#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "socket_wrapper.h" #include "timerhelper.h" #ifndef DEFAULT_TIMEOUT static const int TIMEOUT = 5; #else static const int TIMEOUT = DEFAULT_TIMEOUT; #endif #ifndef DEFAULT_PROGRESS_BAR_WIDTH static const int PROGRESS_BAR_WIDTH = 30; #else static const int PROGRESS_BAR_WIDTH = DEFAULT_PROGRESS_BAR_WIDTH; #endif enum{ FILENAME_BUF_SIZE = 1024 }; /*======== *Operation *========*/ //if success, return zero int sendReadOp(int sock,const char * filename){ struct ReadOp op; op.file_url_size = strlen(filename); op.padding0 = 0; if(send(sock,&op,sizeof(op),0)<0){ perror("readop send fail"); return -1; } #ifdef MUL_CLIENT sleep(MUL_CLIENT); #endif if(send(sock,filename,op.file_url_size,0)<0){ perror("readop filename send fail"); return -1; } return 0; } /** * @arg cur_progress : it is percentage. */ bool isProgressBarNeedUpdate(size_t offset,size_t total,double cur_progress){ return ((double)offset / (double)total) > (cur_progress / 100.0); } void DisplayProgressBar(size_t offset,size_t total,double cur_progress){ char buf[PROGRESS_BAR_WIDTH]; size_t i; size_t cur_pos = (cur_progress / 100.0 * PROGRESS_BAR_WIDTH); //must be less than SIZE_MAX. other value is undefined behavior. for (i = 0; i < PROGRESS_BAR_WIDTH; i++) { if (i < cur_pos) buf[i] = '='; else if(i == cur_pos) buf[i] = '>'; else buf[i] = '.'; } printf("\r[%s]: %.2f%% bytes: %ld/%ld bytes",buf,cur_progress,total,offset); } void DisplayProgressBar100Percent(size_t total){ size_t i; char buf[PROGRESS_BAR_WIDTH+1]; for (i = 0; i < PROGRESS_BAR_WIDTH; i++){ buf[i] = '='; } buf[PROGRESS_BAR_WIDTH] = '\0'; printf("\r[%s]: 100%% bytes: %ld/%ld bytes\n",buf,total,total); } static bool DisplayProgress = true; int recvFile(int sock, const char * filename,size_t file_size){ int fd; size_t count = 0; int i; double cur_progress = 1; int return_value = 0; int buf_sz = getBufferSizeFrom(sock); uint8_t * buf = malloc(buf_sz*sizeof(*buf)); if (buf == NULL){ return -1; } fd = open(filename,O_WRONLY|O_CREAT|O_TRUNC,S_IRWXU|S_IRWXG|S_IROTH); if (fd < 0) { perror("file open fail"); return -1; } while (file_size - count > 0) { int readed = buf_sz < file_size - count ? buf_sz : file_size - count; if((i = recv_until_byte(sock,buf,readed,TIMEOUT)) < 0){ if(i == -2) fprintf(stderr,"recv file failed : timeout connetion lost\n"); else perror("recv file failed"); return_value = -1; goto END; } if(write(fd,buf,readed)<0){ perror("file write failed"); return_value = -1; goto END; } if( DisplayProgress && isProgressBarNeedUpdate(count,file_size,cur_progress) ){ DisplayProgressBar(count,file_size,cur_progress); cur_progress = (int)((((double)count / (double)file_size)) * 100.0 + 1.0); fflush(stdout); } count += readed; #ifdef SLOW_CLIENT usleep(SLOW_CLIENT); #endif } if(DisplayProgress) DisplayProgressBar100Percent(file_size); END: free(buf); close(fd); return return_value; } int recvData(int sock,const char * filename){ struct TransferResult res; int i=0; if((i=recv_until_byte(sock,&res,sizeof(res),TIMEOUT)) < 0){ if (i == -2) fprintf(stderr,"timeout\n"); else perror("recv fail"); return -1; } static char error_meesage_buf[80] = ""; switch(res.res){ case RES_ERR: fprintf(stderr,"Server Fail: %s\n", strerror(res.err_number)); return -1; case RES_USR_ERR: assert(res.error_msg_size < 80);/*todo : fix*/ if((i=recv_until_byte(sock,error_meesage_buf,res.error_msg_size,TIMEOUT)) < 0){ if (i == -2) fprintf(stderr,"timeout\n"); else perror("recv fail"); return -1; } fprintf(stderr,"Error Message From Server: %s\n",error_meesage_buf); return -1; case RES_OK: return recvFile(sock,filename,res.file_size); break; default: fprintf(stderr,"unknown value!\n"); return -1; } return 0; } int SendOpAndReceiveFile(const char * filename, struct sockaddr const * addr){ int sock; int ret = -1; fprintf(stdout,"request %s\n",filename); sock = socket(AF_INET,SOCK_STREAM,0); if(sock < 0){ perror("sock create fail"); return -1; } if(connect(sock,(struct sockaddr *)addr,sizeof(*addr)) < 0){ perror("connect failed"); return -1; } if(sendReadOp(sock,filename) == 0){ ret = recvData(sock,filename); } close(sock); return ret; } struct benchmark_data{ bool benchmode; struct timespec begin; struct timespec end; clockid_t clock_id; struct timespec resolution; int op_count; } bench = {0,}; void init_bench_data(){ int i; memset(&bench,0,sizeof(bench)); bench.clock_id = CLOCK_PROCESS_CPUTIME_ID; i = clock_getres(bench.clock_id,&bench.resolution); if (i < 0){ bench.clock_id = CLOCK_REALTIME; clock_getres(bench.clock_id,&bench.resolution); } } static size_t thread_number_option = 1; typedef enum{ From_CharArray, From_FileStream } queueing_method_t; struct SimpleThreadGlobal{ size_t thread_arr_size; pthread_t * thread_arr; pthread_mutex_t queueing_mutex; queueing_method_t method; const char ** filename_begin; const char ** filename_end; } global_state; typedef struct SimpleThreadReturn{ int retval; int op_count; } worker_return_t; __attribute_malloc__ worker_return_t * create_worker_return(){ return (worker_return_t *)malloc(sizeof(worker_return_t)); } void destroy_worker_return(worker_return_t * r){ free(r); } typedef struct SimpleThreadArg{ struct sockaddr addr; } worker_arg_t; __attribute_malloc__ worker_arg_t * create_thread_arg(struct sockaddr * r){ worker_arg_t * ret = (worker_arg_t *)malloc(sizeof(*ret)); memcpy(&ret->addr,r,sizeof(*r)); return ret; } void destroy_thread_arg(worker_arg_t * arg){ free(arg); } void * WorkerProc(void * args){ worker_arg_t * arg = (worker_arg_t *)(args); worker_return_t * ret = create_worker_return(); char filename_buf[FILENAME_BUF_SIZE]; const char * filename; for(;;) { pthread_mutex_lock(&global_state.queueing_mutex); if (global_state.method == From_CharArray){ if (__glibc_unlikely(global_state.filename_begin == global_state.filename_end)) { pthread_mutex_unlock(&global_state.queueing_mutex); break; } filename = *(global_state.filename_begin++); } else{ //unsafe. int t = fscanf(stdin,"%s",filename_buf); if (__glibc_unlikely(t != 1)) { pthread_mutex_unlock(&global_state.queueing_mutex); break; } filename = filename_buf; } pthread_mutex_unlock(&global_state.queueing_mutex); ret->retval += SendOpAndReceiveFile(filename,&arg->addr); ret->op_count++; } destroy_thread_arg(arg); return ret; } static bool stdinisatty; int main(int argc, const char *argv[]){ struct sockaddr_in addr; const char * filename; const char * server_name; in_port_t server_port = 0; int arg_filename_start = 3; int err; int retval = 0; init_bench_data(); stdinisatty = isatty(STDIN_FILENO); if (argc < (stdinisatty ? 4 : 3)){ fprintf(stderr,"USAUE: %s SERVERNAME PORT [Option]... [FILENAME]...\n",argv[0]); return 1; } server_name = argv[1]; server_port = atoi(argv[2]); while(arg_filename_start < argc){ if (strcmp("-b",argv[arg_filename_start])==0 ||strcmp("--benchmark",argv[arg_filename_start])==0){ arg_filename_start++; bench.benchmode = true; } else if(strcmp("-nv",argv[arg_filename_start]) == 0||strcmp("--no-verbose",argv[arg_filename_start])==0){ arg_filename_start++; DisplayProgress = false; } else if(strcmp("-t",argv[arg_filename_start]) == 0 || strcmp("--thread",argv[arg_filename_start]) == 0){ arg_filename_start++; if (arg_filename_start >= argc){ fprintf(stderr,"need number"); return -2; } thread_number_option = atoi(argv[arg_filename_start++]); if(thread_number_option == 0){ fprintf(stderr,"not number or zero"); return -2; } } else break; } if (server_port == 0){ fprintf(stderr,"port invalid\n"); return 1; } err = getsockaddrbyname(AF_INET,SOCK_STREAM,0,server_name,(struct sockaddr *)&addr); if (err != 0){ int check; fprintf(stderr,"netdb fail: %s\n",gai_strerror(err)); //assume that sernmae is *.*.*.* and try to parse addr check = inet_pton(AF_INET,server_name,&addr.sin_addr); assert(check != -1); if (check == 0){ fprintf(stderr,"parsing fail : invaild format\n"); return 1; } } addr.sin_family = AF_INET; addr.sin_port = htons(server_port); if (bench.benchmode){ clock_gettime(bench.clock_id,&bench.begin); } if(thread_number_option == 1){ char filename_buf[FILENAME_BUF_SIZE]; for (;;){ if (stdinisatty){ if (arg_filename_start >= argc) break; filename = argv[arg_filename_start++]; } else{ //unsafe. int t = fscanf(stdin,"%s",filename_buf); if (t != 1) break; filename = filename_buf; } retval += SendOpAndReceiveFile(filename,(struct sockaddr *)&addr); bench.op_count++; } } else{ int i = 0; global_state.method = stdinisatty ? From_CharArray : From_FileStream; global_state.filename_begin = &argv[arg_filename_start]; global_state.filename_end = &argv[argc]; pthread_mutex_init(&global_state.queueing_mutex,NULL); global_state.thread_arr_size = thread_number_option; global_state.thread_arr = (pthread_t *)malloc(sizeof(*global_state.thread_arr) * global_state.thread_arr_size); for (i = 0; i < global_state.thread_arr_size; i++){ worker_arg_t * arg = create_thread_arg((struct sockaddr *)&addr); pthread_create(&global_state.thread_arr[i],NULL,WorkerProc,arg); } for (i = 0; i < global_state.thread_arr_size; i++){ worker_return_t * ret; pthread_join(global_state.thread_arr[i],(void **)&ret); bench.op_count += ret->op_count; retval += ret->retval; destroy_worker_return(ret); } } if (bench.benchmode){ struct timespec result; double avg; clock_gettime(bench.clock_id,&bench.end); result = timespec_sub(bench.end,bench.begin); if (result.tv_sec == 0) avg = result.tv_nsec; else avg = result.tv_sec * 1e9 + result.tv_nsec; avg /= bench.op_count; fprintf(stdout,"operation: %lf us/op\n",avg / 1000.0); fprintf(stdout,"resolution: %ld sec %ld ns\n",bench.resolution.tv_sec,bench.resolution.tv_nsec); } return retval; }