ESPTerm - ESP8266 terminal emulator. Branches: [master] patches, [work] next release
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espterm-firmware/user/ansi_parser.rl

326 lines
6.2 KiB

#include <esp8266.h>
#include "ansi_parser.h"
#include "ansi_parser_callbacks.h"
#include "ascii.h"
#include "apars_logging.h"
#include "screen.h"
/* Ragel constants block */
%%{
machine ansi;
write data;
}%%
// Max nr of CSI parameters
#define CSI_N_MAX 10
#define ANSI_STR_LEN 64
static volatile int cs = -1;
static volatile bool inside_string = false;
// public
volatile u32 ansi_parser_char_cnt = 0;
volatile bool ansi_parser_inhibit = 0;
void ICACHE_FLASH_ATTR
ansi_parser_reset(void) {
if (cs != ansi_start) {
cs = ansi_start;
inside_string = false;
apars_reset_utf8buffer();
ansi_warn("Parser state reset (timeout?)");
}
}
#define HISTORY_LEN 10
#if DEBUG_ANSI
static char history[HISTORY_LEN + 1];
#endif
void ICACHE_FLASH_ATTR
apars_show_context(void)
{
#if DEBUG_ANSI
char buf1[HISTORY_LEN*3+2];
char buf2[HISTORY_LEN*3+2];
char *b1 = buf1;
char *b2 = buf2;
char c;
for(int i=0;i<HISTORY_LEN;i++) {
c = history[i];
b1 += sprintf(b1, "%2X ", c);
if (c < 32 || c > 127) c = '.';
b2 += sprintf(b2, "%c ", c);
}
ansi_dbg("Context: %s", buf2);
ansi_dbg(" %s", buf1);
#endif
}
/**
* \brief Linear ANSI chars stream parser
*
* Parses a stream of bytes using a Ragel parser. The defined
* grammar does not use 'unget', so the entire buffer is
* always processed in a linear manner.
*
* \attention -> but always check the Ragel output for 'p--'
* or 'p -=', that means trouble.
*
* \param newdata - array of new chars to process
* \param len - length of the newdata buffer
*/
void ICACHE_FLASH_ATTR
ansi_parser(char newchar)
{
// The CSI code is built here
static char leadchar;
static char interchar; // intermediate CSI char
static int arg_ni;
static int arg_cnt;
static int arg[CSI_N_MAX];
static char string_buffer[ANSI_STR_LEN];
static int str_ni;
if (ansi_parser_inhibit) return;
// This is used to detect timeout delay (time since last rx char)
ansi_parser_char_cnt++;
if (termconf->ascii_debug) {
apars_handle_plainchar(newchar);
return;
}
// Init Ragel on the first run
if (cs == -1) {
%% write init;
#if DEBUG_ANSI
memset(history, 0, sizeof(history));
#endif
}
#if DEBUG_ANSI
for(int i=1; i<HISTORY_LEN; i++) {
history[i-1] = history[i];
}
history[HISTORY_LEN-1] = newchar;
#endif
// Handle simple characters immediately (bypass parser)
if (newchar < ' ' && !inside_string) {
switch (newchar) {
case ESC:
// Reset state
cs = ansi_start;
// now the ESC will be processed by the parser
break; // proceed to parser
// Literally passed
case FF:
case VT:
newchar = LF; // translate to LF, like VT100 / xterm do
case CR:
case LF:
case BS:
apars_handle_plainchar(newchar);
return;
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case TAB:
apars_handle_tab();
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return;
// Select G0 or G1
case SI:
apars_handle_chs_switch(0);
return;
case SO:
apars_handle_chs_switch(1);
return;
case BEL:
// bel is also used to terminate OSC
apars_handle_bel();
return;
case ENQ:
apars_handle_enq();
return;
// Cancel the active sequence
case CAN:
case SUB:
cs = ansi_start;
return;
default:
// Discard all other control codes
return;
}
} else {
// bypass the parser for simple characters (speed-up)
if (cs == ansi_start && newchar >= ' ') {
apars_handle_plainchar(newchar);
return;
}
}
// Load new data to Ragel vars
const char *p = &newchar;
const char *eof = NULL;
const char *pe = &newchar + 1;
// The parser
%%{
#/*
ESC = 27;
NOESC = (any - ESC - 7);
TOK_ST = ESC '\\'; # String terminator - used for OSC commands
STR_END = (7 | TOK_ST);
# --- Error handler ---
action errBadSeq {
ansi_warn("Parser error.");
apars_show_context();
inside_string = false; // no longer in string, for sure
fgoto main;
}
# --- Regular characters to be printed ---
action plain_char {
if (fc != 0) {
apars_handle_plainchar(fc);
}
}
# --- CSI commands ---
action CSI_start {
// Reset the CSI builder
leadchar = NUL;
interchar = NUL;
arg_ni = 0;
arg_cnt = 0;
// Zero out digits
for(int i = 0; i < CSI_N_MAX; i++) {
arg[i] = 0;
}
fgoto CSI_body;
}
action CSI_leading {
leadchar = fc;
}
action CSI_digit {
if (arg_cnt == 0) arg_cnt = 1;
// x10 + digit
if (arg_ni < CSI_N_MAX) {
arg[arg_ni] = arg[arg_ni]*10 + (fc - '0');
}
}
action CSI_semi {
if (arg_cnt == 0) arg_cnt = 1; // handle case when first arg is empty
arg_cnt++;
arg_ni++;
}
action CSI_intermed {
interchar = fc;
}
action CSI_end {
apars_handle_csi(leadchar, arg, arg_cnt, interchar, fc);
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fgoto main;
}
#(32..47|60..64)
CSI_body := ([?>=] @CSI_leading)?
((digit @CSI_digit)* ';' @CSI_semi)*
(digit @CSI_digit)* ([ $*"+,)'&!\-] @CSI_intermed)? (alpha|[`@{}~|]) @CSI_end $!errBadSeq;
# --- String commands ---
action StrCmd_start {
leadchar = fc;
str_ni = 0;
string_buffer[0] = '\0';
inside_string = true;
fgoto STRCMD_body;
}
action StrCmd_char {
string_buffer[str_ni++] = fc;
}
action StrCmd_end {
inside_string = false;
string_buffer[str_ni++] = '\0';
apars_handle_string_cmd(leadchar, string_buffer);
fgoto main;
}
# According to the spec, ESC should be allowed inside the string sequence.
# We disallow ESC for simplicity, as it's hardly ever used.
STRCMD_body := ((NOESC @StrCmd_char)* STR_END @StrCmd_end) $!errBadSeq;
# --- Single character ESC ---
action HASH_code {
apars_handle_hash_cmd(fc);
fgoto main;
}
action SHORT_code {
apars_handle_short_cmd(fc);
fgoto main;
}
action SPACE_cmd {
apars_handle_space_cmd(fc);
fgoto main;
}
# --- Charset selection ---
action CharsetCmd_start {
leadchar = fc;
fgoto charsetcmd_body;
}
action CharsetCmd_end {
apars_handle_chs_designate(leadchar, fc);
fgoto main;
}
charsetcmd_body := (NOESC @CharsetCmd_end) $!errBadSeq;
# --- Main parser loop ---
main :=
(
(NOESC @plain_char)* ESC (
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('[' @CSI_start) |
([_\]Pk\^X] @StrCmd_start) |
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('#' digit @HASH_code) |
(([a-zA-Z0-9=<>~}|@\\] - [PXk]) @SHORT_code) |
([()*+-./%] @CharsetCmd_start) |
(' ' [FGLMN] @SPACE_cmd)
)
)+ $!errBadSeq;
write exec;
#*/
}%%
}