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sems/apps/dsm/DSMCall.cpp

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/*
* $Id$
*
* Copyright (C) 2008 iptego GmbH
*
* This file is part of SEMS, a free SIP media server.
*
* sems 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
*
* For a license to use the SEMS software under conditions
* other than those described here, or to purchase support for this
* software, please contact iptel.org by e-mail at the following addresses:
* info@iptel.org
*
* SEMS 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "DSMCall.h"
#include "AmUtils.h"
#include "AmMediaProcessor.h"
#include "DSM.h"
DSMCall::DSMCall(const DSMScriptConfig& config,
AmPromptCollection* prompts,
DSMStateDiagramCollection& diags,
const string& startDiagName,
UACAuthCred* credentials)
:
run_invite_event(config.RunInviteEvent),
prompts(prompts), default_prompts(prompts), startDiagName(startDiagName),
playlist(this), cred(credentials),
rec_file(NULL),
process_invite(true), process_sessionstart(true)
{
diags.addToEngine(&engine);
set_sip_relay_only(false);
}
DSMCall::~DSMCall()
{
for (std::set<DSMDisposable*>::iterator it=
gc_trash.begin(); it != gc_trash.end(); it++)
delete *it;
for (vector<AmAudio*>::iterator it=
audiofiles.begin();it!=audiofiles.end();it++)
delete *it;
used_prompt_sets.insert(prompts);
for (set<AmPromptCollection*>::iterator it=
used_prompt_sets.begin(); it != used_prompt_sets.end(); it++)
(*it)->cleanup((long)this);
}
/** returns whether var exists && var==value*/
bool DSMCall::checkVar(const string& var_name, const string& var_val) {
map<string, string>::iterator it = var.find(var_name);
if ((it != var.end()) && (it->second == var_val))
return true;
return false;
}
void DSMCall::onInvite(const AmSipRequest& req) {
// make B2B dialogs work in onInvite as well
invite_req = req;
if (!process_invite) {
// re-INVITEs
AmB2BCallerSession::onInvite(req);
return;
}
process_invite = false;
bool run_session_invite = engine.onInvite(req, this);
if (run_invite_event) {
if (!engine.init(this, startDiagName, DSMCondition::Invite))
run_session_invite =false;
if (checkVar(DSM_CONNECT_SESSION, DSM_CONNECT_SESSION_FALSE)) {
DBG("session choose to not connect media\n");
run_session_invite = false; // don't accept audio
}
}
if (run_session_invite)
AmB2BCallerSession::onInvite(req);
}
void DSMCall::onOutgoingInvite(const string& headers) {
if (!process_invite) {
// re-INVITE sent out
return;
}
process_invite = false;
// TODO: construct correct request of outgoing INVITE
AmSipRequest req;
req.hdrs = headers;
bool run_session_invite = engine.onInvite(req, this);
if (run_invite_event) {
if (!engine.init(this, startDiagName, DSMCondition::Invite))
run_session_invite =false;
if (checkVar(DSM_CONNECT_SESSION, DSM_CONNECT_SESSION_FALSE)) {
DBG("session choose to not connect media\n");
// TODO: set flag to not connect RTP on session start
run_session_invite = false; // don't accept audio
}
}
}
void DSMCall::onSessionStart(const AmSipRequest& req)
{
if (process_sessionstart) {
process_sessionstart = false;
AmB2BCallerSession::onSessionStart(req);
DBG("DSMCall::onSessionStart\n");
startSession();
}
}
void DSMCall::onSessionStart(const AmSipReply& rep)
{
if (process_sessionstart) {
process_sessionstart = false;
DBG("DSMCall::onSessionStart (SEMS originator mode)\n");
invite_req.body = rep.body;
startSession();
}
}
void DSMCall::startSession(){
engine.init(this, startDiagName, DSMCondition::SessionStart);
setReceiving(true);
if (!checkVar(DSM_CONNECT_SESSION, DSM_CONNECT_SESSION_FALSE)) {
if (!getInput())
setInput(&playlist);
setOutput(&playlist);
}
}
void DSMCall::connectMedia() {
if (!getInput())
setInput(&playlist);
setOutput(&playlist);
AmMediaProcessor::instance()->addSession(this, callgroup);
}
void DSMCall::disconnectMedia() {
AmMediaProcessor::instance()->removeSession(this);
}
void DSMCall::mute() {
setMute(true);
}
void DSMCall::unmute() {
setMute(false);
}
void DSMCall::onDtmf(int event, int duration_msec) {
DBG("* Got DTMF key %d duration %d\n",
event, duration_msec);
map<string, string> params;
params["key"] = int2str(event);
params["duration"] = int2str(duration_msec);
engine.runEvent(this, DSMCondition::Key, &params);
}
void DSMCall::onBye(const AmSipRequest& req)
{
DBG("onBye\n");
map<string, string> params;
params["headers"] = req.hdrs;
engine.runEvent(this, DSMCondition::Hangup, &params);
}
void DSMCall::onCancel() {
DBG("onCancel\n");
if (dlg.getStatus() < AmSipDialog::Connected)
engine.runEvent(this, DSMCondition::Hangup, NULL);
else {
DBG("ignoring onCancel event in established dialog\n");
}
}
void DSMCall::process(AmEvent* event)
{
if (event->event_id == DSM_EVENT_ID) {
DSMEvent* dsm_event = dynamic_cast<DSMEvent*>(event);
if (dsm_event) {
engine.runEvent(this, DSMCondition::DSMEvent, &dsm_event->params);
return;
}
}
AmAudioEvent* audio_event = dynamic_cast<AmAudioEvent*>(event);
if(audio_event &&
((audio_event->event_id == AmAudioEvent::cleared) ||
(audio_event->event_id == AmAudioEvent::noAudio))){
map<string, string> params;
params["type"] = audio_event->event_id == AmAudioEvent::cleared?"cleared":"noAudio";
engine.runEvent(this, DSMCondition::NoAudio, &params);
return;
}
AmPluginEvent* plugin_event = dynamic_cast<AmPluginEvent*>(event);
if(plugin_event && plugin_event->name == "timer_timeout") {
int timer_id = plugin_event->data.get(0).asInt();
map<string, string> params;
params["id"] = int2str(timer_id);
engine.runEvent(this, DSMCondition::Timer, &params);
}
AmPlaylistSeparatorEvent* sep_ev = dynamic_cast<AmPlaylistSeparatorEvent*>(event);
if (sep_ev) {
map<string, string> params;
params["id"] = int2str(sep_ev->event_id);
engine.runEvent(this, DSMCondition::PlaylistSeparator, &params);
}
AmB2BCallerSession::process(event);
}
inline UACAuthCred* DSMCall::getCredentials() {
return cred.get();
}
void DSMCall::playPrompt(const string& name, bool loop) {
DBG("playing prompt '%s'\n", name.c_str());
if (prompts->addToPlaylist(name, (long)this, playlist,
/*front =*/ false, loop)) {
if ((var["prompts.default_fallback"] != "yes") ||
default_prompts->addToPlaylist(name, (long)this, playlist,
/*front =*/ false, loop)) {
DBG("checked [%p]\n", default_prompts);
throw DSMException("prompt", "name", name);
} else {
used_prompt_sets.insert(default_prompts);
CLR_ERRNO;
}
} else {
CLR_ERRNO;
}
}
void DSMCall::closePlaylist(bool notify) {
DBG("close playlist\n");
playlist.close(notify);
}
void DSMCall::addToPlaylist(AmPlaylistItem* item) {
DBG("add item to playlist\n");
playlist.addToPlaylist(item);
}
void DSMCall::playFile(const string& name, bool loop, bool front) {
AmAudioFile* af = new AmAudioFile();
if(af->open(name,AmAudioFile::Read)) {
ERROR("audio file '%s' could not be opened for reading.\n",
name.c_str());
delete af;
throw DSMException("file", "path", name);
return;
}
if (loop)
af->loop.set(true);
if (front)
playlist.addToPlayListFront(new AmPlaylistItem(af, NULL));
else
playlist.addToPlaylist(new AmPlaylistItem(af, NULL));
audiofiles.push_back(af);
CLR_ERRNO;
}
void DSMCall::recordFile(const string& name) {
if (rec_file)
stopRecord();
DBG("start record to '%s'\n", name.c_str());
rec_file = new AmAudioFile();
if(rec_file->open(name,AmAudioFile::Write)) {
ERROR("audio file '%s' could not be opened for recording.\n",
name.c_str());
delete rec_file;
rec_file = NULL;
throw DSMException("file", "path", name);
return;
}
setInput(rec_file);
CLR_ERRNO;
}
unsigned int DSMCall::getRecordLength() {
if (!rec_file) {
SET_ERRNO(DSM_ERRNO_SCRIPT);
SET_STRERROR("getRecordLength used while not recording.");
return 0;
}
CLR_ERRNO;
return rec_file->getLength();
}
unsigned int DSMCall::getRecordDataSize() {
if (!rec_file) {
SET_ERRNO(DSM_ERRNO_SCRIPT);
SET_STRERROR("getRecordDataSize used while not recording.");
return 0;
}
CLR_ERRNO;
return rec_file->getDataSize();
}
void DSMCall::stopRecord() {
if (rec_file) {
setInput(&playlist);
rec_file->close();
delete rec_file;
rec_file = NULL;
CLR_ERRNO;
} else {
WARN("stopRecord: we are not recording\n");
SET_ERRNO(DSM_ERRNO_SCRIPT);
SET_STRERROR("stopRecord used while not recording.");
return;
}
}
void DSMCall::addPromptSet(const string& name,
AmPromptCollection* prompt_set) {
if (prompt_set) {
DBG("adding prompt set '%s'\n", name.c_str());
prompt_sets[name] = prompt_set;
CLR_ERRNO;
} else {
ERROR("trying to add NULL prompt set\n");
SET_ERRNO(DSM_ERRNO_INTERNAL);
SET_STRERROR("trying to add NULL prompt set\n");
}
}
void DSMCall::setPromptSets(map<string, AmPromptCollection*>&
new_prompt_sets) {
prompt_sets = new_prompt_sets;
}
void DSMCall::setPromptSet(const string& name) {
map<string, AmPromptCollection*>::iterator it =
prompt_sets.find(name);
if (it == prompt_sets.end()) {
ERROR("prompt set %s unknown\n", name.c_str());
throw DSMException("prompt", "name", name);
return;
}
DBG("setting prompt set '%s'\n", name.c_str());
used_prompt_sets.insert(prompts);
prompts = it->second;
CLR_ERRNO;
}
void DSMCall::addSeparator(const string& name, bool front) {
unsigned int id = 0;
if (str2i(name, id)) {
SET_ERRNO(DSM_ERRNO_UNKNOWN_ARG);
SET_STRERROR("separator id '"+name+"' not a number");
return;
}
AmPlaylistSeparator* sep = new AmPlaylistSeparator(this, id);
if (front)
playlist.addToPlayListFront(new AmPlaylistItem(sep, sep));
else
playlist.addToPlaylist(new AmPlaylistItem(sep, sep));
// for garbage collector
audiofiles.push_back(sep);
CLR_ERRNO;
}
void DSMCall::transferOwnership(DSMDisposable* d) {
gc_trash.insert(d);
}
// AmB2BSession methods
void DSMCall::onOtherBye(const AmSipRequest& req) {
DBG("* Got BYE from other leg\n");
map<string, string> params;
params["hdrs"] = req.hdrs; // todo: optimization - make this configurable
engine.runEvent(this, DSMCondition::B2BOtherBye, &params);
}
bool DSMCall::onOtherReply(const AmSipReply& reply) {
DBG("* Got reply from other leg: %u %s\n",
reply.code, reply.reason.c_str());
map<string, string> params;
params["code"] = int2str(reply.code);
params["reason"] = reply.reason;
params["hdrs"] = reply.hdrs; // todo: optimization - make this configurable
engine.runEvent(this, DSMCondition::B2BOtherReply, &params);
return false;
}
void DSMCall::B2BterminateOtherLeg() {
terminateOtherLeg();
}
void DSMCall::B2BconnectCallee(const string& remote_party,
const string& remote_uri,
bool relayed_invite) {
connectCallee(remote_party, remote_uri, relayed_invite);
}
void DSMCall::B2BaddReceivedRequest(const AmSipRequest& req) {
DBG("inserting request '%s' with CSeq %d in list of received requests\n",
req.method.c_str(), req.cseq);
recvd_req.insert(std::make_pair(req.cseq, req));
}
void DSMCall::B2BsetHeaders(const string& hdr, bool replaceCRLF) {
if (!replaceCRLF) {
invite_req.hdrs = hdr;
} else {
string hdr_crlf = hdr;
DBG("hdr_crlf is '%s'\n", hdr_crlf.c_str());
while (true) {
size_t p = hdr_crlf.find("\\r\\n");
if (p==string::npos)
break;
hdr_crlf.replace(p, 4, "\r\n");
}
DBG("-> hdr_crlf is '%s'\n", hdr_crlf.c_str());
invite_req.hdrs += hdr_crlf;
}
// add \r\n if not in header
if (invite_req.hdrs.length()>2 &&
invite_req.hdrs.substr(invite_req.hdrs.length()-2) != "\r\n")
invite_req.hdrs+="\r\n";
}
void DSMCall::B2BaddHeader(const string& hdr) {
invite_req.hdrs +=hdr;
// add \r\n if not in header
if (invite_req.hdrs.length()>2 &&
invite_req.hdrs.substr(invite_req.hdrs.length()-2) != "\r\n")
invite_req.hdrs+="\r\n";
}
void DSMCall::B2BclearHeaders() {
invite_req.hdrs.clear();
}
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