#include "pch_msc.hpp" #define TESTMAIN #include #include #include #include #include "libaquery.h" #include "monetdb_conn.h" #pragma region misc #ifdef THREADING #include "threading.h" #endif #ifdef _WIN32 #include "winhelper.h" #else #include #include #include #include struct SharedMemory { std::atomic a; int hFileMap; void* pData; explicit SharedMemory(const char* fname) { hFileMap = open(fname, O_RDWR, 0); if (hFileMap != -1) pData = mmap(nullptr, 8, PROT_READ | PROT_WRITE, MAP_SHARED, hFileMap, 0); else pData = nullptr; } void FreeMemoryMap() const { // automatically unmapped in posix } }; #endif // _WIN32 #ifdef __AQUERY_ITC_USE_SEMPH__ A_Semaphore prompt{ true }, engine{ false }; #define PROMPT_ACQUIRE() prompt.acquire() #define PROMPT_RELEASE() prompt.release() #define ENGINE_ACQUIRE() engine.acquire() #define ENGINE_RELEASE() engine.release() #else #define PROMPT_ACQUIRE() #define PROMPT_RELEASE() std::this_thread::sleep_for(std::chrono::nanoseconds(0)) #define ENGINE_ACQUIRE() #define ENGINE_RELEASE() #endif typedef void (*module_init_fn)(Context*); int n_recv = 0; char** n_recvd = nullptr; __AQEXPORT__(void) wait_engine(){ PROMPT_ACQUIRE(); } __AQEXPORT__(void) wake_engine(){ ENGINE_RELEASE(); } extern "C" void __DLLEXPORT__ receive_args(int argc, char**argv){ n_recv = argc; n_recvd = argv; } enum BinaryInfo_t { MSVC, MSYS, GCC, CLANG, AppleClang }; extern "C" int __DLLEXPORT__ binary_info() { #if defined(_MSC_VER) && !defined (__llvm__) return MSVC; #elif defined(__CYGWIN__) || defined(__MINGW32__) || defined(__MINGW64__) return MSYS; #elif defined(__clang__) return CLANG; #elif defined(__GNUC__) return GCC; #endif } __AQEXPORT__(bool) have_hge(){ #if defined(__MONETDB_CONN_H__) return Server::havehge(); #else return false; #endif } using prt_fn_t = char* (*)(void*, char*); // This function contains heap allocations, free after use template char* to_lpstr(const String_T& str){ auto ret = static_cast(malloc(str.size() + 1)); memcpy(ret, str.c_str(), str.size()); ret[str.size()] = '\0'; return ret; } char* copy_lpstr(const char* str){ auto len = strlen(str); auto ret = static_cast(malloc(len + 1)); memcpy(ret, str, len + 1); return ret; } constexpr prt_fn_t monetdbe_prtfns[] = { aq_to_chars, aq_to_chars, aq_to_chars, aq_to_chars, aq_to_chars, #if __SIZEOF_INT128__ aq_to_chars<__int128_t>, #endif aq_to_chars, aq_to_chars, aq_to_chars, aq_to_chars, aq_to_chars, aq_to_chars, aq_to_chars, aq_to_chars, // should be last: aq_to_chars }; #ifndef __AQ_USE_THREADEDGC__ void aq_init_gc(void *handle, Context* cxt) { typedef void (*aq_gc_init_t) (Context*); if (handle && cxt){ auto sym = dlsym(handle, "__AQ_Init_GC__"); if(sym){ ((aq_gc_init_t)sym)(cxt); } } } #else //__AQ_USE_THREADEDGC__ #define aq_init_gc(h, c) #endif //__AQ_USE_THREADEDGC__ #include "monetdbe.h" #undef max #undef min inline constexpr static unsigned char monetdbe_type_szs[] = { sizeof(monetdbe_column_bool::null_value), sizeof(monetdbe_column_int8_t::null_value), sizeof(monetdbe_column_int16_t::null_value), sizeof(monetdbe_column_int32_t::null_value), sizeof(monetdbe_column_int64_t::null_value), #ifdef __SIZEOF_INT128__ sizeof(monetdbe_column_int128_t::null_value), #endif sizeof(monetdbe_column_size_t::null_value), sizeof(monetdbe_column_float::null_value), sizeof(monetdbe_column_double::null_value), sizeof(monetdbe_column_str::null_value), sizeof(monetdbe_column_blob::null_value), sizeof(monetdbe_data_date), sizeof(monetdbe_data_time), sizeof(monetdbe_data_timestamp), // should be last: 1 }; constexpr uint32_t output_buffer_size = 65536; void print_monetdb_results(void* _srv, const char* sep = " ", const char* end = "\n", uint32_t limit = std::numeric_limits::max()) { auto srv = static_cast(_srv); if (!srv->haserror() && srv->cnt && limit) { char buffer[output_buffer_size]; auto _res = static_cast (srv->res); const auto ncols = _res->ncols; monetdbe_column** cols = static_cast(malloc(sizeof(monetdbe_column*) * ncols)); prt_fn_t *prtfns = (prt_fn_t*) alloca(sizeof(prt_fn_t) * ncols); char** col_data = static_cast (alloca(sizeof(char*) * ncols)); uint8_t* szs = static_cast(alloca(ncols)); std::string header_string = ""; const char* err_msg = nullptr; const size_t l_sep = strlen(sep); const size_t l_end = strlen(end); char* _buffer = buffer; const auto cnt = srv->cnt < limit? srv->cnt : limit; for(uint32_t i = 0; i < ncols; ++i){ err_msg = monetdbe_result_fetch(_res, &cols[i], i); if(err_msg) { goto cleanup; } col_data[i] = static_cast(cols[i]->data); prtfns[i] = monetdbe_prtfns[cols[i]->type]; szs [i] = monetdbe_type_szs[cols[i]->type]; header_string = header_string + cols[i]->name + sep + '|' + sep; } if(l_sep > 512 || l_end > 512) { puts("Error: separator or end string too long"); goto cleanup; } if (header_string.size() >= l_sep + 1) header_string.resize(header_string.size() - l_sep - 1); header_string += end + std::string(header_string.size(), '=') + end; fputs(header_string.c_str(), stdout); for(uint64_t i = 0; i < cnt; ++i){ for(uint32_t j = 0; j < ncols; ++j){ //copy the field to buf _buffer = prtfns[j](col_data[j], _buffer); if (j != ncols - 1){ memcpy(_buffer, sep, l_sep); _buffer += l_sep; } col_data[j] += szs[j]; } memcpy(_buffer, end, l_end); _buffer += l_end; if(output_buffer_size - (_buffer - buffer) <= 1024){ fwrite(buffer, 1, _buffer - buffer, stdout); _buffer = buffer; } } memcpy(_buffer, end, l_end); _buffer += l_end; if (_buffer != buffer) fwrite(buffer, 1, _buffer - buffer, stdout); cleanup: free(cols); } } void initialize_module(const char* module_name, void* module_handle, Context* cxt){ auto _init_module = reinterpret_cast(dlsym(module_handle, "init_session")); if (_init_module) { _init_module(cxt); } else { printf("Warning: module %s have no session support.\n", module_name); } } #pragma endregion int dll_main(int argc, char** argv, Context* cxt){ aq_timer timer; Config *cfg = reinterpret_cast(argv[0]); std::unordered_map user_module_map; std::string pwd = (char*)(std::filesystem::current_path().string().c_str()); char sep = std::filesystem::path::preferred_separator; pwd += sep; std::string procedure_root = (pwd + "procedures") + sep; std::string procedure_name = ""; StoredProcedure current_procedure; vector_type recorded_queries; vector_type recorded_libraries; bool procedure_recording = false, procedure_replaying = false; uint32_t procedure_module_cursor = 0; try { if (!std::filesystem::is_directory(procedure_root)) { if (std::filesystem::exists(procedure_root)) std::filesystem::remove_all(procedure_root); } if (!std::filesystem::exists(procedure_root)) { std::filesystem::create_directory(procedure_root); } } catch (std::filesystem::filesystem_error& e) { printf("Failed to create directory %s: %s\n", procedure_root.c_str(), e.what()); } if (cxt->module_function_maps == nullptr) cxt->module_function_maps = new std::unordered_map(); auto module_fn_map = static_cast*>(cxt->module_function_maps); auto buf_szs = cfg->buffer_sizes; void** buffers = (void**) malloc (sizeof(void*) * cfg->n_buffers); for (int i = 0; i < cfg->n_buffers; i++) buffers[i] = static_cast(argv[i + 1]); cxt->buffers = buffers; cxt->cfg = cfg; cxt->n_buffers = cfg->n_buffers; cxt->sz_bufs = buf_szs; if (cfg->backend_type == BACKEND_MonetDB && cxt->alt_server == nullptr) { auto alt_server = new Server(cxt); alt_server->exec("SELECT '**** WELCOME TO AQUERY++! ****';"); puts(*(const char**)(alt_server->getCol(0))); cxt->alt_server = alt_server; } while(cfg->running){ ENGINE_ACQUIRE(); if (cfg->new_query) { cfg->stats.postproc_time = 0; cfg->stats.monet_time = 0; start: void *handle = nullptr; void *user_module_handle = nullptr; if (cfg->backend_type == BACKEND_MonetDB){ if (cxt->alt_server == nullptr) cxt->alt_server = new Server(cxt); Server* server = reinterpret_cast(cxt->alt_server); if(n_recv > 0){ if (cfg->backend_type == BACKEND_AQuery || cfg->has_dll) { const char* proc_name = "./dll.so"; std::string dll_path; if (procedure_recording) { dll_path = procedure_root + procedure_name + std::to_string(recorded_libraries.size) + ".so"; try{ if (std::filesystem::exists(dll_path)) std::filesystem::remove(dll_path); std::filesystem::copy_file(proc_name, dll_path); } catch(std::filesystem::filesystem_error& e){ puts(e.what()); dll_path = proc_name; } proc_name = dll_path.c_str(); //if(recorded_libraries.size) recorded_queries.emplace_back(copy_lpstr("N")); } handle = dlopen(proc_name, RTLD_NOW); aq_init_gc(handle, cxt); if (procedure_recording) { recorded_libraries.emplace_back(handle); } } for (const auto& module : user_module_map){ initialize_module(module.first.c_str(), module.second, cxt); } cxt->init_session(); for(int i = 0; i < n_recv; ++i) { printf("%s, %d\n", n_recvd[i], n_recvd[i][0] == 'Q'); switch(n_recvd[i][0]){ case 'Q': // SQL query for monetdbe { if(procedure_recording){ recorded_queries.emplace_back(copy_lpstr(n_recvd[i])); } timer.reset(); server->exec(n_recvd[i] + 1); cfg->stats.monet_time += timer.elapsed(); printf("Exec Q%d: %s", i, n_recvd[i]); } break; case 'P': // Postprocessing procedure if(handle && !server->haserror()) { if (procedure_recording) { recorded_queries.emplace_back(copy_lpstr(n_recvd[i])); } code_snippet c = reinterpret_cast(dlsym(handle, n_recvd[i]+1)); printf("%p", dlsym(handle, n_recvd[i] + 1)); timer.reset(); c(cxt); cfg->stats.postproc_time += timer.elapsed(); } break; case 'M': // Load Module { auto mname = n_recvd[i] + 1; user_module_handle = dlopen(mname, RTLD_NOW); //getlasterror if (!user_module_handle) #ifndef _WIN32 puts(dlerror()); #else printf("Fatal Error: Module %s failed to load with error code %d.\n", mname, dlerror()); #endif user_module_map[mname] = user_module_handle; initialize_module(mname, user_module_handle, cxt); } break; case 'F': // Register Function in Module { auto fname = n_recvd[i] + 1; //printf("F:: %s: %p, %p\n", fname, user_module_handle, dlsym(user_module_handle, fname)); module_fn_map->insert_or_assign(fname, dlsym(user_module_handle, fname)); //printf("F::: %p\n", module_fn_map->find("mydiv") != module_fn_map->end() ? module_fn_map->find("mydiv")->second : nullptr); } break; case 'O': { if(!server->haserror()){ if (procedure_recording){ char* buf = (char*) malloc (sizeof(char) * 6); memcpy(buf, n_recvd[i], 5); buf[5] = '\0'; recorded_queries.emplace_back(buf); } uint32_t limit; memcpy(&limit, n_recvd[i] + 1, sizeof(uint32_t)); if (limit == 0) continue; timer.reset(); print_monetdb_results(server, " ", "\n", limit); cfg->stats.postproc_time += timer.elapsed(); } } break; case 'U': // Unload Module { auto mname = n_recvd[i] + 1; auto it = user_module_map.find(mname); if (user_module_handle == it->second) user_module_handle = nullptr; dlclose(it->second); user_module_map.erase(it); } break; case 'N': { if(procedure_module_cursor < current_procedure.postproc_modules) handle = current_procedure.__rt_loaded_modules[procedure_module_cursor++]; printf("Load %i = %p\n", procedure_module_cursor, handle); } break; case 'R': //recorded procedure { auto proc_name = n_recvd[i] + 2; proc_name = *proc_name?proc_name : proc_name + 1; puts(proc_name); const auto& load_modules = [&](StoredProcedure &p) { if (!p.__rt_loaded_modules){ p.__rt_loaded_modules = static_cast( malloc(sizeof(void*) * p.postproc_modules)); for(uint32_t j = 0; j < p.postproc_modules; ++j){ auto pj = dlopen((procedure_root + p.name + std::to_string(j) + ".so").c_str(), RTLD_NOW); if (pj == nullptr){ printf("Error: failed to load module %s\n", p.name); return true; } aq_init_gc(pj, cxt); p.__rt_loaded_modules[j] = pj; } } return false; }; const auto& save_proc_tofile = [&](const StoredProcedure& p) { auto config_name = procedure_root + procedure_name + ".aqp"; auto fp = fopen(config_name.c_str(), "wb"); if (fp == nullptr){ printf("Error: failed to open file %s\n", config_name.c_str()); return true; } fwrite(&p.cnt, sizeof(p.cnt), 1, fp); fwrite(&p.postproc_modules, sizeof(p.postproc_modules), 1, fp); for(uint32_t j = 0; j < p.cnt; ++j){ auto current_query = p.queries[j]; auto len_query = strlen(current_query); fwrite(current_query, len_query + 1, 1, fp); } fclose(fp); return false; }; const auto& load_proc_fromfile = [&](StoredProcedure& p) { auto config_name = procedure_root + p.name + ".aqp"; puts(p.name); auto fp = fopen(config_name.c_str(), "rb"); if(fp == nullptr){ puts("ERROR: Procedure not found on disk."); return false; } fread(&p.cnt, sizeof(p.cnt), 1, fp); fread(&p.postproc_modules, sizeof(p.postproc_modules), 1, fp); auto offset_now = ftell(fp); fseek(fp, 0, SEEK_END); auto queries_size = ftell(fp) - offset_now; fseek(fp, offset_now, SEEK_SET); p.queries = static_cast(malloc(sizeof(char*) * p.cnt)); p.queries[0] = static_cast(malloc(sizeof(char) * queries_size)); fread(p.queries[0], 1, queries_size, fp); for(uint32_t j = 1; j < p.cnt; ++j){ p.queries[j] = p.queries[j-1]; while(*(p.queries[j]) != '\0') ++p.queries[j]; ++p.queries[j]; puts(p.queries[j-1]); } fclose(fp); p.__rt_loaded_modules = 0; return load_modules(p); }; switch(n_recvd[i][1]){ case '\0': current_procedure.name = copy_lpstr(proc_name); AQ_ZeroMemory(current_procedure); procedure_recording = true; procedure_name = proc_name; break; case 'T': current_procedure.queries = recorded_queries.container; current_procedure.cnt = recorded_queries.size; current_procedure.name = copy_lpstr(proc_name); current_procedure.postproc_modules = recorded_libraries.size; current_procedure.__rt_loaded_modules = recorded_libraries.container; AQ_ZeroMemory(recorded_queries); AQ_ZeroMemory(recorded_libraries); procedure_recording = false; save_proc_tofile(current_procedure); cxt->stored_proc.insert_or_assign(procedure_name, current_procedure); procedure_name = ""; break; case 'E': // execute procedure { procedure_module_cursor = 0; auto _proc = cxt->stored_proc.find(proc_name); if (_proc == cxt->stored_proc.end()){ printf("Procedure %s not found. Trying load from disk.\n", proc_name); current_procedure.name = copy_lpstr(proc_name); if (!load_proc_fromfile(current_procedure)){ cxt->stored_proc.insert_or_assign(proc_name, current_procedure); } else { continue; } } else{ current_procedure = _proc->second; } n_recv = current_procedure.cnt; n_recvd = current_procedure.queries; load_modules(current_procedure); procedure_replaying = true; goto start; // yes, I know, refactor later!! } break; case 'D': // delete procedure break; case 'S': // save procedure break; case 'L': // load procedure if (!load_proc_fromfile(current_procedure)) { cxt->stored_proc.insert_or_assign(proc_name, current_procedure); } break; case 'd': // display all procedures for(const auto& p : cxt->stored_proc){ printf("Procedure: %s, %d queries, %d modules:\n", p.first.c_str(), p.second.cnt, p.second.postproc_modules); for(uint32_t j = 0; j < p.second.cnt; ++j){ printf("\tQuery %d: %s\n", j, p.second.queries[j]); } puts(""); } break; } } break; } } printf("%lld, %lld", cfg->stats.monet_time, cfg->stats.postproc_time); cxt->end_session(); n_recv = 0; } if (server->last_error != nullptr) { printf("Monetdbe Error: %s\n", server->last_error); server->last_error = nullptr; //goto finalize; } } // puts(cfg->has_dll ? "true" : "false"); if (cfg->backend_type == BACKEND_AQuery) { handle = dlopen("./dll.so", RTLD_NOW); code_snippet c = reinterpret_cast(dlsym(handle, "dllmain")); c(cxt); } if (handle && !procedure_replaying && !procedure_recording) { printf("Destroy %p\n", handle); dlclose(handle); handle = nullptr; } procedure_replaying = false; cfg->new_query = 0; } //puts(cfg->running? "true": "false"); //finalize: PROMPT_RELEASE(); } return 0; } int launcher(int argc, char** argv){ #ifdef _WIN32 constexpr char sep = '\\'; #else constexpr char sep = '/'; #endif std::string str = " "; std::string pwd = ""; if (argc > 0) pwd = argv[0]; auto pos = pwd.find_last_of(sep); if (pos == std::string::npos) pos = 0; pwd = pwd.substr(0, pos); for (int i = 1; i < argc; i++){ str += argv[i]; str += " "; } str = std::string("cd ") + pwd + std::string("&& python3 ./prompt.py ") + str; return system(str.c_str()); } #if !defined(TESTMAIN) && !( defined(_MSC_VER) && defined(_DEBUG) ) extern "C" int __DLLEXPORT__ main(int argc, char** argv) { #ifdef __AQ_BUILD_LAUNCHER__ return launcher(argc, argv); #endif // puts("running"); Context* cxt = new Context(); cxt->aquery_root_path = to_lpstr(std::filesystem::current_path().string()); // cxt->log("%d %s\n", argc, argv[1]); #ifdef THREADING auto tp = new ThreadPool(); cxt->thread_pool = tp; #endif const char* shmname; if (argc < 0) return dll_main(argc, argv, cxt); else shmname = argv[1]; SharedMemory shm = SharedMemory(shmname); if (!shm.pData) return 1; bool &running = static_cast(shm.pData)[0], &ready = static_cast(shm.pData)[1]; using namespace std::chrono_literals; cxt->log("running: %s\n", running? "true":"false"); cxt->log("ready: %s\n", ready? "true":"false"); while (running) { std::this_thread::sleep_for(1ms); if(ready){ cxt->log("running: %s\n", running? "true":"false"); cxt->log("ready: %s\n", ready? "true":"false"); void* handle = dlopen("./dll.so", RTLD_NOW); cxt->log("handle: %p\n", handle); if (handle) { cxt->log("inner\n"); code_snippet c = reinterpret_cast(dlsym(handle, "dllmain")); cxt->log("routine: %p\n", c); if (c) { cxt->log("inner\n"); cxt->err("return: %d\n", c(cxt)); } } ready = false; } } shm.FreeMemoryMap(); return 0; } #endif // MSCDBG