// Copyright 2015 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include #include #include #include #include "seq.h" #include "_cgo_export.h" #ifdef DEBUG #define LOG_DEBUG(...) NSLog(__VA_ARGS__); #else #define LOG_DEBUG(...) ; #endif #define LOG_INFO(...) NSLog(__VA_ARGS__); #define LOG_FATAL(...) \ { \ NSLog(__VA_ARGS__); \ @throw \ [NSException exceptionWithName:NSInternalInconsistencyException \ reason:[NSString stringWithFormat:__VA_ARGS__] \ userInfo:NULL]; \ } // * Objective-C implementation of a Go interface type // // For an interface testpkg.I, gobind defines a protocol GoSeqTestpkgI. // Reference tracker (tracker) maintains two maps: // 1) _refs: objective-C object pointer -> a refnum (starting from 42). // 2) _objs: refnum -> RefCounter. // // Whenever a user's object conforming the protocol is sent to Go (through // a function or method that takes I), _refs is consulted to find the refnum // of the object. If not found, the refnum is assigned and stored. // // _objs is also updated so that the RefCounter is incremented and the // user's object is pinned. // // When a Go side needs to call a method of the interface, the Go side // notifies the Objective-C side of the object's refnum, and the method code // as gobind assigned. Upon receiving the request, Objective-C side looks // up the object from _objs map, and looks up the proxy global function // registered in 'proxies'. The global function deserializes/serializes // the parameters and sends the method to the object. // // The RefCount counts the references on objective-C objects from Go side, // and pins the objective-C objects until there is no more reference from // Go side. // // * Objective-C proxy of a Go object (struct or interface type) // // For Go type object, a objective-C proxy instance is created whenever // the object reference is passed into objective-C. // A simple thread-safe mutable dictionary. @interface goSeqDictionary : NSObject { } @property NSMutableDictionary *dict; @end @implementation goSeqDictionary - (id)init { if (self = [super init]) { _dict = [[NSMutableDictionary alloc] init]; } return self; } - (id)get:(id)key { @synchronized(self) { return [_dict objectForKey:key]; } } - (void)put:(id)obj withKey:(id)key { @synchronized(self) { [_dict setObject:obj forKey:key]; } } @end // The proxies maps Go interface name (e.g. go.testpkg.I) to the proxy function // gobind generates for interfaces defined in a module. The function is // registered by calling go_seq_register_proxy from a global contructor funcion. static goSeqDictionary *proxies = NULL; void go_seq_register_proxy(const char *descriptor, void (*fn)(id, int, GoSeq *, GoSeq *)) { if (proxies == NULL) { proxies = [[goSeqDictionary alloc] init]; } // Copying moves the block to the heap. id block = [^(id obj, int code, GoSeq *in, GoSeq *out) { fn(obj, code, in, out); } copy]; [proxies put:block withKey:[NSString stringWithUTF8String:descriptor]]; } // RefTracker encapsulates a map of objective-C objects passed to Go and // the reference number counter which is incremented whenever an objective-C // object that implements a Go interface is created. @interface RefTracker : NSObject { int32_t _next; NSMutableDictionary *_refs; // map: object ptr -> refnum NSMutableDictionary *_objs; // map: refnum -> RefCounter* } - (id)init; // decrements the counter of the objective-C object with the reference number. // This is called whenever a Go proxy to this object is finalized. // When the counter reaches 0, the object is removed from the map. - (void)dec:(int32_t)refnum; // returns the object of the reference number. - (id)get:(int32_t)refnum; // returns the reference number of the object and increments the ref count. // This is called whenever an Objective-C object is sent to Go side. - (int32_t)assignRefnumAndIncRefcount:(id)obj; @end RefTracker *tracker = NULL; // mem_ensure ensures that m has at least size bytes free. // If m is NULL, it is created. static void mem_ensure(GoSeq *m, uint32_t size) { size_t cap = m->cap; if (cap > m->off + size) { return; } if (cap == 0) { cap = 64; } while (cap < m->off + size) { cap *= 2; } m->buf = (uint8_t *)realloc((void *)m->buf, cap); if (m->buf == NULL) { LOG_FATAL(@"mem_ensure realloc failed, off=%zu, size=%u", m->off, size); } m->cap = cap; } static uint32_t align(uint32_t offset, uint32_t alignment) { uint32_t pad = offset % alignment; if (pad > 0) { pad = alignment - pad; } return pad + offset; } static uint8_t *mem_read(GoSeq *m, uint32_t size, uint32_t alignment) { if (size == 0) { return NULL; } if (m == NULL) { LOG_FATAL(@"mem_read on NULL GoSeq"); } uint32_t offset = align(m->off, alignment); if (m->len - offset < size) { LOG_FATAL(@"short read"); } uint8_t *res = m->buf + offset; m->off = offset + size; return res; } static uint8_t *mem_write(GoSeq *m, uint32_t size, uint32_t alignment) { if (m->off != m->len) { LOG_FATAL(@"write can only append to seq, size: (off=%zu len=%zu, size=%u)", m->off, m->len, size); } uint32_t offset = align(m->off, alignment); mem_ensure(m, offset - m->off + size); uint8_t *res = m->buf + offset; m->off = offset + size; m->len = offset + size; return res; } // extern void go_seq_free(GoSeq *m) { if (m != NULL) { free(m->buf); } } #define MEM_READ(seq, ty) ((ty *)mem_read(seq, sizeof(ty), sizeof(ty))) #define MEM_WRITE(seq, ty) (*(ty *)mem_write(seq, sizeof(ty), sizeof(ty))) int go_seq_readInt(GoSeq *seq) { int64_t v = go_seq_readInt64(seq); return v; // Assume that Go-side used WriteInt to encode 'int' value. } void go_seq_writeInt(GoSeq *seq, int v) { go_seq_writeInt64(seq, v); } BOOL go_seq_readBool(GoSeq *seq) { int8_t v = go_seq_readInt8(seq); return v ? YES : NO; } void go_seq_writeBool(GoSeq *seq, BOOL v) { go_seq_writeInt8(seq, v ? 1 : 0); } int8_t go_seq_readInt8(GoSeq *seq) { int8_t *v = MEM_READ(seq, int8_t); return v == NULL ? 0 : *v; } void go_seq_writeInt8(GoSeq *seq, int8_t v) { MEM_WRITE(seq, int8_t) = v; } int16_t go_seq_readInt16(GoSeq *seq) { int16_t *v = MEM_READ(seq, int16_t); return v == NULL ? 0 : *v; } void go_seq_writeInt16(GoSeq *seq, int16_t v) { MEM_WRITE(seq, int16_t) = v; } int32_t go_seq_readInt32(GoSeq *seq) { int32_t *v = MEM_READ(seq, int32_t); return v == NULL ? 0 : *v; } void go_seq_writeInt32(GoSeq *seq, int32_t v) { MEM_WRITE(seq, int32_t) = v; } int64_t go_seq_readInt64(GoSeq *seq) { int64_t *v = MEM_READ(seq, int64_t); return v == NULL ? 0 : *v; } void go_seq_writeInt64(GoSeq *seq, int64_t v) { MEM_WRITE(seq, int64_t) = v; } float go_seq_readFloat32(GoSeq *seq) { float *v = MEM_READ(seq, float); return v == NULL ? 0 : *v; } void go_seq_writeFloat32(GoSeq *seq, float v) { MEM_WRITE(seq, float) = v; } double go_seq_readFloat64(GoSeq *seq) { double *v = MEM_READ(seq, double); return v == NULL ? 0 : *v; } void go_seq_writeFloat64(GoSeq *seq, double v) { MEM_WRITE(seq, double) = v; } NSString *go_seq_readUTF8(GoSeq *seq) { int32_t len = *MEM_READ(seq, int32_t); if (len == 0) { // empty string. return @""; } const void *buf = (const void *)mem_read(seq, len, 1); return [[NSString alloc] initWithBytes:buf length:len encoding:NSUTF8StringEncoding]; } void go_seq_writeUTF8(GoSeq *seq, NSString *s) { int32_t len = [s lengthOfBytesUsingEncoding:NSUTF8StringEncoding]; MEM_WRITE(seq, int32_t) = len; if (len == 0 && s.length > 0) { LOG_INFO(@"unable to incode an NSString into UTF-8"); return; } char *buf = (char *)mem_write(seq, len, 1); NSUInteger used; [s getBytes:buf maxLength:len usedLength:&used encoding:NSUTF8StringEncoding options:0 range:NSMakeRange(0, [s length]) remainingRange:NULL]; if (used < len) { buf[used] = '\0'; } return; } NSData *go_seq_readByteArray(GoSeq *seq) { int64_t sz = *MEM_READ(seq, int64_t); if (sz == 0) { return [NSData data]; } // BUG(hyangah): it is possible that *ptr is already GC'd by Go runtime. void *ptr = (void *)(*MEM_READ(seq, int64_t)); return [NSData dataWithBytes:ptr length:sz]; } void go_seq_writeByteArray(GoSeq *seq, NSData *data) { int64_t sz = data.length; MEM_WRITE(seq, int64_t) = sz; if (sz == 0) { return; } int64_t ptr = (int64_t)data.bytes; MEM_WRITE(seq, int64_t) = ptr; return; } typedef void (^proxyFn)(id, int, GoSeq *, GoSeq *); // called from Go when Go tries to access an Objective-C object. void go_seq_recv(int32_t refnum, const char *desc, int code, uint8_t *in_ptr, size_t in_len, uint8_t **out_ptr, size_t *out_len) { if (code == -1) { // special signal from seq.FinalizeRef in Go [tracker dec:refnum]; return; } GoSeq ins = {}; ins.buf = in_ptr; // Memory allocated from Go ins.off = 0; ins.len = in_len; ins.cap = in_len; id obj = [tracker get:refnum]; if (obj == NULL) { LOG_FATAL(@"invalid object for ref %d", refnum); return; } NSString *k = [NSString stringWithUTF8String:desc]; proxyFn fn = NULL; if (proxies != NULL) { fn = [proxies get:k]; } if (fn == NULL) { LOG_FATAL(@"cannot find a proxy function for %s", desc); return; } GoSeq outs = {}; fn(obj, code, &ins, &outs); if (out_ptr == NULL) { free(outs.buf); } else { *out_ptr = outs.buf; // Let Go side free this memory *out_len = outs.len; } } void go_seq_send(char *descriptor, int code, GoSeq *req, GoSeq *res) { if (descriptor == NULL) { LOG_FATAL(@"invalid NULL descriptor"); } uint8_t *req_buf = NULL; size_t req_len = 0; if (req != NULL) { req_buf = req->buf; req_len = req->len; } uint8_t **res_buf = NULL; size_t *res_len = NULL; if (res != NULL) { res_buf = &res->buf; res_len = &res->len; } GoString desc; desc.p = descriptor; desc.n = strlen(descriptor); Send(desc, (GoInt)code, req_buf, req_len, res_buf, res_len); } #define IS_FROM_GO(refnum) ((refnum) < 0) // init_seq is called when the Go side is initialized. void init_seq() { tracker = [[RefTracker alloc] init]; } GoSeqRef *go_seq_readRef(GoSeq *seq) { int32_t refnum = go_seq_readInt32(seq); if (IS_FROM_GO(refnum)) { return [[GoSeqRef alloc] initWithRefnum:refnum obj:NULL]; } return [[GoSeqRef alloc] initWithRefnum:refnum obj:[tracker get:refnum]]; } // TODO(hyangah): make this go_seq_writeRef(GoSeq *seq, int32_t refnum, id obj) // and get read of GoSeqRef. void go_seq_writeRef(GoSeq *seq, GoSeqRef *v) { int32_t refnum = v.refnum; if (!IS_FROM_GO(refnum)) { LOG_FATAL(@"go_seq_writeRef on objective-c objects is not permitted"); } go_seq_writeInt32(seq, refnum); return; } void go_seq_writeObjcRef(GoSeq *seq, id obj) { int32_t refnum = [tracker assignRefnumAndIncRefcount:obj]; go_seq_writeInt32(seq, refnum); } @implementation GoSeqRef { } - (id)init { LOG_FATAL(@"GoSeqRef init is disallowed"); return nil; } // called when an object from Go is passed in. - (instancetype)initWithRefnum:(int32_t)refnum obj:(id)obj { self = [super init]; if (self) { _refnum = refnum; _obj = obj; } return self; } - (void)dealloc { if (IS_FROM_GO(_refnum)) { DestroyRef(_refnum); } } @end // RefCounter is a pair of (GoSeqProxy, count). GoSeqProxy has a strong // reference to an Objective-C object. The count corresponds to // the number of Go proxy objects. // // RefTracker maintains a map of refnum to RefCounter, for every // Objective-C objects passed to Go. This map allows the transact // call to relay the method call to the right Objective-C object, and // prevents the Objective-C objects from being deallocated // while they are still referenced from Go side. @interface RefCounter : NSObject { } @property(strong, readonly) id obj; @property int cnt; - (id)initWithObject:(id)obj; @end @implementation RefCounter { } - (id)initWithObject:(id)obj { self = [super init]; if (self) { _obj = obj; _cnt = 0; } return self; } @end @implementation RefTracker { } - (id)init { self = [super init]; if (self) { _next = 42; _objs = [[NSMutableDictionary alloc] init]; } return self; } - (void)dec:(int32_t)refnum { // called whenever a go proxy object is finalized. if (IS_FROM_GO(refnum)) { LOG_FATAL(@"dec:invalid refnum for Objective-C objects"); return; } @synchronized(self) { id key = @(refnum); RefCounter *counter = [_objs objectForKey:key]; if (counter == NULL) { LOG_FATAL(@"unknown refnum"); return; } int n = counter.cnt; if (n <= 0) { LOG_FATAL(@"refcount underflow"); } else if (n == 1) { LOG_DEBUG(@"remove the reference %d", refnum); NSValue *ptr = [NSValue valueWithPointer:(const void *)(counter.obj)]; [_refs removeObjectForKey:ptr]; [_objs removeObjectForKey:key]; } else { counter.cnt = n - 1; } } } - (id)get:(int32_t)refnum { if (IS_FROM_GO(refnum)) { LOG_FATAL(@"get:invalid refnum for Objective-C objects"); return NULL; } @synchronized(self) { RefCounter *counter = _objs[@(refnum)]; if (counter == NULL) { LOG_FATAL(@"unidentified object refnum: %d", refnum); return NULL; } return counter.obj; } } - (int32_t)assignRefnumAndIncRefcount:(id)obj { @synchronized(self) { NSValue *ptr = [NSValue valueWithPointer:(const void *)(obj)]; NSNumber *refnum = [_refs objectForKey:ptr]; if (refnum == NULL) { refnum = @(_next++); _refs[ptr] = refnum; } RefCounter *counter = [_objs objectForKey:refnum]; if (counter == NULL) { counter = [[RefCounter alloc] initWithObject:obj]; counter.cnt = 1; _objs[refnum] = counter; } else { counter.cnt++; } return (int32_t)([refnum intValue]); } } @end