package salticidae // #include // #include "salticidae/msg.h" import "C" import "runtime" // The C pointer type for a Msg object type CMsg = *C.msg_t type msg struct { inner CMsg } // Message sent by MsgNetwork type Msg = *msg // Convert an existing C pointer into a go object. Notice that when the go // object does *not* own the resource of the C pointer, so it is only valid to // the extent in which the given C pointer is valid. The C memory will not be // deallocated when the go object is finalized by GC. This applies to all other // "FromC" functions. func MsgFromC(ptr *C.msg_t) Msg { return &msg{ inner: ptr } } // Create a message by taking out all data from src. Notice this is a zero-copy // operation that consumes and invalidates the data in src ("move" semantics) // so that no more operation should be done to src after this function call. func NewMsgMovedFromByteArray(opcode Opcode, src ByteArray) Msg { res := &msg{ inner: C.msg_new_moved_from_bytearray(C._opcode_t(opcode), src.inner) } runtime.SetFinalizer(res, func(self Msg) { self.free() }) return res } func (self Msg) free() { C.msg_free(self.inner) } // Get the message payload by taking out all data. Notice this is a zero-copy // operation that consumes and invalidates the data in the payload ("move" // semantics) so that no more operation should be done to the payload after // this function call. func (self Msg) GetPayloadByMove() DataStream { res := DataStreamFromC(C.msg_consume_payload(self.inner)) runtime.SetFinalizer(res, func(self DataStream) { self.free() }) return res } // Get the opcode. func (self Msg) GetOpcode() Opcode { return Opcode(C.msg_get_opcode(self.inner)) }