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

316 lines
6.6 KiB

#include <esp8266.h>
#include "screen.h"
#include "ansi_parser.h"
// Max nr of CSI parameters
#define CSI_N_MAX 3
/**
* \brief Handle fully received CSI ANSI sequence
* \param leadchar - private range leading character, 0 if none
* \param params - array of CSI_N_MAX ints holding the numeric arguments
* \param keychar - the char terminating the sequence
*/
void ICACHE_FLASH_ATTR
handle_CSI(char leadchar, int *params, char keychar)
{
/*
Implemented codes (from Wikipedia)
CSI n A CUU Cursor Up
CSI n B CUD Cursor Down
CSI n C CUF Cursor Forward
CSI n D CUB Cursor Back
CSI n E CNL Cursor Next Line
CSI n F CPL Cursor Previous Line
CSI n G CHA Cursor Horizontal Absolute
CSI n ; m H CUP Cursor Position
CSI n J ED Erase Display
CSI n K EL Erase in Line
CSI n S SU Scroll Up
CSI n T SD Scroll Down
CSI n ; m f HVP Horizontal and Vertical Position
CSI n m SGR Select Graphic Rendition (Implemented only some)
CSI 6n DSR Device Status Report NOT IMPL
CSI s SCP Save Cursor Position
CSI u RCP Restore Cursor Position
CSI ?25l DECTCEM Hides the cursor
CSI ?25h DECTCEM Shows the cursor
*/
int n1 = params[0];
int n2 = params[1];
// int n3 = params[2];
// defaults
switch (keychar) {
case 'A':
case 'B':
case 'C':
case 'D':
case 'E':
case 'F':
case 'G':
case 'S':
case 'T':
if (n1 == 0) n1 = 1;
break;
case 'H':
case 'f':
if (n1 == 0) n1 = 1;
if (n2 == 0) n2 = 1;
break;
case 'J':
case 'K':
if (n1 > 2) n1 = 0;
break;
}
switch (keychar) {
// CUU CUD CUF CUB
case 'A': screen_cursor_move(0, -n1); break;
case 'B': screen_cursor_move(0, n1); break;
case 'C': screen_cursor_move(n1, 0); break;
case 'D': screen_cursor_move(-n1, 0); break;
case 'E': // CNL
screen_cursor_move(0, n1);
screen_cursor_set_x(0);
break;
case 'F': // CPL
screen_cursor_move(0, -n1);
screen_cursor_set_x(0);
break;
// CHA
case 'G':
screen_cursor_set_x(n1 - 1); break; // 1-based
// SU, SD
case 'S': screen_scroll_up(n1); break;
case 'T': screen_scroll_down(n1); break;
// CUP,HVP
case 'H':
case 'f':
screen_cursor_set(n2-1, n1-1); break; // 1-based
case 'J': // ED
if (n1 == 0) {
screen_clear(CLEAR_TO_CURSOR);
} else if (n1 == 1) {
screen_clear(CLEAR_FROM_CURSOR);
} else {
screen_clear(CLEAR_ALL);
screen_cursor_set(0, 0);
}
break;
case 'K': // EL
if (n1 == 0) {
screen_clear_line(CLEAR_TO_CURSOR);
} else if (n1 == 1) {
screen_clear_line(CLEAR_FROM_CURSOR);
} else {
screen_clear_line(CLEAR_ALL);
screen_cursor_set_x(0);
}
break;
// SCP, RCP
case 's': screen_cursor_save(); break;
case 'u': screen_cursor_restore(); break;
// DECTCEM cursor show hide
case 'l':
if (leadchar == '?' && n1 == 25) {
screen_cursor_enable(1);
}
break;
case 'h':
if (leadchar == '?' && n1 == 25) {
screen_cursor_enable(0);
}
break;
case 'm': // SGR
// iterate arguments
for (int i = 0; i < CSI_N_MAX; i++) {
int n = params[i];
if (i == 0 && n == 0) { // reset SGR
screen_set_fg(7);
screen_set_bg(0);
break; // cannot combine reset with others
}
else if (n >= 30 && n <= 37) screen_set_fg(n-30); // ANSI normal fg
else if (n >= 40 && n <= 47) screen_set_bg(n-40); // ANSI normal bg
else if (n == 39) screen_set_fg(7); // default fg
else if (n == 49) screen_set_bg(0); // default bg
else if (n == 7) screen_inverse(1); // inverse
else if (n == 27) screen_inverse(0); // positive
else if (n == 1) screen_set_bright_fg(); // ANSI bold = bright fg
else if (n >= 90 && n <= 97) screen_set_fg(n-90+8); // AIX bright fg
else if (n >= 100 && n <= 107) screen_set_bg(n-100+8); // AIX bright bg
}
break;
}
}
/**
* \brief Handle a request to reset the display device
*/
void ICACHE_FLASH_ATTR
handle_RESET_cmd(void)
{
screen_reset();
}
/**
* \brief Handle a received plain character
* \param c - the character
*/
void ICACHE_FLASH_ATTR
handle_plainchar(char c)
{
screen_putchar(c);
}
/* Ragel constants block */
%%{
machine ansi;
write data;
}%%
/**
* \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(const char *newdata, size_t len)
{
static int cs = -1;
// The CSI code is built here
static char csi_leading; //!< Leading char, 0 if none
static int csi_ni; //!< Number of the active digit
static int csi_n[CSI_N_MAX]; //!< Param digits
static char csi_char; //!< CSI action char (end)
if (len == 0) len = strlen(newdata);
// Load new data to Ragel vars
const char *p = newdata;
const char *eof = NULL;
const char *pe = newdata + len;
// Init Ragel on the first run
if (cs == -1) {
%% write init;
}
// The parser
%%{
ESC = 27;
NOESC = (any - ESC);
TOK_ST = ESC '\\'; # String terminator - used for OSC commands
# --- Regular characters to be printed ---
action plain_char {
handle_plainchar(fc);
}
# --- CSI CSI commands (Select Graphic Rendition) ---
# Text color & style
action CSI_start {
/* Reset the CSI builder */
csi_leading = csi_char = 0;
csi_ni = 0;
/* Zero out digits */
for(int i = 0; i < CSI_N_MAX; i++) {
csi_n[i] = 0;
}
fgoto CSI_body;
}
action CSI_leading {
csi_leading = fc;
}
action CSI_digit {
/* x10 + digit */
if (csi_ni < CSI_N_MAX) {
csi_n[csi_ni] = csi_n[csi_ni]*10 + (fc - '0');
}
}
action CSI_semi {
csi_ni++;
}
action CSI_end {
csi_char = fc;
handle_CSI(csi_leading, csi_n, csi_char);
fgoto main;
}
action CSI_fail {
fgoto main;
}
action main_fail {
fgoto main;
}
CSI_body := ((32..47|60..64) @CSI_leading)?
((digit @CSI_digit)* ';' @CSI_semi)*
(digit @CSI_digit)* alpha @CSI_end $!CSI_fail;
# --- OSC commands (Operating System Commands) ---
# Module parametrisation
action OSC_start {
// TODO implement OS control code parsing
fgoto main;
}
action RESET_cmd {
// Reset screen
handle_RESET_cmd();
fgoto main;
}
# --- Main parser loop ---
main :=
(
(NOESC @plain_char)* ESC (
'[' @CSI_start |
']' @OSC_start |
'c' @RESET_cmd
)
)+ $!main_fail;
write exec;
}%%
}