/** \file input_common.c Implementation file for the low level input library */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_SYS_SELECT_H #include #endif #include "fallback.h" #include "util.h" #include "common.h" #include "wutil.h" #include "input_common.h" #include "env_universal.h" #include "iothread.h" /** Time in milliseconds to wait for another byte to be available for reading after \\x1b is read before assuming that escape key was pressed, and not an escape sequence. */ #define WAIT_ON_ESCAPE 10 /** Characters that have been read and returned by the sequence matching code */ static std::stack > lookahead_list; /* Queue of pairs of (function pointer, argument) to be invoked */ typedef std::pair callback_info_t; typedef std::queue > callback_queue_t; static callback_queue_t callback_queue; static void input_flush_callbacks(void); static bool has_lookahead(void) { return ! lookahead_list.empty(); } static wint_t lookahead_pop(void) { wint_t result = lookahead_list.top(); lookahead_list.pop(); return result; } static void lookahead_push(wint_t c) { lookahead_list.push(c); } static wint_t lookahead_top(void) { return lookahead_list.top(); } /** Callback function for handling interrupts on reading */ static int (*interrupt_handler)(); void input_common_init(int (*ih)()) { interrupt_handler = ih; } void input_common_destroy() { } /** Internal function used by input_common_readch to read one byte from fd 1. This function should only be called by input_common_readch(). */ static wint_t readb() { /* do_loop must be set on every path through the loop; leaving it uninitialized allows the static analyzer to assist in catching mistakes. */ unsigned char arr[1]; bool do_loop; do { /* Flush callbacks */ input_flush_callbacks(); fd_set fdset; int fd_max=0; int ioport = iothread_port(); int res; FD_ZERO(&fdset); FD_SET(0, &fdset); if (env_universal_server.fd > 0) { FD_SET(env_universal_server.fd, &fdset); if (fd_max < env_universal_server.fd) fd_max = env_universal_server.fd; } if (ioport > 0) { FD_SET(ioport, &fdset); if (fd_max < ioport) fd_max = ioport; } res = select(fd_max + 1, &fdset, 0, 0, 0); if (res==-1) { switch (errno) { case EINTR: case EAGAIN: { if (interrupt_handler) { int res = interrupt_handler(); if (res) { return res; } if (has_lookahead()) { return lookahead_pop(); } } do_loop = true; break; } default: { /* The terminal has been closed. Save and exit. */ return R_EOF; } } } else { /* Assume we loop unless we see a character in stdin */ do_loop = true; if (env_universal_server.fd > 0 && FD_ISSET(env_universal_server.fd, &fdset)) { debug(3, L"Wake up on universal variable event"); env_universal_read_all(); if (has_lookahead()) { return lookahead_pop(); } } if (ioport > 0 && FD_ISSET(ioport, &fdset)) { iothread_service_completion(); if (has_lookahead()) { return lookahead_pop(); } } if (FD_ISSET(STDIN_FILENO, &fdset)) { if (read_blocked(0, arr, 1) != 1) { /* The teminal has been closed. Save and exit. */ return R_EOF; } /* We read from stdin, so don't loop */ do_loop = false; } } } while (do_loop); return arr[0]; } wchar_t input_common_readch(int timed) { if (! has_lookahead()) { if (timed) { int count; fd_set fds; struct timeval tm= { 0, 1000 * WAIT_ON_ESCAPE } ; FD_ZERO(&fds); FD_SET(0, &fds); count = select(1, &fds, 0, 0, &tm); switch (count) { case 0: return WEOF; case -1: return WEOF; break; default: break; } } wchar_t res; static mbstate_t state; while (1) { wint_t b = readb(); char bb; size_t sz; if ((b >= R_NULL) && (b < R_NULL + 1000)) return b; bb=b; sz = mbrtowc(&res, &bb, 1, &state); switch (sz) { case (size_t)(-1): memset(&state, '\0', sizeof(state)); debug(2, L"Illegal input"); return R_NULL; case (size_t)(-2): break; case 0: return 0; default: return res; } } } else { if (!timed) { while (has_lookahead() && lookahead_top() == WEOF) lookahead_pop(); if (! has_lookahead()) return input_common_readch(0); } return lookahead_pop(); } } void input_common_unreadch(wint_t ch) { lookahead_push(ch); } void input_common_add_callback(void (*callback)(void *), void *arg) { ASSERT_IS_MAIN_THREAD(); callback_queue.push(callback_info_t(callback, arg)); } static void input_flush_callbacks(void) { /* Nothing to do if nothing to do */ if (callback_queue.empty()) return; /* We move the queue into a local variable, so that events queued up during a callback don't get fired until next round. */ callback_queue_t local_queue; std::swap(local_queue, callback_queue); while (! local_queue.empty()) { const callback_info_t &callback = local_queue.front(); callback.first(callback.second); //cute local_queue.pop(); } }