#include "termkey.h" #include "termkey-internal.h" #include #include typedef struct { termkey_t *tk; // There are 64 codes 0x40 - 0x7F struct keyinfo csi_ss3s[64]; struct keyinfo ss3s[64]; char ss3_kpalts[64]; int ncsifuncs; struct keyinfo *csifuncs; } termkey_csi; static termkey_keysym register_csi_ss3(termkey_csi *csi, termkey_type type, termkey_keysym sym, unsigned char cmd, const char *name); static termkey_keysym register_ss3kpalt(termkey_csi *csi, termkey_type type, termkey_keysym sym, unsigned char cmd, const char *name, char kpalt); static termkey_keysym register_csifunc(termkey_csi *csi, termkey_type type, termkey_keysym sym, int number, const char *name); static termkey_keysym register_csi_ss3_full(termkey_csi *csi, termkey_type type, termkey_keysym sym, int modifier_set, int modifier_mask, unsigned char cmd, const char *name); static termkey_keysym register_ss3kpalt_full(termkey_csi *csi, termkey_type type, termkey_keysym sym, int modifier_set, int modifier_mask, unsigned char cmd, const char *name, char kpalt); static termkey_keysym register_csifunc_full(termkey_csi *csi, termkey_type type, termkey_keysym sym, int modifier_set, int modifier_mask, int number, const char *name); static void *new_driver(termkey_t *tk) { termkey_csi *csi = malloc(sizeof *csi); csi->tk = tk; int i; for(i = 0; i < 64; i++) { csi->csi_ss3s[i].sym = TERMKEY_SYM_UNKNOWN; csi->ss3s[i].sym = TERMKEY_SYM_UNKNOWN; csi->ss3_kpalts[i] = 0; } csi->ncsifuncs = 32; csi->csifuncs = malloc(sizeof(csi->csifuncs[0]) * csi->ncsifuncs); for(i = 0; i < csi->ncsifuncs; i++) csi->csifuncs[i].sym = TERMKEY_SYM_UNKNOWN; register_csi_ss3(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_UP, 'A', "Up"); register_csi_ss3(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_DOWN, 'B', "Down"); register_csi_ss3(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_RIGHT, 'C', "Right"); register_csi_ss3(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_LEFT, 'D', "Left"); register_csi_ss3(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_BEGIN, 'E', "Begin"); register_csi_ss3(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_END, 'F', "End"); register_csi_ss3(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_HOME, 'H', "Home"); register_csi_ss3(csi, TERMKEY_TYPE_FUNCTION, 1, 'P', NULL); register_csi_ss3(csi, TERMKEY_TYPE_FUNCTION, 2, 'Q', NULL); register_csi_ss3(csi, TERMKEY_TYPE_FUNCTION, 3, 'R', NULL); register_csi_ss3(csi, TERMKEY_TYPE_FUNCTION, 4, 'S', NULL); register_csi_ss3_full(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_TAB, TERMKEY_KEYMOD_SHIFT, TERMKEY_KEYMOD_SHIFT, 'Z', NULL); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPENTER, 'M', "KPEnter", 0); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPEQUALS, 'X', "KPEquals", '='); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPMULT, 'j', "KPMult", '*'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPPLUS, 'k', "KPPlus", '+'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPCOMMA, 'l', "KPComma", ','); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPMINUS, 'm', "KPMinus", '-'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPPERIOD, 'n', "KPPeriod", '.'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KPDIV, 'o', "KPDiv", '/'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP0, 'p', "KP0", '0'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP1, 'q', "KP1", '1'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP2, 'r', "KP2", '2'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP3, 's', "KP3", '3'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP4, 't', "KP4", '4'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP5, 'u', "KP5", '5'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP6, 'v', "KP6", '6'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP7, 'w', "KP7", '7'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP8, 'x', "KP8", '8'); register_ss3kpalt(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_KP9, 'y', "KP9", '9'); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_FIND, 1, "Find"); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_INSERT, 2, "Insert"); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_DELETE, 3, "Delete"); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_SELECT, 4, "Select"); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_PAGEUP, 5, "PageUp"); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_PAGEDOWN, 6, "PageDown"); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_HOME, 7, "Home"); register_csifunc(csi, TERMKEY_TYPE_KEYSYM, TERMKEY_SYM_END, 8, "End"); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 1, 11, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 2, 12, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 3, 13, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 4, 14, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 5, 15, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 6, 17, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 7, 18, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 8, 19, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 9, 20, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 10, 21, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 11, 23, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 12, 24, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 13, 25, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 14, 26, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 15, 28, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 16, 29, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 17, 31, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 18, 32, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 19, 33, NULL); register_csifunc(csi, TERMKEY_TYPE_FUNCTION, 20, 34, NULL); return csi; } static void free_driver(void *private) { termkey_csi *csi = private; free(csi->csifuncs); csi->csifuncs = NULL; free(csi); } #define UTF8_INVALID 0xFFFD #define CHARAT(i) (tk->buffer[tk->buffstart + (i)]) static termkey_result getkey_csi(termkey_t *tk, size_t introlen, termkey_key *key) { termkey_csi *csi = tk->driver_info; size_t csi_end = introlen; while(csi_end < tk->buffcount) { if(CHARAT(csi_end) >= 0x40 && CHARAT(csi_end) < 0x80) break; csi_end++; } if(csi_end >= tk->buffcount) { if(tk->waittime) return TERMKEY_RES_AGAIN; (*tk->method.emit_codepoint)(tk, '[', key); key->modifiers |= TERMKEY_KEYMOD_ALT; (*tk->method.eat_bytes)(tk, introlen); return TERMKEY_RES_KEY; } unsigned char cmd = CHARAT(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 = CHARAT(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++; (*tk->method.eat_bytes)(tk, csi_end + 1); if(args > 1 && arg[1] != -1) key->modifiers = arg[1] - 1; else key->modifiers = 0; if(cmd == '~') { key->type = TERMKEY_TYPE_KEYSYM; if(arg[0] == 27) { int mod = key->modifiers; (*tk->method.emit_codepoint)(tk, arg[2], key); key->modifiers |= mod; } else if(arg[0] >= 0 && arg[0] < csi->ncsifuncs) { key->type = csi->csifuncs[arg[0]].type; key->code.sym = csi->csifuncs[arg[0]].sym; key->modifiers &= ~(csi->csifuncs[arg[0]].modifier_mask); key->modifiers |= csi->csifuncs[arg[0]].modifier_set; } else key->code.sym = TERMKEY_SYM_UNKNOWN; if(key->code.sym == TERMKEY_SYM_UNKNOWN) fprintf(stderr, "CSI function key %d\n", arg[0]); } else { // We know from the logic above that cmd must be >= 0x40 and < 0x80 key->type = csi->csi_ss3s[cmd - 0x40].type; key->code.sym = csi->csi_ss3s[cmd - 0x40].sym; key->modifiers &= ~(csi->csi_ss3s[cmd - 0x40].modifier_mask); key->modifiers |= csi->csi_ss3s[cmd - 0x40].modifier_set; if(key->code.sym == TERMKEY_SYM_UNKNOWN) fprintf(stderr, "CSI arg1=%d arg2=%d cmd=%c\n", arg[0], arg[1], cmd); } return TERMKEY_RES_KEY; } static termkey_result getkey_ss3(termkey_t *tk, size_t introlen, termkey_key *key) { termkey_csi *csi = tk->driver_info; if(tk->buffcount < introlen + 1) { if(tk->waittime) return TERMKEY_RES_AGAIN; (*tk->method.emit_codepoint)(tk, 'O', key); key->modifiers |= TERMKEY_KEYMOD_ALT; (*tk->method.eat_bytes)(tk, tk->buffcount); return TERMKEY_RES_KEY; } unsigned char cmd = CHARAT(introlen); (*tk->method.eat_bytes)(tk, introlen + 1); if(cmd < 0x40 || cmd >= 0x80) return TERMKEY_SYM_UNKNOWN; key->type = csi->csi_ss3s[cmd - 0x40].type; key->code.sym = csi->csi_ss3s[cmd - 0x40].sym; key->modifiers = csi->csi_ss3s[cmd - 0x40].modifier_set; if(key->code.sym == TERMKEY_SYM_UNKNOWN) { if(tk->flags & TERMKEY_FLAG_CONVERTKP && csi->ss3_kpalts[cmd - 0x40]) { key->type = TERMKEY_TYPE_UNICODE; key->code.codepoint = csi->ss3_kpalts[cmd - 0x40]; key->modifiers = 0; key->utf8[0] = key->code.codepoint; key->utf8[1] = 0; return TERMKEY_RES_KEY; } key->type = csi->ss3s[cmd - 0x40].type; key->code.sym = csi->ss3s[cmd - 0x40].sym; key->modifiers = csi->ss3s[cmd - 0x40].modifier_set; } if(key->code.sym == TERMKEY_SYM_UNKNOWN) fprintf(stderr, "SS3 %c (0x%02x)\n", cmd, cmd); return TERMKEY_RES_KEY; } static termkey_result getkey(termkey_t *tk, termkey_key *key) { if(tk->buffcount == 0) return tk->is_closed ? TERMKEY_RES_EOF : TERMKEY_RES_NONE; // Now we're sure at least 1 byte is valid unsigned char b0 = CHARAT(0); if(b0 == 0x1b) { if(tk->buffcount == 1) { // This might be an press, or it may want to be part of a longer // sequence if(tk->waittime) return TERMKEY_RES_AGAIN; (*tk->method.emit_codepoint)(tk, b0, key); (*tk->method.eat_bytes)(tk, 1); return TERMKEY_RES_KEY; } unsigned char b1 = CHARAT(1); if(b1 == '[') return getkey_csi(tk, 2, key); if(b1 == 'O') return getkey_ss3(tk, 2, key); if(b1 == 0x1b) { (*tk->method.emit_codepoint)(tk, b0, key); (*tk->method.eat_bytes)(tk, 1); return TERMKEY_RES_KEY; } tk->buffstart++; termkey_result metakey_result = termkey_getkey(tk, key); switch(metakey_result) { case TERMKEY_RES_KEY: key->modifiers |= TERMKEY_KEYMOD_ALT; tk->buffstart--; (*tk->method.eat_bytes)(tk, 1); break; case TERMKEY_RES_NONE: case TERMKEY_RES_EOF: case TERMKEY_RES_AGAIN: break; } return metakey_result; } else if(b0 == 0x8f) { return getkey_ss3(tk, 1, key); } else if(b0 == 0x9b) { return getkey_csi(tk, 1, key); } else if(b0 < 0xa0) { // Single byte C0, G0 or C1 - C1 is never UTF-8 initial byte (*tk->method.emit_codepoint)(tk, b0, key); (*tk->method.eat_bytes)(tk, 1); return TERMKEY_RES_KEY; } else if(tk->flags & TERMKEY_FLAG_UTF8) { // Some UTF-8 int nbytes; int codepoint; key->type = TERMKEY_TYPE_UNICODE; key->modifiers = 0; if(b0 < 0xc0) { // Starts with a continuation byte - that's not right (*tk->method.emit_codepoint)(tk, UTF8_INVALID, key); (*tk->method.eat_bytes)(tk, 1); return TERMKEY_RES_KEY; } else if(b0 < 0xe0) { nbytes = 2; codepoint = b0 & 0x1f; } else if(b0 < 0xf0) { nbytes = 3; codepoint = b0 & 0x0f; } else if(b0 < 0xf8) { nbytes = 4; codepoint = b0 & 0x07; } else if(b0 < 0xfc) { nbytes = 5; codepoint = b0 & 0x03; } else if(b0 < 0xfe) { nbytes = 6; codepoint = b0 & 0x01; } else { (*tk->method.emit_codepoint)(tk, UTF8_INVALID, key); (*tk->method.eat_bytes)(tk, 1); return TERMKEY_RES_KEY; } if(tk->buffcount < nbytes) return tk->waittime ? TERMKEY_RES_AGAIN : TERMKEY_RES_NONE; for(int b = 1; b < nbytes; b++) { unsigned char cb = CHARAT(b); if(cb < 0x80 || cb >= 0xc0) { (*tk->method.emit_codepoint)(tk, UTF8_INVALID, key); (*tk->method.eat_bytes)(tk, b - 1); return TERMKEY_RES_KEY; } codepoint <<= 6; codepoint |= cb & 0x3f; } // Check for overlong sequences if(nbytes > utf8_seqlen(codepoint)) codepoint = UTF8_INVALID; // Check for UTF-16 surrogates or invalid codepoints if((codepoint >= 0xD800 && codepoint <= 0xDFFF) || codepoint == 0xFFFE || codepoint == 0xFFFF) codepoint = UTF8_INVALID; (*tk->method.emit_codepoint)(tk, codepoint, key); (*tk->method.eat_bytes)(tk, nbytes); return TERMKEY_RES_KEY; } else { // Non UTF-8 case - just report the raw byte key->type = TERMKEY_TYPE_UNICODE; key->code.codepoint = b0; key->modifiers = 0; key->utf8[0] = key->code.codepoint; key->utf8[1] = 0; (*tk->method.eat_bytes)(tk, 1); return TERMKEY_RES_KEY; } return TERMKEY_SYM_NONE; } static termkey_keysym register_csi_ss3(termkey_csi *csi, termkey_type type, termkey_keysym sym, unsigned char cmd, const char *name) { return register_csi_ss3_full(csi, type, sym, 0, 0, cmd, name); } static termkey_keysym register_csi_ss3_full(termkey_csi *csi, termkey_type type, termkey_keysym sym, int modifier_set, int modifier_mask, unsigned char cmd, const char *name) { if(cmd < 0x40 || cmd >= 0x80) { fprintf(stderr, "Cannot register CSI/SS3 key at cmd 0x%02x - out of bounds\n", cmd); return -1; } if(name) sym = termkey_register_keyname(csi->tk, sym, name); csi->csi_ss3s[cmd - 0x40].type = type; csi->csi_ss3s[cmd - 0x40].sym = sym; csi->csi_ss3s[cmd - 0x40].modifier_set = modifier_set; csi->csi_ss3s[cmd - 0x40].modifier_mask = modifier_mask; return sym; } static termkey_keysym register_ss3kpalt(termkey_csi *csi, termkey_type type, termkey_keysym sym, unsigned char cmd, const char *name, char kpalt) { return register_ss3kpalt_full(csi, type, sym, 0, 0, cmd, name, kpalt); } static termkey_keysym register_ss3kpalt_full(termkey_csi *csi, termkey_type type, termkey_keysym sym, int modifier_set, int modifier_mask, unsigned char cmd, const char *name, char kpalt) { if(cmd < 0x40 || cmd >= 0x80) { fprintf(stderr, "Cannot register SS3 key at cmd 0x%02x - out of bounds\n", cmd); return -1; } if(name) sym = termkey_register_keyname(csi->tk, sym, name); csi->ss3s[cmd - 0x40].type = type; csi->ss3s[cmd - 0x40].sym = sym; csi->ss3s[cmd - 0x40].modifier_set = modifier_set; csi->ss3s[cmd - 0x40].modifier_mask = modifier_mask; csi->ss3_kpalts[cmd - 0x40] = kpalt; return sym; } static termkey_keysym register_csifunc(termkey_csi *csi, termkey_type type, termkey_keysym sym, int number, const char *name) { return register_csifunc_full(csi, type, sym, 0, 0, number, name); } static termkey_keysym register_csifunc_full(termkey_csi *csi, termkey_type type, termkey_keysym sym, int modifier_set, int modifier_mask, int number, const char *name) { if(name) sym = termkey_register_keyname(csi->tk, sym, name); if(number >= csi->ncsifuncs) { struct keyinfo *new_csifuncs = realloc(csi->csifuncs, sizeof(new_csifuncs[0]) * (number + 1)); csi->csifuncs = new_csifuncs; // Fill in the hole for(int i = csi->ncsifuncs; i < number; i++) csi->csifuncs[i].sym = TERMKEY_SYM_UNKNOWN; csi->ncsifuncs = number + 1; } csi->csifuncs[number].type = type; csi->csifuncs[number].sym = sym; csi->csifuncs[number].modifier_set = modifier_set; csi->csifuncs[number].modifier_mask = modifier_mask; return sym; } struct termkey_driver termkey_driver_csi = { .new_driver = new_driver, .free_driver = free_driver, .getkey = getkey, };