verdnatura-chat/ios/Pods/Flipper-PeerTalk/peertalk/PTChannel.m

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#import "PTChannel.h"
#import "PTPrivate.h"
#include <sys/ioctl.h>
#include <sys/un.h>
#include <err.h>
#include <fcntl.h>
#include <arpa/inet.h>
#import <objc/runtime.h>
// Read member of sockaddr_in without knowing the family
#define PT_SOCKADDR_ACCESS(ss, member4, member6) \
(((ss)->ss_family == AF_INET) ? ( \
((const struct sockaddr_in *)(ss))->member4 \
) : ( \
((const struct sockaddr_in6 *)(ss))->member6 \
))
// Connection state (storage: uint8_t)
#define kConnStateNone 0
#define kConnStateConnecting 1
#define kConnStateConnected 2
#define kConnStateListening 3
// Delegate support optimization (storage: uint8_t)
#define kDelegateFlagImplements_ioFrameChannel_shouldAcceptFrameOfType_tag_payloadSize 1
#define kDelegateFlagImplements_ioFrameChannel_didEndWithError 2
#define kDelegateFlagImplements_ioFrameChannel_didAcceptConnection_fromAddress 4
#pragma mark -
// Note: We are careful about the size of this struct as each connected peer
// implies one allocation of this struct.
@interface PTChannel () {
dispatch_io_t dispatchObj_channel_;
dispatch_source_t dispatchObj_source_;
NSError *endError_; // 64 bit
@public // here be hacks
id<PTChannelDelegate> delegate_; // 64 bit
uint8_t delegateFlags_; // 8 bit
@private
uint8_t connState_; // 8 bit
//char padding_[6]; // 48 bit -- only if allocation speed is important
}
- (id)initWithProtocol:(PTProtocol*)protocol delegate:(id<PTChannelDelegate>)delegate;
- (BOOL)acceptIncomingConnection:(dispatch_fd_t)serverSocketFD;
@end
static const uint8_t kUserInfoKey;
#pragma mark -
@interface PTData ()
- (id)initWithMappedDispatchData:(dispatch_data_t)mappedContiguousData data:(void*)data length:(size_t)length;
@end
#pragma mark -
@interface PTAddress () {
struct sockaddr_storage sockaddr_;
}
- (id)initWithSockaddr:(const struct sockaddr_storage*)addr;
@end
#pragma mark -
@implementation PTChannel
@synthesize protocol = protocol_;
+ (PTChannel*)channelWithDelegate:(id<PTChannelDelegate>)delegate {
return [[PTChannel alloc] initWithProtocol:[PTProtocol sharedProtocolForQueue:dispatch_get_main_queue()] delegate:delegate];
}
- (id)initWithProtocol:(PTProtocol*)protocol delegate:(id<PTChannelDelegate>)delegate {
if (!(self = [super init])) return nil;
protocol_ = protocol;
self.delegate = delegate;
return self;
}
- (id)initWithProtocol:(PTProtocol*)protocol {
if (!(self = [super init])) return nil;
protocol_ = protocol;
return self;
}
- (id)init {
return [self initWithProtocol:[PTProtocol sharedProtocolForQueue:dispatch_get_main_queue()]];
}
- (void)dealloc {
#if PT_DISPATCH_RETAIN_RELEASE
if (dispatchObj_channel_) dispatch_release(dispatchObj_channel_);
else if (dispatchObj_source_) dispatch_release(dispatchObj_source_);
#endif
}
- (BOOL)isConnected {
return connState_ == kConnStateConnecting || connState_ == kConnStateConnected;
}
- (BOOL)isListening {
return connState_ == kConnStateListening;
}
- (id)userInfo {
return objc_getAssociatedObject(self, (void*)&kUserInfoKey);
}
- (void)setUserInfo:(id)userInfo {
objc_setAssociatedObject(self, (const void*)&kUserInfoKey, userInfo, OBJC_ASSOCIATION_RETAIN);
}
- (void)setConnState:(char)connState {
connState_ = connState;
}
- (void)setDispatchChannel:(dispatch_io_t)channel {
assert(connState_ == kConnStateConnecting || connState_ == kConnStateConnected || connState_ == kConnStateNone);
dispatch_io_t prevChannel = dispatchObj_channel_;
if (prevChannel != channel) {
dispatchObj_channel_ = channel;
#if PT_DISPATCH_RETAIN_RELEASE
if (dispatchObj_channel_) dispatch_retain(dispatchObj_channel_);
if (prevChannel) dispatch_release(prevChannel);
#endif
if (!dispatchObj_channel_ && !dispatchObj_source_) {
connState_ = kConnStateNone;
}
}
}
- (void)setDispatchSource:(dispatch_source_t)source {
assert(connState_ == kConnStateListening || connState_ == kConnStateNone);
dispatch_source_t prevSource = dispatchObj_source_;
if (prevSource != source) {
dispatchObj_source_ = source;
#if PT_DISPATCH_RETAIN_RELEASE
if (dispatchObj_source_) dispatch_retain(dispatchObj_source_);
if (prevSource) dispatch_release(prevSource);
#endif
if (!dispatchObj_channel_ && !dispatchObj_source_) {
connState_ = kConnStateNone;
}
}
}
- (id<PTChannelDelegate>)delegate {
return delegate_;
}
- (void)setDelegate:(id<PTChannelDelegate>)delegate {
delegate_ = delegate;
delegateFlags_ = 0;
if (!delegate_) {
return;
}
if ([delegate respondsToSelector:@selector(ioFrameChannel:shouldAcceptFrameOfType:tag:payloadSize:)]) {
delegateFlags_ |= kDelegateFlagImplements_ioFrameChannel_shouldAcceptFrameOfType_tag_payloadSize;
}
if (delegate_ && [delegate respondsToSelector:@selector(ioFrameChannel:didEndWithError:)]) {
delegateFlags_ |= kDelegateFlagImplements_ioFrameChannel_didEndWithError;
}
if (delegate_ && [delegate respondsToSelector:@selector(ioFrameChannel:didAcceptConnection:fromAddress:)]) {
delegateFlags_ |= kDelegateFlagImplements_ioFrameChannel_didAcceptConnection_fromAddress;
}
}
//- (void)setFileDescriptor:(dispatch_fd_t)fd {
// [self setDispatchChannel:dispatch_io_create(DISPATCH_IO_STREAM, fd, protocol_.queue, ^(int error) {
// close(fd);
// })];
//}
#pragma mark - Connecting
- (void)connectToPort:(int)port overUSBHub:(PTUSBHub*)usbHub deviceID:(NSNumber*)deviceID callback:(void(^)(NSError *error))callback {
assert(protocol_ != NULL);
if (connState_ != kConnStateNone) {
if (callback) callback([NSError errorWithDomain:NSPOSIXErrorDomain code:EPERM userInfo:nil]);
return;
}
connState_ = kConnStateConnecting;
[usbHub connectToDevice:deviceID port:port onStart:^(NSError *err, dispatch_io_t dispatchChannel) {
NSError *error = err;
if (!error) {
[self startReadingFromConnectedChannel:dispatchChannel error:&error];
} else {
connState_ = kConnStateNone;
}
if (callback) callback(error);
} onEnd:^(NSError *error) {
if (delegateFlags_ & kDelegateFlagImplements_ioFrameChannel_didEndWithError) {
[delegate_ ioFrameChannel:self didEndWithError:error];
}
endError_ = nil;
}];
}
- (void)connectToPort:(in_port_t)port IPv4Address:(in_addr_t)address callback:(void(^)(NSError *error, PTAddress *address))callback {
assert(protocol_ != NULL);
if (connState_ != kConnStateNone) {
if (callback) callback([NSError errorWithDomain:NSPOSIXErrorDomain code:EPERM userInfo:nil], nil);
return;
}
connState_ = kConnStateConnecting;
int error = 0;
// Create socket
dispatch_fd_t fd = socket(AF_INET, SOCK_STREAM, 0);
if (fd == -1) {
perror("socket(AF_INET, SOCK_STREAM, 0) failed");
error = errno;
if (callback) callback([[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:errno userInfo:nil], nil);
return;
}
// Connect socket
struct sockaddr_in addr;
bzero((char *)&addr, sizeof(addr));
addr.sin_len = sizeof(addr);
addr.sin_family = AF_INET;
addr.sin_port = htons(port);
//addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
//addr.sin_addr.s_addr = htonl(INADDR_ANY);
addr.sin_addr.s_addr = htonl(address);
// prevent SIGPIPE
int on = 1;
setsockopt(fd, SOL_SOCKET, SO_NOSIGPIPE, &on, sizeof(on));
// int socket, const struct sockaddr *address, socklen_t address_len
if (connect(fd, (const struct sockaddr *)&addr, addr.sin_len) == -1) {
//perror("connect");
error = errno;
close(fd);
if (callback) callback([[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:error userInfo:nil], nil);
return;
}
// get actual address
//if (getsockname(fd, (struct sockaddr*)&addr, (socklen_t*)&addr.sin_len) == -1) {
// error = errno;
// close(fd);
// if (callback) callback([[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:error userInfo:nil], nil);
// return;
//}
dispatch_io_t dispatchChannel = dispatch_io_create(DISPATCH_IO_STREAM, fd, protocol_.queue, ^(int error) {
close(fd);
if (delegateFlags_ & kDelegateFlagImplements_ioFrameChannel_didEndWithError) {
NSError *err = error == 0 ? endError_ : [[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:error userInfo:nil];
[delegate_ ioFrameChannel:self didEndWithError:err];
endError_ = nil;
}
});
if (!dispatchChannel) {
close(fd);
if (callback) callback([[NSError alloc] initWithDomain:@"PTError" code:0 userInfo:nil], nil);
return;
}
// Success
NSError *err = nil;
PTAddress *ptAddr = [[PTAddress alloc] initWithSockaddr:(struct sockaddr_storage*)&addr];
[self startReadingFromConnectedChannel:dispatchChannel error:&err];
if (callback) callback(err, ptAddr);
}
#pragma mark - Listening and serving
- (void)listenOnPort:(in_port_t)port IPv4Address:(in_addr_t)address callback:(void(^)(NSError *error))callback {
assert(dispatchObj_source_ == nil);
// Create socket
dispatch_fd_t fd = socket(AF_INET, SOCK_STREAM, 0);
if (fd == -1) {
if (callback) callback([NSError errorWithDomain:NSPOSIXErrorDomain code:errno userInfo:nil]);
return;
}
// Connect socket
struct sockaddr_in addr;
bzero((char *)&addr, sizeof(addr));
addr.sin_family = AF_INET;
addr.sin_port = htons(port);
//addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
//addr.sin_addr.s_addr = htonl(INADDR_ANY);
addr.sin_addr.s_addr = htonl(address);
socklen_t socklen = sizeof(addr);
int on = 1;
if (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on)) == -1) {
close(fd);
if (callback) callback([NSError errorWithDomain:NSPOSIXErrorDomain code:errno userInfo:nil]);
return;
}
if (fcntl(fd, F_SETFL, O_NONBLOCK) == -1) {
close(fd);
if (callback) callback([NSError errorWithDomain:NSPOSIXErrorDomain code:errno userInfo:nil]);
return;
}
if (bind(fd, (struct sockaddr*)&addr, socklen) != 0) {
close(fd);
if (callback) callback([NSError errorWithDomain:NSPOSIXErrorDomain code:errno userInfo:nil]);
return;
}
if (listen(fd, 512) != 0) {
close(fd);
if (callback) callback([NSError errorWithDomain:NSPOSIXErrorDomain code:errno userInfo:nil]);
return;
}
[self setDispatchSource:dispatch_source_create(DISPATCH_SOURCE_TYPE_READ, fd, 0, protocol_.queue)];
dispatch_source_set_event_handler(dispatchObj_source_, ^{
unsigned long nconns = dispatch_source_get_data(dispatchObj_source_);
while ([self acceptIncomingConnection:fd] && --nconns);
});
dispatch_source_set_cancel_handler(dispatchObj_source_, ^{
// Captures *self*, effectively holding a reference to *self* until cancelled.
dispatchObj_source_ = nil;
close(fd);
if (delegateFlags_ & kDelegateFlagImplements_ioFrameChannel_didEndWithError) {
[delegate_ ioFrameChannel:self didEndWithError:endError_];
endError_ = nil;
}
});
dispatch_resume(dispatchObj_source_);
//NSLog(@"%@ opened on fd #%d", self, fd);
connState_ = kConnStateListening;
if (callback) callback(nil);
}
- (BOOL)acceptIncomingConnection:(dispatch_fd_t)serverSocketFD {
struct sockaddr_in addr;
socklen_t addrLen = sizeof(addr);
dispatch_fd_t clientSocketFD = accept(serverSocketFD, (struct sockaddr*)&addr, &addrLen);
if (clientSocketFD == -1) {
perror("accept()");
return NO;
}
// prevent SIGPIPE
int on = 1;
setsockopt(clientSocketFD, SOL_SOCKET, SO_NOSIGPIPE, &on, sizeof(on));
if (fcntl(clientSocketFD, F_SETFL, O_NONBLOCK) == -1) {
perror("fcntl(.. O_NONBLOCK)");
close(clientSocketFD);
return NO;
}
if (delegateFlags_ & kDelegateFlagImplements_ioFrameChannel_didAcceptConnection_fromAddress) {
PTChannel *peerChannel = [[PTChannel alloc] initWithProtocol:protocol_ delegate:delegate_];
__block PTChannel *localChannelRef = self;
dispatch_io_t dispatchChannel = dispatch_io_create(DISPATCH_IO_STREAM, clientSocketFD, protocol_.queue, ^(int error) {
// Important note: This block captures *self*, thus a reference is held to
// *self* until the fd is truly closed.
localChannelRef = nil;
close(clientSocketFD);
if (peerChannel->delegateFlags_ & kDelegateFlagImplements_ioFrameChannel_didEndWithError) {
NSError *err = error == 0 ? peerChannel->endError_ : [[NSError alloc] initWithDomain:NSPOSIXErrorDomain code:error userInfo:nil];
[peerChannel->delegate_ ioFrameChannel:peerChannel didEndWithError:err];
peerChannel->endError_ = nil;
}
});
[peerChannel setConnState:kConnStateConnected];
[peerChannel setDispatchChannel:dispatchChannel];
assert(((struct sockaddr_storage*)&addr)->ss_len == addrLen);
PTAddress *address = [[PTAddress alloc] initWithSockaddr:(struct sockaddr_storage*)&addr];
[delegate_ ioFrameChannel:self didAcceptConnection:peerChannel fromAddress:address];
NSError *err = nil;
if (![peerChannel startReadingFromConnectedChannel:dispatchChannel error:&err]) {
NSLog(@"startReadingFromConnectedChannel failed in accept: %@", err);
}
} else {
close(clientSocketFD);
}
return YES;
}
#pragma mark - Closing the channel
- (void)close {
if ((connState_ == kConnStateConnecting || connState_ == kConnStateConnected) && dispatchObj_channel_) {
dispatch_io_close(dispatchObj_channel_, DISPATCH_IO_STOP);
[self setDispatchChannel:NULL];
} else if (connState_ == kConnStateListening && dispatchObj_source_) {
dispatch_source_cancel(dispatchObj_source_);
}
}
- (void)cancel {
if ((connState_ == kConnStateConnecting || connState_ == kConnStateConnected) && dispatchObj_channel_) {
dispatch_io_close(dispatchObj_channel_, 0);
[self setDispatchChannel:NULL];
} else if (connState_ == kConnStateListening && dispatchObj_source_) {
dispatch_source_cancel(dispatchObj_source_);
}
}
#pragma mark - Reading
- (BOOL)startReadingFromConnectedChannel:(dispatch_io_t)channel error:(__autoreleasing NSError**)error {
if (connState_ != kConnStateNone && connState_ != kConnStateConnecting && connState_ != kConnStateConnected) {
if (error) *error = [NSError errorWithDomain:NSPOSIXErrorDomain code:EPERM userInfo:nil];
return NO;
}
if (dispatchObj_channel_ != channel) {
[self close];
[self setDispatchChannel:channel];
}
connState_ = kConnStateConnected;
// helper
BOOL(^handleError)(NSError*,BOOL) = ^BOOL(NSError *error, BOOL isEOS) {
if (error) {
//NSLog(@"Error while communicating: %@", error);
endError_ = error;
[self close];
return YES;
} else if (isEOS) {
[self cancel];
return YES;
}
return NO;
};
[protocol_ readFramesOverChannel:channel onFrame:^(NSError *error, uint32_t type, uint32_t tag, uint32_t payloadSize, dispatch_block_t resumeReadingFrames) {
if (handleError(error, type == PTFrameTypeEndOfStream)) {
return;
}
BOOL accepted = (channel == dispatchObj_channel_);
if (accepted && (delegateFlags_ & kDelegateFlagImplements_ioFrameChannel_shouldAcceptFrameOfType_tag_payloadSize)) {
accepted = [delegate_ ioFrameChannel:self shouldAcceptFrameOfType:type tag:tag payloadSize:payloadSize];
}
if (payloadSize == 0) {
if (accepted && delegate_) {
[delegate_ ioFrameChannel:self didReceiveFrameOfType:type tag:tag payload:nil];
} else {
// simply ignore the frame
}
resumeReadingFrames();
} else {
// has payload
if (!accepted) {
// Read and discard payload, ignoring frame
[protocol_ readAndDiscardDataOfSize:payloadSize overChannel:channel callback:^(NSError *error, BOOL endOfStream) {
if (!handleError(error, endOfStream)) {
resumeReadingFrames();
}
}];
} else {
[protocol_ readPayloadOfSize:payloadSize overChannel:channel callback:^(NSError *error, dispatch_data_t contiguousData, const uint8_t *buffer, size_t bufferSize) {
if (handleError(error, bufferSize == 0)) {
return;
}
if (delegate_) {
PTData *payload = [[PTData alloc] initWithMappedDispatchData:contiguousData data:(void*)buffer length:bufferSize];
[delegate_ ioFrameChannel:self didReceiveFrameOfType:type tag:tag payload:payload];
}
resumeReadingFrames();
}];
}
}
}];
return YES;
}
#pragma mark - Sending
- (void)sendFrameOfType:(uint32_t)frameType tag:(uint32_t)tag withPayload:(dispatch_data_t)payload callback:(void(^)(NSError *error))callback {
if (connState_ == kConnStateConnecting || connState_ == kConnStateConnected) {
[protocol_ sendFrameOfType:frameType tag:tag withPayload:payload overChannel:dispatchObj_channel_ callback:callback];
} else if (callback) {
callback([NSError errorWithDomain:NSPOSIXErrorDomain code:EPERM userInfo:nil]);
}
}
#pragma mark - NSObject
- (NSString*)description {
id userInfo = objc_getAssociatedObject(self, (void*)&kUserInfoKey);
return [NSString stringWithFormat:@"<PTChannel: %p (%@)%s%@>", self, ( connState_ == kConnStateConnecting ? @"connecting"
: connState_ == kConnStateConnected ? @"connected"
: connState_ == kConnStateListening ? @"listening"
: @"closed"),
userInfo ? " " : "", userInfo ? userInfo : @""];
}
@end
#pragma mark -
@implementation PTAddress
- (id)initWithSockaddr:(const struct sockaddr_storage*)addr {
if (!(self = [super init])) return nil;
assert(addr);
memcpy((void*)&sockaddr_, (const void*)addr, addr->ss_len);
return self;
}
- (NSString*)name {
if (sockaddr_.ss_len) {
const void *sin_addr = NULL;
size_t bufsize = 0;
if (sockaddr_.ss_family == AF_INET6) {
bufsize = INET6_ADDRSTRLEN;
sin_addr = (const void *)&((const struct sockaddr_in6*)&sockaddr_)->sin6_addr;
} else {
bufsize = INET_ADDRSTRLEN;
sin_addr = (const void *)&((const struct sockaddr_in*)&sockaddr_)->sin_addr;
}
char *buf = CFAllocatorAllocate(kCFAllocatorDefault, bufsize+1, 0);
if (inet_ntop(sockaddr_.ss_family, sin_addr, buf, (unsigned int)bufsize-1) == NULL) {
CFAllocatorDeallocate(kCFAllocatorDefault, buf);
return nil;
}
return [[NSString alloc] initWithBytesNoCopy:(void*)buf length:strlen(buf) encoding:NSUTF8StringEncoding freeWhenDone:YES];
} else {
return nil;
}
}
- (NSInteger)port {
if (sockaddr_.ss_len) {
return ntohs(PT_SOCKADDR_ACCESS(&sockaddr_, sin_port, sin6_port));
} else {
return 0;
}
}
- (NSString*)description {
if (sockaddr_.ss_len) {
return [NSString stringWithFormat:@"%@:%u", self.name, (unsigned)self.port];
} else {
return @"(?)";
}
}
@end
#pragma mark -
@implementation PTData
@synthesize dispatchData = dispatchData_;
@synthesize data = data_;
@synthesize length = length_;
- (id)initWithMappedDispatchData:(dispatch_data_t)mappedContiguousData data:(void*)data length:(size_t)length {
if (!(self = [super init])) return nil;
dispatchData_ = mappedContiguousData;
#if PT_DISPATCH_RETAIN_RELEASE
if (dispatchData_) dispatch_retain(dispatchData_);
#endif
data_ = data;
length_ = length;
return self;
}
- (void)dealloc {
#if PT_DISPATCH_RETAIN_RELEASE
if (dispatchData_) dispatch_release(dispatchData_);
#endif
data_ = NULL;
length_ = 0;
}
#pragma mark - NSObject
- (NSString*)description {
return [NSString stringWithFormat:@"<PTData: %p (%zu bytes)>", self, length_];
}
@end