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/* 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 { Ci, Cc, Cu, Cr, CC } = require("chrome");
const Services = require("Services");
const DevToolsUtils = require("devtools/shared/DevToolsUtils");
const { dumpv } = DevToolsUtils;
const EventEmitter = require("devtools/shared/event-emitter");
const promise = require("promise");
const defer = require("devtools/shared/defer");
DevToolsUtils.defineLazyGetter(this, "IOUtil", () => {
return Cc["@mozilla.org/io-util;1"].getService(Ci.nsIIOUtil);
});
DevToolsUtils.defineLazyGetter(this, "ScriptableInputStream", () => {
return CC("@mozilla.org/scriptableinputstream;1",
"nsIScriptableInputStream", "init");
});
const BUFFER_SIZE = 0x8000;
/**
* This helper function (and its companion object) are used by bulk senders and
* receivers to read and write data in and out of other streams. Functions that
* make use of this tool are passed to callers when it is time to read or write
* bulk data. It is highly recommended to use these copier functions instead of
* the stream directly because the copier enforces the agreed upon length.
* Since bulk mode reuses an existing stream, the sender and receiver must write
* and read exactly the agreed upon amount of data, or else the entire transport
* will be left in a invalid state. Additionally, other methods of stream
* copying (such as NetUtil.asyncCopy) close the streams involved, which would
* terminate the debugging transport, and so it is avoided here.
*
* Overall, this *works*, but clearly the optimal solution would be able to just
* use the streams directly. If it were possible to fully implement
* nsIInputStream / nsIOutputStream in JS, wrapper streams could be created to
* enforce the length and avoid closing, and consumers could use familiar stream
* utilities like NetUtil.asyncCopy.
*
* The function takes two async streams and copies a precise number of bytes
* from one to the other. Copying begins immediately, but may complete at some
* future time depending on data size. Use the returned promise to know when
* it's complete.
*
* @param input nsIAsyncInputStream
* The stream to copy from.
* @param output nsIAsyncOutputStream
* The stream to copy to.
* @param length Integer
* The amount of data that needs to be copied.
* @return Promise
* The promise is resolved when copying completes or rejected if any
* (unexpected) errors occur.
*/
function copyStream(input, output, length) {
let copier = new StreamCopier(input, output, length);
return copier.copy();
}
function StreamCopier(input, output, length) {
EventEmitter.decorate(this);
this._id = StreamCopier._nextId++;
this.input = input;
// Save off the base output stream, since we know it's async as we've required
this.baseAsyncOutput = output;
if (IOUtil.outputStreamIsBuffered(output)) {
this.output = output;
} else {
this.output = Cc["@mozilla.org/network/buffered-output-stream;1"].
createInstance(Ci.nsIBufferedOutputStream);
this.output.init(output, BUFFER_SIZE);
}
this._length = length;
this._amountLeft = length;
this._deferred = defer();
this._copy = this._copy.bind(this);
this._flush = this._flush.bind(this);
this._destroy = this._destroy.bind(this);
// Copy promise's then method up to this object.
// Allows the copier to offer a promise interface for the simple succeed or
// fail scenarios, but also emit events (due to the EventEmitter) for other
// states, like progress.
this.then = this._deferred.promise.then.bind(this._deferred.promise);
this.then(this._destroy, this._destroy);
// Stream ready callback starts as |_copy|, but may switch to |_flush| at end
// if flushing would block the output stream.
this._streamReadyCallback = this._copy;
}
StreamCopier._nextId = 0;
StreamCopier.prototype = {
copy: function () {
// Dispatch to the next tick so that it's possible to attach a progress
// event listener, even for extremely fast copies (like when testing).
Services.tm.currentThread.dispatch(() => {
try {
this._copy();
} catch (e) {
this._deferred.reject(e);
}
}, 0);
return this;
},
_copy: function () {
let bytesAvailable = this.input.available();
let amountToCopy = Math.min(bytesAvailable, this._amountLeft);
this._debug("Trying to copy: " + amountToCopy);
let bytesCopied;
try {
bytesCopied = this.output.writeFrom(this.input, amountToCopy);
} catch (e) {
if (e.result == Cr.NS_BASE_STREAM_WOULD_BLOCK) {
this._debug("Base stream would block, will retry");
this._debug("Waiting for output stream");
this.baseAsyncOutput.asyncWait(this, 0, 0, Services.tm.currentThread);
return;
} else {
throw e;
}
}
this._amountLeft -= bytesCopied;
this._debug("Copied: " + bytesCopied +
", Left: " + this._amountLeft);
this._emitProgress();
if (this._amountLeft === 0) {
this._debug("Copy done!");
this._flush();
return;
}
this._debug("Waiting for input stream");
this.input.asyncWait(this, 0, 0, Services.tm.currentThread);
},
_emitProgress: function () {
this.emit("progress", {
bytesSent: this._length - this._amountLeft,
totalBytes: this._length
});
},
_flush: function () {
try {
this.output.flush();
} catch (e) {
if (e.result == Cr.NS_BASE_STREAM_WOULD_BLOCK ||
e.result == Cr.NS_ERROR_FAILURE) {
this._debug("Flush would block, will retry");
this._streamReadyCallback = this._flush;
this._debug("Waiting for output stream");
this.baseAsyncOutput.asyncWait(this, 0, 0, Services.tm.currentThread);
return;
} else {
throw e;
}
}
this._deferred.resolve();
},
_destroy: function () {
this._destroy = null;
this._copy = null;
this._flush = null;
this.input = null;
this.output = null;
},
// nsIInputStreamCallback
onInputStreamReady: function () {
this._streamReadyCallback();
},
// nsIOutputStreamCallback
onOutputStreamReady: function () {
this._streamReadyCallback();
},
_debug: function (msg) {
// Prefix logs with the copier ID, which makes logs much easier to
// understand when several copiers are running simultaneously
dumpv("Copier: " + this._id + " " + msg);
}
};
/**
* Read from a stream, one byte at a time, up to the next |delimiter|
* character, but stopping if we've read |count| without finding it. Reading
* also terminates early if there are less than |count| bytes available on the
* stream. In that case, we only read as many bytes as the stream currently has
* to offer.
* TODO: This implementation could be removed if bug 984651 is fixed, which
* provides a native version of the same idea.
* @param stream nsIInputStream
* The input stream to read from.
* @param delimiter string
* The character we're trying to find.
* @param count integer
* The max number of characters to read while searching.
* @return string
* The data collected. If the delimiter was found, this string will
* end with it.
*/
function delimitedRead(stream, delimiter, count) {
dumpv("Starting delimited read for " + delimiter + " up to " +
count + " bytes");
let scriptableStream;
if (stream instanceof Ci.nsIScriptableInputStream) {
scriptableStream = stream;
} else {
scriptableStream = new ScriptableInputStream(stream);
}
let data = "";
// Don't exceed what's available on the stream
count = Math.min(count, stream.available());
if (count <= 0) {
return data;
}
let char;
while (char !== delimiter && count > 0) {
char = scriptableStream.readBytes(1);
count--;
data += char;
}
return data;
}
module.exports = {
copyStream: copyStream,
delimitedRead: delimitedRead
};
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