/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ "use strict"; const DevToolsUtils = require("resource://devtools/shared/DevToolsUtils.js"); const { dumpn, dumpv } = DevToolsUtils; const flags = require("resource://devtools/shared/flags.js"); const StreamUtils = require("resource://devtools/shared/transport/stream-utils.js"); const { Packet, JSONPacket, BulkPacket, } = require("resource://devtools/shared/transport/packets.js"); loader.lazyGetter(this, "ScriptableInputStream", () => { return Components.Constructor( "@mozilla.org/scriptableinputstream;1", "nsIScriptableInputStream", "init" ); }); const PACKET_HEADER_MAX = 200; /** * An adapter that handles data transfers between the devtools client and * server. It can work with both nsIPipe and nsIServerSocket transports so * long as the properly created input and output streams are specified. * (However, for intra-process connections, LocalDebuggerTransport, below, * is more efficient than using an nsIPipe pair with DebuggerTransport.) * * @param input nsIAsyncInputStream * The input stream. * @param output nsIAsyncOutputStream * The output stream. * * Given a DebuggerTransport instance dt: * 1) Set dt.hooks to a packet handler object (described below). * 2) Call dt.ready() to begin watching for input packets. * 3) Call dt.send() / dt.startBulkSend() to send packets. * 4) Call dt.close() to close the connection, and disengage from the event * loop. * * A packet handler is an object with the following methods: * * - onPacket(packet) - called when we have received a complete packet. * |packet| is the parsed form of the packet --- a JavaScript value, not * a JSON-syntax string. * * - onBulkPacket(packet) - called when we have switched to bulk packet * receiving mode. |packet| is an object containing: * * actor: Name of actor that will receive the packet * * type: Name of actor's method that should be called on receipt * * length: Size of the data to be read * * stream: This input stream should only be used directly if you can ensure * that you will read exactly |length| bytes and will not close the * stream when reading is complete * * done: If you use the stream directly (instead of |copyTo| below), you * must signal completion by resolving / rejecting this deferred. * If it's rejected, the transport will be closed. If an Error is * supplied as a rejection value, it will be logged via |dumpn|. * If you do use |copyTo|, resolving is taken care of for you when * copying completes. * * copyTo: A helper function for getting your data out of the stream that * meets the stream handling requirements above, and has the * following signature: * @param output nsIAsyncOutputStream * The stream to copy to. * @return Promise * The promise is resolved when copying completes or rejected if any * (unexpected) errors occur. * This object also emits "progress" events for each chunk that is * copied. See stream-utils.js. * * - onTransportClosed(reason) - called when the connection is closed. |reason| is * an optional nsresult or object, typically passed when the transport is * closed due to some error in a underlying stream. * * See ./packets.js and the Remote Debugging Protocol specification for more * details on the format of these packets. */ function DebuggerTransport(input, output) { this._input = input; this._scriptableInput = new ScriptableInputStream(input); this._output = output; // The current incoming (possibly partial) header, which will determine which // type of Packet |_incoming| below will become. this._incomingHeader = ""; // The current incoming Packet object this._incoming = null; // A queue of outgoing Packet objects this._outgoing = []; this.hooks = null; this.active = false; this._incomingEnabled = true; this._outgoingEnabled = true; this.close = this.close.bind(this); } DebuggerTransport.prototype = { /** * Transmit an object as a JSON packet. * * This method returns immediately, without waiting for the entire * packet to be transmitted, registering event handlers as needed to * transmit the entire packet. Packets are transmitted in the order * they are passed to this method. */ send(object) { const packet = new JSONPacket(this); packet.object = object; this._outgoing.push(packet); this._flushOutgoing(); }, /** * Transmit streaming data via a bulk packet. * * This method initiates the bulk send process by queuing up the header data. * The caller receives eventual access to a stream for writing. * * N.B.: Do *not* attempt to close the stream handed to you, as it will * continue to be used by this transport afterwards. Most users should * instead use the provided |copyFrom| function instead. * * @param header Object * This is modeled after the format of JSON packets above, but does not * actually contain the data, but is instead just a routing header: * * actor: Name of actor that will receive the packet * * type: Name of actor's method that should be called on receipt * * length: Size of the data to be sent * @return Promise * The promise will be resolved when you are allowed to write to the * stream with an object containing: * * stream: This output stream should only be used directly if * you can ensure that you will write exactly |length| * bytes and will not close the stream when writing is * complete * * done: If you use the stream directly (instead of |copyFrom| * below), you must signal completion by resolving / * rejecting this deferred. If it's rejected, the * transport will be closed. If an Error is supplied as * a rejection value, it will be logged via |dumpn|. If * you do use |copyFrom|, resolving is taken care of for * you when copying completes. * * copyFrom: A helper function for getting your data onto the * stream that meets the stream handling requirements * above, and has the following signature: * @param input nsIAsyncInputStream * The stream to copy from. * @return Promise * The promise is resolved when copying completes or * rejected if any (unexpected) errors occur. * This object also emits "progress" events for each chunk * that is copied. See stream-utils.js. */ startBulkSend(header) { const packet = new BulkPacket(this); packet.header = header; this._outgoing.push(packet); this._flushOutgoing(); return packet.streamReadyForWriting; }, /** * Close the transport. * @param reason nsresult / object (optional) * The status code or error message that corresponds to the reason for * closing the transport (likely because a stream closed or failed). */ close(reason) { this.active = false; this._input.close(); this._scriptableInput.close(); this._output.close(); this._destroyIncoming(); this._destroyAllOutgoing(); if (this.hooks) { this.hooks.onTransportClosed(reason); this.hooks = null; } if (reason) { dumpn("Transport closed: " + DevToolsUtils.safeErrorString(reason)); } else { dumpn("Transport closed."); } }, /** * The currently outgoing packet (at the top of the queue). */ get _currentOutgoing() { return this._outgoing[0]; }, /** * Flush data to the outgoing stream. Waits until the output stream notifies * us that it is ready to be written to (via onOutputStreamReady). */ _flushOutgoing() { if (!this._outgoingEnabled || this._outgoing.length === 0) { return; } // If the top of the packet queue has nothing more to send, remove it. if (this._currentOutgoing.done) { this._finishCurrentOutgoing(); } if (this._outgoing.length) { const threadManager = Cc["@mozilla.org/thread-manager;1"].getService(); this._output.asyncWait(this, 0, 0, threadManager.currentThread); } }, /** * Pause this transport's attempts to write to the output stream. This is * used when we've temporarily handed off our output stream for writing bulk * data. */ pauseOutgoing() { this._outgoingEnabled = false; }, /** * Resume this transport's attempts to write to the output stream. */ resumeOutgoing() { this._outgoingEnabled = true; this._flushOutgoing(); }, // nsIOutputStreamCallback /** * This is called when the output stream is ready for more data to be written. * The current outgoing packet will attempt to write some amount of data, but * may not complete. */ onOutputStreamReady: DevToolsUtils.makeInfallible(function (stream) { if (!this._outgoingEnabled || this._outgoing.length === 0) { return; } try { this._currentOutgoing.write(stream); } catch (e) { if (e.result != Cr.NS_BASE_STREAM_WOULD_BLOCK) { this.close(e.result); return; } throw e; } this._flushOutgoing(); }, "DebuggerTransport.prototype.onOutputStreamReady"), /** * Remove the current outgoing packet from the queue upon completion. */ _finishCurrentOutgoing() { if (this._currentOutgoing) { this._currentOutgoing.destroy(); this._outgoing.shift(); } }, /** * Clear the entire outgoing queue. */ _destroyAllOutgoing() { for (const packet of this._outgoing) { packet.destroy(); } this._outgoing = []; }, /** * Initialize the input stream for reading. Once this method has been called, * we watch for packets on the input stream, and pass them to the appropriate * handlers via this.hooks. */ ready() { this.active = true; this._waitForIncoming(); }, /** * Asks the input stream to notify us (via onInputStreamReady) when it is * ready for reading. */ _waitForIncoming() { if (this._incomingEnabled) { const threadManager = Cc["@mozilla.org/thread-manager;1"].getService(); this._input.asyncWait(this, 0, 0, threadManager.currentThread); } }, /** * Pause this transport's attempts to read from the input stream. This is * used when we've temporarily handed off our input stream for reading bulk * data. */ pauseIncoming() { this._incomingEnabled = false; }, /** * Resume this transport's attempts to read from the input stream. */ resumeIncoming() { this._incomingEnabled = true; this._flushIncoming(); this._waitForIncoming(); }, // nsIInputStreamCallback /** * Called when the stream is either readable or closed. */ onInputStreamReady: DevToolsUtils.makeInfallible(function (stream) { try { while ( stream.available() && this._incomingEnabled && this._processIncoming(stream, stream.available()) ) { // Loop until there is nothing more to process } this._waitForIncoming(); } catch (e) { if (e.result != Cr.NS_BASE_STREAM_WOULD_BLOCK) { this.close(e.result); } else { throw e; } } }, "DebuggerTransport.prototype.onInputStreamReady"), /** * Process the incoming data. Will create a new currently incoming Packet if * needed. Tells the incoming Packet to read as much data as it can, but * reading may not complete. The Packet signals that its data is ready for * delivery by calling one of this transport's _on*Ready methods (see * ./packets.js and the _on*Ready methods below). * @return boolean * Whether incoming stream processing should continue for any * remaining data. */ _processIncoming(stream, count) { dumpv("Data available: " + count); if (!count) { dumpv("Nothing to read, skipping"); return false; } try { if (!this._incoming) { dumpv("Creating a new packet from incoming"); if (!this._readHeader(stream)) { // Not enough data to read packet type return false; } // Attempt to create a new Packet by trying to parse each possible // header pattern. this._incoming = Packet.fromHeader(this._incomingHeader, this); if (!this._incoming) { throw new Error( "No packet types for header: " + this._incomingHeader ); } } if (!this._incoming.done) { // We have an incomplete packet, keep reading it. dumpv("Existing packet incomplete, keep reading"); this._incoming.read(stream, this._scriptableInput); } } catch (e) { const msg = "Error reading incoming packet: (" + e + " - " + e.stack + ")"; dumpn(msg); // Now in an invalid state, shut down the transport. this.close(); return false; } if (!this._incoming.done) { // Still not complete, we'll wait for more data. dumpv("Packet not done, wait for more"); return true; } // Ready for next packet this._flushIncoming(); return true; }, /** * Read as far as we can into the incoming data, attempting to build up a * complete packet header (which terminates with ":"). We'll only read up to * PACKET_HEADER_MAX characters. * @return boolean * True if we now have a complete header. */ _readHeader() { const amountToRead = PACKET_HEADER_MAX - this._incomingHeader.length; this._incomingHeader += StreamUtils.delimitedRead( this._scriptableInput, ":", amountToRead ); if (flags.wantVerbose) { dumpv("Header read: " + this._incomingHeader); } if (this._incomingHeader.endsWith(":")) { if (flags.wantVerbose) { dumpv("Found packet header successfully: " + this._incomingHeader); } return true; } if (this._incomingHeader.length >= PACKET_HEADER_MAX) { throw new Error("Failed to parse packet header!"); } // Not enough data yet. return false; }, /** * If the incoming packet is done, log it as needed and clear the buffer. */ _flushIncoming() { if (!this._incoming.done) { return; } if (flags.wantLogging) { dumpn("Got: " + this._incoming); } this._destroyIncoming(); }, /** * Handler triggered by an incoming JSONPacket completing it's |read| method. * Delivers the packet to this.hooks.onPacket. */ _onJSONObjectReady(object) { DevToolsUtils.executeSoon( DevToolsUtils.makeInfallible(() => { // Ensure the transport is still alive by the time this runs. if (this.active) { this.hooks.onPacket(object); } }, "DebuggerTransport instance's this.hooks.onPacket") ); }, /** * Handler triggered by an incoming BulkPacket entering the |read| phase for * the stream portion of the packet. Delivers info about the incoming * streaming data to this.hooks.onBulkPacket. See the main comment on the * transport at the top of this file for more details. */ _onBulkReadReady(...args) { DevToolsUtils.executeSoon( DevToolsUtils.makeInfallible(() => { // Ensure the transport is still alive by the time this runs. if (this.active) { this.hooks.onBulkPacket(...args); } }, "DebuggerTransport instance's this.hooks.onBulkPacket") ); }, /** * Remove all handlers and references related to the current incoming packet, * either because it is now complete or because the transport is closing. */ _destroyIncoming() { if (this._incoming) { this._incoming.destroy(); } this._incomingHeader = ""; this._incoming = null; }, }; exports.DebuggerTransport = DebuggerTransport;