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foot/vt.c
Daniel Eklöf 1006608093
alt-screen: use a custom 'saved' cursor when switching to alt screen 
This fixes an issue where we failed to restore the cursor correctly
when exiting from the alternate screen, if the client had sent escapes
to save the cursor position while inside the alternate screen.

This was because we used the *same* storage for saving the cursor
position through escapes, as for saving it when entering the alternate
screen.

Fix by using a custom variable dedicated to normal <--> alt screen
switching.
2020-03-16 12:00:25 +01:00

1077 lines
57 KiB
C
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#include "vt.h"
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <assert.h>
#define LOG_MODULE "vt"
#define LOG_ENABLE_DBG 0
#include "log.h"
#include "csi.h"
#include "dcs.h"
#include "grid.h"
#include "osc.h"
#define min(x, y) ((x) < (y) ? (x) : (y))
#define max(x, y) ((x) > (y) ? (x) : (y))
#define UNHANDLED() LOG_DBG("unhandled: %s", esc_as_string(term, final))
/* https://vt100.net/emu/dec_ansi_parser */
enum state {
STATE_GROUND,
STATE_ESCAPE,
STATE_ESCAPE_INTERMEDIATE,
STATE_CSI_ENTRY,
STATE_CSI_PARAM,
STATE_CSI_INTERMEDIATE,
STATE_CSI_IGNORE,
STATE_OSC_STRING,
STATE_DCS_ENTRY,
STATE_DCS_PARAM,
STATE_DCS_INTERMEDIATE,
STATE_DCS_IGNORE,
STATE_DCS_PASSTHROUGH,
STATE_SOS_PM_APC_STRING,
STATE_UTF8_COLLECT_1,
STATE_UTF8_COLLECT_2,
STATE_UTF8_COLLECT_3,
};
#if defined(_DEBUG) && defined(LOG_ENABLE_DBG) && LOG_ENABLE_DBG && 0
static const char *const state_names[] = {
[STATE_GROUND] = "ground",
[STATE_ESCAPE] = "escape",
[STATE_ESCAPE_INTERMEDIATE] = "escape intermediate",
[STATE_CSI_ENTRY] = "CSI entry",
[STATE_CSI_PARAM] = "CSI param",
[STATE_CSI_INTERMEDIATE] = "CSI intermediate",
[STATE_CSI_IGNORE] = "CSI ignore",
[STATE_OSC_STRING] = "OSC string",
[STATE_DCS_ENTRY] = "DCS entry",
[STATE_DCS_PARAM] = "DCS param",
[STATE_DCS_INTERMEDIATE] = "DCS intermediate",
[STATE_DCS_IGNORE] = "DCS ignore",
[STATE_DCS_PASSTHROUGH] = "DCS passthrough",
[STATE_SOS_PM_APC_STRING] = "sos/pm/apc string",
[STATE_UTF8_COLLECT_1] = "UTF8 collect (1 left)",
[STATE_UTF8_COLLECT_2] = "UTF8 collect (2 left)",
[STATE_UTF8_COLLECT_3] = "UTF8 collect (3 left)",
};
#endif
#if defined(LOG_ENABLE_DBG) && LOG_ENABLE_DBG
static const char *
esc_as_string(struct terminal *term, uint8_t final)
{
static char msg[1024];
int c = snprintf(msg, sizeof(msg), "\\E");
for (size_t i = 0; i < sizeof(term->vt.private) / sizeof(term->vt.private[0]); i++) {
if (term->vt.private[i] == 0)
break;
c += snprintf(&msg[c], sizeof(msg) - c, "%c", term->vt.private[i]);
}
assert(term->vt.params.idx == 0);
snprintf(&msg[c], sizeof(msg) - c, "%c", final);
return msg;
}
#endif
static void
action_ignore(struct terminal *term)
{
}
static void
action_clear(struct terminal *term)
{
term->vt.params.idx = 0;
term->vt.private[0] = 0;
term->vt.private[1] = 0;
term->vt.utf8.idx = 0;
}
static void
action_execute(struct terminal *term, uint8_t c)
{
LOG_DBG("execute: 0x%02x", c);
switch (c) {
/*
* 7-bit C0 control characters
*/
case '\0':
break;
case '\n':
/* LF - line feed */
term_linefeed(term);
break;
case '\r':
/* FF - form feed */
term_formfeed(term);
break;
case '\b':
/* backspace */
term_cursor_left(term, 1);
break;
case '\x07':
/* BEL */
// LOG_INFO("BELL");
// term_flash(term, 50);
break;
case '\x09': {
/* HT - horizontal tab */
int new_col = term->cols - 1;
tll_foreach(term->tab_stops, it) {
if (it->item > term->cursor.point.col) {
new_col = it->item;
break;
}
}
assert(new_col >= term->cursor.point.col);
term_cursor_right(term, new_col - term->cursor.point.col);
break;
}
case '\x0b':
/* VT - vertical tab */
term_cursor_down(term, 1);
break;
case '\x0e':
/* SO - shift out */
term->charsets.selected = 1; /* G1 */
break;
case '\x0f':
/* SI - shift in */
term->charsets.selected = 0; /* G0 */
break;
/*
* 8-bit C1 control characters
*
* We ignore these, but keep them here for reference, along
* with their corresponding 7-bit variants.
*
* As far as I can tell, XTerm also ignores these _when in
* UTF-8 mode_. Which would be the normal mode of operation
* these days. And since we _only_ support UTF-8...
*/
#if 0
case '\x84': /* IND -> ESC D */
case '\x85': /* NEL -> ESC E */
case '\x88': /* Tab Set -> ESC H */
case '\x8d': /* RI -> ESC M */
case '\x8e': /* SS2 -> ESC N */
case '\x8f': /* SS3 -> ESC O */
case '\x90': /* DCS -> ESC P */
case '\x96': /* SPA -> ESC V */
case '\x97': /* EPA -> ESC W */
case '\x98': /* SOS -> ESC X */
case '\x9a': /* DECID -> ESC Z (obsolete form of CSI c) */
case '\x9b': /* CSI -> ESC [ */
case '\x9c': /* ST -> ESC \ */
case '\x9d': /* OSC -> ESC ] */
case '\x9e': /* PM -> ESC ^ */
case '\x9f': /* APC -> ESC _ */
break;
#endif
default:
break;
}
}
static void
action_print(struct terminal *term, uint8_t c)
{
/* 0x60 - 0x7e */
static const wchar_t vt100_0[] = {
L'', L'', L'', L'', L'', L'', L'°', L'±', /* ` - g */
L'', L'', L'', L'', L'', L'', L'', L'', /* h - o */
L'', L'', L'', L'', L'', L'', L'', L'', /* p - w */
L'', L'', L'', L'π', L'', L'£', L'·', /* x - ~ */
};
if (unlikely(term->charsets.set[term->charsets.selected] == CHARSET_GRAPHIC) &&
c >= 0x60 && c <= 0x7e)
{
term_print(term, vt100_0[c - 0x60], 1);
} else {
term_print(term, c, 1);
}
}
static void
action_param(struct terminal *term, uint8_t c)
{
if (term->vt.params.idx == 0) {
struct vt_param *param = &term->vt.params.v[0];
param->value = 0;
param->sub.idx = 0;
term->vt.params.idx = 1;
}
assert(term->vt.params.idx > 0);
const size_t max_params
= sizeof(term->vt.params.v) / sizeof(term->vt.params.v[0]);
const size_t max_sub_params
= sizeof(term->vt.params.v[0].sub.value) / sizeof(term->vt.params.v[0].sub.value[0]);
/* New parameter */
if (c == ';') {
if (unlikely(term->vt.params.idx >= max_params))
goto excess_params;
struct vt_param *param = &term->vt.params.v[term->vt.params.idx++];
param->value = 0;
param->sub.idx = 0;
}
/* New sub-parameter */
else if (c == ':') {
if (unlikely(term->vt.params.idx - 1 >= max_params))
goto excess_params;
struct vt_param *param = &term->vt.params.v[term->vt.params.idx - 1];
if (unlikely(param->sub.idx >= max_sub_params))
goto excess_sub_params;
param->sub.value[param->sub.idx++] = 0;
}
/* New digit for current parameter/sub-parameter */
else {
if (unlikely(term->vt.params.idx - 1 >= max_params))
goto excess_params;
struct vt_param *param = &term->vt.params.v[term->vt.params.idx - 1];
unsigned *value;
if (param->sub.idx > 0) {
if (unlikely(param->sub.idx - 1 >= max_sub_params))
goto excess_sub_params;
value = &param->sub.value[param->sub.idx - 1];
} else
value = &param->value;
*value *= 10;
*value += c - '0';
}
#if defined(_DEBUG)
/* The rest of the code assumes 'idx' *never* points outside the array */
assert(term->vt.params.idx <= max_params);
for (size_t i = 0; i < term->vt.params.idx; i++)
assert(term->vt.params.v[i].sub.idx <= max_sub_params);
#endif
return;
excess_params:
{
static bool have_warned = false;
if (!have_warned) {
have_warned = true;
LOG_WARN(
"unsupported: escape with more than %zu parameters "
"(will not warn again)",
sizeof(term->vt.params.v) / sizeof(term->vt.params.v[0]));
}
}
return;
excess_sub_params:
{
static bool have_warned = false;
if (!have_warned) {
have_warned = true;
LOG_WARN(
"unsupported: escape with more than %zu sub-parameters "
"(will not warn again)",
sizeof(term->vt.params.v[0].sub.value) / sizeof(term->vt.params.v[0].sub.value[0]));
}
}
return;
}
static void
action_collect(struct terminal *term, uint8_t c)
{
LOG_DBG("collect: %c", c);
if (term->vt.private[0] == 0)
term->vt.private[0] = c;
else if (term->vt.private[1] == 0)
term->vt.private[1] = c;
else
LOG_WARN("only two private/intermediate characters supported");
}
static void
action_esc_dispatch(struct terminal *term, uint8_t final)
{
LOG_DBG("ESC: %s", esc_as_string(term, final));
switch (term->vt.private[0]) {
case 0:
switch (final) {
case '7':
term->saved_cursor = term->cursor;
term->vt.saved_attrs = term->vt.attrs;
term->saved_charsets = term->charsets;
break;
case '8':
term_restore_cursor(term, &term->saved_cursor);
term->vt.attrs = term->vt.saved_attrs;
term->charsets = term->saved_charsets;
break;
case 'c':
term_reset(term, true);
break;
case 'D':
term_linefeed(term);
break;
case 'E':
term_formfeed(term);
term_linefeed(term);
break;
case 'H':
tll_foreach(term->tab_stops, it) {
if (it->item >= term->cursor.point.col) {
tll_insert_before(term->tab_stops, it, term->cursor.point.col);
break;
}
}
tll_push_back(term->tab_stops, term->cursor.point.col);
break;
case 'M':
term_reverse_index(term);
break;
case 'N':
/* SS2 - Single Shift 2 */
term->charsets.selected = 2; /* G2 */
break;
case 'O':
/* SS3 - Single Shift 3 */
term->charsets.selected = 3; /* G3 */
break;
case '\\':
/* ST - String Terminator */
break;
case '=':
term->keypad_keys_mode = KEYPAD_APPLICATION;
break;
case '>':
term->keypad_keys_mode = KEYPAD_NUMERICAL;
break;
default:
UNHANDLED();
break;
}
break; /* private[0] == 0 */
case '(':
case ')':
case '*':
case '+':
switch (final) {
case '0': {
char priv = term->vt.private[0];
ssize_t idx = priv ==
'(' ? 0 :
')' ? 1 :
'*' ? 2 :
'+' ? 3 : -1;
assert(idx != -1);
term->charsets.set[idx] = CHARSET_GRAPHIC;
break;
}
case 'B': {
char priv = term->vt.private[0];
ssize_t idx = priv ==
'(' ? 0 :
')' ? 1 :
'*' ? 2 :
'+' ? 3 : -1;
assert(idx != -1);
term->charsets.set[idx] = CHARSET_ASCII;
break;
}
}
break;
case '#':
switch (final) {
case '8':
for (int r = 0; r < term->rows; r++) {
struct row *row = grid_row(term->grid, r);
for (int c = 0; c < term->cols; c++) {
row->cells[c].wc = L'E';
row->cells[c].attrs.clean = 0;
}
row->dirty = true;
}
break;
}
break; /* private[0] == '#' */
}
}
static void
action_csi_dispatch(struct terminal *term, uint8_t c)
{
csi_dispatch(term, c);
}
static void
action_osc_start(struct terminal *term, uint8_t c)
{
term->vt.osc.idx = 0;
}
static void
action_osc_end(struct terminal *term, uint8_t c)
{
if (!osc_ensure_size(term, term->vt.osc.idx + 1))
return;
term->vt.osc.data[term->vt.osc.idx] = '\0';
osc_dispatch(term);
}
static void
action_osc_put(struct terminal *term, uint8_t c)
{
if (!osc_ensure_size(term, term->vt.osc.idx + 1))
return;
term->vt.osc.data[term->vt.osc.idx++] = c;
}
static void
action_hook(struct terminal *term, uint8_t c)
{
dcs_hook(term, c);
}
static void
action_unhook(struct terminal *term, uint8_t c)
{
dcs_unhook(term);
}
static void
action_put(struct terminal *term, uint8_t c)
{
dcs_put(term, c);
}
static void
action_utf8_2_entry(struct terminal *term, uint8_t c)
{
term->vt.utf8.idx = 0;
term->vt.utf8.left = 2;
term->vt.utf8.data[term->vt.utf8.idx++] = c;
term->vt.utf8.left--;
}
static void
action_utf8_3_entry(struct terminal *term, uint8_t c)
{
term->vt.utf8.idx = 0;
term->vt.utf8.left = 3;
term->vt.utf8.data[term->vt.utf8.idx++] = c;
term->vt.utf8.left--;
}
static void
action_utf8_4_entry(struct terminal *term, uint8_t c)
{
term->vt.utf8.idx = 0;
term->vt.utf8.left = 4;
term->vt.utf8.data[term->vt.utf8.idx++] = c;
term->vt.utf8.left--;
}
static void
action_utf8_print(struct terminal *term, uint8_t c)
{
/* Convert to wchar */
mbstate_t ps = {0};
wchar_t wc;
size_t count = mbrtowc(
&wc, (const char *)term->vt.utf8.data, term->vt.utf8.idx, &ps);
if ((ssize_t)count < 0)
wc = 0;
/* Reset VT utf8 state */
term->vt.utf8.idx = 0;
int width = wcwidth(wc);
term_print(term, wc, width);
}
static enum state
state_ground_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_execute(term, data); return STATE_GROUND;
case 0x20 ... 0x7f: action_print(term, data); return STATE_GROUND;
case 0xc0 ... 0xdf: action_utf8_2_entry(term, data); return STATE_UTF8_COLLECT_1;
case 0xe0 ... 0xef: action_utf8_3_entry(term, data); return STATE_UTF8_COLLECT_2;
case 0xf0 ... 0xf7: action_utf8_4_entry(term, data); return STATE_UTF8_COLLECT_3;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_GROUND;
}
}
static enum state
state_escape_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_execute(term, data); return STATE_ESCAPE;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_ESCAPE_INTERMEDIATE;
case 0x30 ... 0x4f: action_esc_dispatch(term, data); return STATE_GROUND;
case 0x50: action_clear(term); return STATE_DCS_ENTRY;
case 0x51 ... 0x57: action_esc_dispatch(term, data); return STATE_GROUND;
case 0x58: return STATE_SOS_PM_APC_STRING;
case 0x59: action_esc_dispatch(term, data); return STATE_GROUND;
case 0x5a: action_esc_dispatch(term, data); return STATE_GROUND;
case 0x5b: action_clear(term); return STATE_CSI_ENTRY;
case 0x5c: action_esc_dispatch(term, data); return STATE_GROUND;
case 0x5d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x5e ... 0x5f: return STATE_SOS_PM_APC_STRING;
case 0x60 ... 0x7e: action_esc_dispatch(term, data); return STATE_GROUND;
case 0x7f: action_ignore(term); return STATE_ESCAPE;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_ESCAPE;
}
}
static enum state
state_escape_intermediate_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_execute(term, data); return STATE_ESCAPE_INTERMEDIATE;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_ESCAPE_INTERMEDIATE;
case 0x30 ... 0x7e: action_esc_dispatch(term, data); return STATE_GROUND;
case 0x7f: action_ignore(term); return STATE_ESCAPE_INTERMEDIATE;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_ESCAPE_INTERMEDIATE;
}
}
static enum state
state_csi_entry_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_execute(term, data); return STATE_CSI_ENTRY;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_CSI_INTERMEDIATE;
case 0x30 ... 0x39: action_param(term, data); return STATE_CSI_PARAM;
case 0x3a ... 0x3b: action_param(term, data); return STATE_CSI_PARAM;
case 0x3c ... 0x3f: action_collect(term, data); return STATE_CSI_PARAM;
case 0x40 ... 0x7e: action_csi_dispatch(term, data); return STATE_GROUND;
case 0x7f: action_ignore(term); return STATE_CSI_ENTRY;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_CSI_ENTRY;
}
}
static enum state
state_csi_param_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_execute(term, data); return STATE_CSI_PARAM;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_CSI_INTERMEDIATE;
case 0x30 ... 0x39:
case 0x3a ... 0x3b: action_param(term, data); return STATE_CSI_PARAM;
case 0x3c ... 0x3f: return STATE_CSI_IGNORE;
case 0x40 ... 0x7e: action_csi_dispatch(term, data); return STATE_GROUND;
case 0x7f: action_ignore(term); return STATE_CSI_PARAM;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_CSI_PARAM;
}
}
static enum state
state_csi_intermediate_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_execute(term, data); return STATE_CSI_INTERMEDIATE;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_CSI_INTERMEDIATE;
case 0x30 ... 0x3f: return STATE_CSI_IGNORE;
case 0x40 ... 0x7e: action_csi_dispatch(term, data); return STATE_GROUND;
case 0x7f: action_ignore(term); return STATE_CSI_INTERMEDIATE;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_CSI_INTERMEDIATE;
}
}
static enum state
state_csi_ignore_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_execute(term, data); return STATE_CSI_IGNORE;
case 0x20 ... 0x3f: action_ignore(term); return STATE_CSI_IGNORE;
case 0x40 ... 0x7e: return STATE_GROUND;
case 0x7f: action_ignore(term); return STATE_CSI_IGNORE;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_CSI_IGNORE;
}
}
static enum state
state_osc_string_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
/* Note: original was 20-7f, but I changed to 20-ff to include utf-8. Don't forget to add EXECUTE to 8-bit C1 if we implement that. */
default: action_osc_put(term, data); return STATE_OSC_STRING;
case 0x07: action_osc_end(term, data); return STATE_GROUND;
case 0x00 ... 0x06:
case 0x08 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_ignore(term); return STATE_OSC_STRING;
case 0x18:
case 0x1a: action_osc_end(term, data); action_execute(term, data); return STATE_GROUND;
case 0x1b: action_osc_end(term, data); action_clear(term); return STATE_ESCAPE;
}
}
static enum state
state_dcs_entry_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_ignore(term); return STATE_DCS_ENTRY;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_DCS_INTERMEDIATE;
case 0x30 ... 0x39: action_param(term, data); return STATE_DCS_PARAM;
case 0x3a: return STATE_DCS_IGNORE;
case 0x3b: action_param(term, data); return STATE_DCS_PARAM;
case 0x3c ... 0x3f: action_collect(term, data); return STATE_DCS_PARAM;
case 0x40 ... 0x7e: action_hook(term, data); return STATE_DCS_PASSTHROUGH;
case 0x7f: action_ignore(term); return STATE_DCS_ENTRY;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_DCS_ENTRY;
}
}
static enum state
state_dcs_param_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_ignore(term); return STATE_DCS_PARAM;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_DCS_INTERMEDIATE;
case 0x30 ... 0x39: action_param(term, data); return STATE_DCS_PARAM;
case 0x3a: return STATE_DCS_IGNORE;
case 0x3b: action_param(term, data); return STATE_DCS_PARAM;
case 0x3c ... 0x3f: return STATE_DCS_IGNORE;
case 0x40 ... 0x7e: action_hook(term, data); return STATE_DCS_PASSTHROUGH;
case 0x7f: action_ignore(term); return STATE_DCS_PARAM;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_DCS_PARAM;
}
}
static enum state
state_dcs_intermediate_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f: action_ignore(term); return STATE_DCS_INTERMEDIATE;
case 0x20 ... 0x2f: action_collect(term, data); return STATE_DCS_INTERMEDIATE;
case 0x30 ... 0x3f: return STATE_DCS_IGNORE;
case 0x40 ... 0x7e: action_hook(term, data); return STATE_DCS_PASSTHROUGH;
case 0x7f: action_ignore(term); return STATE_DCS_INTERMEDIATE;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_DCS_INTERMEDIATE;
}
}
static enum state
state_dcs_ignore_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x1f:
case 0x20 ... 0x7f: action_ignore(term); return STATE_DCS_IGNORE;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_DCS_IGNORE;
}
}
static enum state
state_dcs_passthrough_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x7e: action_put(term, data); return STATE_DCS_PASSTHROUGH;
case 0x7f: action_ignore(term); return STATE_DCS_PASSTHROUGH;
/* Anywhere */
case 0x18: action_unhook(term, data); action_execute(term, data); return STATE_GROUND;
case 0x1a: action_unhook(term, data); action_execute(term, data); return STATE_GROUND;
case 0x1b: action_unhook(term, data); action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_unhook(term, data); action_execute(term, data); return STATE_GROUND;
case 0x90: action_unhook(term, data); action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_unhook(term, data); action_execute(term, data); return STATE_GROUND;
case 0x98: action_unhook(term, data); return STATE_SOS_PM_APC_STRING;
case 0x99: action_unhook(term, data); action_execute(term, data); return STATE_GROUND;
case 0x9a: action_unhook(term, data); action_execute(term, data); return STATE_GROUND;
case 0x9b: action_unhook(term, data); action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: action_unhook(term, data); return STATE_GROUND;
case 0x9d: action_unhook(term, data); action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: action_unhook(term, data); return STATE_SOS_PM_APC_STRING;
default: return STATE_DCS_PASSTHROUGH;
}
}
static enum state
state_sos_pm_apc_string_switch(struct terminal *term, uint8_t data)
{
switch (data) {
/* exit current enter new state */
case 0x00 ... 0x17:
case 0x19:
case 0x1c ... 0x7f: action_ignore(term); return STATE_SOS_PM_APC_STRING;
/* Anywhere */
case 0x18: action_execute(term, data); return STATE_GROUND;
case 0x1a: action_execute(term, data); return STATE_GROUND;
case 0x1b: action_clear(term); return STATE_ESCAPE;
case 0x80 ... 0x8f: action_execute(term, data); return STATE_GROUND;
case 0x90: action_clear(term); return STATE_DCS_ENTRY;
case 0x91 ... 0x97: action_execute(term, data); return STATE_GROUND;
case 0x98: return STATE_SOS_PM_APC_STRING;
case 0x99: action_execute(term, data); return STATE_GROUND;
case 0x9a: action_execute(term, data); return STATE_GROUND;
case 0x9b: action_clear(term); return STATE_CSI_ENTRY;
case 0x9c: return STATE_GROUND;
case 0x9d: action_osc_start(term, data); return STATE_OSC_STRING;
case 0x9e ... 0x9f: return STATE_SOS_PM_APC_STRING;
default: return STATE_SOS_PM_APC_STRING;
}
}
static enum state
state_utf8_collect_1_switch(struct terminal *term, uint8_t data)
{
term->vt.utf8.data[term->vt.utf8.idx++] = data;
term->vt.utf8.left--;
assert(term->vt.utf8.left == 0);
action_utf8_print(term, data);
return STATE_GROUND;
}
static enum state
state_utf8_collect_2_switch(struct terminal *term, uint8_t data)
{
term->vt.utf8.data[term->vt.utf8.idx++] = data;
term->vt.utf8.left--;
assert(term->vt.utf8.left == 1);
return STATE_UTF8_COLLECT_1;
}
static enum state
state_utf8_collect_3_switch(struct terminal *term, uint8_t data)
{
term->vt.utf8.data[term->vt.utf8.idx++] = data;
term->vt.utf8.left--;
assert(term->vt.utf8.left == 2);
return STATE_UTF8_COLLECT_2;
}
void
vt_from_slave(struct terminal *term, const uint8_t *data, size_t len)
{
enum state current_state = term->vt.state;
const uint8_t *p = data;
for (size_t i = 0; i < len; i++, p++) {
switch (current_state) {
case STATE_GROUND: current_state = state_ground_switch(term, *p); break;
case STATE_ESCAPE: current_state = state_escape_switch(term, *p); break;
case STATE_ESCAPE_INTERMEDIATE: current_state = state_escape_intermediate_switch(term, *p); break;
case STATE_CSI_ENTRY: current_state = state_csi_entry_switch(term, *p); break;
case STATE_CSI_PARAM: current_state = state_csi_param_switch(term, *p); break;
case STATE_CSI_INTERMEDIATE: current_state = state_csi_intermediate_switch(term, *p); break;
case STATE_CSI_IGNORE: current_state = state_csi_ignore_switch(term, *p); break;
case STATE_OSC_STRING: current_state = state_osc_string_switch(term, *p); break;
case STATE_DCS_ENTRY: current_state = state_dcs_entry_switch(term, *p); break;
case STATE_DCS_PARAM: current_state = state_dcs_param_switch(term, *p); break;
case STATE_DCS_INTERMEDIATE: current_state = state_dcs_intermediate_switch(term, *p); break;
case STATE_DCS_IGNORE: current_state = state_dcs_ignore_switch(term, *p); break;
case STATE_DCS_PASSTHROUGH: current_state = state_dcs_passthrough_switch(term, *p); break;
case STATE_SOS_PM_APC_STRING: current_state = state_sos_pm_apc_string_switch(term, *p); break;
case STATE_UTF8_COLLECT_1: current_state = state_utf8_collect_1_switch(term, *p); break;
case STATE_UTF8_COLLECT_2: current_state = state_utf8_collect_2_switch(term, *p); break;
case STATE_UTF8_COLLECT_3: current_state = state_utf8_collect_3_switch(term, *p); break;
}
}
term->vt.state = current_state;
}
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