/**
* @file upnp.c UPnP Implementation
* @ingroup core
*/
/* purple
*
* Purple is the legal property of its developers, whose names are too numerous
* to list here. Please refer to the COPYRIGHT file distributed with this
* source distribution.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111-1301 USA
*/
#include "internal.h"
#include "upnp.h"
#include "debug.h"
#include "eventloop.h"
#include "http.h"
#include "network.h"
#include "proxy.h"
#include "signals.h"
#include "util.h"
#include "xmlnode.h"
/***************************************************************
** General Defines *
****************************************************************/
#define HTTP_OK "200 OK"
#define DEFAULT_HTTP_PORT 80
#define DISCOVERY_TIMEOUT 1000
/* limit UPnP-triggered http downloads to 128k */
#define MAX_UPNP_DOWNLOAD (128 * 1024)
/***************************************************************
** Discovery/Description Defines *
****************************************************************/
#define NUM_UDP_ATTEMPTS 2
/* Address and port of an SSDP request used for discovery */
#define HTTPMU_HOST_ADDRESS "239.255.255.250"
#define HTTPMU_HOST_PORT 1900
#define SEARCH_REQUEST_DEVICE "urn:schemas-upnp-org:service:%s"
#define SEARCH_REQUEST_STRING \
"M-SEARCH * HTTP/1.1\r\n" \
"MX: 2\r\n" \
"HOST: 239.255.255.250:1900\r\n" \
"MAN: \"ssdp:discover\"\r\n" \
"ST: urn:schemas-upnp-org:service:%s\r\n" \
"\r\n"
#define WAN_IP_CONN_SERVICE "WANIPConnection:1"
#define WAN_PPP_CONN_SERVICE "WANPPPConnection:1"
/******************************************************************
** Action Defines *
*******************************************************************/
#define SOAP_ACTION \
"\r\n" \
"\r\n" \
"\r\n" \
"\r\n" \
"%s" \
"\r\n" \
"\r\n" \
""
#define PORT_MAPPING_LEASE_TIME "0"
#define PORT_MAPPING_DESCRIPTION "PURPLE_UPNP_PORT_FORWARD"
#define ADD_PORT_MAPPING_PARAMS \
"\r\n" \
"%i\r\n" \
"%s\r\n" \
"%i\r\n" \
"%s\r\n" \
"1\r\n" \
"" \
PORT_MAPPING_DESCRIPTION \
"\r\n" \
"" \
PORT_MAPPING_LEASE_TIME \
"\r\n"
#define DELETE_PORT_MAPPING_PARAMS \
"\r\n" \
"%i\r\n" \
"%s\r\n"
typedef enum {
PURPLE_UPNP_STATUS_UNDISCOVERED = -1,
PURPLE_UPNP_STATUS_UNABLE_TO_DISCOVER,
PURPLE_UPNP_STATUS_DISCOVERING,
PURPLE_UPNP_STATUS_DISCOVERED
} PurpleUPnPStatus;
typedef struct {
PurpleUPnPStatus status;
gchar* control_url;
gchar service_type[20];
char publicip[16];
char internalip[16];
time_t lookup_time;
} PurpleUPnPControlInfo;
typedef struct {
guint inpa; /* purple_input_add handle */
guint tima; /* purple_timeout_add handle */
int fd;
struct sockaddr_in server;
gchar service_type[20];
int retry_count;
gchar *full_url;
} UPnPDiscoveryData;
struct _UPnPMappingAddRemove
{
unsigned short portmap;
gchar protocol[4];
gboolean add;
PurpleUPnPCallback cb;
gpointer cb_data;
gboolean success;
guint tima; /* purple_timeout_add handle */
PurpleHttpConnection *hc;
};
static PurpleUPnPControlInfo control_info = {
PURPLE_UPNP_STATUS_UNDISCOVERED,
NULL, "\0", "\0", "\0", 0};
static GSList *discovery_callbacks = NULL;
static void purple_upnp_discover_send_broadcast(UPnPDiscoveryData *dd);
static void lookup_public_ip(void);
static void lookup_internal_ip(void);
static gboolean
fire_ar_cb_async_and_free(gpointer data)
{
UPnPMappingAddRemove *ar = data;
if (ar) {
if (ar->cb)
ar->cb(ar->success, ar->cb_data);
g_free(ar);
}
return FALSE;
}
static void
fire_discovery_callbacks(gboolean success)
{
while(discovery_callbacks) {
gpointer data;
PurpleUPnPCallback cb = discovery_callbacks->data;
discovery_callbacks = g_slist_delete_link(discovery_callbacks, discovery_callbacks);
data = discovery_callbacks->data;
discovery_callbacks = g_slist_delete_link(discovery_callbacks, discovery_callbacks);
cb(success, data);
}
}
static gboolean
purple_upnp_compare_device(const xmlnode* device, const gchar* deviceType)
{
xmlnode* deviceTypeNode = xmlnode_get_child(device, "deviceType");
char *tmp;
gboolean ret;
if(deviceTypeNode == NULL) {
return FALSE;
}
tmp = xmlnode_get_data(deviceTypeNode);
ret = !g_ascii_strcasecmp(tmp, deviceType);
g_free(tmp);
return ret;
}
static gboolean
purple_upnp_compare_service(const xmlnode* service, const gchar* serviceType)
{
xmlnode* serviceTypeNode;
char *tmp;
gboolean ret;
if(service == NULL) {
return FALSE;
}
serviceTypeNode = xmlnode_get_child(service, "serviceType");
if(serviceTypeNode == NULL) {
return FALSE;
}
tmp = xmlnode_get_data(serviceTypeNode);
ret = !g_ascii_strcasecmp(tmp, serviceType);
g_free(tmp);
return ret;
}
static gchar*
purple_upnp_parse_description_response(const gchar* httpResponse, gsize len,
const gchar* httpURL, const gchar* serviceType)
{
gchar *baseURL, *controlURL, *service;
xmlnode *xmlRootNode, *serviceTypeNode, *controlURLNode, *baseURLNode;
char *tmp;
/* create the xml root node */
if ((xmlRootNode = xmlnode_from_str(httpResponse, len)) == NULL) {
purple_debug_error("upnp",
"parse_description_response(): Could not parse xml root node\n");
return NULL;
}
/* get the baseURL of the device */
baseURL = NULL;
if((baseURLNode = xmlnode_get_child(xmlRootNode, "URLBase")) != NULL) {
baseURL = xmlnode_get_data(baseURLNode);
}
/* fixes upnp-descriptions with empty urlbase-element */
if(baseURL == NULL){
baseURL = g_strdup(httpURL);
}
/* get the serviceType child that has the service type as its data */
/* get urn:schemas-upnp-org:device:InternetGatewayDevice:1 and its devicelist */
serviceTypeNode = xmlnode_get_child(xmlRootNode, "device");
while(!purple_upnp_compare_device(serviceTypeNode,
"urn:schemas-upnp-org:device:InternetGatewayDevice:1") &&
serviceTypeNode != NULL) {
serviceTypeNode = xmlnode_get_next_twin(serviceTypeNode);
}
if(serviceTypeNode == NULL) {
purple_debug_error("upnp",
"parse_description_response(): could not get serviceTypeNode 1\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
serviceTypeNode = xmlnode_get_child(serviceTypeNode, "deviceList");
if(serviceTypeNode == NULL) {
purple_debug_error("upnp",
"parse_description_response(): could not get serviceTypeNode 2\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
/* get urn:schemas-upnp-org:device:WANDevice:1 and its devicelist */
serviceTypeNode = xmlnode_get_child(serviceTypeNode, "device");
while(!purple_upnp_compare_device(serviceTypeNode,
"urn:schemas-upnp-org:device:WANDevice:1") &&
serviceTypeNode != NULL) {
serviceTypeNode = xmlnode_get_next_twin(serviceTypeNode);
}
if(serviceTypeNode == NULL) {
purple_debug_error("upnp",
"parse_description_response(): could not get serviceTypeNode 3\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
serviceTypeNode = xmlnode_get_child(serviceTypeNode, "deviceList");
if(serviceTypeNode == NULL) {
purple_debug_error("upnp",
"parse_description_response(): could not get serviceTypeNode 4\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
/* get urn:schemas-upnp-org:device:WANConnectionDevice:1 and its servicelist */
serviceTypeNode = xmlnode_get_child(serviceTypeNode, "device");
while(serviceTypeNode && !purple_upnp_compare_device(serviceTypeNode,
"urn:schemas-upnp-org:device:WANConnectionDevice:1")) {
serviceTypeNode = xmlnode_get_next_twin(serviceTypeNode);
}
if(serviceTypeNode == NULL) {
purple_debug_error("upnp",
"parse_description_response(): could not get serviceTypeNode 5\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
serviceTypeNode = xmlnode_get_child(serviceTypeNode, "serviceList");
if(serviceTypeNode == NULL) {
purple_debug_error("upnp",
"parse_description_response(): could not get serviceTypeNode 6\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
/* get the serviceType variable passed to this function */
service = g_strdup_printf(SEARCH_REQUEST_DEVICE, serviceType);
serviceTypeNode = xmlnode_get_child(serviceTypeNode, "service");
while(!purple_upnp_compare_service(serviceTypeNode, service) &&
serviceTypeNode != NULL) {
serviceTypeNode = xmlnode_get_next_twin(serviceTypeNode);
}
g_free(service);
if(serviceTypeNode == NULL) {
purple_debug_error("upnp",
"parse_description_response(): could not get serviceTypeNode 7\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
/* get the controlURL of the service */
if((controlURLNode = xmlnode_get_child(serviceTypeNode,
"controlURL")) == NULL) {
purple_debug_error("upnp",
"parse_description_response(): Could not find controlURL\n");
g_free(baseURL);
xmlnode_free(xmlRootNode);
return NULL;
}
tmp = xmlnode_get_data(controlURLNode);
if(baseURL && !purple_str_has_prefix(tmp, "http://") &&
!purple_str_has_prefix(tmp, "HTTP://")) {
/* Handle absolute paths in a relative URL. This probably
* belongs in util.c. */
if (tmp[0] == '/') {
size_t length;
const char *path, *start = strstr(baseURL, "://");
start = start ? start + 3 : baseURL;
path = strchr(start, '/');
length = path ? path - baseURL : strlen(baseURL);
controlURL = g_strdup_printf("%.*s%s", (int)length, baseURL, tmp);
} else {
controlURL = g_strdup_printf("%s%s", baseURL, tmp);
}
g_free(tmp);
}else{
controlURL = tmp;
}
g_free(baseURL);
xmlnode_free(xmlRootNode);
return controlURL;
}
static void
upnp_parse_description_cb(PurpleHttpConnection *http_conn,
PurpleHttpResponse *response, gpointer _dd)
{
UPnPDiscoveryData *dd = _dd;
gchar *control_url = NULL;
if (response && purple_http_response_is_successfull(response)) {
const gchar *got_data;
size_t got_len;
got_data = purple_http_response_get_data(response, &got_len);
control_url = purple_upnp_parse_description_response(
got_data, got_len, dd->full_url, dd->service_type);
}
g_free(dd->full_url);
if(control_url == NULL) {
purple_debug_error("upnp",
"purple_upnp_parse_description(): control URL is NULL\n");
}
control_info.status = control_url ? PURPLE_UPNP_STATUS_DISCOVERED
: PURPLE_UPNP_STATUS_UNABLE_TO_DISCOVER;
control_info.lookup_time = time(NULL);
control_info.control_url = control_url;
g_strlcpy(control_info.service_type, dd->service_type,
sizeof(control_info.service_type));
fire_discovery_callbacks(control_url != NULL);
/* Look up the public and internal IPs */
if(control_url != NULL) {
lookup_public_ip();
lookup_internal_ip();
}
if (dd->inpa > 0)
purple_input_remove(dd->inpa);
if (dd->tima > 0)
purple_timeout_remove(dd->tima);
g_free(dd);
}
static void
purple_upnp_parse_description(const gchar* descriptionURL, UPnPDiscoveryData *dd)
{
PurpleHttpRequest *req;
PurpleHttpURL *url;
/* Remove the timeout because everything it is waiting for has
* successfully completed */
purple_timeout_remove(dd->tima);
dd->tima = 0;
/* Extract base url out of the descriptionURL.
* Example description URL: http://192.168.1.1:5678/rootDesc.xml
*/
url = purple_http_url_parse(descriptionURL);
if (!url) {
upnp_parse_description_cb(NULL, NULL, dd);
return;
}
dd->full_url = g_strdup_printf("http://%s:%d",
purple_http_url_get_host(url),
purple_http_url_get_port(url));
purple_http_url_free(url);
req = purple_http_request_new(descriptionURL);
purple_http_request_set_max_len(req, MAX_UPNP_DOWNLOAD);
purple_http_request(NULL, req, upnp_parse_description_cb, dd);
purple_http_request_unref(req);
}
static void
purple_upnp_parse_discover_response(const gchar* buf, unsigned int buf_len,
UPnPDiscoveryData *dd)
{
gchar* startDescURL;
gchar* endDescURL;
gchar* descURL;
if(g_strstr_len(buf, buf_len, HTTP_OK) == NULL) {
purple_debug_error("upnp",
"parse_discover_response(): Failed In HTTP_OK\n");
return;
}
if((startDescURL = g_strstr_len(buf, buf_len, "http://")) == NULL) {
purple_debug_error("upnp",
"parse_discover_response(): Failed In finding http://\n");
return;
}
endDescURL = g_strstr_len(startDescURL, buf_len - (startDescURL - buf),
"\r");
if(endDescURL == NULL) {
endDescURL = g_strstr_len(startDescURL,
buf_len - (startDescURL - buf), "\n");
if(endDescURL == NULL) {
purple_debug_error("upnp",
"parse_discover_response(): Failed In endDescURL\n");
return;
}
}
/* XXX: I'm not sure how this could ever happen */
if(endDescURL == startDescURL) {
purple_debug_error("upnp",
"parse_discover_response(): endDescURL == startDescURL\n");
return;
}
descURL = g_strndup(startDescURL, endDescURL - startDescURL);
purple_upnp_parse_description(descURL, dd);
g_free(descURL);
}
static gboolean
purple_upnp_discover_timeout(gpointer data)
{
UPnPDiscoveryData* dd = data;
if (dd->inpa)
purple_input_remove(dd->inpa);
if (dd->tima > 0)
purple_timeout_remove(dd->tima);
dd->inpa = 0;
dd->tima = 0;
if (dd->retry_count < NUM_UDP_ATTEMPTS) {
/* TODO: We probably shouldn't be incrementing retry_count in two places */
dd->retry_count++;
purple_upnp_discover_send_broadcast(dd);
} else {
if (dd->fd != -1)
close(dd->fd);
control_info.status = PURPLE_UPNP_STATUS_UNABLE_TO_DISCOVER;
control_info.lookup_time = time(NULL);
control_info.service_type[0] = '\0';
g_free(control_info.control_url);
control_info.control_url = NULL;
fire_discovery_callbacks(FALSE);
g_free(dd);
}
return FALSE;
}
static void
purple_upnp_discover_udp_read(gpointer data, gint sock, PurpleInputCondition cond)
{
int len;
UPnPDiscoveryData *dd = data;
gchar buf[65536];
do {
len = recv(dd->fd, buf,
sizeof(buf) - 1, 0);
if(len >= 0) {
buf[len] = '\0';
break;
} else if(errno != EINTR) {
/* We'll either get called again, or time out */
return;
}
} while (errno == EINTR);
purple_input_remove(dd->inpa);
dd->inpa = 0;
close(dd->fd);
dd->fd = -1;
/* parse the response, and see if it was a success */
purple_upnp_parse_discover_response(buf, len, dd);
/* We'll either time out or continue successfully */
}
static void
purple_upnp_discover_send_broadcast(UPnPDiscoveryData *dd)
{
gchar *sendMessage = NULL;
size_t totalSize;
gboolean sentSuccess;
/* because we are sending over UDP, if there is a failure
we should retry the send NUM_UDP_ATTEMPTS times. Also,
try different requests for WANIPConnection and WANPPPConnection*/
for(; dd->retry_count < NUM_UDP_ATTEMPTS; dd->retry_count++) {
sentSuccess = FALSE;
if((dd->retry_count % 2) == 0) {
g_strlcpy(dd->service_type, WAN_IP_CONN_SERVICE, sizeof(dd->service_type));
} else {
g_strlcpy(dd->service_type, WAN_PPP_CONN_SERVICE, sizeof(dd->service_type));
}
sendMessage = g_strdup_printf(SEARCH_REQUEST_STRING, dd->service_type);
totalSize = strlen(sendMessage);
do {
if(sendto(dd->fd, sendMessage, totalSize, 0,
(struct sockaddr*) &(dd->server),
sizeof(struct sockaddr_in)
) == totalSize) {
sentSuccess = TRUE;
break;
}
} while (errno == EINTR || errno == EAGAIN);
g_free(sendMessage);
if(sentSuccess) {
dd->tima = purple_timeout_add(DISCOVERY_TIMEOUT,
purple_upnp_discover_timeout, dd);
dd->inpa = purple_input_add(dd->fd, PURPLE_INPUT_READ,
purple_upnp_discover_udp_read, dd);
return;
}
}
/* We have already done all our retries. Make sure that the callback
* doesn't get called before the original function returns */
dd->tima = purple_timeout_add(10, purple_upnp_discover_timeout, dd);
}
void
purple_upnp_discover(PurpleUPnPCallback cb, gpointer cb_data)
{
/* Socket Setup Variables */
int sock;
struct hostent* hp;
/* UDP RECEIVE VARIABLES */
UPnPDiscoveryData *dd;
if (control_info.status == PURPLE_UPNP_STATUS_DISCOVERING) {
if (cb) {
discovery_callbacks = g_slist_append(
discovery_callbacks, cb);
discovery_callbacks = g_slist_append(
discovery_callbacks, cb_data);
}
return;
}
dd = g_new0(UPnPDiscoveryData, 1);
if (cb) {
discovery_callbacks = g_slist_append(discovery_callbacks, cb);
discovery_callbacks = g_slist_append(discovery_callbacks,
cb_data);
}
/* Set up the sockets */
dd->fd = sock = socket(AF_INET, SOCK_DGRAM, 0);
if(sock == -1) {
purple_debug_error("upnp",
"purple_upnp_discover(): Failed In sock creation\n");
/* Short circuit the retry attempts */
dd->retry_count = NUM_UDP_ATTEMPTS;
dd->tima = purple_timeout_add(10, purple_upnp_discover_timeout, dd);
return;
}
/* TODO: Non-blocking! */
if((hp = gethostbyname(HTTPMU_HOST_ADDRESS)) == NULL) {
purple_debug_error("upnp",
"purple_upnp_discover(): Failed In gethostbyname\n");
/* Short circuit the retry attempts */
dd->retry_count = NUM_UDP_ATTEMPTS;
dd->tima = purple_timeout_add(10, purple_upnp_discover_timeout, dd);
return;
}
memset(&(dd->server), 0, sizeof(struct sockaddr));
dd->server.sin_family = AF_INET;
memcpy(&(dd->server.sin_addr), hp->h_addr_list[0], hp->h_length);
dd->server.sin_port = htons(HTTPMU_HOST_PORT);
control_info.status = PURPLE_UPNP_STATUS_DISCOVERING;
purple_upnp_discover_send_broadcast(dd);
}
static PurpleHttpConnection*
purple_upnp_generate_action_message_and_send(const gchar* actionName,
const gchar* actionParams, PurpleHttpCallback cb,
gpointer cb_data)
{
PurpleHttpConnection *hc;
PurpleHttpRequest *req;
gchar* soapMessage;
/* set the soap message */
soapMessage = g_strdup_printf(SOAP_ACTION, actionName,
control_info.service_type, actionParams, actionName);
req = purple_http_request_new(control_info.control_url);
purple_http_request_set_max_len(req, MAX_UPNP_DOWNLOAD);
purple_http_request_set_method(req, "POST");
purple_http_request_header_set_printf(req, "SOAPAction",
"\"urn:schemas-upnp-org:service:%s#%s\"",
control_info.service_type, actionName);
purple_http_request_header_set(req, "Content-Type",
"text/xml; charset=utf-8");
purple_http_request_set_contents(req, soapMessage, -1);
hc = purple_http_request(NULL, req, cb, cb_data);
purple_http_request_unref(req);
g_free(soapMessage);
return hc;
}
const gchar *
purple_upnp_get_public_ip()
{
if (control_info.status == PURPLE_UPNP_STATUS_DISCOVERED
&& *control_info.publicip)
return control_info.publicip;
/* Trigger another UPnP discovery if 5 minutes have elapsed since the
* last one, and it wasn't successful */
if (control_info.status < PURPLE_UPNP_STATUS_DISCOVERING
&& (time(NULL) - control_info.lookup_time) > 300)
purple_upnp_discover(NULL, NULL);
return NULL;
}
static void
looked_up_public_ip_cb(PurpleHttpConnection *http_conn,
PurpleHttpResponse *response, gpointer user_data)
{
gchar* temp, *temp2;
const gchar *got_data;
size_t got_len;
if (!purple_http_response_is_successfull(response))
return;
/* extract the ip, or see if there is an error */
got_data = purple_http_response_get_data(response, &got_len);
if((temp = g_strstr_len(got_data, got_len,
""))) {
purple_debug_error("upnp",
"looked_up_public_ip_cb(): Failed In Finding >\n");
return;
}
if(!(temp2 = g_strstr_len(temp, got_len - (temp - got_data), "<"))) {
purple_debug_error("upnp",
"looked_up_public_ip_cb(): Failed In Finding <\n");
return;
}
*temp2 = '\0';
g_strlcpy(control_info.publicip, temp + 1,
sizeof(control_info.publicip));
purple_debug_info("upnp", "NAT Returned IP: %s\n", control_info.publicip);
}
static void
lookup_public_ip()
{
purple_upnp_generate_action_message_and_send("GetExternalIPAddress", "",
looked_up_public_ip_cb, NULL);
}
/* TODO: This could be exported */
static const gchar *
purple_upnp_get_internal_ip(void)
{
if (control_info.status == PURPLE_UPNP_STATUS_DISCOVERED
&& *control_info.internalip)
return control_info.internalip;
/* Trigger another UPnP discovery if 5 minutes have elapsed since the
* last one, and it wasn't successful */
if (control_info.status < PURPLE_UPNP_STATUS_DISCOVERING
&& (time(NULL) - control_info.lookup_time) > 300)
purple_upnp_discover(NULL, NULL);
return NULL;
}
static void
looked_up_internal_ip_cb(gpointer data, gint source, const gchar *error_message)
{
if (source != -1) {
g_strlcpy(control_info.internalip,
purple_network_get_local_system_ip(source),
sizeof(control_info.internalip));
purple_debug_info("upnp", "Local IP: %s\n",
control_info.internalip);
close(source);
} else
purple_debug_error("upnp", "Unable to look up local IP\n");
}
static void
lookup_internal_ip()
{
PurpleHttpURL *url;
url = purple_http_url_parse(control_info.control_url);
if (!url) {
purple_debug_error("upnp",
"lookup_internal_ip(): Failed In Parse URL\n");
return;
}
if(purple_proxy_connect(NULL, NULL, purple_http_url_get_host(url),
purple_http_url_get_port(url), looked_up_internal_ip_cb,
NULL) == NULL)
{
purple_debug_error("upnp", "Get Local IP Connect Failed: "
"Address: %s @@@ Port %d\n",
purple_http_url_get_host(url),
purple_http_url_get_port(url));
}
purple_http_url_free(url);
}
static void
done_port_mapping_cb(PurpleHttpConnection *http_conn,
PurpleHttpResponse *response, gpointer user_data)
{
UPnPMappingAddRemove *ar = user_data;
gboolean success = TRUE;
/* determine if port mapping was a success */
if (!purple_http_response_is_successfull(response))
{
purple_debug_error("upnp",
"purple_upnp_set_port_mapping(): Failed HTTP_OK\n%s\n",
purple_http_response_get_error(response));
success = FALSE;
} else
purple_debug_info("upnp", "Successfully completed port mapping operation\n");
ar->success = success;
ar->tima = purple_timeout_add(0, fire_ar_cb_async_and_free, ar);
}
static void
do_port_mapping_cb(gboolean has_control_mapping, gpointer data)
{
UPnPMappingAddRemove *ar = data;
if (has_control_mapping) {
gchar action_name[25];
gchar *action_params;
if(ar->add) {
const gchar *internal_ip;
/* get the internal IP */
if(!(internal_ip = purple_upnp_get_internal_ip())) {
purple_debug_error("upnp",
"purple_upnp_set_port_mapping(): couldn't get local ip\n");
ar->success = FALSE;
ar->tima = purple_timeout_add(0, fire_ar_cb_async_and_free, ar);
return;
}
strncpy(action_name, "AddPortMapping",
sizeof(action_name));
action_params = g_strdup_printf(
ADD_PORT_MAPPING_PARAMS,
ar->portmap, ar->protocol, ar->portmap,
internal_ip);
} else {
strncpy(action_name, "DeletePortMapping", sizeof(action_name));
action_params = g_strdup_printf(
DELETE_PORT_MAPPING_PARAMS,
ar->portmap, ar->protocol);
}
ar->hc = purple_upnp_generate_action_message_and_send(
action_name, action_params, done_port_mapping_cb, ar);
g_free(action_params);
return;
}
ar->success = FALSE;
ar->tima = purple_timeout_add(0, fire_ar_cb_async_and_free, ar);
}
static gboolean
fire_port_mapping_failure_cb(gpointer data)
{
UPnPMappingAddRemove *ar = data;
ar->tima = 0;
do_port_mapping_cb(FALSE, data);
return FALSE;
}
void purple_upnp_cancel_port_mapping(UPnPMappingAddRemove *ar)
{
GSList *l;
/* Remove ar from discovery_callbacks if present; it was inserted after a cb.
* The same cb may be in the list multiple times, so be careful to remove
* the one associated with ar. */
l = discovery_callbacks;
while (l)
{
GSList *next = l->next;
if (next && (next->data == ar)) {
discovery_callbacks = g_slist_delete_link(discovery_callbacks, next);
next = l->next;
discovery_callbacks = g_slist_delete_link(discovery_callbacks, l);
}
l = next;
}
if (ar->tima > 0)
purple_timeout_remove(ar->tima);
purple_http_conn_cancel(ar->hc);
g_free(ar);
}
UPnPMappingAddRemove *
purple_upnp_set_port_mapping(unsigned short portmap, const gchar* protocol,
PurpleUPnPCallback cb, gpointer cb_data)
{
UPnPMappingAddRemove *ar;
ar = g_new0(UPnPMappingAddRemove, 1);
ar->cb = cb;
ar->cb_data = cb_data;
ar->add = TRUE;
ar->portmap = portmap;
g_strlcpy(ar->protocol, protocol, sizeof(ar->protocol));
/* If we're waiting for a discovery, add to the callbacks list */
if(control_info.status == PURPLE_UPNP_STATUS_DISCOVERING) {
/* TODO: This will fail because when this cb is triggered,
* the internal IP lookup won't be complete */
discovery_callbacks = g_slist_append(
discovery_callbacks, do_port_mapping_cb);
discovery_callbacks = g_slist_append(
discovery_callbacks, ar);
return ar;
}
/* If we haven't had a successful UPnP discovery, check if 5 minutes has
* elapsed since the last try, try again */
if(control_info.status == PURPLE_UPNP_STATUS_UNDISCOVERED ||
(control_info.status == PURPLE_UPNP_STATUS_UNABLE_TO_DISCOVER
&& (time(NULL) - control_info.lookup_time) > 300)) {
purple_upnp_discover(do_port_mapping_cb, ar);
return ar;
} else if(control_info.status == PURPLE_UPNP_STATUS_UNABLE_TO_DISCOVER) {
if (cb) {
/* Asynchronously trigger a failed response */
ar->tima = purple_timeout_add(10, fire_port_mapping_failure_cb, ar);
} else {
/* No need to do anything if nobody expects a response*/
g_free(ar);
ar = NULL;
}
return ar;
}
do_port_mapping_cb(TRUE, ar);
return ar;
}
UPnPMappingAddRemove *
purple_upnp_remove_port_mapping(unsigned short portmap, const char* protocol,
PurpleUPnPCallback cb, gpointer cb_data)
{
UPnPMappingAddRemove *ar;
ar = g_new0(UPnPMappingAddRemove, 1);
ar->cb = cb;
ar->cb_data = cb_data;
ar->add = FALSE;
ar->portmap = portmap;
g_strlcpy(ar->protocol, protocol, sizeof(ar->protocol));
/* If we're waiting for a discovery, add to the callbacks list */
if(control_info.status == PURPLE_UPNP_STATUS_DISCOVERING) {
discovery_callbacks = g_slist_append(
discovery_callbacks, do_port_mapping_cb);
discovery_callbacks = g_slist_append(
discovery_callbacks, ar);
return ar;
}
/* If we haven't had a successful UPnP discovery, check if 5 minutes has
* elapsed since the last try, try again */
if(control_info.status == PURPLE_UPNP_STATUS_UNDISCOVERED ||
(control_info.status == PURPLE_UPNP_STATUS_UNABLE_TO_DISCOVER
&& (time(NULL) - control_info.lookup_time) > 300)) {
purple_upnp_discover(do_port_mapping_cb, ar);
return ar;
} else if(control_info.status == PURPLE_UPNP_STATUS_UNABLE_TO_DISCOVER) {
if (cb) {
/* Asynchronously trigger a failed response */
ar->tima = purple_timeout_add(10, fire_port_mapping_failure_cb, ar);
} else {
/* No need to do anything if nobody expects a response*/
g_free(ar);
ar = NULL;
}
return ar;
}
do_port_mapping_cb(TRUE, ar);
return ar;
}
static void
purple_upnp_network_config_changed_cb(void *data)
{
/* Reset the control_info to default values */
control_info.status = PURPLE_UPNP_STATUS_UNDISCOVERED;
g_free(control_info.control_url);
control_info.control_url = NULL;
control_info.service_type[0] = '\0';
control_info.publicip[0] = '\0';
control_info.internalip[0] = '\0';
control_info.lookup_time = 0;
}
static void*
purple_upnp_get_handle(void)
{
static int handle;
return &handle;
}
void
purple_upnp_init()
{
purple_signal_connect(purple_network_get_handle(), "network-configuration-changed",
purple_upnp_get_handle(), PURPLE_CALLBACK(purple_upnp_network_config_changed_cb),
NULL);
}