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chromium / external / dart / 2cbc6036694fbc528437d1f0a0509b37995dd522 / . / dart / sdk / lib / io / http_parser.dart
blob: 09f06eaee38b5cff19d0d0095850d4c2a9ac0ddc [file] [log] [blame]
// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
part of dart.io;
// Global constants.
class _Const {
// Bytes for "HTTP".
static const HTTP = const [72, 84, 84, 80];
// Bytes for "HTTP/1.".
static const HTTP1DOT = const [72, 84, 84, 80, 47, 49, 46];
// Bytes for "HTTP/1.0".
static const HTTP10 = const [72, 84, 84, 80, 47, 49, 46, 48];
// Bytes for "HTTP/1.1".
static const HTTP11 = const [72, 84, 84, 80, 47, 49, 46, 49];
static const bool T = true;
static const bool F = false;
// Loopup-map for the following characters: '()<>@,;:\\"/[]?={} \t'.
static const SEPARATOR_MAP = const [
F,F,F,F,F,F,F,F,F,T,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,T,F,T,F,F,
F,F,F,T,T,F,F,T,F,F,T,F,F,F,F,F,F,F,F,F,F,T,T,T,T,T,T,T,F,F,F,F,F,F,F,F,F,
F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,T,T,T,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,
F,F,F,F,F,F,F,F,F,F,F,F,T,F,T,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,
F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,
F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,
F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F,F];
}
// Frequently used character codes.
class _CharCode {
static const int HT = 9;
static const int LF = 10;
static const int CR = 13;
static const int SP = 32;
static const int AMPERSAND = 38;
static const int COMMA = 44;
static const int DASH = 45;
static const int SLASH = 47;
static const int ZERO = 48;
static const int ONE = 49;
static const int COLON = 58;
static const int SEMI_COLON = 59;
static const int EQUAL = 61;
}
// States of the HTTP parser state machine.
class _State {
static const int START = 0;
static const int METHOD_OR_RESPONSE_HTTP_VERSION = 1;
static const int RESPONSE_HTTP_VERSION = 2;
static const int REQUEST_LINE_METHOD = 3;
static const int REQUEST_LINE_URI = 4;
static const int REQUEST_LINE_HTTP_VERSION = 5;
static const int REQUEST_LINE_ENDING = 6;
static const int RESPONSE_LINE_STATUS_CODE = 7;
static const int RESPONSE_LINE_REASON_PHRASE = 8;
static const int RESPONSE_LINE_ENDING = 9;
static const int HEADER_START = 10;
static const int HEADER_FIELD = 11;
static const int HEADER_VALUE_START = 12;
static const int HEADER_VALUE = 13;
static const int HEADER_VALUE_FOLDING_OR_ENDING = 14;
static const int HEADER_VALUE_FOLD_OR_END = 15;
static const int HEADER_ENDING = 16;
static const int CHUNK_SIZE_STARTING_CR = 17;
static const int CHUNK_SIZE_STARTING_LF = 18;
static const int CHUNK_SIZE = 19;
static const int CHUNK_SIZE_EXTENSION = 20;
static const int CHUNK_SIZE_ENDING = 21;
static const int CHUNKED_BODY_DONE_CR = 22;
static const int CHUNKED_BODY_DONE_LF = 23;
static const int BODY = 24;
static const int CLOSED = 25;
static const int UPGRADED = 26;
static const int FAILURE = 27;
static const int FIRST_BODY_STATE = CHUNK_SIZE_STARTING_CR;
}
// HTTP version of the request or response being parsed.
class _HttpVersion {
static const int UNDETERMINED = 0;
static const int HTTP10 = 1;
static const int HTTP11 = 2;
}
// States of the HTTP parser state machine.
class _MessageType {
static const int UNDETERMINED = 0;
static const int REQUEST = 1;
static const int RESPONSE = 0;
}
/**
* The _HttpDetachedStreamSubscription takes a subscription and some extra data,
* and makes it possible to "inject" the data in from of other data events
* from the subscription.
*
* It does so by overriding pause/resume, so that once the
* _HttpDetachedStreamSubscription is resumed, it'll deliver the data before
* resuming the underlaying subscription.
*/
class _HttpDetachedStreamSubscription implements StreamSubscription<List<int>> {
StreamSubscription<List<int>> _subscription;
List<int> _injectData;
bool _isCanceled = false;
int _pauseCount = 1;
Function _userOnData;
bool _scheduled = false;
_HttpDetachedStreamSubscription(this._subscription,
this._injectData,
this._userOnData);
bool get isPaused => _subscription.isPaused;
Future asFuture([futureValue]) => _subscription.asFuture(futureValue);
Future cancel() {
_isCanceled = true;
_injectData = null;
return _subscription.cancel();
}
void onData(void handleData(List<int> data)) {
_userOnData = handleData;
_subscription.onData(handleData);
}
void onDone(void handleDone()) {
_subscription.onDone(handleDone);
}
void onError(Function handleError) {
_subscription.onError(handleError);
}
void pause([Future resumeSignal]) {
if (_injectData == null) {
_subscription.pause(resumeSignal);
} else {
_pauseCount++;
if (resumeSignal != null) {
resumeSignal.whenComplete(resume);
}
}
}
void resume() {
if (_injectData == null) {
_subscription.resume();
} else {
_pauseCount--;
_maybeScheduleData();
}
}
void _maybeScheduleData() {
if (_scheduled) return;
if (_pauseCount != 0) return;
_scheduled = true;
scheduleMicrotask(() {
_scheduled = false;
if (_pauseCount > 0 || _isCanceled) return;
var data = _injectData;
_injectData = null;
// To ensure that 'subscription.isPaused' is false, we resume the
// subscription here. This is fine as potential events are delayed.
_subscription.resume();
if (_userOnData != null) {
_userOnData(data);
}
});
}
}
class _HttpDetachedIncoming extends Stream<List<int>> {
final StreamSubscription subscription;
final List<int> bufferedData;
_HttpDetachedIncoming(this.subscription, this.bufferedData);
StreamSubscription<List<int>> listen(void onData(List<int> event),
{Function onError,
void onDone(),
bool cancelOnError}) {
if (subscription != null) {
subscription
..onData(onData)
..onError(onError)
..onDone(onDone);
if (bufferedData == null) {
return subscription..resume();
}
return new _HttpDetachedStreamSubscription(subscription,
bufferedData,
onData)
..resume();
} else {
return new Stream.fromIterable(bufferedData)
.listen(onData,
onError: onError,
onDone: onDone,
cancelOnError: cancelOnError);
}
}
}
/**
* HTTP parser which parses the data stream given to [consume].
*
* If an HTTP parser error occours, the parser will signal an error to either
* the current _HttpIncoming or the _parser itself.
*
* The connection upgrades (e.g. switching from HTTP/1.1 to the
* WebSocket protocol) is handled in a special way. If connection
* upgrade is specified in the headers, then on the callback to
* [:responseStart:] the [:upgrade:] property on the [:HttpParser:]
* object will be [:true:] indicating that from now on the protocol is
* not HTTP anymore and no more callbacks will happen, that is
* [:dataReceived:] and [:dataEnd:] are not called in this case as
* there is no more HTTP data. After the upgrade the method
* [:readUnparsedData:] can be used to read any remaining bytes in the
* HTTP parser which are part of the protocol the connection is
* upgrading to. These bytes cannot be processed by the HTTP parser
* and should be handled according to whatever protocol is being
* upgraded to.
*/
class _HttpParser extends Stream<_HttpIncoming> {
// State.
bool _parserCalled = false;
// The data that is currently being parsed.
Uint8List _buffer;
int _index;
final bool _requestParser;
int _state;
int _httpVersionIndex;
int _messageType;
int _statusCode = 0;
int _statusCodeLength = 0;
final List<int> _method = [];
final List<int> _uri_or_reason_phrase = [];
final List<int> _headerField = [];
final List<int> _headerValue = [];
int _httpVersion;
int _transferLength = -1;
bool _persistentConnection;
bool _connectionUpgrade;
bool _chunked;
bool _noMessageBody = false;
int _remainingContent = -1;
_HttpHeaders _headers;
// The current incoming connection.
_HttpIncoming _incoming;
StreamSubscription _socketSubscription;
bool _paused = true;
bool _bodyPaused = false;
StreamController<_HttpIncoming> _controller;
StreamController<List<int>> _bodyController;
factory _HttpParser.requestParser() {
return new _HttpParser._(true);
}
factory _HttpParser.responseParser() {
return new _HttpParser._(false);
}
_HttpParser._(this._requestParser) {
_controller = new StreamController<_HttpIncoming>(
sync: true,
onListen: () {
_paused = false;
},
onPause: () {
_paused = true;
_pauseStateChanged();
},
onResume: () {
_paused = false;
_pauseStateChanged();
},
onCancel: () {
if (_socketSubscription != null) {
_socketSubscription.cancel();
}
});
_reset();
}
StreamSubscription<_HttpIncoming> listen(void onData(_HttpIncoming event),
{Function onError,
void onDone(),
bool cancelOnError}) {
return _controller.stream.listen(onData,
onError: onError,
onDone: onDone,
cancelOnError: cancelOnError);
}
void listenToStream(Stream<List<int>> stream) {
// Listen to the stream and handle data accordingly. When a
// _HttpIncoming is created, _dataPause, _dataResume, _dataDone is
// given to provide a way of controlling the parser.
// TODO(ajohnsen): Remove _dataPause, _dataResume and _dataDone and clean up
// how the _HttpIncoming signals the parser.
_socketSubscription = stream.listen(
_onData,
onError: _controller.addError,
onDone: _onDone);
}
void _parse() {
try {
_doParse();
} catch (e, s) {
_state = _State.FAILURE;
_reportError(e, s);
}
}
// From RFC 2616.
// generic-message = start-line
// *(message-header CRLF)
// CRLF
// [ message-body ]
// start-line = Request-Line | Status-Line
// Request-Line = Method SP Request-URI SP HTTP-Version CRLF
// Status-Line = HTTP-Version SP Status-Code SP Reason-Phrase CRLF
// message-header = field-name ":" [ field-value ]
void _doParse() {
assert(!_parserCalled);
_parserCalled = true;
if (_state == _State.CLOSED) {
throw new HttpException("Data on closed connection");
}
if (_state == _State.FAILURE) {
throw new HttpException("Data on failed connection");
}
while (_buffer != null &&
_index < _buffer.length &&
_state != _State.FAILURE &&
_state != _State.UPGRADED) {
// Depending on _incoming, we either break on _bodyPaused or _paused.
if ((_incoming != null && _bodyPaused) ||
(_incoming == null && _paused)) {
_parserCalled = false;
return;
}
int byte = _buffer[_index++];
switch (_state) {
case _State.START:
if (byte == _Const.HTTP[0]) {
// Start parsing method or HTTP version.
_httpVersionIndex = 1;
_state = _State.METHOD_OR_RESPONSE_HTTP_VERSION;
} else {
// Start parsing method.
if (!_isTokenChar(byte)) {
throw new HttpException("Invalid request method");
}
_method.add(byte);
if (!_requestParser) {
throw new HttpException("Invalid response line");
}
_state = _State.REQUEST_LINE_METHOD;
}
break;
case _State.METHOD_OR_RESPONSE_HTTP_VERSION:
if (_httpVersionIndex < _Const.HTTP.length &&
byte == _Const.HTTP[_httpVersionIndex]) {
// Continue parsing HTTP version.
_httpVersionIndex++;
} else if (_httpVersionIndex == _Const.HTTP.length &&
byte == _CharCode.SLASH) {
// HTTP/ parsed. As method is a token this cannot be a
// method anymore.
_httpVersionIndex++;
if (_requestParser) {
throw new HttpException("Invalid request line");
}
_state = _State.RESPONSE_HTTP_VERSION;
} else {
// Did not parse HTTP version. Expect method instead.
for (int i = 0; i < _httpVersionIndex; i++) {
_method.add(_Const.HTTP[i]);
}
if (byte == _CharCode.SP) {
_state = _State.REQUEST_LINE_URI;
} else {
_method.add(byte);
_httpVersion = _HttpVersion.UNDETERMINED;
if (!_requestParser) {
throw new HttpException("Invalid response line");
}
_state = _State.REQUEST_LINE_METHOD;
}
}
break;
case _State.RESPONSE_HTTP_VERSION:
if (_httpVersionIndex < _Const.HTTP1DOT.length) {
// Continue parsing HTTP version.
_expect(byte, _Const.HTTP1DOT[_httpVersionIndex]);
_httpVersionIndex++;
} else if (_httpVersionIndex == _Const.HTTP1DOT.length &&
byte == _CharCode.ONE) {
// HTTP/1.1 parsed.
_httpVersion = _HttpVersion.HTTP11;
_persistentConnection = true;
_httpVersionIndex++;
} else if (_httpVersionIndex == _Const.HTTP1DOT.length &&
byte == _CharCode.ZERO) {
// HTTP/1.0 parsed.
_httpVersion = _HttpVersion.HTTP10;
_persistentConnection = false;
_httpVersionIndex++;
} else if (_httpVersionIndex == _Const.HTTP1DOT.length + 1) {
_expect(byte, _CharCode.SP);
// HTTP version parsed.
_state = _State.RESPONSE_LINE_STATUS_CODE;
} else {
throw new HttpException("Invalid response line");
}
break;
case _State.REQUEST_LINE_METHOD:
if (byte == _CharCode.SP) {
_state = _State.REQUEST_LINE_URI;
} else {
if (_Const.SEPARATOR_MAP[byte] ||
byte == _CharCode.CR ||
byte == _CharCode.LF) {
throw new HttpException("Invalid request method");
}
_method.add(byte);
}
break;
case _State.REQUEST_LINE_URI:
if (byte == _CharCode.SP) {
if (_uri_or_reason_phrase.length == 0) {
throw new HttpException("Invalid request URI");
}
_state = _State.REQUEST_LINE_HTTP_VERSION;
_httpVersionIndex = 0;
} else {
if (byte == _CharCode.CR || byte == _CharCode.LF) {
throw new HttpException("Invalid request URI");
}
_uri_or_reason_phrase.add(byte);
}
break;
case _State.REQUEST_LINE_HTTP_VERSION:
if (_httpVersionIndex < _Const.HTTP1DOT.length) {
_expect(byte, _Const.HTTP11[_httpVersionIndex]);
_httpVersionIndex++;
} else if (_httpVersionIndex == _Const.HTTP1DOT.length) {
if (byte == _CharCode.ONE) {
// HTTP/1.1 parsed.
_httpVersion = _HttpVersion.HTTP11;
_persistentConnection = true;
_httpVersionIndex++;
} else if (byte == _CharCode.ZERO) {
// HTTP/1.0 parsed.
_httpVersion = _HttpVersion.HTTP10;
_persistentConnection = false;
_httpVersionIndex++;
} else {
throw new HttpException("Invalid response line");
}
} else {
_expect(byte, _CharCode.CR);
_state = _State.REQUEST_LINE_ENDING;
}
break;
case _State.REQUEST_LINE_ENDING:
_expect(byte, _CharCode.LF);
_messageType = _MessageType.REQUEST;
_state = _State.HEADER_START;
break;
case _State.RESPONSE_LINE_STATUS_CODE:
if (byte == _CharCode.SP) {
_state = _State.RESPONSE_LINE_REASON_PHRASE;
} else if (byte == _CharCode.CR) {
// Some HTTP servers does not follow the spec. and send
// \r\n right after the status code.
_state = _State.RESPONSE_LINE_ENDING;
} else {
_statusCodeLength++;
if ((byte < 0x30 && 0x39 < byte) || _statusCodeLength > 3) {
throw new HttpException("Invalid response status code");
} else {
_statusCode = _statusCode * 10 + byte - 0x30;
}
}
break;
case _State.RESPONSE_LINE_REASON_PHRASE:
if (byte == _CharCode.CR) {
_state = _State.RESPONSE_LINE_ENDING;
} else {
if (byte == _CharCode.CR || byte == _CharCode.LF) {
throw new HttpException("Invalid response reason phrase");
}
_uri_or_reason_phrase.add(byte);
}
break;
case _State.RESPONSE_LINE_ENDING:
_expect(byte, _CharCode.LF);
_messageType == _MessageType.RESPONSE;
if (_statusCode < 100 || _statusCode > 599) {
throw new HttpException("Invalid response status code");
} else {
// Check whether this response will never have a body.
if (_statusCode <= 199 || _statusCode == 204 ||
_statusCode == 304) {
_noMessageBody = true;
}
}
_state = _State.HEADER_START;
break;
case _State.HEADER_START:
_headers = new _HttpHeaders(version);
if (byte == _CharCode.CR) {
_state = _State.HEADER_ENDING;
} else {
// Start of new header field.
_headerField.add(_toLowerCaseByte(byte));
_state = _State.HEADER_FIELD;
}
break;
case _State.HEADER_FIELD:
if (byte == _CharCode.COLON) {
_state = _State.HEADER_VALUE_START;
} else {
if (!_isTokenChar(byte)) {
throw new HttpException("Invalid header field name");
}
_headerField.add(_toLowerCaseByte(byte));
}
break;
case _State.HEADER_VALUE_START:
if (byte == _CharCode.CR) {
_state = _State.HEADER_VALUE_FOLDING_OR_ENDING;
} else if (byte != _CharCode.SP && byte != _CharCode.HT) {
// Start of new header value.
_headerValue.add(byte);
_state = _State.HEADER_VALUE;
}
break;
case _State.HEADER_VALUE:
if (byte == _CharCode.CR) {
_state = _State.HEADER_VALUE_FOLDING_OR_ENDING;
} else {
_headerValue.add(byte);
}
break;
case _State.HEADER_VALUE_FOLDING_OR_ENDING:
_expect(byte, _CharCode.LF);
_state = _State.HEADER_VALUE_FOLD_OR_END;
break;
case _State.HEADER_VALUE_FOLD_OR_END:
if (byte == _CharCode.SP || byte == _CharCode.HT) {
_state = _State.HEADER_VALUE_START;
} else {
String headerField = new String.fromCharCodes(_headerField);
String headerValue = new String.fromCharCodes(_headerValue);
if (headerField == "transfer-encoding" &&
_caseInsensitiveCompare("chunked".codeUnits, _headerValue)) {
_chunked = true;
}
if (headerField == "connection") {
List<String> tokens = _tokenizeFieldValue(headerValue);
for (int i = 0; i < tokens.length; i++) {
if (_caseInsensitiveCompare("upgrade".codeUnits,
tokens[i].codeUnits)) {
_connectionUpgrade = true;
}
_headers._add(headerField, tokens[i]);
}
} else {
_headers._add(headerField, headerValue);
}
_headerField.clear();
_headerValue.clear();
if (byte == _CharCode.CR) {
_state = _State.HEADER_ENDING;
} else {
// Start of new header field.
_headerField.add(_toLowerCaseByte(byte));
_state = _State.HEADER_FIELD;
}
}
break;
case _State.HEADER_ENDING:
_expect(byte, _CharCode.LF);
_headers._mutable = false;
_transferLength = _headers.contentLength;
// Ignore the Content-Length header if Transfer-Encoding
// is chunked (RFC 2616 section 4.4)
if (_chunked) _transferLength = -1;
// If a request message has neither Content-Length nor
// Transfer-Encoding the message must not have a body (RFC
// 2616 section 4.3).
if (_messageType == _MessageType.REQUEST &&
_transferLength < 0 &&
_chunked == false) {
_transferLength = 0;
}
if (_connectionUpgrade) {
_state = _State.UPGRADED;
_transferLength = 0;
}
_createIncoming(_transferLength);
if (_requestParser) {
_incoming.method =
new String.fromCharCodes(_method);
_incoming.uri =
Uri.parse(
new String.fromCharCodes(_uri_or_reason_phrase));
} else {
_incoming.statusCode = _statusCode;
_incoming.reasonPhrase =
new String.fromCharCodes(_uri_or_reason_phrase);
}
_method.clear();
_uri_or_reason_phrase.clear();
if (_connectionUpgrade) {
_incoming.upgraded = true;
_parserCalled = false;
var tmp = _incoming;
_closeIncoming();
_controller.add(tmp);
return;
}
if (_transferLength == 0 ||
(_messageType == _MessageType.RESPONSE && _noMessageBody)) {
_reset();
var tmp = _incoming;
_closeIncoming();
_controller.add(tmp);
break;
} else if (_chunked) {
_state = _State.CHUNK_SIZE;
_remainingContent = 0;
} else if (_transferLength > 0) {
_remainingContent = _transferLength;
_state = _State.BODY;
} else {
// Neither chunked nor content length. End of body
// indicated by close.
_state = _State.BODY;
}
_parserCalled = false;
_controller.add(_incoming);
return;
case _State.CHUNK_SIZE_STARTING_CR:
_expect(byte, _CharCode.CR);
_state = _State.CHUNK_SIZE_STARTING_LF;
break;
case _State.CHUNK_SIZE_STARTING_LF:
_expect(byte, _CharCode.LF);
_state = _State.CHUNK_SIZE;
break;
case _State.CHUNK_SIZE:
if (byte == _CharCode.CR) {
_state = _State.CHUNK_SIZE_ENDING;
} else if (byte == _CharCode.SEMI_COLON) {
_state = _State.CHUNK_SIZE_EXTENSION;
} else {
int value = _expectHexDigit(byte);
_remainingContent = _remainingContent * 16 + value;
}
break;
case _State.CHUNK_SIZE_EXTENSION:
if (byte == _CharCode.CR) {
_state = _State.CHUNK_SIZE_ENDING;
}
break;
case _State.CHUNK_SIZE_ENDING:
_expect(byte, _CharCode.LF);
if (_remainingContent > 0) {
_state = _State.BODY;
} else {
_state = _State.CHUNKED_BODY_DONE_CR;
}
break;
case _State.CHUNKED_BODY_DONE_CR:
_expect(byte, _CharCode.CR);
_state = _State.CHUNKED_BODY_DONE_LF;
break;
case _State.CHUNKED_BODY_DONE_LF:
_expect(byte, _CharCode.LF);
_reset();
_closeIncoming();
break;
case _State.BODY:
// The body is not handled one byte at a time but in blocks.
_index--;
int dataAvailable = _buffer.length - _index;
if (_remainingContent >= 0 && dataAvailable > _remainingContent) {
dataAvailable = _remainingContent;
}
// Always present the data as a view. This way we can handle all
// cases like this, and the user will not experince different data
// typed (which could lead to polymorphic user code).
List<int> data = new Uint8List.view(_buffer.buffer,
_buffer.offsetInBytes + _index,
dataAvailable);
_bodyController.add(data);
if (_remainingContent != -1) {
_remainingContent -= data.length;
}
_index += data.length;
if (_remainingContent == 0) {
if (!_chunked) {
_reset();
_closeIncoming();
} else {
_state = _State.CHUNK_SIZE_STARTING_CR;
}
}
break;
case _State.FAILURE:
// Should be unreachable.
assert(false);
break;
default:
// Should be unreachable.
assert(false);
break;
}
}
_parserCalled = false;
if (_buffer != null && _index == _buffer.length) {
// If all data is parsed release the buffer and resume receiving
// data.
_releaseBuffer();
if (_state != _State.UPGRADED && _state != _State.FAILURE) {
_socketSubscription.resume();
}
}
}
void _onData(List<int> buffer) {
_socketSubscription.pause();
assert(_buffer == null);
_buffer = buffer;
_index = 0;
_parse();
}
void _onDone() {
// onDone cancles the subscription.
_socketSubscription = null;
if (_state == _State.CLOSED || _state == _State.FAILURE) return;
if (_incoming != null) {
if (_state != _State.UPGRADED &&
!(_state == _State.START && !_requestParser) &&
!(_state == _State.BODY && !_chunked && _transferLength == -1)) {
_bodyController.addError(
new HttpException("Connection closed while receiving data"));
}
_closeIncoming(true);
_controller.close();
return;
}
// If the connection is idle the HTTP stream is closed.
if (_state == _State.START) {
if (!_requestParser) {
_reportError(new HttpException(
"Connection closed before full header was received"));
}
_controller.close();
return;
}
if (_state == _State.UPGRADED) {
_controller.close();
return;
}
if (_state < _State.FIRST_BODY_STATE) {
_state = _State.FAILURE;
// Report the error through the error callback if any. Otherwise
// throw the error.
_reportError(new HttpException(
"Connection closed before full header was received"));
_controller.close();
return;
}
if (!_chunked && _transferLength == -1) {
_state = _State.CLOSED;
} else {
_state = _State.FAILURE;
// Report the error through the error callback if any. Otherwise
// throw the error.
_reportError(new HttpException(
"Connection closed before full body was received"));
}
_controller.close();
}
String get version {
switch (_httpVersion) {
case _HttpVersion.HTTP10:
return "1.0";
case _HttpVersion.HTTP11:
return "1.1";
}
return null;
}
int get messageType => _messageType;
int get transferLength => _transferLength;
bool get upgrade => _connectionUpgrade && _state == _State.UPGRADED;
bool get persistentConnection => _persistentConnection;
void set isHead(bool value) {
if (value) _noMessageBody = true;
}
_HttpDetachedIncoming detachIncoming() {
// Simulate detached by marking as upgraded.
_state = _State.UPGRADED;
return new _HttpDetachedIncoming(_socketSubscription,
readUnparsedData());
}
List<int> readUnparsedData() {
if (_buffer == null) return null;
if (_index == _buffer.length) return null;
var result = _buffer.sublist(_index);
_releaseBuffer();
return result;
}
void _reset() {
if (_state == _State.UPGRADED) return;
_state = _State.START;
_messageType = _MessageType.UNDETERMINED;
_headerField.clear();
_headerValue.clear();
_method.clear();
_uri_or_reason_phrase.clear();
_statusCode = 0;
_statusCodeLength = 0;
_httpVersion = _HttpVersion.UNDETERMINED;
_transferLength = -1;
_persistentConnection = false;
_connectionUpgrade = false;
_chunked = false;
_noMessageBody = false;
_remainingContent = -1;
_headers = null;
}
void _releaseBuffer() {
_buffer = null;
_index = null;
}
static bool _isTokenChar(int byte) {
return byte > 31 && byte < 128 && !_Const.SEPARATOR_MAP[byte];
}
static bool _isValueChar(int byte) {
return (byte > 31 && byte < 128) || (byte == _CharCode.SP) ||
(byte == _CharCode.HT);
}
static List<String> _tokenizeFieldValue(String headerValue) {
List<String> tokens = new List<String>();
int start = 0;
int index = 0;
while (index < headerValue.length) {
if (headerValue[index] == ",") {
tokens.add(headerValue.substring(start, index));
start = index + 1;
} else if (headerValue[index] == " " || headerValue[index] == "\t") {
start++;
}
index++;
}
tokens.add(headerValue.substring(start, index));
return tokens;
}
static int _toLowerCaseByte(int x) {
// Optimized version:
// - 0x41 is 'A'
// - 0x7f is ASCII mask
// - 26 is the number of alpha characters.
// - 0x20 is the delta between lower and upper chars.
return (((x - 0x41) & 0x7f) < 26) ? (x | 0x20) : x;
}
// expected should already be lowercase.
bool _caseInsensitiveCompare(List<int> expected, List<int> value) {
if (expected.length != value.length) return false;
for (int i = 0; i < expected.length; i++) {
if (expected[i] != _toLowerCaseByte(value[i])) return false;
}
return true;
}
int _expect(int val1, int val2) {
if (val1 != val2) {
throw new HttpException("Failed to parse HTTP");
}
}
int _expectHexDigit(int byte) {
if (0x30 <= byte && byte <= 0x39) {
return byte - 0x30; // 0 - 9
} else if (0x41 <= byte && byte <= 0x46) {
return byte - 0x41 + 10; // A - F
} else if (0x61 <= byte && byte <= 0x66) {
return byte - 0x61 + 10; // a - f
} else {
throw new HttpException("Failed to parse HTTP");
}
}
void _createIncoming(int transferLength) {
assert(_incoming == null);
assert(_bodyController == null);
assert(!_bodyPaused);
var incoming;
_bodyController = new StreamController<List<int>>(
sync: true,
onListen: () {
if (incoming != _incoming) return;
assert(_bodyPaused);
_bodyPaused = false;
_pauseStateChanged();
},
onPause: () {
if (incoming != _incoming) return;
assert(!_bodyPaused);
_bodyPaused = true;
_pauseStateChanged();
},
onResume: () {
if (incoming != _incoming) return;
assert(_bodyPaused);
_bodyPaused = false;
_pauseStateChanged();
},
onCancel: () {
if (incoming != _incoming) return;
if (_socketSubscription != null) {
_socketSubscription.cancel();
}
_closeIncoming(true);
_controller.close();
});
incoming = _incoming = new _HttpIncoming(
_headers, transferLength, _bodyController.stream);
_bodyPaused = true;
_pauseStateChanged();
}
void _closeIncoming([bool closing = false]) {
// Ignore multiple close (can happend in re-entrance).
if (_incoming == null) return;
var tmp = _incoming;
tmp.close(closing);
_incoming = null;
if (_bodyController != null) {
_bodyController.close();
_bodyController = null;
}
_bodyPaused = false;
_pauseStateChanged();
}
void _pauseStateChanged() {
if (_incoming != null) {
if (!_bodyPaused && !_parserCalled) {
_parse();
}
} else {
if (!_paused && !_parserCalled) {
_parse();
}
}
}
void _reportError(error, [stackTrace]) {
if (_socketSubscription != null) _socketSubscription.cancel();
_state = _State.FAILURE;
_controller.addError(error, stackTrace);
_controller.close();
}
}