#include "iolooper.h" #include "qemu-common.h" /* An implementation of iolooper.h based on Unix select() */ #ifdef _WIN32 # include #else # include # include #endif #include "sockets.h" struct IoLooper { fd_set reads[1]; fd_set writes[1]; fd_set reads_result[1]; fd_set writes_result[1]; int max_fd; int max_fd_valid; }; IoLooper* iolooper_new(void) { IoLooper* iol = malloc(sizeof(*iol)); iolooper_reset(iol); return iol; } void iolooper_free( IoLooper* iol ) { free(iol); } void iolooper_reset( IoLooper* iol ) { FD_ZERO(iol->reads); FD_ZERO(iol->writes); iol->max_fd = -1; iol->max_fd_valid = 1; } static void iolooper_add_fd( IoLooper* iol, int fd ) { if (iol->max_fd_valid && fd > iol->max_fd) { iol->max_fd = fd; } } static void iolooper_del_fd( IoLooper* iol, int fd ) { if (iol->max_fd_valid && fd == iol->max_fd) iol->max_fd_valid = 0; } void iolooper_modify( IoLooper* iol, int fd, int oldflags, int newflags ) { if (fd < 0) return; int changed = oldflags ^ newflags; if ((changed & IOLOOPER_READ) != 0) { if ((newflags & IOLOOPER_READ) != 0) iolooper_add_read(iol, fd); else iolooper_del_read(iol, fd); } if ((changed & IOLOOPER_WRITE) != 0) { if ((newflags & IOLOOPER_WRITE) != 0) iolooper_add_write(iol, fd); else iolooper_del_write(iol, fd); } } static int iolooper_fd_count( IoLooper* iol ) { int max_fd = iol->max_fd; int fd; if (iol->max_fd_valid) return max_fd + 1; /* recompute max fd */ for (fd = 0; fd < FD_SETSIZE; fd++) { if (!FD_ISSET(fd, iol->reads) && !FD_ISSET(fd, iol->writes)) continue; max_fd = fd; } iol->max_fd = max_fd; iol->max_fd_valid = 1; return max_fd + 1; } void iolooper_add_read( IoLooper* iol, int fd ) { if (fd >= 0) { iolooper_add_fd(iol, fd); FD_SET(fd, iol->reads); } } void iolooper_add_write( IoLooper* iol, int fd ) { if (fd >= 0) { iolooper_add_fd(iol, fd); FD_SET(fd, iol->writes); } } void iolooper_del_read( IoLooper* iol, int fd ) { if (fd >= 0) { iolooper_del_fd(iol, fd); FD_CLR(fd, iol->reads); } } void iolooper_del_write( IoLooper* iol, int fd ) { if (fd >= 0) { iolooper_del_fd(iol, fd); FD_CLR(fd, iol->writes); } } int iolooper_poll( IoLooper* iol ) { int count = iolooper_fd_count(iol); int ret; fd_set errs; if (count == 0) return 0; FD_ZERO(&errs); do { struct timeval tv; tv.tv_sec = tv.tv_usec = 0; iol->reads_result[0] = iol->reads[0]; iol->writes_result[0] = iol->writes[0]; ret = select( count, iol->reads_result, iol->writes_result, &errs, &tv); } while (ret < 0 && errno == EINTR); return ret; } int iolooper_wait( IoLooper* iol, int64_t duration ) { int count = iolooper_fd_count(iol); int ret; fd_set errs; struct timeval tm0, *tm = NULL; if (count == 0) return 0; CLAMP_MAC_TIMEOUT(duration); if (duration < 0) tm = NULL; else { tm = &tm0; tm->tv_sec = duration / 1000; tm->tv_usec = (duration - 1000*tm->tv_sec) * 1000; } FD_ZERO(&errs); do { iol->reads_result[0] = iol->reads[0]; iol->writes_result[0] = iol->writes[0]; ret = select( count, iol->reads_result, iol->writes_result, &errs, tm); if (ret == 0) { // Indicates timeout errno = ETIMEDOUT; } } while (ret < 0 && errno == EINTR); return ret; } int iolooper_is_read( IoLooper* iol, int fd ) { return FD_ISSET(fd, iol->reads_result); } int iolooper_is_write( IoLooper* iol, int fd ) { return FD_ISSET(fd, iol->writes_result); } int iolooper_has_operations( IoLooper* iol ) { return iolooper_fd_count(iol) > 0; } int64_t iolooper_now(void) { struct timeval time_now; return gettimeofday(&time_now, NULL) ? -1 : (int64_t)time_now.tv_sec * 1000LL + time_now.tv_usec / 1000; } int iolooper_wait_absolute(IoLooper* iol, int64_t deadline) { int64_t timeout = deadline - iolooper_now(); /* If the deadline has passed, set the timeout to 0, this allows us * to poll the file descriptor nonetheless */ if (timeout < 0) timeout = 0; return iolooper_wait(iol, timeout); }