#include #include #include #include #include #include #include #include #include #include #define LENGTH(X) (sizeof(X) / sizeof (X[0])) #define CMDLENGTH 50 typedef struct { char* icon; char* command; unsigned int interval; unsigned int signal; } Block; void sighandler(); void buttonhandler(int ssi_int); void replace(char *str, char old, char new); void remove_all(char *str, char to_remove); void getcmds(int time); void getsigcmds(int signal); void setupsignals(); int getstatus(char *str, char *last); void setroot(); void statusloop(); void termhandler(int signum); #include "config.h" static Display *dpy; static int screen; static Window root; static char statusbar[LENGTH(blocks)][CMDLENGTH] = {0}; static char statusstr[2][256]; static int statusContinue = 1; static int signalFD; static int timerInterval = -1; static void (*writestatus) () = setroot; void replace(char *str, char old, char new) { for(char * c = str; *c; c++) if(*c == old) *c = new; } // the previous function looked nice but unfortunately it didnt work if to_remove was in any position other than the last character // theres probably still a better way of doing this void remove_all(char *str, char to_remove) { char *read = str; char *write = str; while (*read) { if (*read != to_remove) { *write++ = *read; } ++read; } *write = '\0'; } int gcd(int a, int b) { int temp; while (b > 0){ temp = a % b; a = b; b = temp; } return a; } //opens process *cmd and stores output in *output void getcmd(const Block *block, char *output) { if (block->signal) { output[0] = block->signal; output++; } char *cmd = block->command; FILE *cmdf = popen(cmd,"r"); if (!cmdf){ //printf("failed to run: %s, %d\n", block->command, errno); return; } char tmpstr[CMDLENGTH] = ""; // TODO decide whether its better to use the last value till next time or just keep trying while the error was the interrupt // this keeps trying to read if it got nothing and the error was an interrupt // could also just read to a separate buffer and not move the data over if interrupted // this way will take longer trying to complete 1 thing but will get it done // the other way will move on to keep going with everything and the part that failed to read will be wrong till its updated again // either way you have to save the data to a temp buffer because when it fails it writes nothing and then then it gets displayed before this finishes char * s; int e; do { errno = 0; s = fgets(tmpstr, CMDLENGTH-(strlen(delim)+1), cmdf); e = errno; } while (!s && e == EINTR); pclose(cmdf); int i = strlen(block->icon); strcpy(output, block->icon); strcpy(output+i, tmpstr); remove_all(output, '\n'); i = strlen(output); if ((i > 0 && block != &blocks[LENGTH(blocks) - 1])){ strcat(output, delim); } i+=strlen(delim); output[i++] = '\0'; } void getcmds(int time) { const Block* current; for(int i = 0; i < LENGTH(blocks); i++) { current = blocks + i; if ((current->interval != 0 && time % current->interval == 0) || time == -1){ getcmd(current,statusbar[i]); } } } void getsigcmds(int signal) { const Block *current; for (int i = 0; i < LENGTH(blocks); i++) { current = blocks + i; if (current->signal == signal){ getcmd(current,statusbar[i]); } } } void setupsignals() { sigset_t signals; sigemptyset(&signals); sigaddset(&signals, SIGALRM); // Timer events sigaddset(&signals, SIGUSR1); // Button events // All signals assigned to blocks for (size_t i = 0; i < LENGTH(blocks); i++) if (blocks[i].signal > 0) sigaddset(&signals, SIGRTMIN + blocks[i].signal); // Create signal file descriptor for pooling signalFD = signalfd(-1, &signals, 0); // Block all real-time signals for (int i = SIGRTMIN; i <= SIGRTMAX; i++) sigaddset(&signals, i); sigprocmask(SIG_BLOCK, &signals, NULL); // Do not transform children into zombies struct sigaction sigchld_action = { .sa_handler = SIG_DFL, .sa_flags = SA_NOCLDWAIT }; sigaction(SIGCHLD, &sigchld_action, NULL); } int getstatus(char *str, char *last) { strcpy(last, str); str[0] = '\0'; for(int i = 0; i < LENGTH(blocks); i++) { strcat(str, statusbar[i]); if (i == LENGTH(blocks) - 1) strcat(str, " "); } str[strlen(str)-1] = '\0'; return strcmp(str, last);//0 if they are the same } void setroot() { if (!getstatus(statusstr[0], statusstr[1]))//Only set root if text has changed. return; Display *d = XOpenDisplay(NULL); if (d) { dpy = d; } screen = DefaultScreen(dpy); root = RootWindow(dpy, screen); XStoreName(dpy, root, statusstr[0]); XCloseDisplay(dpy); } void pstdout() { if (!getstatus(statusstr[0], statusstr[1]))//Only write out if text has changed. return; printf("%s\n",statusstr[0]); fflush(stdout); } void statusloop() { setupsignals(); // first figure out the default wait interval by finding the // greatest common denominator of the intervals for(int i = 0; i < LENGTH(blocks); i++){ if(blocks[i].interval){ timerInterval = gcd(blocks[i].interval, timerInterval); } } getcmds(-1); // Fist time run all commands raise(SIGALRM); // Schedule first timer event int ret; struct pollfd pfd[] = {{.fd = signalFD, .events = POLLIN}}; while (statusContinue) { // Wait for new signal ret = poll(pfd, sizeof(pfd) / sizeof(pfd[0]), -1); if (ret < 0 || !(pfd[0].revents & POLLIN)) break; sighandler(); // Handle signal } } void sighandler() { static int time = 0; struct signalfd_siginfo si; int ret = read(signalFD, &si, sizeof(si)); if (ret < 0) return; int signal = si.ssi_signo; switch (signal) { case SIGALRM: // Execute blocks and schedule the next timer event getcmds(time); alarm(timerInterval); time += timerInterval; break; case SIGUSR1: // Handle buttons buttonhandler(si.ssi_int); return; default: // Execute the block that has the given signal getsigcmds(signal - SIGRTMIN); break; } writestatus(); } void buttonhandler(int ssi_int) { char button[2] = {'0' + ssi_int & 0xff, '\0'}; pid_t process_id = getpid(); int sig = ssi_int >> 8; if (fork() == 0) { const Block *current; for (int i = 0; i < LENGTH(blocks); i++) { current = blocks + i; if (current->signal == sig) break; } char shcmd[1024]; sprintf(shcmd,"%s && kill -%d %d",current->command, current->signal+34,process_id); char *command[] = { "/bin/sh", "-c", shcmd, NULL }; setenv("BLOCK_BUTTON", button, 1); setsid(); execvp(command[0], command); exit(EXIT_SUCCESS); } } void termhandler(int signum) { statusContinue = 0; } int main(int argc, char** argv) { for(int i = 0; i < argc; i++) { if (!strcmp("-d",argv[i])) delim = argv[++i]; else if(!strcmp("-p",argv[i])) writestatus = pstdout; } signal(SIGTERM, termhandler); signal(SIGINT, termhandler); statusloop(); close(signalFD); }