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mirror of https://github.com/fumiama/simple-kanban.git synced 2026-07-02 09:00:27 +08:00

修复pthread带来的内存泄漏

This commit is contained in:
fumiama
2021-05-04 13:59:33 +08:00
parent 93255fd162
commit 3bfbacbdc5
2 changed files with 65 additions and 49 deletions

View File

@@ -37,7 +37,7 @@ void getMessage(void *p) {
} }
} }
off_t fileSize(const char* fname) { off_t size_of_file(const char* fname) {
struct stat statbuf; struct stat statbuf;
if(stat(fname, &statbuf)==0) return statbuf.st_size; if(stat(fname, &statbuf)==0) return statbuf.st_size;
else return -1; else return -1;
@@ -73,7 +73,7 @@ int main(int argc,char *argv[]) { //usage: ./client host port
fp = fopen(buf, "rb"); fp = fopen(buf, "rb");
if(fp) { if(fp) {
off_t len = 0; off_t len = 0;
file_size = (uint32_t)fileSize(buf); file_size = (uint32_t)size_of_file(buf);
#if __APPLE__ #if __APPLE__
struct iovec headers; struct iovec headers;
headers.iov_base = &file_size; headers.iov_base = &file_size;

110
server.c
View File

@@ -29,7 +29,8 @@ struct sockaddr_in server_addr;
char *data_path; char *data_path;
char *kanban_path; char *kanban_path;
pthread_t accept_threads[8]; #define THREADCNT 16
pthread_t accept_threads[THREADCNT];
#define MAXWAITSEC 10 #define MAXWAITSEC 10
struct THREADTIMER { struct THREADTIMER {
@@ -46,29 +47,29 @@ typedef struct THREADTIMER THREADTIMER;
#define showUsage(program) printf("Usage: %s [-d] listen_port try_times kanban_file data_file\n\t-d: As daemon\n", program) #define showUsage(program) printf("Usage: %s [-d] listen_port try_times kanban_file data_file\n\t-d: As daemon\n", program)
void acceptClient(); void accept_client();
void acceptTimer(void *p); void accept_timer(void *p);
int bindServer(uint16_t port, u_int try_times); int bind_server(uint16_t port, u_int try_times);
int checkBuffer(THREADTIMER *timer); int check_buffer(THREADTIMER *timer);
void closeFile(FILE *fp); void close_file(FILE *fp);
int closeFileAndSend(THREADTIMER *timer, char *data, size_t numbytes); int close_file_and_send(THREADTIMER *timer, char *data, size_t numbytes);
off_t fileSize(const char* fname); int free_after_send(int accept_fd, char *data, size_t length);
int freeAfterSend(int accept_fd, char *data, size_t length);
void handle_accept(void *accept_fd_p); void handle_accept(void *accept_fd_p);
void handle_pipe(int signo); void handle_pipe(int signo);
void handle_quit(int signo); void handle_quit(int signo);
void kill_thread(THREADTIMER* timer); void kill_thread(THREADTIMER* timer);
int listenSocket(u_int try_times); int listen_socket(u_int try_times);
FILE *openFile(char* file_path, int lock_type, char* mode); FILE *open_file(char* file_path, int lock_type, char* mode);
int send_all(char* file_path, THREADTIMER *timer); int send_all(char* file_path, THREADTIMER *timer);
int send_data(int accept_fd, char *data, size_t length); int send_data(int accept_fd, char *data, size_t length);
int sm1_pwd(THREADTIMER *timer); int sm1_pwd(THREADTIMER *timer);
off_t size_of_file(const char* fname);
int s0_init(THREADTIMER *timer); int s0_init(THREADTIMER *timer);
int s1_get(THREADTIMER *timer); int s1_get(THREADTIMER *timer);
int s2_set(THREADTIMER *timer); int s2_set(THREADTIMER *timer);
int s3_setData(THREADTIMER *timer); int s3_setData(THREADTIMER *timer);
int bindServer(uint16_t port, u_int try_times) { int bind_server(uint16_t port, u_int try_times) {
int fail_count = 0; int fail_count = 0;
int result = -1; int result = -1;
server_addr.sin_family = AF_INET; server_addr.sin_family = AF_INET;
@@ -87,7 +88,7 @@ int bindServer(uint16_t port, u_int try_times) {
} }
} }
int listenSocket(u_int try_times) { int listen_socket(u_int try_times) {
int fail_count = 0; int fail_count = 0;
int result = -1; int result = -1;
while(!~(result = listen(fd, 10)) && fail_count++ < try_times) sleep(1); while(!~(result = listen(fd, 10)) && fail_count++ < try_times) sleep(1);
@@ -100,7 +101,7 @@ int listenSocket(u_int try_times) {
} }
} }
int freeAfterSend(int accept_fd, char *data, size_t length) { int free_after_send(int accept_fd, char *data, size_t length) {
int re = send_data(accept_fd, data, length); int re = send_data(accept_fd, data, length);
free(data);\ free(data);\
return re; return re;
@@ -119,11 +120,11 @@ int send_data(int accept_fd, char *data, size_t length) {
int send_all(char* file_path, THREADTIMER *timer) { int send_all(char* file_path, THREADTIMER *timer) {
int re = 1; int re = 1;
FILE *fp = openFile(file_path, LOCK_SH, "rb"); FILE *fp = open_file(file_path, LOCK_SH, "rb");
if(fp) { if(fp) {
timer->fp = fp; timer->fp = fp;
timer->is_open = 1; timer->is_open = 1;
uint32_t file_size = (uint32_t)fileSize(file_path); uint32_t file_size = (uint32_t)size_of_file(file_path);
printf("Get file size: %u bytes.\n", file_size); printf("Get file size: %u bytes.\n", file_size);
off_t len = 0; off_t len = 0;
#if __APPLE__ #if __APPLE__
@@ -139,7 +140,7 @@ int send_all(char* file_path, THREADTIMER *timer) {
sendfile(timer->accept_fd, fileno(fp), &len, file_size); sendfile(timer->accept_fd, fileno(fp), &len, file_size);
#endif #endif
printf("Send %lld bytes.\n", len); printf("Send %lld bytes.\n", len);
closeFile(fp); close_file(fp);
timer->is_open = 0; timer->is_open = 0;
} }
return re; return re;
@@ -159,7 +160,7 @@ int s0_init(THREADTIMER *timer) {
} }
int s1_get(THREADTIMER *timer) { //get kanban int s1_get(THREADTIMER *timer) { //get kanban
FILE *fp = openFile(kanban_path, LOCK_SH, "rb"); FILE *fp = open_file(kanban_path, LOCK_SH, "rb");
timer->status = 0; timer->status = 0;
if(fp) { if(fp) {
timer->fp = fp; timer->fp = fp;
@@ -168,22 +169,22 @@ int s1_get(THREADTIMER *timer) { //get kanban
if(fscanf(fp, "%u", &ver) > 0) { if(fscanf(fp, "%u", &ver) > 0) {
if(sscanf(timer->data, "%u", &cli_ver) > 0) { if(sscanf(timer->data, "%u", &cli_ver) > 0) {
if(cli_ver < ver) { //need to send a new kanban if(cli_ver < ver) { //need to send a new kanban
closeFile(fp); close_file(fp);
timer->is_open = 0; timer->is_open = 0;
return send_all(kanban_path, timer); return send_all(kanban_path, timer);
} }
} }
} }
} }
return closeFileAndSend(timer, "null", 4); return close_file_and_send(timer, "null", 4);
} }
int s2_set(THREADTIMER *timer) { int s2_set(THREADTIMER *timer) {
FILE *fp = NULL; FILE *fp = NULL;
if(!strcmp(timer->data, "ver")) { if(!strcmp(timer->data, "ver")) {
fp = openFile(kanban_path, LOCK_EX, "wb"); fp = open_file(kanban_path, LOCK_EX, "wb");
} else if(!strcmp(timer->data, "dat")) { } else if(!strcmp(timer->data, "dat")) {
fp = openFile(data_path, LOCK_EX, "wb"); fp = open_file(data_path, LOCK_EX, "wb");
} }
if(fp) { if(fp) {
timer->status = 3; timer->status = 3;
@@ -203,7 +204,7 @@ int s3_setData(THREADTIMER *timer) {
int is_first_data = 0; int is_first_data = 0;
if(timer->numbytes == sizeof(uint32_t)) { if(timer->numbytes == sizeof(uint32_t)) {
if((timer->numbytes = recv(timer->accept_fd, timer->data, BUFSIZ, 0)) <= 0) if((timer->numbytes = recv(timer->accept_fd, timer->data, BUFSIZ, 0)) <= 0)
return closeFileAndSend(timer, "erro", 4); return close_file_and_send(timer, "erro", 4);
else { else {
is_first_data = 1; is_first_data = 1;
printf("Get data size: %tu\n", timer->numbytes); printf("Get data size: %tu\n", timer->numbytes);
@@ -215,12 +216,12 @@ int s3_setData(THREADTIMER *timer) {
} }
if(fwrite(timer->data + (is_first_data?0:sizeof(uint32_t)), file_size, 1, timer->fp) != 1) { if(fwrite(timer->data + (is_first_data?0:sizeof(uint32_t)), file_size, 1, timer->fp) != 1) {
puts("Set data error."); puts("Set data error.");
return closeFileAndSend(timer, "erro", 4); return close_file_and_send(timer, "erro", 4);
} else return closeFileAndSend(timer, "succ", 4); } else return close_file_and_send(timer, "succ", 4);
} else { } else {
if(fwrite(timer->data + (is_first_data?0:sizeof(uint32_t)), timer->numbytes - (is_first_data?0:sizeof(uint32_t)), 1, timer->fp) != 1) { if(fwrite(timer->data + (is_first_data?0:sizeof(uint32_t)), timer->numbytes - (is_first_data?0:sizeof(uint32_t)), 1, timer->fp) != 1) {
puts("Set data error."); puts("Set data error.");
return closeFileAndSend(timer, "erro", 4); return close_file_and_send(timer, "erro", 4);
} }
int32_t remain = file_size - timer->numbytes; int32_t remain = file_size - timer->numbytes;
while(remain > 0) { while(remain > 0) {
@@ -228,22 +229,22 @@ int s3_setData(THREADTIMER *timer) {
timer->numbytes = recv(timer->accept_fd, timer->data, BUFSIZ, 0); timer->numbytes = recv(timer->accept_fd, timer->data, BUFSIZ, 0);
if(fwrite(timer->data, timer->numbytes, 1, timer->fp) != 1) { if(fwrite(timer->data, timer->numbytes, 1, timer->fp) != 1) {
puts("Set data error."); puts("Set data error.");
return closeFileAndSend(timer, "erro", 4); return close_file_and_send(timer, "erro", 4);
} }
remain -= timer->numbytes; remain -= timer->numbytes;
} }
return closeFileAndSend(timer, "succ", 4); return close_file_and_send(timer, "succ", 4);
} }
return closeFileAndSend(timer, "erro", 4); return close_file_and_send(timer, "erro", 4);
} }
off_t fileSize(const char* fname) { off_t size_of_file(const char* fname) {
struct stat statbuf; struct stat statbuf;
if(stat(fname, &statbuf)==0) return statbuf.st_size; if(stat(fname, &statbuf)==0) return statbuf.st_size;
else return -1; else return -1;
} }
int checkBuffer(THREADTIMER *timer) { int check_buffer(THREADTIMER *timer) {
printf("Status: %d\n", timer->status); printf("Status: %d\n", timer->status);
switch(timer->status) { switch(timer->status) {
case -1: return sm1_pwd(timer); break; case -1: return sm1_pwd(timer); break;
@@ -263,26 +264,40 @@ void handle_quit(int signo) {
#define timerPointerOf(x) ((THREADTIMER*)(x)) #define timerPointerOf(x) ((THREADTIMER*)(x))
#define touchTimer(x) timerPointerOf(x)->touch = time(NULL) #define touchTimer(x) timerPointerOf(x)->touch = time(NULL)
void acceptTimer(void *p) { void accept_timer(void *p) {
pthread_detach(pthread_self());
THREADTIMER *timer = timerPointerOf(p); THREADTIMER *timer = timerPointerOf(p);
signal(SIGQUIT, handle_pipe); signal(SIGQUIT, handle_pipe);
signal(SIGPIPE, handle_pipe); signal(SIGPIPE, handle_pipe);
while(*timer->thread && !pthread_kill(*timer->thread, 0)) { while(!pthread_kill(*timer->thread, 0)) {
sleep(MAXWAITSEC); sleep(MAXWAITSEC);
puts("Check accept status"); puts("Check accept status");
if(*timer->thread && time(NULL) - timer->touch > MAXWAITSEC) { if(!*timer->thread) {
free(timer);
break;
} else if(time(NULL) - timer->touch > MAXWAITSEC) {
kill_thread(timer); kill_thread(timer);
free(timer);
break;
} }
} }
free(p);
} }
void kill_thread(THREADTIMER* timer) { void kill_thread(THREADTIMER* timer) {
pthread_kill(*timer->thread, SIGQUIT); pthread_kill(*timer->thread, SIGQUIT);
close(timer->accept_fd); close(timer->accept_fd);
if(timer->data) free(timer->data); if(timer->data) {
if(timer->is_open) closeFile(timer->fp); free(timer->data);
timer->data = NULL;
puts("Free data.");
}
if(timer->is_open) {
close_file(timer->fp);
timer->is_open = 0;
puts("Close file.");
}
*timer->thread = 0; *timer->thread = 0;
puts("Kill thread.");
} }
void handle_pipe(int signo) { void handle_pipe(int signo) {
@@ -290,13 +305,14 @@ void handle_pipe(int signo) {
} }
void handle_accept(void *p) { void handle_accept(void *p) {
pthread_detach(pthread_self());
int accept_fd = timerPointerOf(p)->accept_fd; int accept_fd = timerPointerOf(p)->accept_fd;
if(accept_fd > 0) { if(accept_fd > 0) {
puts("Connected to the client."); puts("Connected to the client.");
signal(SIGQUIT, handle_quit); signal(SIGQUIT, handle_quit);
signal(SIGPIPE, handle_pipe); signal(SIGPIPE, handle_pipe);
pthread_t thread; pthread_t thread;
if (pthread_create(&thread, NULL, (void *)&acceptTimer, p)) puts("Error creating timer thread"); if (pthread_create(&thread, NULL, (void *)&accept_timer, p)) puts("Error creating timer thread");
else puts("Creating timer thread succeeded"); else puts("Creating timer thread succeeded");
send_data(accept_fd, "Welcome to simple kanban server.", 33); send_data(accept_fd, "Welcome to simple kanban server.", 33);
timerPointerOf(p)->status = -1; timerPointerOf(p)->status = -1;
@@ -308,7 +324,7 @@ void handle_accept(void *p) {
buff[timerPointerOf(p)->numbytes] = 0; buff[timerPointerOf(p)->numbytes] = 0;
printf("Get %zd bytes: %s\n", timerPointerOf(p)->numbytes, buff); printf("Get %zd bytes: %s\n", timerPointerOf(p)->numbytes, buff);
puts("Check buffer"); puts("Check buffer");
if(!checkBuffer(timerPointerOf(p))) break; if(!check_buffer(timerPointerOf(p))) break;
} }
printf("Break: recv %zd bytes\n", timerPointerOf(p)->numbytes); printf("Break: recv %zd bytes\n", timerPointerOf(p)->numbytes);
kill_thread(timerPointerOf(p)); kill_thread(timerPointerOf(p));
@@ -317,7 +333,7 @@ void handle_accept(void *p) {
} else puts("Error accepting client"); } else puts("Error accepting client");
} }
void acceptClient() { void accept_client() {
pid_t pid = fork(); pid_t pid = fork();
while (pid > 0) { //主进程监控子进程状态,如果子进程异常终止则重启之 while (pid > 0) { //主进程监控子进程状态,如果子进程异常终止则重启之
wait(NULL); wait(NULL);
@@ -328,8 +344,8 @@ void acceptClient() {
else while(1) { else while(1) {
puts("Ready for accept, waitting..."); puts("Ready for accept, waitting...");
int p = 0; int p = 0;
while(p < 8 && accept_threads[p] && !pthread_kill(accept_threads[p], 0)) p++; while(p < THREADCNT && accept_threads[p] && !pthread_kill(accept_threads[p], 0)) p++;
if(p < 8) { if(p < THREADCNT) {
printf("Run on thread No.%d\n", p); printf("Run on thread No.%d\n", p);
THREADTIMER *timer = malloc(sizeof(THREADTIMER)); THREADTIMER *timer = malloc(sizeof(THREADTIMER));
if(timer) { if(timer) {
@@ -350,7 +366,7 @@ void acceptClient() {
} }
} }
FILE *openFile(char* file_path, int lock_type, char* mode) { FILE *open_file(char* file_path, int lock_type, char* mode) {
FILE *fp = NULL; FILE *fp = NULL;
fp = fopen(file_path, mode); fp = fopen(file_path, mode);
if(fp) { if(fp) {
@@ -363,13 +379,13 @@ FILE *openFile(char* file_path, int lock_type, char* mode) {
return fp; return fp;
} }
int closeFileAndSend(THREADTIMER *timer, char *data, size_t numbytes) { int close_file_and_send(THREADTIMER *timer, char *data, size_t numbytes) {
closeFile(timer->fp); close_file(timer->fp);
timer->is_open = 0; timer->is_open = 0;
return send_data(timer->accept_fd, data, numbytes); return send_data(timer->accept_fd, data, numbytes);
} }
void closeFile(FILE *fp) { void close_file(FILE *fp) {
puts("Close dict"); puts("Close dict");
if(fp) { if(fp) {
flock(fileno(fp), LOCK_UN); flock(fileno(fp), LOCK_UN);
@@ -402,7 +418,7 @@ int main(int argc, char *argv[]) {
fclose(fp); fclose(fp);
signal(SIGQUIT, handle_pipe); signal(SIGQUIT, handle_pipe);
signal(SIGPIPE, handle_pipe); signal(SIGPIPE, handle_pipe);
if(bindServer(port, times)) if(listenSocket(times)) acceptClient(); if(bind_server(port, times)) if(listen_socket(times)) accept_client();
} }
} else printf("Error opening kanban file: %s\n", argv[as_daemon?4:3]); } else printf("Error opening kanban file: %s\n", argv[as_daemon?4:3]);
} else puts("Start daemon error"); } else puts("Start daemon error");