vn-verdnaturachat/ios/Pods/Flipper-PeerTalk/peertalk/PTProtocol.m

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#import "PTProtocol.h"
#import "PTPrivate.h"
#import <objc/runtime.h>
static const uint32_t PTProtocolVersion1 = 1;
NSString * const PTProtocolErrorDomain = @"PTProtocolError";
// This is what we send as the header for each frame.
typedef struct _PTFrame {
// The version of the frame and protocol.
uint32_t version;
// Type of frame
uint32_t type;
// Unless zero, a tag is retained in frames that are responses to previous
// frames. Applications can use this to build transactions or request-response
// logic.
uint32_t tag;
// If payloadSize is larger than zero, *payloadSize* number of bytes are
// following, constituting application-specific data.
uint32_t payloadSize;
} PTFrame;
@interface PTProtocol () {
uint32_t nextFrameTag_;
@public
dispatch_queue_t queue_;
}
- (dispatch_data_t)createDispatchDataWithFrameOfType:(uint32_t)type frameTag:(uint32_t)frameTag payload:(dispatch_data_t)payload;
@end
static void _release_queue_local_protocol(void *objcobj) {
if (objcobj) {
PTProtocol *protocol = (__bridge_transfer id)objcobj;
protocol->queue_ = NULL;
}
}
@interface RQueueLocalIOFrameProtocol : PTProtocol
@end
@implementation RQueueLocalIOFrameProtocol
- (void)setQueue:(dispatch_queue_t)queue {
}
@end
@implementation PTProtocol
+ (PTProtocol*)sharedProtocolForQueue:(dispatch_queue_t)queue {
static const char currentQueueFrameProtocolKey;
//dispatch_queue_t queue = dispatch_get_current_queue();
PTProtocol *currentQueueFrameProtocol = (__bridge PTProtocol*)dispatch_queue_get_specific(queue, &currentQueueFrameProtocolKey);
if (!currentQueueFrameProtocol) {
currentQueueFrameProtocol = [[RQueueLocalIOFrameProtocol alloc] initWithDispatchQueue:NULL];
currentQueueFrameProtocol->queue_ = queue; // reference, no retain, since we would create cyclic references
dispatch_queue_set_specific(queue, &currentQueueFrameProtocolKey, (__bridge_retained void*)currentQueueFrameProtocol, &_release_queue_local_protocol);
return (__bridge PTProtocol*)dispatch_queue_get_specific(queue, &currentQueueFrameProtocolKey); // to avoid race conds
} else {
return currentQueueFrameProtocol;
}
}
- (id)initWithDispatchQueue:(dispatch_queue_t)queue {
if (!(self = [super init])) return nil;
queue_ = queue;
#if PT_DISPATCH_RETAIN_RELEASE
if (queue_) dispatch_retain(queue_);
#endif
return self;
}
- (id)init {
return [self initWithDispatchQueue:dispatch_get_main_queue()];
}
- (void)dealloc {
if (queue_) {
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(queue_);
#endif
}
}
- (dispatch_queue_t)queue {
return queue_;
}
- (void)setQueue:(dispatch_queue_t)queue {
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_queue_t prev_queue = queue_;
queue_ = queue;
if (queue_) dispatch_retain(queue_);
if (prev_queue) dispatch_release(prev_queue);
#else
queue_ = queue;
#endif
}
- (uint32_t)newTag {
return ++nextFrameTag_;
}
#pragma mark -
#pragma mark Creating frames
- (dispatch_data_t)createDispatchDataWithFrameOfType:(uint32_t)type frameTag:(uint32_t)frameTag payload:(dispatch_data_t)payload {
PTFrame *frame = CFAllocatorAllocate(kCFAllocatorDefault, sizeof(PTFrame), 0);
frame->version = htonl(PTProtocolVersion1);
frame->type = htonl(type);
frame->tag = htonl(frameTag);
if (payload) {
size_t payloadSize = dispatch_data_get_size(payload);
assert(payloadSize <= UINT32_MAX);
frame->payloadSize = htonl((uint32_t)payloadSize);
} else {
frame->payloadSize = 0;
}
dispatch_data_t frameData = dispatch_data_create((const void*)frame, sizeof(PTFrame), queue_, ^{
CFAllocatorDeallocate(kCFAllocatorDefault, (void*)frame);
});
if (payload && frame->payloadSize != 0) {
// chain frame + payload
dispatch_data_t data = dispatch_data_create_concat(frameData, payload);
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(frameData);
#endif
frameData = data;
}
return frameData;
}
#pragma mark -
#pragma mark Sending frames
- (void)sendFrameOfType:(uint32_t)frameType tag:(uint32_t)tag withPayload:(dispatch_data_t)payload overChannel:(dispatch_io_t)channel callback:(void(^)(NSError*))callback {
dispatch_data_t frame = [self createDispatchDataWithFrameOfType:frameType frameTag:tag payload:payload];
dispatch_io_write(channel, 0, frame, queue_, ^(bool done, dispatch_data_t data, int _errno) {
if (done && callback) {
callback(_errno == 0 ? nil : [[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:_errno userInfo:nil]);
}
});
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(frame);
#endif
}
#pragma mark -
#pragma mark Receiving frames
- (void)readFrameOverChannel:(dispatch_io_t)channel callback:(void(^)(NSError *error, uint32_t frameType, uint32_t frameTag, uint32_t payloadSize))callback {
__block dispatch_data_t allData = NULL;
dispatch_io_read(channel, 0, sizeof(PTFrame), queue_, ^(bool done, dispatch_data_t data, int error) {
//NSLog(@"dispatch_io_read: done=%d data=%p error=%d", done, data, error);
size_t dataSize = data ? dispatch_data_get_size(data) : 0;
if (dataSize) {
if (!allData) {
allData = data;
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_retain(allData);
#endif
} else {
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_data_t allDataPrev = allData;
allData = dispatch_data_create_concat(allData, data);
dispatch_release(allDataPrev);
#else
allData = dispatch_data_create_concat(allData, data);
#endif
}
}
if (done) {
if (error != 0) {
callback([[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:error userInfo:nil], 0, 0, 0);
return;
}
if (dataSize == 0) {
callback(nil, PTFrameTypeEndOfStream, 0, 0);
return;
}
if (!allData || dispatch_data_get_size(allData) < sizeof(PTFrame)) {
#if PT_DISPATCH_RETAIN_RELEASE
if (allData) dispatch_release(allData);
#endif
callback([[NSError alloc] initWithDomain:PTProtocolErrorDomain code:0 userInfo:nil], 0, 0, 0);
return;
}
PTFrame *frame = NULL;
size_t size = 0;
PT_PRECISE_LIFETIME dispatch_data_t contiguousData = dispatch_data_create_map(allData, (const void **)&frame, &size); // precise lifetime guarantees bytes in frame will stay valid till the end of scope
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(allData);
#endif
if (!contiguousData) {
callback([[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:ENOMEM userInfo:nil], 0, 0, 0);
return;
}
frame->version = ntohl(frame->version);
if (frame->version != PTProtocolVersion1) {
callback([[NSError alloc] initWithDomain:PTProtocolErrorDomain code:0 userInfo:nil], 0, 0, 0);
} else {
frame->type = ntohl(frame->type);
frame->tag = ntohl(frame->tag);
frame->payloadSize = ntohl(frame->payloadSize);
callback(nil, frame->type, frame->tag, frame->payloadSize);
}
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(contiguousData);
#endif
}
});
}
- (void)readPayloadOfSize:(size_t)payloadSize overChannel:(dispatch_io_t)channel callback:(void(^)(NSError *error, dispatch_data_t contiguousData, const uint8_t *buffer, size_t bufferSize))callback {
__block dispatch_data_t allData = NULL;
dispatch_io_read(channel, 0, payloadSize, queue_, ^(bool done, dispatch_data_t data, int error) {
//NSLog(@"dispatch_io_read: done=%d data=%p error=%d", done, data, error);
size_t dataSize = dispatch_data_get_size(data);
if (dataSize) {
if (!allData) {
allData = data;
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_retain(allData);
#endif
} else {
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_data_t allDataPrev = allData;
allData = dispatch_data_create_concat(allData, data);
dispatch_release(allDataPrev);
#else
allData = dispatch_data_create_concat(allData, data);
#endif
}
}
if (done) {
if (error != 0) {
#if PT_DISPATCH_RETAIN_RELEASE
if (allData) dispatch_release(allData);
#endif
callback([[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:error userInfo:nil], NULL, NULL, 0);
return;
}
if (dataSize == 0) {
#if PT_DISPATCH_RETAIN_RELEASE
if (allData) dispatch_release(allData);
#endif
callback(nil, NULL, NULL, 0);
return;
}
uint8_t *buffer = NULL;
size_t bufferSize = 0;
PT_PRECISE_LIFETIME dispatch_data_t contiguousData = NULL;
if (allData) {
contiguousData = dispatch_data_create_map(allData, (const void **)&buffer, &bufferSize);
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(allData); allData = NULL;
#endif
if (!contiguousData) {
callback([[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:ENOMEM userInfo:nil], NULL, NULL, 0);
return;
}
}
callback(nil, contiguousData, buffer, bufferSize);
#if PT_DISPATCH_RETAIN_RELEASE
if (contiguousData) dispatch_release(contiguousData);
#endif
}
});
}
- (void)readAndDiscardDataOfSize:(size_t)size overChannel:(dispatch_io_t)channel callback:(void(^)(NSError*, BOOL))callback {
dispatch_io_read(channel, 0, size, queue_, ^(bool done, dispatch_data_t data, int error) {
if (done && callback) {
size_t dataSize = data ? dispatch_data_get_size(data) : 0;
callback(error == 0 ? nil : [[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:error userInfo:nil], dataSize == 0);
}
});
}
- (void)readFramesOverChannel:(dispatch_io_t)channel onFrame:(void(^)(NSError*, uint32_t, uint32_t, uint32_t, dispatch_block_t))onFrame {
[self readFrameOverChannel:channel callback:^(NSError *error, uint32_t type, uint32_t tag, uint32_t payloadSize) {
onFrame(error, type, tag, payloadSize, ^{
if (type != PTFrameTypeEndOfStream) {
[self readFramesOverChannel:channel onFrame:onFrame];
}
});
}];
}
@end
@interface _PTDispatchData : NSObject {
dispatch_data_t dispatchData_;
}
@end
@implementation _PTDispatchData
- (id)initWithDispatchData:(dispatch_data_t)dispatchData {
if (!(self = [super init])) return nil;
dispatchData_ = dispatchData;
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_retain(dispatchData_);
#endif
return self;
}
- (void)dealloc {
#if PT_DISPATCH_RETAIN_RELEASE
if (dispatchData_) dispatch_release(dispatchData_);
#endif
}
@end
@implementation NSData (PTProtocol)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wunused-getter-return-value"
- (dispatch_data_t)createReferencingDispatchData {
// Note: The queue is used to submit the destructor. Since we only perform an
// atomic release of self, it doesn't really matter which queue is used, thus
// we use the current calling queue.
return dispatch_data_create((const void*)self.bytes, self.length, dispatch_get_main_queue(), ^{
// trick to have the block capture the data, thus retain/releasing
[self length];
});
}
#pragma clang diagnostic pop
+ (NSData *)dataWithContentsOfDispatchData:(dispatch_data_t)data {
if (!data) {
return nil;
}
uint8_t *buffer = NULL;
size_t bufferSize = 0;
PT_PRECISE_LIFETIME dispatch_data_t contiguousData = dispatch_data_create_map(data, (const void **)&buffer, &bufferSize);
if (!contiguousData) {
return nil;
}
_PTDispatchData *dispatchDataRef = [[_PTDispatchData alloc] initWithDispatchData:contiguousData];
NSData *newData = [NSData dataWithBytesNoCopy:(void*)buffer length:bufferSize freeWhenDone:NO];
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(contiguousData);
#endif
static const bool kDispatchDataRefKey;
objc_setAssociatedObject(newData, (const void*)kDispatchDataRefKey, dispatchDataRef, OBJC_ASSOCIATION_RETAIN);
return newData;
}
@end
@implementation NSDictionary (PTProtocol)
- (dispatch_data_t)createReferencingDispatchData {
NSError *error = nil;
NSData *plistData = [NSPropertyListSerialization dataWithPropertyList:self format:NSPropertyListBinaryFormat_v1_0 options:0 error:&error];
if (!plistData) {
NSLog(@"Failed to serialize property list: %@", error);
return nil;
} else {
return [plistData createReferencingDispatchData];
}
}
// Decode *data* as a peroperty list-encoded dictionary. Returns nil on failure.
+ (NSDictionary*)dictionaryWithContentsOfDispatchData:(dispatch_data_t)data {
if (!data) {
return nil;
}
uint8_t *buffer = NULL;
size_t bufferSize = 0;
PT_PRECISE_LIFETIME dispatch_data_t contiguousData = dispatch_data_create_map(data, (const void **)&buffer, &bufferSize);
if (!contiguousData) {
return nil;
}
NSDictionary *dict = [NSPropertyListSerialization propertyListWithData:[NSData dataWithBytesNoCopy:(void*)buffer length:bufferSize freeWhenDone:NO] options:NSPropertyListImmutable format:NULL error:nil];
#if PT_DISPATCH_RETAIN_RELEASE
dispatch_release(contiguousData);
#endif
return dict;
}
@end