generic-library/webrtc
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity
webrtc/talk/examples/objc/AppRTCDemo/third_party/SocketRocket/SRWebSocket.m
tkchin@webrtc.org 87776a8935 iAppRTCDemo: WebSocket based signaling. 
Updates the iOS code to use the new signaling model. Removes old Channel API
code. Note that this no longer logs messages to UI. UI update forthcoming.

BUG=
R=glaznev@webrtc.org, jiayl@webrtc.org

Review URL: https://webrtc-codereview.appspot.com/35369004

git-svn-id: http://webrtc.googlecode.com/svn/trunk@7852 4adac7df-926f-26a2-2b94-8c16560cd09d
2014-12-09 19:32:35 +00:00

1762 lines
55 KiB
Objective-C
Raw Blame History

//
// Copyright 2012 Square Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#import "SRWebSocket.h"
#if TARGET_OS_IPHONE
#define HAS_ICU
#endif
#ifdef HAS_ICU
#import <unicode/utf8.h>
#endif
#if TARGET_OS_IPHONE
#import <Endian.h>
#else
#import <CoreServices/CoreServices.h>
#endif
#import <CommonCrypto/CommonDigest.h>
#import <Security/SecRandom.h>
#if OS_OBJECT_USE_OBJC_RETAIN_RELEASE
#define sr_dispatch_retain(x)
#define sr_dispatch_release(x)
#define maybe_bridge(x) ((__bridge void *) x)
#else
#define sr_dispatch_retain(x) dispatch_retain(x)
#define sr_dispatch_release(x) dispatch_release(x)
#define maybe_bridge(x) (x)
#endif
#if !__has_feature(objc_arc)
#error SocketRocket must be compiled with ARC enabled
#endif
typedef enum {
SROpCodeTextFrame = 0x1,
SROpCodeBinaryFrame = 0x2,
// 3-7 reserved.
SROpCodeConnectionClose = 0x8,
SROpCodePing = 0x9,
SROpCodePong = 0xA,
// B-F reserved.
} SROpCode;
typedef struct {
BOOL fin;
// BOOL rsv1;
// BOOL rsv2;
// BOOL rsv3;
uint8_t opcode;
BOOL masked;
uint64_t payload_length;
} frame_header;
static NSString *const SRWebSocketAppendToSecKeyString = @"258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
static inline int32_t validate_dispatch_data_partial_string(NSData *data);
static inline void SRFastLog(NSString *format, ...);
@interface NSData (SRWebSocket)
- (NSString *)stringBySHA1ThenBase64Encoding;
@end
@interface NSString (SRWebSocket)
- (NSString *)stringBySHA1ThenBase64Encoding;
@end
@interface NSURL (SRWebSocket)
// The origin isn't really applicable for a native application.
// So instead, just map ws -> http and wss -> https.
- (NSString *)SR_origin;
@end
@interface _SRRunLoopThread : NSThread
@property (nonatomic, readonly) NSRunLoop *runLoop;
@end
static NSString *newSHA1String(const char *bytes, size_t length) {
uint8_t md[CC_SHA1_DIGEST_LENGTH];
assert(length >= 0);
assert(length <= UINT32_MAX);
CC_SHA1(bytes, (CC_LONG)length, md);
NSData *data = [NSData dataWithBytes:md length:CC_SHA1_DIGEST_LENGTH];
if ([data respondsToSelector:@selector(base64EncodedStringWithOptions:)]) {
return [data base64EncodedStringWithOptions:0];
}
return [data base64Encoding];
}
@implementation NSData (SRWebSocket)
- (NSString *)stringBySHA1ThenBase64Encoding;
{
return newSHA1String(self.bytes, self.length);
}
@end
@implementation NSString (SRWebSocket)
- (NSString *)stringBySHA1ThenBase64Encoding;
{
return newSHA1String(self.UTF8String, self.length);
}
@end
NSString *const SRWebSocketErrorDomain = @"SRWebSocketErrorDomain";
NSString *const SRHTTPResponseErrorKey = @"HTTPResponseStatusCode";
// Returns number of bytes consumed. Returning 0 means you didn't match.
// Sends bytes to callback handler;
typedef size_t (^stream_scanner)(NSData *collected_data);
typedef void (^data_callback)(SRWebSocket *webSocket, NSData *data);
@interface SRIOConsumer : NSObject {
stream_scanner _scanner;
data_callback _handler;
size_t _bytesNeeded;
BOOL _readToCurrentFrame;
BOOL _unmaskBytes;
}
@property (nonatomic, copy, readonly) stream_scanner consumer;
@property (nonatomic, copy, readonly) data_callback handler;
@property (nonatomic, assign) size_t bytesNeeded;
@property (nonatomic, assign, readonly) BOOL readToCurrentFrame;
@property (nonatomic, assign, readonly) BOOL unmaskBytes;
@end
// This class is not thread-safe, and is expected to always be run on the same queue.
@interface SRIOConsumerPool : NSObject
- (id)initWithBufferCapacity:(NSUInteger)poolSize;
- (SRIOConsumer *)consumerWithScanner:(stream_scanner)scanner handler:(data_callback)handler bytesNeeded:(size_t)bytesNeeded readToCurrentFrame:(BOOL)readToCurrentFrame unmaskBytes:(BOOL)unmaskBytes;
- (void)returnConsumer:(SRIOConsumer *)consumer;
@end
@interface SRWebSocket () <NSStreamDelegate>
- (void)_writeData:(NSData *)data;
- (void)_closeWithProtocolError:(NSString *)message;
- (void)_failWithError:(NSError *)error;
- (void)_disconnect;
- (void)_readFrameNew;
- (void)_readFrameContinue;
- (void)_pumpScanner;
- (void)_pumpWriting;
- (void)_addConsumerWithScanner:(stream_scanner)consumer callback:(data_callback)callback;
- (void)_addConsumerWithDataLength:(size_t)dataLength callback:(data_callback)callback readToCurrentFrame:(BOOL)readToCurrentFrame unmaskBytes:(BOOL)unmaskBytes;
- (void)_addConsumerWithScanner:(stream_scanner)consumer callback:(data_callback)callback dataLength:(size_t)dataLength;
- (void)_readUntilBytes:(const void *)bytes length:(size_t)length callback:(data_callback)dataHandler;
- (void)_readUntilHeaderCompleteWithCallback:(data_callback)dataHandler;
- (void)_sendFrameWithOpcode:(SROpCode)opcode data:(id)data;
- (BOOL)_checkHandshake:(CFHTTPMessageRef)httpMessage;
- (void)_SR_commonInit;
- (void)_initializeStreams;
- (void)_connect;
@property (nonatomic) SRReadyState readyState;
@property (nonatomic) NSOperationQueue *delegateOperationQueue;
@property (nonatomic) dispatch_queue_t delegateDispatchQueue;
@end
@implementation SRWebSocket {
NSInteger _webSocketVersion;
NSOperationQueue *_delegateOperationQueue;
dispatch_queue_t _delegateDispatchQueue;
dispatch_queue_t _workQueue;
NSMutableArray *_consumers;
NSInputStream *_inputStream;
NSOutputStream *_outputStream;
NSMutableData *_readBuffer;
NSUInteger _readBufferOffset;
NSMutableData *_outputBuffer;
NSUInteger _outputBufferOffset;
uint8_t _currentFrameOpcode;
size_t _currentFrameCount;
size_t _readOpCount;
uint32_t _currentStringScanPosition;
NSMutableData *_currentFrameData;
NSString *_closeReason;
NSString *_secKey;
BOOL _pinnedCertFound;
uint8_t _currentReadMaskKey[4];
size_t _currentReadMaskOffset;
BOOL _consumerStopped;
BOOL _closeWhenFinishedWriting;
BOOL _failed;
BOOL _secure;
NSURLRequest *_urlRequest;
CFHTTPMessageRef _receivedHTTPHeaders;
BOOL _sentClose;
BOOL _didFail;
int _closeCode;
BOOL _isPumping;
NSMutableSet *_scheduledRunloops;
// We use this to retain ourselves.
__strong SRWebSocket *_selfRetain;
NSArray *_requestedProtocols;
SRIOConsumerPool *_consumerPool;
}
@synthesize delegate = _delegate;
@synthesize url = _url;
@synthesize readyState = _readyState;
@synthesize protocol = _protocol;
static __strong NSData *CRLFCRLF;
+ (void)initialize;
{
CRLFCRLF = [[NSData alloc] initWithBytes:"\r\n\r\n" length:4];
}
- (id)initWithURLRequest:(NSURLRequest *)request protocols:(NSArray *)protocols;
{
self = [super init];
if (self) {
assert(request.URL);
_url = request.URL;
_urlRequest = request;
_requestedProtocols = [protocols copy];
[self _SR_commonInit];
}
return self;
}
- (id)initWithURLRequest:(NSURLRequest *)request;
{
return [self initWithURLRequest:request protocols:nil];
}
- (id)initWithURL:(NSURL *)url;
{
return [self initWithURL:url protocols:nil];
}
- (id)initWithURL:(NSURL *)url protocols:(NSArray *)protocols;
{
NSMutableURLRequest *request = [[NSMutableURLRequest alloc] initWithURL:url];
return [self initWithURLRequest:request protocols:protocols];
}
- (void)_SR_commonInit;
{
NSString *scheme = _url.scheme.lowercaseString;
assert([scheme isEqualToString:@"ws"] || [scheme isEqualToString:@"http"] || [scheme isEqualToString:@"wss"] || [scheme isEqualToString:@"https"]);
if ([scheme isEqualToString:@"wss"] || [scheme isEqualToString:@"https"]) {
_secure = YES;
}
_readyState = SR_CONNECTING;
_consumerStopped = YES;
_webSocketVersion = 13;
_workQueue = dispatch_queue_create(NULL, DISPATCH_QUEUE_SERIAL);
// Going to set a specific on the queue so we can validate we're on the work queue
dispatch_queue_set_specific(_workQueue, (__bridge void *)self, maybe_bridge(_workQueue), NULL);
_delegateDispatchQueue = dispatch_get_main_queue();
sr_dispatch_retain(_delegateDispatchQueue);
_readBuffer = [[NSMutableData alloc] init];
_outputBuffer = [[NSMutableData alloc] init];
_currentFrameData = [[NSMutableData alloc] init];
_consumers = [[NSMutableArray alloc] init];
_consumerPool = [[SRIOConsumerPool alloc] init];
_scheduledRunloops = [[NSMutableSet alloc] init];
[self _initializeStreams];
// default handlers
}
- (void)assertOnWorkQueue;
{
assert(dispatch_get_specific((__bridge void *)self) == maybe_bridge(_workQueue));
}
- (void)dealloc
{
_inputStream.delegate = nil;
_outputStream.delegate = nil;
[_inputStream close];
[_outputStream close];
sr_dispatch_release(_workQueue);
_workQueue = NULL;
if (_receivedHTTPHeaders) {
CFRelease(_receivedHTTPHeaders);
_receivedHTTPHeaders = NULL;
}
if (_delegateDispatchQueue) {
sr_dispatch_release(_delegateDispatchQueue);
_delegateDispatchQueue = NULL;
}
}
#ifndef NDEBUG
- (void)setReadyState:(SRReadyState)aReadyState;
{
[self willChangeValueForKey:@"readyState"];
assert(aReadyState > _readyState);
_readyState = aReadyState;
[self didChangeValueForKey:@"readyState"];
}
#endif
- (void)open;
{
assert(_url);
NSAssert(_readyState == SR_CONNECTING, @"Cannot call -(void)open on SRWebSocket more than once");
_selfRetain = self;
[self _connect];
}
// Calls block on delegate queue
- (void)_performDelegateBlock:(dispatch_block_t)block;
{
if (_delegateOperationQueue) {
[_delegateOperationQueue addOperationWithBlock:block];
} else {
assert(_delegateDispatchQueue);
dispatch_async(_delegateDispatchQueue, block);
}
}
- (void)setDelegateDispatchQueue:(dispatch_queue_t)queue;
{
if (queue) {
sr_dispatch_retain(queue);
}
if (_delegateDispatchQueue) {
sr_dispatch_release(_delegateDispatchQueue);
}
_delegateDispatchQueue = queue;
}
- (BOOL)_checkHandshake:(CFHTTPMessageRef)httpMessage;
{
NSString *acceptHeader = CFBridgingRelease(CFHTTPMessageCopyHeaderFieldValue(httpMessage, CFSTR("Sec-WebSocket-Accept")));
if (acceptHeader == nil) {
return NO;
}
NSString *concattedString = [_secKey stringByAppendingString:SRWebSocketAppendToSecKeyString];
NSString *expectedAccept = [concattedString stringBySHA1ThenBase64Encoding];
return [acceptHeader isEqualToString:expectedAccept];
}
- (void)_HTTPHeadersDidFinish;
{
NSInteger responseCode = CFHTTPMessageGetResponseStatusCode(_receivedHTTPHeaders);
if (responseCode >= 400) {
SRFastLog(@"Request failed with response code %d", responseCode);
[self _failWithError:[NSError errorWithDomain:SRWebSocketErrorDomain code:2132 userInfo:@{NSLocalizedDescriptionKey:[NSString stringWithFormat:@"received bad response code from server %ld", (long)responseCode], SRHTTPResponseErrorKey:@(responseCode)}]];
return;
}
if(![self _checkHandshake:_receivedHTTPHeaders]) {
[self _failWithError:[NSError errorWithDomain:SRWebSocketErrorDomain code:2133 userInfo:[NSDictionary dictionaryWithObject:[NSString stringWithFormat:@"Invalid Sec-WebSocket-Accept response"] forKey:NSLocalizedDescriptionKey]]];
return;
}
NSString *negotiatedProtocol = CFBridgingRelease(CFHTTPMessageCopyHeaderFieldValue(_receivedHTTPHeaders, CFSTR("Sec-WebSocket-Protocol")));
if (negotiatedProtocol) {
// Make sure we requested the protocol
if ([_requestedProtocols indexOfObject:negotiatedProtocol] == NSNotFound) {
[self _failWithError:[NSError errorWithDomain:SRWebSocketErrorDomain code:2133 userInfo:[NSDictionary dictionaryWithObject:[NSString stringWithFormat:@"Server specified Sec-WebSocket-Protocol that wasn't requested"] forKey:NSLocalizedDescriptionKey]]];
return;
}
_protocol = negotiatedProtocol;
}
self.readyState = SR_OPEN;
if (!_didFail) {
[self _readFrameNew];
}
[self _performDelegateBlock:^{
if ([self.delegate respondsToSelector:@selector(webSocketDidOpen:)]) {
[self.delegate webSocketDidOpen:self];
};
}];
}
- (void)_readHTTPHeader;
{
if (_receivedHTTPHeaders == NULL) {
_receivedHTTPHeaders = CFHTTPMessageCreateEmpty(NULL, NO);
}
[self _readUntilHeaderCompleteWithCallback:^(SRWebSocket *self, NSData *data) {
CFHTTPMessageAppendBytes(_receivedHTTPHeaders, (const UInt8 *)data.bytes, data.length);
if (CFHTTPMessageIsHeaderComplete(_receivedHTTPHeaders)) {
SRFastLog(@"Finished reading headers %@", CFBridgingRelease(CFHTTPMessageCopyAllHeaderFields(_receivedHTTPHeaders)));
[self _HTTPHeadersDidFinish];
} else {
[self _readHTTPHeader];
}
}];
}
- (void)didConnect
{
SRFastLog(@"Connected");
CFHTTPMessageRef request = CFHTTPMessageCreateRequest(NULL, CFSTR("GET"), (__bridge CFURLRef)_url, kCFHTTPVersion1_1);
// Set host first so it defaults
CFHTTPMessageSetHeaderFieldValue(request, CFSTR("Host"), (__bridge CFStringRef)(_url.port ? [NSString stringWithFormat:@"%@:%@", _url.host, _url.port] : _url.host));
NSMutableData *keyBytes = [[NSMutableData alloc] initWithLength:16];
SecRandomCopyBytes(kSecRandomDefault, keyBytes.length, keyBytes.mutableBytes);
if ([keyBytes respondsToSelector:@selector(base64EncodedStringWithOptions:)]) {
_secKey = [keyBytes base64EncodedStringWithOptions:0];
} else {
_secKey = [keyBytes base64Encoding];
}
assert([_secKey length] == 24);
CFHTTPMessageSetHeaderFieldValue(request, CFSTR("Upgrade"), CFSTR("websocket"));
CFHTTPMessageSetHeaderFieldValue(request, CFSTR("Connection"), CFSTR("Upgrade"));
CFHTTPMessageSetHeaderFieldValue(request, CFSTR("Sec-WebSocket-Key"), (__bridge CFStringRef)_secKey);
CFHTTPMessageSetHeaderFieldValue(request, CFSTR("Sec-WebSocket-Version"), (__bridge CFStringRef)[NSString stringWithFormat:@"%ld", (long)_webSocketVersion]);
CFHTTPMessageSetHeaderFieldValue(request, CFSTR("Origin"), (__bridge CFStringRef)_url.SR_origin);
if (_requestedProtocols) {
CFHTTPMessageSetHeaderFieldValue(request, CFSTR("Sec-WebSocket-Protocol"), (__bridge CFStringRef)[_requestedProtocols componentsJoinedByString:@", "]);
}
[_urlRequest.allHTTPHeaderFields enumerateKeysAndObjectsUsingBlock:^(id key, id obj, BOOL *stop) {
CFHTTPMessageSetHeaderFieldValue(request, (__bridge CFStringRef)key, (__bridge CFStringRef)obj);
}];
NSData *message = CFBridgingRelease(CFHTTPMessageCopySerializedMessage(request));
CFRelease(request);
[self _writeData:message];
[self _readHTTPHeader];
}
- (void)_initializeStreams;
{
assert(_url.port.unsignedIntValue <= UINT32_MAX);
uint32_t port = _url.port.unsignedIntValue;
if (port == 0) {
if (!_secure) {
port = 80;
} else {
port = 443;
}
}
NSString *host = _url.host;
CFReadStreamRef readStream = NULL;
CFWriteStreamRef writeStream = NULL;
CFStreamCreatePairWithSocketToHost(NULL, (__bridge CFStringRef)host, port, &readStream, &writeStream);
_outputStream = CFBridgingRelease(writeStream);
_inputStream = CFBridgingRelease(readStream);
if (_secure) {
NSMutableDictionary *SSLOptions = [[NSMutableDictionary alloc] init];
[_outputStream setProperty:(__bridge id)kCFStreamSocketSecurityLevelNegotiatedSSL forKey:(__bridge id)kCFStreamPropertySocketSecurityLevel];
// If we're using pinned certs, don't validate the certificate chain
if ([_urlRequest SR_SSLPinnedCertificates].count) {
[SSLOptions setValue:[NSNumber numberWithBool:NO] forKey:(__bridge id)kCFStreamSSLValidatesCertificateChain];
}
#if DEBUG
[SSLOptions setValue:[NSNumber numberWithBool:NO] forKey:(__bridge id)kCFStreamSSLValidatesCertificateChain];
NSLog(@"SocketRocket: In debug mode. Allowing connection to any root cert");
#endif
[_outputStream setProperty:SSLOptions
forKey:(__bridge id)kCFStreamPropertySSLSettings];
}
_inputStream.delegate = self;
_outputStream.delegate = self;
}
- (void)_connect;
{
if (!_scheduledRunloops.count) {
[self scheduleInRunLoop:[NSRunLoop SR_networkRunLoop] forMode:NSDefaultRunLoopMode];
}
[_outputStream open];
[_inputStream open];
}
- (void)scheduleInRunLoop:(NSRunLoop *)aRunLoop forMode:(NSString *)mode;
{
[_outputStream scheduleInRunLoop:aRunLoop forMode:mode];
[_inputStream scheduleInRunLoop:aRunLoop forMode:mode];
[_scheduledRunloops addObject:@[aRunLoop, mode]];
}
- (void)unscheduleFromRunLoop:(NSRunLoop *)aRunLoop forMode:(NSString *)mode;
{
[_outputStream removeFromRunLoop:aRunLoop forMode:mode];
[_inputStream removeFromRunLoop:aRunLoop forMode:mode];
[_scheduledRunloops removeObject:@[aRunLoop, mode]];
}
- (void)close;
{
[self closeWithCode:SRStatusCodeNormal reason:nil];
}
- (void)closeWithCode:(NSInteger)code reason:(NSString *)reason;
{
assert(code);
dispatch_async(_workQueue, ^{
if (self.readyState == SR_CLOSING || self.readyState == SR_CLOSED) {
return;
}
BOOL wasConnecting = self.readyState == SR_CONNECTING;
self.readyState = SR_CLOSING;
SRFastLog(@"Closing with code %d reason %@", code, reason);
if (wasConnecting) {
[self _disconnect];
return;
}
size_t maxMsgSize = [reason maximumLengthOfBytesUsingEncoding:NSUTF8StringEncoding];
NSMutableData *mutablePayload = [[NSMutableData alloc] initWithLength:sizeof(uint16_t) + maxMsgSize];
NSData *payload = mutablePayload;
((uint16_t *)mutablePayload.mutableBytes)[0] = EndianU16_BtoN(code);
if (reason) {
NSRange remainingRange = {0};
NSUInteger usedLength = 0;
BOOL success = [reason getBytes:(char *)mutablePayload.mutableBytes + sizeof(uint16_t) maxLength:payload.length - sizeof(uint16_t) usedLength:&usedLength encoding:NSUTF8StringEncoding options:NSStringEncodingConversionExternalRepresentation range:NSMakeRange(0, reason.length) remainingRange:&remainingRange];
assert(success);
assert(remainingRange.length == 0);
if (usedLength != maxMsgSize) {
payload = [payload subdataWithRange:NSMakeRange(0, usedLength + sizeof(uint16_t))];
}
}
[self _sendFrameWithOpcode:SROpCodeConnectionClose data:payload];
});
}
- (void)_closeWithProtocolError:(NSString *)message;
{
// Need to shunt this on the _callbackQueue first to see if they received any messages
[self _performDelegateBlock:^{
[self closeWithCode:SRStatusCodeProtocolError reason:message];
dispatch_async(_workQueue, ^{
[self _disconnect];
});
}];
}
- (void)_failWithError:(NSError *)error;
{
dispatch_async(_workQueue, ^{
if (self.readyState != SR_CLOSED) {
_failed = YES;
[self _performDelegateBlock:^{
if ([self.delegate respondsToSelector:@selector(webSocket:didFailWithError:)]) {
[self.delegate webSocket:self didFailWithError:error];
}
}];
self.readyState = SR_CLOSED;
_selfRetain = nil;
SRFastLog(@"Failing with error %@", error.localizedDescription);
[self _disconnect];
}
});
}
- (void)_writeData:(NSData *)data;
{
[self assertOnWorkQueue];
if (_closeWhenFinishedWriting) {
return;
}
[_outputBuffer appendData:data];
[self _pumpWriting];
}
- (void)send:(id)data;
{
NSAssert(self.readyState != SR_CONNECTING, @"Invalid State: Cannot call send: until connection is open");
// TODO: maybe not copy this for performance
data = [data copy];
dispatch_async(_workQueue, ^{
if ([data isKindOfClass:[NSString class]]) {
[self _sendFrameWithOpcode:SROpCodeTextFrame data:[(NSString *)data dataUsingEncoding:NSUTF8StringEncoding]];
} else if ([data isKindOfClass:[NSData class]]) {
[self _sendFrameWithOpcode:SROpCodeBinaryFrame data:data];
} else if (data == nil) {
[self _sendFrameWithOpcode:SROpCodeTextFrame data:data];
} else {
assert(NO);
}
});
}
- (void)sendPing:(NSData *)data;
{
NSAssert(self.readyState == SR_OPEN, @"Invalid State: Cannot call send: until connection is open");
// TODO: maybe not copy this for performance
data = [data copy] ?: [NSData data]; // It's okay for a ping to be empty
dispatch_async(_workQueue, ^{
[self _sendFrameWithOpcode:SROpCodePing data:data];
});
}
- (void)handlePing:(NSData *)pingData;
{
// Need to pingpong this off _callbackQueue first to make sure messages happen in order
[self _performDelegateBlock:^{
dispatch_async(_workQueue, ^{
[self _sendFrameWithOpcode:SROpCodePong data:pingData];
});
}];
}
- (void)handlePong:(NSData *)pongData;
{
SRFastLog(@"Received pong");
[self _performDelegateBlock:^{
if ([self.delegate respondsToSelector:@selector(webSocket:didReceivePong:)]) {
[self.delegate webSocket:self didReceivePong:pongData];
}
}];
}
- (void)_handleMessage:(id)message
{
SRFastLog(@"Received message");
[self _performDelegateBlock:^{
[self.delegate webSocket:self didReceiveMessage:message];
}];
}
static inline BOOL closeCodeIsValid(int closeCode) {
if (closeCode < 1000) {
return NO;
}
if (closeCode >= 1000 && closeCode <= 1011) {
if (closeCode == 1004 ||
closeCode == 1005 ||
closeCode == 1006) {
return NO;
}
return YES;
}
if (closeCode >= 3000 && closeCode <= 3999) {
return YES;
}
if (closeCode >= 4000 && closeCode <= 4999) {
return YES;
}
return NO;
}
// Note from RFC:
//
// If there is a body, the first two
// bytes of the body MUST be a 2-byte unsigned integer (in network byte
// order) representing a status code with value /code/ defined in
// Section 7.4. Following the 2-byte integer the body MAY contain UTF-8
// encoded data with value /reason/, the interpretation of which is not
// defined by this specification.
- (void)handleCloseWithData:(NSData *)data;
{
size_t dataSize = data.length;
__block uint16_t closeCode = 0;
SRFastLog(@"Received close frame");
if (dataSize == 1) {
// TODO handle error
[self _closeWithProtocolError:@"Payload for close must be larger than 2 bytes"];
return;
} else if (dataSize >= 2) {
[data getBytes:&closeCode length:sizeof(closeCode)];
_closeCode = EndianU16_BtoN(closeCode);
if (!closeCodeIsValid(_closeCode)) {
[self _closeWithProtocolError:[NSString stringWithFormat:@"Cannot have close code of %d", _closeCode]];
return;
}
if (dataSize > 2) {
_closeReason = [[NSString alloc] initWithData:[data subdataWithRange:NSMakeRange(2, dataSize - 2)] encoding:NSUTF8StringEncoding];
if (!_closeReason) {
[self _closeWithProtocolError:@"Close reason MUST be valid UTF-8"];
return;
}
}
} else {
_closeCode = SRStatusNoStatusReceived;
}
[self assertOnWorkQueue];
if (self.readyState == SR_OPEN) {
[self closeWithCode:1000 reason:nil];
}
dispatch_async(_workQueue, ^{
[self _disconnect];
});
}
- (void)_disconnect;
{
[self assertOnWorkQueue];
SRFastLog(@"Trying to disconnect");
_closeWhenFinishedWriting = YES;
[self _pumpWriting];
}
- (void)_handleFrameWithData:(NSData *)frameData opCode:(NSInteger)opcode;
{
// Check that the current data is valid UTF8
BOOL isControlFrame = (opcode == SROpCodePing || opcode == SROpCodePong || opcode == SROpCodeConnectionClose);
if (!isControlFrame) {
[self _readFrameNew];
} else {
dispatch_async(_workQueue, ^{
[self _readFrameContinue];
});
}
switch (opcode) {
case SROpCodeTextFrame: {
NSString *str = [[NSString alloc] initWithData:frameData encoding:NSUTF8StringEncoding];
if (str == nil && frameData) {
[self closeWithCode:SRStatusCodeInvalidUTF8 reason:@"Text frames must be valid UTF-8"];
dispatch_async(_workQueue, ^{
[self _disconnect];
});
return;
}
[self _handleMessage:str];
break;
}
case SROpCodeBinaryFrame:
[self _handleMessage:[frameData copy]];
break;
case SROpCodeConnectionClose:
[self handleCloseWithData:frameData];
break;
case SROpCodePing:
[self handlePing:frameData];
break;
case SROpCodePong:
[self handlePong:frameData];
break;
default:
[self _closeWithProtocolError:[NSString stringWithFormat:@"Unknown opcode %ld", (long)opcode]];
// TODO: Handle invalid opcode
break;
}
}
- (void)_handleFrameHeader:(frame_header)frame_header curData:(NSData *)curData;
{
assert(frame_header.opcode != 0);
if (self.readyState != SR_OPEN) {
return;
}
BOOL isControlFrame = (frame_header.opcode == SROpCodePing || frame_header.opcode == SROpCodePong || frame_header.opcode == SROpCodeConnectionClose);
if (isControlFrame && !frame_header.fin) {
[self _closeWithProtocolError:@"Fragmented control frames not allowed"];
return;
}
if (isControlFrame && frame_header.payload_length >= 126) {
[self _closeWithProtocolError:@"Control frames cannot have payloads larger than 126 bytes"];
return;
}
if (!isControlFrame) {
_currentFrameOpcode = frame_header.opcode;
_currentFrameCount += 1;
}
if (frame_header.payload_length == 0) {
if (isControlFrame) {
[self _handleFrameWithData:curData opCode:frame_header.opcode];
} else {
if (frame_header.fin) {
[self _handleFrameWithData:_currentFrameData opCode:frame_header.opcode];
} else {
// TODO add assert that opcode is not a control;
[self _readFrameContinue];
}
}
} else {
assert(frame_header.payload_length <= SIZE_T_MAX);
[self _addConsumerWithDataLength:(size_t)frame_header.payload_length callback:^(SRWebSocket *self, NSData *newData) {
if (isControlFrame) {
[self _handleFrameWithData:newData opCode:frame_header.opcode];
} else {
if (frame_header.fin) {
[self _handleFrameWithData:self->_currentFrameData opCode:frame_header.opcode];
} else {
// TODO add assert that opcode is not a control;
[self _readFrameContinue];
}
}
} readToCurrentFrame:!isControlFrame unmaskBytes:frame_header.masked];
}
}
/* From RFC:
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-------+-+-------------+-------------------------------+
|F|R|R|R| opcode|M| Payload len | Extended payload length |
|I|S|S|S| (4) |A| (7) | (16/64) |
|N|V|V|V| |S| | (if payload len==126/127) |
| |1|2|3| |K| | |
+-+-+-+-+-------+-+-------------+ - - - - - - - - - - - - - - - +
| Extended payload length continued, if payload len == 127 |
+ - - - - - - - - - - - - - - - +-------------------------------+
| |Masking-key, if MASK set to 1 |
+-------------------------------+-------------------------------+
| Masking-key (continued) | Payload Data |
+-------------------------------- - - - - - - - - - - - - - - - +
: Payload Data continued ... :
+ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - +
| Payload Data continued ... |
+---------------------------------------------------------------+
*/
static const uint8_t SRFinMask = 0x80;
static const uint8_t SROpCodeMask = 0x0F;
static const uint8_t SRRsvMask = 0x70;
static const uint8_t SRMaskMask = 0x80;
static const uint8_t SRPayloadLenMask = 0x7F;
- (void)_readFrameContinue;
{
assert((_currentFrameCount == 0 && _currentFrameOpcode == 0) || (_currentFrameCount > 0 && _currentFrameOpcode > 0));
[self _addConsumerWithDataLength:2 callback:^(SRWebSocket *self, NSData *data) {
__block frame_header header = {0};
const uint8_t *headerBuffer = data.bytes;
assert(data.length >= 2);
if (headerBuffer[0] & SRRsvMask) {
[self _closeWithProtocolError:@"Server used RSV bits"];
return;
}
uint8_t receivedOpcode = (SROpCodeMask & headerBuffer[0]);
BOOL isControlFrame = (receivedOpcode == SROpCodePing || receivedOpcode == SROpCodePong || receivedOpcode == SROpCodeConnectionClose);
if (!isControlFrame && receivedOpcode != 0 && self->_currentFrameCount > 0) {
[self _closeWithProtocolError:@"all data frames after the initial data frame must have opcode 0"];
return;
}
if (receivedOpcode == 0 && self->_currentFrameCount == 0) {
[self _closeWithProtocolError:@"cannot continue a message"];
return;
}
header.opcode = receivedOpcode == 0 ? self->_currentFrameOpcode : receivedOpcode;
header.fin = !!(SRFinMask & headerBuffer[0]);
header.masked = !!(SRMaskMask & headerBuffer[1]);
header.payload_length = SRPayloadLenMask & headerBuffer[1];
headerBuffer = NULL;
if (header.masked) {
[self _closeWithProtocolError:@"Client must receive unmasked data"];
}
size_t extra_bytes_needed = header.masked ? sizeof(_currentReadMaskKey) : 0;
if (header.payload_length == 126) {
extra_bytes_needed += sizeof(uint16_t);
} else if (header.payload_length == 127) {
extra_bytes_needed += sizeof(uint64_t);
}
if (extra_bytes_needed == 0) {
[self _handleFrameHeader:header curData:self->_currentFrameData];
} else {
[self _addConsumerWithDataLength:extra_bytes_needed callback:^(SRWebSocket *self, NSData *data) {
size_t mapped_size = data.length;
const void *mapped_buffer = data.bytes;
size_t offset = 0;
if (header.payload_length == 126) {
assert(mapped_size >= sizeof(uint16_t));
uint16_t newLen = EndianU16_BtoN(*(uint16_t *)(mapped_buffer));
header.payload_length = newLen;
offset += sizeof(uint16_t);
} else if (header.payload_length == 127) {
assert(mapped_size >= sizeof(uint64_t));
header.payload_length = EndianU64_BtoN(*(uint64_t *)(mapped_buffer));
offset += sizeof(uint64_t);
} else {
assert(header.payload_length < 126 && header.payload_length >= 0);
}
if (header.masked) {
assert(mapped_size >= sizeof(_currentReadMaskOffset) + offset);
memcpy(self->_currentReadMaskKey, ((uint8_t *)mapped_buffer) + offset, sizeof(self->_currentReadMaskKey));
}
[self _handleFrameHeader:header curData:self->_currentFrameData];
} readToCurrentFrame:NO unmaskBytes:NO];
}
} readToCurrentFrame:NO unmaskBytes:NO];
}
- (void)_readFrameNew;
{
dispatch_async(_workQueue, ^{
[_currentFrameData setLength:0];
_currentFrameOpcode = 0;
_currentFrameCount = 0;
_readOpCount = 0;
_currentStringScanPosition = 0;
[self _readFrameContinue];
});
}
- (void)_pumpWriting;
{
[self assertOnWorkQueue];
NSUInteger dataLength = _outputBuffer.length;
if (dataLength - _outputBufferOffset > 0 && _outputStream.hasSpaceAvailable) {
NSInteger bytesWritten = [_outputStream write:_outputBuffer.bytes + _outputBufferOffset maxLength:dataLength - _outputBufferOffset];
if (bytesWritten == -1) {
[self _failWithError:[NSError errorWithDomain:SRWebSocketErrorDomain code:2145 userInfo:[NSDictionary dictionaryWithObject:@"Error writing to stream" forKey:NSLocalizedDescriptionKey]]];
return;
}
_outputBufferOffset += bytesWritten;
if (_outputBufferOffset > 4096 && _outputBufferOffset > (_outputBuffer.length >> 1)) {
_outputBuffer = [[NSMutableData alloc] initWithBytes:(char *)_outputBuffer.bytes + _outputBufferOffset length:_outputBuffer.length - _outputBufferOffset];
_outputBufferOffset = 0;
}
}
if (_closeWhenFinishedWriting &&
_outputBuffer.length - _outputBufferOffset == 0 &&
(_inputStream.streamStatus != NSStreamStatusNotOpen &&
_inputStream.streamStatus != NSStreamStatusClosed) &&
!_sentClose) {
_sentClose = YES;
[_outputStream close];
[_inputStream close];
for (NSArray *runLoop in [_scheduledRunloops copy]) {
[self unscheduleFromRunLoop:[runLoop objectAtIndex:0] forMode:[runLoop objectAtIndex:1]];
}
if (!_failed) {
[self _performDelegateBlock:^{
if ([self.delegate respondsToSelector:@selector(webSocket:didCloseWithCode:reason:wasClean:)]) {
[self.delegate webSocket:self didCloseWithCode:_closeCode reason:_closeReason wasClean:YES];
}
}];
}
_selfRetain = nil;
}
}
- (void)_addConsumerWithScanner:(stream_scanner)consumer callback:(data_callback)callback;
{
[self assertOnWorkQueue];
[self _addConsumerWithScanner:consumer callback:callback dataLength:0];
}
- (void)_addConsumerWithDataLength:(size_t)dataLength callback:(data_callback)callback readToCurrentFrame:(BOOL)readToCurrentFrame unmaskBytes:(BOOL)unmaskBytes;
{
[self assertOnWorkQueue];
assert(dataLength);
[_consumers addObject:[_consumerPool consumerWithScanner:nil handler:callback bytesNeeded:dataLength readToCurrentFrame:readToCurrentFrame unmaskBytes:unmaskBytes]];
[self _pumpScanner];
}
- (void)_addConsumerWithScanner:(stream_scanner)consumer callback:(data_callback)callback dataLength:(size_t)dataLength;
{
[self assertOnWorkQueue];
[_consumers addObject:[_consumerPool consumerWithScanner:consumer handler:callback bytesNeeded:dataLength readToCurrentFrame:NO unmaskBytes:NO]];
[self _pumpScanner];
}
static const char CRLFCRLFBytes[] = {'\r', '\n', '\r', '\n'};
- (void)_readUntilHeaderCompleteWithCallback:(data_callback)dataHandler;
{
[self _readUntilBytes:CRLFCRLFBytes length:sizeof(CRLFCRLFBytes) callback:dataHandler];
}
- (void)_readUntilBytes:(const void *)bytes length:(size_t)length callback:(data_callback)dataHandler;
{
// TODO optimize so this can continue from where we last searched
stream_scanner consumer = ^size_t(NSData *data) {
__block size_t found_size = 0;
__block size_t match_count = 0;
size_t size = data.length;
const unsigned char *buffer = data.bytes;
for (size_t i = 0; i < size; i++ ) {
if (((const unsigned char *)buffer)[i] == ((const unsigned char *)bytes)[match_count]) {
match_count += 1;
if (match_count == length) {
found_size = i + 1;
break;
}
} else {
match_count = 0;
}
}
return found_size;
};
[self _addConsumerWithScanner:consumer callback:dataHandler];
}
// Returns true if did work
- (BOOL)_innerPumpScanner {
BOOL didWork = NO;
if (self.readyState >= SR_CLOSING) {
return didWork;
}
if (!_consumers.count) {
return didWork;
}
size_t curSize = _readBuffer.length - _readBufferOffset;
if (!curSize) {
return didWork;
}
SRIOConsumer *consumer = [_consumers objectAtIndex:0];
size_t bytesNeeded = consumer.bytesNeeded;
size_t foundSize = 0;
if (consumer.consumer) {
NSData *tempView = [NSData dataWithBytesNoCopy:(char *)_readBuffer.bytes + _readBufferOffset length:_readBuffer.length - _readBufferOffset freeWhenDone:NO];
foundSize = consumer.consumer(tempView);
} else {
assert(consumer.bytesNeeded);
if (curSize >= bytesNeeded) {
foundSize = bytesNeeded;
} else if (consumer.readToCurrentFrame) {
foundSize = curSize;
}
}
NSData *slice = nil;
if (consumer.readToCurrentFrame || foundSize) {
NSRange sliceRange = NSMakeRange(_readBufferOffset, foundSize);
slice = [_readBuffer subdataWithRange:sliceRange];
_readBufferOffset += foundSize;
if (_readBufferOffset > 4096 && _readBufferOffset > (_readBuffer.length >> 1)) {
_readBuffer = [[NSMutableData alloc] initWithBytes:(char *)_readBuffer.bytes + _readBufferOffset length:_readBuffer.length - _readBufferOffset]; _readBufferOffset = 0;
}
if (consumer.unmaskBytes) {
NSMutableData *mutableSlice = [slice mutableCopy];
NSUInteger len = mutableSlice.length;
uint8_t *bytes = mutableSlice.mutableBytes;
for (NSUInteger i = 0; i < len; i++) {
bytes[i] = bytes[i] ^ _currentReadMaskKey[_currentReadMaskOffset % sizeof(_currentReadMaskKey)];
_currentReadMaskOffset += 1;
}
slice = mutableSlice;
}
if (consumer.readToCurrentFrame) {
[_currentFrameData appendData:slice];
_readOpCount += 1;
if (_currentFrameOpcode == SROpCodeTextFrame) {
// Validate UTF8 stuff.
size_t currentDataSize = _currentFrameData.length;
if (_currentFrameOpcode == SROpCodeTextFrame && currentDataSize > 0) {
// TODO: Optimize the crap out of this. Don't really have to copy all the data each time
size_t scanSize = currentDataSize - _currentStringScanPosition;
NSData *scan_data = [_currentFrameData subdataWithRange:NSMakeRange(_currentStringScanPosition, scanSize)];
int32_t valid_utf8_size = validate_dispatch_data_partial_string(scan_data);
if (valid_utf8_size == -1) {
[self closeWithCode:SRStatusCodeInvalidUTF8 reason:@"Text frames must be valid UTF-8"];
dispatch_async(_workQueue, ^{
[self _disconnect];
});
return didWork;
} else {
_currentStringScanPosition += valid_utf8_size;
}
}
}
consumer.bytesNeeded -= foundSize;
if (consumer.bytesNeeded == 0) {
[_consumers removeObjectAtIndex:0];
consumer.handler(self, nil);
[_consumerPool returnConsumer:consumer];
didWork = YES;
}
} else if (foundSize) {
[_consumers removeObjectAtIndex:0];
consumer.handler(self, slice);
[_consumerPool returnConsumer:consumer];
didWork = YES;
}
}
return didWork;
}
-(void)_pumpScanner;
{
[self assertOnWorkQueue];
if (!_isPumping) {
_isPumping = YES;
} else {
return;
}
while ([self _innerPumpScanner]) {
}
_isPumping = NO;
}
//#define NOMASK
static const size_t SRFrameHeaderOverhead = 32;
- (void)_sendFrameWithOpcode:(SROpCode)opcode data:(id)data;
{
[self assertOnWorkQueue];
if (nil == data) {
return;
}
NSAssert([data isKindOfClass:[NSData class]] || [data isKindOfClass:[NSString class]], @"NSString or NSData");
size_t payloadLength = [data isKindOfClass:[NSString class]] ? [(NSString *)data lengthOfBytesUsingEncoding:NSUTF8StringEncoding] : [data length];
NSMutableData *frame = [[NSMutableData alloc] initWithLength:payloadLength + SRFrameHeaderOverhead];
if (!frame) {
[self closeWithCode:SRStatusCodeMessageTooBig reason:@"Message too big"];
return;
}
uint8_t *frame_buffer = (uint8_t *)[frame mutableBytes];
// set fin
frame_buffer[0] = SRFinMask | opcode;
BOOL useMask = YES;
#ifdef NOMASK
useMask = NO;
#endif
if (useMask) {
// set the mask and header
frame_buffer[1] |= SRMaskMask;
}
size_t frame_buffer_size = 2;
const uint8_t *unmasked_payload = NULL;
if ([data isKindOfClass:[NSData class]]) {
unmasked_payload = (uint8_t *)[data bytes];
} else if ([data isKindOfClass:[NSString class]]) {
unmasked_payload = (const uint8_t *)[data UTF8String];
} else {
return;
}
if (payloadLength < 126) {
frame_buffer[1] |= payloadLength;
} else if (payloadLength <= UINT16_MAX) {
frame_buffer[1] |= 126;
*((uint16_t *)(frame_buffer + frame_buffer_size)) = EndianU16_BtoN((uint16_t)payloadLength);
frame_buffer_size += sizeof(uint16_t);
} else {
frame_buffer[1] |= 127;
*((uint64_t *)(frame_buffer + frame_buffer_size)) = EndianU64_BtoN((uint64_t)payloadLength);
frame_buffer_size += sizeof(uint64_t);
}
if (!useMask) {
for (size_t i = 0; i < payloadLength; i++) {
frame_buffer[frame_buffer_size] = unmasked_payload[i];
frame_buffer_size += 1;
}
} else {
uint8_t *mask_key = frame_buffer + frame_buffer_size;
SecRandomCopyBytes(kSecRandomDefault, sizeof(uint32_t), (uint8_t *)mask_key);
frame_buffer_size += sizeof(uint32_t);
// TODO: could probably optimize this with SIMD
for (size_t i = 0; i < payloadLength; i++) {
frame_buffer[frame_buffer_size] = unmasked_payload[i] ^ mask_key[i % sizeof(uint32_t)];
frame_buffer_size += 1;
}
}
assert(frame_buffer_size <= [frame length]);
frame.length = frame_buffer_size;
[self _writeData:frame];
}
- (void)stream:(NSStream *)aStream handleEvent:(NSStreamEvent)eventCode;
{
if (_secure && !_pinnedCertFound && (eventCode == NSStreamEventHasBytesAvailable || eventCode == NSStreamEventHasSpaceAvailable)) {
NSArray *sslCerts = [_urlRequest SR_SSLPinnedCertificates];
if (sslCerts) {
SecTrustRef secTrust = (__bridge SecTrustRef)[aStream propertyForKey:(__bridge id)kCFStreamPropertySSLPeerTrust];
if (secTrust) {
NSInteger numCerts = SecTrustGetCertificateCount(secTrust);
for (NSInteger i = 0; i < numCerts && !_pinnedCertFound; i++) {
SecCertificateRef cert = SecTrustGetCertificateAtIndex(secTrust, i);
NSData *certData = CFBridgingRelease(SecCertificateCopyData(cert));
for (id ref in sslCerts) {
SecCertificateRef trustedCert = (__bridge SecCertificateRef)ref;
NSData *trustedCertData = CFBridgingRelease(SecCertificateCopyData(trustedCert));
if ([trustedCertData isEqualToData:certData]) {
_pinnedCertFound = YES;
break;
}
}
}
}
if (!_pinnedCertFound) {
dispatch_async(_workQueue, ^{
[self _failWithError:[NSError errorWithDomain:SRWebSocketErrorDomain code:23556 userInfo:[NSDictionary dictionaryWithObject:[NSString stringWithFormat:@"Invalid server cert"] forKey:NSLocalizedDescriptionKey]]];
});
return;
}
}
}
dispatch_async(_workQueue, ^{
switch (eventCode) {
case NSStreamEventOpenCompleted: {
SRFastLog(@"NSStreamEventOpenCompleted %@", aStream);
if (self.readyState >= SR_CLOSING) {
return;
}
assert(_readBuffer);
if (self.readyState == SR_CONNECTING && aStream == _inputStream) {
[self didConnect];
}
[self _pumpWriting];
[self _pumpScanner];
break;
}
case NSStreamEventErrorOccurred: {
SRFastLog(@"NSStreamEventErrorOccurred %@ %@", aStream, [[aStream streamError] copy]);
/// TODO specify error better!
[self _failWithError:aStream.streamError];
_readBufferOffset = 0;
[_readBuffer setLength:0];
break;
}
case NSStreamEventEndEncountered: {
[self _pumpScanner];
SRFastLog(@"NSStreamEventEndEncountered %@", aStream);
if (aStream.streamError) {
[self _failWithError:aStream.streamError];
} else {
if (self.readyState != SR_CLOSED) {
self.readyState = SR_CLOSED;
_selfRetain = nil;
}
if (!_sentClose && !_failed) {
_sentClose = YES;
// If we get closed in this state it's probably not clean because we should be sending this when we send messages
[self _performDelegateBlock:^{
if ([self.delegate respondsToSelector:@selector(webSocket:didCloseWithCode:reason:wasClean:)]) {
[self.delegate webSocket:self didCloseWithCode:SRStatusCodeGoingAway reason:@"Stream end encountered" wasClean:NO];
}
}];
}
}
break;
}
case NSStreamEventHasBytesAvailable: {
SRFastLog(@"NSStreamEventHasBytesAvailable %@", aStream);
const int bufferSize = 2048;
uint8_t buffer[bufferSize];
while (_inputStream.hasBytesAvailable) {
NSInteger bytes_read = [_inputStream read:buffer maxLength:bufferSize];
if (bytes_read > 0) {
[_readBuffer appendBytes:buffer length:bytes_read];
} else if (bytes_read < 0) {
[self _failWithError:_inputStream.streamError];
}
if (bytes_read != bufferSize) {
break;
}
};
[self _pumpScanner];
break;
}
case NSStreamEventHasSpaceAvailable: {
SRFastLog(@"NSStreamEventHasSpaceAvailable %@", aStream);
[self _pumpWriting];
break;
}
default:
SRFastLog(@"(default) %@", aStream);
break;
}
});
}
@end
@implementation SRIOConsumer
@synthesize bytesNeeded = _bytesNeeded;
@synthesize consumer = _scanner;
@synthesize handler = _handler;
@synthesize readToCurrentFrame = _readToCurrentFrame;
@synthesize unmaskBytes = _unmaskBytes;
- (void)setupWithScanner:(stream_scanner)scanner handler:(data_callback)handler bytesNeeded:(size_t)bytesNeeded readToCurrentFrame:(BOOL)readToCurrentFrame unmaskBytes:(BOOL)unmaskBytes;
{
_scanner = [scanner copy];
_handler = [handler copy];
_bytesNeeded = bytesNeeded;
_readToCurrentFrame = readToCurrentFrame;
_unmaskBytes = unmaskBytes;
assert(_scanner || _bytesNeeded);
}
@end
@implementation SRIOConsumerPool {
NSUInteger _poolSize;
NSMutableArray *_bufferedConsumers;
}
- (id)initWithBufferCapacity:(NSUInteger)poolSize;
{
self = [super init];
if (self) {
_poolSize = poolSize;
_bufferedConsumers = [[NSMutableArray alloc] initWithCapacity:poolSize];
}
return self;
}
- (id)init
{
return [self initWithBufferCapacity:8];
}
- (SRIOConsumer *)consumerWithScanner:(stream_scanner)scanner handler:(data_callback)handler bytesNeeded:(size_t)bytesNeeded readToCurrentFrame:(BOOL)readToCurrentFrame unmaskBytes:(BOOL)unmaskBytes;
{
SRIOConsumer *consumer = nil;
if (_bufferedConsumers.count) {
consumer = [_bufferedConsumers lastObject];
[_bufferedConsumers removeLastObject];
} else {
consumer = [[SRIOConsumer alloc] init];
}
[consumer setupWithScanner:scanner handler:handler bytesNeeded:bytesNeeded readToCurrentFrame:readToCurrentFrame unmaskBytes:unmaskBytes];
return consumer;
}
- (void)returnConsumer:(SRIOConsumer *)consumer;
{
if (_bufferedConsumers.count < _poolSize) {
[_bufferedConsumers addObject:consumer];
}
}
@end
@implementation NSURLRequest (CertificateAdditions)
- (NSArray *)SR_SSLPinnedCertificates;
{
return [NSURLProtocol propertyForKey:@"SR_SSLPinnedCertificates" inRequest:self];
}
@end
@implementation NSMutableURLRequest (CertificateAdditions)
- (NSArray *)SR_SSLPinnedCertificates;
{
return [NSURLProtocol propertyForKey:@"SR_SSLPinnedCertificates" inRequest:self];
}
- (void)setSR_SSLPinnedCertificates:(NSArray *)SR_SSLPinnedCertificates;
{
[NSURLProtocol setProperty:SR_SSLPinnedCertificates forKey:@"SR_SSLPinnedCertificates" inRequest:self];
}
@end
@implementation NSURL (SRWebSocket)
- (NSString *)SR_origin;
{
NSString *scheme = [self.scheme lowercaseString];
if ([scheme isEqualToString:@"wss"]) {
scheme = @"https";
} else if ([scheme isEqualToString:@"ws"]) {
scheme = @"http";
}
if (self.port) {
return [NSString stringWithFormat:@"%@://%@:%@/", scheme, self.host, self.port];
} else {
return [NSString stringWithFormat:@"%@://%@/", scheme, self.host];
}
}
@end
//#define SR_ENABLE_LOG
static inline void SRFastLog(NSString *format, ...) {
#ifdef SR_ENABLE_LOG
__block va_list arg_list;
va_start (arg_list, format);
NSString *formattedString = [[NSString alloc] initWithFormat:format arguments:arg_list];
va_end(arg_list);
NSLog(@"[SR] %@", formattedString);
#endif
}
#ifdef HAS_ICU
static inline int32_t validate_dispatch_data_partial_string(NSData *data) {
if ([data length] > INT32_MAX) {
// INT32_MAX is the limit so long as this Framework is using 32 bit ints everywhere.
return -1;
}
int32_t size = (int32_t)[data length];
const void * contents = [data bytes];
const uint8_t *str = (const uint8_t *)contents;
UChar32 codepoint = 1;
int32_t offset = 0;
int32_t lastOffset = 0;
while(offset < size && codepoint > 0) {
lastOffset = offset;
U8_NEXT(str, offset, size, codepoint);
}
if (codepoint == -1) {
// Check to see if the last byte is valid or whether it was just continuing
if (!U8_IS_LEAD(str[lastOffset]) || U8_COUNT_TRAIL_BYTES(str[lastOffset]) + lastOffset < (int32_t)size) {
size = -1;
} else {
uint8_t leadByte = str[lastOffset];
U8_MASK_LEAD_BYTE(leadByte, U8_COUNT_TRAIL_BYTES(leadByte));
for (int i = lastOffset + 1; i < offset; i++) {
if (U8_IS_SINGLE(str[i]) || U8_IS_LEAD(str[i]) || !U8_IS_TRAIL(str[i])) {
size = -1;
}
}
if (size != -1) {
size = lastOffset;
}
}
}
if (size != -1 && ![[NSString alloc] initWithBytesNoCopy:(char *)[data bytes] length:size encoding:NSUTF8StringEncoding freeWhenDone:NO]) {
size = -1;
}
return size;
}
#else
// This is a hack, and probably not optimal
static inline int32_t validate_dispatch_data_partial_string(NSData *data) {
static const int maxCodepointSize = 3;
for (int i = 0; i < maxCodepointSize; i++) {
NSString *str = [[NSString alloc] initWithBytesNoCopy:(char *)data.bytes length:data.length - i encoding:NSUTF8StringEncoding freeWhenDone:NO];
if (str) {
return data.length - i;
}
}
return -1;
}
#endif
static _SRRunLoopThread *networkThread = nil;
static NSRunLoop *networkRunLoop = nil;
@implementation NSRunLoop (SRWebSocket)
+ (NSRunLoop *)SR_networkRunLoop {
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
networkThread = [[_SRRunLoopThread alloc] init];
networkThread.name = @"com.squareup.SocketRocket.NetworkThread";
[networkThread start];
networkRunLoop = networkThread.runLoop;
});
return networkRunLoop;
}
@end
@implementation _SRRunLoopThread {
dispatch_group_t _waitGroup;
}
@synthesize runLoop = _runLoop;
- (void)dealloc
{
sr_dispatch_release(_waitGroup);
}
- (id)init
{
self = [super init];
if (self) {
_waitGroup = dispatch_group_create();
dispatch_group_enter(_waitGroup);
}
return self;
}
- (void)main;
{
@autoreleasepool {
_runLoop = [NSRunLoop currentRunLoop];
dispatch_group_leave(_waitGroup);
NSTimer *timer = [[NSTimer alloc] initWithFireDate:[NSDate distantFuture] interval:0.0 target:nil selector:nil userInfo:nil repeats:NO];
[_runLoop addTimer:timer forMode:NSDefaultRunLoopMode];
while ([_runLoop runMode:NSDefaultRunLoopMode beforeDate:[NSDate distantFuture]]) {
}
assert(NO);
}
}
- (NSRunLoop *)runLoop;
{
dispatch_group_wait(_waitGroup, DISPATCH_TIME_FOREVER);
return _runLoop;
}
@end
Reference in New Issue View Git Blame Copy Permalink