#ifndef __INC_METIN_II_ASYNCSQL_H__ #define __INC_METIN_II_ASYNCSQL_H__ #include #include #include #include #include #include #include #include #include #include "CSemaphore.h" #define QUERY_MAX_LEN 8192 typedef struct _SQLResult { _SQLResult() : pSQLResult(NULL), uiNumRows(0), uiAffectedRows(0), uiInsertID(0) { } ~_SQLResult() { if (pSQLResult) { mysql_free_result(pSQLResult); pSQLResult = NULL; } } MYSQL_RES * pSQLResult; uint32_t uiNumRows; uint32_t uiAffectedRows; uint32_t uiInsertID; } SQLResult; typedef struct _SQLMsg { _SQLMsg() : m_pkSQL(NULL), iID(0), uiResultPos(0), pvUserData(NULL), bReturn(false), uiSQLErrno(0) { } ~_SQLMsg() { std::vector::iterator first = vec_pkResult.begin(); std::vector::iterator past = vec_pkResult.end(); while (first != past) delete *(first++); vec_pkResult.clear(); } void Store() { do { SQLResult * pRes = new SQLResult; pRes->pSQLResult = mysql_store_result(m_pkSQL); pRes->uiInsertID = mysql_insert_id(m_pkSQL); pRes->uiAffectedRows = mysql_affected_rows(m_pkSQL); if (pRes->pSQLResult) { pRes->uiNumRows = mysql_num_rows(pRes->pSQLResult); } else { pRes->uiNumRows = 0; } vec_pkResult.push_back(pRes); } while (!mysql_next_result(m_pkSQL)); } SQLResult * Get() { if (uiResultPos >= vec_pkResult.size()) return NULL; return vec_pkResult[uiResultPos]; } bool Next() { if (uiResultPos + 1 >= vec_pkResult.size()) return false; ++uiResultPos; return true; } MYSQL * m_pkSQL; int iID; std::string stQuery; std::vector vec_pkResult; // result º¤ÅÍ unsigned int uiResultPos; // ÇöÀç result À§Ä¡ void * pvUserData; bool bReturn; unsigned int uiSQLErrno; } SQLMsg; class CAsyncSQL { public: CAsyncSQL(); virtual ~CAsyncSQL(); void Quit(); bool Setup(const char * c_pszHost, const char * c_pszUser, const char * c_pszPassword, const char * c_pszDB, const char * c_pszLocale, bool bNoThread = false, int iPort = 0); bool Setup(CAsyncSQL * sql, bool bNoThread = false); bool Connect(); bool IsConnected() { return m_bConnected; } bool QueryLocaleSet(); void AsyncQuery(const char * c_pszQuery); void ReturnQuery(const char * c_pszQuery, void * pvUserData); SQLMsg * DirectQuery(const char * c_pszQuery); DWORD CountQuery(); DWORD CountResult(); void PushResult(SQLMsg * p); bool PopResult(SQLMsg ** pp); void ChildLoop(); MYSQL * GetSQLHandle(); int CountQueryFinished(); void ResetQueryFinished(); size_t EscapeString(char* dst, size_t dstSize, const char *src, size_t srcSize); protected: void Destroy(); void PushQuery(SQLMsg * p); bool PeekQuery(SQLMsg ** pp); bool PopQuery(int iID); bool PeekQueryFromCopyQueue(SQLMsg ** pp ); INT CopyQuery(); bool PopQueryFromCopyQueue(); public: int GetCopiedQueryCount(); void ResetCopiedQueryCount(); void AddCopiedQueryCount( int iCopiedQuery ); //private: protected: MYSQL m_hDB; std::string m_stHost; std::string m_stUser; std::string m_stPassword; std::string m_stDB; std::string m_stLocale; int m_iMsgCount; int m_aiPipe[2]; int m_iPort; std::queue m_queue_query; std::queue m_queue_query_copy; //std::map m_map_kSQLMsgUnfinished; std::queue m_queue_result; volatile bool m_bEnd; #ifndef __WIN32__ pthread_t m_hThread; pthread_mutex_t * m_mtxQuery; pthread_mutex_t * m_mtxResult; #else HANDLE m_hThread; CRITICAL_SECTION* m_mtxQuery; CRITICAL_SECTION* m_mtxResult; #endif CSemaphore m_sem; int m_iQueryFinished; unsigned int m_ulThreadID; bool m_bConnected; int m_iCopiedQuery; }; class CAsyncSQL2 : public CAsyncSQL { public: void SetLocale ( const std::string & stLocale ); }; #endif