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#include "vterm_internal.h"
#include <stdio.h>
#include <string.h>
#define CSI_ARGS_MAX 16
#define CSI_LEADER_MAX 16
#define CSI_INTERMED_MAX 16
static void do_control(VTerm *vt, unsigned char control)
{
if(vt->parser_callbacks && vt->parser_callbacks->control)
if((*vt->parser_callbacks->control)(control, vt->cbdata))
return;
fprintf(stderr, "libvterm: Unhandled control 0x%02x\n", control);
}
static void do_string_csi(VTerm *vt, const char *args, size_t arglen, char command)
{
int i = 0;
int leaderlen = 0;
char leader[CSI_LEADER_MAX];
// Extract leader bytes 0x3c to 0x3f
for( ; i < arglen; i++) {
if(args[i] < 0x3c || args[i] > 0x3f)
break;
if(leaderlen < CSI_LEADER_MAX-1)
leader[leaderlen++] = args[i];
}
leader[leaderlen] = 0;
int argcount = 1; // Always at least 1 arg
for( ; i < arglen; i++)
if(args[i] == 0x3b || args[i] == 0x3a) // ; or :
argcount++;
/* TODO: Consider if these buffers should live in the VTerm struct itself */
long csi_args[CSI_ARGS_MAX];
if(argcount > CSI_ARGS_MAX)
argcount = CSI_ARGS_MAX;
int argi;
for(argi = 0; argi < argcount; argi++)
csi_args[argi] = CSI_ARG_MISSING;
argi = 0;
for(i = leaderlen; i < arglen && argi < argcount; i++) {
switch(args[i]) {
case 0x30: case 0x31: case 0x32: case 0x33: case 0x34:
case 0x35: case 0x36: case 0x37: case 0x38: case 0x39:
if(csi_args[argi] == CSI_ARG_MISSING)
csi_args[argi] = 0;
csi_args[argi] *= 10;
csi_args[argi] += args[i] - '0';
break;
case 0x3a:
csi_args[argi] |= CSI_ARG_FLAG_MORE;
/* FALLTHROUGH */
case 0x3b:
argi++;
break;
default:
goto done_leader;
}
}
done_leader: ;
int intermedlen = 0;
char intermed[CSI_INTERMED_MAX];
for( ; i < arglen; i++) {
if((args[i] & 0xf0) != 0x20)
break;
if(intermedlen < CSI_INTERMED_MAX-1)
intermed[intermedlen++] = args[i];
}
intermed[intermedlen] = 0;
if(i < arglen) {
fprintf(stderr, "libvterm: TODO unhandled CSI bytes \"%.*s\"\n", (int)(arglen - i), args + i);
}
//printf("Parsed CSI args %.*s as:\n", arglen, args);
//printf(" leader: %s\n", leader);
//for(argi = 0; argi < argcount; argi++) {
// printf(" %lu", CSI_ARG(csi_args[argi]));
// if(!CSI_ARG_HAS_MORE(csi_args[argi]))
// printf("\n");
//printf(" intermed: %s\n", intermed);
//}
if(vt->parser_callbacks && vt->parser_callbacks->csi)
if((*vt->parser_callbacks->csi)(leaderlen ? leader : NULL, csi_args, argcount, intermedlen ? intermed : NULL, command, vt->cbdata))
return;
fprintf(stderr, "libvterm: Unhandled CSI %.*s %c\n", (int)arglen, args, command);
}
static void append_strbuffer(VTerm *vt, const char *str, size_t len)
{
if(len > vt->strbuffer_len - vt->strbuffer_cur) {
len = vt->strbuffer_len - vt->strbuffer_cur;
fprintf(stderr, "Truncating strbuffer preserve to %zd bytes\n", len);
}
if(len > 0) {
strncpy(vt->strbuffer + vt->strbuffer_cur, str, len);
vt->strbuffer_cur += len;
}
}
static size_t do_string(VTerm *vt, const char *str_frag, size_t len)
{
if(vt->strbuffer_cur) {
if(str_frag)
append_strbuffer(vt, str_frag, len);
str_frag = vt->strbuffer;
len = vt->strbuffer_cur;
}
else if(!str_frag) {
fprintf(stderr, "parser.c: TODO: No strbuffer _and_ no final fragment???\n");
len = 0;
}
vt->strbuffer_cur = 0;
size_t eaten;
switch(vt->parser_state) {
case NORMAL:
if(vt->parser_callbacks && vt->parser_callbacks->text)
if((eaten = (*vt->parser_callbacks->text)(str_frag, len, vt->cbdata)))
return eaten;
fprintf(stderr, "libvterm: Unhandled text (%zu chars)\n", len);
return 0;
case ESC:
if(len == 1 && str_frag[0] >= 0x40 && str_frag[0] < 0x60) {
// C1 emulations using 7bit clean
// ESC 0x40 == 0x80
do_control(vt, str_frag[0] + 0x40);
return 0;
}
if(vt->parser_callbacks && vt->parser_callbacks->escape)
if((*vt->parser_callbacks->escape)(str_frag, len, vt->cbdata))
return 0;
fprintf(stderr, "libvterm: Unhandled escape ESC 0x%02x\n", str_frag[len-1]);
return 0;
case CSI:
do_string_csi(vt, str_frag, len - 1, str_frag[len - 1]);
return 0;
case OSC:
if(vt->parser_callbacks && vt->parser_callbacks->osc)
if((*vt->parser_callbacks->osc)(str_frag, len, vt->cbdata))
return 0;
fprintf(stderr, "libvterm: Unhandled OSC %.*s\n", (int)len, str_frag);
return 0;
case DCS:
if(vt->parser_callbacks && vt->parser_callbacks->dcs)
if((*vt->parser_callbacks->dcs)(str_frag, len, vt->cbdata))
return 0;
fprintf(stderr, "libvterm: Unhandled DCS %.*s\n", (int)len, str_frag);
return 0;
case ESC_IN_OSC:
case ESC_IN_DCS:
fprintf(stderr, "libvterm: ARGH! Should never do_string() in ESC_IN_{OSC,DCS}\n");
return 0;
}
return 0;
}
void vterm_push_bytes(VTerm *vt, const char *bytes, size_t len)
{
size_t pos = 0;
const char *string_start;
switch(vt->parser_state) {
case NORMAL:
string_start = NULL;
break;
case ESC:
case ESC_IN_OSC:
case ESC_IN_DCS:
case CSI:
case OSC:
case DCS:
string_start = bytes;
break;
}
#define ENTER_STRING_STATE(st) do { vt->parser_state = st; string_start = bytes + pos + 1; } while(0)
#define ENTER_NORMAL_STATE() do { vt->parser_state = NORMAL; string_start = NULL; } while(0)
for( ; pos < len; pos++) {
unsigned char c = bytes[pos];
if(c == 0x00 || c == 0x7f) { // NUL, DEL
if(vt->parser_state != NORMAL) {
append_strbuffer(vt, string_start, bytes + pos - string_start);
string_start = bytes + pos + 1;
}
continue;
}
if(c == 0x18 || c == 0x1a) { // CAN, SUB
ENTER_NORMAL_STATE();
continue;
}
else if(c == 0x1b) { // ESC
if(vt->parser_state == OSC)
vt->parser_state = ESC_IN_OSC;
else if(vt->parser_state == DCS)
vt->parser_state = ESC_IN_DCS;
else
ENTER_STRING_STATE(ESC);
continue;
}
else if(c == 0x07 && // BEL, can stand for ST in OSC or DCS state
(vt->parser_state == OSC || vt->parser_state == DCS)) {
// fallthrough
}
else if(c < 0x20) { // other C0
if(vt->parser_state != NORMAL)
append_strbuffer(vt, string_start, bytes + pos - string_start);
do_control(vt, c);
if(vt->parser_state != NORMAL)
string_start = bytes + pos + 1;
continue;
}
// else fallthrough
switch(vt->parser_state) {
case ESC_IN_OSC:
case ESC_IN_DCS:
if(c == 0x5c) { // ST
switch(vt->parser_state) {
case ESC_IN_OSC: vt->parser_state = OSC; break;
case ESC_IN_DCS: vt->parser_state = DCS; break;
default: break;
}
do_string(vt, string_start, bytes + pos - string_start - 1);
ENTER_NORMAL_STATE();
break;
}
vt->parser_state = ESC;
string_start = bytes + pos;
// else fallthrough
case ESC:
switch(c) {
case 0x50: // DCS
ENTER_STRING_STATE(DCS);
break;
case 0x5b: // CSI
ENTER_STRING_STATE(CSI);
break;
case 0x5d: // OSC
ENTER_STRING_STATE(OSC);
break;
default:
if(c >= 0x30 && c < 0x7f) {
/* +1 to pos because we want to include this command byte as well */
do_string(vt, string_start, bytes + pos - string_start + 1);
ENTER_NORMAL_STATE();
}
else if(c >= 0x20 && c < 0x30) {
/* intermediate byte */
}
else {
fprintf(stderr, "TODO: Unhandled byte %02x in Escape\n", c);
}
}
break;
case CSI:
if(c >= 0x40 && c <= 0x7f) {
/* +1 to pos because we want to include this command byte as well */
do_string(vt, string_start, bytes + pos - string_start + 1);
ENTER_NORMAL_STATE();
}
break;
case OSC:
case DCS:
if(c == 0x07 || (c == 0x9c && !vt->mode.utf8)) {
do_string(vt, string_start, bytes + pos - string_start);
ENTER_NORMAL_STATE();
}
break;
case NORMAL:
if(c >= 0x80 && c < 0xa0 && !vt->mode.utf8) {
switch(c) {
case 0x90: // DCS
ENTER_STRING_STATE(DCS);
break;
case 0x9b: // CSI
ENTER_STRING_STATE(CSI);
break;
case 0x9d: // OSC
ENTER_STRING_STATE(OSC);
break;
default:
do_control(vt, c);
break;
}
}
else {
size_t text_eaten = do_string(vt, bytes + pos, len - pos);
if(text_eaten == 0) {
string_start = bytes + pos;
goto pause;
}
pos += (text_eaten - 1); // we'll ++ it again in a moment
}
break;
}
}
pause:
if(string_start && string_start < len + bytes) {
size_t remaining = len - (string_start - bytes);
append_strbuffer(vt, string_start, remaining);
}
}
|
