valib/bhshmq.git

			@@ -26,6 +26,7 @@
			#include <functional>
			#include <stdint.h>

			class ShmSocket;
			namespace bhome_msg
			{
			using namespace bhome_shm;
			@@ -35,8 +36,12 @@

			class ShmMsg : private StaticDataRef<SharedMemory, ShmMsg>
			{
			private:
			public:
			static inline SharedMemory &shm() { return GetData(); }

			private:
			static ShmSocket &Sender();

			// store ref count, msgs shareing the same data should also hold a pointer of the same RefCount object.
			class RefCount : private boost::noncopyable
			{
			@@ -49,71 +54,75 @@
			int Dec() { return --num_; }
			int Get() { return num_.load(); }
			};
			typedef int64_t Offset;
			static Offset Addr(void *ptr) { return reinterpret_cast<Offset>(ptr); }
			static void Ptr(const Offset offset) { return reinterpret_cast<void >(offset); }
			static inline Offset BaseAddr()

			typedef int64_t OffsetType;
			static OffsetType Addr(void *ptr) { return reinterpret_cast<OffsetType>(ptr); }
			static void Ptr(const OffsetType offset) { return reinterpret_cast<void >(offset); }
			static inline OffsetType BaseAddr()
			{
			static const Offset base = Addr(shm().get_address()); // cache value.
			static const OffsetType base = Addr(shm().get_address()); // cache value.
			return base;
			}

			static const uint32_t kMsgTag = 0xf1e2d3c4;
			typedef struct {
			struct Meta {
			static int64_t NewId()
			{
			static std::atomic<int64_t> id(0);
			return ++id;
			}

			RefCount count_;
			const uint32_t tag_ = kMsgTag;
			} Meta;
			Offset offset_;
			void *Alloc(const size_t size)
			const uint32_t capacity_ = 0;
			const int64_t id_ = 0;
			std::atomic<int64_t> timestamp_;
			bool managed_ = false;
			uint32_t size_ = 0;
			Meta(uint32_t size) :
			capacity_(size), id_(NewId()), timestamp_(NowSec()) {}
			};
			OffsetType offset_;
			static void *Alloc(const size_t size)
			{
			void *p = shm().Alloc(sizeof(Meta) + size);
			if (p) {
			auto pmeta = new (p) Meta;
			auto pmeta = new (p) Meta(size);
			p = pmeta + 1;
			}
			return p;
			}
			void Free()
			{
			assert(valid());
			shm().Dealloc(meta());
			offset_ = 0;
			assert(!valid());
			}

			private:
			Meta *meta() const { return get<Meta>() - 1; }

			typedef std::function<void(void *p, int len)> ToArray;
			void *Pack(const uint32_t head_len, const ToArray &headToArray,
			const uint32_t body_len, const ToArray &bodyToArray)

			template <class Body>
			void *Pack(const BHMsgHead &head, const uint32_t head_len, const Body &body, const uint32_t body_len)
			{
			void *addr = Alloc(sizeof(head_len) + head_len + sizeof(body_len) + body_len);
			void *addr = get();
			if (addr) {
			auto p = static_cast<char *>(addr);
			auto Pack1 = [&p](auto len, auto &writer) {
			auto Pack1 = [&p](auto len, auto &&writer) {
			Put32(p, len);
			p += sizeof(len);
			writer(p, len);
			p += len;
			};
			Pack1(head_len, headToArray);
			Pack1(body_len, bodyToArray);
			Pack1(head_len, [&](void *p, int len) { head.SerializeToArray(p, len); });
			Pack1(body_len, [&](void *p, int len) { body.SerializeToArray(p, len); });
			meta()->size_ = 4 + head_len + 4 + body_len;
			}
			return addr;
			}

			template <class Body>
			void *Pack(const BHMsgHead &head, const Body &body)
			{
			return Pack(
			uint32_t(head.ByteSizeLong()), [&](void *p, int len) { head.SerializeToArray(p, len); },
			uint32_t(body.ByteSizeLong()), [&](void *p, int len) { body.SerializeToArray(p, len); });
			}

			void *Pack(const std::string &content)
			{
			void *addr = Alloc(content.size());
			void *addr = get();
			if (addr) {
			memcpy(addr, content.data(), content.size());
			meta()->size_ = content.size();
			}
			return addr;
			}
			@@ -130,34 +139,52 @@
			offset_(p ? (Addr(p) - BaseAddr()) : 0) {}

			template <class T = void>
			T get() const { return static_cast<T >(Ptr(offset_ + BaseAddr())); }
			T get() const { return offset_ != 0 ? static_cast<T >(Ptr(offset_ + BaseAddr())) : nullptr; }

			public:
			static bool BindShm(SharedMemory &shm) { return SetData(shm); }
			ShmMsg() :
			ShmMsg(nullptr) {}
			explicit ShmMsg(const size_t size) :
			ShmMsg(Alloc(size)) {}
			offset_(0) {}
			explicit ShmMsg(const OffsetType offset) :
			offset_(offset) {}
			OffsetType Offset() const { return offset_; }
			OffsetType &OffsetRef() { return offset_; }
			void swap(ShmMsg &a) { std::swap(offset_, a.offset_); }
			bool valid() const { return static_cast<bool>(offset_) && meta()->tag_ == kMsgTag; }

			int AddRef() const { return valid() ? meta()->count_.Inc() : 1; }
			int Release()
			{
			if (!valid()) {
			return 0;
			}
			auto n = meta()->count_.Dec();
			if (n == 0) {
			Free();
			}
			return n;
			}
			bool valid() const { return offset_ != 0 && meta()->tag_ == kMsgTag; }
			int64_t id() const { return valid() ? meta()->id_ : 0; }
			int64_t timestamp() const { return valid() ? meta()->timestamp_.load() : 0; }
			size_t Size() const { return valid() ? meta()->size_ : 0; }
			int Count() const { return valid() ? meta()->count_.Get() : 1; }
			int AddRef() const { return valid() ? meta()->count_.Inc() : 1; }
			int Release();
			void Free();
			void reset_managed(const bool val) const
			{
			if (valid()) { meta()->managed_ = val; }
			}

			template <class Body>
			inline bool Make(const BHMsgHead &head, const Body &body) { return Make(Pack(head, body)); }
			inline bool Make(const std::string &content) { return Make(Pack(content)); }
			inline bool Make(const BHMsgHead &head, const Body &body)
			{
			uint32_t head_len = head.ByteSizeLong();
			uint32_t body_len = body.ByteSizeLong();
			uint32_t size = sizeof(head_len) + head_len + sizeof(body_len) + body_len;
			return Make(size) && Pack(head, head_len, body, body_len);
			}
			template <class Body>
			inline bool Fill(const BHMsgHead &head, const Body &body)
			{
			uint32_t head_len = head.ByteSizeLong();
			uint32_t body_len = body.ByteSizeLong();
			uint32_t size = sizeof(head_len) + head_len + sizeof(body_len) + body_len;
			return valid() && (meta()->capacity_ >= size) && Pack(head, head_len, body, body_len);
			}

			inline bool Make(const std::string &content) { return Make(content.size()) && Pack(content); }
			inline bool Fill(const std::string &content) { return valid() && (meta()->capacity_ >= content.size()) && Pack(content); }

			inline bool Make(const size_t size) { return Make(Alloc(size)); }

			template <class Body>
			static inline std::string Serialize(const BHMsgHead &head, const Body &body)
			{
			@@ -185,6 +212,22 @@
			p += 4;
			return head.ParseFromArray(p, msg_size);
			}
			std::string content() const
			{
			auto p = get<char>();
			return p ? std::string(p, meta()->size_) : std::string();
			}
			std::string body() const
			{
			auto p = get<char>();
			assert(p);
			uint32_t size = Get32(p);
			p += 4;
			p += size;
			size = Get32(p);
			p += 4;
			return std::string(p, size);
			}
			template <class Body>
			bool ParseBody(Body &body) const
			{
			@@ -203,6 +246,18 @@

			typedef ShmMsg MsgI;

			constexpr inline int EncodeCmd(int cmd) { return ((cmd & MaskBits(3)) << 1) \| 1; }
			constexpr inline int DecodeCmd(int64_t msg) { return (msg >> 1) & MaskBits(3); }
			constexpr inline bool IsCmd(int64_t msg) { return (msg & 1) != 0; }
			// int64_t pack format: cmd data ,3bit cmd, 1bit flag.
			enum MsgCmd {
			eCmdNodeInit = 0, // upto 56bit ssn id
			eCmdNodeInitReply = 1, // 31bit proc index,
			eCmdAllocRequest0 = 2, // 8bit size, 4bit socket index, 16bit proc index, 28bit id
			eCmdAllocReply0 = 3, // 31bit ptr, 28bit id,
			eCmdFree = 4, // upto 59bit msg id,
			};

			} // namespace bhome_msg

			#endif // end of include guard: MSG_5BILLZET