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#include "termkey.h"
#include <errno.h>
#include <unistd.h>
#include <string.h>
// Use GLib to implement for now because I am lazy. Rewrite sometime
#include <glib.h>
#include <stdio.h>
struct termkey {
int fd;
int flags;
unsigned char *buffer;
size_t buffvalid;
size_t buffsize;
char is_closed;
int nkeynames;
const char **keynames;
int ncsi_ss3s;
int *csi_ss3s;
int nss3s;
int *ss3s;
char *ss3_kpalts;
int ncsifuncs;
int *csifuncs;
};
termkey_t *termkey_new_full(int fd, int flags, size_t buffsize)
{
termkey_t *tk = g_new0(struct termkey, 1);
tk->fd = fd;
tk->flags = flags;
tk->buffer = g_malloc0(buffsize);
tk->buffvalid = 0;
tk->buffsize = buffsize;
tk->is_closed = 0;
// Special built-in names
termkey_register_keyname(tk, TERMKEY_SYM_NONE, "NONE");
// C0
termkey_register_keyname(tk, TERMKEY_SYM_BACKSPACE, "Backspace");
termkey_register_keyname(tk, TERMKEY_SYM_TAB, "Tab");
termkey_register_keyname(tk, TERMKEY_SYM_ENTER, "Enter");
termkey_register_keyname(tk, TERMKEY_SYM_ESCAPE, "Escape");
// G1
termkey_register_keyname(tk, TERMKEY_SYM_SPACE, "Space");
termkey_register_keyname(tk, TERMKEY_SYM_DEL, "DEL");
termkey_register_csi_ss3(tk, TERMKEY_SYM_UP, 'A', "Up");
termkey_register_csi_ss3(tk, TERMKEY_SYM_DOWN, 'B', "Down");
termkey_register_csi_ss3(tk, TERMKEY_SYM_RIGHT, 'C', "Right");
termkey_register_csi_ss3(tk, TERMKEY_SYM_LEFT, 'D', "Left");
termkey_register_csi_ss3(tk, TERMKEY_SYM_BEGIN, 'E', "Begin");
termkey_register_csi_ss3(tk, TERMKEY_SYM_END, 'F', "End");
termkey_register_csi_ss3(tk, TERMKEY_SYM_HOME, 'H', "Home");
termkey_register_csi_ss3(tk, TERMKEY_SYM_F1, 'P', "F1");
termkey_register_csi_ss3(tk, TERMKEY_SYM_F2, 'Q', "F2");
termkey_register_csi_ss3(tk, TERMKEY_SYM_F3, 'R', "F3");
termkey_register_csi_ss3(tk, TERMKEY_SYM_F4, 'S', "F4");
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPENTER, 'M', "KPEnter", 0);
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPEQUALS, 'X', "KPEquals", '=');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPMULT, 'j', "KPMult", '*');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPPLUS, 'k', "KPPlus", '+');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPCOMMA, 'l', "KPComma", ',');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPMINUS, 'm', "KPMinus", '-');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPPERIOD, 'n', "KPPeriod", '.');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KPDIV, 'o', "KPDiv", '/');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP0, 'p', "KP0", '0');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP1, 'q', "KP1", '1');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP2, 'r', "KP2", '2');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP3, 's', "KP3", '3');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP4, 't', "KP4", '4');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP5, 'u', "KP5", '5');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP6, 'v', "KP6", '6');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP7, 'w', "KP7", '7');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP8, 'x', "KP8", '8');
termkey_register_ss3kpalt(tk, TERMKEY_SYM_KP9, 'y', "KP9", '9');
termkey_register_csifunc(tk, TERMKEY_SYM_HOME, 1, "Home");
termkey_register_csifunc(tk, TERMKEY_SYM_INSERT, 2, "Insert");
termkey_register_csifunc(tk, TERMKEY_SYM_DELETE, 3, "Delete");
termkey_register_csifunc(tk, TERMKEY_SYM_END, 4, "End");
termkey_register_csifunc(tk, TERMKEY_SYM_PAGEUP, 5, "PageUp");
termkey_register_csifunc(tk, TERMKEY_SYM_PAGEDOWN, 6, "PageDown");
termkey_register_csifunc(tk, TERMKEY_SYM_F5, 15, "F5");
termkey_register_csifunc(tk, TERMKEY_SYM_F6, 17, "F6");
termkey_register_csifunc(tk, TERMKEY_SYM_F7, 18, "F7");
termkey_register_csifunc(tk, TERMKEY_SYM_F8, 19, "F8");
termkey_register_csifunc(tk, TERMKEY_SYM_F9, 20, "F9");
termkey_register_csifunc(tk, TERMKEY_SYM_F10, 21, "F10");
termkey_register_csifunc(tk, TERMKEY_SYM_F11, 23, "F11");
termkey_register_csifunc(tk, TERMKEY_SYM_F12, 24, "F12");
return tk;
}
termkey_t *termkey_new(int fd, int flags)
{
return termkey_new_full(fd, flags, 256);
}
static inline void eatbytes(termkey_t *tk, size_t count)
{
memmove(tk->buffer, tk->buffer + count, tk->buffvalid - count);
tk->buffvalid -= count;
}
static termkey_result getkey_csi(termkey_t *tk, size_t introlen, termkey_key *key)
{
size_t csi_end = introlen;
while(csi_end < tk->buffvalid) {
if(tk->buffer[csi_end] >= 0x40 && tk->buffer[csi_end] < 0x80)
break;
csi_end++;
}
if(csi_end >= tk->buffvalid)
return TERMKEY_RES_NONE;
unsigned char cmd = tk->buffer[csi_end];
int arg[16];
char present = 0;
int args = 0;
size_t p = introlen;
// Now attempt to parse out up number;number;... separated values
while(p < csi_end) {
unsigned char c = tk->buffer[p];
if(c >= '0' && c <= '9') {
if(!present) {
arg[args] = c - '0';
present = 1;
}
else {
arg[args] = (arg[args] * 10) + c - '0';
}
}
else if(c == ';') {
if(!present)
arg[args] = -1;
present = 0;
args++;
if(args > 16)
break;
}
p++;
}
if(!present)
arg[args] = -1;
args++;
eatbytes(tk, csi_end + 1);
if(cmd == '~') {
if(arg[0] >= 0 && arg[0] < tk->ncsifuncs)
key->code = tk->csifuncs[arg[0]];
else
key->code = TERMKEY_SYM_UNKNOWN;
if(key->code == TERMKEY_SYM_UNKNOWN)
fprintf(stderr, "CSI function key %d\n", arg[0]);
}
else {
if(cmd < tk->ncsi_ss3s)
key->code = tk->csi_ss3s[cmd];
else
key->code = TERMKEY_SYM_UNKNOWN;
if(key->code == TERMKEY_SYM_UNKNOWN)
fprintf(stderr, "CSI arg1=%d arg2=%d cmd=%c\n", arg[0], arg[1], cmd);
}
key->modifiers = (args > 1 && arg[1] != -1) ? arg[1] - 1 : 0;
key->flags = TERMKEY_KEYFLAG_SPECIAL;
return TERMKEY_RES_KEY;
}
static termkey_result getkey_ss3(termkey_t *tk, size_t introlen, termkey_key *key)
{
if(introlen + 1 < tk->buffvalid)
return TERMKEY_RES_NONE;
unsigned char cmd = tk->buffer[introlen];
eatbytes(tk, introlen + 1);
key->code = TERMKEY_SYM_UNKNOWN;
if(cmd < tk->ncsi_ss3s)
key->code = tk->csi_ss3s[cmd];
if(key->code == TERMKEY_SYM_UNKNOWN && cmd < tk->nss3s) {
if(tk->flags & TERMKEY_FLAG_CONVERTKP && tk->ss3_kpalts[cmd]) {
key->code = tk->ss3_kpalts[cmd];
key->modifiers = 0;
key->flags = 0;
key->utf8[0] = key->code;
key->utf8[1] = 0;
return TERMKEY_RES_KEY;
}
key->code = tk->ss3s[cmd];
}
if(key->code == TERMKEY_SYM_UNKNOWN)
fprintf(stderr, "SS3 %c (0x%02x)\n", cmd, cmd);
key->modifiers = 0;
key->flags = TERMKEY_KEYFLAG_SPECIAL;
return TERMKEY_RES_KEY;
}
termkey_result termkey_getkey(termkey_t *tk, termkey_key *key)
{
if(tk->buffvalid == 0)
return tk->is_closed ? TERMKEY_RES_EOF : TERMKEY_RES_NONE;
// Now we're sure at least 1 byte is valid
unsigned char b0 = tk->buffer[0];
if(b0 == 0x1b) {
if(tk->buffvalid == 1) {
key->code = TERMKEY_SYM_ESCAPE;
key->modifiers = 0;
key->flags = TERMKEY_KEYFLAG_SPECIAL;
eatbytes(tk, 1);
return TERMKEY_RES_KEY;
}
unsigned char b1 = tk->buffer[1];
if(b1 == '[')
return getkey_csi(tk, 2, key);
if(b1 == 'O')
return getkey_ss3(tk, 2, key);
tk->buffer++;
termkey_result metakey_result = termkey_getkey(tk, key);
switch(metakey_result) {
case TERMKEY_RES_KEY:
key->modifiers |= TERMKEY_KEYMOD_ALT;
tk->buffer--;
eatbytes(tk, 1);
break;
case TERMKEY_RES_NONE:
case TERMKEY_RES_EOF:
break;
}
return metakey_result;
}
else if(b0 < 0x20) {
// Control key
key->code = 0;
if(!(tk->flags & TERMKEY_FLAG_NOINTERPRET)) {
// Try to interpret C0 codes that have nice names
switch(b0) {
case 0x08: key->code = TERMKEY_SYM_BACKSPACE; break;
case 0x09: key->code = TERMKEY_SYM_TAB; break;
case 0x0a: key->code = TERMKEY_SYM_ENTER; break;
}
}
if(!key->code) {
key->code = b0 + 0x40;
key->modifiers = TERMKEY_KEYMOD_CTRL;
key->flags = 0;
key->utf8[0] = key->code;
key->utf8[1] = 0;
}
else {
key->modifiers = 0;
key->flags = TERMKEY_KEYFLAG_SPECIAL;
}
eatbytes(tk, 1);
return TERMKEY_RES_KEY;
}
else if(b0 == 0x20 && !(tk->flags & TERMKEY_FLAG_NOINTERPRET)) {
key->code = TERMKEY_SYM_SPACE;
key->modifiers = 0;
key->flags = TERMKEY_KEYFLAG_SPECIAL;
eatbytes(tk, 1);
return TERMKEY_RES_KEY;
}
else if(b0 == 0x7f && !(tk->flags & TERMKEY_FLAG_NOINTERPRET)) {
key->code = TERMKEY_SYM_DEL;
key->modifiers = 0;
key->flags = TERMKEY_KEYFLAG_SPECIAL;
eatbytes(tk, 1);
return TERMKEY_RES_KEY;
}
else if(b0 >= 0x20 && b0 < 0x80) {
// ASCII lowbyte range
key->code = b0;
key->modifiers = 0;
key->flags = 0;
key->utf8[0] = key->code;
key->utf8[1] = 0;
eatbytes(tk, 1);
return TERMKEY_RES_KEY;
}
fprintf(stderr, "TODO - tk->buffer[0] == 0x%02x\n", tk->buffer[0]);
return TERMKEY_SYM_NONE;
}
termkey_result termkey_waitkey(termkey_t *tk, termkey_key *key)
{
termkey_result ret;
while((ret = termkey_getkey(tk, key)) == TERMKEY_RES_NONE) {
termkey_advisereadable(tk);
}
return ret;
}
void termkey_pushinput(termkey_t *tk, unsigned char *input, size_t inputlen)
{
if(tk->buffvalid + inputlen > tk->buffsize) {
fprintf(stderr, "TODO! Extend input buffer!\n");
exit(0);
}
// Not strcpy just in case of NUL bytes
memcpy(tk->buffer + tk->buffvalid, input, inputlen);
tk->buffvalid += inputlen;
}
void termkey_advisereadable(termkey_t *tk)
{
unsigned char buffer[64]; // Smaller than the default size
size_t len = read(tk->fd, buffer, sizeof buffer);
if(len == -1 && errno == EAGAIN)
return;
else if(len < 1)
tk->is_closed = 1;
else
termkey_pushinput(tk, buffer, len);
}
const char *termkey_describe_sym(termkey_t *tk, int code)
{
if(code == TERMKEY_SYM_UNKNOWN)
return "UNKNOWN";
if(code < tk->nkeynames)
return tk->keynames[code];
return "UNKNOWN";
}
int termkey_register_keyname(termkey_t *tk, int code, const char *name)
{
if(!code)
code = tk->nkeynames;
if(code >= tk->nkeynames) {
tk->keynames = g_renew(const char*, tk->keynames, code + 1);
// Fill in the hole
for(int i = tk->nkeynames; i < code; i++)
tk->keynames[i] = NULL;
tk->nkeynames = code + 1;
}
tk->keynames[code] = name;
return code;
}
int termkey_register_csi_ss3(termkey_t *tk, int code, unsigned char cmd, const char *name)
{
if(name)
code = termkey_register_keyname(tk, code, name);
if(cmd >= tk->ncsi_ss3s) {
tk->csi_ss3s = g_renew(int, tk->csi_ss3s, cmd + 1);
// Fill in the hole
for(int i = tk->ncsi_ss3s; i < cmd; i++)
tk->csi_ss3s[i] = TERMKEY_SYM_UNKNOWN;
tk->ncsi_ss3s = cmd + 1;
}
tk->csi_ss3s[cmd] = code;
return code;
}
int termkey_register_ss3kpalt(termkey_t *tk, int code, unsigned char cmd, const char *name, char kpalt)
{
if(name)
code = termkey_register_keyname(tk, code, name);
if(cmd >= tk->nss3s) {
tk->ss3s = g_renew(int, tk->ss3s, cmd + 1);
tk->ss3_kpalts = g_renew(char, tk->ss3_kpalts, cmd + 1);
// Fill in the hole
for(int i = tk->nss3s; i < cmd; i++) {
tk->ss3s[i] = TERMKEY_SYM_UNKNOWN;
tk->ss3_kpalts[i] = 0;
}
tk->nss3s = cmd + 1;
}
tk->ss3s[cmd] = code;
tk->ss3_kpalts[cmd] = kpalt;
return code;
}
int termkey_register_csifunc(termkey_t *tk, int code, int number, const char *name)
{
if(name)
code = termkey_register_keyname(tk, code, name);
if(number >= tk->ncsifuncs) {
tk->csifuncs = g_renew(int, tk->csifuncs, number + 1);
tk->ncsifuncs = number + 1;
// Fill in the hole
for(int i = tk->ncsifuncs; i < number; i++)
tk->csifuncs[i] = TERMKEY_SYM_UNKNOWN;
}
tk->csifuncs[number] = code;
return code;
}
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