asterisk/res/res_pjsip/pjsip_distributor.c

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2023-05-25 18:45:57 +00:00
/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2013, Digium, Inc.
*
* Mark Michelson <mmichelson@digium.com>
*
* 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.
*/
#include "asterisk.h"
#include <pjsip.h>
#include "asterisk/res_pjsip.h"
#include "asterisk/acl.h"
#include "include/res_pjsip_private.h"
#include "asterisk/taskprocessor.h"
#include "asterisk/threadpool.h"
#include "asterisk/res_pjsip_cli.h"
static int distribute(void *data);
static pj_bool_t distributor(pjsip_rx_data *rdata);
static pj_status_t record_serializer(pjsip_tx_data *tdata);
static pjsip_module distributor_mod = {
.name = {"Request Distributor", 19},
.priority = PJSIP_MOD_PRIORITY_TSX_LAYER - 6,
.on_tx_request = record_serializer,
.on_rx_request = distributor,
.on_rx_response = distributor,
};
struct ast_sched_context *prune_context;
/* From the auth/realm realtime column size */
#define MAX_REALM_LENGTH 40
#define DEFAULT_SUSPECTS_BUCKETS 53
static struct ao2_container *unidentified_requests;
static unsigned int unidentified_count;
static unsigned int unidentified_period;
static unsigned int unidentified_prune_interval;
static int using_auth_username;
static enum ast_sip_taskprocessor_overload_trigger overload_trigger;
struct unidentified_request{
struct timeval first_seen;
int count;
char src_name[];
};
/*! Number of serializers in pool if one not otherwise known. (Best if prime number) */
#define DISTRIBUTOR_POOL_SIZE 31
/*! Pool of serializers to use if not supplied. */
static struct ast_taskprocessor *distributor_pool[DISTRIBUTOR_POOL_SIZE];
/*!
* \internal
* \brief Record the task's serializer name on the tdata structure.
* \since 14.0.0
*
* \param tdata The outgoing message.
*
* \retval PJ_SUCCESS.
*/
static pj_status_t record_serializer(pjsip_tx_data *tdata)
{
struct ast_taskprocessor *serializer;
serializer = ast_threadpool_serializer_get_current();
if (serializer) {
const char *name;
name = ast_taskprocessor_name(serializer);
if (!ast_strlen_zero(name)
&& (!tdata->mod_data[distributor_mod.id]
|| strcmp(tdata->mod_data[distributor_mod.id], name))) {
char *tdata_name;
/* The serializer in use changed. */
tdata_name = pj_pool_alloc(tdata->pool, strlen(name) + 1);
strcpy(tdata_name, name);/* Safe */
tdata->mod_data[distributor_mod.id] = tdata_name;
}
}
return PJ_SUCCESS;
}
/*!
* \internal
* \brief Find the request tdata to get the serializer it used.
* \since 14.0.0
*
* \param rdata The incoming message.
*
* \retval serializer on success.
* \retval NULL on error or could not find the serializer.
*/
static struct ast_taskprocessor *find_request_serializer(pjsip_rx_data *rdata)
{
struct ast_taskprocessor *serializer = NULL;
pj_str_t tsx_key;
pjsip_transaction *tsx;
pjsip_tsx_create_key(rdata->tp_info.pool, &tsx_key, PJSIP_ROLE_UAC,
&rdata->msg_info.cseq->method, rdata);
tsx = pjsip_tsx_layer_find_tsx(&tsx_key, PJ_TRUE);
if (!tsx) {
ast_debug(1, "Could not find transaction for %s.\n",
pjsip_rx_data_get_info(rdata));
return NULL;
}
ast_debug(3, "Found transaction %s for %s.\n",
tsx->obj_name, pjsip_rx_data_get_info(rdata));
if (tsx->last_tx) {
const char *serializer_name;
serializer_name = tsx->last_tx->mod_data[distributor_mod.id];
if (!ast_strlen_zero(serializer_name)) {
serializer = ast_taskprocessor_get(serializer_name, TPS_REF_IF_EXISTS);
if (serializer) {
ast_debug(3, "Found serializer %s on transaction %s\n",
serializer_name, tsx->obj_name);
}
}
}
#ifdef HAVE_PJ_TRANSACTION_GRP_LOCK
pj_grp_lock_release(tsx->grp_lock);
#else
pj_mutex_unlock(tsx->mutex);
#endif
return serializer;
}
/*! Dialog-specific information the distributor uses */
struct distributor_dialog_data {
/*! dialog_associations ao2 container key */
pjsip_dialog *dlg;
/*! Serializer to distribute tasks to for this dialog */
struct ast_taskprocessor *serializer;
/*! Endpoint associated with this dialog */
struct ast_sip_endpoint *endpoint;
};
#define DIALOG_ASSOCIATIONS_BUCKETS 251
static struct ao2_container *dialog_associations;
/*!
* \internal
* \brief Compute a hash value on an arbitrary buffer.
* \since 13.17.0
*
* \param[in] pos The buffer to add to the hash
* \param[in] len The buffer length to add to the hash
* \param[in] hash The hash value to add to
*
* \details
* This version of the function is for when you need to compute a
* hash of more than one buffer.
*
* This famous hash algorithm was written by Dan Bernstein and is
* commonly used.
*
* \sa http://www.cse.yorku.ca/~oz/hash.html
*/
static int buf_hash_add(const char *pos, size_t len, int hash)
{
while (len--) {
hash = hash * 33 ^ *pos++;
}
return hash;
}
/*!
* \internal
* \brief Compute a hash value on an arbitrary buffer.
* \since 13.17.0
*
* \param[in] pos The buffer to add to the hash
* \param[in] len The buffer length to add to the hash
*
* \details
* This version of the function is for when you need to compute a
* hash of more than one buffer.
*
* This famous hash algorithm was written by Dan Bernstein and is
* commonly used.
*
* \sa http://www.cse.yorku.ca/~oz/hash.html
*/
static int buf_hash(const char *pos, size_t len)
{
return buf_hash_add(pos, len, 5381);
}
static int dialog_associations_hash(const void *obj, int flags)
{
const struct distributor_dialog_data *object;
union {
const pjsip_dialog *dlg;
const char buf[sizeof(pjsip_dialog *)];
} key;
switch (flags & OBJ_SEARCH_MASK) {
case OBJ_SEARCH_KEY:
key.dlg = obj;
break;
case OBJ_SEARCH_OBJECT:
object = obj;
key.dlg = object->dlg;
break;
default:
/* Hash can only work on something with a full key. */
ast_assert(0);
return 0;
}
return ast_str_hash_restrict(buf_hash(key.buf, sizeof(key.buf)));
}
static int dialog_associations_cmp(void *obj, void *arg, int flags)
{
const struct distributor_dialog_data *object_left = obj;
const struct distributor_dialog_data *object_right = arg;
const pjsip_dialog *right_key = arg;
int cmp = 0;
switch (flags & OBJ_SEARCH_MASK) {
case OBJ_SEARCH_OBJECT:
right_key = object_right->dlg;
/* Fall through */
case OBJ_SEARCH_KEY:
if (object_left->dlg == right_key) {
cmp = CMP_MATCH;
}
break;
case OBJ_SEARCH_PARTIAL_KEY:
/* There is no such thing for this container. */
ast_assert(0);
break;
default:
cmp = 0;
break;
}
return cmp;
}
void ast_sip_dialog_set_serializer(pjsip_dialog *dlg, struct ast_taskprocessor *serializer)
{
struct distributor_dialog_data *dist;
ao2_wrlock(dialog_associations);
dist = ao2_find(dialog_associations, dlg, OBJ_SEARCH_KEY | OBJ_NOLOCK);
if (!dist) {
if (serializer) {
dist = ao2_alloc(sizeof(*dist), NULL);
if (dist) {
dist->dlg = dlg;
dist->serializer = serializer;
ao2_link_flags(dialog_associations, dist, OBJ_NOLOCK);
ao2_ref(dist, -1);
}
}
} else {
ao2_lock(dist);
dist->serializer = serializer;
if (!dist->serializer && !dist->endpoint) {
ao2_unlink_flags(dialog_associations, dist, OBJ_NOLOCK);
}
ao2_unlock(dist);
ao2_ref(dist, -1);
}
ao2_unlock(dialog_associations);
}
void ast_sip_dialog_set_endpoint(pjsip_dialog *dlg, struct ast_sip_endpoint *endpoint)
{
struct distributor_dialog_data *dist;
ao2_wrlock(dialog_associations);
dist = ao2_find(dialog_associations, dlg, OBJ_SEARCH_KEY | OBJ_NOLOCK);
if (!dist) {
if (endpoint) {
dist = ao2_alloc(sizeof(*dist), NULL);
if (dist) {
dist->dlg = dlg;
dist->endpoint = endpoint;
ao2_link_flags(dialog_associations, dist, OBJ_NOLOCK);
ao2_ref(dist, -1);
}
}
} else {
ao2_lock(dist);
dist->endpoint = endpoint;
if (!dist->serializer && !dist->endpoint) {
ao2_unlink_flags(dialog_associations, dist, OBJ_NOLOCK);
}
ao2_unlock(dist);
ao2_ref(dist, -1);
}
ao2_unlock(dialog_associations);
}
struct ast_sip_endpoint *ast_sip_dialog_get_endpoint(pjsip_dialog *dlg)
{
struct distributor_dialog_data *dist;
struct ast_sip_endpoint *endpoint;
dist = ao2_find(dialog_associations, dlg, OBJ_SEARCH_KEY);
if (dist) {
ao2_lock(dist);
endpoint = ao2_bump(dist->endpoint);
ao2_unlock(dist);
ao2_ref(dist, -1);
} else {
endpoint = NULL;
}
return endpoint;
}
static pjsip_dialog *find_dialog(pjsip_rx_data *rdata)
{
pj_str_t tsx_key;
pjsip_transaction *tsx;
pjsip_dialog *dlg;
pj_str_t *local_tag;
pj_str_t *remote_tag;
if (!rdata->msg_info.msg) {
return NULL;
}
if (rdata->msg_info.msg->type == PJSIP_REQUEST_MSG) {
local_tag = &rdata->msg_info.to->tag;
remote_tag = &rdata->msg_info.from->tag;
} else {
local_tag = &rdata->msg_info.from->tag;
remote_tag = &rdata->msg_info.to->tag;
}
/* We can only call the convenient method for
* 1) responses
* 2) non-CANCEL requests
* 3) CANCEL requests with a to-tag
*/
if (rdata->msg_info.msg->type == PJSIP_RESPONSE_MSG ||
pjsip_method_cmp(&rdata->msg_info.msg->line.req.method, &pjsip_cancel_method) ||
rdata->msg_info.to->tag.slen != 0) {
dlg = pjsip_ua_find_dialog(&rdata->msg_info.cid->id, local_tag,
remote_tag, PJ_FALSE);
if (dlg) {
return dlg;
}
}
/*
* There may still be a matching dialog if this is
* 1) an incoming CANCEL request without a to-tag
* 2) an incoming response to a dialog-creating request.
*/
if (rdata->msg_info.msg->type == PJSIP_REQUEST_MSG) {
/* CANCEL requests will need to match the INVITE we initially received. Any
* other request type will either have been matched already or is not in
* dialog
*/
pjsip_tsx_create_key(rdata->tp_info.pool, &tsx_key, PJSIP_ROLE_UAS,
pjsip_get_invite_method(), rdata);
} else {
pjsip_tsx_create_key(rdata->tp_info.pool, &tsx_key, PJSIP_ROLE_UAC,
&rdata->msg_info.cseq->method, rdata);
}
tsx = pjsip_tsx_layer_find_tsx(&tsx_key, PJ_TRUE);
if (!tsx) {
ast_debug(3, "Could not find matching transaction for %s\n",
pjsip_rx_data_get_info(rdata));
return NULL;
}
dlg = pjsip_tsx_get_dlg(tsx);
#ifdef HAVE_PJ_TRANSACTION_GRP_LOCK
pj_grp_lock_release(tsx->grp_lock);
#else
pj_mutex_unlock(tsx->mutex);
#endif
return dlg;
}
/*!
* \internal
* \brief Compute a hash value on a pjlib string
* \since 13.10.0
*
* \param[in] str The pjlib string to add to the hash
* \param[in] hash The hash value to add to
*
* \details
* This version of the function is for when you need to compute a
* string hash of more than one string.
*
* This famous hash algorithm was written by Dan Bernstein and is
* commonly used.
*
* \sa http://www.cse.yorku.ca/~oz/hash.html
*/
static int pjstr_hash_add(pj_str_t *str, int hash)
{
return buf_hash_add(pj_strbuf(str), pj_strlen(str), hash);
}
/*!
* \internal
* \brief Compute a hash value on a pjlib string
* \since 13.10.0
*
* \param[in] str The pjlib string to hash
*
* This famous hash algorithm was written by Dan Bernstein and is
* commonly used.
*
* http://www.cse.yorku.ca/~oz/hash.html
*/
static int pjstr_hash(pj_str_t *str)
{
return pjstr_hash_add(str, 5381);
}
struct ast_taskprocessor *ast_sip_get_distributor_serializer(pjsip_rx_data *rdata)
{
int hash;
pj_str_t *remote_tag;
struct ast_taskprocessor *serializer;
if (!rdata->msg_info.msg) {
return NULL;
}
if (rdata->msg_info.msg->type == PJSIP_REQUEST_MSG) {
remote_tag = &rdata->msg_info.from->tag;
} else {
remote_tag = &rdata->msg_info.to->tag;
}
/* Compute the hash from the SIP message call-id and remote-tag */
hash = pjstr_hash(&rdata->msg_info.cid->id);
hash = pjstr_hash_add(remote_tag, hash);
hash = ast_str_hash_restrict(hash);
serializer = ao2_bump(distributor_pool[hash % ARRAY_LEN(distributor_pool)]);
if (serializer) {
ast_debug(3, "Calculated serializer %s to use for %s\n",
ast_taskprocessor_name(serializer), pjsip_rx_data_get_info(rdata));
}
return serializer;
}
static pj_bool_t endpoint_lookup(pjsip_rx_data *rdata);
static pjsip_module endpoint_mod = {
.name = {"Endpoint Identifier", 19},
.priority = PJSIP_MOD_PRIORITY_TSX_LAYER - 3,
.on_rx_request = endpoint_lookup,
};
static pj_bool_t distributor(pjsip_rx_data *rdata)
{
pjsip_dialog *dlg;
struct distributor_dialog_data *dist = NULL;
struct ast_taskprocessor *serializer = NULL;
pjsip_rx_data *clone;
if (!ast_test_flag(&ast_options, AST_OPT_FLAG_FULLY_BOOTED)) {
/*
* Ignore everything until we are fully booted. Let the
* peer retransmit messages until we are ready.
*/
return PJ_TRUE;
}
dlg = find_dialog(rdata);
if (dlg) {
ast_debug(3, "Searching for serializer associated with dialog %s for %s\n",
dlg->obj_name, pjsip_rx_data_get_info(rdata));
dist = ao2_find(dialog_associations, dlg, OBJ_SEARCH_KEY);
if (dist) {
ao2_lock(dist);
serializer = ao2_bump(dist->serializer);
ao2_unlock(dist);
if (serializer) {
ast_debug(3, "Found serializer %s associated with dialog %s\n",
ast_taskprocessor_name(serializer), dlg->obj_name);
}
}
}
if (serializer) {
/* We have a serializer so we know where to send the message. */
} else if (rdata->msg_info.msg->type == PJSIP_RESPONSE_MSG) {
ast_debug(3, "No dialog serializer for %s. Using request transaction as basis.\n",
pjsip_rx_data_get_info(rdata));
serializer = find_request_serializer(rdata);
if (!serializer) {
/*
* Pick a serializer for the unmatched response.
* We couldn't determine what serializer originally
* sent the request or the serializer is gone.
*/
serializer = ast_sip_get_distributor_serializer(rdata);
}
} else if (!pjsip_method_cmp(&rdata->msg_info.msg->line.req.method, &pjsip_cancel_method)
|| !pjsip_method_cmp(&rdata->msg_info.msg->line.req.method, &pjsip_bye_method)) {
/* We have a BYE or CANCEL request without a serializer. */
pjsip_endpt_respond_stateless(ast_sip_get_pjsip_endpoint(), rdata,
PJSIP_SC_CALL_TSX_DOES_NOT_EXIST, NULL, NULL, NULL);
ao2_cleanup(dist);
return PJ_TRUE;
} else {
if ((overload_trigger == TASKPROCESSOR_OVERLOAD_TRIGGER_GLOBAL &&
ast_taskprocessor_alert_get())
|| (overload_trigger == TASKPROCESSOR_OVERLOAD_TRIGGER_PJSIP_ONLY &&
ast_taskprocessor_get_subsystem_alert("pjsip"))) {
/*
* When taskprocessors get backed up, there is a good chance that
* we are being overloaded and need to defer adding new work to
* the system. To defer the work we will ignore the request and
* rely on the peer's transport layer to retransmit the message.
* We usually work off the overload within a few seconds.
* If transport is non-UDP we send a 503 response instead.
*/
switch (rdata->tp_info.transport->key.type) {
case PJSIP_TRANSPORT_UDP6:
case PJSIP_TRANSPORT_UDP:
ast_debug(3, "Taskprocessor overload alert: Ignoring '%s'.\n",
pjsip_rx_data_get_info(rdata));
break;
default:
ast_debug(3, "Taskprocessor overload on non-udp transport. Received:'%s'. "
"Responding with a 503.\n", pjsip_rx_data_get_info(rdata));
pjsip_endpt_respond_stateless(ast_sip_get_pjsip_endpoint(), rdata,
PJSIP_SC_SERVICE_UNAVAILABLE, NULL, NULL, NULL);
break;
}
ao2_cleanup(dist);
return PJ_TRUE;
}
/* Pick a serializer for the out-of-dialog request. */
serializer = ast_sip_get_distributor_serializer(rdata);
}
if (pjsip_rx_data_clone(rdata, 0, &clone) != PJ_SUCCESS) {
ast_taskprocessor_unreference(serializer);
ao2_cleanup(dist);
return PJ_TRUE;
}
if (dist) {
ao2_lock(dist);
clone->endpt_info.mod_data[endpoint_mod.id] = ao2_bump(dist->endpoint);
ao2_unlock(dist);
ao2_cleanup(dist);
}
if (ast_sip_push_task(serializer, distribute, clone)) {
ao2_cleanup(clone->endpt_info.mod_data[endpoint_mod.id]);
pjsip_rx_data_free_cloned(clone);
}
ast_taskprocessor_unreference(serializer);
return PJ_TRUE;
}
static struct ast_sip_auth *alloc_artificial_auth(char *default_realm)
{
struct ast_sip_auth *fake_auth;
fake_auth = ast_sorcery_alloc(ast_sip_get_sorcery(), SIP_SORCERY_AUTH_TYPE,
"artificial");
if (!fake_auth) {
return NULL;
}
ast_string_field_set(fake_auth, realm, default_realm);
ast_string_field_set(fake_auth, auth_user, "");
ast_string_field_set(fake_auth, auth_pass, "");
fake_auth->type = AST_SIP_AUTH_TYPE_ARTIFICIAL;
return fake_auth;
}
static AO2_GLOBAL_OBJ_STATIC(artificial_auth);
static int create_artificial_auth(void)
{
char default_realm[MAX_REALM_LENGTH + 1];
struct ast_sip_auth *fake_auth;
ast_sip_get_default_realm(default_realm, sizeof(default_realm));
fake_auth = alloc_artificial_auth(default_realm);
if (!fake_auth) {
ast_log(LOG_ERROR, "Unable to create artificial auth\n");
return -1;
}
ao2_global_obj_replace_unref(artificial_auth, fake_auth);
ao2_ref(fake_auth, -1);
return 0;
}
struct ast_sip_auth *ast_sip_get_artificial_auth(void)
{
return ao2_global_obj_ref(artificial_auth);
}
static struct ast_sip_endpoint *artificial_endpoint = NULL;
static int create_artificial_endpoint(void)
{
artificial_endpoint = ast_sorcery_alloc(ast_sip_get_sorcery(), "endpoint", NULL);
if (!artificial_endpoint) {
return -1;
}
AST_VECTOR_INIT(&artificial_endpoint->inbound_auths, 1);
/* Pushing a bogus value into the vector will ensure that
* the proper size of the vector is returned. This value is
* not actually used anywhere
*/
AST_VECTOR_APPEND(&artificial_endpoint->inbound_auths, ast_strdup("artificial-auth"));
return 0;
}
struct ast_sip_endpoint *ast_sip_get_artificial_endpoint(void)
{
ao2_ref(artificial_endpoint, +1);
return artificial_endpoint;
}
static void log_failed_request(pjsip_rx_data *rdata, char *msg, unsigned int count, unsigned int period)
{
char from_buf[PJSIP_MAX_URL_SIZE];
char callid_buf[PJSIP_MAX_URL_SIZE];
char method_buf[PJSIP_MAX_URL_SIZE];
char src_addr_buf[AST_SOCKADDR_BUFLEN];
pjsip_uri_print(PJSIP_URI_IN_FROMTO_HDR, rdata->msg_info.from->uri, from_buf, PJSIP_MAX_URL_SIZE);
ast_copy_pj_str(callid_buf, &rdata->msg_info.cid->id, PJSIP_MAX_URL_SIZE);
ast_copy_pj_str(method_buf, &rdata->msg_info.msg->line.req.method.name, PJSIP_MAX_URL_SIZE);
if (count) {
ast_log(LOG_NOTICE, "Request '%s' from '%s' failed for '%s' (callid: %s) - %s"
" after %u tries in %.3f ms\n",
method_buf, from_buf,
pj_sockaddr_print(&rdata->pkt_info.src_addr, src_addr_buf, sizeof(src_addr_buf), 3),
callid_buf, msg, count, period / 1000.0);
} else {
ast_log(LOG_NOTICE, "Request '%s' from '%s' failed for '%s' (callid: %s) - %s\n",
method_buf, from_buf,
pj_sockaddr_print(&rdata->pkt_info.src_addr, src_addr_buf, sizeof(src_addr_buf), 3),
callid_buf, msg);
}
}
static void check_endpoint(pjsip_rx_data *rdata, struct unidentified_request *unid,
const char *name)
{
int64_t ms = ast_tvdiff_ms(ast_tvnow(), unid->first_seen);
ao2_wrlock(unid);
unid->count++;
if (ms < (unidentified_period * 1000) && unid->count >= unidentified_count) {
log_failed_request(rdata, "No matching endpoint found", unid->count, ms);
ast_sip_report_invalid_endpoint(name, rdata);
}
ao2_unlock(unid);
}
static int apply_endpoint_acl(pjsip_rx_data *rdata, struct ast_sip_endpoint *endpoint);
static int apply_endpoint_contact_acl(pjsip_rx_data *rdata, struct ast_sip_endpoint *endpoint);
static void apply_acls(pjsip_rx_data *rdata)
{
struct ast_sip_endpoint *endpoint;
/* Is the endpoint allowed with the source or contact address? */
endpoint = rdata->endpt_info.mod_data[endpoint_mod.id];
if (endpoint != artificial_endpoint
&& (apply_endpoint_acl(rdata, endpoint)
|| apply_endpoint_contact_acl(rdata, endpoint))) {
ast_debug(1, "Endpoint '%s' not allowed by ACL\n",
ast_sorcery_object_get_id(endpoint));
/* Replace the rdata endpoint with the artificial endpoint. */
ao2_replace(rdata->endpt_info.mod_data[endpoint_mod.id], artificial_endpoint);
}
}
static pj_bool_t endpoint_lookup(pjsip_rx_data *rdata)
{
struct ast_sip_endpoint *endpoint;
struct unidentified_request *unid;
int is_ack = rdata->msg_info.msg->line.req.method.id == PJSIP_ACK_METHOD;
endpoint = rdata->endpt_info.mod_data[endpoint_mod.id];
if (endpoint) {
/*
* ao2_find with OBJ_UNLINK always write locks the container before even searching
* for the object. Since the majority case is that the object won't be found, do
* the find without OBJ_UNLINK to prevent the unnecessary write lock, then unlink
* if needed.
*/
unid = ao2_find(unidentified_requests, rdata->pkt_info.src_name, OBJ_SEARCH_KEY);
if (unid) {
ao2_unlink(unidentified_requests, unid);
ao2_ref(unid, -1);
}
apply_acls(rdata);
return PJ_FALSE;
}
endpoint = ast_sip_identify_endpoint(rdata);
if (endpoint) {
unid = ao2_find(unidentified_requests, rdata->pkt_info.src_name, OBJ_SEARCH_KEY);
if (unid) {
ao2_unlink(unidentified_requests, unid);
ao2_ref(unid, -1);
}
}
if (!endpoint) {
/* always use an artificial endpoint - per discussion no reason
to have "alwaysauthreject" as an option. It is felt using it
was a bug fix and it is not needed since we are not worried about
breaking old stuff and we really don't want to enable the discovery
of SIP accounts */
endpoint = ast_sip_get_artificial_endpoint();
}
/* endpoint ref held by mod_data[] */
rdata->endpt_info.mod_data[endpoint_mod.id] = endpoint;
if (endpoint == artificial_endpoint && !is_ack) {
char name[AST_UUID_STR_LEN] = "";
pjsip_uri *from = rdata->msg_info.from->uri;
if (ast_sip_is_allowed_uri(from)) {
ast_copy_pj_str(name, ast_sip_pjsip_uri_get_username(from), sizeof(name));
}
unid = ao2_find(unidentified_requests, rdata->pkt_info.src_name, OBJ_SEARCH_KEY);
if (unid) {
check_endpoint(rdata, unid, name);
ao2_ref(unid, -1);
} else if (using_auth_username) {
ao2_wrlock(unidentified_requests);
/* Checking again with the write lock held allows us to eliminate the DUPS_REPLACE and sort_fn */
unid = ao2_find(unidentified_requests, rdata->pkt_info.src_name,
OBJ_SEARCH_KEY | OBJ_NOLOCK);
if (unid) {
check_endpoint(rdata, unid, name);
} else {
unid = ao2_alloc_options(sizeof(*unid) + strlen(rdata->pkt_info.src_name) + 1,
NULL, AO2_ALLOC_OPT_LOCK_RWLOCK);
if (!unid) {
ao2_unlock(unidentified_requests);
pjsip_endpt_respond_stateless(ast_sip_get_pjsip_endpoint(), rdata, 500, NULL, NULL, NULL);
return PJ_TRUE;
}
strcpy(unid->src_name, rdata->pkt_info.src_name); /* Safe */
unid->first_seen = ast_tvnow();
unid->count = 1;
ao2_link_flags(unidentified_requests, unid, OBJ_NOLOCK);
}
ao2_ref(unid, -1);
ao2_unlock(unidentified_requests);
} else {
log_failed_request(rdata, "No matching endpoint found", 0, 0);
ast_sip_report_invalid_endpoint(name, rdata);
}
}
apply_acls(rdata);
return PJ_FALSE;
}
static int apply_endpoint_acl(pjsip_rx_data *rdata, struct ast_sip_endpoint *endpoint)
{
struct ast_sockaddr addr;
if (ast_acl_list_is_empty(endpoint->acl)) {
return 0;
}
memset(&addr, 0, sizeof(addr));
ast_sockaddr_parse(&addr, rdata->pkt_info.src_name, PARSE_PORT_FORBID);
ast_sockaddr_set_port(&addr, rdata->pkt_info.src_port);
if (ast_apply_acl(endpoint->acl, &addr, "SIP ACL: ") != AST_SENSE_ALLOW) {
log_failed_request(rdata, "Not match Endpoint ACL", 0, 0);
ast_sip_report_failed_acl(endpoint, rdata, "not_match_endpoint_acl");
return 1;
}
return 0;
}
static int extract_contact_addr(pjsip_contact_hdr *contact, struct ast_sockaddr **addrs)
{
pjsip_sip_uri *sip_uri;
char host[256];
if (!contact || contact->star) {
*addrs = NULL;
return 0;
}
if (!PJSIP_URI_SCHEME_IS_SIP(contact->uri) && !PJSIP_URI_SCHEME_IS_SIPS(contact->uri)) {
*addrs = NULL;
return 0;
}
sip_uri = pjsip_uri_get_uri(contact->uri);
ast_copy_pj_str(host, &sip_uri->host, sizeof(host));
return ast_sockaddr_resolve(addrs, host, PARSE_PORT_FORBID, AST_AF_UNSPEC);
}
static int apply_endpoint_contact_acl(pjsip_rx_data *rdata, struct ast_sip_endpoint *endpoint)
{
int num_contact_addrs;
int forbidden = 0;
struct ast_sockaddr *contact_addrs;
int i;
pjsip_contact_hdr *contact = (pjsip_contact_hdr *)&rdata->msg_info.msg->hdr;
if (ast_acl_list_is_empty(endpoint->contact_acl)) {
return 0;
}
while ((contact = pjsip_msg_find_hdr(rdata->msg_info.msg, PJSIP_H_CONTACT, contact->next))) {
num_contact_addrs = extract_contact_addr(contact, &contact_addrs);
if (num_contact_addrs <= 0) {
continue;
}
for (i = 0; i < num_contact_addrs; ++i) {
if (ast_apply_acl(endpoint->contact_acl, &contact_addrs[i], "SIP Contact ACL: ") != AST_SENSE_ALLOW) {
log_failed_request(rdata, "Not match Endpoint Contact ACL", 0, 0);
ast_sip_report_failed_acl(endpoint, rdata, "not_match_endpoint_contact_acl");
forbidden = 1;
break;
}
}
ast_free(contact_addrs);
if (forbidden) {
/* No use checking other contacts if we already have failed ACL check */
break;
}
}
return forbidden;
}
static pj_bool_t authenticate(pjsip_rx_data *rdata)
{
RAII_VAR(struct ast_sip_endpoint *, endpoint, ast_pjsip_rdata_get_endpoint(rdata), ao2_cleanup);
int is_ack = rdata->msg_info.msg->line.req.method.id == PJSIP_ACK_METHOD;
ast_assert(endpoint != NULL);
if (is_ack) {
return PJ_FALSE;
}
if (ast_sip_requires_authentication(endpoint, rdata)) {
pjsip_tx_data *tdata;
struct unidentified_request *unid;
pjsip_endpt_create_response(ast_sip_get_pjsip_endpoint(), rdata, 401, NULL, &tdata);
switch (ast_sip_check_authentication(endpoint, rdata, tdata)) {
case AST_SIP_AUTHENTICATION_CHALLENGE:
/* Send the 401 we created for them */
ast_sip_report_auth_challenge_sent(endpoint, rdata, tdata);
if (pjsip_endpt_send_response2(ast_sip_get_pjsip_endpoint(), rdata, tdata, NULL, NULL) != PJ_SUCCESS) {
pjsip_tx_data_dec_ref(tdata);
}
return PJ_TRUE;
case AST_SIP_AUTHENTICATION_SUCCESS:
/* See note in endpoint_lookup about not holding an unnecessary write lock */
unid = ao2_find(unidentified_requests, rdata->pkt_info.src_name, OBJ_SEARCH_KEY);
if (unid) {
ao2_unlink(unidentified_requests, unid);
ao2_ref(unid, -1);
}
ast_sip_report_auth_success(endpoint, rdata);
break;
case AST_SIP_AUTHENTICATION_FAILED:
log_failed_request(rdata, "Failed to authenticate", 0, 0);
ast_sip_report_auth_failed_challenge_response(endpoint, rdata);
if (pjsip_endpt_send_response2(ast_sip_get_pjsip_endpoint(), rdata, tdata, NULL, NULL) != PJ_SUCCESS) {
pjsip_tx_data_dec_ref(tdata);
}
return PJ_TRUE;
case AST_SIP_AUTHENTICATION_ERROR:
log_failed_request(rdata, "Error to authenticate", 0, 0);
ast_sip_report_auth_failed_challenge_response(endpoint, rdata);
pjsip_tx_data_dec_ref(tdata);
pjsip_endpt_respond_stateless(ast_sip_get_pjsip_endpoint(), rdata, 500, NULL, NULL, NULL);
return PJ_TRUE;
}
pjsip_tx_data_dec_ref(tdata);
} else if (endpoint == artificial_endpoint) {
/* Uh. Oh. The artificial endpoint couldn't challenge so block the request. */
pjsip_endpt_respond_stateless(ast_sip_get_pjsip_endpoint(), rdata, 500, NULL, NULL, NULL);
return PJ_TRUE;
}
return PJ_FALSE;
}
static pjsip_module auth_mod = {
.name = {"Request Authenticator", 21},
.priority = PJSIP_MOD_PRIORITY_APPLICATION - 2,
.on_rx_request = authenticate,
};
static int distribute(void *data)
{
static pjsip_process_rdata_param param = {
.start_mod = &distributor_mod,
.idx_after_start = 1,
};
pj_bool_t handled = PJ_FALSE;
pjsip_rx_data *rdata = data;
int is_request = rdata->msg_info.msg->type == PJSIP_REQUEST_MSG;
int is_ack = is_request ? rdata->msg_info.msg->line.req.method.id == PJSIP_ACK_METHOD : 0;
struct ast_sip_endpoint *endpoint;
pjsip_endpt_process_rx_data(ast_sip_get_pjsip_endpoint(), rdata, &param, &handled);
if (!handled && is_request && !is_ack) {
pjsip_endpt_respond_stateless(ast_sip_get_pjsip_endpoint(), rdata, 501, NULL, NULL, NULL);
}
/* The endpoint_mod stores an endpoint reference in the mod_data of rdata. This
* is the only appropriate spot to actually decrement the reference.
*/
endpoint = rdata->endpt_info.mod_data[endpoint_mod.id];
ao2_cleanup(endpoint);
pjsip_rx_data_free_cloned(rdata);
return 0;
}
struct ast_sip_endpoint *ast_pjsip_rdata_get_endpoint(pjsip_rx_data *rdata)
{
struct ast_sip_endpoint *endpoint = rdata->endpt_info.mod_data[endpoint_mod.id];
if (endpoint) {
ao2_ref(endpoint, +1);
}
return endpoint;
}
static int suspects_sort(const void *obj, const void *arg, int flags)
{
const struct unidentified_request *object_left = obj;
const struct unidentified_request *object_right = arg;
const char *right_key = arg;
int cmp;
switch (flags & OBJ_SEARCH_MASK) {
case OBJ_SEARCH_OBJECT:
right_key = object_right->src_name;
/* Fall through */
case OBJ_SEARCH_KEY:
cmp = strcmp(object_left->src_name, right_key);
break;
case OBJ_SEARCH_PARTIAL_KEY:
cmp = strncmp(object_left->src_name, right_key, strlen(right_key));
break;
default:
cmp = 0;
break;
}
return cmp;
}
static int suspects_compare(void *obj, void *arg, int flags)
{
const struct unidentified_request *object_left = obj;
const struct unidentified_request *object_right = arg;
const char *right_key = arg;
int cmp = 0;
switch (flags & OBJ_SEARCH_MASK) {
case OBJ_SEARCH_OBJECT:
right_key = object_right->src_name;
/* Fall through */
case OBJ_SEARCH_KEY:
if (strcmp(object_left->src_name, right_key) == 0) {
cmp = CMP_MATCH;
}
break;
case OBJ_SEARCH_PARTIAL_KEY:
if (strncmp(object_left->src_name, right_key, strlen(right_key)) == 0) {
cmp = CMP_MATCH;
}
break;
default:
cmp = 0;
break;
}
return cmp;
}
static int suspects_hash(const void *obj, int flags)
{
const struct unidentified_request *object;
const char *key;
switch (flags & OBJ_SEARCH_MASK) {
case OBJ_SEARCH_KEY:
key = obj;
break;
case OBJ_SEARCH_OBJECT:
object = obj;
key = object->src_name;
break;
default:
/* Hash can only work on something with a full key. */
ast_assert(0);
return 0;
}
return ast_str_hash(key);
}
static struct ao2_container *cli_unid_get_container(const char *regex)
{
struct ao2_container *s_container;
s_container = ao2_container_alloc_list(AO2_ALLOC_OPT_LOCK_NOLOCK, 0,
suspects_sort, suspects_compare);
if (!s_container) {
return NULL;
}
if (ao2_container_dup(s_container, unidentified_requests, 0)) {
ao2_ref(s_container, -1);
return NULL;
}
return s_container;
}
static int cli_unid_iterate(void *container, ao2_callback_fn callback, void *args)
{
ao2_callback(container, 0, callback, args);
return 0;
}
static void *cli_unid_retrieve_by_id(const char *id)
{
return ao2_find(unidentified_requests, id, OBJ_SEARCH_KEY);
}
static const char *cli_unid_get_id(const void *obj)
{
const struct unidentified_request *unid = obj;
return unid->src_name;
}
static int cli_unid_print_header(void *obj, void *arg, int flags)
{
struct ast_sip_cli_context *context = arg;
RAII_VAR(struct ast_sip_cli_formatter_entry *, formatter_entry, NULL, ao2_cleanup);
int indent = CLI_INDENT_TO_SPACES(context->indent_level);
int filler = CLI_LAST_TABSTOP - indent - 7;
ast_assert(context->output_buffer != NULL);
ast_str_append(&context->output_buffer, 0,
"%*s: <IP Address%*.*s> <Count> <Age(sec)>\n",
indent, "Request", filler, filler, CLI_HEADER_FILLER);
return 0;
}
static int cli_unid_print_body(void *obj, void *arg, int flags)
{
struct unidentified_request *unid = obj;
struct ast_sip_cli_context *context = arg;
int indent;
int flexwidth;
int64_t ms = ast_tvdiff_ms(ast_tvnow(), unid->first_seen);
ast_assert(context->output_buffer != NULL);
indent = CLI_INDENT_TO_SPACES(context->indent_level);
flexwidth = CLI_LAST_TABSTOP - 4;
ast_str_append(&context->output_buffer, 0, "%*s: %-*.*s %7d %10.3f\n",
indent,
"Request",
flexwidth, flexwidth,
unid->src_name, unid->count, ms / 1000.0);
return 0;
}
static struct ast_cli_entry cli_commands[] = {
AST_CLI_DEFINE(ast_sip_cli_traverse_objects, "Show PJSIP Unidentified Requests",
.command = "pjsip show unidentified_requests",
.usage = "Usage: pjsip show unidentified_requests\n"
" Show the PJSIP Unidentified Requests\n"),
};
struct ast_sip_cli_formatter_entry *unid_formatter;
static int expire_requests(void *object, void *arg, int flags)
{
struct unidentified_request *unid = object;
int *maxage = arg;
int64_t ms = ast_tvdiff_ms(ast_tvnow(), unid->first_seen);
if (ms > (*maxage) * 2 * 1000) {
return CMP_MATCH;
}
return 0;
}
static int prune_task(const void *data)
{
unsigned int maxage;
ast_sip_get_unidentified_request_thresholds(&unidentified_count, &unidentified_period, &unidentified_prune_interval);
maxage = unidentified_period * 2;
ao2_callback(unidentified_requests, OBJ_MULTIPLE | OBJ_NODATA | OBJ_UNLINK, expire_requests, &maxage);
return unidentified_prune_interval * 1000;
}
static int clean_task(const void *data)
{
return 0;
}
static void global_loaded(const char *object_type)
{
char default_realm[MAX_REALM_LENGTH + 1];
struct ast_sip_auth *fake_auth;
char *identifier_order;
/* Update using_auth_username */
identifier_order = ast_sip_get_endpoint_identifier_order();
if (identifier_order) {
char *identify_method;
char *io_copy = ast_strdupa(identifier_order);
int new_using = 0;
ast_free(identifier_order);
while ((identify_method = ast_strip(strsep(&io_copy, ",")))) {
if (!strcmp(identify_method, "auth_username")) {
new_using = 1;
break;
}
}
using_auth_username = new_using;
}
/* Update default_realm of artificial_auth */
ast_sip_get_default_realm(default_realm, sizeof(default_realm));
fake_auth = ast_sip_get_artificial_auth();
if (!fake_auth || strcmp(fake_auth->realm, default_realm)) {
ao2_cleanup(fake_auth);
fake_auth = alloc_artificial_auth(default_realm);
if (fake_auth) {
ao2_global_obj_replace_unref(artificial_auth, fake_auth);
}
}
ao2_cleanup(fake_auth);
ast_sip_get_unidentified_request_thresholds(&unidentified_count, &unidentified_period, &unidentified_prune_interval);
overload_trigger = ast_sip_get_taskprocessor_overload_trigger();
/* Clean out the old task, if any */
ast_sched_clean_by_callback(prune_context, prune_task, clean_task);
/* Have to do something with the return value to shut up the stupid compiler. */
if (ast_sched_add_variable(prune_context, unidentified_prune_interval * 1000, prune_task, NULL, 1) < 0) {
return;
}
}
/*! \brief Observer which is used to update our interval and default_realm when the global setting changes */
static struct ast_sorcery_observer global_observer = {
.loaded = global_loaded,
};
/*!
* \internal
* \brief Shutdown the serializers in the distributor pool.
* \since 13.10.0
*/
static void distributor_pool_shutdown(void)
{
int idx;
for (idx = 0; idx < ARRAY_LEN(distributor_pool); ++idx) {
ast_taskprocessor_unreference(distributor_pool[idx]);
distributor_pool[idx] = NULL;
}
}
/*!
* \internal
* \brief Setup the serializers in the distributor pool.
* \since 13.10.0
*
* \retval 0 on success.
* \retval -1 on error.
*/
static int distributor_pool_setup(void)
{
char tps_name[AST_TASKPROCESSOR_MAX_NAME + 1];
int idx;
for (idx = 0; idx < ARRAY_LEN(distributor_pool); ++idx) {
/* Create name with seq number appended. */
ast_taskprocessor_build_name(tps_name, sizeof(tps_name), "pjsip/distributor");
distributor_pool[idx] = ast_sip_create_serializer(tps_name);
if (!distributor_pool[idx]) {
return -1;
}
}
return 0;
}
int ast_sip_initialize_distributor(void)
{
unidentified_requests = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_RWLOCK, 0,
DEFAULT_SUSPECTS_BUCKETS, suspects_hash, NULL, suspects_compare);
if (!unidentified_requests) {
return -1;
}
dialog_associations = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_RWLOCK, 0,
DIALOG_ASSOCIATIONS_BUCKETS, dialog_associations_hash, NULL,
dialog_associations_cmp);
if (!dialog_associations) {
ast_sip_destroy_distributor();
return -1;
}
if (distributor_pool_setup()) {
ast_sip_destroy_distributor();
return -1;
}
prune_context = ast_sched_context_create();
if (!prune_context) {
ast_sip_destroy_distributor();
return -1;
}
if (ast_sched_start_thread(prune_context)) {
ast_sip_destroy_distributor();
return -1;
}
ast_sorcery_observer_add(ast_sip_get_sorcery(), "global", &global_observer);
ast_sorcery_reload_object(ast_sip_get_sorcery(), "global");
if (create_artificial_endpoint() || create_artificial_auth()) {
ast_sip_destroy_distributor();
return -1;
}
if (ast_sip_register_service(&distributor_mod)) {
ast_sip_destroy_distributor();
return -1;
}
if (ast_sip_register_service(&endpoint_mod)) {
ast_sip_destroy_distributor();
return -1;
}
if (ast_sip_register_service(&auth_mod)) {
ast_sip_destroy_distributor();
return -1;
}
unid_formatter = ao2_alloc_options(sizeof(struct ast_sip_cli_formatter_entry), NULL,
AO2_ALLOC_OPT_LOCK_NOLOCK);
if (!unid_formatter) {
ast_sip_destroy_distributor();
ast_log(LOG_ERROR, "Unable to allocate memory for unid_formatter\n");
return -1;
}
unid_formatter->name = "unidentified_request";
unid_formatter->print_header = cli_unid_print_header;
unid_formatter->print_body = cli_unid_print_body;
unid_formatter->get_container = cli_unid_get_container;
unid_formatter->iterate = cli_unid_iterate;
unid_formatter->get_id = cli_unid_get_id;
unid_formatter->retrieve_by_id = cli_unid_retrieve_by_id;
ast_sip_register_cli_formatter(unid_formatter);
ast_cli_register_multiple(cli_commands, ARRAY_LEN(cli_commands));
return 0;
}
void ast_sip_destroy_distributor(void)
{
ast_cli_unregister_multiple(cli_commands, ARRAY_LEN(cli_commands));
ast_sip_unregister_cli_formatter(unid_formatter);
ast_sip_unregister_service(&auth_mod);
ast_sip_unregister_service(&endpoint_mod);
ast_sip_unregister_service(&distributor_mod);
ao2_global_obj_release(artificial_auth);
ao2_cleanup(artificial_endpoint);
ast_sorcery_observer_remove(ast_sip_get_sorcery(), "global", &global_observer);
if (prune_context) {
ast_sched_context_destroy(prune_context);
}
distributor_pool_shutdown();
ao2_cleanup(dialog_associations);
ao2_cleanup(unidentified_requests);
}