/** * @file llnotificationslistener.cpp * @author Brad Kittenbrink * @date 2009-07-08 * @brief Implementation for llnotificationslistener. * * $LicenseInfo:firstyear=2009&license=viewerlgpl$ * 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 * $/LicenseInfo$ */ #include "linden_common.h" #include "llnotificationslistener.h" #include "llnotifications.h" #include "llnotificationtemplate.h" #include "llsd.h" #include "llui.h" LLNotificationsListener::LLNotificationsListener(LLNotifications & notifications) : LLEventAPI("LLNotifications", "LLNotifications listener to (e.g.) pop up a notification"), mNotifications(notifications) { add("requestAdd", "Add a notification with specified [\"name\"], [\"substitutions\"] and [\"payload\"].\n" "If optional [\"reply\"] specified, arrange to send user response on that LLEventPump.", &LLNotificationsListener::requestAdd); add("listChannels", "Post to [\"reply\"] a map of info on existing channels", &LLNotificationsListener::listChannels, LLSD().with("reply", LLSD())); add("listChannelNotifications", "Post to [\"reply\"] an array of info on notifications in channel [\"channel\"]", &LLNotificationsListener::listChannelNotifications, LLSD().with("reply", LLSD()).with("channel", LLSD())); add("respond", "Respond to notification [\"uuid\"] with data in [\"response\"]", &LLNotificationsListener::respond, LLSD().with("uuid", LLSD())); add("cancel", "Cancel notification [\"uuid\"]", &LLNotificationsListener::cancel, LLSD().with("uuid", LLSD())); add("ignore", "Ignore future notification [\"name\"]\n" "(from in notifications.xml)\n" "according to boolean [\"ignore\"].\n" "If [\"name\"] is omitted or undefined, [un]ignore all future notifications.\n" "Note that ignored notifications are not forwarded unless intercepted before\n" "the \"Ignore\" channel.", &LLNotificationsListener::ignore); add("forward", "Forward to [\"pump\"] future notifications on channel [\"channel\"]\n" "according to boolean [\"forward\"]. When enabled, only types matching\n" "[\"types\"] are forwarded, as follows:\n" "omitted or undefined: forward all notifications\n" "string: forward only the specific named [sig]type\n" "array of string: forward any notification matching any named [sig]type.\n" "When boolean [\"respond\"] is true, we auto-respond to each forwarded\n" "notification.", &LLNotificationsListener::forward, LLSD().with("channel", LLSD())); } // This is here in the .cpp file so we don't need the definition of class // Forwarder in the header file. LLNotificationsListener::~LLNotificationsListener() { } void LLNotificationsListener::requestAdd(const LLSD& event_data) const { if(event_data.has("reply")) { LLSD payload(event_data["payload"]); // copy reqid, if provided, to link response with request payload["reqid"] = event_data["reqid"]; mNotifications.add(event_data["name"], event_data["substitutions"], payload, boost::bind(&LLNotificationsListener::NotificationResponder, this, event_data["reply"].asString(), _1, _2 ) ); } else { mNotifications.add(event_data["name"], event_data["substitutions"], event_data["payload"]); } } void LLNotificationsListener::NotificationResponder(const std::string& reply_pump, const LLSD& notification, const LLSD& response) const { LLSD response_event; response_event["notification"] = notification; response_event["response"] = response; // surface reqid at top level of response for request/response protocol response_event["reqid"] = notification["payload"]["reqid"]; LLEventPumps::getInstance()->obtain(reply_pump).post(response_event); } void LLNotificationsListener::listChannels(const LLSD& params) const { LLReqID reqID(params); LLSD response(reqID.makeResponse()); for (auto& cm : LLNotificationChannel::instance_snapshot()) { LLSD channelInfo, parents; for (const std::string& parent : cm.getParents()) { parents.append(parent); } channelInfo["parents"] = parents; channelInfo["parent"] = parents.size()? parents[0] : ""; response[cm.getName()] = channelInfo; } LLEventPumps::instance().obtain(params["reply"]).post(response); } void LLNotificationsListener::listChannelNotifications(const LLSD& params) const { LLReqID reqID(params); LLSD response(reqID.makeResponse()); LLNotificationChannelPtr channel(mNotifications.getChannel(params["channel"])); if (channel) { LLSD notifications(LLSD::emptyArray()); std::function func = [notifications](LLNotificationPtr ni) mutable { notifications.append(asLLSD(ni)); }; channel->forEachNotification(func); response["notifications"] = notifications; } LLEventPumps::instance().obtain(params["reply"]).post(response); } void LLNotificationsListener::respond(const LLSD& params) const { LLNotificationPtr notification(mNotifications.find(params["uuid"])); if (notification) { notification->respond(params["response"]); } } void LLNotificationsListener::cancel(const LLSD& params) const { LLNotificationPtr notification(mNotifications.find(params["uuid"])); if (notification) { mNotifications.cancel(notification); } } void LLNotificationsListener::ignore(const LLSD& params) const { // Calling a method named "ignore", but omitting its "ignore" Boolean // argument, should by default cause something to be ignored. Explicitly // pass ["ignore"] = false to cancel ignore. bool ignore = true; if (params.has("ignore")) { ignore = params["ignore"].asBoolean(); } // This method can be used to affect either a single notification name or // all future notifications. The two use substantially different mechanisms. if (params["name"].isDefined()) { // ["name"] was passed: ignore just that notification LLNotificationTemplatePtr templatep = mNotifications.getTemplate(params["name"]); if (templatep) { templatep->mForm->setIgnored(ignore); } } else { // no ["name"]: ignore all future notifications mNotifications.setIgnoreAllNotifications(ignore); } } class LLNotificationsListener::Forwarder: public boost::signals2::trackable { LOG_CLASS(LLNotificationsListener::Forwarder); public: Forwarder(LLNotifications& llnotifications, const std::string& channel): mNotifications(llnotifications), mRespond(false) { // Connect to the specified channel on construction. Because // boost::signals2::trackable is a base, because we use boost::bind() // below, and because connectPassedFilter() directly calls // boost::signals2::signal::connect(), we should automatically // disconnect when destroyed. LLNotificationChannelPtr channelptr(llnotifications.getChannel(channel)); if (channelptr) { // Insert our processing as a "passed filter" listener. This way // we get to run before all the "changed" listeners, and we get to // swipe it (hide it from the other listeners) if desired. channelptr->connectPassedFilter(boost::bind(&Forwarder::handle, this, _1)); } } void setPumpName(const std::string& name) { mPumpName = name; } void setTypes(const LLSD& types) { mTypes = types; } void setRespond(bool respond) { mRespond = respond; } private: bool handle(const LLSD& notification) const; bool matchType(const LLSD& filter, const std::string& type) const; LLNotifications& mNotifications; std::string mPumpName; LLSD mTypes; bool mRespond; }; void LLNotificationsListener::forward(const LLSD& params) { std::string channel(params["channel"]); // First decide whether we're supposed to start forwarding or stop it. // Default to true. bool forward = true; if (params.has("forward")) { forward = params["forward"].asBoolean(); } if (! forward) { // This is a request to stop forwarding notifications on the specified // channel. The rest of the params don't matter. Because mForwarders // contains scoped_ptrs, erasing the map entry DOES delete the heap // Forwarder object. Because Forwarder derives from // boost::signals2::trackable, destroying it disconnects it from the // channel. mForwarders.erase(channel); return; } // From here on, we know we're being asked to start (or modify) forwarding // on the specified channel. Find or create an appropriate Forwarder. ForwarderMap::iterator entry(mForwarders.insert(ForwarderMap::value_type(channel, ForwarderMap::mapped_type())).first); if (! entry->second) { entry->second.reset(new Forwarder(mNotifications, channel)); } // Now, whether this Forwarder is brand-new or not, update it with the new // request info. Forwarder& fwd(*entry->second); fwd.setPumpName(params["pump"]); fwd.setTypes(params["types"]); fwd.setRespond(params["respond"]); } bool LLNotificationsListener::Forwarder::handle(const LLSD& notification) const { LL_INFOS("LLNotificationsListener") << "handle(" << notification << ")" << LL_ENDL; if (notification["sigtype"].asString() == "delete") { LL_INFOS("LLNotificationsListener") << "ignoring delete" << LL_ENDL; // let other listeners see the "delete" operation return false; } LLNotificationPtr note(mNotifications.find(notification["id"])); if (! note) { LL_INFOS("LLNotificationsListener") << notification["id"] << " not found" << LL_ENDL; return false; } if (! matchType(mTypes, note->getType())) { LL_INFOS("LLNotificationsListener") << "didn't match types " << mTypes << LL_ENDL; // We're not supposed to intercept this particular notification. Let // other listeners process it. return false; } LL_INFOS("LLNotificationsListener") << "sending via '" << mPumpName << "'" << LL_ENDL; // This is a notification we care about. Forward it through specified // LLEventPump. LLEventPumps::instance().obtain(mPumpName).post(asLLSD(note)); // Are we also being asked to auto-respond? if (mRespond) { LL_INFOS("LLNotificationsListener") << "should respond" << LL_ENDL; note->respond(LLSD::emptyMap()); // Did that succeed in removing the notification? Only cancel() if // it's still around -- otherwise we get an LL_ERRS crash! note = mNotifications.find(notification["id"]); if (note) { LL_INFOS("LLNotificationsListener") << "respond() didn't clear, canceling" << LL_ENDL; mNotifications.cancel(note); } } // If we've auto-responded to this notification, then it's going to be // deleted. Other listeners would get the change operation, try to look it // up and be baffled by lookup failure. So when we auto-respond, suppress // this notification: don't pass it to other listeners. return mRespond; } bool LLNotificationsListener::Forwarder::matchType(const LLSD& filter, const std::string& type) const { // Decide whether this notification matches filter: // undefined: forward all notifications if (filter.isUndefined()) { return true; } // array of string: forward any notification matching any named type if (filter.isArray()) { for (LLSD::array_const_iterator ti(filter.beginArray()), tend(filter.endArray()); ti != tend; ++ti) { if (ti->asString() == type) { return true; } } // Didn't match any entry in the array return false; } // string: forward only the specific named type return (filter.asString() == type); } LLSD LLNotificationsListener::asLLSD(LLNotificationPtr note) { LLSD notificationInfo(note->asLLSD()); // For some reason the following aren't included in LLNotification::asLLSD(). notificationInfo["summary"] = note->summarize(); notificationInfo["id"] = note->id(); notificationInfo["type"] = note->getType(); notificationInfo["message"] = note->getMessage(); notificationInfo["label"] = note->getLabel(); return notificationInfo; }