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|
/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* vim: set ft= javascript ts=2 et sw=2 tw=80: */
/* 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 {Cc, Ci, Cm, Cu, Cr, components} = require("chrome");
const Services = require("Services");
const { XPCOMUtils } = require("resource://gre/modules/XPCOMUtils.jsm");
loader.lazyRequireGetter(this, "NetworkHelper",
"devtools/shared/webconsole/network-helper");
loader.lazyRequireGetter(this, "DevToolsUtils",
"devtools/shared/DevToolsUtils");
loader.lazyRequireGetter(this, "flags",
"devtools/shared/flags");
loader.lazyRequireGetter(this, "DebuggerServer",
"devtools/server/main", true);
loader.lazyImporter(this, "NetUtil", "resource://gre/modules/NetUtil.jsm");
loader.lazyServiceGetter(this, "gActivityDistributor",
"@mozilla.org/network/http-activity-distributor;1",
"nsIHttpActivityDistributor");
const {NetworkThrottleManager} = require("devtools/shared/webconsole/throttle");
// Network logging
// The maximum uint32 value.
const PR_UINT32_MAX = 4294967295;
// HTTP status codes.
const HTTP_MOVED_PERMANENTLY = 301;
const HTTP_FOUND = 302;
const HTTP_SEE_OTHER = 303;
const HTTP_TEMPORARY_REDIRECT = 307;
// The maximum number of bytes a NetworkResponseListener can hold: 1 MB
const RESPONSE_BODY_LIMIT = 1048576;
// Exported for testing.
exports.RESPONSE_BODY_LIMIT = RESPONSE_BODY_LIMIT;
/**
* Check if a given network request should be logged by a network monitor
* based on the specified filters.
*
* @param nsIHttpChannel channel
* Request to check.
* @param filters
* NetworkMonitor filters to match against.
* @return boolean
* True if the network request should be logged, false otherwise.
*/
function matchRequest(channel, filters) {
// Log everything if no filter is specified
if (!filters.outerWindowID && !filters.window && !filters.appId) {
return true;
}
// Ignore requests from chrome or add-on code when we are monitoring
// content.
// TODO: one particular test (browser_styleeditor_fetch-from-cache.js) needs
// the flags.testing check. We will move to a better way to serve
// its needs in bug 1167188, where this check should be removed.
if (!flags.testing && channel.loadInfo &&
channel.loadInfo.loadingDocument === null &&
channel.loadInfo.loadingPrincipal ===
Services.scriptSecurityManager.getSystemPrincipal()) {
return false;
}
if (filters.window) {
// Since frames support, this.window may not be the top level content
// frame, so that we can't only compare with win.top.
let win = NetworkHelper.getWindowForRequest(channel);
while (win) {
if (win == filters.window) {
return true;
}
if (win.parent == win) {
break;
}
win = win.parent;
}
}
if (filters.outerWindowID) {
let topFrame = NetworkHelper.getTopFrameForRequest(channel);
if (topFrame && topFrame.outerWindowID &&
topFrame.outerWindowID == filters.outerWindowID) {
return true;
}
}
if (filters.appId) {
let appId = NetworkHelper.getAppIdForRequest(channel);
if (appId && appId == filters.appId) {
return true;
}
}
return false;
}
/**
* This is a nsIChannelEventSink implementation that monitors channel redirects and
* informs the registered StackTraceCollector about the old and new channels.
*/
const SINK_CLASS_DESCRIPTION = "NetworkMonitor Channel Event Sink";
const SINK_CLASS_ID = components.ID("{e89fa076-c845-48a8-8c45-2604729eba1d}");
const SINK_CONTRACT_ID = "@mozilla.org/network/monitor/channeleventsink;1";
const SINK_CATEGORY_NAME = "net-channel-event-sinks";
function ChannelEventSink() {
this.wrappedJSObject = this;
this.collectors = new Set();
}
ChannelEventSink.prototype = {
QueryInterface: XPCOMUtils.generateQI([Ci.nsIChannelEventSink]),
registerCollector(collector) {
this.collectors.add(collector);
},
unregisterCollector(collector) {
this.collectors.delete(collector);
if (this.collectors.size == 0) {
ChannelEventSinkFactory.unregister();
}
},
asyncOnChannelRedirect(oldChannel, newChannel, flags, callback) {
for (let collector of this.collectors) {
try {
collector.onChannelRedirect(oldChannel, newChannel, flags);
} catch (ex) {
console.error("StackTraceCollector.onChannelRedirect threw an exception", ex);
}
}
callback.onRedirectVerifyCallback(Cr.NS_OK);
}
};
const ChannelEventSinkFactory = XPCOMUtils.generateSingletonFactory(ChannelEventSink);
ChannelEventSinkFactory.register = function () {
const registrar = Cm.QueryInterface(Ci.nsIComponentRegistrar);
if (registrar.isCIDRegistered(SINK_CLASS_ID)) {
return;
}
registrar.registerFactory(SINK_CLASS_ID,
SINK_CLASS_DESCRIPTION,
SINK_CONTRACT_ID,
ChannelEventSinkFactory);
XPCOMUtils.categoryManager.addCategoryEntry(SINK_CATEGORY_NAME, SINK_CONTRACT_ID,
SINK_CONTRACT_ID, false, true);
};
ChannelEventSinkFactory.unregister = function () {
const registrar = Cm.QueryInterface(Ci.nsIComponentRegistrar);
registrar.unregisterFactory(SINK_CLASS_ID, ChannelEventSinkFactory);
XPCOMUtils.categoryManager.deleteCategoryEntry(SINK_CATEGORY_NAME, SINK_CONTRACT_ID,
false);
};
ChannelEventSinkFactory.getService = function () {
// Make sure the ChannelEventSink service is registered before accessing it
ChannelEventSinkFactory.register();
return Cc[SINK_CONTRACT_ID].getService(Ci.nsIChannelEventSink).wrappedJSObject;
};
function StackTraceCollector(filters) {
this.filters = filters;
this.stacktracesById = new Map();
}
StackTraceCollector.prototype = {
init() {
Services.obs.addObserver(this, "http-on-opening-request", false);
ChannelEventSinkFactory.getService().registerCollector(this);
},
destroy() {
Services.obs.removeObserver(this, "http-on-opening-request");
ChannelEventSinkFactory.getService().unregisterCollector(this);
},
_saveStackTrace(channel, stacktrace) {
this.stacktracesById.set(channel.channelId, stacktrace);
},
observe(subject) {
let channel = subject.QueryInterface(Ci.nsIHttpChannel);
if (!matchRequest(channel, this.filters)) {
return;
}
// Convert the nsIStackFrame XPCOM objects to a nice JSON that can be
// passed around through message managers etc.
let frame = components.stack;
let stacktrace = [];
if (frame && frame.caller) {
frame = frame.caller;
while (frame) {
stacktrace.push({
filename: frame.filename,
lineNumber: frame.lineNumber,
columnNumber: frame.columnNumber,
functionName: frame.name,
asyncCause: frame.asyncCause,
});
frame = frame.caller || frame.asyncCaller;
}
}
this._saveStackTrace(channel, stacktrace);
},
onChannelRedirect(oldChannel, newChannel, flags) {
// We can be called with any nsIChannel, but are interested only in HTTP channels
try {
oldChannel.QueryInterface(Ci.nsIHttpChannel);
newChannel.QueryInterface(Ci.nsIHttpChannel);
} catch (ex) {
return;
}
let oldId = oldChannel.channelId;
let stacktrace = this.stacktracesById.get(oldId);
if (stacktrace) {
this.stacktracesById.delete(oldId);
this._saveStackTrace(newChannel, stacktrace);
}
},
getStackTrace(channelId) {
let trace = this.stacktracesById.get(channelId);
this.stacktracesById.delete(channelId);
return trace;
}
};
exports.StackTraceCollector = StackTraceCollector;
/**
* The network response listener implements the nsIStreamListener and
* nsIRequestObserver interfaces. This is used within the NetworkMonitor feature
* to get the response body of the request.
*
* The code is mostly based on code listings from:
*
* http://www.softwareishard.com/blog/firebug/
* nsitraceablechannel-intercept-http-traffic/
*
* @constructor
* @param object owner
* The response listener owner. This object needs to hold the
* |openResponses| object.
* @param object httpActivity
* HttpActivity object associated with this request. See NetworkMonitor
* for more information.
*/
function NetworkResponseListener(owner, httpActivity) {
this.owner = owner;
this.receivedData = "";
this.httpActivity = httpActivity;
this.bodySize = 0;
// Note that this is really only needed for the non-e10s case.
// See bug 1309523.
let channel = this.httpActivity.channel;
this._wrappedNotificationCallbacks = channel.notificationCallbacks;
channel.notificationCallbacks = this;
}
NetworkResponseListener.prototype = {
QueryInterface:
XPCOMUtils.generateQI([Ci.nsIStreamListener, Ci.nsIInputStreamCallback,
Ci.nsIRequestObserver, Ci.nsIInterfaceRequestor,
Ci.nsISupports]),
// nsIInterfaceRequestor implementation
/**
* This object implements nsIProgressEventSink, but also needs to forward
* interface requests to the notification callbacks of other objects.
*/
getInterface(iid) {
if (iid.equals(Ci.nsIProgressEventSink)) {
return this;
}
if (this._wrappedNotificationCallbacks) {
return this._wrappedNotificationCallbacks.getInterface(iid);
}
throw Cr.NS_ERROR_NO_INTERFACE;
},
/**
* Forward notifications for interfaces this object implements, in case other
* objects also implemented them.
*/
_forwardNotification(iid, method, args) {
if (!this._wrappedNotificationCallbacks) {
return;
}
try {
let impl = this._wrappedNotificationCallbacks.getInterface(iid);
impl[method].apply(impl, args);
} catch (e) {
if (e.result != Cr.NS_ERROR_NO_INTERFACE) {
throw e;
}
}
},
/**
* This NetworkResponseListener tracks the NetworkMonitor.openResponses object
* to find the associated uncached headers.
* @private
*/
_foundOpenResponse: false,
/**
* If the channel already had notificationCallbacks, hold them here internally
* so that we can forward getInterface requests to that object.
*/
_wrappedNotificationCallbacks: null,
/**
* The response listener owner.
*/
owner: null,
/**
* The response will be written into the outputStream of this nsIPipe.
* Both ends of the pipe must be blocking.
*/
sink: null,
/**
* The HttpActivity object associated with this response.
*/
httpActivity: null,
/**
* Stores the received data as a string.
*/
receivedData: null,
/**
* The uncompressed, decoded response body size.
*/
bodySize: null,
/**
* Response body size on the wire, potentially compressed / encoded.
*/
transferredSize: null,
/**
* The nsIRequest we are started for.
*/
request: null,
/**
* Set the async listener for the given nsIAsyncInputStream. This allows us to
* wait asynchronously for any data coming from the stream.
*
* @param nsIAsyncInputStream stream
* The input stream from where we are waiting for data to come in.
* @param nsIInputStreamCallback listener
* The input stream callback you want. This is an object that must have
* the onInputStreamReady() method. If the argument is null, then the
* current callback is removed.
* @return void
*/
setAsyncListener: function (stream, listener) {
// Asynchronously wait for the stream to be readable or closed.
stream.asyncWait(listener, 0, 0, Services.tm.mainThread);
},
/**
* Stores the received data, if request/response body logging is enabled. It
* also does limit the number of stored bytes, based on the
* RESPONSE_BODY_LIMIT constant.
*
* Learn more about nsIStreamListener at:
* https://developer.mozilla.org/en/XPCOM_Interface_Reference/nsIStreamListener
*
* @param nsIRequest request
* @param nsISupports context
* @param nsIInputStream inputStream
* @param unsigned long offset
* @param unsigned long count
*/
onDataAvailable: function (request, context, inputStream, offset, count) {
this._findOpenResponse();
let data = NetUtil.readInputStreamToString(inputStream, count);
this.bodySize += count;
if (!this.httpActivity.discardResponseBody &&
this.receivedData.length < RESPONSE_BODY_LIMIT) {
this.receivedData +=
NetworkHelper.convertToUnicode(data, request.contentCharset);
}
},
/**
* See documentation at
* https://developer.mozilla.org/En/NsIRequestObserver
*
* @param nsIRequest request
* @param nsISupports context
*/
onStartRequest: function (request) {
// Converter will call this again, we should just ignore that.
if (this.request) {
return;
}
this.request = request;
this._getSecurityInfo();
this._findOpenResponse();
// We need to track the offset for the onDataAvailable calls where
// we pass the data from our pipe to the converter.
this.offset = 0;
// In the multi-process mode, the conversion happens on the child
// side while we can only monitor the channel on the parent
// side. If the content is gzipped, we have to unzip it
// ourself. For that we use the stream converter services. Do not
// do that for Service workers as they are run in the child
// process.
let channel = this.request;
if (!this.httpActivity.fromServiceWorker &&
channel instanceof Ci.nsIEncodedChannel &&
channel.contentEncodings &&
!channel.applyConversion) {
let encodingHeader = channel.getResponseHeader("Content-Encoding");
let scs = Cc["@mozilla.org/streamConverters;1"]
.getService(Ci.nsIStreamConverterService);
let encodings = encodingHeader.split(/\s*\t*,\s*\t*/);
let nextListener = this;
let acceptedEncodings = ["gzip", "deflate", "br", "x-gzip", "x-deflate"];
for (let i in encodings) {
// There can be multiple conversions applied
let enc = encodings[i].toLowerCase();
if (acceptedEncodings.indexOf(enc) > -1) {
this.converter = scs.asyncConvertData(enc, "uncompressed",
nextListener, null);
nextListener = this.converter;
}
}
if (this.converter) {
this.converter.onStartRequest(this.request, null);
}
}
// Asynchronously wait for the data coming from the request.
this.setAsyncListener(this.sink.inputStream, this);
},
/**
* Parse security state of this request and report it to the client.
*/
_getSecurityInfo: DevToolsUtils.makeInfallible(function () {
// Many properties of the securityInfo (e.g., the server certificate or HPKP
// status) are not available in the content process and can't be even touched safely,
// because their C++ getters trigger assertions. This function is called in content
// process for synthesized responses from service workers, in the parent otherwise.
if (Services.appinfo.processType == Ci.nsIXULRuntime.PROCESS_TYPE_CONTENT) {
return;
}
// Take the security information from the original nsIHTTPChannel instead of
// the nsIRequest received in onStartRequest. If response to this request
// was a redirect from http to https, the request object seems to contain
// security info for the https request after redirect.
let secinfo = this.httpActivity.channel.securityInfo;
let info = NetworkHelper.parseSecurityInfo(secinfo, this.httpActivity);
this.httpActivity.owner.addSecurityInfo(info);
}),
/**
* Handle the onStopRequest by closing the sink output stream.
*
* For more documentation about nsIRequestObserver go to:
* https://developer.mozilla.org/En/NsIRequestObserver
*/
onStopRequest: function () {
this._findOpenResponse();
this.sink.outputStream.close();
},
// nsIProgressEventSink implementation
/**
* Handle progress event as data is transferred. This is used to record the
* size on the wire, which may be compressed / encoded.
*/
onProgress: function (request, context, progress, progressMax) {
this.transferredSize = progress;
// Need to forward as well to keep things like Download Manager's progress
// bar working properly.
this._forwardNotification(Ci.nsIProgressEventSink, "onProgress", arguments);
},
onStatus: function () {
this._forwardNotification(Ci.nsIProgressEventSink, "onStatus", arguments);
},
/**
* Find the open response object associated to the current request. The
* NetworkMonitor._httpResponseExaminer() method saves the response headers in
* NetworkMonitor.openResponses. This method takes the data from the open
* response object and puts it into the HTTP activity object, then sends it to
* the remote Web Console instance.
*
* @private
*/
_findOpenResponse: function () {
if (!this.owner || this._foundOpenResponse) {
return;
}
let openResponse = null;
for (let id in this.owner.openResponses) {
let item = this.owner.openResponses[id];
if (item.channel === this.httpActivity.channel) {
openResponse = item;
break;
}
}
if (!openResponse) {
return;
}
this._foundOpenResponse = true;
delete this.owner.openResponses[openResponse.id];
this.httpActivity.owner.addResponseHeaders(openResponse.headers);
this.httpActivity.owner.addResponseCookies(openResponse.cookies);
},
/**
* Clean up the response listener once the response input stream is closed.
* This is called from onStopRequest() or from onInputStreamReady() when the
* stream is closed.
* @return void
*/
onStreamClose: function () {
if (!this.httpActivity) {
return;
}
// Remove our listener from the request input stream.
this.setAsyncListener(this.sink.inputStream, null);
this._findOpenResponse();
if (!this.httpActivity.discardResponseBody && this.receivedData.length) {
this._onComplete(this.receivedData);
} else if (!this.httpActivity.discardResponseBody &&
this.httpActivity.responseStatus == 304) {
// Response is cached, so we load it from cache.
let charset = this.request.contentCharset || this.httpActivity.charset;
NetworkHelper.loadFromCache(this.httpActivity.url, charset,
this._onComplete.bind(this));
} else {
this._onComplete();
}
},
/**
* Handler for when the response completes. This function cleans up the
* response listener.
*
* @param string [data]
* Optional, the received data coming from the response listener or
* from the cache.
*/
_onComplete: function (data) {
let response = {
mimeType: "",
text: data || "",
};
response.size = this.bodySize;
response.transferredSize = this.transferredSize;
try {
response.mimeType = this.request.contentType;
} catch (ex) {
// Ignore.
}
if (!response.mimeType ||
!NetworkHelper.isTextMimeType(response.mimeType)) {
response.encoding = "base64";
try {
response.text = btoa(response.text);
} catch (err) {
// Ignore.
}
}
if (response.mimeType && this.request.contentCharset) {
response.mimeType += "; charset=" + this.request.contentCharset;
}
this.receivedData = "";
this.httpActivity.owner.addResponseContent(
response,
this.httpActivity.discardResponseBody
);
this._wrappedNotificationCallbacks = null;
this.httpActivity = null;
this.sink = null;
this.inputStream = null;
this.converter = null;
this.request = null;
this.owner = null;
},
/**
* The nsIInputStreamCallback for when the request input stream is ready -
* either it has more data or it is closed.
*
* @param nsIAsyncInputStream stream
* The sink input stream from which data is coming.
* @returns void
*/
onInputStreamReady: function (stream) {
if (!(stream instanceof Ci.nsIAsyncInputStream) || !this.httpActivity) {
return;
}
let available = -1;
try {
// This may throw if the stream is closed normally or due to an error.
available = stream.available();
} catch (ex) {
// Ignore.
}
if (available != -1) {
if (available != 0) {
if (this.converter) {
this.converter.onDataAvailable(this.request, null, stream,
this.offset, available);
} else {
this.onDataAvailable(this.request, null, stream, this.offset,
available);
}
}
this.offset += available;
this.setAsyncListener(stream, this);
} else {
this.onStreamClose();
this.offset = 0;
}
},
};
/**
* The network monitor uses the nsIHttpActivityDistributor to monitor network
* requests. The nsIObserverService is also used for monitoring
* http-on-examine-response notifications. All network request information is
* routed to the remote Web Console.
*
* @constructor
* @param object filters
* Object with the filters to use for network requests:
* - window (nsIDOMWindow): filter network requests by the associated
* window object.
* - appId (number): filter requests by the appId.
* - outerWindowID (number): filter requests by their top frame's outerWindowID.
* Filters are optional. If any of these filters match the request is
* logged (OR is applied). If no filter is provided then all requests are
* logged.
* @param object owner
* The network monitor owner. This object needs to hold:
* - onNetworkEvent(requestInfo)
* This method is invoked once for every new network request and it is
* given the initial network request information as an argument.
* onNetworkEvent() must return an object which holds several add*()
* methods which are used to add further network request/response information.
* - stackTraceCollector
* If the owner has this optional property, it will be used as a
* StackTraceCollector by the NetworkMonitor.
*/
function NetworkMonitor(filters, owner) {
this.filters = filters;
this.owner = owner;
this.openRequests = {};
this.openResponses = {};
this._httpResponseExaminer =
DevToolsUtils.makeInfallible(this._httpResponseExaminer).bind(this);
this._httpModifyExaminer =
DevToolsUtils.makeInfallible(this._httpModifyExaminer).bind(this);
this._serviceWorkerRequest = this._serviceWorkerRequest.bind(this);
this._throttleData = null;
this._throttler = null;
}
exports.NetworkMonitor = NetworkMonitor;
NetworkMonitor.prototype = {
filters: null,
httpTransactionCodes: {
0x5001: "REQUEST_HEADER",
0x5002: "REQUEST_BODY_SENT",
0x5003: "RESPONSE_START",
0x5004: "RESPONSE_HEADER",
0x5005: "RESPONSE_COMPLETE",
0x5006: "TRANSACTION_CLOSE",
0x804b0003: "STATUS_RESOLVING",
0x804b000b: "STATUS_RESOLVED",
0x804b0007: "STATUS_CONNECTING_TO",
0x804b0004: "STATUS_CONNECTED_TO",
0x804b0005: "STATUS_SENDING_TO",
0x804b000a: "STATUS_WAITING_FOR",
0x804b0006: "STATUS_RECEIVING_FROM"
},
httpDownloadActivities: [
gActivityDistributor.ACTIVITY_SUBTYPE_RESPONSE_START,
gActivityDistributor.ACTIVITY_SUBTYPE_RESPONSE_HEADER,
gActivityDistributor.ACTIVITY_SUBTYPE_RESPONSE_COMPLETE,
gActivityDistributor.ACTIVITY_SUBTYPE_TRANSACTION_CLOSE
],
// Network response bodies are piped through a buffer of the given size (in
// bytes).
responsePipeSegmentSize: null,
owner: null,
/**
* Whether to save the bodies of network requests and responses.
* @type boolean
*/
saveRequestAndResponseBodies: true,
/**
* Object that holds the HTTP activity objects for ongoing requests.
*/
openRequests: null,
/**
* Object that holds response headers coming from this._httpResponseExaminer.
*/
openResponses: null,
/**
* The network monitor initializer.
*/
init: function () {
this.responsePipeSegmentSize = Services.prefs
.getIntPref("network.buffer.cache.size");
this.interceptedChannels = new Set();
if (Services.appinfo.processType != Ci.nsIXULRuntime.PROCESS_TYPE_CONTENT) {
gActivityDistributor.addObserver(this);
Services.obs.addObserver(this._httpResponseExaminer,
"http-on-examine-response", false);
Services.obs.addObserver(this._httpResponseExaminer,
"http-on-examine-cached-response", false);
Services.obs.addObserver(this._httpModifyExaminer,
"http-on-modify-request", false);
}
// In child processes, only watch for service worker requests
// everything else only happens in the parent process
Services.obs.addObserver(this._serviceWorkerRequest,
"service-worker-synthesized-response", false);
},
get throttleData() {
return this._throttleData;
},
set throttleData(value) {
this._throttleData = value;
// Clear out any existing throttlers
this._throttler = null;
},
_getThrottler: function () {
if (this.throttleData !== null && this._throttler === null) {
this._throttler = new NetworkThrottleManager(this.throttleData);
}
return this._throttler;
},
_serviceWorkerRequest: function (subject, topic, data) {
let channel = subject.QueryInterface(Ci.nsIHttpChannel);
if (!matchRequest(channel, this.filters)) {
return;
}
this.interceptedChannels.add(subject);
// On e10s, we never receive http-on-examine-cached-response, so fake one.
if (Services.appinfo.processType == Ci.nsIXULRuntime.PROCESS_TYPE_CONTENT) {
this._httpResponseExaminer(channel, "http-on-examine-cached-response");
}
},
/**
* Observe notifications for the http-on-examine-response topic, coming from
* the nsIObserverService.
*
* @private
* @param nsIHttpChannel subject
* @param string topic
* @returns void
*/
_httpResponseExaminer: function (subject, topic) {
// The httpResponseExaminer is used to retrieve the uncached response
// headers. The data retrieved is stored in openResponses. The
// NetworkResponseListener is responsible with updating the httpActivity
// object with the data from the new object in openResponses.
if (!this.owner ||
(topic != "http-on-examine-response" &&
topic != "http-on-examine-cached-response") ||
!(subject instanceof Ci.nsIHttpChannel)) {
return;
}
let channel = subject.QueryInterface(Ci.nsIHttpChannel);
if (!matchRequest(channel, this.filters)) {
return;
}
let response = {
id: gSequenceId(),
channel: channel,
headers: [],
cookies: [],
};
let setCookieHeader = null;
channel.visitResponseHeaders({
visitHeader: function (name, value) {
let lowerName = name.toLowerCase();
if (lowerName == "set-cookie") {
setCookieHeader = value;
}
response.headers.push({ name: name, value: value });
}
});
if (!response.headers.length) {
// No need to continue.
return;
}
if (setCookieHeader) {
response.cookies = NetworkHelper.parseSetCookieHeader(setCookieHeader);
}
// Determine the HTTP version.
let httpVersionMaj = {};
let httpVersionMin = {};
channel.QueryInterface(Ci.nsIHttpChannelInternal);
channel.getResponseVersion(httpVersionMaj, httpVersionMin);
response.status = channel.responseStatus;
response.statusText = channel.responseStatusText;
response.httpVersion = "HTTP/" + httpVersionMaj.value + "." +
httpVersionMin.value;
this.openResponses[response.id] = response;
if (topic === "http-on-examine-cached-response") {
// Service worker requests emits cached-reponse notification on non-e10s,
// and we fake one on e10s.
let fromServiceWorker = this.interceptedChannels.has(channel);
this.interceptedChannels.delete(channel);
// If this is a cached response, there never was a request event
// so we need to construct one here so the frontend gets all the
// expected events.
let httpActivity = this._createNetworkEvent(channel, {
fromCache: !fromServiceWorker,
fromServiceWorker: fromServiceWorker
});
httpActivity.owner.addResponseStart({
httpVersion: response.httpVersion,
remoteAddress: "",
remotePort: "",
status: response.status,
statusText: response.statusText,
headersSize: 0,
}, "", true);
// There also is never any timing events, so we can fire this
// event with zeroed out values.
let timings = this._setupHarTimings(httpActivity, true);
httpActivity.owner.addEventTimings(timings.total, timings.timings);
}
},
/**
* Observe notifications for the http-on-modify-request topic, coming from
* the nsIObserverService.
*
* @private
* @param nsIHttpChannel aSubject
* @returns void
*/
_httpModifyExaminer: function (subject) {
let throttler = this._getThrottler();
if (throttler) {
let channel = subject.QueryInterface(Ci.nsIHttpChannel);
if (matchRequest(channel, this.filters)) {
// Read any request body here, before it is throttled.
let httpActivity = this.createOrGetActivityObject(channel);
this._onRequestBodySent(httpActivity);
throttler.manageUpload(channel);
}
}
},
/**
* A helper function for observeActivity. This does whatever work
* is required by a particular http activity event. Arguments are
* the same as for observeActivity.
*/
_dispatchActivity: function (httpActivity, channel, activityType,
activitySubtype, timestamp, extraSizeData,
extraStringData) {
let transCodes = this.httpTransactionCodes;
// Store the time information for this activity subtype.
if (activitySubtype in transCodes) {
let stage = transCodes[activitySubtype];
if (stage in httpActivity.timings) {
httpActivity.timings[stage].last = timestamp;
} else {
httpActivity.timings[stage] = {
first: timestamp,
last: timestamp,
};
}
}
switch (activitySubtype) {
case gActivityDistributor.ACTIVITY_SUBTYPE_REQUEST_BODY_SENT:
this._onRequestBodySent(httpActivity);
if (httpActivity.sentBody !== null) {
httpActivity.owner.addRequestPostData({ text: httpActivity.sentBody });
httpActivity.sentBody = null;
}
break;
case gActivityDistributor.ACTIVITY_SUBTYPE_RESPONSE_HEADER:
this._onResponseHeader(httpActivity, extraStringData);
break;
case gActivityDistributor.ACTIVITY_SUBTYPE_TRANSACTION_CLOSE:
this._onTransactionClose(httpActivity);
break;
default:
break;
}
},
/**
* Begin observing HTTP traffic that originates inside the current tab.
*
* @see https://developer.mozilla.org/en/XPCOM_Interface_Reference/nsIHttpActivityObserver
*
* @param nsIHttpChannel channel
* @param number activityType
* @param number activitySubtype
* @param number timestamp
* @param number extraSizeData
* @param string extraStringData
*/
observeActivity:
DevToolsUtils.makeInfallible(function (channel, activityType, activitySubtype,
timestamp, extraSizeData,
extraStringData) {
if (!this.owner ||
activityType != gActivityDistributor.ACTIVITY_TYPE_HTTP_TRANSACTION &&
activityType != gActivityDistributor.ACTIVITY_TYPE_SOCKET_TRANSPORT) {
return;
}
if (!(channel instanceof Ci.nsIHttpChannel)) {
return;
}
channel = channel.QueryInterface(Ci.nsIHttpChannel);
if (activitySubtype ==
gActivityDistributor.ACTIVITY_SUBTYPE_REQUEST_HEADER) {
this._onRequestHeader(channel, timestamp, extraStringData);
return;
}
// Iterate over all currently ongoing requests. If channel can't
// be found within them, then exit this function.
let httpActivity = this._findActivityObject(channel);
if (!httpActivity) {
return;
}
// If we're throttling, we must not report events as they arrive
// from platform, but instead let the throttler emit the events
// after some time has elapsed.
if (httpActivity.downloadThrottle &&
this.httpDownloadActivities.indexOf(activitySubtype) >= 0) {
let callback = this._dispatchActivity.bind(this);
httpActivity.downloadThrottle
.addActivityCallback(callback, httpActivity, channel, activityType,
activitySubtype, timestamp, extraSizeData,
extraStringData);
} else {
this._dispatchActivity(httpActivity, channel, activityType,
activitySubtype, timestamp, extraSizeData,
extraStringData);
}
}),
/**
*
*/
_createNetworkEvent: function (channel, { timestamp, extraStringData,
fromCache, fromServiceWorker }) {
let httpActivity = this.createOrGetActivityObject(channel);
channel.QueryInterface(Ci.nsIPrivateBrowsingChannel);
httpActivity.private = channel.isChannelPrivate;
if (timestamp) {
httpActivity.timings.REQUEST_HEADER = {
first: timestamp,
last: timestamp
};
}
let event = {};
event.method = channel.requestMethod;
event.channelId = channel.channelId;
event.url = channel.URI.spec;
event.private = httpActivity.private;
event.headersSize = 0;
event.startedDateTime =
(timestamp ? new Date(Math.round(timestamp / 1000)) : new Date())
.toISOString();
event.fromCache = fromCache;
event.fromServiceWorker = fromServiceWorker;
httpActivity.fromServiceWorker = fromServiceWorker;
if (extraStringData) {
event.headersSize = extraStringData.length;
}
// Determine the cause and if this is an XHR request.
let causeType = channel.loadInfo.externalContentPolicyType;
let loadingPrincipal = channel.loadInfo.loadingPrincipal;
let causeUri = loadingPrincipal ? loadingPrincipal.URI : null;
let stacktrace;
// If this is the parent process, there is no stackTraceCollector - the stack
// trace will be added in NetworkMonitorChild._onNewEvent.
if (this.owner.stackTraceCollector) {
stacktrace = this.owner.stackTraceCollector.getStackTrace(event.channelId);
}
event.cause = {
type: causeType,
loadingDocumentUri: causeUri ? causeUri.spec : null,
stacktrace
};
httpActivity.isXHR = event.isXHR =
(causeType === Ci.nsIContentPolicy.TYPE_XMLHTTPREQUEST ||
causeType === Ci.nsIContentPolicy.TYPE_FETCH);
// Determine the HTTP version.
let httpVersionMaj = {};
let httpVersionMin = {};
channel.QueryInterface(Ci.nsIHttpChannelInternal);
channel.getRequestVersion(httpVersionMaj, httpVersionMin);
event.httpVersion = "HTTP/" + httpVersionMaj.value + "." +
httpVersionMin.value;
event.discardRequestBody = !this.saveRequestAndResponseBodies;
event.discardResponseBody = !this.saveRequestAndResponseBodies;
let headers = [];
let cookies = [];
let cookieHeader = null;
// Copy the request header data.
channel.visitRequestHeaders({
visitHeader: function (name, value) {
if (name == "Cookie") {
cookieHeader = value;
}
headers.push({ name: name, value: value });
}
});
if (cookieHeader) {
cookies = NetworkHelper.parseCookieHeader(cookieHeader);
}
httpActivity.owner = this.owner.onNetworkEvent(event);
this._setupResponseListener(httpActivity, fromCache);
httpActivity.owner.addRequestHeaders(headers, extraStringData);
httpActivity.owner.addRequestCookies(cookies);
return httpActivity;
},
/**
* Handler for ACTIVITY_SUBTYPE_REQUEST_HEADER. When a request starts the
* headers are sent to the server. This method creates the |httpActivity|
* object where we store the request and response information that is
* collected through its lifetime.
*
* @private
* @param nsIHttpChannel channel
* @param number timestamp
* @param string extraStringData
* @return void
*/
_onRequestHeader: function (channel, timestamp, extraStringData) {
if (!matchRequest(channel, this.filters)) {
return;
}
this._createNetworkEvent(channel, { timestamp, extraStringData });
},
/**
* Find an HTTP activity object for the channel.
*
* @param nsIHttpChannel channel
* The HTTP channel whose activity object we want to find.
* @return object
* The HTTP activity object, or null if it is not found.
*/
_findActivityObject: function (channel) {
for (let id in this.openRequests) {
let item = this.openRequests[id];
if (item.channel === channel) {
return item;
}
}
return null;
},
/**
* Find an existing HTTP activity object, or create a new one. This
* object is used for storing all the request and response
* information.
*
* This is a HAR-like object. Conformance to the spec is not guaranteed at
* this point.
*
* @see http://www.softwareishard.com/blog/har-12-spec
* @param nsIHttpChannel channel
* The HTTP channel for which the HTTP activity object is created.
* @return object
* The new HTTP activity object.
*/
createOrGetActivityObject: function (channel) {
let httpActivity = this._findActivityObject(channel);
if (!httpActivity) {
let win = NetworkHelper.getWindowForRequest(channel);
let charset = win ? win.document.characterSet : null;
httpActivity = {
id: gSequenceId(),
channel: channel,
// see _onRequestBodySent()
charset: charset,
sentBody: null,
url: channel.URI.spec,
// needed for host specific security info
hostname: channel.URI.host,
discardRequestBody: !this.saveRequestAndResponseBodies,
discardResponseBody: !this.saveRequestAndResponseBodies,
// internal timing information, see observeActivity()
timings: {},
// see _onResponseHeader()
responseStatus: null,
// the activity owner which is notified when changes happen
owner: null,
};
this.openRequests[httpActivity.id] = httpActivity;
}
return httpActivity;
},
/**
* Setup the network response listener for the given HTTP activity. The
* NetworkResponseListener is responsible for storing the response body.
*
* @private
* @param object httpActivity
* The HTTP activity object we are tracking.
*/
_setupResponseListener: function (httpActivity, fromCache) {
let channel = httpActivity.channel;
channel.QueryInterface(Ci.nsITraceableChannel);
if (!fromCache) {
let throttler = this._getThrottler();
if (throttler) {
httpActivity.downloadThrottle = throttler.manage(channel);
}
}
// The response will be written into the outputStream of this pipe.
// This allows us to buffer the data we are receiving and read it
// asynchronously.
// Both ends of the pipe must be blocking.
let sink = Cc["@mozilla.org/pipe;1"].createInstance(Ci.nsIPipe);
// The streams need to be blocking because this is required by the
// stream tee.
sink.init(false, false, this.responsePipeSegmentSize, PR_UINT32_MAX, null);
// Add listener for the response body.
let newListener = new NetworkResponseListener(this, httpActivity);
// Remember the input stream, so it isn't released by GC.
newListener.inputStream = sink.inputStream;
newListener.sink = sink;
let tee = Cc["@mozilla.org/network/stream-listener-tee;1"]
.createInstance(Ci.nsIStreamListenerTee);
let originalListener = channel.setNewListener(tee);
tee.init(originalListener, sink.outputStream, newListener);
},
/**
* Handler for ACTIVITY_SUBTYPE_REQUEST_BODY_SENT. The request body is logged
* here.
*
* @private
* @param object httpActivity
* The HTTP activity object we are working with.
*/
_onRequestBodySent: function (httpActivity) {
// Return early if we don't need the request body, or if we've
// already found it.
if (httpActivity.discardRequestBody || httpActivity.sentBody !== null) {
return;
}
let sentBody = NetworkHelper.readPostTextFromRequest(httpActivity.channel,
httpActivity.charset);
if (sentBody !== null && this.window &&
httpActivity.url == this.window.location.href) {
// If the request URL is the same as the current page URL, then
// we can try to get the posted text from the page directly.
// This check is necessary as otherwise the
// NetworkHelper.readPostTextFromPageViaWebNav()
// function is called for image requests as well but these
// are not web pages and as such don't store the posted text
// in the cache of the webpage.
let webNav = this.window.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIWebNavigation);
sentBody = NetworkHelper
.readPostTextFromPageViaWebNav(webNav, httpActivity.charset);
}
if (sentBody !== null) {
httpActivity.sentBody = sentBody;
}
},
/**
* Handler for ACTIVITY_SUBTYPE_RESPONSE_HEADER. This method stores
* information about the response headers.
*
* @private
* @param object httpActivity
* The HTTP activity object we are working with.
* @param string extraStringData
* The uncached response headers.
*/
_onResponseHeader: function (httpActivity, extraStringData) {
// extraStringData contains the uncached response headers. The first line
// contains the response status (e.g. HTTP/1.1 200 OK).
//
// Note: The response header is not saved here. Calling the
// channel.visitResponseHeaders() method at this point sometimes causes an
// NS_ERROR_NOT_AVAILABLE exception.
//
// We could parse extraStringData to get the headers and their values, but
// that is not trivial to do in an accurate manner. Hence, we save the
// response headers in this._httpResponseExaminer().
let headers = extraStringData.split(/\r\n|\n|\r/);
let statusLine = headers.shift();
let statusLineArray = statusLine.split(" ");
let response = {};
response.httpVersion = statusLineArray.shift();
response.remoteAddress = httpActivity.channel.remoteAddress;
response.remotePort = httpActivity.channel.remotePort;
response.status = statusLineArray.shift();
response.statusText = statusLineArray.join(" ");
response.headersSize = extraStringData.length;
httpActivity.responseStatus = response.status;
// Discard the response body for known response statuses.
switch (parseInt(response.status, 10)) {
case HTTP_MOVED_PERMANENTLY:
case HTTP_FOUND:
case HTTP_SEE_OTHER:
case HTTP_TEMPORARY_REDIRECT:
httpActivity.discardResponseBody = true;
break;
}
response.discardResponseBody = httpActivity.discardResponseBody;
httpActivity.owner.addResponseStart(response, extraStringData);
},
/**
* Handler for ACTIVITY_SUBTYPE_TRANSACTION_CLOSE. This method updates the HAR
* timing information on the HTTP activity object and clears the request
* from the list of known open requests.
*
* @private
* @param object httpActivity
* The HTTP activity object we work with.
*/
_onTransactionClose: function (httpActivity) {
let result = this._setupHarTimings(httpActivity);
httpActivity.owner.addEventTimings(result.total, result.timings);
delete this.openRequests[httpActivity.id];
},
/**
* Update the HTTP activity object to include timing information as in the HAR
* spec. The HTTP activity object holds the raw timing information in
* |timings| - these are timings stored for each activity notification. The
* HAR timing information is constructed based on these lower level
* data.
*
* @param object httpActivity
* The HTTP activity object we are working with.
* @param boolean fromCache
* Indicates that the result was returned from the browser cache
* @return object
* This object holds two properties:
* - total - the total time for all of the request and response.
* - timings - the HAR timings object.
*/
_setupHarTimings: function (httpActivity, fromCache) {
if (fromCache) {
// If it came from the browser cache, we have no timing
// information and these should all be 0
return {
total: 0,
timings: {
blocked: 0,
dns: 0,
connect: 0,
send: 0,
wait: 0,
receive: 0
}
};
}
let timings = httpActivity.timings;
let harTimings = {};
if (timings.STATUS_RESOLVING && timings.STATUS_CONNECTING_TO) {
harTimings.blocked = timings.STATUS_RESOLVING.first -
timings.REQUEST_HEADER.first;
} else if (timings.STATUS_SENDING_TO) {
harTimings.blocked = timings.STATUS_SENDING_TO.first -
timings.REQUEST_HEADER.first;
} else {
harTimings.blocked = -1;
}
// DNS timing information is available only in when the DNS record is not
// cached.
harTimings.dns = timings.STATUS_RESOLVING && timings.STATUS_RESOLVED ?
timings.STATUS_RESOLVED.last -
timings.STATUS_RESOLVING.first : -1;
if (timings.STATUS_CONNECTING_TO && timings.STATUS_CONNECTED_TO) {
harTimings.connect = timings.STATUS_CONNECTED_TO.last -
timings.STATUS_CONNECTING_TO.first;
} else {
harTimings.connect = -1;
}
if (timings.STATUS_SENDING_TO) {
harTimings.send = timings.STATUS_SENDING_TO.last - timings.STATUS_SENDING_TO.first;
} else if (timings.REQUEST_HEADER && timings.REQUEST_BODY_SENT) {
harTimings.send = timings.REQUEST_BODY_SENT.last - timings.REQUEST_HEADER.first;
} else {
harTimings.send = -1;
}
if (timings.RESPONSE_START) {
harTimings.wait = timings.RESPONSE_START.first -
(timings.REQUEST_BODY_SENT ||
timings.STATUS_SENDING_TO).last;
} else {
harTimings.wait = -1;
}
if (timings.RESPONSE_START && timings.RESPONSE_COMPLETE) {
harTimings.receive = timings.RESPONSE_COMPLETE.last -
timings.RESPONSE_START.first;
} else {
harTimings.receive = -1;
}
let totalTime = 0;
for (let timing in harTimings) {
let time = Math.max(Math.round(harTimings[timing] / 1000), -1);
harTimings[timing] = time;
if (time > -1) {
totalTime += time;
}
}
return {
total: totalTime,
timings: harTimings,
};
},
/**
* Suspend Web Console activity. This is called when all Web Consoles are
* closed.
*/
destroy: function () {
if (Services.appinfo.processType != Ci.nsIXULRuntime.PROCESS_TYPE_CONTENT) {
gActivityDistributor.removeObserver(this);
Services.obs.removeObserver(this._httpResponseExaminer,
"http-on-examine-response");
Services.obs.removeObserver(this._httpResponseExaminer,
"http-on-examine-cached-response");
Services.obs.removeObserver(this._httpModifyExaminer,
"http-on-modify-request", false);
}
Services.obs.removeObserver(this._serviceWorkerRequest,
"service-worker-synthesized-response");
this.interceptedChannels.clear();
this.openRequests = {};
this.openResponses = {};
this.owner = null;
this.filters = null;
this._throttler = null;
},
};
/**
* The NetworkMonitorChild is used to proxy all of the network activity of the
* child app process from the main process. The child WebConsoleActor creates an
* instance of this object.
*
* Network requests for apps happen in the main process. As such,
* a NetworkMonitor instance is used by the WebappsActor in the main process to
* log the network requests for this child process.
*
* The main process creates NetworkEventActorProxy instances per request. These
* send the data to this object using the nsIMessageManager. Here we proxy the
* data to the WebConsoleActor or to a NetworkEventActor.
*
* @constructor
* @param number appId
* The web appId of the child process.
* @param number outerWindowID
* The outerWindowID of the TabActor's main window.
* @param nsIMessageManager messageManager
* The nsIMessageManager to use to communicate with the parent process.
* @param object DebuggerServerConnection
* The RDP connection to the client.
* @param object owner
* The WebConsoleActor that is listening for the network requests.
*/
function NetworkMonitorChild(appId, outerWindowID, messageManager, conn, owner) {
this.appId = appId;
this.outerWindowID = outerWindowID;
this.conn = conn;
this.owner = owner;
this._messageManager = messageManager;
this._onNewEvent = this._onNewEvent.bind(this);
this._onUpdateEvent = this._onUpdateEvent.bind(this);
this._netEvents = new Map();
this._msgName = `debug:${this.conn.prefix}netmonitor`;
}
exports.NetworkMonitorChild = NetworkMonitorChild;
NetworkMonitorChild.prototype = {
appId: null,
owner: null,
_netEvents: null,
_saveRequestAndResponseBodies: true,
_throttleData: null,
get saveRequestAndResponseBodies() {
return this._saveRequestAndResponseBodies;
},
set saveRequestAndResponseBodies(val) {
this._saveRequestAndResponseBodies = val;
this._messageManager.sendAsyncMessage(this._msgName, {
action: "setPreferences",
preferences: {
saveRequestAndResponseBodies: this._saveRequestAndResponseBodies,
},
});
},
get throttleData() {
return this._throttleData;
},
set throttleData(val) {
this._throttleData = val;
this._messageManager.sendAsyncMessage(this._msgName, {
action: "setPreferences",
preferences: {
throttleData: this._throttleData,
},
});
},
init: function () {
this.conn.setupInParent({
module: "devtools/shared/webconsole/network-monitor",
setupParent: "setupParentProcess"
});
let mm = this._messageManager;
mm.addMessageListener(`${this._msgName}:newEvent`, this._onNewEvent);
mm.addMessageListener(`${this._msgName}:updateEvent`, this._onUpdateEvent);
mm.sendAsyncMessage(this._msgName, {
appId: this.appId,
outerWindowID: this.outerWindowID,
action: "start",
});
},
_onNewEvent: DevToolsUtils.makeInfallible(function _onNewEvent(msg) {
let {id, event} = msg.data;
// Try to add stack trace to the event data received from parent
if (this.owner.stackTraceCollector) {
event.cause.stacktrace =
this.owner.stackTraceCollector.getStackTrace(event.channelId);
}
let actor = this.owner.onNetworkEvent(event);
this._netEvents.set(id, Cu.getWeakReference(actor));
}),
_onUpdateEvent: DevToolsUtils.makeInfallible(function _onUpdateEvent(msg) {
let {id, method, args} = msg.data;
let weakActor = this._netEvents.get(id);
let actor = weakActor ? weakActor.get() : null;
if (!actor) {
console.error(`Received ${this._msgName}:updateEvent for unknown event ID: ${id}`);
return;
}
if (!(method in actor)) {
console.error(`Received ${this._msgName}:updateEvent unsupported ` +
`method: ${method}`);
return;
}
actor[method].apply(actor, args);
}),
destroy: function () {
let mm = this._messageManager;
try {
mm.removeMessageListener(`${this._msgName}:newEvent`, this._onNewEvent);
mm.removeMessageListener(`${this._msgName}:updateEvent`, this._onUpdateEvent);
} catch (e) {
// On b2g, when registered to a new root docshell,
// all message manager functions throw when trying to call them during
// message-manager-disconnect event.
// As there is no attribute/method on message manager to know
// if they are still usable or not, we can only catch the exception...
}
this._netEvents.clear();
this._messageManager = null;
this.conn = null;
this.owner = null;
},
};
/**
* The NetworkEventActorProxy is used to send network request information from
* the main process to the child app process. One proxy is used per request.
* Similarly, one NetworkEventActor in the child app process is used per
* request. The client receives all network logs from the child actors.
*
* The child process has a NetworkMonitorChild instance that is listening for
* all network logging from the main process. The net monitor shim is used to
* proxy the data to the WebConsoleActor instance of the child process.
*
* @constructor
* @param nsIMessageManager messageManager
* The message manager for the child app process. This is used for
* communication with the NetworkMonitorChild instance of the process.
* @param string msgName
* The message name to be used for this connection.
*/
function NetworkEventActorProxy(messageManager, msgName) {
this.id = gSequenceId();
this.messageManager = messageManager;
this._msgName = msgName;
}
exports.NetworkEventActorProxy = NetworkEventActorProxy;
NetworkEventActorProxy.methodFactory = function (method) {
return DevToolsUtils.makeInfallible(function () {
let args = Array.slice(arguments);
let mm = this.messageManager;
mm.sendAsyncMessage(`${this._msgName}:updateEvent`, {
id: this.id,
method: method,
args: args,
});
}, "NetworkEventActorProxy." + method);
};
NetworkEventActorProxy.prototype = {
/**
* Initialize the network event. This method sends the network request event
* to the content process.
*
* @param object event
* Object describing the network request.
* @return object
* This object.
*/
init: DevToolsUtils.makeInfallible(function (event) {
let mm = this.messageManager;
mm.sendAsyncMessage(`${this._msgName}:newEvent`, {
id: this.id,
event: event,
});
return this;
}),
};
(function () {
// Listeners for new network event data coming from the NetworkMonitor.
let methods = ["addRequestHeaders", "addRequestCookies", "addRequestPostData",
"addResponseStart", "addSecurityInfo", "addResponseHeaders",
"addResponseCookies", "addResponseContent", "addEventTimings"];
let factory = NetworkEventActorProxy.methodFactory;
for (let method of methods) {
NetworkEventActorProxy.prototype[method] = factory(method);
}
})();
/**
* This is triggered by the child calling `setupInParent` when the child's network monitor
* is starting up. This initializes the parent process side of the monitoring.
*/
function setupParentProcess({ mm, prefix }) {
let networkMonitor = new NetworkMonitorParent(mm, prefix);
return {
onBrowserSwap: newMM => networkMonitor.setMessageManager(newMM),
onDisconnected: () => {
networkMonitor.destroy();
networkMonitor = null;
}
};
}
exports.setupParentProcess = setupParentProcess;
/**
* The NetworkMonitorParent runs in the parent process and uses the message manager to
* listen for requests from the child process to start/stop the network monitor. Most
* request data is only available from the parent process, so that's why the network
* monitor needs to run there when debugging tabs that are in the child.
*
* @param nsIMessageManager mm
* The message manager for the browser we're filtering on.
* @param string prefix
* The RDP connection prefix that uniquely identifies the connection.
*/
function NetworkMonitorParent(mm, prefix) {
this._msgName = `debug:${prefix}netmonitor`;
this.onNetMonitorMessage = this.onNetMonitorMessage.bind(this);
this.onNetworkEvent = this.onNetworkEvent.bind(this);
this.setMessageManager(mm);
}
NetworkMonitorParent.prototype = {
netMonitor: null,
messageManager: null,
setMessageManager(mm) {
if (this.messageManager) {
let oldMM = this.messageManager;
oldMM.removeMessageListener(this._msgName, this.onNetMonitorMessage);
}
this.messageManager = mm;
if (mm) {
mm.addMessageListener(this._msgName, this.onNetMonitorMessage);
}
},
/**
* Handler for `debug:${prefix}netmonitor` messages received through the message manager
* from the content process.
*
* @param object msg
* Message from the content.
*/
onNetMonitorMessage: DevToolsUtils.makeInfallible(function (msg) {
let {action} = msg.json;
// Pipe network monitor data from parent to child via the message manager.
switch (action) {
case "start":
if (!this.netMonitor) {
let {appId, outerWindowID} = msg.json;
this.netMonitor = new NetworkMonitor({
outerWindowID,
appId,
}, this);
this.netMonitor.init();
}
break;
case "setPreferences": {
let {preferences} = msg.json;
for (let key of Object.keys(preferences)) {
if ((key == "saveRequestAndResponseBodies" ||
key == "throttleData") && this.netMonitor) {
this.netMonitor[key] = preferences[key];
}
}
break;
}
case "stop":
if (this.netMonitor) {
this.netMonitor.destroy();
this.netMonitor = null;
}
break;
case "disconnect":
this.destroy();
break;
}
}),
/**
* Handler for new network requests. This method is invoked by the current
* NetworkMonitor instance.
*
* @param object event
* Object describing the network request.
* @return object
* A NetworkEventActorProxy instance which is notified when further
* data about the request is available.
*/
onNetworkEvent: DevToolsUtils.makeInfallible(function (event) {
return new NetworkEventActorProxy(this.messageManager, this._msgName).init(event);
}),
destroy: function () {
this.setMessageManager(null);
if (this.netMonitor) {
this.netMonitor.destroy();
this.netMonitor = null;
}
},
};
/**
* A WebProgressListener that listens for location changes.
*
* This progress listener is used to track file loads and other kinds of
* location changes.
*
* @constructor
* @param object window
* The window for which we need to track location changes.
* @param object owner
* The listener owner which needs to implement two methods:
* - onFileActivity(aFileURI)
* - onLocationChange(aState, aTabURI, aPageTitle)
*/
function ConsoleProgressListener(window, owner) {
this.window = window;
this.owner = owner;
}
exports.ConsoleProgressListener = ConsoleProgressListener;
ConsoleProgressListener.prototype = {
/**
* Constant used for startMonitor()/stopMonitor() that tells you want to
* monitor file loads.
*/
MONITOR_FILE_ACTIVITY: 1,
/**
* Constant used for startMonitor()/stopMonitor() that tells you want to
* monitor page location changes.
*/
MONITOR_LOCATION_CHANGE: 2,
/**
* Tells if you want to monitor file activity.
* @private
* @type boolean
*/
_fileActivity: false,
/**
* Tells if you want to monitor location changes.
* @private
* @type boolean
*/
_locationChange: false,
/**
* Tells if the console progress listener is initialized or not.
* @private
* @type boolean
*/
_initialized: false,
_webProgress: null,
QueryInterface: XPCOMUtils.generateQI([Ci.nsIWebProgressListener,
Ci.nsISupportsWeakReference]),
/**
* Initialize the ConsoleProgressListener.
* @private
*/
_init: function () {
if (this._initialized) {
return;
}
this._webProgress = this.window.QueryInterface(Ci.nsIInterfaceRequestor)
.getInterface(Ci.nsIWebNavigation)
.QueryInterface(Ci.nsIWebProgress);
this._webProgress.addProgressListener(this,
Ci.nsIWebProgress.NOTIFY_STATE_ALL);
this._initialized = true;
},
/**
* Start a monitor/tracker related to the current nsIWebProgressListener
* instance.
*
* @param number monitor
* Tells what you want to track. Available constants:
* - this.MONITOR_FILE_ACTIVITY
* Track file loads.
* - this.MONITOR_LOCATION_CHANGE
* Track location changes for the top window.
*/
startMonitor: function (monitor) {
switch (monitor) {
case this.MONITOR_FILE_ACTIVITY:
this._fileActivity = true;
break;
case this.MONITOR_LOCATION_CHANGE:
this._locationChange = true;
break;
default:
throw new Error("ConsoleProgressListener: unknown monitor type " +
monitor + "!");
}
this._init();
},
/**
* Stop a monitor.
*
* @param number monitor
* Tells what you want to stop tracking. See this.startMonitor() for
* the list of constants.
*/
stopMonitor: function (monitor) {
switch (monitor) {
case this.MONITOR_FILE_ACTIVITY:
this._fileActivity = false;
break;
case this.MONITOR_LOCATION_CHANGE:
this._locationChange = false;
break;
default:
throw new Error("ConsoleProgressListener: unknown monitor type " +
monitor + "!");
}
if (!this._fileActivity && !this._locationChange) {
this.destroy();
}
},
onStateChange: function (progress, request, state, status) {
if (!this.owner) {
return;
}
if (this._fileActivity) {
this._checkFileActivity(progress, request, state, status);
}
if (this._locationChange) {
this._checkLocationChange(progress, request, state, status);
}
},
/**
* Check if there is any file load, given the arguments of
* nsIWebProgressListener.onStateChange. If the state change tells that a file
* URI has been loaded, then the remote Web Console instance is notified.
* @private
*/
_checkFileActivity: function (progress, request, state, status) {
if (!(state & Ci.nsIWebProgressListener.STATE_START)) {
return;
}
let uri = null;
if (request instanceof Ci.imgIRequest) {
let imgIRequest = request.QueryInterface(Ci.imgIRequest);
uri = imgIRequest.URI;
} else if (request instanceof Ci.nsIChannel) {
let nsIChannel = request.QueryInterface(Ci.nsIChannel);
uri = nsIChannel.URI;
}
if (!uri || !uri.schemeIs("file") && !uri.schemeIs("ftp")) {
return;
}
this.owner.onFileActivity(uri.spec);
},
/**
* Check if the current window.top location is changing, given the arguments
* of nsIWebProgressListener.onStateChange. If that is the case, the remote
* Web Console instance is notified.
* @private
*/
_checkLocationChange: function (progress, request, state) {
let isStart = state & Ci.nsIWebProgressListener.STATE_START;
let isStop = state & Ci.nsIWebProgressListener.STATE_STOP;
let isNetwork = state & Ci.nsIWebProgressListener.STATE_IS_NETWORK;
let isWindow = state & Ci.nsIWebProgressListener.STATE_IS_WINDOW;
// Skip non-interesting states.
if (!isNetwork || !isWindow || progress.DOMWindow != this.window) {
return;
}
if (isStart && request instanceof Ci.nsIChannel) {
this.owner.onLocationChange("start", request.URI.spec, "");
} else if (isStop) {
this.owner.onLocationChange("stop", this.window.location.href,
this.window.document.title);
}
},
onLocationChange: function () {},
onStatusChange: function () {},
onProgressChange: function () {},
onSecurityChange: function () {},
/**
* Destroy the ConsoleProgressListener.
*/
destroy: function () {
if (!this._initialized) {
return;
}
this._initialized = false;
this._fileActivity = false;
this._locationChange = false;
try {
this._webProgress.removeProgressListener(this);
} catch (ex) {
// This can throw during browser shutdown.
}
this._webProgress = null;
this.window = null;
this.owner = null;
},
};
function gSequenceId() {
return gSequenceId.n++;
}
gSequenceId.n = 1;
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