mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
611 lines
20 KiB
JavaScript
611 lines
20 KiB
JavaScript
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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/**
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* This object contains helpers buffering incoming data & deconstructing it
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* into parcels as well as buffering outgoing data & constructing parcels.
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* For that it maintains two buffers and corresponding uint8 views, indexes.
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*
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* The incoming buffer is a circular buffer where we store incoming data.
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* As soon as a complete parcel is received, it is processed right away, so
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* the buffer only needs to be large enough to hold one parcel.
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*
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* The outgoing buffer is to prepare outgoing parcels. The index is reset
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* every time a parcel is sent.
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*/
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let Buf = {
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INT32_MAX: 2147483647,
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UINT8_SIZE: 1,
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UINT16_SIZE: 2,
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UINT32_SIZE: 4,
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PARCEL_SIZE_SIZE: 4,
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PDU_HEX_OCTET_SIZE: 4,
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incomingBufferLength: 1024,
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incomingBuffer: null,
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incomingBytes: null,
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incomingWriteIndex: 0,
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incomingReadIndex: 0,
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readIncoming: 0,
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readAvailable: 0,
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currentParcelSize: 0,
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outgoingBufferLength: 1024,
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outgoingBuffer: null,
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outgoingBytes: null,
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outgoingIndex: 0,
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outgoingBufferCalSizeQueue: null,
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_init: function _init() {
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this.incomingBuffer = new ArrayBuffer(this.incomingBufferLength);
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this.outgoingBuffer = new ArrayBuffer(this.outgoingBufferLength);
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this.incomingBytes = new Uint8Array(this.incomingBuffer);
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this.outgoingBytes = new Uint8Array(this.outgoingBuffer);
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// Track where incoming data is read from and written to.
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this.incomingWriteIndex = 0;
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this.incomingReadIndex = 0;
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// Leave room for the parcel size for outgoing parcels.
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this.outgoingIndex = this.PARCEL_SIZE_SIZE;
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// How many bytes we've read for this parcel so far.
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this.readIncoming = 0;
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// How many bytes available as parcel data.
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this.readAvailable = 0;
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// Size of the incoming parcel. If this is zero, we're expecting a new
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// parcel.
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this.currentParcelSize = 0;
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// Queue for storing outgoing override points
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this.outgoingBufferCalSizeQueue = [];
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},
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/**
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* Mark current outgoingIndex as start point for calculation length of data
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* written to outgoingBuffer.
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* Mark can be nested for here uses queue to remember marks.
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*
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* @param writeFunction
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* Function to write data length into outgoingBuffer, this function is
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* also used to allocate buffer for data length.
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* Raw data size(in Uint8) is provided as parameter calling writeFunction.
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* If raw data size is not in proper unit for writing, user can adjust
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* the length value in writeFunction before writing.
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**/
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startCalOutgoingSize: function startCalOutgoingSize(writeFunction) {
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let sizeInfo = {index: this.outgoingIndex,
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write: writeFunction};
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// Allocate buffer for data lemgtj.
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writeFunction.call(0);
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// Get size of data length buffer for it is not counted into data size.
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sizeInfo.size = this.outgoingIndex - sizeInfo.index;
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// Enqueue size calculation information.
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this.outgoingBufferCalSizeQueue.push(sizeInfo);
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},
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/**
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* Calculate data length since last mark, and write it into mark position.
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**/
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stopCalOutgoingSize: function stopCalOutgoingSize() {
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let sizeInfo = this.outgoingBufferCalSizeQueue.pop();
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// Remember current outgoingIndex.
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let currentOutgoingIndex = this.outgoingIndex;
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// Calculate data length, in uint8.
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let writeSize = this.outgoingIndex - sizeInfo.index - sizeInfo.size;
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// Write data length to mark, use same function for allocating buffer to make
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// sure there is no buffer overloading.
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this.outgoingIndex = sizeInfo.index;
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sizeInfo.write(writeSize);
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// Restore outgoingIndex.
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this.outgoingIndex = currentOutgoingIndex;
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},
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/**
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* Grow the incoming buffer.
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*
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* @param min_size
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* Minimum new size. The actual new size will be the the smallest
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* power of 2 that's larger than this number.
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*/
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growIncomingBuffer: function growIncomingBuffer(min_size) {
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if (DEBUG) {
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debug("Current buffer of " + this.incomingBufferLength +
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" can't handle incoming " + min_size + " bytes.");
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}
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let oldBytes = this.incomingBytes;
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this.incomingBufferLength =
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2 << Math.floor(Math.log(min_size)/Math.log(2));
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if (DEBUG) debug("New incoming buffer size: " + this.incomingBufferLength);
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this.incomingBuffer = new ArrayBuffer(this.incomingBufferLength);
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this.incomingBytes = new Uint8Array(this.incomingBuffer);
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if (this.incomingReadIndex <= this.incomingWriteIndex) {
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// Read and write index are in natural order, so we can just copy
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// the old buffer over to the bigger one without having to worry
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// about the indexes.
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this.incomingBytes.set(oldBytes, 0);
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} else {
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// The write index has wrapped around but the read index hasn't yet.
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// Write whatever the read index has left to read until it would
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// circle around to the beginning of the new buffer, and the rest
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// behind that.
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let head = oldBytes.subarray(this.incomingReadIndex);
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let tail = oldBytes.subarray(0, this.incomingReadIndex);
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this.incomingBytes.set(head, 0);
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this.incomingBytes.set(tail, head.length);
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this.incomingReadIndex = 0;
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this.incomingWriteIndex += head.length;
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}
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if (DEBUG) {
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debug("New incoming buffer size is " + this.incomingBufferLength);
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}
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},
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/**
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* Grow the outgoing buffer.
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*
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* @param min_size
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* Minimum new size. The actual new size will be the the smallest
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* power of 2 that's larger than this number.
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*/
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growOutgoingBuffer: function growOutgoingBuffer(min_size) {
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if (DEBUG) {
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debug("Current buffer of " + this.outgoingBufferLength +
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" is too small.");
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}
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let oldBytes = this.outgoingBytes;
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this.outgoingBufferLength =
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2 << Math.floor(Math.log(min_size)/Math.log(2));
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this.outgoingBuffer = new ArrayBuffer(this.outgoingBufferLength);
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this.outgoingBytes = new Uint8Array(this.outgoingBuffer);
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this.outgoingBytes.set(oldBytes, 0);
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if (DEBUG) {
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debug("New outgoing buffer size is " + this.outgoingBufferLength);
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}
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},
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/**
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* Functions for reading data from the incoming buffer.
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*
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* These are all little endian, apart from readParcelSize();
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*/
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/**
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* Ensure position specified is readable.
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*
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* @param index
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* Data position in incoming parcel, valid from 0 to
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* currentParcelSize.
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*/
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ensureIncomingAvailable: function ensureIncomingAvailable(index) {
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if (index >= this.currentParcelSize) {
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throw new Error("Trying to read data beyond the parcel end!");
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} else if (index < 0) {
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throw new Error("Trying to read data before the parcel begin!");
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}
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},
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/**
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* Seek in current incoming parcel.
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*
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* @param offset
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* Seek offset in relative to current position.
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*/
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seekIncoming: function seekIncoming(offset) {
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// Translate to 0..currentParcelSize
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let cur = this.currentParcelSize - this.readAvailable;
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let newIndex = cur + offset;
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this.ensureIncomingAvailable(newIndex);
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// ... incomingReadIndex -->|
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// 0 new cur currentParcelSize
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// |================|=======|====================|
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// |<-- cur -->|<- readAvailable ->|
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// |<-- newIndex -->|<-- new readAvailable -->|
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this.readAvailable = this.currentParcelSize - newIndex;
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// Translate back:
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if (this.incomingReadIndex < cur) {
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// The incomingReadIndex is wrapped.
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newIndex += this.incomingBufferLength;
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}
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newIndex += (this.incomingReadIndex - cur);
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newIndex %= this.incomingBufferLength;
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this.incomingReadIndex = newIndex;
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},
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readUint8Unchecked: function readUint8Unchecked() {
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let value = this.incomingBytes[this.incomingReadIndex];
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this.incomingReadIndex = (this.incomingReadIndex + 1) %
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this.incomingBufferLength;
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return value;
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},
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readUint8: function readUint8() {
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// Translate to 0..currentParcelSize
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let cur = this.currentParcelSize - this.readAvailable;
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this.ensureIncomingAvailable(cur);
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this.readAvailable--;
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return this.readUint8Unchecked();
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},
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readUint8Array: function readUint8Array(length) {
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// Translate to 0..currentParcelSize
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let last = this.currentParcelSize - this.readAvailable;
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last += (length - 1);
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this.ensureIncomingAvailable(last);
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let array = new Uint8Array(length);
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for (let i = 0; i < length; i++) {
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array[i] = this.readUint8Unchecked();
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}
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this.readAvailable -= length;
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return array;
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},
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readUint16: function readUint16() {
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return this.readUint8() | this.readUint8() << 8;
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},
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readInt32: function readInt32() {
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return this.readUint8() | this.readUint8() << 8 |
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this.readUint8() << 16 | this.readUint8() << 24;
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},
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readInt32List: function readInt32List() {
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let length = this.readInt32();
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let ints = [];
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for (let i = 0; i < length; i++) {
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ints.push(this.readInt32());
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}
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return ints;
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},
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readString: function readString() {
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let string_len = this.readInt32();
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if (string_len < 0 || string_len >= this.INT32_MAX) {
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return null;
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}
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let s = "";
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for (let i = 0; i < string_len; i++) {
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s += String.fromCharCode(this.readUint16());
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}
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// Strings are \0\0 delimited, but that isn't part of the length. And
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// if the string length is even, the delimiter is two characters wide.
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// It's insane, I know.
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this.readStringDelimiter(string_len);
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return s;
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},
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readStringList: function readStringList() {
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let num_strings = this.readInt32();
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let strings = [];
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for (let i = 0; i < num_strings; i++) {
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strings.push(this.readString());
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}
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return strings;
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},
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readStringDelimiter: function readStringDelimiter(length) {
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let delimiter = this.readUint16();
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if (!(length & 1)) {
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delimiter |= this.readUint16();
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}
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if (DEBUG) {
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if (delimiter !== 0) {
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debug("Something's wrong, found string delimiter: " + delimiter);
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}
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}
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},
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readParcelSize: function readParcelSize() {
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return this.readUint8Unchecked() << 24 |
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this.readUint8Unchecked() << 16 |
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this.readUint8Unchecked() << 8 |
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this.readUint8Unchecked();
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},
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/**
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* Functions for writing data to the outgoing buffer.
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*/
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/**
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* Ensure position specified is writable.
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*
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* @param index
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* Data position in outgoing parcel, valid from 0 to
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* outgoingBufferLength.
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*/
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ensureOutgoingAvailable: function ensureOutgoingAvailable(index) {
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if (index >= this.outgoingBufferLength) {
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this.growOutgoingBuffer(index + 1);
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}
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},
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writeUint8: function writeUint8(value) {
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this.ensureOutgoingAvailable(this.outgoingIndex);
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this.outgoingBytes[this.outgoingIndex] = value;
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this.outgoingIndex++;
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},
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writeUint16: function writeUint16(value) {
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this.writeUint8(value & 0xff);
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this.writeUint8((value >> 8) & 0xff);
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},
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writeInt32: function writeInt32(value) {
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this.writeUint8(value & 0xff);
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this.writeUint8((value >> 8) & 0xff);
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this.writeUint8((value >> 16) & 0xff);
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this.writeUint8((value >> 24) & 0xff);
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},
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writeString: function writeString(value) {
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if (value == null) {
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this.writeInt32(-1);
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return;
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}
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this.writeInt32(value.length);
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for (let i = 0; i < value.length; i++) {
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this.writeUint16(value.charCodeAt(i));
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}
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// Strings are \0\0 delimited, but that isn't part of the length. And
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// if the string length is even, the delimiter is two characters wide.
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// It's insane, I know.
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this.writeStringDelimiter(value.length);
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},
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writeStringList: function writeStringList(strings) {
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this.writeInt32(strings.length);
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for (let i = 0; i < strings.length; i++) {
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this.writeString(strings[i]);
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}
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},
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writeStringDelimiter: function writeStringDelimiter(length) {
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this.writeUint16(0);
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if (!(length & 1)) {
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this.writeUint16(0);
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}
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},
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writeParcelSize: function writeParcelSize(value) {
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/**
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* Parcel size will always be the first thing in the parcel byte
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* array, but the last thing written. Store the current index off
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* to a temporary to be reset after we write the size.
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*/
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let currentIndex = this.outgoingIndex;
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this.outgoingIndex = 0;
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this.writeUint8((value >> 24) & 0xff);
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this.writeUint8((value >> 16) & 0xff);
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this.writeUint8((value >> 8) & 0xff);
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this.writeUint8(value & 0xff);
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this.outgoingIndex = currentIndex;
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},
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copyIncomingToOutgoing: function copyIncomingToOutgoing(length) {
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if (!length || (length < 0)) {
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return;
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}
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let translatedReadIndexEnd =
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this.currentParcelSize - this.readAvailable + length - 1;
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this.ensureIncomingAvailable(translatedReadIndexEnd);
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let translatedWriteIndexEnd = this.outgoingIndex + length - 1;
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this.ensureOutgoingAvailable(translatedWriteIndexEnd);
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let newIncomingReadIndex = this.incomingReadIndex + length;
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if (newIncomingReadIndex < this.incomingBufferLength) {
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// Reading won't cause wrapping, go ahead with builtin copy.
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this.outgoingBytes
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.set(this.incomingBytes.subarray(this.incomingReadIndex,
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newIncomingReadIndex),
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this.outgoingIndex);
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} else {
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// Not so lucky.
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newIncomingReadIndex %= this.incomingBufferLength;
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this.outgoingBytes
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.set(this.incomingBytes.subarray(this.incomingReadIndex,
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this.incomingBufferLength),
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this.outgoingIndex);
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if (newIncomingReadIndex) {
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let firstPartLength = this.incomingBufferLength - this.incomingReadIndex;
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this.outgoingBytes.set(this.incomingBytes.subarray(0, newIncomingReadIndex),
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this.outgoingIndex + firstPartLength);
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}
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}
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this.incomingReadIndex = newIncomingReadIndex;
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this.readAvailable -= length;
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this.outgoingIndex += length;
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},
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/**
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* Parcel management
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*/
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/**
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* Write incoming data to the circular buffer.
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*
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* @param incoming
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* Uint8Array containing the incoming data.
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*/
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writeToIncoming: function writeToIncoming(incoming) {
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// We don't have to worry about the head catching the tail since
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// we process any backlog in parcels immediately, before writing
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// new data to the buffer. So the only edge case we need to handle
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// is when the incoming data is larger than the buffer size.
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let minMustAvailableSize = incoming.length + this.readIncoming;
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if (minMustAvailableSize > this.incomingBufferLength) {
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this.growIncomingBuffer(minMustAvailableSize);
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}
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// We can let the typed arrays do the copying if the incoming data won't
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// wrap around the edges of the circular buffer.
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let remaining = this.incomingBufferLength - this.incomingWriteIndex;
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if (remaining >= incoming.length) {
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this.incomingBytes.set(incoming, this.incomingWriteIndex);
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} else {
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// The incoming data would wrap around it.
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let head = incoming.subarray(0, remaining);
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let tail = incoming.subarray(remaining);
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this.incomingBytes.set(head, this.incomingWriteIndex);
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this.incomingBytes.set(tail, 0);
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}
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this.incomingWriteIndex = (this.incomingWriteIndex + incoming.length) %
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this.incomingBufferLength;
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},
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/**
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* Process incoming data.
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*
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* @param incoming
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* Uint8Array containing the incoming data.
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*/
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processIncoming: function processIncoming(incoming) {
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if (DEBUG) {
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debug("Received " + incoming.length + " bytes.");
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debug("Already read " + this.readIncoming);
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}
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this.writeToIncoming(incoming);
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this.readIncoming += incoming.length;
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while (true) {
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if (!this.currentParcelSize) {
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// We're expecting a new parcel.
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if (this.readIncoming < this.PARCEL_SIZE_SIZE) {
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// We don't know how big the next parcel is going to be, need more
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// data.
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if (DEBUG) debug("Next parcel size unknown, going to sleep.");
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return;
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}
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this.currentParcelSize = this.readParcelSize();
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if (DEBUG) {
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debug("New incoming parcel of size " + this.currentParcelSize);
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}
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// The size itself is not included in the size.
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this.readIncoming -= this.PARCEL_SIZE_SIZE;
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}
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if (this.readIncoming < this.currentParcelSize) {
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// We haven't read enough yet in order to be able to process a parcel.
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if (DEBUG) debug("Read " + this.readIncoming + ", but parcel size is "
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+ this.currentParcelSize + ". Going to sleep.");
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return;
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}
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// Alright, we have enough data to process at least one whole parcel.
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// Let's do that.
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let expectedAfterIndex = (this.incomingReadIndex + this.currentParcelSize)
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% this.incomingBufferLength;
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if (DEBUG) {
|
|
let parcel;
|
|
if (expectedAfterIndex < this.incomingReadIndex) {
|
|
let head = this.incomingBytes.subarray(this.incomingReadIndex);
|
|
let tail = this.incomingBytes.subarray(0, expectedAfterIndex);
|
|
parcel = Array.slice(head).concat(Array.slice(tail));
|
|
} else {
|
|
parcel = Array.slice(this.incomingBytes.subarray(
|
|
this.incomingReadIndex, expectedAfterIndex));
|
|
}
|
|
debug("Parcel (size " + this.currentParcelSize + "): " + parcel);
|
|
}
|
|
|
|
if (DEBUG) debug("We have at least one complete parcel.");
|
|
try {
|
|
this.readAvailable = this.currentParcelSize;
|
|
this.processParcel();
|
|
} catch (ex) {
|
|
if (DEBUG) debug("Parcel handling threw " + ex + "\n" + ex.stack);
|
|
}
|
|
|
|
// Ensure that the whole parcel was consumed.
|
|
if (this.incomingReadIndex != expectedAfterIndex) {
|
|
if (DEBUG) {
|
|
debug("Parcel handler didn't consume whole parcel, " +
|
|
Math.abs(expectedAfterIndex - this.incomingReadIndex) +
|
|
" bytes left over");
|
|
}
|
|
this.incomingReadIndex = expectedAfterIndex;
|
|
}
|
|
this.readIncoming -= this.currentParcelSize;
|
|
this.readAvailable = 0;
|
|
this.currentParcelSize = 0;
|
|
}
|
|
},
|
|
|
|
/**
|
|
* Communicate with the IPC thread.
|
|
*/
|
|
sendParcel: function sendParcel() {
|
|
// Compute the size of the parcel and write it to the front of the parcel
|
|
// where we left room for it. Note that he parcel size does not include
|
|
// the size itself.
|
|
let parcelSize = this.outgoingIndex - this.PARCEL_SIZE_SIZE;
|
|
this.writeParcelSize(parcelSize);
|
|
|
|
// This assumes that postRILMessage will make a copy of the ArrayBufferView
|
|
// right away!
|
|
let parcel = this.outgoingBytes.subarray(0, this.outgoingIndex);
|
|
if (DEBUG) debug("Outgoing parcel: " + Array.slice(parcel));
|
|
this.onSendParcel(parcel);
|
|
this.outgoingIndex = this.PARCEL_SIZE_SIZE;
|
|
},
|
|
|
|
getCurrentParcelSize: function getCurrentParcelSize() {
|
|
return this.currentParcelSize;
|
|
},
|
|
|
|
getReadAvailable: function getReadAvailable() {
|
|
return this.readAvailable;
|
|
}
|
|
|
|
/**
|
|
* Process one parcel.
|
|
*
|
|
* |processParcel| is an implementation provided incoming parcel processing
|
|
* function invoked when we have received a complete parcel. Implementation
|
|
* may call multiple read functions to extract data from the incoming buffer.
|
|
*/
|
|
//processParcel: function processParcel() {
|
|
// let something = this.readInt32();
|
|
// ...
|
|
//},
|
|
|
|
/**
|
|
* Write raw data out to underlying channel.
|
|
*
|
|
* |onSendParcel| is an implementation provided stream output function
|
|
* invoked when we're really going to write something out. We assume the
|
|
* data are completely copied to some output buffer in this call and may
|
|
* be destroyed when it's done.
|
|
*
|
|
* @param parcel
|
|
* An array of numeric octet data.
|
|
*/
|
|
//onSendParcel: function onSendParcel(parcel) {
|
|
// ...
|
|
//}
|
|
};
|
|
|
|
module.exports = { Buf: Buf };
|