/** * @file llvoicevivox.h * @brief Declaration of LLDiamondwareVoiceClient class which is the interface to the voice client process. * * $LicenseInfo:firstyear=2001&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #ifndef LL_VOICE_VIVOX_H #define LL_VOICE_VIVOX_H class LLVOAvatar; class LLVivoxProtocolParser; #include "lliopipe.h" #include "llpumpio.h" #include "llchainio.h" #include "lliosocket.h" #include "v3math.h" #include "llframetimer.h" #include "llviewerregion.h" #include "llcallingcard.h" // for LLFriendObserver #include "lleventcoro.h" #include "llcoros.h" #include #ifdef LL_USESYSTEMLIBS # include "expat.h" #else # include "expat/expat.h" #endif #include "llvoiceclient.h" class LLAvatarName; class LLVivoxVoiceClientMuteListObserver; extern const std::string VIVOX_VOICE_SERVER_TYPE; class LLVivoxVoiceP2PIncomingCall : public LLVoiceP2PIncomingCallInterface { public: LLVivoxVoiceP2PIncomingCall(const LLSD& call_info) : mCallInfo(call_info) {} ~LLVivoxVoiceP2PIncomingCall() override {} bool answerInvite() override; void declineInvite() override; protected: LLSD mCallInfo; }; class LLVivoxVoiceClient : public LLSingleton, virtual public LLVoiceModuleInterface, virtual public LLVoiceEffectInterface, virtual public LLVoiceP2POutgoingCallInterface { LLSINGLETON(LLVivoxVoiceClient); LOG_CLASS(LLVivoxVoiceClient); virtual ~LLVivoxVoiceClient(); public: /// @name LLVoiceModuleInterface virtual implementations /// @see LLVoiceModuleInterface //@{ void init(LLPumpIO *pump) override; // Call this once at application startup (creates connector) void terminate() override; // Call this to clean up during shutdown const LLVoiceVersionInfo& getVersion() override; void updateSettings() override; // call after loading settings and whenever they change // Returns true if vivox has successfully logged in and is not in error state bool isVoiceWorking() const override; void setHidden(bool hidden) override; // virtual ///////////////////// /// @name Tuning //@{ void tuningStart() override; void tuningStop() override; bool inTuningMode() override; void tuningSetMicVolume(float volume) override; void tuningSetSpeakerVolume(float volume) override; float tuningGetEnergy(void) override; //@} ///////////////////// /// @name Devices //@{ // This returns true when it's safe to bring up the "device settings" dialog in the prefs. // i.e. when the daemon is running and connected, and the device lists are populated. bool deviceSettingsAvailable() override; bool deviceSettingsUpdated() override; //return if the list has been updated and never fetched, only to be called from the voicepanel. // Requery the vivox daemon for the current list of input/output devices. // If you pass true for clearCurrentList, deviceSettingsAvailable() will be false until the query has completed // (use this if you want to know when it's done). // If you pass false, you'll have no way to know when the query finishes, but the device lists will not appear empty in the interim. void refreshDeviceLists(bool clearCurrentList = true) override; void setCaptureDevice(const std::string& name) override; void setRenderDevice(const std::string& name) override; bool isCaptureNoDevice() override { return false; }; bool isRenderNoDevice() override { return false; }; LLVoiceDeviceList& getCaptureDevices() override; LLVoiceDeviceList& getRenderDevices() override; //@} void getParticipantList(std::set &participants) override; bool isParticipant(const LLUUID& speaker_id) override; // Send a text message to the specified user, initiating the session if necessary. // virtual bool sendTextMessage(const LLUUID& participant_id, const std::string& message) const {return false;}; // Returns true if calling back the session URI after the session has closed is possible. // Currently this will be false only for PSTN P2P calls. // NOTE: this will return true if the session can't be found. bool isSessionCallBackPossible(const LLUUID &session_id) override; // Returns true if the session can accepte text IM's. // Currently this will be false only for PSTN P2P calls. // NOTE: this will return true if the session can't be found. bool isSessionTextIMPossible(const LLUUID &session_id) override; //////////////////////////// /// @name Channel stuff //@{ // returns true iff the user is currently in a proximal (local spatial) channel. // Note that gestures should only fire if this returns true. bool inProximalChannel() override; void setNonSpatialChannel(const LLSD& channelInfo, bool notify_on_first_join, bool hangup_on_last_leave) override; bool setSpatialChannel(const LLSD& channelInfo) override; void leaveNonSpatialChannel() override; void processChannels(bool process) override; void leaveChannel(void); bool isCurrentChannel(const LLSD &channelInfo) override; bool compareChannels(const LLSD &channelInfo1, const LLSD &channelInfo2) override; //@} ////////////////////////// /// @name LLVoiceP2POutgoingCallInterface //@{ // start a voice channel with the specified user void callUser(const LLUUID &uuid) override; void hangup() override; //@} LLVoiceP2POutgoingCallInterface *getOutgoingCallInterface() override { return this; } LLVoiceP2PIncomingCallInterfacePtr getIncomingCallInterface(const LLSD &voice_call_info) override; bool answerInvite(const std::string &sessionHandle); void declineInvite(const std::string &sessionHandle); ///////////////////////// /// @name Volume/gain //@{ void setVoiceVolume(F32 volume) override; void setMicGain(F32 volume) override; //@} ///////////////////////// /// @name enable disable voice and features //@{ void setVoiceEnabled(bool enabled) override; void setMuteMic(bool muted) override; // Set the mute state of the local mic. //@} ////////////////////////// /// @name nearby speaker accessors //@{ std::string getDisplayName(const LLUUID& id) override; bool isParticipantAvatar(const LLUUID &id) override; bool getIsSpeaking(const LLUUID& id) override; bool getIsModeratorMuted(const LLUUID& id) override; F32 getCurrentPower(const LLUUID& id) override; // "power" is related to "amplitude" in a defined way. I'm just not sure what the formula is... F32 getUserVolume(const LLUUID& id) override; void setUserVolume(const LLUUID& id, F32 volume) override; // set's volume for specified agent, from 0-1 (where .5 is nominal) //@} // authorize the user void userAuthorized(const std::string& user_id, const LLUUID &agentID) override; ////////////////////////////// /// @name Status notification //@{ void addObserver(LLVoiceClientStatusObserver* observer) override; void removeObserver(LLVoiceClientStatusObserver* observer) override; void addObserver(LLFriendObserver* observer) override; void removeObserver(LLFriendObserver* observer) override; void addObserver(LLVoiceClientParticipantObserver* observer) override; void removeObserver(LLVoiceClientParticipantObserver* observer) override; //@} std::string sipURIFromID(const LLUUID &id) const override; LLSD getP2PChannelInfoTemplate(const LLUUID& id) const override; //@} /// @name LLVoiceEffectInterface virtual implementations /// @see LLVoiceEffectInterface //@{ ////////////////////////// /// @name Accessors //@{ bool setVoiceEffect(const LLUUID& id) override; const LLUUID getVoiceEffect() override; LLSD getVoiceEffectProperties(const LLUUID& id) override; void refreshVoiceEffectLists(bool clear_lists) override; const voice_effect_list_t& getVoiceEffectList() const override; const voice_effect_list_t& getVoiceEffectTemplateList() const override; //@} ////////////////////////////// /// @name Status notification //@{ void addObserver(LLVoiceEffectObserver* observer) override; void removeObserver(LLVoiceEffectObserver* observer) override; //@} ////////////////////////////// /// @name Effect preview buffer //@{ void enablePreviewBuffer(bool enable) override; void recordPreviewBuffer() override; void playPreviewBuffer(const LLUUID& effect_id = LLUUID::null) override; void stopPreviewBuffer() override; bool isPreviewRecording() override; bool isPreviewPlaying() override; //@} //@} bool onCheckVoiceEffect(const std::string& voice_effect_name); void onClickVoiceEffect(const std::string& voice_effect_name); protected: ////////////////////// // Vivox Specific definitions friend class LLVivoxVoiceClientMuteListObserver; friend class LLVivoxVoiceClientFriendsObserver; enum streamState { streamStateUnknown = 0, streamStateIdle = 1, streamStateConnected = 2, streamStateRinging = 3, streamStateConnecting = 6, // same as Vivox session_media_connecting enum streamStateDisconnecting = 7, //Same as Vivox session_media_disconnecting enum }; struct participantState { public: participantState(const std::string &uri); bool updateMuteState(); // true if mute state has changed bool isAvatar(); std::string mURI; LLUUID mAvatarID; std::string mAccountName; std::string mDisplayName; LLFrameTimer mSpeakingTimeout; F32 mLastSpokeTimestamp; F32 mPower; F32 mVolume; std::string mGroupID; int mUserVolume; bool mPTT; bool mIsSpeaking; bool mIsModeratorMuted; bool mOnMuteList; // true if this avatar is on the user's mute list (and should be muted) bool mVolumeSet; // true if incoming volume messages should not change the volume bool mVolumeDirty; // true if this participant needs a volume command sent (either mOnMuteList or mUserVolume has changed) bool mAvatarIDValid; bool mIsSelf; }; typedef std::shared_ptr participantStatePtr_t; typedef std::weak_ptr participantStateWptr_t; typedef std::map participantMap; typedef std::map participantUUIDMap; struct sessionState { public: typedef std::shared_ptr ptr_t; typedef std::weak_ptr wptr_t; typedef std::function sessionFunc_t; static ptr_t createSession(); ~sessionState(); LLSD getVoiceChannelInfo(); participantStatePtr_t addParticipant(const std::string &uri); void removeParticipant(const participantStatePtr_t &participant); void removeAllParticipants(); participantStatePtr_t findParticipant(const std::string &uri); participantStatePtr_t findParticipantByID(const LLUUID& id); static ptr_t matchSessionByHandle(const std::string &handle); static ptr_t matchCreatingSessionByURI(const std::string &uri); static ptr_t matchSessionByURI(const std::string &uri); static ptr_t matchSessionByParticipant(const LLUUID &participant_id); bool isCallBackPossible(); bool isTextIMPossible(); bool isSpatial() { return mIsSpatial; } static void for_each(sessionFunc_t func); std::string mHandle; std::string mGroupHandle; std::string mSIPURI; std::string mAlias; std::string mName; std::string mAlternateSIPURI; std::string mHash; // Channel password std::string mErrorStatusString; std::queue mTextMsgQueue; LLUUID mIMSessionID; LLUUID mCallerID; int mErrorStatusCode; int mMediaStreamState; bool mCreateInProgress; // True if a Session.Create has been sent for this session and no response has been received yet. bool mMediaConnectInProgress; // True if a Session.MediaConnect has been sent for this session and no response has been received yet. bool mVoiceInvitePending; // True if a voice invite is pending for this session (usually waiting on a name lookup) bool mTextInvitePending; // True if a text invite is pending for this session (usually waiting on a name lookup) bool mSynthesizedCallerID; // True if the caller ID is a hash of the SIP URI -- this means we shouldn't do a name lookup. bool mIsChannel; // True for both group and spatial channels (false for p2p, PSTN) bool mIsSpatial; // True for spatial channels bool mIsP2P; bool mIncoming; bool mVoiceActive; bool mReconnect; // Whether we should try to reconnect to this session if it's dropped // Set to true when the volume/mute state of someone in the participant list changes. // The code will have to walk the list to find the changed participant(s). bool mVolumeDirty; bool mMuteDirty; bool mParticipantsChanged; participantMap mParticipantsByURI; participantUUIDMap mParticipantsByUUID; LLUUID mVoiceFontID; static void VerifySessions(); private: sessionState(); static std::set> mSession; // canonical list of outstanding sessions. std::set::iterator mMyIterator; // used for delete static void for_eachPredicate(const wptr_t &a, sessionFunc_t func); static bool testByHandle(const LLVivoxVoiceClient::sessionState::wptr_t &a, std::string handle); static bool testByCreatingURI(const LLVivoxVoiceClient::sessionState::wptr_t &a, std::string uri); static bool testBySIPOrAlterateURI(const LLVivoxVoiceClient::sessionState::wptr_t &a, std::string uri); static bool testByCallerId(const LLVivoxVoiceClient::sessionState::wptr_t &a, LLUUID participantId); }; typedef std::shared_ptr sessionStatePtr_t; typedef std::map sessionMap; /////////////////////////////////////////////////////// // Private Member Functions ////////////////////////////////////////////////////// ////////////////////////////// /// @name TVC/Server management and communication //@{ // Call this if the connection to the daemon terminates unexpectedly. It will attempt to reset everything and relaunch. void daemonDied(); // Call this if we're just giving up on voice (can't provision an account, etc.). It will clean up and go away. void giveUp(); // write to the tvc bool writeString(const std::string &str); void connectorCreate(); void connectorShutdown(); void closeSocket(void); // void requestVoiceAccountProvision(S32 retries = 3); void setLoginInfo( const std::string& account_name, const std::string& password, const std::string& voice_sip_uri_hostname, const std::string& voice_account_server_uri); void loginSendMessage(); void logout(); void logoutSendMessage(); //@} //------------------------------------ // tuning void tuningRenderStartSendMessage(const std::string& name, bool loop); void tuningRenderStopSendMessage(); void tuningCaptureStartSendMessage(int duration); void tuningCaptureStopSendMessage(); //---------------------------------- // devices void clearCaptureDevices(); void addCaptureDevice(const LLVoiceDevice& device); void clearRenderDevices(); void setDevicesListUpdated(bool state); void addRenderDevice(const LLVoiceDevice& device); void buildSetAudioDevices(std::ostringstream &stream); void getCaptureDevicesSendMessage(); void getRenderDevicesSendMessage(); // local audio updates, mic mute, speaker mute, mic volume and speaker volumes void sendLocalAudioUpdates(); ///////////////////////////// // Response/Event handlers void connectorCreateResponse(int statusCode, std::string &statusString, std::string &connectorHandle, std::string &versionID); void loginResponse(int statusCode, std::string &statusString, std::string &accountHandle, int numberOfAliases); void sessionCreateResponse(std::string &requestId, int statusCode, std::string &statusString, std::string &sessionHandle); void sessionGroupAddSessionResponse(std::string &requestId, int statusCode, std::string &statusString, std::string &sessionHandle); void sessionConnectResponse(std::string &requestId, int statusCode, std::string &statusString); void logoutResponse(int statusCode, std::string &statusString); void connectorShutdownResponse(int statusCode, std::string &statusString); void accountLoginStateChangeEvent(std::string &accountHandle, int statusCode, std::string &statusString, int state); void mediaCompletionEvent(std::string &sessionGroupHandle, std::string &mediaCompletionType); void mediaStreamUpdatedEvent(std::string &sessionHandle, std::string &sessionGroupHandle, int statusCode, std::string &statusString, int state, bool incoming); void sessionAddedEvent(std::string &uriString, std::string &alias, std::string &sessionHandle, std::string &sessionGroupHandle, bool isChannel, bool incoming, std::string &nameString, std::string &applicationString); void sessionGroupAddedEvent(std::string &sessionGroupHandle); void sessionRemovedEvent(std::string &sessionHandle, std::string &sessionGroupHandle); void participantAddedEvent(std::string &sessionHandle, std::string &sessionGroupHandle, std::string &uriString, std::string &alias, std::string &nameString, std::string &displayNameString, int participantType); void participantRemovedEvent(std::string &sessionHandle, std::string &sessionGroupHandle, std::string &uriString, std::string &alias, std::string &nameString); void participantUpdatedEvent(std::string &sessionHandle, std::string &sessionGroupHandle, std::string &uriString, std::string &alias, bool isModeratorMuted, bool isSpeaking, int volume, F32 energy); void voiceServiceConnectionStateChangedEvent(int statusCode, std::string &statusString, std::string &build_id); void auxAudioPropertiesEvent(F32 energy); void messageEvent(std::string &sessionHandle, std::string &uriString, std::string &alias, std::string &messageHeader, std::string &messageBody, std::string &applicationString); void sessionNotificationEvent(std::string &sessionHandle, std::string &uriString, std::string ¬ificationType); void muteListChanged(); ///////////////////////////// // VAD changes // disable auto-VAD and configure VAD parameters explicitly void setupVADParams(unsigned int vad_auto, unsigned int vad_hangover, unsigned int vad_noise_floor, unsigned int vad_sensitivity); void onVADSettingsChange(); ///////////////////////////// // Sending updates of current state void updatePosition(void); void setCameraPosition(const LLVector3d &position, const LLVector3 &velocity, const LLMatrix3 &rot); void setAvatarPosition(const LLVector3d &position, const LLVector3 &velocity, const LLQuaternion &rot); bool channelFromRegion(LLViewerRegion *region, std::string &name); void setEarLocation(S32 loc); ///////////////////////////// // Accessors for data related to nearby speakers // MBW -- XXX -- Not sure how to get this data out of the TVC bool getUsingPTT(const LLUUID& id); std::string getGroupID(const LLUUID& id); // group ID if the user is in group chat (empty string if not applicable) ///////////////////////////// // Recording controls void recordingLoopStart(int seconds = 3600, int deltaFramesPerControlFrame = 200); void recordingLoopSave(const std::string& filename); void recordingStop(); // Playback controls void filePlaybackStart(const std::string& filename); void filePlaybackStop(); void filePlaybackSetPaused(bool paused); void filePlaybackSetMode(bool vox = false, float speed = 1.0f); participantStatePtr_t findParticipantByID(const LLUUID& id); #if 0 //////////////////////////////////////// // voice sessions. typedef std::set sessionSet; typedef sessionSet::iterator sessionIterator; sessionIterator sessionsBegin(void); sessionIterator sessionsEnd(void); #endif sessionStatePtr_t findSession(const std::string &handle); sessionStatePtr_t findSessionBeingCreatedByURI(const std::string &uri); sessionStatePtr_t findSession(const LLUUID &participant_id); sessionStatePtr_t addSession(const std::string &uri, const std::string &handle = std::string()); void clearSessionHandle(const sessionStatePtr_t &session); void setSessionHandle(const sessionStatePtr_t &session, const std::string &handle); void setSessionURI(const sessionStatePtr_t &session, const std::string &uri); void deleteSession(const sessionStatePtr_t &session); void deleteAllSessions(void); void verifySessionState(void); void joinedAudioSession(const sessionStatePtr_t &session); void leftAudioSession(const sessionStatePtr_t &session); // This is called in several places where the session _may_ need to be deleted. // It contains logic for whether to delete the session or keep it around. void reapSession(const sessionStatePtr_t &session); // Returns true if the session seems to indicate we've moved to a region on a different voice server bool sessionNeedsRelog(const sessionStatePtr_t &session); ////////////////////////////////////// // buddy list stuff, needed for SLIM later struct buddyListEntry { buddyListEntry(const std::string &uri); std::string mURI; std::string mDisplayName; LLUUID mUUID; bool mOnlineSL; bool mOnlineSLim; bool mCanSeeMeOnline; bool mHasBlockListEntry; bool mHasAutoAcceptListEntry; bool mNameResolved; bool mInSLFriends; bool mInVivoxBuddies; }; typedef std::map buddyListMap; ///////////////////////////// // session control messages void accountListBlockRulesSendMessage(); void accountListAutoAcceptRulesSendMessage(); void sessionGroupCreateSendMessage(); void sessionCreateSendMessage(const sessionStatePtr_t &session, bool startAudio = true, bool startText = false); void sessionGroupAddSessionSendMessage(const sessionStatePtr_t &session, bool startAudio = true, bool startText = false); void sessionMediaConnectSendMessage(const sessionStatePtr_t &session); // just joins the audio session void sessionTextConnectSendMessage(const sessionStatePtr_t &session); // just joins the text session void sessionTerminateSendMessage(const sessionStatePtr_t &session); void sessionGroupTerminateSendMessage(const sessionStatePtr_t &session); void sessionMediaDisconnectSendMessage(const sessionStatePtr_t &session); // void sessionTextDisconnectSendMessage(sessionState *session); // Pokes the state machine to leave the audio session next time around. void sessionTerminate(); // Pokes the state machine to shut down the connector and restart it. void requestRelog(); // Does the actual work to get out of the audio session void leaveAudioSession(); friend class LLVivoxVoiceClientCapResponder; void lookupName(const LLUUID &id); void onAvatarNameCache(const LLUUID& id, const LLAvatarName& av_name); void avatarNameResolved(const LLUUID &id, const std::string &name); static void predAvatarNameResolution(const LLVivoxVoiceClient::sessionStatePtr_t &session, LLUUID id, std::string name); boost::signals2::connection mAvatarNameCacheConnection; ///////////////////////////// // Voice fonts void addVoiceFont(const S32 id, const std::string &name, const std::string &description, const LLDate &expiration_date, bool has_expired, const S32 font_type, const S32 font_status, const bool template_font = false); void accountGetSessionFontsResponse(int statusCode, const std::string &statusString); void accountGetTemplateFontsResponse(int statusCode, const std::string &statusString); private: LLVoiceVersionInfo mVoiceVersion; // Coroutine support methods //--- void voiceControlCoro(); void voiceControlStateMachine(S32 &coro_state); bool endAndDisconnectSession(); bool callbackEndDaemon(const LLSD& data); bool startAndLaunchDaemon(); bool provisionVoiceAccount(); bool establishVoiceConnection(); bool breakVoiceConnection(bool wait); bool loginToVivox(); void logoutOfVivox(bool wait); bool retrieveVoiceFonts(); bool requestParcelVoiceInfo(); bool addAndJoinSession(const sessionStatePtr_t &nextSession); bool terminateAudioSession(bool wait); bool waitForChannel(); bool runSession(const sessionStatePtr_t &session); void recordingAndPlaybackMode(); int voiceRecordBuffer(); int voicePlaybackBuffer(); bool performMicTuning(); //--- /// Clean up objects created during a voice session. void cleanUp(); bool mSessionTerminateRequested; bool mRelogRequested; // Number of times (in a row) "stateJoiningSession" case for spatial channel is reached in stateMachine(). // The larger it is the greater is possibility there is a problem with connection to voice server. // Introduced while fixing EXT-4313. int mSpatialJoiningNum; static void idle(void *user_data); LLHost mDaemonHost; LLSocket::ptr_t mSocket; // We should kill the voice daemon in case of connection alert bool mTerminateDaemon; friend class LLVivoxProtocolParser; std::string mAccountName; std::string mAccountPassword; std::string mAccountDisplayName; bool mTuningMode; float mTuningEnergy; std::string mTuningAudioFile; int mTuningMicVolume; bool mTuningMicVolumeDirty; int mTuningSpeakerVolume; bool mTuningSpeakerVolumeDirty; bool mDevicesListUpdated; // set to true when the device list has been updated // and false when the panelvoicedevicesettings has queried for an update status. std::string mSpatialSessionURI; std::string mSpatialSessionCredentials; std::string mMainSessionGroupHandle; // handle of the "main" session group. std::string mChannelName; // Name of the channel to be looked up sessionStatePtr_t mAudioSession; // Session state for the current audio session sessionStatePtr_t mNextAudioSession; // Session state for the audio session we're trying to join S32 mCurrentParcelLocalID; // Used to detect parcel boundary crossings std::string mCurrentRegionName; // Used to detect parcel boundary crossings bool mConnectorEstablished; // set by "Create Connector" response bool mAccountLoggedIn; // set by login message int mNumberOfAliases; U32 mCommandCookie; std::string mVoiceAccountServerURI; std::string mVoiceSIPURIHostName; int mLoginRetryCount; sessionMap mSessionsByHandle; // Active sessions, indexed by session handle. Sessions which are being initiated may not be in this map. #if 0 sessionSet mSessions; // All sessions, not indexed. This is the canonical session list. #endif bool mBuddyListMapPopulated; bool mBlockRulesListReceived; bool mAutoAcceptRulesListReceived; buddyListMap mBuddyListMap; LLVoiceDeviceList mCaptureDevices; LLVoiceDeviceList mRenderDevices; std::string mCaptureDevice; std::string mRenderDevice; bool mCaptureDeviceDirty; bool mRenderDeviceDirty; bool mIsInitialized; bool mShutdownComplete; bool checkParcelChanged(bool update = false); bool switchChannel(std::string uri = std::string(), bool spatial = true, bool no_reconnect = false, bool is_p2p = false, std::string hash = ""); void joinSession(const sessionStatePtr_t &session); std::string nameFromID(const LLUUID &id) const; bool IDFromName(const std::string name, LLUUID &uuid); std::string sipURIFromAvatar(LLVOAvatar *avatar); std::string sipURIFromName(std::string &name); // Returns the name portion of the SIP URI if the string looks vaguely like a SIP URI, or an empty string if not. std::string nameFromsipURI(const std::string &uri); bool inSpatialChannel(void); LLSD getAudioSessionChannelInfo(); std::string getAudioSessionHandle(); void sendPositionAndVolumeUpdate(void); void sendCaptureAndRenderDevices(); void buildSetCaptureDevice(std::ostringstream &stream); void buildSetRenderDevice(std::ostringstream &stream); void sendFriendsListUpdates(); #if 0 // start a text IM session with the specified user // This will be asynchronous, the session may be established at a future time. sessionStatePtr_t startUserIMSession(const LLUUID& uuid); #endif void enforceTether(void); bool mSpatialCoordsDirty; LLVector3d mCameraPosition; LLVector3d mCameraRequestedPosition; LLVector3 mCameraVelocity; LLMatrix3 mCameraRot; LLVector3d mAvatarPosition; LLVector3 mAvatarVelocity; LLQuaternion mAvatarRot; bool mMuteMic; bool mMuteMicDirty; bool mHidden; //Set to true during teleport to hide the agent's position. // Set to true when the friends list is known to have changed. bool mFriendsListDirty; enum { earLocCamera = 0, // ear at camera earLocAvatar, // ear at avatar earLocMixed // ear at avatar location/camera direction }; S32 mEarLocation; bool mSpeakerVolumeDirty; bool mSpeakerMuteDirty; int mSpeakerVolume; int mMicVolume; bool mMicVolumeDirty; bool mVoiceEnabled; bool mProcessChannels; bool mWriteInProgress; std::string mWriteString; size_t mWriteOffset; typedef std::set observer_set_t; observer_set_t mParticipantObservers; void notifyParticipantObservers(); typedef std::set status_observer_set_t; status_observer_set_t mStatusObservers; void notifyStatusObservers(LLVoiceClientStatusObserver::EStatusType status); typedef std::set friend_observer_set_t; friend_observer_set_t mFriendObservers; void notifyFriendObservers(); // Voice Fonts void expireVoiceFonts(); void deleteVoiceFont(const LLUUID& id); void deleteAllVoiceFonts(); void deleteVoiceFontTemplates(); S32 getVoiceFontIndex(const LLUUID& id) const; S32 getVoiceFontTemplateIndex(const LLUUID& id) const; void accountGetSessionFontsSendMessage(); void accountGetTemplateFontsSendMessage(); void sessionSetVoiceFontSendMessage(const sessionStatePtr_t &session); void updateVoiceMorphingMenu(); void notifyVoiceFontObservers(); typedef enum e_voice_font_type { VOICE_FONT_TYPE_NONE = 0, VOICE_FONT_TYPE_ROOT = 1, VOICE_FONT_TYPE_USER = 2, VOICE_FONT_TYPE_UNKNOWN } EVoiceFontType; typedef enum e_voice_font_status { VOICE_FONT_STATUS_NONE = 0, VOICE_FONT_STATUS_FREE = 1, VOICE_FONT_STATUS_NOT_FREE = 2, VOICE_FONT_STATUS_UNKNOWN } EVoiceFontStatus; struct voiceFontEntry { voiceFontEntry(LLUUID& id); ~voiceFontEntry(); LLUUID mID; S32 mFontIndex; std::string mName; LLDate mExpirationDate; S32 mFontType; S32 mFontStatus; bool mIsNew; LLFrameTimer mExpiryTimer; }; bool mVoiceFontsReceived; bool mVoiceFontsNew; bool mVoiceFontListDirty; voice_effect_list_t mVoiceFontList; voice_effect_list_t mVoiceFontTemplateList; typedef std::map voice_font_map_t; voice_font_map_t mVoiceFontMap; voice_font_map_t mVoiceFontTemplateMap; typedef std::set voice_font_observer_set_t; voice_font_observer_set_t mVoiceFontObservers; LLFrameTimer mVoiceFontExpiryTimer; // Audio capture buffer void captureBufferRecordStartSendMessage(); void captureBufferRecordStopSendMessage(); void captureBufferPlayStartSendMessage(const LLUUID& voice_font_id = LLUUID::null); void captureBufferPlayStopSendMessage(); bool mCaptureBufferMode; // Disconnected from voice channels while using the capture buffer. bool mCaptureBufferRecording; // A voice sample is being captured. bool mCaptureBufferRecorded; // A voice sample is captured in the buffer ready to play. bool mCaptureBufferPlaying; // A voice sample is being played. LLTimer mCaptureTimer; LLUUID mPreviewVoiceFont; LLUUID mPreviewVoiceFontLast; S32 mPlayRequestCount; bool mIsInTuningMode; bool mIsInChannel; bool mIsJoiningSession; bool mIsWaitingForFonts; bool mIsLoggingIn; bool mIsLoggedIn; bool mIsProcessingChannels; bool mIsCoroutineActive; // This variables can last longer than vivox in coroutines so we need them as static static bool sShuttingDown; static bool sConnected; static LLPumpIO* sPump; LLEventMailDrop mVivoxPump; }; /** * @class LLVivoxProtocolParser * @brief This class helps construct new LLIOPipe specializations * @see LLIOPipe * * THOROUGH_DESCRIPTION */ class LLVivoxProtocolParser : public LLIOPipe { LOG_CLASS(LLVivoxProtocolParser); public: LLVivoxProtocolParser(); virtual ~LLVivoxProtocolParser(); protected: /* @name LLIOPipe virtual implementations */ //@{ /** * @brief Process the data in buffer */ virtual EStatus process_impl( const LLChannelDescriptors& channels, buffer_ptr_t& buffer, bool& eos, LLSD& context, LLPumpIO* pump); //@} std::string mInput; // Expat control members XML_Parser parser; int responseDepth; bool ignoringTags; bool isEvent; int ignoreDepth; // Members for processing responses. The values are transient and only valid within a call to processResponse(). int returnCode; int statusCode; std::string statusString; std::string requestId; std::string actionString; std::string connectorHandle; std::string versionID; std::string mBuildID; std::string accountHandle; std::string sessionHandle; std::string sessionGroupHandle; std::string alias; std::string applicationString; // Members for processing events. The values are transient and only valid within a call to processResponse(). std::string eventTypeString; int state; std::string uriString; bool isChannel; bool incoming; bool enabled; std::string nameString; std::string audioMediaString; std::string deviceString; std::string displayNameString; int participantType; bool isLocallyMuted; bool isModeratorMuted; bool isSpeaking; int volume; F32 energy; std::string messageHeader; std::string messageBody; std::string notificationType; bool hasText; bool hasAudio; bool hasVideo; bool terminated; std::string blockMask; std::string presenceOnly; std::string autoAcceptMask; std::string autoAddAsBuddy; int numberOfAliases; std::string subscriptionHandle; std::string subscriptionType; S32 id; std::string descriptionString; LLDate expirationDate; bool hasExpired; S32 fontType; S32 fontStatus; std::string mediaCompletionType; // Members for processing text between tags std::string textBuffer; bool accumulateText; void reset(); void processResponse(std::string tag); static void XMLCALL ExpatStartTag(void *data, const char *el, const char **attr); static void XMLCALL ExpatEndTag(void *data, const char *el); static void XMLCALL ExpatCharHandler(void *data, const XML_Char *s, int len); void StartTag(const char *tag, const char **attr); void EndTag(const char *tag); void CharData(const char *buffer, int length); LLDate expiryTimeStampToLLDate(const std::string& vivox_ts); }; class LLVivoxSecurity : public LLSingleton { LLSINGLETON(LLVivoxSecurity); virtual ~LLVivoxSecurity(); public: std::string connectorHandle() { return mConnectorHandle; }; std::string accountHandle() { return mAccountHandle; }; private: std::string mConnectorHandle; std::string mAccountHandle; }; class LLVoiceVivoxStats : public LLSingleton { LLSINGLETON(LLVoiceVivoxStats); LOG_CLASS(LLVoiceVivoxStats); virtual ~LLVoiceVivoxStats(); private: F64SecondsImplicit mStartTime; U32 mConnectCycles; F64 mConnectTime; U32 mConnectAttempts; F64 mProvisionTime; U32 mProvisionAttempts; F64 mEstablishTime; U32 mEstablishAttempts; public: void reset(); void connectionAttemptStart(); void connectionAttemptEnd(bool success); void provisionAttemptStart(); void provisionAttemptEnd(bool success); void establishAttemptStart(); void establishAttemptEnd(bool success); LLSD read(); }; #endif //LL_VIVOX_VOICE_CLIENT_H