
}
/* non-quoted-text buffer overflow */
after_dname = get_calleridname(overflow2, dname, sizeof(dname));
ast_test_status_update(test, "overflow display-name2: %s\nafter: %s\n", dname, after_dname);
if (strcmp(dname, "non-quoted text overflow 12345678901234")) {
ast_test_status_update(test, "overflow display-name2 test failed\n");
res = AST_TEST_FAIL;
}
/* quoted-text buffer with no terminating end quote */
after_dname = get_calleridname(noendquote, dname, sizeof(dname));
ast_test_status_update(test, "noendquote display-name1: %s\nafter: %s\n", dname, after_dname);
if (*dname != '\0' && after_dname != noendquote) {
ast_test_status_update(test, "no end quote for quoted-text display-name failed\n");
res = AST_TEST_FAIL;
}
/* addr-spec rather than display-name. */
after_dname = get_calleridname(addrspec, dname, sizeof(dname));
ast_test_status_update(test, "addr-spec display-name1: %s\nafter: %s\n", dname, after_dname);
if (*dname != '\0' && after_dname != addrspec) {
ast_test_status_update(test, "detection of addr-spec failed\n");
res = AST_TEST_FAIL;
}
/* no quotes, no brackets */
after_dname = get_calleridname(no_quotes_no_brackets, dname, sizeof(dname));
ast_test_status_update(test, "no_quotes_no_brackets display-name1: %s\nafter: %s\n", dname, after_dname);
if (*dname != '\0' && after_dname != no_quotes_no_brackets) {
ast_test_status_update(test, "detection of addr-spec failed\n");
res = AST_TEST_FAIL;
}
return res;
}
#endif
int get_name_and_number(const char *hdr, char **name, char **number)
{
char header[256];
char tmp_name[256];
char *tmp_number = NULL;
char *hostport = NULL;
char *dummy = NULL;
if (!name || !number || ast_strlen_zero(hdr)) {
return -1;
}
*number = NULL;
*name = NULL;
ast_copy_string(header, hdr, sizeof(header));
/* strip the display-name portion off the beginning of the header. */
get_calleridname(header, tmp_name, sizeof(tmp_name));
/* get uri within < > brackets */
tmp_number = get_in_brackets(header);
/* parse out the number here */
if (parse_uri(tmp_number, "sip:,sips:", &tmp_number, &dummy, &hostport, NULL) || ast_strlen_zero(tmp_number)) {
ast_log(LOG_ERROR, "can not parse name and number from sip header.\n");
return -1;
}
/* number is not option, and must be present at this point */
*number = ast_strdup(tmp_number);
ast_uri_decode(*number, ast_uri_sip_user);
/* name is optional and may not be present at this point */
if (!ast_strlen_zero(tmp_name)) {
*name = ast_strdup(tmp_name);
}
return 0;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(get_name_and_number_test)
{
int res = AST_TEST_PASS;
char *name = NULL;
char *number = NULL;
const char *in1 = "NAME ";
const char *in2 = "\"NA>";
const char *in3 = "NAME";
const char *in4 = "";
const char *in5 = "This is a screwed up string @place>";
switch (cmd) {
case TEST_INIT:
info->name = "sip_get_name_and_number_test";
info->category = "/channels/chan_sip/";
info->summary = "Tests getting name and number from sip header";
info->description =
"Runs through various test situations in which a name and "
"and number can be retrieved from a sip header.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
/* Test 1. get name and number */
number = name = NULL;
if ((get_name_and_number(in1, &name, &number)) ||
strcmp(name, "NAME") ||
strcmp(number, "NUMBER")) {
ast_test_status_update(test, "Test 1, simple get name and number failed.\n");
res = AST_TEST_FAIL;
}
ast_free(name);
ast_free(number);
/* Test 2. get quoted name and number */
number = name = NULL;
if ((get_name_and_number(in2, &name, &number)) ||
strcmp(name, "NA>= first_bracket) {
break; /* no need to look at quoted part */
}
/* the bracket is within quotes, so ignore it */
parse = find_closing_quote(first_quote + 1, NULL);
if (!*parse) {
ast_log(LOG_WARNING, "No closing quote found in '%s'\n", src);
return -1;
}
parse++;
}
/* Require a first bracket. Unlike get_in_brackets_full, this procedure is passed a const,
* so it can expect a pointer to an original value */
if (!first_bracket) {
ast_log(LOG_WARNING, "No opening bracket found in '%s'\n", src);
return 1;
}
if ((second_bracket = strchr(first_bracket, '>'))) {
*start = first_bracket;
*length = second_bracket - first_bracket;
return 0;
}
ast_log(LOG_WARNING, "No closing bracket found in '%s'\n", src);
return -1;
}
int get_in_brackets_full(char *tmp,char **out,char **residue)
{
const char *parse = tmp;
char *first_bracket;
char *second_bracket;
if (out) {
*out = "";
}
if (residue) {
*residue = "";
}
if (ast_strlen_zero(tmp)) {
return 1;
}
/*
* Skip any quoted text until we find the part in brackets.
* On any error give up and return -1
*/
while ( (first_bracket = strchr(parse, '<')) ) {
char *first_quote = strchr(parse, '"');
first_bracket++;
if (!first_quote || first_quote >= first_bracket) {
break; /* no need to look at quoted part */
}
/* the bracket is within quotes, so ignore it */
parse = find_closing_quote(first_quote + 1, NULL);
if (!*parse) {
ast_log(LOG_WARNING, "No closing quote found in '%s'\n", tmp);
return -1;
}
parse++;
}
/* If no first bracket then still look for a second bracket as some other parsing functions
may overwrite first bracket with NULL when terminating a token based display-name. As this
only affects token based display-names there is no danger of brackets being in quotes */
if (first_bracket) {
parse = first_bracket;
} else {
parse = tmp;
}
if ((second_bracket = strchr(parse, '>'))) {
*second_bracket++ = '\0';
if (out) {
*out = (char *) parse;
}
if (residue) {
*residue = second_bracket;
}
return 0;
}
if ((first_bracket)) {
ast_log(LOG_WARNING, "No closing bracket found in '%s'\n", tmp);
return -1;
}
if (out) {
*out = tmp;
}
return 1;
}
char *get_in_brackets(char *tmp)
{
char *out;
if ((get_in_brackets_full(tmp, &out, NULL))) {
return tmp;
}
return out;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(get_in_brackets_test)
{
int res = AST_TEST_PASS;
char in_brackets[] = "sip:name:secret@host:port;transport=tcp?headers=testblah&headers2=blahblah";
char no_name[] = "";
char quoted_string[] = "\"I'm a quote stri>";
char missing_end_quote[] = "\"I'm a quote string ";
char name_no_quotes[] = "name not in quotes ";
char no_end_bracket[] = "name not in quotes name = "sip_get_in_brackets_test";
info->category = "/channels/chan_sip/";
info->summary = "Tests getting a sip uri in <> brackets within a sip header.";
info->description =
"Runs through various test situations in which a sip uri "
"in angle brackets needs to be retrieved";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
/* Test 1, simple get in brackets */
if (!(uri = get_in_brackets(no_name)) || strcmp(uri, in_brackets)) {
ast_test_status_update(test, "Test 1, simple get in brackets failed. %s\n", uri);
res = AST_TEST_FAIL;
}
/* Test 2, starts with quoted string */
if (!(uri = get_in_brackets(quoted_string)) || strcmp(uri, in_brackets)) {
ast_test_status_update(test, "Test 2, get in brackets with quoted string in front failed. %s\n", uri);
res = AST_TEST_FAIL;
}
/* Test 3, missing end quote */
if (!(uri = get_in_brackets(missing_end_quote)) || !strcmp(uri, in_brackets)) {
ast_test_status_update(test, "Test 3, missing end quote failed. %s\n", uri);
res = AST_TEST_FAIL;
}
/* Test 4, starts with a name not in quotes */
if (!(uri = get_in_brackets(name_no_quotes)) || strcmp(uri, in_brackets)) {
ast_test_status_update(test, "Test 4, passing name not in quotes failed. %s\n", uri);
res = AST_TEST_FAIL;
}
/* Test 5, no end bracket, should just return everything after the first '<' */
if (!(uri = get_in_brackets(no_end_bracket)) || !strcmp(uri, in_brackets)) {
ast_test_status_update(test, "Test 5, no end bracket failed. %s\n", uri);
res = AST_TEST_FAIL;
}
/* Test 6, NULL input */
if (get_in_brackets(NULL)) {
ast_test_status_update(test, "Test 6, NULL input failed.\n");
res = AST_TEST_FAIL;
}
/* Test 7, no name, and no brackets. */
if (!(uri = get_in_brackets(no_name_no_brackets)) || strcmp(uri, "sip:name@host")) {
ast_test_status_update(test, "Test 7 failed. %s\n", uri);
res = AST_TEST_FAIL;
}
/* Test 8, no start bracket, but with ending bracket. */
if (!(uri = get_in_brackets(missing_start_bracket)) || strcmp(uri, in_brackets)) {
ast_test_status_update(test, "Test 8 failed. %s\n", uri);
res = AST_TEST_FAIL;
}
return res;
}
#endif
int parse_name_andor_addr(char *uri, const char *scheme, char **name,
char **user, char **pass, char **hostport,
struct uriparams *params, char **headers,
char **residue)
{
char buf[1024];
char **residue2 = residue;
char *orig_uri = uri;
int ret;
buf[0] = '\0';
if (name) {
uri = (char *) get_calleridname(uri, buf, sizeof(buf));
}
ret = get_in_brackets_full(uri, &uri, residue);
if (ret == 0) {
/*
* The uri is in brackets so do not treat unknown trailing uri
* parameters as potential message header parameters.
*/
if (residue && **residue) {
/* step over the first semicolon as per parse_uri_full residue */
*residue = *residue + 1;
}
residue2 = NULL;
}
if (name) {
if (buf[0]) {
/*
* There is always room at orig_uri for the display-name because
* at least one character has always been removed. A '"' or '<'
* has been removed.
*/
strcpy(orig_uri, buf);
*name = orig_uri;
} else {
*name = "";
}
}
return parse_uri_full(uri, scheme, user, pass, hostport, params, headers, residue2);
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(parse_name_andor_addr_test)
{
int res = AST_TEST_PASS;
char uri[1024];
char *name, *user, *pass, *hostport, *headers, *residue;
struct uriparams params;
struct testdata {
char *desc;
char *uri;
char *name;
char *user;
char *pass;
char *hostport;
char *headers;
char *residue;
struct uriparams params;
AST_LIST_ENTRY(testdata) list;
};
struct testdata *testdataptr;
static AST_LIST_HEAD_NOLOCK(testdataliststruct, testdata) testdatalist;
struct testdata td1 = {
.desc = "quotes and brackets",
.uri = "\"name :@ \" ;tag=tag",
.name = "name :@ ",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "",
.residue = "tag=tag",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td2 = {
.desc = "no quotes",
.uri = "givenname familyname ;expires=3600",
.name = "givenname familyname",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "",
.residue = "expires=3600",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td3 = {
.desc = "no brackets",
.uri = "sip:user:secret@host:5060;param=discard;transport=tcp;q=1",
.name = "",
.user = "user",
.pass = "secret",
.hostport = "host:5060",
.headers = "",
.residue = "q=1",
.params.transport = "tcp",
.params.lr = 0,
.params.user = ""
};
struct testdata td4 = {
.desc = "just host",
.uri = "sips:host",
.name = "",
.user = "",
.pass = "",
.hostport = "host",
.headers = "",
.residue = "",
.params.transport = "",
.params.lr = 0,
.params.user = ""
};
AST_LIST_HEAD_SET_NOLOCK(&testdatalist, &td1);
AST_LIST_INSERT_TAIL(&testdatalist, &td2, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td3, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td4, list);
switch (cmd) {
case TEST_INIT:
info->name = "parse_name_andor_addr_test";
info->category = "/channels/chan_sip/";
info->summary = "tests parsing of name_andor_addr abnf structure";
info->description =
"Tests parsing of abnf name-andor-addr = name-addr / addr-spec "
"Verifies output matches expected behavior.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
AST_LIST_TRAVERSE(&testdatalist, testdataptr, list) {
name = user = pass = hostport = headers = residue = NULL;
params.transport = params.user = params.method = params.ttl = params.maddr = NULL;
params.lr = 0;
ast_copy_string(uri,testdataptr->uri,sizeof(uri));
if (parse_name_andor_addr(uri, "sip:,sips:",
&name,
&user,
&pass,
&hostport,
¶ms,
&headers,
&residue) ||
(name && strcmp(testdataptr->name, name)) ||
(user && strcmp(testdataptr->user, user)) ||
(pass && strcmp(testdataptr->pass, pass)) ||
(hostport && strcmp(testdataptr->hostport, hostport)) ||
(headers && strcmp(testdataptr->headers, headers)) ||
(residue && strcmp(testdataptr->residue, residue)) ||
(strcmp(testdataptr->params.transport,params.transport)) ||
(strcmp(testdataptr->params.user,params.user))
) {
ast_test_status_update(test, "Sub-Test: %s,failed.\n", testdataptr->desc);
res = AST_TEST_FAIL;
}
}
return res;
}
#endif
int get_comma(char *in, char **out)
{
char *c;
char *parse = in;
if (out) {
*out = in;
}
/* Skip any quoted text */
while (*parse) {
if ((c = strchr(parse, '"'))) {
in = (char *)find_closing_quote((const char *)c + 1, NULL);
if (!*in) {
ast_log(LOG_WARNING, "No closing quote found in '%s'\n", c);
return -1;
} else {
break;
}
} else {
break;
}
parse++;
}
parse = in;
/* Skip any userinfo components of a uri as they may contain commas */
if ((c = strchr(parse,'@'))) {
parse = c+1;
}
if ((out) && (c = strchr(parse,','))) {
*c++ = '\0';
*out = c;
return 0;
}
return 1;
}
int parse_contact_header(char *contactheader, struct contactliststruct *contactlist)
{
int res;
int last;
char *comma;
char *residue;
char *param;
char *value;
struct contact *split_contact = NULL;
if (*contactheader == '*') {
return 1;
}
split_contact = ast_calloc(1, sizeof(*split_contact));
AST_LIST_HEAD_SET_NOLOCK(contactlist, split_contact);
while ((last = get_comma(contactheader, &comma)) != -1) {
res = parse_name_andor_addr(contactheader, "sip:,sips:",
&split_contact->name, &split_contact->user,
&split_contact->pass, &split_contact->hostport,
&split_contact->params, &split_contact->headers,
&residue);
if (res == -1) {
return res;
}
/* parse contact params */
split_contact->expires = split_contact->q = "";
while ((value = strchr(residue,'='))) {
*value++ = '\0';
param = residue;
if ((residue = strchr(value,';'))) {
*residue++ = '\0';
} else {
residue = "";
}
if (!strcmp(param,"expires")) {
split_contact->expires = value;
} else if (!strcmp(param,"q")) {
split_contact->q = value;
}
}
if (last) {
return 0;
}
contactheader = comma;
split_contact = ast_calloc(1, sizeof(*split_contact));
AST_LIST_INSERT_TAIL(contactlist, split_contact, list);
}
return last;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(parse_contact_header_test)
{
int res = AST_TEST_PASS;
char contactheader[1024];
int star;
struct contactliststruct contactlist;
struct contactliststruct *contactlistptr=&contactlist;
struct testdata {
char *desc;
char *contactheader;
int star;
struct contactliststruct *contactlist;
AST_LIST_ENTRY(testdata) list;
};
struct testdata *testdataptr;
struct contact *tdcontactptr;
struct contact *contactptr;
static AST_LIST_HEAD_NOLOCK(testdataliststruct, testdata) testdatalist;
struct contactliststruct contactlist1, contactlist2;
struct testdata td1 = {
.desc = "single contact",
.contactheader = "\"name :@;?&,\" ;expires=3600",
.contactlist = &contactlist1,
.star = 0
};
struct contact contact11 = {
.name = "name :@;?&,",
.user = "user",
.pass = "secret",
.hostport = "host:5082",
.params.transport = "tcp",
.params.ttl = "",
.params.lr = 0,
.headers = "",
.expires = "3600",
.q = ""
};
struct testdata td2 = {
.desc = "multiple contacts",
.contactheader = "sip:,user1,:,secret1,@host1;ttl=7;q=1;expires=3600,sips:host2",
.contactlist = &contactlist2,
.star = 0,
};
struct contact contact21 = {
.name = "",
.user = ",user1,",
.pass = ",secret1,",
.hostport = "host1",
.params.transport = "",
.params.ttl = "7",
.params.lr = 0,
.headers = "",
.expires = "3600",
.q = "1"
};
struct contact contact22 = {
.name = "",
.user = "",
.pass = "",
.hostport = "host2",
.params.transport = "",
.params.ttl = "",
.params.lr = 0,
.headers = "",
.expires = "",
.q = ""
};
struct testdata td3 = {
.desc = "star - all contacts",
.contactheader = "*",
.star = 1,
.contactlist = NULL
};
AST_LIST_HEAD_SET_NOLOCK(&testdatalist, &td1);
AST_LIST_INSERT_TAIL(&testdatalist, &td2, list);
AST_LIST_INSERT_TAIL(&testdatalist, &td3, list);
AST_LIST_HEAD_SET_NOLOCK(&contactlist1, &contact11);
AST_LIST_HEAD_SET_NOLOCK(&contactlist2, &contact21);
AST_LIST_INSERT_TAIL(&contactlist2, &contact22, list);
switch (cmd) {
case TEST_INIT:
info->name = "parse_contact_header_test";
info->category = "/channels/chan_sip/";
info->summary = "tests parsing of sip contact header";
info->description =
"Tests parsing of a contact header including those with multiple contacts "
"Verifies output matches expected behavior.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
AST_LIST_TRAVERSE(&testdatalist, testdataptr, list) {
ast_copy_string(contactheader,testdataptr->contactheader,sizeof(contactheader));
star = parse_contact_header(contactheader,contactlistptr);
if (testdataptr->star) {
/* expecting star rather than list of contacts */
if (!star) {
ast_test_status_update(test, "Sub-Test: %s,failed.\n", testdataptr->desc);
res = AST_TEST_FAIL;
break;
}
} else {
contactptr = AST_LIST_FIRST(contactlistptr);
AST_LIST_TRAVERSE(testdataptr->contactlist, tdcontactptr, list) {
if (!contactptr ||
strcmp(tdcontactptr->name, contactptr->name) ||
strcmp(tdcontactptr->user, contactptr->user) ||
strcmp(tdcontactptr->pass, contactptr->pass) ||
strcmp(tdcontactptr->hostport, contactptr->hostport) ||
strcmp(tdcontactptr->headers, contactptr->headers) ||
strcmp(tdcontactptr->expires, contactptr->expires) ||
strcmp(tdcontactptr->q, contactptr->q) ||
strcmp(tdcontactptr->params.transport, contactptr->params.transport) ||
strcmp(tdcontactptr->params.ttl, contactptr->params.ttl) ||
(tdcontactptr->params.lr != contactptr->params.lr)
) {
ast_test_status_update(test, "Sub-Test: %s,failed.\n", testdataptr->desc);
res = AST_TEST_FAIL;
break;
}
contactptr = AST_LIST_NEXT(contactptr,list);
}
while ((contactptr = AST_LIST_REMOVE_HEAD(contactlistptr,list))) {
ast_free(contactptr);
}
}
}
return res;
}
#endif
/*!
* \brief Parse supported header in incoming packet
*
* \details This function parses through the options parameters and
* builds a bit field representing all the SIP options in that field. When an
* item is found that is not supported, it is copied to the unsupported
* out buffer.
*/
unsigned int parse_sip_options(const char *options, char *unsupported, size_t unsupported_len)
{
char *next, *sep;
char *temp;
int i, found, supported;
unsigned int profile = 0;
char *out = unsupported;
size_t outlen = unsupported_len;
char *cur_out = out;
if (ast_strlen_zero(options) )
return 0;
temp = ast_strdupa(options);
ast_debug(3, "Begin: parsing SIP \"Supported: %s\"\n", options);
for (next = temp; next; next = sep) {
found = FALSE;
supported = FALSE;
if ((sep = strchr(next, ',')) != NULL) {
*sep++ = '\0';
}
/* trim leading and trailing whitespace */
next = ast_strip(next);
if (ast_strlen_zero(next)) {
continue; /* if there is a blank argument in there just skip it */
}
ast_debug(3, "Found SIP option: -%s-\n", next);
for (i = 0; i < ARRAY_LEN(sip_options); i++) {
if (!strcasecmp(next, sip_options[i].text)) {
profile |= sip_options[i].id;
if (sip_options[i].supported == SUPPORTED) {
supported = TRUE;
}
found = TRUE;
ast_debug(3, "Matched SIP option: %s\n", next);
break;
}
}
/* If option is not supported, add to unsupported out buffer */
if (!supported && out && outlen) {
size_t copylen = strlen(next);
size_t cur_outlen = strlen(out);
/* Check to see if there is enough room to store this option.
* Copy length is string length plus 2 for the ',' and '\0' */
if ((cur_outlen + copylen + 2) < outlen) {
/* if this isn't the first item, add the ',' */
if (cur_outlen) {
*cur_out = ',';
cur_out++;
cur_outlen++;
}
ast_copy_string(cur_out, next, (outlen - cur_outlen));
cur_out += copylen;
}
}
if (!found) {
profile |= SIP_OPT_UNKNOWN;
if (!strncasecmp(next, "x-", 2))
ast_debug(3, "Found private SIP option, not supported: %s\n", next);
else
ast_debug(3, "Found no match for SIP option: %s (Please file bug report!)\n", next);
}
}
return profile;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(sip_parse_options_test)
{
int res = AST_TEST_PASS;
char unsupported[64];
unsigned int option_profile = 0;
struct testdata {
char *name;
char *input_options;
char *expected_unsupported;
unsigned int expected_profile;
AST_LIST_ENTRY(testdata) list;
};
struct testdata *testdataptr;
static AST_LIST_HEAD_NOLOCK(testdataliststruct, testdata) testdatalist;
struct testdata test1 = {
.name = "test_all_unsupported",
.input_options = "unsupported1,,, ,unsupported2,unsupported3,unsupported4",
.expected_unsupported = "unsupported1,unsupported2,unsupported3,unsupported4",
.expected_profile = SIP_OPT_UNKNOWN,
};
struct testdata test2 = {
.name = "test_all_unsupported_one_supported",
.input_options = " unsupported1, replaces, unsupported3 , , , ,unsupported4",
.expected_unsupported = "unsupported1,unsupported3,unsupported4",
.expected_profile = SIP_OPT_UNKNOWN | SIP_OPT_REPLACES
};
struct testdata test3 = {
.name = "test_two_supported_two_unsupported",
.input_options = ",, timer ,replaces ,unsupported3,unsupported4",
.expected_unsupported = "unsupported3,unsupported4",
.expected_profile = SIP_OPT_UNKNOWN | SIP_OPT_REPLACES | SIP_OPT_TIMER,
};
struct testdata test4 = {
.name = "test_all_supported",
.input_options = "timer,replaces",
.expected_unsupported = "",
.expected_profile = SIP_OPT_REPLACES | SIP_OPT_TIMER,
};
struct testdata test5 = {
.name = "test_all_supported_redundant",
.input_options = "timer,replaces,timer,replace,timer,replaces",
.expected_unsupported = "",
.expected_profile = SIP_OPT_REPLACES | SIP_OPT_TIMER,
};
struct testdata test6 = {
.name = "test_buffer_overflow",
.input_options = "unsupported1,replaces,timer,unsupported4,unsupported_huge____"
"____________________________________,__________________________________________"
"________________________________________________",
.expected_unsupported = "unsupported1,unsupported4",
.expected_profile = SIP_OPT_UNKNOWN | SIP_OPT_REPLACES | SIP_OPT_TIMER,
};
struct testdata test7 = {
.name = "test_null_input",
.input_options = NULL,
.expected_unsupported = "",
.expected_profile = 0,
};
struct testdata test8 = {
.name = "test_whitespace_input",
.input_options = " ",
.expected_unsupported = "",
.expected_profile = 0,
};
struct testdata test9 = {
.name = "test_whitespace_plus_option_input",
.input_options = " , , ,timer , , , , , ",
.expected_unsupported = "",
.expected_profile = SIP_OPT_TIMER,
};
switch (cmd) {
case TEST_INIT:
info->name = "sip_parse_options_test";
info->category = "/channels/chan_sip/";
info->summary = "Tests parsing of sip options";
info->description =
"Tests parsing of SIP options from supported and required "
"header fields. Verifies when unsupported options are encountered "
"that they are appended to the unsupported out buffer and that the "
"correct bit field representnig the option profile is returned.";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
AST_LIST_HEAD_SET_NOLOCK(&testdatalist, &test1);
AST_LIST_INSERT_TAIL(&testdatalist, &test2, list);
AST_LIST_INSERT_TAIL(&testdatalist, &test3, list);
AST_LIST_INSERT_TAIL(&testdatalist, &test4, list);
AST_LIST_INSERT_TAIL(&testdatalist, &test5, list);
AST_LIST_INSERT_TAIL(&testdatalist, &test6, list);
AST_LIST_INSERT_TAIL(&testdatalist, &test7, list);
AST_LIST_INSERT_TAIL(&testdatalist, &test8, list);
AST_LIST_INSERT_TAIL(&testdatalist, &test9, list);
/* Test with unsupported char buffer */
AST_LIST_TRAVERSE(&testdatalist, testdataptr, list) {
memset(unsupported, 0, sizeof(unsupported));
option_profile = parse_sip_options(testdataptr->input_options, unsupported, ARRAY_LEN(unsupported));
if (option_profile != testdataptr->expected_profile ||
strcmp(unsupported, testdataptr->expected_unsupported)) {
ast_test_status_update(test, "Test with output buffer \"%s\", expected unsupported: %s actual unsupported:"
"%s expected bit profile: %x actual bit profile: %x\n",
testdataptr->name,
testdataptr->expected_unsupported,
unsupported,
testdataptr->expected_profile,
option_profile);
res = AST_TEST_FAIL;
} else {
ast_test_status_update(test, "\"%s\" passed got expected unsupported: %s and bit profile: %x\n",
testdataptr->name,
unsupported,
option_profile);
}
option_profile = parse_sip_options(testdataptr->input_options, NULL, 0);
if (option_profile != testdataptr->expected_profile) {
ast_test_status_update(test, "NULL output test \"%s\", expected bit profile: %x actual bit profile: %x\n",
testdataptr->name,
testdataptr->expected_profile,
option_profile);
res = AST_TEST_FAIL;
} else {
ast_test_status_update(test, "\"%s\" with NULL output buf passed, bit profile: %x\n",
testdataptr->name,
option_profile);
}
}
return res;
}
#endif
/*! \brief helper routine for sip_uri_cmp to compare URI parameters
*
* This takes the parameters from two SIP URIs and determines
* if the URIs match. The rules for parameters *suck*. Here's a breakdown
* 1. If a parameter appears in both URIs, then they must have the same value
* in order for the URIs to match
* 2. If one URI has a user, maddr, ttl, or method parameter, then the other
* URI must also have that parameter and must have the same value
* in order for the URIs to match
* 3. All other headers appearing in only one URI are not considered when
* determining if URIs match
*
* \param input1 Parameters from URI 1
* \param input2 Parameters from URI 2
* \retval 0 URIs' parameters match
* \retval nonzero URIs' parameters do not match
*/
static int sip_uri_params_cmp(const char *input1, const char *input2)
{
char *params1 = NULL;
char *params2 = NULL;
char *pos1;
char *pos2;
int zerolength1 = 0;
int zerolength2 = 0;
int maddrmatch = 0;
int ttlmatch = 0;
int usermatch = 0;
int methodmatch = 0;
if (ast_strlen_zero(input1)) {
zerolength1 = 1;
} else {
params1 = ast_strdupa(input1);
}
if (ast_strlen_zero(input2)) {
zerolength2 = 1;
} else {
params2 = ast_strdupa(input2);
}
/* Quick optimization. If both params are zero-length, then
* they match
*/
if (zerolength1 && zerolength2) {
return 0;
}
for (pos1 = strsep(¶ms1, ";"); pos1; pos1 = strsep(¶ms1, ";")) {
char *value1 = pos1;
char *name1 = strsep(&value1, "=");
char *params2dup = NULL;
int matched = 0;
if (!value1) {
value1 = "";
}
/* Checkpoint reached. We have the name and value parsed for param1
* We have to duplicate params2 each time through this loop
* or else the inner loop below will not work properly.
*/
if (!zerolength2) {
params2dup = ast_strdupa(params2);
}
for (pos2 = strsep(¶ms2dup, ";"); pos2; pos2 = strsep(¶ms2dup, ";")) {
char *name2 = pos2;
char *value2 = strchr(pos2, '=');
if (!value2) {
value2 = "";
} else {
*value2++ = '\0';
}
if (!strcasecmp(name1, name2)) {
if (strcasecmp(value1, value2)) {
goto fail;
} else {
matched = 1;
break;
}
}
}
/* Check to see if the parameter is one of the 'must-match' parameters */
if (!strcasecmp(name1, "maddr")) {
if (matched) {
maddrmatch = 1;
} else {
goto fail;
}
} else if (!strcasecmp(name1, "ttl")) {
if (matched) {
ttlmatch = 1;
} else {
goto fail;
}
} else if (!strcasecmp(name1, "user")) {
if (matched) {
usermatch = 1;
} else {
goto fail;
}
} else if (!strcasecmp(name1, "method")) {
if (matched) {
methodmatch = 1;
} else {
goto fail;
}
}
}
/* We've made it out of that horrible O(m*n) construct and there are no
* failures yet. We're not done yet, though, because params2 could have
* an maddr, ttl, user, or method header and params1 did not.
*/
for (pos2 = strsep(¶ms2, ";"); pos2; pos2 = strsep(¶ms2, ";")) {
char *value2 = pos2;
char *name2 = strsep(&value2, "=");
if (!value2) {
value2 = "";
}
if ((!strcasecmp(name2, "maddr") && !maddrmatch) ||
(!strcasecmp(name2, "ttl") && !ttlmatch) ||
(!strcasecmp(name2, "user") && !usermatch) ||
(!strcasecmp(name2, "method") && !methodmatch)) {
goto fail;
}
}
return 0;
fail:
return 1;
}
/*! \brief helper routine for sip_uri_cmp to compare URI headers
*
* This takes the headers from two SIP URIs and determines
* if the URIs match. The rules for headers is simple. If a header
* appears in one URI, then it must also appear in the other URI. The
* order in which the headers appear does not matter.
*
* \param input1 Headers from URI 1
* \param input2 Headers from URI 2
* \retval 0 URI headers match
* \retval nonzero URI headers do not match
*/
static int sip_uri_headers_cmp(const char *input1, const char *input2)
{
char *headers1 = NULL;
char *headers2 = NULL;
int zerolength1 = 0;
int zerolength2 = 0;
int different = 0;
char *header1;
if (ast_strlen_zero(input1)) {
zerolength1 = 1;
} else {
headers1 = ast_strdupa(input1);
}
if (ast_strlen_zero(input2)) {
zerolength2 = 1;
} else {
headers2 = ast_strdupa(input2);
}
/* If one URI contains no headers and the other
* does, then they cannot possibly match
*/
if (zerolength1 != zerolength2) {
return 1;
}
if (zerolength1 && zerolength2)
return 0;
/* At this point, we can definitively state that both inputs are
* not zero-length. First, one more optimization. If the length
* of the headers is not equal, then we definitely have no match
*/
if (strlen(headers1) != strlen(headers2)) {
return 1;
}
for (header1 = strsep(&headers1, "&"); header1; header1 = strsep(&headers1, "&")) {
if (!strcasestr(headers2, header1)) {
different = 1;
break;
}
}
return different;
}
/*!
* \brief Compare domain sections of SIP URIs
*
* For hostnames, a case insensitive string comparison is
* used. For IP addresses, a binary comparison is used. This
* is mainly because IPv6 addresses have many ways of writing
* the same address.
*
* For specifics about IP address comparison, see the following
* document: http://tools.ietf.org/html/draft-ietf-sip-ipv6-abnf-fix-05
*
* \param host1 The domain from the first URI
* \param host2 THe domain from the second URI
* \retval 0 The domains match
* \retval nonzero The domains do not match
*/
static int sip_uri_domain_cmp(const char *host1, const char *host2)
{
struct ast_sockaddr addr1;
struct ast_sockaddr addr2;
int addr1_parsed;
int addr2_parsed;
addr1_parsed = ast_sockaddr_parse(&addr1, host1, 0);
addr2_parsed = ast_sockaddr_parse(&addr2, host2, 0);
if (addr1_parsed != addr2_parsed) {
/* One domain was an IP address and the other had
* a host name. FAIL!
*/
return 1;
}
/* Both are host names. A string comparison will work
* perfectly here. Specifying the "C" locale ensures that
* The LC_CTYPE conventions use those defined in ANSI C,
* i.e. ASCII.
*/
if (!addr1_parsed) {
#ifdef HAVE_XLOCALE_H
if(!c_locale) {
return strcasecmp(host1, host2);
} else {
return strcasecmp_l(host1, host2, c_locale);
}
#else
return strcasecmp(host1, host2);
#endif
}
/* Both contain IP addresses */
return ast_sockaddr_cmp(&addr1, &addr2);
}
int sip_uri_cmp(const char *input1, const char *input2)
{
char *uri1;
char *uri2;
char *uri_scheme1;
char *uri_scheme2;
char *host1;
char *host2;
char *params1;
char *params2;
char *headers1;
char *headers2;
/* XXX It would be really nice if we could just use parse_uri_full() here
* to separate the components of the URI, but unfortunately it is written
* in a way that can cause URI parameters to be discarded.
*/
if (!input1 || !input2) {
return 1;
}
uri1 = ast_strdupa(input1);
uri2 = ast_strdupa(input2);
ast_uri_decode(uri1, ast_uri_sip_user);
ast_uri_decode(uri2, ast_uri_sip_user);
uri_scheme1 = strsep(&uri1, ":");
uri_scheme2 = strsep(&uri2, ":");
if (strcmp(uri_scheme1, uri_scheme2)) {
return 1;
}
/* This function is tailored for SIP and SIPS URIs. There's no
* need to check uri_scheme2 since we have determined uri_scheme1
* and uri_scheme2 are equivalent already.
*/
if (strcmp(uri_scheme1, "sip") && strcmp(uri_scheme1, "sips")) {
return 1;
}
if (ast_strlen_zero(uri1) || ast_strlen_zero(uri2)) {
return 1;
}
if ((host1 = strchr(uri1, '@'))) {
*host1++ = '\0';
}
if ((host2 = strchr(uri2, '@'))) {
*host2++ = '\0';
}
/* Check for mismatched username and passwords. This is the
* only case-sensitive comparison of a SIP URI
*/
if ((host1 && !host2) ||
(host2 && !host1) ||
(host1 && host2 && strcmp(uri1, uri2))) {
return 1;
}
if (!host1) {
host1 = uri1;
}
if (!host2) {
host2 = uri2;
}
/* Strip off the parameters and headers so we can compare
* host and port
*/
if ((params1 = strchr(host1, ';'))) {
*params1++ = '\0';
}
if ((params2 = strchr(host2, ';'))) {
*params2++ = '\0';
}
/* Headers come after parameters, but there may be headers without
* parameters, thus the S_OR
*/
if ((headers1 = strchr(S_OR(params1, host1), '?'))) {
*headers1++ = '\0';
}
if ((headers2 = strchr(S_OR(params2, host2), '?'))) {
*headers2++ = '\0';
}
if (sip_uri_domain_cmp(host1, host2)) {
return 1;
}
/* Headers have easier rules to follow, so do those first */
if (sip_uri_headers_cmp(headers1, headers2)) {
return 1;
}
/* And now the parameters. Ugh */
return sip_uri_params_cmp(params1, params2);
}
#define URI_CMP_MATCH 0
#define URI_CMP_NOMATCH 1
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(sip_uri_cmp_test)
{
static const struct {
const char *uri1;
const char *uri2;
int expected_result;
} uri_cmp_tests [] = {
/* These are identical, so they match */
{ "sip:bob@example.com", "sip:bob@example.com", URI_CMP_MATCH },
/* Different usernames. No match */
{ "sip:alice@example.com", "sip:bob@example.com", URI_CMP_NOMATCH },
/* Different hosts. No match */
{ "sip:bob@example.com", "sip:bob@examplez.com", URI_CMP_NOMATCH },
/* Now start using IP addresses. Identical, so they match */
{ "sip:bob@1.2.3.4", "sip:bob@1.2.3.4", URI_CMP_MATCH },
/* Two identical IPv4 addresses represented differently. Match */
{ "sip:bob@1.2.3.4", "sip:bob@001.002.003.004", URI_CMP_MATCH },
/* Logically equivalent IPv4 Address and hostname. No Match */
{ "sip:bob@127.0.0.1", "sip:bob@localhost", URI_CMP_NOMATCH },
/* Logically equivalent IPv6 address and hostname. No Match */
{ "sip:bob@[::1]", "sip:bob@localhost", URI_CMP_NOMATCH },
/* Try an IPv6 one as well */
{ "sip:bob@[2001:db8::1234]", "sip:bob@[2001:db8::1234]", URI_CMP_MATCH },
/* Two identical IPv6 addresses represented differently. Match */
{ "sip:bob@[2001:db8::1234]", "sip:bob@[2001:0db8::1234]", URI_CMP_MATCH },
/* Different ports. No match */
{ "sip:bob@1.2.3.4:5060", "sip:bob@1.2.3.4:5061", URI_CMP_NOMATCH },
/* Same port logically, but only one address specifies it. No match */
{ "sip:bob@1.2.3.4:5060", "sip:bob@1.2.3.4", URI_CMP_NOMATCH },
/* And for safety, try with IPv6 */
{ "sip:bob@[2001:db8:1234]:5060", "sip:bob@[2001:db8:1234]", URI_CMP_NOMATCH },
/* User comparison is case sensitive. No match */
{ "sip:bob@example.com", "sip:BOB@example.com", URI_CMP_NOMATCH },
/* Host comparison is case insensitive. Match */
{ "sip:bob@example.com", "sip:bob@EXAMPLE.COM", URI_CMP_MATCH },
/* Add headers to the URI. Identical, so they match */
{ "sip:bob@example.com?header1=value1&header2=value2", "sip:bob@example.com?header1=value1&header2=value2", URI_CMP_MATCH },
/* Headers in URI 1 are not in URI 2. No Match */
{ "sip:bob@example.com?header1=value1&header2=value2", "sip:bob@example.com", URI_CMP_NOMATCH },
/* Header present in both URIs does not have matching values. No match */
{ "sip:bob@example.com?header1=value1&header2=value2", "sip:bob@example.com?header1=value1&header2=value3", URI_CMP_NOMATCH },
/* Add parameters to the URI. Identical so they match */
{ "sip:bob@example.com;param1=value1;param2=value2", "sip:bob@example.com;param1=value1;param2=value2", URI_CMP_MATCH },
/* Same parameters in both URIs but appear in different order. Match */
{ "sip:bob@example.com;param2=value2;param1=value1", "sip:bob@example.com;param1=value1;param2=value2", URI_CMP_MATCH },
/* params in URI 1 are not in URI 2. Match */
{ "sip:bob@example.com;param1=value1;param2=value2", "sip:bob@example.com", URI_CMP_MATCH },
/* param present in both URIs does not have matching values. No match */
{ "sip:bob@example.com;param1=value1;param2=value2", "sip:bob@example.com;param1=value1;param2=value3", URI_CMP_NOMATCH },
/* URI 1 has a maddr param but URI 2 does not. No match */
{ "sip:bob@example.com;param1=value1;maddr=192.168.0.1", "sip:bob@example.com;param1=value1", URI_CMP_NOMATCH },
/* URI 1 and URI 2 both have identical maddr params. Match */
{ "sip:bob@example.com;param1=value1;maddr=192.168.0.1", "sip:bob@example.com;param1=value1;maddr=192.168.0.1", URI_CMP_MATCH },
/* URI 1 is a SIPS URI and URI 2 is a SIP URI. No Match */
{ "sips:bob@example.com", "sip:bob@example.com", URI_CMP_NOMATCH },
/* No URI schemes. No match */
{ "bob@example.com", "bob@example.com", URI_CMP_NOMATCH },
/* Crashiness tests. Just an address scheme. No match */
{ "sip", "sips", URI_CMP_NOMATCH },
/* Still just an address scheme. Even though they're the same, No match */
{ "sip", "sip", URI_CMP_NOMATCH },
/* Empty strings. No match */
{ "", "", URI_CMP_NOMATCH },
/* An empty string and a NULL. No match */
{ "", NULL, URI_CMP_NOMATCH },
};
int i;
int test_res = AST_TEST_PASS;
switch (cmd) {
case TEST_INIT:
info->name = "sip_uri_cmp_test";
info->category = "/channels/chan_sip/";
info->summary = "Tests comparison of SIP URIs";
info->description = "Several would-be tricky URI comparisons are performed";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
for (i = 0; i < ARRAY_LEN(uri_cmp_tests); ++i) {
int cmp_res1;
int cmp_res2;
if ((cmp_res1 = sip_uri_cmp(uri_cmp_tests[i].uri1, uri_cmp_tests[i].uri2))) {
/* URI comparison may return -1 or +1 depending on the failure. Standardize
* the return value to be URI_CMP_NOMATCH on any failure
*/
cmp_res1 = URI_CMP_NOMATCH;
}
if (cmp_res1 != uri_cmp_tests[i].expected_result) {
ast_test_status_update(test, "Unexpected comparison result for URIs %s and %s. "
"Expected %s but got %s\n", uri_cmp_tests[i].uri1, uri_cmp_tests[i].uri2,
uri_cmp_tests[i].expected_result == URI_CMP_MATCH ? "Match" : "No Match",
cmp_res1 == URI_CMP_MATCH ? "Match" : "No Match");
test_res = AST_TEST_FAIL;
}
/* All URI comparisons are commutative, so for the sake of being thorough, we'll
* rerun the comparison with the parameters reversed
*/
if ((cmp_res2 = sip_uri_cmp(uri_cmp_tests[i].uri2, uri_cmp_tests[i].uri1))) {
/* URI comparison may return -1 or +1 depending on the failure. Standardize
* the return value to be URI_CMP_NOMATCH on any failure
*/
cmp_res2 = URI_CMP_NOMATCH;
}
if (cmp_res2 != uri_cmp_tests[i].expected_result) {
ast_test_status_update(test, "Unexpected comparison result for URIs %s and %s. "
"Expected %s but got %s\n", uri_cmp_tests[i].uri2, uri_cmp_tests[i].uri1,
uri_cmp_tests[i].expected_result == URI_CMP_MATCH ? "Match" : "No Match",
cmp_res2 == URI_CMP_MATCH ? "Match" : "No Match");
test_res = AST_TEST_FAIL;
}
}
return test_res;
}
#endif
void free_via(struct sip_via *v)
{
if (!v) {
return;
}
ast_free(v->via);
ast_free(v);
}
struct sip_via *parse_via(const char *header)
{
struct sip_via *v = ast_calloc(1, sizeof(*v));
char *via, *parm;
if (!v) {
return NULL;
}
v->via = ast_strdup(header);
v->ttl = 1;
via = v->via;
if (ast_strlen_zero(via)) {
ast_log(LOG_ERROR, "received request without a Via header\n");
free_via(v);
return NULL;
}
/* seperate the first via-parm */
via = strsep(&via, ",");
/* chop off sent-protocol */
v->protocol = strsep(&via, " \t\r\n");
if (ast_strlen_zero(v->protocol)) {
ast_log(LOG_ERROR, "missing sent-protocol in Via header\n");
free_via(v);
return NULL;
}
v->protocol = ast_skip_blanks(v->protocol);
if (via) {
via = ast_skip_blanks(via);
}
/* chop off sent-by */
v->sent_by = strsep(&via, "; \t\r\n");
if (ast_strlen_zero(v->sent_by)) {
ast_log(LOG_ERROR, "missing sent-by in Via header\n");
free_via(v);
return NULL;
}
v->sent_by = ast_skip_blanks(v->sent_by);
/* store the port, we have to handle ipv6 addresses containing ':'
* characters gracefully */
if (((parm = strchr(v->sent_by, ']')) && *(++parm) == ':') || (!(parm = strchr(v->sent_by, ']')) && (parm = strchr(v->sent_by, ':')))) {
char *endptr;
v->port = strtol(++parm, &endptr, 10);
}
/* evaluate any via-parms */
while ((parm = strsep(&via, "; \t\r\n"))) {
char *c;
if ((c = strstr(parm, "maddr="))) {
v->maddr = ast_skip_blanks(c + sizeof("maddr=") - 1);
} else if ((c = strstr(parm, "branch="))) {
v->branch = ast_skip_blanks(c + sizeof("branch=") - 1);
} else if ((c = strstr(parm, "ttl="))) {
char *endptr;
c = ast_skip_blanks(c + sizeof("ttl=") - 1);
v->ttl = strtol(c, &endptr, 10);
/* make sure we got a valid ttl value */
if (c == endptr) {
v->ttl = 1;
}
}
}
return v;
}
#ifdef TEST_FRAMEWORK
AST_TEST_DEFINE(parse_via_test)
{
int res = AST_TEST_PASS;
int i = 1;
struct sip_via *via;
struct testdata {
char *in;
char *expected_protocol;
char *expected_branch;
char *expected_sent_by;
char *expected_maddr;
unsigned int expected_port;
unsigned char expected_ttl;
int expected_null;
AST_LIST_ENTRY(testdata) list;
};
struct testdata *testdataptr;
static AST_LIST_HEAD_NOLOCK(testdataliststruct, testdata) testdatalist;
struct testdata t1 = {
.in = "SIP/2.0/UDP host:port;branch=thebranch",
.expected_protocol = "SIP/2.0/UDP",
.expected_sent_by = "host:port",
.expected_branch = "thebranch",
};
struct testdata t2 = {
.in = "SIP/2.0/UDP host:port",
.expected_protocol = "SIP/2.0/UDP",
.expected_sent_by = "host:port",
.expected_branch = "",
};
struct testdata t3 = {
.in = "SIP/2.0/UDP",
.expected_null = 1,
};
struct testdata t4 = {
.in = "BLAH/BLAH/BLAH host:port;branch=",
.expected_protocol = "BLAH/BLAH/BLAH",
.expected_sent_by = "host:port",
.expected_branch = "",
};
struct testdata t5 = {
.in = "SIP/2.0/UDP host:5060;branch=thebranch;maddr=224.0.0.1;ttl=1",
.expected_protocol = "SIP/2.0/UDP",
.expected_sent_by = "host:5060",
.expected_port = 5060,
.expected_branch = "thebranch",
.expected_maddr = "224.0.0.1",
.expected_ttl = 1,
};
struct testdata t6 = {
.in = "SIP/2.0/UDP host:5060;\n branch=thebranch;\r\n maddr=224.0.0.1; ttl=1",
.expected_protocol = "SIP/2.0/UDP",
.expected_sent_by = "host:5060",
.expected_port = 5060,
.expected_branch = "thebranch",
.expected_maddr = "224.0.0.1",
.expected_ttl = 1,
};
struct testdata t7 = {
.in = "SIP/2.0/UDP [::1]:5060",
.expected_protocol = "SIP/2.0/UDP",
.expected_sent_by = "[::1]:5060",
.expected_port = 5060,
.expected_branch = "",
};
switch (cmd) {
case TEST_INIT:
info->name = "parse_via_test";
info->category = "/channels/chan_sip/";
info->summary = "Tests parsing the Via header";
info->description =
"Runs through various test situations in which various "
" parameters parameter must be extracted from a VIA header";
return AST_TEST_NOT_RUN;
case TEST_EXECUTE:
break;
}
AST_LIST_HEAD_SET_NOLOCK(&testdatalist, &t1);
AST_LIST_INSERT_TAIL(&testdatalist, &t2, list);
AST_LIST_INSERT_TAIL(&testdatalist, &t3, list);
AST_LIST_INSERT_TAIL(&testdatalist, &t4, list);
AST_LIST_INSERT_TAIL(&testdatalist, &t5, list);
AST_LIST_INSERT_TAIL(&testdatalist, &t6, list);
AST_LIST_INSERT_TAIL(&testdatalist, &t7, list);
AST_LIST_TRAVERSE(&testdatalist, testdataptr, list) {
via = parse_via(testdataptr->in);
if (!via) {
if (!testdataptr->expected_null) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"failed to parse header\n",
i, testdataptr->in);
res = AST_TEST_FAIL;
}
i++;
continue;
}
if (testdataptr->expected_null) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"successfully parased invalid via header\n",
i, testdataptr->in);
res = AST_TEST_FAIL;
free_via(via);
i++;
continue;
}
if ((ast_strlen_zero(via->protocol) && !ast_strlen_zero(testdataptr->expected_protocol))
|| (!ast_strlen_zero(via->protocol) && strcmp(via->protocol, testdataptr->expected_protocol))) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"parsed protocol = \"%s\"\n"
"expected = \"%s\"\n"
"failed to parse protocol\n",
i, testdataptr->in, via->protocol, testdataptr->expected_protocol);
res = AST_TEST_FAIL;
}
if ((ast_strlen_zero(via->sent_by) && !ast_strlen_zero(testdataptr->expected_sent_by))
|| (!ast_strlen_zero(via->sent_by) && strcmp(via->sent_by, testdataptr->expected_sent_by))) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"parsed sent_by = \"%s\"\n"
"expected = \"%s\"\n"
"failed to parse sent-by\n",
i, testdataptr->in, via->sent_by, testdataptr->expected_sent_by);
res = AST_TEST_FAIL;
}
if (testdataptr->expected_port && testdataptr->expected_port != via->port) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"parsed port = \"%u\"\n"
"expected = \"%u\"\n"
"failed to parse port\n",
i, testdataptr->in, via->port, testdataptr->expected_port);
res = AST_TEST_FAIL;
}
if ((ast_strlen_zero(via->branch) && !ast_strlen_zero(testdataptr->expected_branch))
|| (!ast_strlen_zero(via->branch) && strcmp(via->branch, testdataptr->expected_branch))) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"parsed branch = \"%s\"\n"
"expected = \"%s\"\n"
"failed to parse branch\n",
i, testdataptr->in, via->branch, testdataptr->expected_branch);
res = AST_TEST_FAIL;
}
if ((ast_strlen_zero(via->maddr) && !ast_strlen_zero(testdataptr->expected_maddr))
|| (!ast_strlen_zero(via->maddr) && strcmp(via->maddr, testdataptr->expected_maddr))) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"parsed maddr = \"%s\"\n"
"expected = \"%s\"\n"
"failed to parse maddr\n",
i, testdataptr->in, via->maddr, testdataptr->expected_maddr);
res = AST_TEST_FAIL;
}
if (testdataptr->expected_ttl && testdataptr->expected_ttl != via->ttl) {
ast_test_status_update(test, "TEST#%d FAILED: VIA = \"%s\"\n"
"parsed ttl = \"%d\"\n"
"expected = \"%d\"\n"
"failed to parse ttl\n",
i, testdataptr->in, via->ttl, testdataptr->expected_ttl);
res = AST_TEST_FAIL;
}
free_via(via);
i++;
}
return res;
}
#endif
void sip_request_parser_register_tests(void)
{
AST_TEST_REGISTER(get_calleridname_test);
AST_TEST_REGISTER(sip_parse_uri_test);
AST_TEST_REGISTER(get_in_brackets_test);
AST_TEST_REGISTER(get_name_and_number_test);
AST_TEST_REGISTER(sip_parse_uri_full_test);
AST_TEST_REGISTER(parse_name_andor_addr_test);
AST_TEST_REGISTER(parse_contact_header_test);
AST_TEST_REGISTER(sip_parse_options_test);
AST_TEST_REGISTER(sip_uri_cmp_test);
AST_TEST_REGISTER(parse_via_test);
}
void sip_request_parser_unregister_tests(void)
{
AST_TEST_UNREGISTER(sip_parse_uri_test);
AST_TEST_UNREGISTER(get_calleridname_test);
AST_TEST_UNREGISTER(get_in_brackets_test);
AST_TEST_UNREGISTER(get_name_and_number_test);
AST_TEST_UNREGISTER(sip_parse_uri_full_test);
AST_TEST_UNREGISTER(parse_name_andor_addr_test);
AST_TEST_UNREGISTER(parse_contact_header_test);
AST_TEST_UNREGISTER(sip_parse_options_test);
AST_TEST_UNREGISTER(sip_uri_cmp_test);
AST_TEST_UNREGISTER(parse_via_test);
}
int sip_reqresp_parser_init(void)
{
#ifdef HAVE_XLOCALE_H
c_locale = newlocale(LC_CTYPE_MASK, "C", NULL);
if (!c_locale) {
return -1;
}
#endif
return 0;
}
void sip_reqresp_parser_exit(void)
{
#ifdef HAVE_XLOCALE_H
if (c_locale) {
freelocale(c_locale);
c_locale = NULL;
}
#endif
}