tmate/tty-keys.c
nicm c52548f6fd The last fix to xterm keys meant that some keys such as \033OA were
being wrongly treated as partial matches. So both check xterm keys after
standard keys and only wildcard the minimum required ('1' to
'8'). Problems reported by Ralf Horstmann and Tim van der Molen.
2014-02-10 11:20:41 +00:00

838 lines
21 KiB
C

/* $OpenBSD$ */
/*
* Copyright (c) 2007 Nicholas Marriott <nicm@users.sourceforge.net>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER
* IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
* OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/types.h>
#include <sys/time.h>
#include <limits.h>
#include <stdlib.h>
#include <string.h>
#include <termios.h>
#include <unistd.h>
#include "tmux.h"
/*
* Handle keys input from the outside terminal. tty_default_*_keys[] are a base
* table of supported keys which are looked up in terminfo(5) and translated
* into a ternary tree.
*/
void tty_keys_add1(struct tty_key **, const char *, int);
void tty_keys_add(struct tty *, const char *, int);
void tty_keys_free1(struct tty_key *);
struct tty_key *tty_keys_find1(
struct tty_key *, const char *, size_t, size_t *);
struct tty_key *tty_keys_find(struct tty *, const char *, size_t, size_t *);
void tty_keys_callback(int, short, void *);
int tty_keys_mouse(struct tty *, const char *, size_t, size_t *);
int tty_keys_device(struct tty *, const char *, size_t, size_t *);
/* Default raw keys. */
struct tty_default_key_raw {
const char *string;
int key;
};
const struct tty_default_key_raw tty_default_raw_keys[] = {
/*
* Numeric keypad. Just use the vt100 escape sequences here and always
* put the terminal into keypad_xmit mode. Translation of numbers
* mode/applications mode is done in input-keys.c.
*/
{ "\033Oo", KEYC_KP_SLASH },
{ "\033Oj", KEYC_KP_STAR },
{ "\033Om", KEYC_KP_MINUS },
{ "\033Ow", KEYC_KP_SEVEN },
{ "\033Ox", KEYC_KP_EIGHT },
{ "\033Oy", KEYC_KP_NINE },
{ "\033Ok", KEYC_KP_PLUS },
{ "\033Ot", KEYC_KP_FOUR },
{ "\033Ou", KEYC_KP_FIVE },
{ "\033Ov", KEYC_KP_SIX },
{ "\033Oq", KEYC_KP_ONE },
{ "\033Or", KEYC_KP_TWO },
{ "\033Os", KEYC_KP_THREE },
{ "\033OM", KEYC_KP_ENTER },
{ "\033Op", KEYC_KP_ZERO },
{ "\033On", KEYC_KP_PERIOD },
/* Arrow keys. */
{ "\033OA", KEYC_UP },
{ "\033OB", KEYC_DOWN },
{ "\033OC", KEYC_RIGHT },
{ "\033OD", KEYC_LEFT },
{ "\033[A", KEYC_UP },
{ "\033[B", KEYC_DOWN },
{ "\033[C", KEYC_RIGHT },
{ "\033[D", KEYC_LEFT },
/* Other (xterm) "cursor" keys. */
{ "\033OH", KEYC_HOME },
{ "\033OF", KEYC_END },
{ "\033[H", KEYC_HOME },
{ "\033[F", KEYC_END },
/* rxvt-style arrow + modifier keys. */
{ "\033Oa", KEYC_UP|KEYC_CTRL },
{ "\033Ob", KEYC_DOWN|KEYC_CTRL },
{ "\033Oc", KEYC_RIGHT|KEYC_CTRL },
{ "\033Od", KEYC_LEFT|KEYC_CTRL },
{ "\033[a", KEYC_UP|KEYC_SHIFT },
{ "\033[b", KEYC_DOWN|KEYC_SHIFT },
{ "\033[c", KEYC_RIGHT|KEYC_SHIFT },
{ "\033[d", KEYC_LEFT|KEYC_SHIFT },
/* rxvt-style function + modifier keys (C = ^, S = $, C-S = @). */
{ "\033[11^", KEYC_F1|KEYC_CTRL },
{ "\033[12^", KEYC_F2|KEYC_CTRL },
{ "\033[13^", KEYC_F3|KEYC_CTRL },
{ "\033[14^", KEYC_F4|KEYC_CTRL },
{ "\033[15^", KEYC_F5|KEYC_CTRL },
{ "\033[17^", KEYC_F6|KEYC_CTRL },
{ "\033[18^", KEYC_F7|KEYC_CTRL },
{ "\033[19^", KEYC_F8|KEYC_CTRL },
{ "\033[20^", KEYC_F9|KEYC_CTRL },
{ "\033[21^", KEYC_F10|KEYC_CTRL },
{ "\033[23^", KEYC_F11|KEYC_CTRL },
{ "\033[24^", KEYC_F12|KEYC_CTRL },
{ "\033[25^", KEYC_F13|KEYC_CTRL },
{ "\033[26^", KEYC_F14|KEYC_CTRL },
{ "\033[28^", KEYC_F15|KEYC_CTRL },
{ "\033[29^", KEYC_F16|KEYC_CTRL },
{ "\033[31^", KEYC_F17|KEYC_CTRL },
{ "\033[32^", KEYC_F18|KEYC_CTRL },
{ "\033[33^", KEYC_F19|KEYC_CTRL },
{ "\033[34^", KEYC_F20|KEYC_CTRL },
{ "\033[2^", KEYC_IC|KEYC_CTRL },
{ "\033[3^", KEYC_DC|KEYC_CTRL },
{ "\033[7^", KEYC_HOME|KEYC_CTRL },
{ "\033[8^", KEYC_END|KEYC_CTRL },
{ "\033[6^", KEYC_NPAGE|KEYC_CTRL },
{ "\033[5^", KEYC_PPAGE|KEYC_CTRL },
{ "\033[11$", KEYC_F1|KEYC_SHIFT },
{ "\033[12$", KEYC_F2|KEYC_SHIFT },
{ "\033[13$", KEYC_F3|KEYC_SHIFT },
{ "\033[14$", KEYC_F4|KEYC_SHIFT },
{ "\033[15$", KEYC_F5|KEYC_SHIFT },
{ "\033[17$", KEYC_F6|KEYC_SHIFT },
{ "\033[18$", KEYC_F7|KEYC_SHIFT },
{ "\033[19$", KEYC_F8|KEYC_SHIFT },
{ "\033[20$", KEYC_F9|KEYC_SHIFT },
{ "\033[21$", KEYC_F10|KEYC_SHIFT },
{ "\033[23$", KEYC_F11|KEYC_SHIFT },
{ "\033[24$", KEYC_F12|KEYC_SHIFT },
{ "\033[25$", KEYC_F13|KEYC_SHIFT },
{ "\033[26$", KEYC_F14|KEYC_SHIFT },
{ "\033[28$", KEYC_F15|KEYC_SHIFT },
{ "\033[29$", KEYC_F16|KEYC_SHIFT },
{ "\033[31$", KEYC_F17|KEYC_SHIFT },
{ "\033[32$", KEYC_F18|KEYC_SHIFT },
{ "\033[33$", KEYC_F19|KEYC_SHIFT },
{ "\033[34$", KEYC_F20|KEYC_SHIFT },
{ "\033[2$", KEYC_IC|KEYC_SHIFT },
{ "\033[3$", KEYC_DC|KEYC_SHIFT },
{ "\033[7$", KEYC_HOME|KEYC_SHIFT },
{ "\033[8$", KEYC_END|KEYC_SHIFT },
{ "\033[6$", KEYC_NPAGE|KEYC_SHIFT },
{ "\033[5$", KEYC_PPAGE|KEYC_SHIFT },
{ "\033[11@", KEYC_F1|KEYC_CTRL|KEYC_SHIFT },
{ "\033[12@", KEYC_F2|KEYC_CTRL|KEYC_SHIFT },
{ "\033[13@", KEYC_F3|KEYC_CTRL|KEYC_SHIFT },
{ "\033[14@", KEYC_F4|KEYC_CTRL|KEYC_SHIFT },
{ "\033[15@", KEYC_F5|KEYC_CTRL|KEYC_SHIFT },
{ "\033[17@", KEYC_F6|KEYC_CTRL|KEYC_SHIFT },
{ "\033[18@", KEYC_F7|KEYC_CTRL|KEYC_SHIFT },
{ "\033[19@", KEYC_F8|KEYC_CTRL|KEYC_SHIFT },
{ "\033[20@", KEYC_F9|KEYC_CTRL|KEYC_SHIFT },
{ "\033[21@", KEYC_F10|KEYC_CTRL|KEYC_SHIFT },
{ "\033[23@", KEYC_F11|KEYC_CTRL|KEYC_SHIFT },
{ "\033[24@", KEYC_F12|KEYC_CTRL|KEYC_SHIFT },
{ "\033[25@", KEYC_F13|KEYC_CTRL|KEYC_SHIFT },
{ "\033[26@", KEYC_F14|KEYC_CTRL|KEYC_SHIFT },
{ "\033[28@", KEYC_F15|KEYC_CTRL|KEYC_SHIFT },
{ "\033[29@", KEYC_F16|KEYC_CTRL|KEYC_SHIFT },
{ "\033[31@", KEYC_F17|KEYC_CTRL|KEYC_SHIFT },
{ "\033[32@", KEYC_F18|KEYC_CTRL|KEYC_SHIFT },
{ "\033[33@", KEYC_F19|KEYC_CTRL|KEYC_SHIFT },
{ "\033[34@", KEYC_F20|KEYC_CTRL|KEYC_SHIFT },
{ "\033[2@", KEYC_IC|KEYC_CTRL|KEYC_SHIFT },
{ "\033[3@", KEYC_DC|KEYC_CTRL|KEYC_SHIFT },
{ "\033[7@", KEYC_HOME|KEYC_CTRL|KEYC_SHIFT },
{ "\033[8@", KEYC_END|KEYC_CTRL|KEYC_SHIFT },
{ "\033[6@", KEYC_NPAGE|KEYC_CTRL|KEYC_SHIFT },
{ "\033[5@", KEYC_PPAGE|KEYC_CTRL|KEYC_SHIFT },
/* Focus tracking. */
{ "\033[I", KEYC_FOCUS_IN },
{ "\033[O", KEYC_FOCUS_OUT },
};
/* Default terminfo(5) keys. */
struct tty_default_key_code {
enum tty_code_code code;
int key;
};
const struct tty_default_key_code tty_default_code_keys[] = {
/* Function keys. */
{ TTYC_KF1, KEYC_F1 },
{ TTYC_KF2, KEYC_F2 },
{ TTYC_KF3, KEYC_F3 },
{ TTYC_KF4, KEYC_F4 },
{ TTYC_KF5, KEYC_F5 },
{ TTYC_KF6, KEYC_F6 },
{ TTYC_KF7, KEYC_F7 },
{ TTYC_KF8, KEYC_F8 },
{ TTYC_KF9, KEYC_F9 },
{ TTYC_KF10, KEYC_F10 },
{ TTYC_KF11, KEYC_F11 },
{ TTYC_KF12, KEYC_F12 },
{ TTYC_KF13, KEYC_F13 },
{ TTYC_KF14, KEYC_F14 },
{ TTYC_KF15, KEYC_F15 },
{ TTYC_KF16, KEYC_F16 },
{ TTYC_KF17, KEYC_F17 },
{ TTYC_KF18, KEYC_F18 },
{ TTYC_KF19, KEYC_F19 },
{ TTYC_KF20, KEYC_F20 },
{ TTYC_KICH1, KEYC_IC },
{ TTYC_KDCH1, KEYC_DC },
{ TTYC_KHOME, KEYC_HOME },
{ TTYC_KEND, KEYC_END },
{ TTYC_KNP, KEYC_NPAGE },
{ TTYC_KPP, KEYC_PPAGE },
{ TTYC_KCBT, KEYC_BTAB },
/* Arrow keys from terminfo. */
{ TTYC_KCUU1, KEYC_UP },
{ TTYC_KCUD1, KEYC_DOWN },
{ TTYC_KCUB1, KEYC_LEFT },
{ TTYC_KCUF1, KEYC_RIGHT },
/* Key and modifier capabilities. */
{ TTYC_KDC2, KEYC_DC|KEYC_SHIFT },
{ TTYC_KDC3, KEYC_DC|KEYC_ESCAPE },
{ TTYC_KDC4, KEYC_DC|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KDC5, KEYC_DC|KEYC_CTRL },
{ TTYC_KDC6, KEYC_DC|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KDC7, KEYC_DC|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KDN2, KEYC_DOWN|KEYC_SHIFT },
{ TTYC_KDN3, KEYC_DOWN|KEYC_ESCAPE },
{ TTYC_KDN4, KEYC_DOWN|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KDN5, KEYC_DOWN|KEYC_CTRL },
{ TTYC_KDN6, KEYC_DOWN|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KDN7, KEYC_DOWN|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KEND2, KEYC_END|KEYC_SHIFT },
{ TTYC_KEND3, KEYC_END|KEYC_ESCAPE },
{ TTYC_KEND4, KEYC_END|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KEND5, KEYC_END|KEYC_CTRL },
{ TTYC_KEND6, KEYC_END|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KEND7, KEYC_END|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KHOM2, KEYC_HOME|KEYC_SHIFT },
{ TTYC_KHOM3, KEYC_HOME|KEYC_ESCAPE },
{ TTYC_KHOM4, KEYC_HOME|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KHOM5, KEYC_HOME|KEYC_CTRL },
{ TTYC_KHOM6, KEYC_HOME|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KHOM7, KEYC_HOME|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KIC2, KEYC_IC|KEYC_SHIFT },
{ TTYC_KIC3, KEYC_IC|KEYC_ESCAPE },
{ TTYC_KIC4, KEYC_IC|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KIC5, KEYC_IC|KEYC_CTRL },
{ TTYC_KIC6, KEYC_IC|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KIC7, KEYC_IC|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KLFT2, KEYC_LEFT|KEYC_SHIFT },
{ TTYC_KLFT3, KEYC_LEFT|KEYC_ESCAPE },
{ TTYC_KLFT4, KEYC_LEFT|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KLFT5, KEYC_LEFT|KEYC_CTRL },
{ TTYC_KLFT6, KEYC_LEFT|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KLFT7, KEYC_LEFT|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KNXT2, KEYC_NPAGE|KEYC_SHIFT },
{ TTYC_KNXT3, KEYC_NPAGE|KEYC_ESCAPE },
{ TTYC_KNXT4, KEYC_NPAGE|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KNXT5, KEYC_NPAGE|KEYC_CTRL },
{ TTYC_KNXT6, KEYC_NPAGE|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KNXT7, KEYC_NPAGE|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KPRV2, KEYC_PPAGE|KEYC_SHIFT },
{ TTYC_KPRV3, KEYC_PPAGE|KEYC_ESCAPE },
{ TTYC_KPRV4, KEYC_PPAGE|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KPRV5, KEYC_PPAGE|KEYC_CTRL },
{ TTYC_KPRV6, KEYC_PPAGE|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KPRV7, KEYC_PPAGE|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KRIT2, KEYC_RIGHT|KEYC_SHIFT },
{ TTYC_KRIT3, KEYC_RIGHT|KEYC_ESCAPE },
{ TTYC_KRIT4, KEYC_RIGHT|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KRIT5, KEYC_RIGHT|KEYC_CTRL },
{ TTYC_KRIT6, KEYC_RIGHT|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KRIT7, KEYC_RIGHT|KEYC_ESCAPE|KEYC_CTRL },
{ TTYC_KUP2, KEYC_UP|KEYC_SHIFT },
{ TTYC_KUP3, KEYC_UP|KEYC_ESCAPE },
{ TTYC_KUP4, KEYC_UP|KEYC_SHIFT|KEYC_ESCAPE },
{ TTYC_KUP5, KEYC_UP|KEYC_CTRL },
{ TTYC_KUP6, KEYC_UP|KEYC_SHIFT|KEYC_CTRL },
{ TTYC_KUP7, KEYC_UP|KEYC_ESCAPE|KEYC_CTRL },
};
/* Add key to tree. */
void
tty_keys_add(struct tty *tty, const char *s, int key)
{
struct tty_key *tk;
size_t size;
const char *keystr;
keystr = key_string_lookup_key(key);
if ((tk = tty_keys_find(tty, s, strlen(s), &size)) == NULL) {
log_debug("new key %s: 0x%x (%s)", s, key, keystr);
tty_keys_add1(&tty->key_tree, s, key);
} else {
log_debug("replacing key %s: 0x%x (%s)", s, key, keystr);
tk->key = key;
}
}
/* Add next node to the tree. */
void
tty_keys_add1(struct tty_key **tkp, const char *s, int key)
{
struct tty_key *tk;
/* Allocate a tree entry if there isn't one already. */
tk = *tkp;
if (tk == NULL) {
tk = *tkp = xcalloc(1, sizeof *tk);
tk->ch = *s;
tk->key = KEYC_NONE;
}
/* Find the next entry. */
if (*s == tk->ch) {
/* Move forward in string. */
s++;
/* If this is the end of the string, no more is necessary. */
if (*s == '\0') {
tk->key = key;
return;
}
/* Use the child tree for the next character. */
tkp = &tk->next;
} else {
if (*s < tk->ch)
tkp = &tk->left;
else if (*s > tk->ch)
tkp = &tk->right;
}
/* And recurse to add it. */
tty_keys_add1(tkp, s, key);
}
/* Initialise a key tree from the table. */
void
tty_keys_build(struct tty *tty)
{
const struct tty_default_key_raw *tdkr;
const struct tty_default_key_code *tdkc;
u_int i;
const char *s;
if (tty->key_tree != NULL)
tty_keys_free (tty);
tty->key_tree = NULL;
for (i = 0; i < nitems(tty_default_raw_keys); i++) {
tdkr = &tty_default_raw_keys[i];
s = tdkr->string;
if (*s != '\0')
tty_keys_add(tty, s, tdkr->key);
}
for (i = 0; i < nitems(tty_default_code_keys); i++) {
tdkc = &tty_default_code_keys[i];
s = tty_term_string(tty->term, tdkc->code);
if (*s != '\0')
tty_keys_add(tty, s, tdkc->key);
}
}
/* Free the entire key tree. */
void
tty_keys_free(struct tty *tty)
{
tty_keys_free1(tty->key_tree);
}
/* Free a single key. */
void
tty_keys_free1(struct tty_key *tk)
{
if (tk->next != NULL)
tty_keys_free1(tk->next);
if (tk->left != NULL)
tty_keys_free1(tk->left);
if (tk->right != NULL)
tty_keys_free1(tk->right);
free(tk);
}
/* Lookup a key in the tree. */
struct tty_key *
tty_keys_find(struct tty *tty, const char *buf, size_t len, size_t *size)
{
*size = 0;
return (tty_keys_find1(tty->key_tree, buf, len, size));
}
/* Find the next node. */
struct tty_key *
tty_keys_find1(struct tty_key *tk, const char *buf, size_t len, size_t *size)
{
/* If the node is NULL, this is the end of the tree. No match. */
if (tk == NULL)
return (NULL);
/* Pick the next in the sequence. */
if (tk->ch == *buf) {
/* Move forward in the string. */
buf++; len--;
(*size)++;
/* At the end of the string, return the current node. */
if (len == 0 || (tk->next == NULL && tk->key != KEYC_NONE))
return (tk);
/* Move into the next tree for the following character. */
tk = tk->next;
} else {
if (*buf < tk->ch)
tk = tk->left;
else if (*buf > tk->ch)
tk = tk->right;
}
/* Move to the next in the tree. */
return (tty_keys_find1(tk, buf, len, size));
}
/*
* Process at least one key in the buffer and invoke tty->key_callback. Return
* 0 if there are no further keys, or 1 if there could be more in the buffer.
*/
int
tty_keys_next(struct tty *tty)
{
struct tty_key *tk;
struct timeval tv;
const char *buf;
size_t len, size;
cc_t bspace;
int key, delay, expired = 0;
/* Get key buffer. */
buf = EVBUFFER_DATA(tty->event->input);
len = EVBUFFER_LENGTH(tty->event->input);
if (len == 0)
return (0);
log_debug("keys are %zu (%.*s)", len, (int) len, buf);
/* Is this device attributes response? */
switch (tty_keys_device(tty, buf, len, &size)) {
case 0: /* yes */
key = KEYC_NONE;
goto complete_key;
case -1: /* no, or not valid */
break;
case 1: /* partial */
goto partial_key;
}
/* Is this a mouse key press? */
switch (tty_keys_mouse(tty, buf, len, &size)) {
case 0: /* yes */
key = KEYC_MOUSE;
goto complete_key;
case -1: /* no, or not valid */
break;
case 1: /* partial */
goto partial_key;
}
/* Look for matching key string and return if found. */
tk = tty_keys_find(tty, buf, len, &size);
if (tk != NULL) {
if (tk->next != NULL)
goto partial_key;
key = tk->key;
goto complete_key;
}
/* Try to parse a key with an xterm-style modifier. */
switch (xterm_keys_find(buf, len, &size, &key)) {
case 0: /* found */
goto complete_key;
case -1: /* not found */
break;
case 1:
goto partial_key;
}
first_key:
/* Is this a meta key? */
if (len >= 2 && buf[0] == '\033') {
if (buf[1] != '\033') {
key = buf[1] | KEYC_ESCAPE;
size = 2;
goto complete_key;
}
tk = tty_keys_find(tty, buf + 1, len - 1, &size);
if (tk != NULL && (!expired || tk->next == NULL)) {
size++; /* include escape */
if (tk->next != NULL)
goto partial_key;
key = tk->key;
if (key != KEYC_NONE)
key |= KEYC_ESCAPE;
goto complete_key;
}
}
/* No key found, take first. */
key = (u_char) *buf;
size = 1;
/*
* Check for backspace key using termios VERASE - the terminfo
* kbs entry is extremely unreliable, so cannot be safely
* used. termios should have a better idea.
*/
bspace = tty->tio.c_cc[VERASE];
if (bspace != _POSIX_VDISABLE && key == bspace)
key = KEYC_BSPACE;
goto complete_key;
partial_key:
log_debug("partial key %.*s", (int) len, buf);
/* If timer is going, check for expiration. */
if (tty->flags & TTY_TIMER) {
if (evtimer_initialized(&tty->key_timer) &&
!evtimer_pending(&tty->key_timer, NULL)) {
expired = 1;
goto first_key;
}
return (0);
}
/* Get the time period. */
delay = options_get_number(&global_options, "escape-time");
tv.tv_sec = delay / 1000;
tv.tv_usec = (delay % 1000) * 1000L;
/* Start the timer. */
if (event_initialized(&tty->key_timer))
evtimer_del(&tty->key_timer);
evtimer_set(&tty->key_timer, tty_keys_callback, tty);
evtimer_add(&tty->key_timer, &tv);
tty->flags |= TTY_TIMER;
return (0);
complete_key:
log_debug("complete key %.*s %#x", (int) size, buf, key);
/* Remove data from buffer. */
evbuffer_drain(tty->event->input, size);
/* Remove key timer. */
if (event_initialized(&tty->key_timer))
evtimer_del(&tty->key_timer);
tty->flags &= ~TTY_TIMER;
/* Check for focus events. */
if (key == KEYC_FOCUS_OUT) {
tty->client->flags &= ~CLIENT_FOCUSED;
return (1);
} else if (key == KEYC_FOCUS_IN) {
tty->client->flags |= CLIENT_FOCUSED;
return (1);
}
/* Fire the key. */
if (key != KEYC_NONE)
server_client_handle_key(tty->client, key);
return (1);
}
/* Key timer callback. */
void
tty_keys_callback(unused int fd, unused short events, void *data)
{
struct tty *tty = data;
if (tty->flags & TTY_TIMER) {
while (tty_keys_next(tty))
;
}
}
/*
* Handle mouse key input. Returns 0 for success, -1 for failure, 1 for partial
* (probably a mouse sequence but need more data).
*/
int
tty_keys_mouse(struct tty *tty, const char *buf, size_t len, size_t *size)
{
struct mouse_event *m = &tty->mouse;
struct utf8_data utf8data;
u_int i, value, x, y, b, sgr, sgr_b, sgr_rel;
unsigned char c;
/*
* Standard mouse sequences are \033[M followed by three characters
* indicating button, X and Y, all based at 32 with 1,1 top-left.
*
* UTF-8 mouse sequences are similar but the three are expressed as
* UTF-8 characters.
*
* SGR extended mouse sequences are \033[< followed by three numbers in
* decimal and separated by semicolons indicating button, X and Y. A
* trailing 'M' is click or scroll and trailing 'm' release. All are
* based at 0 with 1,1 top-left.
*/
*size = 0;
x = y = b = sgr = sgr_b = sgr_rel = 0;
/* First two bytes are always \033[. */
if (buf[0] != '\033')
return (-1);
if (len == 1)
return (1);
if (buf[1] != '[')
return (-1);
if (len == 2)
return (1);
/*
* Third byte is M in old standard and UTF-8 extension, < in SGR
* extension.
*/
if (buf[2] == 'M') {
/* Read the three inputs. */
*size = 3;
for (i = 0; i < 3; i++) {
if (len <= *size)
return (1);
if (tty->mode & MODE_MOUSE_UTF8) {
if (utf8_open(&utf8data, buf[*size])) {
if (utf8data.size != 2)
return (-1);
(*size)++;
if (len <= *size)
return (1);
utf8_append(&utf8data, buf[*size]);
value = utf8_combine(&utf8data);
} else
value = (u_char) buf[*size];
(*size)++;
} else {
value = (u_char) buf[*size];
(*size)++;
}
if (i == 0)
b = value;
else if (i == 1)
x = value;
else
y = value;
}
log_debug("mouse input: %.*s", (int) *size, buf);
/* Check and return the mouse input. */
if (b < 32)
return (-1);
b -= 32;
if (x >= 33)
x -= 33;
else
x = 256 - x;
if (y >= 33)
y -= 33;
else
y = 256 - y;
} else if (buf[2] == '<') {
/* Read the three inputs. */
*size = 3;
while (1) {
if (len <= *size)
return (1);
c = (u_char)buf[(*size)++];
if (c == ';')
break;
if (c < '0' || c > '9')
return (-1);
sgr_b = 10 * sgr_b + (c - '0');
}
while (1) {
if (len <= *size)
return (1);
c = (u_char)buf[(*size)++];
if (c == ';')
break;
if (c < '0' || c > '9')
return (-1);
x = 10 * x + (c - '0');
}
while (1) {
if (len <= *size)
return (1);
c = (u_char) buf[(*size)++];
if (c == 'M' || c == 'm')
break;
if (c < '0' || c > '9')
return (-1);
y = 10 * y + (c - '0');
}
log_debug("mouse input (sgr): %.*s", (int) *size, buf);
/* Check and return the mouse input. */
if (x < 1 || y < 1)
return (-1);
x--;
y--;
sgr = 1;
sgr_rel = (c == 'm');
/* Figure out what b would be in old format. */
b = sgr_b;
if (sgr_rel)
b |= 3;
} else
return (-1);
/* Fill in mouse structure. */
if (~m->event & MOUSE_EVENT_WHEEL) {
m->lx = m->x;
m->ly = m->y;
}
m->xb = b;
m->sgr = sgr;
m->sgr_xb = sgr_b;
m->sgr_rel = sgr_rel;
m->x = x;
m->y = y;
if (b & 64) { /* wheel button */
b &= 3;
if (b == 0)
m->wheel = MOUSE_WHEEL_UP;
else if (b == 1)
m->wheel = MOUSE_WHEEL_DOWN;
m->event = MOUSE_EVENT_WHEEL;
} else if ((b & 3) == 3) {
if (~m->event & MOUSE_EVENT_DRAG && x == m->x && y == m->y) {
m->event = MOUSE_EVENT_CLICK;
} else
m->event = MOUSE_EVENT_DRAG;
m->event |= MOUSE_EVENT_UP;
} else {
if (b & 32) /* drag motion */
m->event = MOUSE_EVENT_DRAG;
else {
if (m->event & MOUSE_EVENT_UP && x == m->x && y == m->y)
m->clicks = (m->clicks + 1) % 3;
else
m->clicks = 0;
m->sx = x;
m->sy = y;
m->event = MOUSE_EVENT_DOWN;
}
m->button = (b & 3);
}
return (0);
}
/*
* Handle device attributes input. Returns 0 for success, -1 for failure, 1 for
* partial.
*/
int
tty_keys_device(struct tty *tty, const char *buf, size_t len, size_t *size)
{
u_int i, class;
char tmp[64], *endptr;
/*
* Primary device attributes are \033[?a;b and secondary are
* \033[>a;b;c.
*/
*size = 0;
/* First three bytes are always \033[?. */
if (buf[0] != '\033')
return (-1);
if (len == 1)
return (1);
if (buf[1] != '[')
return (-1);
if (len == 2)
return (1);
if (buf[2] != '>' && buf[2] != '?')
return (-1);
if (len == 3)
return (1);
/* Copy the rest up to a 'c'. */
for (i = 0; i < (sizeof tmp) - 1 && buf[3 + i] != 'c'; i++) {
if (3 + i == len)
return (1);
tmp[i] = buf[3 + i];
}
if (i == (sizeof tmp) - 1)
return (-1);
tmp[i] = '\0';
*size = 4 + i;
/* Only primary is of interest. */
if (buf[2] != '?')
return (0);
/* Convert service class. */
class = strtoul(tmp, &endptr, 10);
if (*endptr != ';')
class = 0;
log_debug("received service class %u", class);
tty_set_class(tty, class);
return (0);
}