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termo/termkey.c

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#include "termkey.h"
#include "termkey-internal.h"
#include <ctype.h>
#include <errno.h>
#include <poll.h>
#include <unistd.h>
#include <string.h>
#include <stdio.h>
void termkey_check_version(int major, int minor)
{
if(major != TERMKEY_VERSION_MAJOR) {
fprintf(stderr, "libtermkey major version mismatch; %d (wants) != %d (library)\n",
major, TERMKEY_VERSION_MAJOR);
exit(1);
}
if(minor > TERMKEY_VERSION_MINOR) {
fprintf(stderr, "libtermkey minor version mismatch; %d (wants) > %d (library)\n",
minor, TERMKEY_VERSION_MINOR);
exit(1);
}
// Happy
}
static struct TermKeyDriver *drivers[] = {
&termkey_driver_ti,
&termkey_driver_csi,
NULL,
};
// Forwards for the "protected" methods
// static void eat_bytes(TermKey *tk, size_t count);
static void emit_codepoint(TermKey *tk, long codepoint, TermKeyKey *key);
static TermKeyResult peekkey_simple(TermKey *tk, TermKeyKey *key, int force, size_t *nbytes);
static TermKeyResult peekkey_mouse(TermKey *tk, TermKeyKey *key, size_t *nbytes);
static TermKeySym register_c0(TermKey *tk, TermKeySym sym, unsigned char ctrl, const char *name);
static TermKeySym register_c0_full(TermKey *tk, TermKeySym sym, int modifier_set, int modifier_mask, unsigned char ctrl, const char *name);
static struct {
TermKeySym sym;
const char *name;
} keynames[] = {
{ TERMKEY_SYM_NONE, "NONE" },
{ TERMKEY_SYM_BACKSPACE, "Backspace" },
{ TERMKEY_SYM_TAB, "Tab" },
{ TERMKEY_SYM_ENTER, "Enter" },
{ TERMKEY_SYM_ESCAPE, "Escape" },
{ TERMKEY_SYM_SPACE, "Space" },
{ TERMKEY_SYM_DEL, "DEL" },
{ TERMKEY_SYM_UP, "Up" },
{ TERMKEY_SYM_DOWN, "Down" },
{ TERMKEY_SYM_LEFT, "Left" },
{ TERMKEY_SYM_RIGHT, "Right" },
{ TERMKEY_SYM_BEGIN, "Begin" },
{ TERMKEY_SYM_FIND, "Find" },
{ TERMKEY_SYM_INSERT, "Insert" },
{ TERMKEY_SYM_DELETE, "Delete" },
{ TERMKEY_SYM_SELECT, "Select" },
{ TERMKEY_SYM_PAGEUP, "PageUp" },
{ TERMKEY_SYM_PAGEDOWN, "PageDown" },
{ TERMKEY_SYM_HOME, "Home" },
{ TERMKEY_SYM_END, "End" },
{ TERMKEY_SYM_CANCEL, "Cancel" },
{ TERMKEY_SYM_CLEAR, "Clear" },
{ TERMKEY_SYM_CLOSE, "Close" },
{ TERMKEY_SYM_COMMAND, "Command" },
{ TERMKEY_SYM_COPY, "Copy" },
{ TERMKEY_SYM_EXIT, "Exit" },
{ TERMKEY_SYM_HELP, "Help" },
{ TERMKEY_SYM_MARK, "Mark" },
{ TERMKEY_SYM_MESSAGE, "Message" },
{ TERMKEY_SYM_MOVE, "Move" },
{ TERMKEY_SYM_OPEN, "Open" },
{ TERMKEY_SYM_OPTIONS, "Options" },
{ TERMKEY_SYM_PRINT, "Print" },
{ TERMKEY_SYM_REDO, "Redo" },
{ TERMKEY_SYM_REFERENCE, "Reference" },
{ TERMKEY_SYM_REFRESH, "Refresh" },
{ TERMKEY_SYM_REPLACE, "Replace" },
{ TERMKEY_SYM_RESTART, "Restart" },
{ TERMKEY_SYM_RESUME, "Resume" },
{ TERMKEY_SYM_SAVE, "Save" },
{ TERMKEY_SYM_SUSPEND, "Suspend" },
{ TERMKEY_SYM_UNDO, "Undo" },
{ TERMKEY_SYM_KP0, "KP0" },
{ TERMKEY_SYM_KP1, "KP1" },
{ TERMKEY_SYM_KP2, "KP2" },
{ TERMKEY_SYM_KP3, "KP3" },
{ TERMKEY_SYM_KP4, "KP4" },
{ TERMKEY_SYM_KP5, "KP5" },
{ TERMKEY_SYM_KP6, "KP6" },
{ TERMKEY_SYM_KP7, "KP7" },
{ TERMKEY_SYM_KP8, "KP8" },
{ TERMKEY_SYM_KP9, "KP9" },
{ TERMKEY_SYM_KPENTER, "KPEnter" },
{ TERMKEY_SYM_KPPLUS, "KPPlus" },
{ TERMKEY_SYM_KPMINUS, "KPMinus" },
{ TERMKEY_SYM_KPMULT, "KPMult" },
{ TERMKEY_SYM_KPDIV, "KPDiv" },
{ TERMKEY_SYM_KPCOMMA, "KPComma" },
{ TERMKEY_SYM_KPPERIOD, "KPPeriod" },
{ TERMKEY_SYM_KPEQUALS, "KPEquals" },
{ 0, NULL },
};
#define CHARAT(i) (tk->buffer[tk->buffstart + (i)])
#ifdef DEBUG
/* Some internal deubgging functions */
static void print_buffer(TermKey *tk)
{
int i;
for(i = 0; i < tk->buffcount && i < 20; i++)
fprintf(stderr, "%02x ", CHARAT(i));
if(tk->buffcount > 20)
fprintf(stderr, "...");
}
static void print_key(TermKey *tk, TermKeyKey *key)
{
switch(key->type) {
case TERMKEY_TYPE_UNICODE:
fprintf(stderr, "Unicode codepoint=U+%04lx utf8='%s'", key->code.codepoint, key->utf8);
break;
case TERMKEY_TYPE_FUNCTION:
fprintf(stderr, "Function F%d", key->code.number);
break;
case TERMKEY_TYPE_KEYSYM:
fprintf(stderr, "Keysym sym=%d(%s)", key->code.sym, termkey_get_keyname(tk, key->code.sym));
break;
case TERMKEY_TYPE_MOUSE:
{
TermKeyMouseEvent ev;
int button, line, col;
termkey_interpret_mouse(tk, key, &ev, &button, &line, &col);
fprintf(stderr, "Mouse ev=%d button=%d pos=(%d,%d)\n", ev, button, line, col);
}
break;
case TERMKEY_TYPE_POSITION:
{
int line, col;
termkey_interpret_position(tk, key, &line, &col);
fprintf(stderr, "Position report pos=(%d,%d)\n", line, col);
}
break;
case TERMKEY_TYPE_MODEREPORT:
{
int initial, mode, value;
termkey_interpret_modereport(tk, key, &initial, &mode, &value);
fprintf(stderr, "Mode report mode=%s %d val=%d\n", initial == '?' ? "DEC" : "ANSI", mode, value);
}
break;
case TERMKEY_TYPE_UNKNOWN_CSI:
fprintf(stderr, "unknown CSI\n");
break;
}
int m = key->modifiers;
fprintf(stderr, " mod=%s%s%s+%02x",
(m & TERMKEY_KEYMOD_CTRL ? "C" : ""),
(m & TERMKEY_KEYMOD_ALT ? "A" : ""),
(m & TERMKEY_KEYMOD_SHIFT ? "S" : ""),
m & ~(TERMKEY_KEYMOD_CTRL|TERMKEY_KEYMOD_ALT|TERMKEY_KEYMOD_SHIFT));
}
static const char *res2str(TermKeyResult res)
{
static char errorbuffer[256];
switch(res) {
case TERMKEY_RES_KEY:
return "TERMKEY_RES_KEY";
case TERMKEY_RES_EOF:
return "TERMKEY_RES_EOF";
case TERMKEY_RES_AGAIN:
return "TERMKEY_RES_AGAIN";
case TERMKEY_RES_NONE:
return "TERMKEY_RES_NONE";
case TERMKEY_RES_ERROR:
snprintf(errorbuffer, sizeof errorbuffer, "TERMKEY_RES_ERROR(errno=%d)\n", errno);
return (const char*)errorbuffer;
}
return "unknown";
}
#endif
/* Similar to snprintf(str, size, "%s", src) except it turns CamelCase into
* space separated values
*/
static int snprint_cameltospaces(char *str, size_t size, const char *src)
{
int prev_lower = 0;
size_t l = 0;
while(*src && l < size - 1) {
if(isupper(*src) && prev_lower) {
if(str)
str[l++] = ' ';
if(l >= size - 1)
break;
}
prev_lower = islower(*src);
str[l++] = tolower(*src++);
}
str[l] = 0;
/* For consistency with snprintf, return the number of bytes that would have
* been written, excluding '\0' */
while(*src) {
if(isupper(*src) && prev_lower) {
l++;
}
prev_lower = islower(*src);
src++; l++;
}
return l;
}
/* Similar to strcmp(str, strcamel, n) except that:
* it compares CamelCase in strcamel with space separated values in str;
* it takes char**s and updates them
* n counts bytes of strcamel, not str
*/
static int strpncmp_camel(const char **strp, const char **strcamelp, size_t n)
{
const char *str = *strp, *strcamel = *strcamelp;
int prev_lower = 0;
for( ; (*str || *strcamel) && n; n--) {
char b = tolower(*strcamel);
if(isupper(*strcamel) && prev_lower) {
if(*str != ' ')
break;
str++;
if(*str != b)
break;
}
else
if(*str != b)
break;
prev_lower = islower(*strcamel);
str++;
strcamel++;
}
*strp = str;
*strcamelp = strcamel;
return *str - *strcamel;
}
static TermKey *termkey_alloc(void)
{
TermKey *tk = malloc(sizeof(TermKey));
if(!tk)
return NULL;
/* Default all the object fields but don't allocate anything */
tk->fd = -1;
tk->flags = 0;
tk->canonflags = 0;
tk->buffer = NULL;
tk->buffstart = 0;
tk->buffcount = 0;
tk->buffsize = 256; /* bytes */
tk->hightide = 0;
tk->restore_termios_valid = 0;
tk->waittime = 50; /* msec */
tk->is_closed = 0;
tk->is_started = 0;
tk->nkeynames = 64;
tk->keynames = NULL;
for(int i = 0; i < 32; i++)
tk->c0[i].sym = TERMKEY_SYM_NONE;
tk->drivers = NULL;
tk->method.emit_codepoint = &emit_codepoint;
tk->method.peekkey_simple = &peekkey_simple;
tk->method.peekkey_mouse = &peekkey_mouse;
return tk;
}
static int termkey_init(TermKey *tk, const char *term)
{
tk->buffer = malloc(tk->buffsize);
if(!tk->buffer)
return 0;
tk->keynames = malloc(sizeof(tk->keynames[0]) * tk->nkeynames);
if(!tk->keynames)
goto abort_free_buffer;
int i;
for(i = 0; i < tk->nkeynames; i++)
tk->keynames[i] = NULL;
for(i = 0; keynames[i].name; i++)
if(termkey_register_keyname(tk, keynames[i].sym, keynames[i].name) == -1)
goto abort_free_keynames;
register_c0(tk, TERMKEY_SYM_BACKSPACE, 0x08, NULL);
register_c0(tk, TERMKEY_SYM_TAB, 0x09, NULL);
register_c0(tk, TERMKEY_SYM_ENTER, 0x0d, NULL);
register_c0(tk, TERMKEY_SYM_ESCAPE, 0x1b, NULL);
struct TermKeyDriverNode *tail = NULL;
for(i = 0; drivers[i]; i++) {
void *info = (*drivers[i]->new_driver)(tk, term);
if(!info)
continue;
#ifdef DEBUG
fprintf(stderr, "Loading the %s driver...\n", drivers[i]->name);
#endif
struct TermKeyDriverNode *thisdrv = malloc(sizeof(*thisdrv));
if(!thisdrv)
goto abort_free_drivers;
thisdrv->driver = drivers[i];
thisdrv->info = info;
thisdrv->next = NULL;
if(!tail)
tk->drivers = thisdrv;
else
tail->next = thisdrv;
tail = thisdrv;
#ifdef DEBUG
fprintf(stderr, "Loaded %s driver\n", drivers[i]->name);
#endif
}
if(!tk->drivers) {
errno = ENOENT;
goto abort_free_keynames;
}
return 1;
abort_free_drivers:
for(struct TermKeyDriverNode *p = tk->drivers; p; ) {
(*p->driver->free_driver)(p->info);
struct TermKeyDriverNode *next = p->next;
free(p);
p = next;
}
abort_free_keynames:
free(tk->keynames);
abort_free_buffer:
free(tk->buffer);
return 0;
}
TermKey *termkey_new(int fd, int flags)
{
TermKey *tk = termkey_alloc();
if(!tk)
return NULL;
tk->fd = fd;
if(!(flags & (TERMKEY_FLAG_RAW|TERMKEY_FLAG_UTF8))) {
char *e;
if(((e = getenv("LANG")) || (e = getenv("LC_MESSAGES")) || (e = getenv("LC_ALL"))) &&
(strstr(e, ".UTF-8") || strstr(e, ".utf8")))
flags |= TERMKEY_FLAG_UTF8;
else
flags |= TERMKEY_FLAG_RAW;
}
termkey_set_flags(tk, flags);
const char *term = getenv("TERM");
if(!termkey_init(tk, term))
goto abort;
if(!termkey_start(tk))
goto abort;
return tk;
abort:
free(tk);
return NULL;
}
TermKey *termkey_new_abstract(const char *term, int flags)
{
TermKey *tk = termkey_alloc();
if(!tk)
return NULL;
tk->fd = -1;
termkey_set_flags(tk, flags);
if(!termkey_init(tk, term)) {
free(tk);
return NULL;
}
termkey_start(tk);
return tk;
}
void termkey_free(TermKey *tk)
{
free(tk->buffer); tk->buffer = NULL;
free(tk->keynames); tk->keynames = NULL;
struct TermKeyDriverNode *p;
for(p = tk->drivers; p; ) {
(*p->driver->free_driver)(p->info);
struct TermKeyDriverNode *next = p->next;
free(p);
p = next;
}
free(tk);
}
void termkey_destroy(TermKey *tk)
{
if(tk->is_started)
termkey_stop(tk);
termkey_free(tk);
}
int termkey_start(TermKey *tk)
{
if(tk->is_started)
return 1;
if(tk->fd != -1 && !(tk->flags & TERMKEY_FLAG_NOTERMIOS)) {
struct termios termios;
if(tcgetattr(tk->fd, &termios) == 0) {
tk->restore_termios = termios;
tk->restore_termios_valid = 1;
termios.c_iflag &= ~(IXON|INLCR|ICRNL);
termios.c_lflag &= ~(ICANON|ECHO);
termios.c_cc[VMIN] = 1;
termios.c_cc[VTIME] = 0;
if(tk->flags & TERMKEY_FLAG_CTRLC)
/* want no signal keys at all, so just disable ISIG */
termios.c_lflag &= ~ISIG;
else {
/* Disable Ctrl-\==VQUIT and Ctrl-D==VSUSP but leave Ctrl-C as SIGINT */
termios.c_cc[VQUIT] = _POSIX_VDISABLE;
termios.c_cc[VSUSP] = _POSIX_VDISABLE;
/* Some OSes have Ctrl-Y==VDSUSP */
#ifdef VDSUSP
termios.c_cc[VDSUSP] = _POSIX_VDISABLE;
#endif
}
#ifdef DEBUG
fprintf(stderr, "Setting termios(3) flags\n");
#endif
tcsetattr(tk->fd, TCSANOW, &termios);
}
}
struct TermKeyDriverNode *p;
for(p = tk->drivers; p; p = p->next)
if(p->driver->start_driver)
if(!(*p->driver->start_driver)(tk, p->info))
return 0;
#ifdef DEBUG
fprintf(stderr, "Drivers started; termkey instance %p is ready\n", tk);
#endif
tk->is_started = 1;
return 1;
}
int termkey_stop(TermKey *tk)
{
if(!tk->is_started)
return 1;
struct TermKeyDriverNode *p;
for(p = tk->drivers; p; p = p->next)
if(p->driver->stop_driver)
(*p->driver->stop_driver)(tk, p->info);
if(tk->restore_termios_valid)
tcsetattr(tk->fd, TCSANOW, &tk->restore_termios);
tk->is_started = 0;
return 1;
}
int termkey_is_started(TermKey *tk)
{
return tk->is_started;
}
int termkey_get_fd(TermKey *tk)
{
return tk->fd;
}
int termkey_get_flags(TermKey *tk)
{
return tk->flags;
}
void termkey_set_flags(TermKey *tk, int newflags)
{
tk->flags = newflags;
if(tk->flags & TERMKEY_FLAG_SPACESYMBOL)
tk->canonflags |= TERMKEY_CANON_SPACESYMBOL;
else
tk->canonflags &= ~TERMKEY_CANON_SPACESYMBOL;
}
void termkey_set_waittime(TermKey *tk, int msec)
{
tk->waittime = msec;
}
int termkey_get_waittime(TermKey *tk)
{
return tk->waittime;
}
int termkey_get_canonflags(TermKey *tk)
{
return tk->canonflags;
}
void termkey_set_canonflags(TermKey *tk, int flags)
{
tk->canonflags = flags;
if(tk->canonflags & TERMKEY_CANON_SPACESYMBOL)
tk->flags |= TERMKEY_FLAG_SPACESYMBOL;
else
tk->flags &= ~TERMKEY_FLAG_SPACESYMBOL;
}
size_t termkey_get_buffer_size(TermKey *tk)
{
return tk->buffsize;
}
int termkey_set_buffer_size(TermKey *tk, size_t size)
{
unsigned char *buffer = realloc(tk->buffer, size);
if(!buffer)
return 0;
tk->buffer = buffer;
tk->buffsize = size;
return 1;
}
size_t termkey_get_buffer_remaining(TermKey *tk)
{
/* Return the total number of free bytes in the buffer, because that's what
* is available to the user. */
return tk->buffsize - tk->buffcount;
}
static void eat_bytes(TermKey *tk, size_t count)
{
if(count >= tk->buffcount) {
tk->buffstart = 0;
tk->buffcount = 0;
return;
}
tk->buffstart += count;
tk->buffcount -= count;
}
static inline unsigned int utf8_seqlen(long codepoint)
{
if(codepoint < 0x0000080) return 1;
if(codepoint < 0x0000800) return 2;
if(codepoint < 0x0010000) return 3;
if(codepoint < 0x0200000) return 4;
if(codepoint < 0x4000000) return 5;
return 6;
}
static void fill_utf8(TermKeyKey *key)
{
long codepoint = key->code.codepoint;
int nbytes = utf8_seqlen(codepoint);
key->utf8[nbytes] = 0;
// This is easier done backwards
int b = nbytes;
while(b > 1) {
b--;
key->utf8[b] = 0x80 | (codepoint & 0x3f);
codepoint >>= 6;
}
switch(nbytes) {
case 1: key->utf8[0] = (codepoint & 0x7f); break;
case 2: key->utf8[0] = 0xc0 | (codepoint & 0x1f); break;
case 3: key->utf8[0] = 0xe0 | (codepoint & 0x0f); break;
case 4: key->utf8[0] = 0xf0 | (codepoint & 0x07); break;
case 5: key->utf8[0] = 0xf8 | (codepoint & 0x03); break;
case 6: key->utf8[0] = 0xfc | (codepoint & 0x01); break;
}
}
#define UTF8_INVALID 0xFFFD
static TermKeyResult parse_utf8(const unsigned char *bytes, size_t len, long *cp, size_t *nbytep)
{
unsigned int nbytes;
unsigned char b0 = bytes[0];
if(b0 < 0x80) {
// Single byte ASCII
*cp = b0;
*nbytep = 1;
return TERMKEY_RES_KEY;
}
else if(b0 < 0xc0) {
// Starts with a continuation byte - that's not right
*cp = UTF8_INVALID;
*nbytep = 1;
return TERMKEY_RES_KEY;
}
else if(b0 < 0xe0) {
nbytes = 2;
*cp = b0 & 0x1f;
}
else if(b0 < 0xf0) {
nbytes = 3;
*cp = b0 & 0x0f;
}
else if(b0 < 0xf8) {
nbytes = 4;
*cp = b0 & 0x07;
}
else if(b0 < 0xfc) {
nbytes = 5;
*cp = b0 & 0x03;
}
else if(b0 < 0xfe) {
nbytes = 6;
*cp = b0 & 0x01;
}
else {
*cp = UTF8_INVALID;
*nbytep = 1;
return TERMKEY_RES_KEY;
}
for(unsigned int b = 1; b < nbytes; b++) {
unsigned char cb;
if(b >= len)
return TERMKEY_RES_AGAIN;
cb = bytes[b];
if(cb < 0x80 || cb >= 0xc0) {
*cp = UTF8_INVALID;
*nbytep = b;
return TERMKEY_RES_KEY;
}
*cp <<= 6;
*cp |= cb & 0x3f;
}
// Check for overlong sequences
if(nbytes > utf8_seqlen(*cp))
*cp = UTF8_INVALID;
// Check for UTF-16 surrogates or invalid *cps
if((*cp >= 0xD800 && *cp <= 0xDFFF) ||
*cp == 0xFFFE ||
*cp == 0xFFFF)
*cp = UTF8_INVALID;
*nbytep = nbytes;
return TERMKEY_RES_KEY;
}
static void emit_codepoint(TermKey *tk, long codepoint, TermKeyKey *key)
{
if(codepoint < 0x20) {
// C0 range
key->code.codepoint = 0;
key->modifiers = 0;
if(!(tk->flags & TERMKEY_FLAG_NOINTERPRET) && tk->c0[codepoint].sym != TERMKEY_SYM_UNKNOWN) {
key->code.sym = tk->c0[codepoint].sym;
key->modifiers |= tk->c0[codepoint].modifier_set;
}
if(!key->code.sym) {
key->type = TERMKEY_TYPE_UNICODE;
/* Generically modified Unicode ought not report the SHIFT state, or else
* we get into complicationg trying to report Shift-; vs : and so on...
* In order to be able to represent Ctrl-Shift-A as CTRL modified
* unicode A, we need to call Ctrl-A simply 'a', lowercase
*/
if(codepoint+0x40 >= 'A' && codepoint+0x40 <= 'Z')
// it's a letter - use lowecase instead
key->code.codepoint = codepoint + 0x60;
else
key->code.codepoint = codepoint + 0x40;
key->modifiers = TERMKEY_KEYMOD_CTRL;
}
else {
key->type = TERMKEY_TYPE_KEYSYM;
}
}
else if(codepoint == 0x7f && !(tk->flags & TERMKEY_FLAG_NOINTERPRET)) {
// ASCII DEL
key->type = TERMKEY_TYPE_KEYSYM;
key->code.sym = TERMKEY_SYM_DEL;
key->modifiers = 0;
}
else if(codepoint >= 0x20 && codepoint < 0x80) {
// ASCII lowbyte range
key->type = TERMKEY_TYPE_UNICODE;
key->code.codepoint = codepoint;
key->modifiers = 0;
}
else if(codepoint >= 0x80 && codepoint < 0xa0) {
// UTF-8 never starts with a C1 byte. So we can be sure of these
key->type = TERMKEY_TYPE_UNICODE;
key->code.codepoint = codepoint - 0x40;
key->modifiers = TERMKEY_KEYMOD_CTRL|TERMKEY_KEYMOD_ALT;
}
else {
// UTF-8 codepoint
key->type = TERMKEY_TYPE_UNICODE;
key->code.codepoint = codepoint;
key->modifiers = 0;
}
termkey_canonicalise(tk, key);
if(key->type == TERMKEY_TYPE_UNICODE)
fill_utf8(key);
}
void termkey_canonicalise(TermKey *tk, TermKeyKey *key)
{
int flags = tk->canonflags;
if(flags & TERMKEY_CANON_SPACESYMBOL) {
if(key->type == TERMKEY_TYPE_UNICODE && key->code.number == 0x20) {
key->type = TERMKEY_TYPE_KEYSYM;
key->code.sym = TERMKEY_SYM_SPACE;
}
}
else {
if(key->type == TERMKEY_TYPE_KEYSYM && key->code.sym == TERMKEY_SYM_SPACE) {
key->type = TERMKEY_TYPE_UNICODE;
key->code.number = 0x20;
fill_utf8(key);
}
}
if(flags & TERMKEY_CANON_DELBS) {
if(key->type == TERMKEY_TYPE_KEYSYM && key->code.sym == TERMKEY_SYM_DEL) {
key->code.sym = TERMKEY_SYM_BACKSPACE;
}
}
}
static TermKeyResult peekkey(TermKey *tk, TermKeyKey *key, int force, size_t *nbytep)
{
int again = 0;
if(!tk->is_started) {
errno = EINVAL;
return TERMKEY_RES_ERROR;
}
#ifdef DEBUG
fprintf(stderr, "getkey(force=%d): buffer ", force);
print_buffer(tk);
fprintf(stderr, "\n");
#endif
if(tk->hightide) {
tk->buffstart += tk->hightide;
tk->buffcount -= tk->hightide;
tk->hightide = 0;
}
TermKeyResult ret;
struct TermKeyDriverNode *p;
for(p = tk->drivers; p; p = p->next) {
ret = (p->driver->peekkey)(tk, p->info, key, force, nbytep);
#ifdef DEBUG
fprintf(stderr, "Driver %s yields %s\n", p->driver->name, res2str(ret));
#endif
switch(ret) {
case TERMKEY_RES_KEY:
#ifdef DEBUG
print_key(tk, key); fprintf(stderr, "\n");
#endif
// Slide the data down to stop it running away
{
size_t halfsize = tk->buffsize / 2;
if(tk->buffstart > halfsize) {
memcpy(tk->buffer, tk->buffer + halfsize, halfsize);
tk->buffstart -= halfsize;
}
}
/* fallthrough */
case TERMKEY_RES_EOF:
case TERMKEY_RES_ERROR:
return ret;
case TERMKEY_RES_AGAIN:
if(!force)
again = 1;
/* fallthrough */
case TERMKEY_RES_NONE:
break;
}
}
if(again)
return TERMKEY_RES_AGAIN;
ret = peekkey_simple(tk, key, force, nbytep);
#ifdef DEBUG
fprintf(stderr, "getkey_simple(force=%d) yields %s\n", force, res2str(ret));
if(ret == TERMKEY_RES_KEY) {
print_key(tk, key); fprintf(stderr, "\n");
}
#endif
return ret;
}
static TermKeyResult peekkey_simple(TermKey *tk, TermKeyKey *key, int force, size_t *nbytep)
{
if(tk->buffcount == 0)
return tk->is_closed ? TERMKEY_RES_EOF : TERMKEY_RES_NONE;
unsigned char b0 = CHARAT(0);
if(b0 == 0x1b) {
// Escape-prefixed value? Might therefore be Alt+key
if(tk->buffcount == 1) {
// This might be an <Esc> press, or it may want to be part of a longer
// sequence
if(!force)
return TERMKEY_RES_AGAIN;
(*tk->method.emit_codepoint)(tk, b0, key);
*nbytep = 1;
return TERMKEY_RES_KEY;
}
// Try another key there
tk->buffstart++;
tk->buffcount--;
// Run the full driver
TermKeyResult metakey_result = peekkey(tk, key, force, nbytep);
tk->buffstart--;
tk->buffcount++;
switch(metakey_result) {
case TERMKEY_RES_KEY:
key->modifiers |= TERMKEY_KEYMOD_ALT;
(*nbytep)++;
break;
case TERMKEY_RES_NONE:
case TERMKEY_RES_EOF:
case TERMKEY_RES_AGAIN:
case TERMKEY_RES_ERROR:
break;
}
return metakey_result;
}
else if(b0 < 0xa0) {
// Single byte C0, G0 or C1 - C1 is never UTF-8 initial byte
(*tk->method.emit_codepoint)(tk, b0, key);
*nbytep = 1;
return TERMKEY_RES_KEY;
}
else if(tk->flags & TERMKEY_FLAG_UTF8) {
// Some UTF-8
long codepoint;
TermKeyResult res = parse_utf8(tk->buffer + tk->buffstart, tk->buffcount, &codepoint, nbytep);
if(res == TERMKEY_RES_AGAIN && force) {
/* There weren't enough bytes for a complete UTF-8 sequence but caller
* demands an answer. About the best thing we can do here is eat as many
* bytes as we have, and emit a UTF8_INVALID. If the remaining bytes
* arrive later, they'll be invalid too.
*/
codepoint = UTF8_INVALID;
*nbytep = tk->buffcount;
res = TERMKEY_RES_KEY;
}
key->type = TERMKEY_TYPE_UNICODE;
key->modifiers = 0;
(*tk->method.emit_codepoint)(tk, codepoint, key);
return res;
}
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;
*nbytep = 1;
return TERMKEY_RES_KEY;
}
}
static TermKeyResult peekkey_mouse(TermKey *tk, TermKeyKey *key, size_t *nbytep)
{
if(tk->buffcount < 3)
return TERMKEY_RES_AGAIN;
key->type = TERMKEY_TYPE_MOUSE;
key->code.mouse[0] = CHARAT(0) - 0x20;
key->code.mouse[1] = CHARAT(1) - 0x20;
key->code.mouse[2] = CHARAT(2) - 0x20;
key->code.mouse[3] = 0;
key->modifiers = (key->code.mouse[0] & 0x1c) >> 2;
key->code.mouse[0] &= ~0x1c;
*nbytep = 3;
return TERMKEY_RES_KEY;
}
TermKeyResult termkey_getkey(TermKey *tk, TermKeyKey *key)
{
size_t nbytes = 0;
TermKeyResult ret = peekkey(tk, key, 0, &nbytes);
if(ret == TERMKEY_RES_KEY)
eat_bytes(tk, nbytes);
if(ret == TERMKEY_RES_AGAIN)
/* Call peekkey() again in force mode to obtain whatever it can */
(void)peekkey(tk, key, 1, &nbytes);
/* Don't eat it yet though */
return ret;
}
TermKeyResult termkey_getkey_force(TermKey *tk, TermKeyKey *key)
{
size_t nbytes = 0;
TermKeyResult ret = peekkey(tk, key, 1, &nbytes);
if(ret == TERMKEY_RES_KEY)
eat_bytes(tk, nbytes);
return ret;
}
TermKeyResult termkey_waitkey(TermKey *tk, TermKeyKey *key)
{
if(tk->fd == -1) {
errno = EBADF;
return TERMKEY_RES_ERROR;
}
while(1) {
TermKeyResult ret = termkey_getkey(tk, key);
switch(ret) {
case TERMKEY_RES_KEY:
case TERMKEY_RES_EOF:
case TERMKEY_RES_ERROR:
return ret;
case TERMKEY_RES_NONE:
ret = termkey_advisereadable(tk);
if(ret == TERMKEY_RES_ERROR)
return ret;
break;
case TERMKEY_RES_AGAIN:
{
if(tk->is_closed)
// We're closed now. Never going to get more bytes so just go with
// what we have
return termkey_getkey_force(tk, key);
struct pollfd fd;
retry:
fd.fd = tk->fd;
fd.events = POLLIN;
int pollret = poll(&fd, 1, tk->waittime);
if(pollret == -1) {
if(errno == EINTR && !(tk->flags & TERMKEY_FLAG_EINTR))
goto retry;
return TERMKEY_RES_ERROR;
}
if(fd.revents & (POLLIN|POLLHUP|POLLERR))
ret = termkey_advisereadable(tk);
else
ret = TERMKEY_RES_NONE;
if(ret == TERMKEY_RES_ERROR)
return ret;
if(ret == TERMKEY_RES_NONE)
return termkey_getkey_force(tk, key);
}
break;
}
}
/* UNREACHABLE */
}
TermKeyResult termkey_advisereadable(TermKey *tk)
{
ssize_t len;
if(tk->fd == -1) {
errno = EBADF;
return TERMKEY_RES_ERROR;
}
if(tk->buffstart) {
memmove(tk->buffer, tk->buffer + tk->buffstart, tk->buffcount);
tk->buffstart = 0;
}
/* Not expecting it ever to be greater but doesn't hurt to handle that */
if(tk->buffcount >= tk->buffsize) {
errno = ENOMEM;
return TERMKEY_RES_ERROR;
}
retry:
len = read(tk->fd, tk->buffer + tk->buffcount, tk->buffsize - tk->buffcount);
if(len == -1) {
if(errno == EAGAIN)
return TERMKEY_RES_NONE;
else if(errno == EINTR && !(tk->flags & TERMKEY_FLAG_EINTR))
goto retry;
else
return TERMKEY_RES_ERROR;
}
else if(len < 1) {
tk->is_closed = 1;
return TERMKEY_RES_NONE;
}
else {
tk->buffcount += len;
return TERMKEY_RES_AGAIN;
}
}
size_t termkey_push_bytes(TermKey *tk, const char *bytes, size_t len)
{
if(tk->buffstart) {
memmove(tk->buffer, tk->buffer + tk->buffstart, tk->buffcount);
tk->buffstart = 0;
}
/* Not expecting it ever to be greater but doesn't hurt to handle that */
if(tk->buffcount >= tk->buffsize) {
errno = ENOMEM;
return (size_t)-1;
}
if(len > tk->buffsize - tk->buffcount)
len = tk->buffsize - tk->buffcount;
// memcpy(), not strncpy() in case of null bytes in input
memcpy(tk->buffer + tk->buffcount, bytes, len);
tk->buffcount += len;
return len;
}
TermKeySym termkey_register_keyname(TermKey *tk, TermKeySym sym, const char *name)
{
if(!sym)
sym = tk->nkeynames;
if(sym >= tk->nkeynames) {
const char **new_keynames = realloc(tk->keynames, sizeof(new_keynames[0]) * (sym + 1));
if(!new_keynames)
return -1;
tk->keynames = new_keynames;
// Fill in the hole
for(int i = tk->nkeynames; i < sym; i++)
tk->keynames[i] = NULL;
tk->nkeynames = sym + 1;
}
tk->keynames[sym] = name;
return sym;
}
const char *termkey_get_keyname(TermKey *tk, TermKeySym sym)
{
if(sym == TERMKEY_SYM_UNKNOWN)
return "UNKNOWN";
if(sym < tk->nkeynames)
return tk->keynames[sym];
return "UNKNOWN";
}
static const char *termkey_lookup_keyname_format(TermKey *tk, const char *str, TermKeySym *sym, TermKeyFormat format)
{
/* We store an array, so we can't do better than a linear search. Doesn't
* matter because user won't be calling this too often */
for(*sym = 0; *sym < tk->nkeynames; (*sym)++) {
const char *thiskey = tk->keynames[*sym];
if(!thiskey)
continue;
size_t len = strlen(thiskey);
if(format & TERMKEY_FORMAT_LOWERSPACE) {
const char *thisstr = str;
if(strpncmp_camel(&thisstr, &thiskey, len) == 0)
return thisstr;
}
else {
if(strncmp(str, thiskey, len) == 0)
return (char *)str + len;
}
}
return NULL;
}
const char *termkey_lookup_keyname(TermKey *tk, const char *str, TermKeySym *sym)
{
return termkey_lookup_keyname_format(tk, str, sym, 0);
}
TermKeySym termkey_keyname2sym(TermKey *tk, const char *keyname)
{
TermKeySym sym;
const char *endp = termkey_lookup_keyname(tk, keyname, &sym);
if(!endp || endp[0])
return TERMKEY_SYM_UNKNOWN;
return sym;
}
static TermKeySym register_c0(TermKey *tk, TermKeySym sym, unsigned char ctrl, const char *name)
{
return register_c0_full(tk, sym, 0, 0, ctrl, name);
}
static TermKeySym register_c0_full(TermKey *tk, TermKeySym sym, int modifier_set, int modifier_mask, unsigned char ctrl, const char *name)
{
if(ctrl >= 0x20) {
errno = EINVAL;
return -1;
}
if(name)
sym = termkey_register_keyname(tk, sym, name);
tk->c0[ctrl].sym = sym;
tk->c0[ctrl].modifier_set = modifier_set;
tk->c0[ctrl].modifier_mask = modifier_mask;
return sym;
}
/* Previous name for this function
* No longer declared in termkey.h but it remains in the compiled library for
* backward-compatibility reasons.
*/
size_t termkey_snprint_key(TermKey *tk, char *buffer, size_t len, TermKeyKey *key, TermKeyFormat format)
{
return termkey_strfkey(tk, buffer, len, key, format);
}
static struct modnames {
const char *shift, *alt, *ctrl;
}
modnames[] = {
{ "S", "A", "C" }, // 0
{ "Shift", "Alt", "Ctrl" }, // LONGMOD
{ "S", "M", "C" }, // ALTISMETA
{ "Shift", "Meta", "Ctrl" }, // ALTISMETA+LONGMOD
{ "s", "a", "c" }, // LOWERMOD
{ "shift", "alt", "ctrl" }, // LOWERMOD+LONGMOD
{ "s", "m", "c" }, // LOWERMOD+ALTISMETA
{ "shift", "meta", "ctrl" }, // LOWERMOD+ALTISMETA+LONGMOD
};
size_t termkey_strfkey(TermKey *tk, char *buffer, size_t len, TermKeyKey *key, TermKeyFormat format)
{
size_t pos = 0;
size_t l = 0;
struct modnames *mods = &modnames[!!(format & TERMKEY_FORMAT_LONGMOD) +
!!(format & TERMKEY_FORMAT_ALTISMETA) * 2 +
!!(format & TERMKEY_FORMAT_LOWERMOD) * 4];
int wrapbracket = (format & TERMKEY_FORMAT_WRAPBRACKET) &&
(key->type != TERMKEY_TYPE_UNICODE || key->modifiers != 0);
char sep = (format & TERMKEY_FORMAT_SPACEMOD) ? ' ' : '-';
if(format & TERMKEY_FORMAT_CARETCTRL &&
key->type == TERMKEY_TYPE_UNICODE &&
key->modifiers == TERMKEY_KEYMOD_CTRL) {
long codepoint = key->code.codepoint;
// Handle some of the special casesfirst
if(codepoint >= 'a' && codepoint <= 'z') {
l = snprintf(buffer + pos, len - pos, wrapbracket ? "<^%c>" : "^%c", (char)codepoint - 0x20);
if(l <= 0) return pos;
pos += l;
return pos;
}
else if((codepoint >= '@' && codepoint < 'A') ||
(codepoint > 'Z' && codepoint <= '_')) {
l = snprintf(buffer + pos, len - pos, wrapbracket ? "<^%c>" : "^%c", (char)codepoint);
if(l <= 0) return pos;
pos += l;
return pos;
}
}
if(wrapbracket) {
l = snprintf(buffer + pos, len - pos, "<");
if(l <= 0) return pos;
pos += l;
}
if(key->modifiers & TERMKEY_KEYMOD_ALT) {
l = snprintf(buffer + pos, len - pos, "%s%c", mods->alt, sep);
if(l <= 0) return pos;
pos += l;
}
if(key->modifiers & TERMKEY_KEYMOD_CTRL) {
l = snprintf(buffer + pos, len - pos, "%s%c", mods->ctrl, sep);
if(l <= 0) return pos;
pos += l;
}
if(key->modifiers & TERMKEY_KEYMOD_SHIFT) {
l = snprintf(buffer + pos, len - pos, "%s%c", mods->shift, sep);
if(l <= 0) return pos;
pos += l;
}
switch(key->type) {
case TERMKEY_TYPE_UNICODE:
if(!key->utf8[0]) // In case of user-supplied key structures
fill_utf8(key);
l = snprintf(buffer + pos, len - pos, "%s", key->utf8);
break;
case TERMKEY_TYPE_KEYSYM:
{
const char *name = termkey_get_keyname(tk, key->code.sym);
if(format & TERMKEY_FORMAT_LOWERSPACE)
l = snprint_cameltospaces(buffer + pos, len - pos, name);
else
l = snprintf(buffer + pos, len - pos, "%s", name);
}
break;
case TERMKEY_TYPE_FUNCTION:
l = snprintf(buffer + pos, len - pos, "%c%d",
(format & TERMKEY_FORMAT_LOWERSPACE ? 'f' : 'F'), key->code.number);
break;
case TERMKEY_TYPE_MOUSE:
{
TermKeyMouseEvent ev;
int button;
int line, col;
termkey_interpret_mouse(tk, key, &ev, &button, &line, &col);
static const char *evnames[] = { "Unknown", "Press", "Drag", "Release" };
l = snprintf(buffer + pos, len - pos, "Mouse%s(%d)",
evnames[ev], button);
if(format & TERMKEY_FORMAT_MOUSE_POS) {
if(l <= 0) return pos;
pos += l;
l = snprintf(buffer + pos, len - pos, " @ (%u,%u)", col, line);
}
}
break;
case TERMKEY_TYPE_POSITION:
l = snprintf(buffer + pos, len - pos, "Position");
break;
case TERMKEY_TYPE_MODEREPORT:
{
int initial, mode, value;
termkey_interpret_modereport(tk, key, &initial, &mode, &value);
if(initial)
l = snprintf(buffer + pos, len - pos, "Mode(%c%d=%d)", initial, mode, value);
else
l = snprintf(buffer + pos, len - pos, "Mode(%d=%d)", mode, value);
}
case TERMKEY_TYPE_UNKNOWN_CSI:
l = snprintf(buffer + pos, len - pos, "CSI %c", key->code.number & 0xff);
break;
}
if(l <= 0) return pos;
pos += l;
if(wrapbracket) {
l = snprintf(buffer + pos, len - pos, ">");
if(l <= 0) return pos;
pos += l;
}
return pos;
}
const char *termkey_strpkey(TermKey *tk, const char *str, TermKeyKey *key, TermKeyFormat format)
{
struct modnames *mods = &modnames[!!(format & TERMKEY_FORMAT_LONGMOD) +
!!(format & TERMKEY_FORMAT_ALTISMETA) * 2 +
!!(format & TERMKEY_FORMAT_LOWERMOD) * 4];
key->modifiers = 0;
if((format & TERMKEY_FORMAT_CARETCTRL) && str[0] == '^' && str[1]) {
str = termkey_strpkey(tk, str+1, key, format & ~TERMKEY_FORMAT_CARETCTRL);
if(!str ||
key->type != TERMKEY_TYPE_UNICODE ||
key->code.codepoint < '@' || key->code.codepoint > '_' ||
key->modifiers != 0)
return NULL;
if(key->code.codepoint >= 'A' && key->code.codepoint <= 'Z')
key->code.codepoint += 0x20;
key->modifiers = TERMKEY_KEYMOD_CTRL;
fill_utf8(key);
return (char *)str;
}
const char *sep_at;
while((sep_at = strchr(str, (format & TERMKEY_FORMAT_SPACEMOD) ? ' ' : '-'))) {
size_t n = sep_at - str;
if(n == strlen(mods->alt) && strncmp(mods->alt, str, n) == 0)
key->modifiers |= TERMKEY_KEYMOD_ALT;
else if(n == strlen(mods->ctrl) && strncmp(mods->ctrl, str, n) == 0)
key->modifiers |= TERMKEY_KEYMOD_CTRL;
else if(n == strlen(mods->shift) && strncmp(mods->shift, str, n) == 0)
key->modifiers |= TERMKEY_KEYMOD_SHIFT;
else
break;
str = sep_at + 1;
}
size_t nbytes;
ssize_t snbytes;
const char *endstr;
if((endstr = termkey_lookup_keyname_format(tk, str, &key->code.sym, format))) {
key->type = TERMKEY_TYPE_KEYSYM;
str = endstr;
}
else if(sscanf(str, "F%d%zn", &key->code.number, &snbytes) == 1) {
key->type = TERMKEY_TYPE_FUNCTION;
str += snbytes;
}
// Unicode must be last
else if(parse_utf8((unsigned const char *)str, strlen(str), &key->code.codepoint, &nbytes) == TERMKEY_RES_KEY) {
key->type = TERMKEY_TYPE_UNICODE;
fill_utf8(key);
str += nbytes;
}
// TODO: Consider mouse events?
else
return NULL;
termkey_canonicalise(tk, key);
return (char *)str;
}
int termkey_keycmp(TermKey *tk, const TermKeyKey *key1p, const TermKeyKey *key2p)
{
/* Copy the key structs since we'll be modifying them */
TermKeyKey key1 = *key1p, key2 = *key2p;
termkey_canonicalise(tk, &key1);
termkey_canonicalise(tk, &key2);
if(key1.type != key2.type)
return key1.type - key2.type;
switch(key1.type) {
case TERMKEY_TYPE_UNICODE:
if(key1.code.codepoint != key2.code.codepoint)
return key1.code.codepoint - key2.code.codepoint;
break;
case TERMKEY_TYPE_KEYSYM:
if(key1.code.sym != key2.code.sym)
return key1.code.sym - key2.code.sym;
break;
case TERMKEY_TYPE_FUNCTION:
case TERMKEY_TYPE_UNKNOWN_CSI:
if(key1.code.number != key2.code.number)
return key1.code.number - key2.code.number;
break;
case TERMKEY_TYPE_MOUSE:
{
int cmp = strncmp(key1.code.mouse, key2.code.mouse, 4);
if(cmp != 0)
return cmp;
}
break;
case TERMKEY_TYPE_POSITION:
{
int line1, col1, line2, col2;
termkey_interpret_position(tk, &key1, &line1, &col1);
termkey_interpret_position(tk, &key2, &line2, &col2);
if(line1 != line2)
return line1 - line2;
return col1 - col2;
}
break;
case TERMKEY_TYPE_MODEREPORT:
{
int initial1, initial2, mode1, mode2, value1, value2;
termkey_interpret_modereport(tk, &key1, &initial1, &mode1, &value1);
termkey_interpret_modereport(tk, &key2, &initial2, &mode2, &value2);
if(initial1 != initial2)
return initial1 - initial2;
if(mode1 != mode2)
return mode1 - mode2;
return value1 - value2;
}
}
return key1.modifiers - key2.modifiers;
}
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