#pragma once #include namespace brynet { namespace net { /* binary search in memory */ void memsearch(const char *hay, size_t haysize, const char *needle, size_t needlesize, size_t& result, bool& isOK) { size_t haypos, needlepos; haysize -= needlesize; for (haypos = 0; haypos <= haysize; haypos++) { for (needlepos = 0; needlepos < needlesize; needlepos++) { if (hay[haypos + needlepos] != needle[needlepos]) { // Next character in haystack. break; } } if (needlepos == needlesize) { result = haypos; isOK = true; return; } } isOK = false; } class PromiseReceive; std::shared_ptr setupPromiseReceive(const TcpConnection::Ptr& session); class PromiseReceive : public std::enable_shared_from_this { public: using Ptr = std::shared_ptr; using Handle = std::function; PromiseReceive::Ptr receive(size_t len, Handle handle) { return receive(std::make_shared(len), std::move(handle)); } PromiseReceive::Ptr receive(std::shared_ptr len, Handle handle) { return helpReceive(std::move(len), "", std::move(handle)); } PromiseReceive::Ptr receiveUntil(std::string str, Handle handle) { if (str.empty()) { throw std::runtime_error("str is empty"); } return helpReceive(nullptr, std::move(str), std::move(handle)); } private: PromiseReceive::Ptr helpReceive(std::shared_ptr len, std::string str, Handle handle) { auto pr = std::make_shared(); pr->len = std::move(len); pr->str = std::move(str); pr->handle = std::move(handle); mPendingReceives.push_back(std::move(pr)); return shared_from_this(); } size_t process(const char* buffer, const size_t len) { size_t procLen = 0; while (!mPendingReceives.empty() && len >= procLen) { auto pendingReceive = mPendingReceives.front(); if (pendingReceive->len != nullptr) { const auto tryReceiveLen = *pendingReceive->len; if ((len - procLen) < tryReceiveLen) { break; } mPendingReceives.pop_front(); procLen += tryReceiveLen; if (pendingReceive->handle(buffer + procLen - tryReceiveLen, tryReceiveLen) && tryReceiveLen > 0) { mPendingReceives.push_front(pendingReceive); } } else if (!pendingReceive->str.empty()) { size_t pos = 0; bool isOK = false; auto data = buffer + procLen; memsearch(buffer + procLen, len - procLen, pendingReceive->str.c_str(), pendingReceive->str.size(), pos, isOK); if (!isOK) { break; } mPendingReceives.pop_front(); procLen += (pos + pendingReceive->str.size()); if (pendingReceive->handle(data, pos)) { mPendingReceives.push_front(pendingReceive); } } else { break; } } return procLen; } private: struct PendingReceive { std::shared_ptr len; std::string str; Handle handle; }; std::deque> mPendingReceives; friend std::shared_ptr setupPromiseReceive(const TcpConnection::Ptr& session); }; std::shared_ptr setupPromiseReceive(const TcpConnection::Ptr& session) { auto promiseReceive = std::make_shared(); session->setDataCallback([promiseReceive](const char* buffer, size_t len) { return promiseReceive->process(buffer, len); }); return promiseReceive; } } }