Source/WebInspectorUI/UserInterface/Protocol/InspectorBackend.js - WebKit - Git at Google

 /*
  * Copyright (C) 2011 Google Inc. All rights reserved.
  * Copyright (C) 2013, 2015, 2016 Apple Inc. All rights reserved.
  * Copyright (C) 2014 University of Washington.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met:
  *
  *     * Redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer.
  *     * Redistributions in binary form must reproduce the above
  * copyright notice, this list of conditions and the following disclaimer
  * in the documentation and/or other materials provided with the
  * distribution.
  *     * Neither the name of Google Inc. nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 InspectorBackendClass = class InspectorBackendClass
 {
     constructor()
     {
         this._agents = {};

         this._customTracer = null;
         this._defaultTracer = new WI.LoggingProtocolTracer;
         this._activeTracers = [this._defaultTracer];

         this._supportedDomainsForDebuggableType = new Map;

         for (let debuggableType of Object.values(WI.DebuggableType))
             this._supportedDomainsForDebuggableType.set(debuggableType, []);

         WI.settings.autoLogProtocolMessages.addEventListener(WI.Setting.Event.Changed, this._startOrStopAutomaticTracing, this);
         WI.settings.autoLogTimeStats.addEventListener(WI.Setting.Event.Changed, this._startOrStopAutomaticTracing, this);
         this._startOrStopAutomaticTracing();

         this.currentDispatchState = {
             event: null,
             request: null,
             response: null,
         };
     }

     // Public

     // This should be used for feature checking if something exists in the protocol
     // regardless of whether or not the domain is active for a specific target.
     get domains()
     {
         return this._agents;
     }

     // It's still possible to set this flag on InspectorBackend to just
     // dump protocol traffic as it happens. For more complex uses of
     // protocol data, install a subclass of WI.ProtocolTracer.
     set dumpInspectorProtocolMessages(value)
     {
         // Implicitly cause automatic logging to start if it's allowed.
         WI.settings.autoLogProtocolMessages.value = value;

         this._defaultTracer.dumpMessagesToConsole = value;
     }

     get dumpInspectorProtocolMessages()
     {
         return WI.settings.autoLogProtocolMessages.value;
     }

     set dumpInspectorTimeStats(value)
     {
         WI.settings.autoLogTimeStats.value = value;

         if (!this.dumpInspectorProtocolMessages)
             this.dumpInspectorProtocolMessages = true;

         this._defaultTracer.dumpTimingDataToConsole = value;
     }

     get dumpInspectorTimeStats()
     {
         return WI.settings.autoLogTimeStats.value;
     }

     set filterMultiplexingBackendInspectorProtocolMessages(value)
     {
         WI.settings.filterMultiplexingBackendInspectorProtocolMessages.value = value;

         this._defaultTracer.filterMultiplexingBackend = value;
     }

     get filterMultiplexingBackendInspectorProtocolMessages()
     {
         return WI.settings.filterMultiplexingBackendInspectorProtocolMessages.value;
     }

     set customTracer(tracer)
     {
         console.assert(!tracer || tracer instanceof WI.ProtocolTracer, tracer);
         console.assert(!tracer || tracer !== this._defaultTracer, tracer);

         // Bail early if no state change is to be made.
         if (!tracer && !this._customTracer)
             return;

         if (tracer === this._customTracer)
             return;

         if (tracer === this._defaultTracer)
             return;

         if (this._customTracer)
             this._customTracer.logFinished();

         this._customTracer = tracer;
         this._activeTracers = [this._defaultTracer];

         if (this._customTracer) {
             this._customTracer.logStarted();
             this._activeTracers.push(this._customTracer);
         }
     }

     get activeTracers()
     {
         return this._activeTracers;
     }

     registerVersion(domainName, version)
     {
         let agent = this._agentForDomain(domainName);
         agent.VERSION = version;
     }

     registerCommand(qualifiedName, callSignature, replySignature)
     {
         var [domainName, commandName] = qualifiedName.split(".");
         var agent = this._agentForDomain(domainName);
         agent.addCommand(InspectorBackend.Command.create(agent, qualifiedName, callSignature, replySignature));
     }

     registerEnum(qualifiedName, enumValues)
     {
         var [domainName, enumName] = qualifiedName.split(".");
         var agent = this._agentForDomain(domainName);
         agent.addEnum(enumName, enumValues);
     }

     registerEvent(qualifiedName, signature)
     {
         var [domainName, eventName] = qualifiedName.split(".");
         var agent = this._agentForDomain(domainName);
         agent.addEvent(new InspectorBackend.Event(eventName, signature));
     }

     registerDomainDispatcher(domainName, dispatcher)
     {
         var agent = this._agentForDomain(domainName);
         agent.dispatcher = dispatcher;
     }

     dispatch(message)
     {
         InspectorBackend.backendConnection.dispatch(message);
     }

     runAfterPendingDispatches(callback)
     {
         if (!WI.mainTarget) {
             callback();
             return;
         }

         // FIXME: Should this respect pending dispatches in all connections?
         WI.mainTarget.connection.runAfterPendingDispatches(callback);
     }

     activateDomain(domainName, activationDebuggableTypes)
     {
         let supportedDebuggableTypes = activationDebuggableTypes || Object.values(WI.DebuggableType);
         for (let debuggableType of supportedDebuggableTypes)
             this._supportedDomainsForDebuggableType.get(debuggableType).push(domainName);

         // FIXME: For proper multi-target support we should eliminate all uses of
         // `window.FooAgent` and `unprefixed FooAgent` in favor of either:
         //   - Per-target: `target.FooAgent`
         //   - Global feature check: `InspectorBackend.domains.Foo`
         if (!activationDebuggableTypes || activationDebuggableTypes.includes(InspectorFrontendHost.debuggableType())) {
             let agent = this._agents[domainName];
             agent.activate();
             return agent;
         }

         return null;
     }

     supportedDomainsForDebuggableType(type)
     {
         console.assert(Object.values(WI.DebuggableType).includes(type), "Unknown debuggable type", type);

         return this._supportedDomainsForDebuggableType.get(type);
     }

     // Private

     _startOrStopAutomaticTracing()
     {
         this._defaultTracer.dumpMessagesToConsole = this.dumpInspectorProtocolMessages;
         this._defaultTracer.dumpTimingDataToConsole = this.dumpTimingDataToConsole;
         this._defaultTracer.filterMultiplexingBackend = this.filterMultiplexingBackendInspectorProtocolMessages;
     }

     _agentForDomain(domainName)
     {
         if (this._agents[domainName])
             return this._agents[domainName];

         var agent = new InspectorBackend.Agent(domainName);
         this._agents[domainName] = agent;
         return agent;
     }
 };

 InspectorBackend = new InspectorBackendClass;

 InspectorBackend.Agent = class InspectorBackendAgent
 {
     constructor(domainName)
     {
         this._domainName = domainName;

         // Default connection is the main connection.
         this._connection = InspectorBackend.backendConnection;
         this._dispatcher = null;

         // Agents are always created, but are only useable after they are activated.
         this._active = false;

         // Commands are stored directly on the Agent instance using their unqualified
         // method name as the property. Thus, callers can write: FooAgent.methodName().
         // Enums are stored similarly based on the unqualified type name.
         this._events = {};
     }

     // Public

     get domainName()
     {
         return this._domainName;
     }

     get active()
     {
         return this._active;
     }

     get connection()
     {
         return this._connection;
     }

     set connection(connection)
     {
         this._connection = connection;
     }

     get dispatcher()
     {
         return this._dispatcher;
     }

     set dispatcher(value)
     {
         this._dispatcher = value;
     }

     addEnum(enumName, enumValues)
     {
         this[enumName] = enumValues;
     }

     addCommand(command)
     {
         this[command.commandName] = command;
     }

     addEvent(event)
     {
         this._events[event.eventName] = event;
     }

     getEvent(eventName)
     {
         return this._events[eventName];
     }

     hasEvent(eventName)
     {
         return eventName in this._events;
     }

     hasEventParameter(eventName, eventParameterName)
     {
         let event = this._events[eventName];
         return event && event.parameterNames.includes(eventParameterName);
     }

     activate()
     {
         this._active = true;
         window[this._domainName + "Agent"] = this;
     }

     dispatchEvent(eventName, eventArguments)
     {
         if (!this._dispatcher) {
             console.error(`No domain dispatcher registered for domain '${this._domainName}', for event '${this._domainName}.${eventName}'`);
             return false;
         }

         if (!(eventName in this._dispatcher)) {
             console.error(`Protocol Error: Attempted to dispatch an unimplemented method '${this._domainName}.${eventName}'`);
             return false;
         }

         this._dispatcher[eventName].apply(this._dispatcher, eventArguments);
         return true;
     }
 };

 // InspectorBackend.Command can't use ES6 classes because of its trampoline nature.
 // But we can use strict mode to get stricter handling of the code inside its functions.
 InspectorBackend.Command = function(agent, qualifiedName, callSignature, replySignature)
 {
     "use strict";

     this._agent = agent;
     this._instance = this;

     let [domainName, commandName] = qualifiedName.split(".");
     this._qualifiedName = qualifiedName;
     this._commandName = commandName;
     this._callSignature = callSignature || [];
     this._replySignature = replySignature || [];
 };

 InspectorBackend.Command.create = function(agent, commandName, callSignature, replySignature)
 {
     "use strict";

     let instance = new InspectorBackend.Command(agent, commandName, callSignature, replySignature);

     function callable() {
         console.assert(this instanceof InspectorBackend.Agent);
         return instance._invokeWithArguments.call(instance, this, Array.from(arguments));
     }

     callable._instance = instance;
     Object.setPrototypeOf(callable, InspectorBackend.Command.prototype);

     return callable;
 };

 // As part of the workaround to make commands callable, these functions use |this._instance|.
 // |this| could refer to the callable trampoline, or the InspectorBackend.Command instance.
 InspectorBackend.Command.prototype = {
     __proto__: Function.prototype,

     // Public

     get qualifiedName()
     {
         return this._instance._qualifiedName;
     },

     get commandName()
     {
         return this._instance._commandName;
     },

     get callSignature()
     {
         return this._instance._callSignature;
     },

     get replySignature()
     {
         return this._instance._replySignature;
     },

     invoke(commandArguments, callback, agent)
     {
         "use strict";

         let instance = this._instance;

         function deliverFailure(message) {
             console.error(`Protocol Error: ${message}`);
             if (callback)
                 setTimeout(callback.bind(null, message), 0);
             else
                 return Promise.reject(new Error(message));
         }

         if (typeof commandArguments !== "object")
             return deliverFailure(`invoke expects an object for command arguments but its type is '${typeof commandArguments}'.`);

         let parameters = {};
         for (let {name, type, optional} of instance.callSignature) {
             if (!(name in commandArguments) && !optional)
                 return deliverFailure(`Missing argument '${name}' for command '${instance.qualifiedName}'.`);

             let value = commandArguments[name];
             if (optional && value === undefined)
                 continue;

             if (typeof value !== type)
                 return deliverFailure(`Invalid type of argument '${name}' for command '${instance.qualifiedName}' call. It must be '${type}' but it is '${typeof value}'.`);

             parameters[name] = value;
         }

         agent = agent || instance._agent;
         if (typeof callback === "function")
             agent._connection._sendCommandToBackendWithCallback(instance, parameters, callback);
         else
             return agent._connection._sendCommandToBackendExpectingPromise(instance, parameters);
     },

     supports(parameterName)
     {
         "use strict";

         return this._instance.callSignature.some((parameter) => parameter["name"] === parameterName);
     },

     // Private

     _invokeWithArguments(agent, commandArguments)
     {
         "use strict";

         let instance = this._instance;
         let callback = typeof commandArguments.lastValue === "function" ? commandArguments.pop() : null;

         function deliverFailure(message) {
             console.error(`Protocol Error: ${message}`);
             if (callback)
                 setTimeout(callback.bind(null, message), 0);
             else
                 return Promise.reject(new Error(message));
         }

         let parameters = {};
         for (let {name, type, optional} of instance.callSignature) {
             if (!commandArguments.length && !optional)
                 return deliverFailure(`Invalid number of arguments for command '${instance.qualifiedName}'.`);

             let value = commandArguments.shift();
             if (optional && value === undefined)
                 continue;

             if (typeof value !== type)
                 return deliverFailure(`Invalid type of argument '${name}' for command '${instance.qualifiedName}' call. It must be '${type}' but it is '${typeof value}'.`);

             parameters[name] = value;
         }

         if (!callback && commandArguments.length === 1 && commandArguments[0] !== undefined)
             return deliverFailure(`Protocol Error: Optional callback argument for command '${instance.qualifiedName}' call must be a function but its type is '${typeof commandArguments[0]}'.`);

         if (callback)
             agent._connection._sendCommandToBackendWithCallback(instance, parameters, callback);
         else
             return agent._connection._sendCommandToBackendExpectingPromise(instance, parameters);
     }
 };

 InspectorBackend.Event = class Event
 {
     constructor(eventName, parameterNames)
     {
         this.eventName = eventName;
         this.parameterNames = parameterNames;
     }
 };
	/*
	* Copyright (C) 2011 Google Inc. All rights reserved.
	* Copyright (C) 2013, 2015, 2016 Apple Inc. All rights reserved.
	* Copyright (C) 2014 University of Washington.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met:
	*
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above
	* copyright notice, this list of conditions and the following disclaimer
	* in the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name of Google Inc. nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	InspectorBackendClass = class InspectorBackendClass
	{
	constructor()
	{
	this._agents = {};

	this._customTracer = null;
	this._defaultTracer = new WI.LoggingProtocolTracer;
	this._activeTracers = [this._defaultTracer];

	this._supportedDomainsForDebuggableType = new Map;

	for (let debuggableType of Object.values(WI.DebuggableType))
	this._supportedDomainsForDebuggableType.set(debuggableType, []);

	WI.settings.autoLogProtocolMessages.addEventListener(WI.Setting.Event.Changed, this._startOrStopAutomaticTracing, this);
	WI.settings.autoLogTimeStats.addEventListener(WI.Setting.Event.Changed, this._startOrStopAutomaticTracing, this);
	this._startOrStopAutomaticTracing();

	this.currentDispatchState = {
	event: null,
	request: null,
	response: null,
	};
	}

	// Public

	// This should be used for feature checking if something exists in the protocol
	// regardless of whether or not the domain is active for a specific target.
	get domains()
	{
	return this._agents;
	}

	// It's still possible to set this flag on InspectorBackend to just
	// dump protocol traffic as it happens. For more complex uses of
	// protocol data, install a subclass of WI.ProtocolTracer.
	set dumpInspectorProtocolMessages(value)
	{
	// Implicitly cause automatic logging to start if it's allowed.
	WI.settings.autoLogProtocolMessages.value = value;

	this._defaultTracer.dumpMessagesToConsole = value;
	}

	get dumpInspectorProtocolMessages()
	{
	return WI.settings.autoLogProtocolMessages.value;
	}

	set dumpInspectorTimeStats(value)
	{
	WI.settings.autoLogTimeStats.value = value;

	if (!this.dumpInspectorProtocolMessages)
	this.dumpInspectorProtocolMessages = true;

	this._defaultTracer.dumpTimingDataToConsole = value;
	}

	get dumpInspectorTimeStats()
	{
	return WI.settings.autoLogTimeStats.value;
	}

	set filterMultiplexingBackendInspectorProtocolMessages(value)
	{
	WI.settings.filterMultiplexingBackendInspectorProtocolMessages.value = value;

	this._defaultTracer.filterMultiplexingBackend = value;
	}

	get filterMultiplexingBackendInspectorProtocolMessages()
	{
	return WI.settings.filterMultiplexingBackendInspectorProtocolMessages.value;
	}

	set customTracer(tracer)
	{
	console.assert(!tracer \|\| tracer instanceof WI.ProtocolTracer, tracer);
	console.assert(!tracer \|\| tracer !== this._defaultTracer, tracer);

	// Bail early if no state change is to be made.
	if (!tracer && !this._customTracer)
	return;

	if (tracer === this._customTracer)
	return;

	if (tracer === this._defaultTracer)
	return;

	if (this._customTracer)
	this._customTracer.logFinished();

	this._customTracer = tracer;
	this._activeTracers = [this._defaultTracer];

	if (this._customTracer) {
	this._customTracer.logStarted();
	this._activeTracers.push(this._customTracer);
	}
	}

	get activeTracers()
	{
	return this._activeTracers;
	}

	registerVersion(domainName, version)
	{
	let agent = this._agentForDomain(domainName);
	agent.VERSION = version;
	}

	registerCommand(qualifiedName, callSignature, replySignature)
	{
	var [domainName, commandName] = qualifiedName.split(".");
	var agent = this._agentForDomain(domainName);
	agent.addCommand(InspectorBackend.Command.create(agent, qualifiedName, callSignature, replySignature));
	}

	registerEnum(qualifiedName, enumValues)
	{
	var [domainName, enumName] = qualifiedName.split(".");
	var agent = this._agentForDomain(domainName);
	agent.addEnum(enumName, enumValues);
	}

	registerEvent(qualifiedName, signature)
	{
	var [domainName, eventName] = qualifiedName.split(".");
	var agent = this._agentForDomain(domainName);
	agent.addEvent(new InspectorBackend.Event(eventName, signature));
	}

	registerDomainDispatcher(domainName, dispatcher)
	{
	var agent = this._agentForDomain(domainName);
	agent.dispatcher = dispatcher;
	}

	dispatch(message)
	{
	InspectorBackend.backendConnection.dispatch(message);
	}

	runAfterPendingDispatches(callback)
	{
	if (!WI.mainTarget) {
	callback();
	return;
	}

	// FIXME: Should this respect pending dispatches in all connections?
	WI.mainTarget.connection.runAfterPendingDispatches(callback);
	}

	activateDomain(domainName, activationDebuggableTypes)
	{
	let supportedDebuggableTypes = activationDebuggableTypes \|\| Object.values(WI.DebuggableType);
	for (let debuggableType of supportedDebuggableTypes)
	this._supportedDomainsForDebuggableType.get(debuggableType).push(domainName);

	// FIXME: For proper multi-target support we should eliminate all uses of
	// `window.FooAgent` and `unprefixed FooAgent` in favor of either:
	// - Per-target: `target.FooAgent`
	// - Global feature check: `InspectorBackend.domains.Foo`
	if (!activationDebuggableTypes \|\| activationDebuggableTypes.includes(InspectorFrontendHost.debuggableType())) {
	let agent = this._agents[domainName];
	agent.activate();
	return agent;
	}

	return null;
	}

	supportedDomainsForDebuggableType(type)
	{
	console.assert(Object.values(WI.DebuggableType).includes(type), "Unknown debuggable type", type);

	return this._supportedDomainsForDebuggableType.get(type);
	}

	// Private

	_startOrStopAutomaticTracing()
	{
	this._defaultTracer.dumpMessagesToConsole = this.dumpInspectorProtocolMessages;
	this._defaultTracer.dumpTimingDataToConsole = this.dumpTimingDataToConsole;
	this._defaultTracer.filterMultiplexingBackend = this.filterMultiplexingBackendInspectorProtocolMessages;
	}

	_agentForDomain(domainName)
	{
	if (this._agents[domainName])
	return this._agents[domainName];

	var agent = new InspectorBackend.Agent(domainName);
	this._agents[domainName] = agent;
	return agent;
	}
	};

	InspectorBackend = new InspectorBackendClass;

	InspectorBackend.Agent = class InspectorBackendAgent
	{
	constructor(domainName)
	{
	this._domainName = domainName;

	// Default connection is the main connection.
	this._connection = InspectorBackend.backendConnection;
	this._dispatcher = null;

	// Agents are always created, but are only useable after they are activated.
	this._active = false;

	// Commands are stored directly on the Agent instance using their unqualified
	// method name as the property. Thus, callers can write: FooAgent.methodName().
	// Enums are stored similarly based on the unqualified type name.
	this._events = {};
	}

	// Public

	get domainName()
	{
	return this._domainName;
	}

	get active()
	{
	return this._active;
	}

	get connection()
	{
	return this._connection;
	}

	set connection(connection)
	{
	this._connection = connection;
	}

	get dispatcher()
	{
	return this._dispatcher;
	}

	set dispatcher(value)
	{
	this._dispatcher = value;
	}

	addEnum(enumName, enumValues)
	{
	this[enumName] = enumValues;
	}

	addCommand(command)
	{
	this[command.commandName] = command;
	}

	addEvent(event)
	{
	this._events[event.eventName] = event;
	}

	getEvent(eventName)
	{
	return this._events[eventName];
	}

	hasEvent(eventName)
	{
	return eventName in this._events;
	}

	hasEventParameter(eventName, eventParameterName)
	{
	let event = this._events[eventName];
	return event && event.parameterNames.includes(eventParameterName);
	}

	activate()
	{
	this._active = true;
	window[this._domainName + "Agent"] = this;
	}

	dispatchEvent(eventName, eventArguments)
	{
	if (!this._dispatcher) {
	console.error(`No domain dispatcher registered for domain '${this._domainName}', for event '${this._domainName}.${eventName}'`);
	return false;
	}

	if (!(eventName in this._dispatcher)) {
	console.error(`Protocol Error: Attempted to dispatch an unimplemented method '${this._domainName}.${eventName}'`);
	return false;
	}

	this._dispatcher[eventName].apply(this._dispatcher, eventArguments);
	return true;
	}
	};

	// InspectorBackend.Command can't use ES6 classes because of its trampoline nature.
	// But we can use strict mode to get stricter handling of the code inside its functions.
	InspectorBackend.Command = function(agent, qualifiedName, callSignature, replySignature)
	{
	"use strict";

	this._agent = agent;
	this._instance = this;

	let [domainName, commandName] = qualifiedName.split(".");
	this._qualifiedName = qualifiedName;
	this._commandName = commandName;
	this._callSignature = callSignature \|\| [];
	this._replySignature = replySignature \|\| [];
	};

	InspectorBackend.Command.create = function(agent, commandName, callSignature, replySignature)
	{
	"use strict";

	let instance = new InspectorBackend.Command(agent, commandName, callSignature, replySignature);

	function callable() {
	console.assert(this instanceof InspectorBackend.Agent);
	return instance._invokeWithArguments.call(instance, this, Array.from(arguments));
	}

	callable._instance = instance;
	Object.setPrototypeOf(callable, InspectorBackend.Command.prototype);

	return callable;
	};

	// As part of the workaround to make commands callable, these functions use \|this._instance\|.
	// \|this\| could refer to the callable trampoline, or the InspectorBackend.Command instance.
	InspectorBackend.Command.prototype = {
	__proto__: Function.prototype,

	// Public

	get qualifiedName()
	{
	return this._instance._qualifiedName;
	},

	get commandName()
	{
	return this._instance._commandName;
	},

	get callSignature()
	{
	return this._instance._callSignature;
	},

	get replySignature()
	{
	return this._instance._replySignature;
	},

	invoke(commandArguments, callback, agent)
	{
	"use strict";

	let instance = this._instance;

	function deliverFailure(message) {
	console.error(`Protocol Error: ${message}`);
	if (callback)
	setTimeout(callback.bind(null, message), 0);
	else
	return Promise.reject(new Error(message));
	}

	if (typeof commandArguments !== "object")
	return deliverFailure(`invoke expects an object for command arguments but its type is '${typeof commandArguments}'.`);

	let parameters = {};
	for (let {name, type, optional} of instance.callSignature) {
	if (!(name in commandArguments) && !optional)
	return deliverFailure(`Missing argument '${name}' for command '${instance.qualifiedName}'.`);

	let value = commandArguments[name];
	if (optional && value === undefined)
	continue;

	if (typeof value !== type)
	return deliverFailure(`Invalid type of argument '${name}' for command '${instance.qualifiedName}' call. It must be '${type}' but it is '${typeof value}'.`);

	parameters[name] = value;
	}

	agent = agent \|\| instance._agent;
	if (typeof callback === "function")
	agent._connection._sendCommandToBackendWithCallback(instance, parameters, callback);
	else
	return agent._connection._sendCommandToBackendExpectingPromise(instance, parameters);
	},

	supports(parameterName)
	{
	"use strict";

	return this._instance.callSignature.some((parameter) => parameter["name"] === parameterName);
	},

	// Private

	_invokeWithArguments(agent, commandArguments)
	{
	"use strict";

	let instance = this._instance;
	let callback = typeof commandArguments.lastValue === "function" ? commandArguments.pop() : null;

	function deliverFailure(message) {
	console.error(`Protocol Error: ${message}`);
	if (callback)
	setTimeout(callback.bind(null, message), 0);
	else
	return Promise.reject(new Error(message));
	}

	let parameters = {};
	for (let {name, type, optional} of instance.callSignature) {
	if (!commandArguments.length && !optional)
	return deliverFailure(`Invalid number of arguments for command '${instance.qualifiedName}'.`);

	let value = commandArguments.shift();
	if (optional && value === undefined)
	continue;

	if (typeof value !== type)
	return deliverFailure(`Invalid type of argument '${name}' for command '${instance.qualifiedName}' call. It must be '${type}' but it is '${typeof value}'.`);

	parameters[name] = value;
	}

	if (!callback && commandArguments.length === 1 && commandArguments[0] !== undefined)
	return deliverFailure(`Protocol Error: Optional callback argument for command '${instance.qualifiedName}' call must be a function but its type is '${typeof commandArguments[0]}'.`);

	if (callback)
	agent._connection._sendCommandToBackendWithCallback(instance, parameters, callback);
	else
	return agent._connection._sendCommandToBackendExpectingPromise(instance, parameters);
	}
	};

	InspectorBackend.Event = class Event
	{
	constructor(eventName, parameterNames)
	{
	this.eventName = eventName;
	this.parameterNames = parameterNames;
	}
	};