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f33a4d2fd9
mpv/osdep/terminal-unix.c
llyyr f33a4d2fd9 terminal-unix: don't set SA_RESETHAND for SIGTERM/SIGQUIT 
This can cause mpv to abruptly quit without following the proper uninit
process when a second `SIGTERM` or `SIGQUIT` is sent and mpv
didn't quit on the first one already. This is because the default action
for these signals is to terminate the program immediately, similar to
`SIGKILL`, and `SA_RESETHAND` resets the `quit_request_sighandler` to
`SIG_DFL` for the default action.

Also keep the `SA_RESETHAND` flag for SIGINT because the current
behavior is to quit after receiving two Ctrl+C no matter what, this is
probably convenient and worth keeping.

This change is because some tools (e.g. GNU timeout) send SIGTERM twice
after the timeout period.

An easy way to reproduce is with `timeout 1 mpv [...]` where mpv would
quit abruptly anywhere from half the time to once every 50 attempts
depending on your luck.
2024-01-14 23:10:50 +01:00

576 lines
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/*
* Based on GyS-TermIO v2.0 (for GySmail v3) (copyright (C) 1999 A'rpi/ESP-team)
*
* This file is part of mpv.
*
* mpv is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* mpv is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with mpv. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <signal.h>
#include <errno.h>
#include <sys/ioctl.h>
#include <assert.h>
#include <termios.h>
#include <unistd.h>
#include "osdep/io.h"
#include "osdep/threads.h"
#include "osdep/poll_wrapper.h"
#include "common/common.h"
#include "misc/bstr.h"
#include "input/input.h"
#include "input/keycodes.h"
#include "misc/ctype.h"
#include "terminal.h"
// Timeout in ms after which the (normally ambiguous) ESC key is detected.
#define ESC_TIMEOUT 100
// Timeout in ms after which the poll for input is aborted. The FG/BG state is
// tested before every wait, and a positive value allows reactivating input
// processing when mpv is brought to the foreground while it was running in the
// background. In such a situation, an infinite timeout (-1) will keep mpv
// waiting for input without realizing the terminal state changed - and thus
// buffer all keypresses until ENTER is pressed.
#define INPUT_TIMEOUT 1000
static struct termios tio_orig;
static int tty_in = -1, tty_out = -1;
struct key_entry {
const char *seq;
int mpkey;
// If this is not NULL, then if seq is matched as unique prefix, the
// existing sequence is replaced by the following string. Matching
// continues normally, and mpkey is or-ed into the final result.
const char *replace;
};
static const struct key_entry keys[] = {
{"\010", MP_KEY_BS},
{"\011", MP_KEY_TAB},
{"\012", MP_KEY_ENTER},
{"\177", MP_KEY_BS},
{"\033[1~", MP_KEY_HOME},
{"\033[2~", MP_KEY_INS},
{"\033[3~", MP_KEY_DEL},
{"\033[4~", MP_KEY_END},
{"\033[5~", MP_KEY_PGUP},
{"\033[6~", MP_KEY_PGDWN},
{"\033[7~", MP_KEY_HOME},
{"\033[8~", MP_KEY_END},
{"\033[11~", MP_KEY_F+1},
{"\033[12~", MP_KEY_F+2},
{"\033[13~", MP_KEY_F+3},
{"\033[14~", MP_KEY_F+4},
{"\033[15~", MP_KEY_F+5},
{"\033[17~", MP_KEY_F+6},
{"\033[18~", MP_KEY_F+7},
{"\033[19~", MP_KEY_F+8},
{"\033[20~", MP_KEY_F+9},
{"\033[21~", MP_KEY_F+10},
{"\033[23~", MP_KEY_F+11},
{"\033[24~", MP_KEY_F+12},
{"\033OA", MP_KEY_UP},
{"\033OB", MP_KEY_DOWN},
{"\033OC", MP_KEY_RIGHT},
{"\033OD", MP_KEY_LEFT},
{"\033[A", MP_KEY_UP},
{"\033[B", MP_KEY_DOWN},
{"\033[C", MP_KEY_RIGHT},
{"\033[D", MP_KEY_LEFT},
{"\033[E", MP_KEY_KP5},
{"\033[F", MP_KEY_END},
{"\033[H", MP_KEY_HOME},
{"\033[[A", MP_KEY_F+1},
{"\033[[B", MP_KEY_F+2},
{"\033[[C", MP_KEY_F+3},
{"\033[[D", MP_KEY_F+4},
{"\033[[E", MP_KEY_F+5},
{"\033OE", MP_KEY_KP5}, // mintty?
{"\033OM", MP_KEY_KPENTER},
{"\033OP", MP_KEY_F+1},
{"\033OQ", MP_KEY_F+2},
{"\033OR", MP_KEY_F+3},
{"\033OS", MP_KEY_F+4},
{"\033Oa", MP_KEY_UP | MP_KEY_MODIFIER_CTRL}, // urxvt
{"\033Ob", MP_KEY_DOWN | MP_KEY_MODIFIER_CTRL},
{"\033Oc", MP_KEY_RIGHT | MP_KEY_MODIFIER_CTRL},
{"\033Od", MP_KEY_LEFT | MP_KEY_MODIFIER_CTRL},
{"\033Oj", '*'}, // also keypad, but we don't have separate codes for them
{"\033Ok", '+'},
{"\033Om", '-'},
{"\033On", MP_KEY_KPDEC},
{"\033Oo", '/'},
{"\033Op", MP_KEY_KP0},
{"\033Oq", MP_KEY_KP1},
{"\033Or", MP_KEY_KP2},
{"\033Os", MP_KEY_KP3},
{"\033Ot", MP_KEY_KP4},
{"\033Ou", MP_KEY_KP5},
{"\033Ov", MP_KEY_KP6},
{"\033Ow", MP_KEY_KP7},
{"\033Ox", MP_KEY_KP8},
{"\033Oy", MP_KEY_KP9},
{"\033[a", MP_KEY_UP | MP_KEY_MODIFIER_SHIFT}, // urxvt
{"\033[b", MP_KEY_DOWN | MP_KEY_MODIFIER_SHIFT},
{"\033[c", MP_KEY_RIGHT | MP_KEY_MODIFIER_SHIFT},
{"\033[d", MP_KEY_LEFT | MP_KEY_MODIFIER_SHIFT},
{"\033[2^", MP_KEY_INS | MP_KEY_MODIFIER_CTRL},
{"\033[3^", MP_KEY_DEL | MP_KEY_MODIFIER_CTRL},
{"\033[5^", MP_KEY_PGUP | MP_KEY_MODIFIER_CTRL},
{"\033[6^", MP_KEY_PGDWN | MP_KEY_MODIFIER_CTRL},
{"\033[7^", MP_KEY_HOME | MP_KEY_MODIFIER_CTRL},
{"\033[8^", MP_KEY_END | MP_KEY_MODIFIER_CTRL},
{"\033[1;2", MP_KEY_MODIFIER_SHIFT, .replace = "\033["}, // xterm
{"\033[1;3", MP_KEY_MODIFIER_ALT, .replace = "\033["},
{"\033[1;5", MP_KEY_MODIFIER_CTRL, .replace = "\033["},
{"\033[1;4", MP_KEY_MODIFIER_ALT | MP_KEY_MODIFIER_SHIFT, .replace = "\033["},
{"\033[1;6", MP_KEY_MODIFIER_CTRL | MP_KEY_MODIFIER_SHIFT, .replace = "\033["},
{"\033[1;7", MP_KEY_MODIFIER_CTRL | MP_KEY_MODIFIER_ALT, .replace = "\033["},
{"\033[1;8",
MP_KEY_MODIFIER_CTRL | MP_KEY_MODIFIER_ALT | MP_KEY_MODIFIER_SHIFT,
.replace = "\033["},
{"\033[29~", MP_KEY_MENU},
{"\033[Z", MP_KEY_TAB | MP_KEY_MODIFIER_SHIFT},
{0}
};
#define BUF_LEN 256
struct termbuf {
unsigned char b[BUF_LEN];
int len;
int mods;
};
static void skip_buf(struct termbuf *b, unsigned int count)
{
assert(count <= b->len);
memmove(&b->b[0], &b->b[count], b->len - count);
b->len -= count;
b->mods = 0;
}
static struct termbuf buf;
static void process_input(struct input_ctx *input_ctx, bool timeout)
{
while (buf.len) {
// Lone ESC is ambiguous, so accept it only after a timeout.
if (timeout &&
((buf.len == 1 && buf.b[0] == '\033') ||
(buf.len > 1 && buf.b[0] == '\033' && buf.b[1] == '\033')))
{
mp_input_put_key(input_ctx, MP_KEY_ESC);
skip_buf(&buf, 1);
}
int utf8_len = bstr_parse_utf8_code_length(buf.b[0]);
if (utf8_len > 1) {
if (buf.len < utf8_len)
goto read_more;
mp_input_put_key_utf8(input_ctx, buf.mods, (bstr){buf.b, utf8_len});
skip_buf(&buf, utf8_len);
continue;
}
const struct key_entry *match = NULL; // may be a partial match
for (int n = 0; keys[n].seq; n++) {
const struct key_entry *e = &keys[n];
if (memcmp(e->seq, buf.b, MPMIN(buf.len, strlen(e->seq))) == 0) {
if (match)
goto read_more; /* need more bytes to disambiguate */
match = e;
}
}
if (!match) { // normal or unknown key
int mods = 0;
if (buf.b[0] == '\033') {
if (buf.len > 1 && buf.b[1] == '[') {
// unknown CSI sequence. wait till it completes
for (int i = 2; i < buf.len; i++) {
if (buf.b[i] >= 0x40 && buf.b[i] <= 0x7E) {
skip_buf(&buf, i+1);
continue; // complete - throw it away
}
}
goto read_more; // not yet complete
}
// non-CSI esc sequence
skip_buf(&buf, 1);
if (buf.len > 0 && buf.b[0] > 0 && buf.b[0] < 127) {
// meta+normal key
mods |= MP_KEY_MODIFIER_ALT;
} else {
// Throw it away. Typically, this will be a complete,
// unsupported sequence, and dropping this will skip it.
skip_buf(&buf, buf.len);
continue;
}
}
unsigned char c = buf.b[0];
skip_buf(&buf, 1);
if (c < 32) {
// 1..26 is ^A..^Z, and 27..31 is ^3..^7
c = c <= 26 ? (c + 'a' - 1) : (c + '3' - 27);
mods |= MP_KEY_MODIFIER_CTRL;
}
mp_input_put_key(input_ctx, c | mods);
continue;
}
int seq_len = strlen(match->seq);
if (seq_len > buf.len)
goto read_more; /* partial match */
if (match->replace) {
int rep = strlen(match->replace);
assert(rep <= seq_len);
memcpy(buf.b, match->replace, rep);
memmove(buf.b + rep, buf.b + seq_len, buf.len - seq_len);
buf.len = rep + buf.len - seq_len;
buf.mods |= match->mpkey;
continue;
}
mp_input_put_key(input_ctx, buf.mods | match->mpkey);
skip_buf(&buf, seq_len);
}
read_more: ; /* need more bytes */
}
static int getch2_active = 0;
static int getch2_enabled = 0;
static bool read_terminal;
static void enable_kx(bool enable)
{
// This check is actually always true, as enable_kx calls are all guarded
// by read_terminal, which is true only if both stdin and stdout are a
// tty. Note that stderr being redirected away has no influence over mpv's
// I/O handling except for disabling the terminal OSD, and thus stderr
// shouldn't be relied on here either.
if (isatty(tty_out)) {
char *cmd = enable ? "\033=" : "\033>";
(void)write(tty_out, cmd, strlen(cmd));
}
}
static void do_activate_getch2(void)
{
if (getch2_active || !read_terminal)
return;
enable_kx(true);
struct termios tio_new;
tcgetattr(tty_in,&tio_new);
tio_new.c_lflag &= ~(ICANON|ECHO); /* Clear ICANON and ECHO. */
tio_new.c_cc[VMIN] = 1;
tio_new.c_cc[VTIME] = 0;
tcsetattr(tty_in,TCSANOW,&tio_new);
getch2_active = 1;
}
static void do_deactivate_getch2(void)
{
if (!getch2_active)
return;
enable_kx(false);
tcsetattr(tty_in, TCSANOW, &tio_orig);
getch2_active = 0;
}
// sigaction wrapper
static int setsigaction(int signo, void (*handler) (int),
int flags, bool do_mask)
{
struct sigaction sa;
sa.sa_handler = handler;
if(do_mask)
sigfillset(&sa.sa_mask);
else
sigemptyset(&sa.sa_mask);
sa.sa_flags = flags | SA_RESTART;
return sigaction(signo, &sa, NULL);
}
static void getch2_poll(void)
{
if (!getch2_enabled)
return;
// check if stdin is in the foreground process group
int newstatus = (tcgetpgrp(tty_in) == getpgrp());
// and activate getch2 if it is, deactivate otherwise
if (newstatus)
do_activate_getch2();
else
do_deactivate_getch2();
}
static mp_thread input_thread;
static struct input_ctx *input_ctx;
static int death_pipe[2] = {-1, -1};
enum { PIPE_STOP, PIPE_CONT };
static int stop_cont_pipe[2] = {-1, -1};
static void stop_sighandler(int signum)
{
int saved_errno = errno;
(void)write(stop_cont_pipe[1], &(char){PIPE_STOP}, 1);
(void)write(STDERR_FILENO, TERM_ESC_RESTORE_CURSOR,
sizeof(TERM_ESC_RESTORE_CURSOR) - 1);
errno = saved_errno;
// note: for this signal, we use SA_RESETHAND but do NOT mask signals
// so this will invoke the default handler
raise(SIGTSTP);
}
static void continue_sighandler(int signum)
{
int saved_errno = errno;
// SA_RESETHAND has reset SIGTSTP, so we need to restore it here
setsigaction(SIGTSTP, stop_sighandler, SA_RESETHAND, false);
(void)write(stop_cont_pipe[1], &(char){PIPE_CONT}, 1);
errno = saved_errno;
}
static void safe_close(int *p)
{
if (*p >= 0)
close(*p);
*p = -1;
}
static void close_sig_pipes(void)
{
for (int n = 0; n < 2; n++) {
safe_close(&death_pipe[n]);
safe_close(&stop_cont_pipe[n]);
}
}
static void close_tty(void)
{
if (tty_in >= 0 && tty_in != STDIN_FILENO)
close(tty_in);
tty_in = tty_out = -1;
}
static void quit_request_sighandler(int signum)
{
int saved_errno = errno;
(void)write(death_pipe[1], &(char){1}, 1);
errno = saved_errno;
}
static MP_THREAD_VOID terminal_thread(void *ptr)
{
mp_thread_set_name("terminal/input");
bool stdin_ok = read_terminal; // if false, we still wait for SIGTERM
while (1) {
getch2_poll();
struct pollfd fds[3] = {
{ .events = POLLIN, .fd = death_pipe[0] },
{ .events = POLLIN, .fd = stop_cont_pipe[0] },
{ .events = POLLIN, .fd = tty_in }
};
/*
* if the process isn't in foreground process group, then on macos
* polldev() doesn't rest and gets into 100% cpu usage (see issue #11795)
* with read() returning EIO. but we shouldn't quit on EIO either since
* the process might be foregrounded later.
*
* so just avoid poll-ing tty_in when we know the process is not in the
* foreground. there's a small race window, but the timeout will take
* care of it so it's fine.
*/
bool is_fg = tcgetpgrp(tty_in) == getpgrp();
int r = polldev(fds, stdin_ok && is_fg ? 3 : 2, buf.len ? ESC_TIMEOUT : INPUT_TIMEOUT);
if (fds[0].revents) {
do_deactivate_getch2();
break;
}
if (fds[1].revents & POLLIN) {
int8_t c = -1;
(void)read(stop_cont_pipe[0], &c, 1);
if (c == PIPE_STOP)
do_deactivate_getch2();
else if (c == PIPE_CONT)
getch2_poll();
}
if (fds[2].revents) {
int retval = read(tty_in, &buf.b[buf.len], BUF_LEN - buf.len);
if (!retval || (retval == -1 && errno != EINTR && errno != EAGAIN && errno != EIO))
break; // EOF/closed
if (retval > 0) {
buf.len += retval;
process_input(input_ctx, false);
}
}
if (r == 0)
process_input(input_ctx, true);
}
char c;
bool quit = read(death_pipe[0], &c, 1) == 1 && c == 1;
// Important if we received SIGTERM, rather than regular quit.
if (quit) {
struct mp_cmd *cmd = mp_input_parse_cmd(input_ctx, bstr0("quit 4"), "");
if (cmd)
mp_input_queue_cmd(input_ctx, cmd);
}
MP_THREAD_RETURN();
}
void terminal_setup_getch(struct input_ctx *ictx)
{
if (!getch2_enabled || input_ctx)
return;
if (mp_make_wakeup_pipe(death_pipe) < 0)
return;
if (mp_make_wakeup_pipe(stop_cont_pipe) < 0) {
close_sig_pipes();
return;
}
// Disable reading from the terminal even if stdout is not a tty, to make
// mpv ... | less
// do the right thing.
read_terminal = isatty(tty_in) && isatty(STDOUT_FILENO);
input_ctx = ictx;
if (mp_thread_create(&input_thread, terminal_thread, NULL)) {
input_ctx = NULL;
close_sig_pipes();
close_tty();
return;
}
setsigaction(SIGINT, quit_request_sighandler, SA_RESETHAND, false);
setsigaction(SIGQUIT, quit_request_sighandler, 0, true);
setsigaction(SIGTERM, quit_request_sighandler, 0, true);
}
void terminal_uninit(void)
{
if (!getch2_enabled)
return;
// restore signals
setsigaction(SIGCONT, SIG_DFL, 0, false);
setsigaction(SIGTSTP, SIG_DFL, 0, false);
setsigaction(SIGINT, SIG_DFL, 0, false);
setsigaction(SIGQUIT, SIG_DFL, 0, false);
setsigaction(SIGTERM, SIG_DFL, 0, false);
setsigaction(SIGTTIN, SIG_DFL, 0, false);
setsigaction(SIGTTOU, SIG_DFL, 0, false);
if (input_ctx) {
(void)write(death_pipe[1], &(char){0}, 1);
mp_thread_join(input_thread);
close_sig_pipes();
input_ctx = NULL;
}
do_deactivate_getch2();
close_tty();
getch2_enabled = 0;
read_terminal = false;
}
bool terminal_in_background(void)
{
return read_terminal && tcgetpgrp(STDERR_FILENO) != getpgrp();
}
void terminal_get_size(int *w, int *h)
{
struct winsize ws;
if (ioctl(tty_in, TIOCGWINSZ, &ws) < 0 || !ws.ws_row || !ws.ws_col)
return;
*w = ws.ws_col;
*h = ws.ws_row;
}
void terminal_get_size2(int *rows, int *cols, int *px_width, int *px_height)
{
struct winsize ws;
if (ioctl(tty_in, TIOCGWINSZ, &ws) < 0 || !ws.ws_row || !ws.ws_col
|| !ws.ws_xpixel || !ws.ws_ypixel)
return;
*rows = ws.ws_row;
*cols = ws.ws_col;
*px_width = ws.ws_xpixel;
*px_height = ws.ws_ypixel;
}
void terminal_init(void)
{
assert(!getch2_enabled);
getch2_enabled = 1;
tty_in = tty_out = open("/dev/tty", O_RDWR | O_CLOEXEC);
if (tty_in < 0) {
tty_in = STDIN_FILENO;
tty_out = STDOUT_FILENO;
}
tcgetattr(tty_in, &tio_orig);
// handlers to fix terminal settings
setsigaction(SIGCONT, continue_sighandler, 0, true);
setsigaction(SIGTSTP, stop_sighandler, SA_RESETHAND, false);
setsigaction(SIGTTIN, SIG_IGN, 0, true);
setsigaction(SIGTTOU, SIG_IGN, 0, true);
getch2_poll();
}
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