/* See LICENSE file for copyright and license details. */
#include "libterminput.h"
#include <alloca.h>
#include <ctype.h>
#include <limits.h>
#include <string.h>
#include <unistd.h>
struct input {
enum libterminput_mod mods;
char symbol[7];
};
static int
read_input(int fd, struct input *input, struct libterminput_state *ctx)
{
unsigned char c, tc;
ssize_t r;
/* Get next byte from input */
if (ctx->stored_head != ctx->stored_tail) {
c = ((unsigned char *)ctx->stored)[ctx->stored_tail++];
if (ctx->stored_tail == ctx->stored_head)
ctx->stored_tail = ctx->stored_head = 0;
} else {
r = read(fd, ctx->stored, sizeof(ctx->stored));
if (r <= 0)
return (int)r;
c = (unsigned char)ctx->stored[0];
if (r > 1) {
ctx->stored_tail = 1;
ctx->stored_head = (size_t)r;
}
}
again:
if (ctx->n) {
/* Continuation of multibyte-character */
if ((c & 0xC0) != 0x80) {
/* Short multibyte-character: return short and store read byte from next input */
input->mods = ctx->mods;
ctx->partial[(unsigned char)ctx->npartial] = '\0';
ctx->n = 0;
ctx->npartial = 0;
ctx->mods = 0;
ctx->stored[ctx->stored_head++] = (char)c;
strcpy(input->symbol, ctx->partial);
return 1;
} else {
/* Store byte, and if done, return */
ctx->partial[(unsigned char)ctx->npartial++] = (char)c;
if (ctx->npartial == ctx->n) {
ctx->partial[(unsigned char)ctx->npartial] = '\0';
input->mods = ctx->mods;
ctx->npartial = 0;
ctx->mods = 0;
ctx->n = 0;
strcpy(input->symbol, ctx->partial);
return 1;
}
}
} else if (c == 033 && !*ctx->key) {
/* ESC at the beginning, save as a Meta/ESC */
ctx->meta += 1;
} else if (c == 0) {
/* CTRL on Space */
input->symbol[0] = ' ';
input->symbol[1] = '\0';
input->mods = ctx->mods | LIBTERMINPUT_CTRL;
ctx->mods = 0;
return 1;
} else if (c < (unsigned char)' ' && (char)c != '\t' && (char)c != '\b' && (char)c != '\n') {
/* CTRL on some some character key */
input->symbol[0] = (char)c + '@';
input->symbol[1] = '\0';
input->mods = ctx->mods | LIBTERMINPUT_CTRL;
ctx->mods = 0;
return 1;
} else if ((c & 0xC0) == 0xC0) {
/* Beginning of multibyte-character */
ctx->n = 0;
for (tc = c; tc & 0x80; tc <<= 1)
ctx->n++;
if (ctx->n > 6) {
/* If overlong, return first byte a single-byte-character */
input->symbol[0] = (char)c;
input->symbol[1] = '\0';
input->mods = ctx->mods;
ctx->mods = 0;
return 1;
}
ctx->partial[0] = (char)c;
ctx->npartial = 1;
} else if (c & 0x80) {
/* 8th bit set to signify META */
c ^= 0x80;
ctx->mods |= LIBTERMINPUT_META;
if (c == 033)
goto single_byte;
goto again;
} else {
single_byte:
/* Single-byte-character */
input->symbol[0] = (char)c;
input->symbol[1] = '\0';
input->mods = ctx->mods;
ctx->mods = 0;
return 1;
}
input->symbol[0] = '\0';
input->mods = -1;
return 1;
}
static void
encode_utf8(unsigned long long int codepoint, char buffer[7])
{
static const char masks[6] = {(char)0x00, (char)0xC0, (char)0xE0, (char)0xF0, (char)0xF8, (char)0xFC};
static const unsigned long long int limits[6] = {
1ULL << (7 + 0 * 6),
1ULL << (5 + 1 * 6),
1ULL << (4 + 2 * 6),
1ULL << (3 + 3 * 6),
1ULL << (2 + 4 * 6),
1ULL << (1 + 5 * 6)
};
size_t len;
for (len = 0; codepoint >= limits[len]; len++);
buffer[0] = masks[len];
len += 1;
buffer[len] = '\0';
for (; --len; codepoint >>= 6)
buffer[len] = (char)(codepoint & 0x3FULL);
buffer[0] |= (char)codepoint;
}
static int
check_utf8_char(const char *s, size_t *lenp, size_t size)
{
*lenp = 0;
if (!size) {
return 0;
} else if ((*s & 0x80) == 0) {
*lenp = 1;
return 1;
} else if ((*s & 0xE0) == 0xC0) {
goto need_2;
} else if ((*s & 0xF0) == 0xE0) {
goto need_3;
} else if ((*s & 0xF8) == 0xF0) {
goto need_4;
} else if ((*s & 0xFC) == 0xF8) {
goto need_5;
} else if ((*s & 0xFE) == 0xFC) {
goto need_6;
} else {
*lenp = 0;
return -1;
}
need_6:
if (!size--) return 0;
if ((s[5] & 0xC0) != 0x80) return -1;
++*lenp;
need_5:
if (!size--) return 0;
if ((s[4] & 0xC0) != 0x80) return -1;
++*lenp;
need_4:
if (!size--) return 0;
if ((s[3] & 0xC0) != 0x80) return -1;
++*lenp;
need_3:
if (!size--) return 0;
if ((s[2] & 0xC0) != 0x80) return -1;
++*lenp;
need_2:
if (!size--) return 0;
if ((s[1] & 0xC0) != 0x80) return -1;
++*lenp;
if (!size--) return 0;
++*lenp;
return 1;
}
static unsigned long long int
utf8_decode(const char *s, size_t *ip)
{
unsigned long long int cp = 0;
size_t len;
if ((s[*ip] & 0x80) == 0) {
return (unsigned long long int)s[(*ip)++];
} else if ((s[*ip] & 0xE0) == 0xC0) {
cp = (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0xC0U);
len = 1;
goto need_1;
} else if ((s[*ip] & 0xF0) == 0xE0) {
cp = (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0xE0U);
len = 2;
goto need_2;
} else if ((s[*ip] & 0xF8) == 0xF0) {
cp = (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0xF0U);
len = 3;
goto need_3;
} else if ((s[*ip] & 0xFC) == 0xF8) {
cp = (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0xF8U);
len = 4;
goto need_4;
} else if ((s[*ip] & 0xFE) == 0xFC) {
cp = (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0xFCU);
len = 5;
goto need_5;
}
need_5:
if ((s[*ip] & 0xC0) != 0x80) return 0;
cp <<= 6;
cp |= (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0x80U);
need_4:
if ((s[*ip] & 0xC0) != 0x80) return 0;
cp <<= 6;
cp |= (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0x80U);
need_3:
if ((s[*ip] & 0xC0) != 0x80) return 0;
cp <<= 6;
cp |= (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0x80U);
need_2:
if ((s[*ip] & 0xC0) != 0x80) return 0;
cp <<= 6;
cp |= (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0x80U);
need_1:
if ((s[*ip] & 0xC0) != 0x80) return 0;
cp <<= 6;
cp |= (unsigned long long int)((unsigned char)s[(*ip)++] ^ 0x80U);
/* Let's ignore the 0x10FFFF upper bound. */
if (cp < 1ULL << (7 + 0 * 6))
return len > 1 ? 0ULL : cp;
if (cp < 1ULL << (5 + 1 * 6))
return len > 1 ? 0ULL : cp;
if (cp < 1ULL << (4 + 2 * 6))
return len > 1 ? 0ULL : cp;
if (cp < 1ULL << (3 + 3 * 6))
return len > 1 ? 0ULL : cp;
if (cp < 1ULL << (2 + 4 * 6))
return len > 1 ? 0ULL : cp;
if (cp < 1ULL << (1 + 5 * 6))
return len > 1 ? 0ULL : cp;
return 0;
}
static void
parse_sequence(union libterminput_input *input, struct libterminput_state *ctx)
{
unsigned long long int *nums, numsbuf[6];
size_t keylen, n, nnums = 0, pos;
char *p;
/* Get number of numbers in the sequence, and allocate an array of at least 2 */
if (ctx->key[0] == '[' && (ctx->key[1] == '<' ? isdigit(ctx->key[2]) : isdigit(ctx->key[1])))
nnums += 1;
for (n = 2, p = ctx->key; *p; p++) {
if (*p == ';') {
n += 1;
nnums += 1;
}
}
nums = alloca(n * sizeof(*nums));
nums[0] = nums[1] = 0;
/* Read numbers and remove numbers and delimiters */
for (keylen = 0, n = 0, p = ctx->key; *p; p++) {
if (*p == ';') {
nums[++n] = 0; /* We made sure above to allocate one extra */
} else if (!isdigit(*p)) {
ctx->key[keylen++] = *p;
} else if (n < 3) {
if (nums[n] < (ULLONG_MAX - (*p & 15)) / 10)
nums[n] = nums[n] * 10 + (*p & 15);
else
nums[n] = ULLONG_MAX;
}
}
ctx->key[keylen] = '\0';
/* Get times and mods, and reset symbol, and more as keypress */
input->type = LIBTERMINPUT_KEYPRESS;
input->keypress.symbol[0] = '\0';
input->keypress.times = nums[0] + !nums[0];
input->keypress.mods = nums[1] > 1 ? nums[1] - 1 : 0;
input->keypress.mods |= ctx->meta > 1 ? LIBTERMINPUT_META : 0;
switch (ctx->key[0]) {
case '[':
switch (keylen) {
case 2:
switch (ctx->key[1]) {
/* case '@': input->keypress.key = LIBTERMINPUT_INS; break; (incompatible with rxvt) */
case 'A': input->keypress.key = LIBTERMINPUT_UP; break;
case 'B': input->keypress.key = LIBTERMINPUT_DOWN; break;
case 'C': input->keypress.key = LIBTERMINPUT_RIGHT; break;
case 'D': input->keypress.key = LIBTERMINPUT_LEFT; break;
case 'E': input->keypress.key = LIBTERMINPUT_BEGIN; break;
case 'F': input->keypress.key = LIBTERMINPUT_END; break;
case 'G': input->keypress.key = LIBTERMINPUT_BEGIN; break;
case 'H': input->keypress.key = LIBTERMINPUT_HOME; break;
case 'M':
if (nnums >= 3) { /* Parsing for \e[?1000;1015h output. */
nums[0] -= 32ULL;
decimal_mouse_tracking_set_press:
input->mouseevent.event = LIBTERMINPUT_PRESS;
decimal_mouse_tracking:
input->mouseevent.type = LIBTERMINPUT_MOUSEEVENT;
input->mouseevent.x = (size_t)nums[1] + (size_t)!nums[1];
input->mouseevent.y = (size_t)nums[2] + (size_t)!nums[3];
input->mouseevent.mods = (enum libterminput_mod)((nums[0] >> 2) & 7ULL);
if (nums[0] & 32)
input->mouseevent.event = LIBTERMINPUT_MOTION;
nums[0] = (nums[0] & 3ULL) | ((nums[0] >> 4) & ~3ULL);
if (nums[0] < 4) {
nums[0] = (nums[0] + 1) & 3;
if (!nums[0] && input->mouseevent.event == LIBTERMINPUT_PRESS)
input->mouseevent.event = LIBTERMINPUT_RELEASE;
}
input->mouseevent.button = (enum libterminput_button)nums[0];
} else if (!nnums & !(ctx->flags & LIBTERMINPUT_DECSET_1005)) {
/* Parsing output for legacy mouse tracking output. */
ctx->mouse_tracking = 0;
nums = numsbuf;
nums[0] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[1] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[2] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[0] = (nums[0] - 32ULL) & 255ULL;
nums[1] = (nums[1] - 32ULL) & 255ULL;
nums[2] = (nums[2] - 32ULL) & 255ULL;
if (ctx->stored_head == ctx->stored_tail)
ctx->stored_head = ctx->stored_tail = 0;
goto decimal_mouse_tracking_set_press;
} else if (!nnums) {
/* Parsing for semi-legacy \e[?1000;1005h output. */
ctx->mouse_tracking = 0;
nums = numsbuf;
pos = ctx->stored_tail;
nums[0] = utf8_decode(ctx->stored, &ctx->stored_tail);
if (nums[0] <= 32) {
ctx->stored_tail = pos;
goto suppress;
}
pos = ctx->stored_tail;
nums[1] = utf8_decode(ctx->stored, &ctx->stored_tail);
if (nums[1] <= 32) {
ctx->stored_tail = pos;
goto suppress;
}
pos = ctx->stored_tail;
nums[2] = utf8_decode(ctx->stored, &ctx->stored_tail);
if (nums[2] <= 32) {
ctx->stored_tail = pos;
goto suppress;
}
nums[0] = nums[0] - 32ULL;
nums[1] = nums[1] - 32ULL;
nums[2] = nums[2] - 32ULL;
if (ctx->stored_head == ctx->stored_tail)
ctx->stored_head = ctx->stored_tail = 0;
goto decimal_mouse_tracking_set_press;
} else {
goto suppress;
}
break;
case 'P': input->keypress.key = LIBTERMINPUT_F1; break;
case 'Q': input->keypress.key = LIBTERMINPUT_F2; break;
case 'R': input->keypress.key = LIBTERMINPUT_F3; break;
case 'S': input->keypress.key = LIBTERMINPUT_F4; break;
case 'T':
/* Parsing output for legacy mouse highlight tracking output. (\e[?1001h) */
ctx->mouse_tracking = 0;
nums = numsbuf;
nums[0] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[1] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[2] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[3] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[4] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[5] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[0] = (nums[0] - 32ULL) & 255ULL;
nums[1] = (nums[1] - 32ULL) & 255ULL;
nums[2] = (nums[2] - 32ULL) & 255ULL;
nums[3] = (nums[3] - 32ULL) & 255ULL;
nums[4] = (nums[4] - 32ULL) & 255ULL;
nums[5] = (nums[5] - 32ULL) & 255ULL;
if (ctx->stored_head == ctx->stored_tail)
ctx->stored_head = ctx->stored_tail = 0;
input->mouseevent.type = LIBTERMINPUT_MOUSEEVENT;
input->mouseevent.event = LIBTERMINPUT_HIGHLIGHT_OUTSIDE;
input->mouseevent.mods = 0;
input->mouseevent.button = LIBTERMINPUT_BUTTON1;
input->mouseevent.start_x = (size_t)nums[0];
input->mouseevent.start_y = (size_t)nums[1];
input->mouseevent.end_x = (size_t)nums[2];
input->mouseevent.end_y = (size_t)nums[3];
input->mouseevent.x = (size_t)nums[4];
input->mouseevent.y = (size_t)nums[5];
break;
case 'U': input->keypress.key = LIBTERMINPUT_NEXT; break;
case 'V': input->keypress.key = LIBTERMINPUT_PRIOR; break;
case 'Z':
input->keypress.key = LIBTERMINPUT_TAB;
input->keypress.mods |= LIBTERMINPUT_SHIFT;
break;
case 'a':
input->keypress.key = LIBTERMINPUT_UP;
input->keypress.mods |= LIBTERMINPUT_SHIFT;
break;
case 'b':
input->keypress.key = LIBTERMINPUT_DOWN;
input->keypress.mods |= LIBTERMINPUT_SHIFT;
break;
case 'c':
input->keypress.key = LIBTERMINPUT_RIGHT;
input->keypress.mods |= LIBTERMINPUT_SHIFT;
break;
case 'd':
input->keypress.key = LIBTERMINPUT_LEFT;
input->keypress.mods |= LIBTERMINPUT_SHIFT;
break;
case 't':
/* Parsing output for legacy mouse highlight tracking output (\e[?1001h). */
ctx->mouse_tracking = 0;
nums = numsbuf;
nums[0] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[1] = (unsigned long long int)(unsigned char)ctx->stored[ctx->stored_tail++];
nums[0] = (nums[0] - 32ULL) & 255ULL;
nums[1] = (nums[1] - 32ULL) & 255ULL;
if (ctx->stored_head == ctx->stored_tail)
ctx->stored_head = ctx->stored_tail = 0;
input->mouseevent.type = LIBTERMINPUT_MOUSEEVENT;
input->mouseevent.event = LIBTERMINPUT_HIGHLIGHT_INSIDE;
input->mouseevent.mods = 0;
input->mouseevent.button = LIBTERMINPUT_BUTTON1;
input->mouseevent.x = (size_t)nums[0];
input->mouseevent.y = (size_t)nums[1];
break;
case 'u':
if (nums[0] > 0x10FFFFULL) {
input->type = LIBTERMINPUT_NONE;
break;
}
encode_utf8(nums[0], input->keypress.symbol);
input->keypress.times = 1;
break;
case '$':
input->keypress.mods |= LIBTERMINPUT_SHIFT;
if (nums[0] >= 200)
goto suppress;
goto tilde_case;
case '@':
input->keypress.mods |= LIBTERMINPUT_SHIFT;
/* fall through */
case '^':
input->keypress.mods |= LIBTERMINPUT_CTRL;
if (nums[0] >= 200)
goto suppress;
/* fall through */
case '~':
tilde_case:
input->keypress.times = 1;
switch (nums[0]) {
case 1: input->keypress.key = LIBTERMINPUT_HOME; break;
case 2: input->keypress.key = LIBTERMINPUT_INS; break;
case 3: input->keypress.key = LIBTERMINPUT_DEL; break;
case 4: input->keypress.key = LIBTERMINPUT_END; break;
case 5: input->keypress.key = LIBTERMINPUT_PRIOR; break;
case 6: input->keypress.key = LIBTERMINPUT_NEXT; break;
case 7: input->keypress.key = LIBTERMINPUT_HOME; break;
case 8: input->keypress.key = LIBTERMINPUT_END; break;
case 9: input->keypress.key = LIBTERMINPUT_ESC; break; /* just made this one up */
case 11: input->keypress.key = LIBTERMINPUT_F1; break;
case 12: input->keypress.key = LIBTERMINPUT_F2; break;
case 13: input->keypress.key = LIBTERMINPUT_F3; break;
case 14: input->keypress.key = LIBTERMINPUT_F4; break;
case 15: input->keypress.key = LIBTERMINPUT_F5; break;
case 17: input->keypress.key = LIBTERMINPUT_F6; break;
case 18: input->keypress.key = LIBTERMINPUT_F7; break;
case 19: input->keypress.key = LIBTERMINPUT_F8; break;
case 20: input->keypress.key = LIBTERMINPUT_F9; break;
case 21: input->keypress.key = LIBTERMINPUT_F10; break;
case 23: input->keypress.key = LIBTERMINPUT_F11; break;
case 24: input->keypress.key = LIBTERMINPUT_F12; break;
case 25: input->keypress.key = LIBTERMINPUT_F1; break;
case 26: input->keypress.key = LIBTERMINPUT_F2; break;
case 28: input->keypress.key = LIBTERMINPUT_F3; break;
case 29: input->keypress.key = LIBTERMINPUT_F4; break;
case 31: input->keypress.key = LIBTERMINPUT_F5; break;
case 32: input->keypress.key = LIBTERMINPUT_F6; break;
case 33: input->keypress.key = LIBTERMINPUT_F7; break;
case 34: input->keypress.key = LIBTERMINPUT_F8; break;
case 200:
ctx->bracketed_paste = 1;
input->type = LIBTERMINPUT_BRACKETED_PASTE_START;
return;
case 201:
ctx->bracketed_paste = 0;
input->type = LIBTERMINPUT_BRACKETED_PASTE_END;
return;
default:
goto suppress;
}
if (25 <= nums[0] && nums[0] <= 34)
input->keypress.mods |= LIBTERMINPUT_SHIFT;
break;
default:
goto suppress;
}
break;
case 3:
switch (ctx->key[1] == '[' ? ctx->key[2] : 0) {
case 'A': input->keypress.key = LIBTERMINPUT_F1; break;
case 'B': input->keypress.key = LIBTERMINPUT_F2; break;
case 'C': input->keypress.key = LIBTERMINPUT_F3; break;
case 'D': input->keypress.key = LIBTERMINPUT_F4; break;
case 'E': input->keypress.key = LIBTERMINPUT_F5; break;
default:
if (ctx->key[1] == '<' && (ctx->key[2] == 'M' || ctx->key[2] == 'm') && nnums >= 3) {
/* Parsing for \e[?1003;1006h output. */
input->mouseevent.event = LIBTERMINPUT_PRESS;
if (ctx->key[2] == 'm')
input->mouseevent.event = LIBTERMINPUT_RELEASE;
goto decimal_mouse_tracking;
} else {
goto suppress;
}
}
break;
default:
goto suppress;
}
break;
case 'O':
switch (!ctx->key[2] ? ctx->key[1] : 0) {
case 'A': input->keypress.key = LIBTERMINPUT_UP; break;
case 'B': input->keypress.key = LIBTERMINPUT_DOWN; break;
case 'C': input->keypress.key = LIBTERMINPUT_RIGHT; break;
case 'D': input->keypress.key = LIBTERMINPUT_LEFT; break;
case 'H': input->keypress.key = LIBTERMINPUT_HOME; break;
case 'F': input->keypress.key = LIBTERMINPUT_END; break;
case 'P': input->keypress.key = LIBTERMINPUT_F1; break;
case 'Q': input->keypress.key = LIBTERMINPUT_F2; break;
case 'R': input->keypress.key = LIBTERMINPUT_F3; break;
case 'S': input->keypress.key = LIBTERMINPUT_F4; break;
case 'p': input->keypress.key = LIBTERMINPUT_KEYPAD_0; break;
case 'q': input->keypress.key = LIBTERMINPUT_KEYPAD_1; break;
case 'r': input->keypress.key = LIBTERMINPUT_KEYPAD_2; break;
case 's': input->keypress.key = LIBTERMINPUT_KEYPAD_3; break;
case 't': input->keypress.key = LIBTERMINPUT_KEYPAD_4; break;
case 'u': input->keypress.key = LIBTERMINPUT_KEYPAD_5; break;
case 'v': input->keypress.key = LIBTERMINPUT_KEYPAD_6; break;
case 'w': input->keypress.key = LIBTERMINPUT_KEYPAD_7; break;
case 'x': input->keypress.key = LIBTERMINPUT_KEYPAD_8; break;
case 'y': input->keypress.key = LIBTERMINPUT_KEYPAD_9; break;
case 'k': input->keypress.key = LIBTERMINPUT_KEYPAD_PLUS; break;
case 'm': input->keypress.key = LIBTERMINPUT_KEYPAD_MINUS; break;
case 'j': input->keypress.key = LIBTERMINPUT_KEYPAD_TIMES; break;
case 'o': input->keypress.key = LIBTERMINPUT_KEYPAD_DIVISION; break;
case 'n': input->keypress.key = LIBTERMINPUT_KEYPAD_DECIMAL; break;
case 'l': input->keypress.key = LIBTERMINPUT_KEYPAD_COMMA; break;
case 'b': input->keypress.key = LIBTERMINPUT_KEYPAD_POINT; break;
case 'M': input->keypress.key = LIBTERMINPUT_KEYPAD_ENTER; break;
default:
goto suppress;
}
break;
default:
/* This shouldn't happen (without goto) */
suppress:
input->type = LIBTERMINPUT_NONE;
break;
}
}
static int
read_bracketed_paste(int fd, union libterminput_input *input, struct libterminput_state *ctx)
{
ssize_t r;
size_t n;
/* Unfortunately there is no standard for how to handle pasted ESC's,
* not even ESC [201~ or ESC ESC. Terminates seem to just paste ESC as
* is, so we cannot do anything about them, however, a good terminal
* would stop the paste at the ~ in ESC [201~, send ~ as normal, and
* then continue the brackated paste mode. */
if (ctx->stored_head - ctx->stored_tail) {
for (n = ctx->stored_tail; n + 6 < ctx->stored_head; n++) {
if (ctx->stored[n + 0] == '\033' && ctx->stored[n + 1] == '[' && ctx->stored[n + 2] == '2' &&
ctx->stored[n + 3] == '0' && ctx->stored[n + 4] == '0' && ctx->stored[n + 5] == '~')
break;
}
if (n == ctx->stored_tail && ctx->stored_head - ctx->stored_tail >= 6) {
ctx->stored_tail += 6;
if (ctx->stored_tail == ctx->stored_head)
ctx->stored_tail = ctx->stored_head = 0;
input->type = LIBTERMINPUT_BRACKETED_PASTE_END;
return 0;
}
input->text.nbytes = ctx->stored_head - ctx->stored_tail;
input->text.type = LIBTERMINPUT_TEXT;
memcpy(input->text.bytes, &ctx->stored[ctx->stored_tail], n - ctx->stored_tail);
ctx->stored_tail = n;
if (ctx->stored_tail == ctx->stored_head)
ctx->stored_tail = ctx->stored_head = 0;
return 0;
}
r = read(fd, input->text.bytes, sizeof(input->text.bytes));
if (r <= 0)
return (int)r;
input->text.nbytes = (size_t)r;
for (n = 0; n + 6 < input->text.nbytes; n++) {
if (input->text.bytes[n + 0] == '\033' && input->text.bytes[n + 1] == '[' && input->text.bytes[n + 2] == '2' &&
input->text.bytes[n + 3] == '0' && input->text.bytes[n + 4] == '0' && input->text.bytes[n + 5] == '~')
break;
}
if (!n && input->text.nbytes >= 6) {
ctx->stored_tail = 0;
ctx->stored_head = input->text.nbytes - 6;
memcpy(ctx->stored, &input->text.bytes[6], ctx->stored_head);
if (ctx->stored_tail == ctx->stored_head)
ctx->stored_tail = ctx->stored_head = 0;
input->type = LIBTERMINPUT_BRACKETED_PASTE_END;
return 0;
}
ctx->stored_tail = 0;
ctx->stored_head = input->text.nbytes - n;
input->text.nbytes = n;
input->text.type = LIBTERMINPUT_TEXT;
return 0;
}
int
libterminput_read(int fd, union libterminput_input *input, struct libterminput_state *ctx)
{
struct input ret;
size_t n, m;
char *p;
int r;
ssize_t rd;
if (!ctx->inited) {
ctx->inited = 1;
memset(input, 0, sizeof(*input));
} else if (input->type == LIBTERMINPUT_KEYPRESS && input->keypress.times > 1) {
input->keypress.times -= 1;
return 1;
}
if (ctx->bracketed_paste)
return read_bracketed_paste(fd, input, ctx);
if (!ctx->mouse_tracking) {
r = read_input(fd, &ret, ctx);
if (r <= 0)
return r;
} else if (ctx->mouse_tracking == 1) {
if (ctx->stored_tail == sizeof(ctx->stored)) {
memmove(ctx->stored, &ctx->stored[ctx->stored_tail], ctx->stored_head - ctx->stored_tail);
ctx->stored_tail -= ctx->stored_head;
ctx->stored_head = 0;
}
rd = read(fd, &ctx->stored[ctx->stored_head], 1);
if (rd <= 0)
return (int)rd;
ctx->stored_head += 1;
p = strchr(ctx->key, '\0');
goto continue_incomplete;
} else {
if (ctx->stored_tail > sizeof(ctx->stored) - (size_t)ctx->mouse_tracking) {
memmove(ctx->stored, &ctx->stored[ctx->stored_tail], ctx->stored_head - ctx->stored_tail);
ctx->stored_tail -= ctx->stored_head;
ctx->stored_head = 0;
}
rd = read(fd, &ctx->stored[ctx->stored_head], (size_t)ctx->mouse_tracking - (ctx->stored_head - ctx->stored_tail));
if (rd <= 0)
return (int)rd;
ctx->stored_head += (size_t)rd;
p = strchr(ctx->key, '\0');
goto continue_incomplete;
}
again:
if (!*ret.symbol) {
/* Incomplete input */
if (ctx->meta < 3) {
/* Up to two Meta/ESC, wait until a third or something else is read */
input->type = LIBTERMINPUT_NONE;
return 1;
}
/* Three ESC's */
input->type = LIBTERMINPUT_KEYPRESS;
input->keypress.key = LIBTERMINPUT_ESC;
input->keypress.times = 3;
input->keypress.mods = ret.mods;
input->keypress.symbol[0] = '\0';
ctx->meta -= 3;
} else if (*ctx->key) {
/* Special keys */
if (ret.mods) {
/* Special key was aborted, restart */
*ctx->key = '\0';
goto again;
}
/* Add new input to sequence */
n = strlen(ctx->key);
m = strlen(ret.symbol);
if (n + m >= sizeof(ctx->key)) {
/* Abort if too long */
input->type = LIBTERMINPUT_NONE;
return 1;
}
p = stpcpy(&ctx->key[n], ret.symbol);
/* Check if sequence is complete */
continue_incomplete:
if (!isalpha(p[-1]) && p[-1] != '~') {
input->type = LIBTERMINPUT_NONE;
return 1;
} else if (ctx->key[0] == '[' && ctx->key[1] == '<' && p == &ctx->key[2]) {
input->type = LIBTERMINPUT_NONE;
return 1;
} else if (ctx->key[0] == '[' && ctx->key[1] == 'M' && (ctx->flags & LIBTERMINPUT_DECSET_1005)) {
ctx->mouse_tracking = 1;
if (ctx->stored_head == ctx->stored_tail) {
input->type = LIBTERMINPUT_NONE;
return 1;
}
n = 0;
r = check_utf8_char(&ctx->stored[ctx->stored_tail + n], &m, ctx->stored_head - (ctx->stored_tail + n));
n += m;
if (!r) {
input->type = LIBTERMINPUT_NONE;
return 1;
} else if (r < 0) {
ctx->mouse_tracking = 0;
input->type = LIBTERMINPUT_NONE;
ctx->stored_tail += n;
return 1;
}
r = check_utf8_char(&ctx->stored[ctx->stored_tail + n], &m, ctx->stored_head - (ctx->stored_tail + n));
n += m;
if (!r) {
input->type = LIBTERMINPUT_NONE;
return 1;
} else if (r < 0) {
ctx->mouse_tracking = 0;
input->type = LIBTERMINPUT_NONE;
ctx->stored_tail += n;
return 1;
}
r = check_utf8_char(&ctx->stored[ctx->stored_tail + n], &m, ctx->stored_head - (ctx->stored_tail + n));
n += m;
if (!r) {
input->type = LIBTERMINPUT_NONE;
return 1;
} else if (r < 0) {
ctx->mouse_tracking = 0;
input->type = LIBTERMINPUT_NONE;
ctx->stored_tail += n;
return 1;
}
} else if (ctx->key[0] == '[' && ctx->key[1] == 'M' && ctx->stored_head - ctx->stored_tail < 3) {
ctx->mouse_tracking = 3;
input->type = LIBTERMINPUT_NONE;
return 1;
} else if (ctx->key[0] == '[' && ctx->key[1] == 't' && ctx->stored_head - ctx->stored_tail < 2) {
ctx->mouse_tracking = 2;
input->type = LIBTERMINPUT_NONE;
return 1;
} else if (ctx->key[0] == '[' && ctx->key[1] == 'T' && ctx->stored_head - ctx->stored_tail < 6) {
ctx->mouse_tracking = 6;
input->type = LIBTERMINPUT_NONE;
return 1;
}
/* Parse the complete sequence */
parse_sequence(input, ctx);
/* Reset */
ctx->meta = 0;
ctx->key[0] = '\0';
} else if (ctx->meta && (!strcmp(ret.symbol, "[") || !strcmp(ret.symbol, "O"))) {
/* ESC [ or ESC 0 is used as the beginning of most special keys */
strcpy(ctx->key, ret.symbol);
input->type = LIBTERMINPUT_NONE;
} else {
/* Character input and single-byte special keys */
input->type = LIBTERMINPUT_KEYPRESS;
input->keypress.mods = ret.mods;
input->keypress.times = 1;
if (ctx->meta) {
/* Transfer meta modifier from state to input */
input->keypress.mods |= LIBTERMINPUT_META;
ctx->meta = 0;
}
switch (ret.symbol[1] ? 0 : ret.symbol[0]) {
case 127:
case '\b':
input->keypress.key = LIBTERMINPUT_ERASE;
input->keypress.symbol[0] = '\0';
break;
case '\t':
input->keypress.key = LIBTERMINPUT_TAB;
input->keypress.symbol[0] = '\0';
break;
case '\n':
input->keypress.key = LIBTERMINPUT_ENTER;
input->keypress.symbol[0] = '\0';
break;
default:
input->keypress.key = LIBTERMINPUT_SYMBOL;
strcpy(input->keypress.symbol, ret.symbol);
break;
}
}
return 1;
}
int
libterminput_set_flags(struct libterminput_state *ctx, enum libterminput_flags flags)
{
ctx->flags |= flags;
return 0;
}
int
libterminput_clear_flags(struct libterminput_state *ctx, enum libterminput_flags flags)
{
ctx->flags |= flags;
ctx->flags ^= flags;
return 0;
}