#ifndef DFCONNECT_H #define DFCONNECT_H #define PINGPONG_VERSION 2 #define SHM_KEY 123466 #define SHM_HEADER 1024 #define SHM_BODY 1024*1024 #define SHM_SIZE SHM_HEADER+SHM_BODY // FIXME: add YIELD for linux, add single-core and multi-core compile targets for optimal speed #ifdef LINUX_BUILD // a full memory barrier! better be safe than sorry. #define full_barrier asm volatile("" ::: "memory"); __sync_synchronize(); #define SCHED_YIELD #else // we need windows.h for Sleep() #define _WIN32_WINNT 0x0501 // needed for INPUT struct #define WINVER 0x0501 // OpenThread(), PSAPI, Toolhelp32 #define WIN32_LEAN_AND_MEAN #include #define SCHED_YIELD Sleep(0); // FIXME: detect MSVC here and use the right barrier magic #ifdef __MINGW32__ #define full_barrier asm volatile("" ::: "memory"); #else #include #pragma intrinsic(_ReadWriteBarrier) #define full_barrier _ReadWriteBarrier(); #endif #endif /* * read - parameters are address and length * write - parameters are address, length and the actual data to write * wait - sent to DF so that it waits for more commands * end - sent to DF for breaking out of the wait */ enum DF_SHM_ERRORSTATE { SHM_OK, // all OK SHM_CANT_GET_SHM, // getting the SHM ID failed for some reason SHM_CANT_ATTACH, // we can't attach the shm for some reason SHM_SECOND_DF // we are a second DF process, can't use SHM at all }; enum DF_PINGPONG { DFPP_RUNNING = 0, // no command, normal server execution DFPP_VERSION, // protocol version query DFPP_RET_VERSION, // return the protocol version DFPP_PID, // query for the process ID DFPP_RET_PID, // return process ID // version 1 stuff below DFPP_READ, // cl -> sv, read some data DFPP_RET_DATA, // sv -> cl, returned data DFPP_READ_DWORD, // cl -> sv, read a dword DFPP_RET_DWORD, // sv -> cl, returned dword DFPP_READ_WORD, // cl -> sv, read a word DFPP_RET_WORD, // sv -> cl, returned word DFPP_READ_BYTE, // cl -> sv, read a byte DFPP_RET_BYTE, // sv -> cl, returned byte DFPP_SV_ERROR, // there was a server error DFPP_CL_ERROR, // there was a client error DFPP_WRITE,// client writes to server DFPP_WRITE_DWORD,// client writes a DWORD to server DFPP_WRITE_WORD,// client writes a WORD to server DFPP_WRITE_BYTE,// client writes a BYTE to server DFPP_SUSPEND, // client notifies server to wait for commands (server is stalled in busy wait) DFPP_SUSPENDED, // response to WAIT, server is stalled in busy wait // all strings capped at 1MB DFPP_READ_STL_STRING,// client requests contents of STL string at address DFPP_READ_C_STRING,// client requests contents of a C string at address, max length (0 means zero terminated) DFPP_RET_STRING, // sv -> cl length + string contents DFPP_WRITE_STL_STRING,// client wants to set STL string at address to something // vector elements > 1MB are not supported because they don't fit into the shared memory DFPP_READ_ENTIRE_VECTOR, // read an entire vector (parameters are address of vector object and size of items) DFPP_RET_VECTOR_BODY, // a part of a vector is returned - no. of elements returned, no. of elements total, elements NUM_DFPP }; enum DF_ERROR { DFEE_INVALID_COMMAND, DFEE_BUFFER_OVERFLOW }; typedef struct { volatile uint32_t pingpong; // = 0 } shm_cmd; typedef struct { volatile uint32_t pingpong; uint32_t address; uint32_t length; } shm_read; typedef shm_read shm_write; typedef shm_read shm_bounce; typedef struct { volatile uint32_t pingpong; } shm_ret_data; typedef struct { volatile uint32_t pingpong; uint32_t address; } shm_read_small; typedef struct { volatile uint32_t pingpong; uint32_t address; uint32_t value; } shm_write_small; typedef struct { volatile uint32_t pingpong; uint32_t value; } shm_retval; typedef struct { volatile uint32_t pingpong; uint32_t length; } shm_retstr; void SHM_Act (void); bool isValidSHM(); uint32_t getPID(); #endif