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tokenline.c
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tokenline.c
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/*
* Copyright (C) 2014 Bert Vermeulen <[email protected]>
* Copyright (C) 2019 Karim SUDKI
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "tokenline.h"
#define INDENT " "
#define NO_HELP "No help available."NL
#define NL "\r\n"
#define HYDRABUS_SPECIAL_CHARS "[]{}/\\_-!^&%~"
static void line_clear(t_tokenline *tl);
static void line_backspace(t_tokenline *tl);
static void set_line(t_tokenline *tl, char *line);
static void add_char(t_tokenline *tl, int c);
static void add_char_silent(t_tokenline *tl, int c);
static char space[] = " ";
static void unsplit_line(t_tokenline *tl)
{
int quoted, i;
quoted = FALSE;
for (i = 0; i < tl->buf_len; i++) {
if (tl->buf[i] == '"') {
quoted = TRUE;
continue;
}
if (!tl->buf[i]) {
if (quoted) {
tl->buf[i] = '"';
quoted = FALSE;
} else {
tl->buf[i] = ' ';
}
}
}
tl->buf[tl->buf_len] = 0;
}
static int split_line(t_tokenline *tl, int *words, int *num_words, int silent)
{
int state, quoted, tokened, i, x;
state = 1;
quoted = FALSE;
tokened = FALSE;
*num_words = 0;
for (i = 0; i < tl->buf_len && *num_words < TL_MAX_WORDS; i++) {
switch (state) {
case 1:
/* Looking for a new word. */
if (tl->buf[i] == ' ')
continue;
if (tl->buf[i] == '"')
quoted = TRUE;
if (!quoted && strchr(HYDRABUS_SPECIAL_CHARS, tl->buf[i])) {
if(tl->buf[i+1] != ' ' && tl->buf[i+1] != 0 && tl->buf[i+1] != ':' && i < tl->buf_len) {
if((tl->buf_len + 1 < TL_MAX_LINE_LEN) && (*num_words + 1 < TL_MAX_WORDS)) {
tl->pos=i+1;
add_char_silent(tl, ' ');
} else {
if (!silent)
tl->print(tl->user, "Uncompressed form too big"NL);
unsplit_line(tl);
return FALSE;
}
}
}
words[(*num_words)++] = i ;
state = 2;
break;
case 2:
if(!quoted && tl->buf[i] != ' '){
tokened = FALSE;
for (x = 1; tl->token_dict[x].token; x++) {
if (!strncmp(tl->buf+words[(*num_words-1)], tl->token_dict[x].tokenstr,
i-words[(*num_words-1)]+1) && strlen(tl->token_dict[x].tokenstr) > 1)
{
tokened = TRUE;
}
}
if (!tokened && (strchr(HYDRABUS_SPECIAL_CHARS, tl->buf[i]) || tl->buf[i] == '"')){
if (tl->buf[i-1] != ' ' && tl->buf[i-1] != 0 && tl->buf[i-1] != ':') {
if((tl->buf_len + 1 < TL_MAX_LINE_LEN) && (*num_words + 1 < TL_MAX_WORDS)){
tl->pos=i;
add_char_silent(tl, ' ');
} else {
if (!silent)
tl->print(tl->user, "Uncompressed form too big"NL);
unsplit_line(tl);
return FALSE;
}
}
}
}
/* In a word. */
if (quoted && tl->buf[i] == '"') {
quoted = FALSE;
tl->buf[i] = 0;
if (tl->buf[i+1] != ' ') {
if((tl->buf_len + 1 < TL_MAX_LINE_LEN) && (*num_words + 1 < TL_MAX_WORDS)){
tl->pos=i+1;
add_char_silent(tl, ' ');
} else {
if (!silent)
tl->print(tl->user, "Uncompressed form too big"NL);
unsplit_line(tl);
return FALSE;
}
}
state = 1;
} else if (!quoted && tl->buf[i] == ' ') {
tl->buf[i] = 0;
state = 1;
}
break;
}
}
if (quoted) {
if (!silent)
tl->print(tl->user, "Unmatched quote."NL);
unsplit_line(tl);
return FALSE;
}
if (*num_words > TL_MAX_WORDS - 1) {
if (!silent)
tl->print(tl->user, "Too many words."NL);
unsplit_line(tl);
return FALSE;
}
tl->pos=tl->buf_len;
return TRUE;
}
static int history_previous(t_tokenline *tl, int entry)
{
int prev;
if (entry == tl->hist_begin)
return -1;
/* Onto the terminating zero of the previous entry. */
if (--entry < 0)
entry = TL_MAX_HISTORY_SIZE - 1;
/* Onto the last byte of the previous entry. */
prev = entry;
if (--entry < 0)
entry = TL_MAX_HISTORY_SIZE - 1;
while (tl->hist_buf[entry]) {
prev = entry;
if (--entry < 0)
entry = TL_MAX_HISTORY_SIZE - 1;
}
return prev;
}
static void history_up(t_tokenline *tl)
{
int entry;
if (tl->hist_step == -1)
entry = history_previous(tl, tl->hist_end);
else
entry = history_previous(tl, tl->hist_step);
if (entry == -1)
return;
line_clear(tl);
if (tl->hist_begin != 0 && TL_MAX_HISTORY_SIZE == strlen(tl->hist_buf + entry) + entry) {
set_line(tl, tl->hist_buf + entry);
set_line(tl, tl->hist_buf);
} else {
set_line(tl, tl->hist_buf + entry);
}
tl->hist_step = entry;
}
static void history_down(t_tokenline *tl)
{
int i;
if (tl->hist_step == -1)
return;
line_clear(tl);
if (tl->hist_step == tl->hist_end) {
tl->hist_step = -1;
return;
}
i = tl->hist_step;
while (tl->hist_buf[i]) {
if (++i == TL_MAX_HISTORY_SIZE)
i = 0;
}
if (++i == TL_MAX_HISTORY_SIZE)
i = 0;
set_line(tl, tl->hist_buf + i);
tl->hist_step = i;
}
static void history_show(t_tokenline *tl)
{
int entry, i;
/* Skip the 'history' command itself. */
entry = history_previous(tl, tl->hist_end);
for (entry = history_previous(tl, entry); entry != -1;
entry = history_previous(tl, entry)) {
tl->print(tl->user, tl->hist_buf + entry);
/* Did we drop off the end of the buffer? */
for (i = entry; i < TL_MAX_HISTORY_SIZE; i++) {
if (!tl->hist_buf[i])
break;
}
if (i == TL_MAX_HISTORY_SIZE)
/* Yes we did */
tl->print(tl->user, tl->hist_buf);
tl->print(tl->user, NL);
}
}
/* Free at least size, but also fully zero out any deleted entry. */
static int history_delete(t_tokenline *tl, int entry, int size)
{
int freed, i;
freed = 0;
i = entry;
while (freed < size || tl->hist_buf[i]) {
tl->hist_buf[i] = 0;
freed++;
if (++i == TL_MAX_HISTORY_SIZE)
i = 0;
}
tl->hist_buf[i] = 0;
/*
* Skip at least over the terminating zero, and any after that,
* to the next entry.
*/
do {
if (++i == TL_MAX_HISTORY_SIZE)
i = 0;
} while (!tl->hist_buf[i] && i < entry);
return i;
}
static void history_add(t_tokenline *tl)
{
int size, entry, part1;
size = strlen(tl->buf) + 1;
if (tl->hist_begin == tl->hist_end) {
/* First entry, both are 0. */
memcpy(tl->hist_buf, tl->buf, size);
} else if (tl->hist_begin < tl->hist_end) {
if (TL_MAX_HISTORY_SIZE - tl->hist_end >= size) {
memcpy(tl->hist_buf + tl->hist_end, tl->buf, size);
} else {
part1 = TL_MAX_HISTORY_SIZE - tl->hist_end;
entry = tl->hist_begin;
tl->hist_begin = history_delete(tl, entry, size - part1);
memcpy(tl->hist_buf + tl->hist_end, tl->buf, part1);
memcpy(tl->hist_buf, tl->buf + part1, size - part1);
}
} else {
part1 = tl->hist_begin - tl->hist_end;
if (part1 <= size) {
/* Not enough room between end and begin. */
tl->hist_begin = history_delete(tl, tl->hist_begin, size - part1);
part1 = TL_MAX_HISTORY_SIZE - tl->hist_end;
if (part1 < size) {
memcpy(tl->hist_buf + tl->hist_end, tl->buf, part1);
memcpy(tl->hist_buf, tl->buf + part1, size - part1);
} else {
memcpy(tl->hist_buf + tl->hist_end, tl->buf, size);
}
} else {
/* Enough room between end and begin. */
memcpy(tl->hist_buf + tl->hist_end, tl->buf, size);
}
}
tl->hist_end += size;
if (tl->hist_end >= TL_MAX_HISTORY_SIZE)
tl->hist_end -= TL_MAX_HISTORY_SIZE;
if (tl->hist_begin == tl->hist_end)
tl->hist_begin = history_delete(tl, tl->hist_begin,
strlen(tl->hist_buf + tl->hist_begin));
}
/*
* Converts string to uint32_t. Takes decimal, hex prefixed with 0x,
* binary prefixed with 0b and octal prefixed with 0. Returns FALSE
* if conversion in any of these fails.
* endptr: Reference to an object of type char*, whose value is set by
the function to the next character in str after the numerical value.
This parameter can also be a null pointer, in which case it is not used.
*/
static int str_to_uint(char *s, uint32_t *out, char **endptr)
{
int i;
char *suffix;
char character;
if (endptr != 0)
*endptr = NULL;
if (strncmp(s, "0b", 2)) {
*out = strtoul(s, &suffix, 0);
character = *suffix;
if (character == 'k' ||
character == 'm' ||
character == 'g' )
{
if (endptr != 0)
*endptr = suffix;
suffix++;
}
if (*suffix != '\0')
return FALSE;
} else {
*out = 0;
for (i = 2; s[i]; i++) {
if (s[i] != '0' && s[i] != '1')
return FALSE;
*out <<= 1;
*out |= s[i] - 0x30;
}
}
return TRUE;
}
static char *arg_type_to_string(int arg_type)
{
if (arg_type == T_ARG_UINT)
return "<integer>";
else if (arg_type == T_ARG_FLOAT)
return "<float>";
else if (arg_type == T_ARG_STRING)
return "<string>";
return NULL;
}
static int find_token(t_token *tokens, t_token_dict *token_dict, char *word)
{
uint32_t arg_uint;
int token, partial, i;
/* Find exact match. */
for (i = 0; tokens[i].token; i++) {
token = tokens[i].token;
if (token == T_ARG_UINT) {
if (str_to_uint(word, &arg_uint, NULL))
return i;
} else if (token > T_ARG_UINT) {
continue;
} else {
if (!strcmp(word, token_dict[token].tokenstr))
return i;
}
}
/* Find partial match. */
partial = -1;
for (i = 0; tokens[i].token; i++) {
token = tokens[i].token;
if (token >= T_ARG_UINT)
continue;
if (strlen(word) >= strlen(token_dict[token].tokenstr))
continue;
if (!strncmp(word, token_dict[token].tokenstr, strlen(word))) {
if (partial != -1)
/* Not unique. */
return -1;
else
partial = i;
}
}
return partial;
}
/*
* Tokenize the current set of NULL-terminated words, allowing for
* one token sublevel starting from the current token level.
*/
static int tokenize(t_tokenline *tl, int *words, int num_words,
t_token **complete_tokens, int *complete_arg)
{
t_token *token_stack[8], *arg_tokens;
t_tokenline_parsed *p;
float arg_float;
uint32_t arg_uint, suffix_uint;
int done, arg_needed, w, t, t_idx, size;
int cur_tsp, cur_tp, cur_bufsize, i;
char *word, *suffix;
done = FALSE;
p = &tl->parsed;
token_stack[0] = tl->token_levels[tl->token_level];
cur_tsp = 0;
cur_tp = 0;
cur_bufsize = 0;
arg_needed = 0;
arg_tokens = NULL;
for (w = 0; w < num_words; w++) {
word = tl->buf + words[w];
if (done) {
if (!complete_tokens)
tl->print(tl->user, "Too many arguments."NL);
return FALSE;
} else if (!arg_needed) {
/* Token needed. */
if ((suffix = strchr(word, TL_TOKEN_DELIMITER))) {
*suffix++ = 0;
if (!str_to_uint(suffix, &suffix_uint, NULL)) {
tl->print(tl->user, "Invalid number."NL);
return FALSE;
}
} else {
suffix_uint = 0;
}
if ((t_idx = find_token(token_stack[cur_tsp], tl->token_dict, word)) > -1 && word[0] != '"') {
t = token_stack[cur_tsp][t_idx].token;
if (!(cur_tp + 1 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = t;
if (t == T_ARG_UINT) {
/* Integer token. */
str_to_uint(word, &arg_uint, NULL);
if (!(cur_tp + 1 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = cur_bufsize;
memcpy(p->buf + cur_bufsize, &arg_uint, sizeof(uint32_t));
cur_bufsize += sizeof(uint32_t);
}
if (suffix) {
if (!(token_stack[cur_tsp][t_idx].flags &
T_FLAG_SUFFIX_TOKEN_DELIM_INT)) {
if (!complete_tokens)
tl->print(tl->user, "Token suffix not allowed."NL);
return FALSE;
}
if (suffix_uint > 1) {
if (!(cur_tp + 2 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = T_ARG_TOKEN_SUFFIX_INT;
p->tokens[cur_tp++] = cur_bufsize;
memcpy(p->buf + cur_bufsize, &suffix_uint, sizeof(uint32_t));
cur_bufsize += sizeof(uint32_t);
*(suffix-1) = TL_TOKEN_DELIMITER;
}
}
p->last_token_entry = &token_stack[cur_tsp][t_idx];
if (token_stack[cur_tsp][t_idx].arg_type == T_ARG_HELP) {
/* Nothing to do, just keep cur_tsp from increasing. */
} else if (token_stack[cur_tsp][t_idx].arg_type) {
/* Token needs an argument */
arg_needed = token_stack[cur_tsp][t_idx].arg_type;
if (arg_needed == T_ARG_TOKEN)
/* Argument is one of these subtokens. */
arg_tokens = token_stack[cur_tsp][t_idx].subtokens;
} else if (token_stack[cur_tsp][t_idx].subtokens) {
/* Switch to a new token set. */
token_stack[cur_tsp + 1] = token_stack[cur_tsp][t_idx].subtokens;
cur_tsp++;
} else {
/* Not expecting any more arguments or tokens. */
done = tl->one_command_per_line;
}
} else {
/*
* No matching token found, but maybe the token
* set allows freeform strings?
*/
for (i = 0; token_stack[cur_tsp][i].token; i++) {
if (token_stack[cur_tsp][i].token == T_ARG_STRING)
break;
}
if (token_stack[cur_tsp][i].token) {
/* Add it in as a token. */
if (word[0] == '"' && word[1] != 0) {
if (!(cur_tp + 2 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = T_ARG_STRING;
p->tokens[cur_tp++] = cur_bufsize;
size = strlen(word + 1) + 1;
memcpy(p->buf + cur_bufsize, word + 1, size);
cur_bufsize += size;
p->buf[cur_bufsize] = 0;
} else if (word[0] == '"' && word[1] == 0){
cur_bufsize += 2;
} else {
tl->print(tl->user, "Invalid command."NL);
for (i = 0; i < num_words; i++) {
tl->print(tl->user, tl->buf + words[i]);
if (*(tl->buf + words[i]) == '"') {
tl->print(tl->user, "\"");
}
tl->print(tl->user, " ");
}
tl->print(tl->user, NL);
for(i = 0; i < words[w]; i++) {
tl->print(tl->user, "-");
}
tl->print(tl->user, "^"NL);
return FALSE;
}
} else {
if (!complete_tokens)
tl->print(tl->user, "Invalid command."NL);
return FALSE;
}
}
} else {
/* Parse word as the type in arg_needed */
switch (arg_needed) {
case T_ARG_UINT:
if( str_to_uint(word, &arg_uint, &suffix) == FALSE)
{
if (!complete_tokens)
tl->print(tl->user, "Invalid value."NL);
return FALSE;
}
if (suffix) {
switch(*suffix)
{
case 'k':
arg_uint *= 1000;
break;
case 'm':
arg_uint *= 1000000;
break;
case 'g':
arg_uint *= 1000000000L;
break;
default:
if (!complete_tokens)
tl->print(tl->user, "Invalid value."NL);
return FALSE;
}
}
if (!(cur_tp + 2 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = T_ARG_UINT;
p->tokens[cur_tp++] = cur_bufsize;
memcpy(p->buf + cur_bufsize, &arg_uint, sizeof(uint32_t));
cur_bufsize += sizeof(uint32_t);
break;
case T_ARG_FLOAT:
arg_float = strtof(word, &suffix);
if( arg_float == 0.0F )
{
if (!complete_tokens)
tl->print(tl->user, "Invalid value."NL);
return FALSE;
}
if (*suffix) {
if( strlen(suffix) > 1 )
{
if (!complete_tokens)
tl->print(tl->user, "Invalid value."NL);
return FALSE;
}
switch(*suffix)
{
case 'k':
arg_float *= 1000;
break;
case 'm':
arg_float *= 1000000;
break;
case 'g':
arg_float *= 1000000000L;
break;
default:
if (!complete_tokens)
tl->print(tl->user, "Invalid value."NL);
return FALSE;
}
}
if (!(cur_tp + 2 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = T_ARG_FLOAT;
p->tokens[cur_tp++] = cur_bufsize;
memcpy(p->buf + cur_bufsize, &arg_float, sizeof(float));
cur_bufsize += sizeof(float);
break;
case T_ARG_STRING:
if (!(cur_tp + 2 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = T_ARG_STRING;
if (word[0] != '"') {
p->tokens[cur_tp++] = cur_bufsize;
size = strlen(word) + 1;
memcpy(p->buf + cur_bufsize, word, size);
} else {
p->tokens[cur_tp++] = cur_bufsize + 1;
size = strlen(word + 1) + 1;
memcpy(p->buf + cur_bufsize + 1, word + 1, size);
}
cur_bufsize += size;
p->buf[cur_bufsize] = 0;
break;
case T_ARG_TOKEN:
if ((t_idx = find_token(arg_tokens, tl->token_dict, word)) > -1) {
if (!(cur_tp + 1 < TL_MAX_WORDS)){
tl->print(tl->user, "Too many words."NL);
return FALSE;
}
p->tokens[cur_tp++] = arg_tokens[t_idx].token;
p->last_token_entry = &arg_tokens[t_idx];
} else {
if (!complete_tokens)
tl->print(tl->user, "Invalid value."NL);
return FALSE;
}
break;
}
arg_needed = 0;
done = tl->one_command_per_line;
}
}
if (arg_needed && !complete_tokens) {
tl->print(tl->user, "Missing argument."NL);
return FALSE;
}
p->tokens[cur_tp] = 0;
if (complete_tokens) {
if (done) {
/* Nothing to add. */
*complete_tokens = NULL;
} else {
/* Fill in the completion token list. */
if (arg_needed == T_ARG_TOKEN)
*complete_tokens = arg_tokens;
else
*complete_tokens = token_stack[cur_tsp];
}
}
if (complete_arg)
*complete_arg = arg_needed;
return TRUE;
}
static void show_help(t_tokenline *tl, int *words, int num_words)
{
t_token *tokens;
int i;
char *s;
(void)words;
if (tl->parsed.last_token_entry) {
if (tl->parsed.last_token_entry->help_full) {
tl->print(tl->user, tl->parsed.last_token_entry->help_full);
tl->print(tl->user, NL);
} else if (tl->parsed.last_token_entry->help) {
tl->print(tl->user, tl->parsed.last_token_entry->help);
tl->print(tl->user, NL);
}
}
if (num_words == 1) {
/* Just "help" -- global command overview. */
tokens = tl->token_levels[tl->token_level];
} else {
if (tl->parsed.last_token_entry) {
tokens = tl->parsed.last_token_entry->subtokens;
} else {
tokens = NULL;
}
}
if (tokens) {
for (i = 0; tokens[i].token; i++) {
tl->print(tl->user, INDENT);
if (tokens[i].token < T_ARG_UINT)
s = tl->token_dict[tokens[i].token].tokenstr;
else
s = arg_type_to_string(tokens[i].token);
tl->print(tl->user, s);
if (tokens[i].help) {
tl->print(tl->user, space + strlen(s));
tl->print(tl->user, tokens[i].help);
}
tl->print(tl->user, NL);
}
}
if ((!tl->parsed.last_token_entry || !tl->parsed.last_token_entry->help)
&& !tokens)
tl->print(tl->user, NO_HELP);
}
static void process_line(t_tokenline *tl)
{
t_token *tokens;
int words[TL_MAX_WORDS], num_words, i;
tl->print(tl->user, NL);
do {
if (!tl->buf_len)
break;
history_add(tl);
if (!split_line(tl, words, &num_words, FALSE))
break;
if (!num_words)
break;
if (!strcmp(tl->buf + words[0], "help")) {
if (num_words == 1) {
/*
* Nothing to tokenize: find the help entry
* if any so its help text can be shown.
*/
tokens = tl->token_levels[tl->token_level];
for (i = 0; tokens[i].token; i++) {
if (tokens[i].arg_type == T_ARG_HELP) {
tl->parsed.last_token_entry = &tokens[i];
break;
}
}
} else {
/* Tokenize with errors turned off. */
tokenize(tl, words + 1, num_words - 1, &tokens, NULL);
}
show_help(tl, words, num_words);
} else if (!strcmp(tl->buf + words[0], "history")) {
history_show(tl);
} else {
if (!tokenize(tl, words, num_words, NULL, NULL))
break;
if (tl->callback)
tl->callback(tl->user, &tl->parsed);
}
} while (FALSE);
tl->buf[0] = 0;
tl->buf_len = 0;
tl->escape_len = 0;
tl->pos = 0;
tl->hist_step = -1;
tl->print(tl->user, tl->prompt);
}
static void add_char_silent(t_tokenline *tl, int c)
{
if (tl->pos == tl->buf_len) {
tl->buf[tl->buf_len++] = c;
tl->buf[tl->buf_len] = 0;
tl->pos++;
} else {
memmove(tl->buf + tl->pos + 1, tl->buf + tl->pos,
tl->buf_len - tl->pos + 1);
tl->buf[tl->pos] = c;
tl->buf_len++;
tl->pos++;
}
}
static void add_char(t_tokenline *tl, int c)
{
int i;
if (tl->pos == tl->buf_len) {
tl->buf[tl->buf_len++] = c;
tl->buf[tl->buf_len] = 0;
tl->print(tl->user, tl->buf + tl->buf_len - 1);
tl->pos++;
} else {
memmove(tl->buf + tl->pos + 1, tl->buf + tl->pos,
tl->buf_len - tl->pos + 1);
tl->buf[tl->pos] = c;
tl->print(tl->user, tl->buf + tl->pos);
for (i = 0; i < tl->buf_len - tl->pos; i++)
tl->print(tl->user, "\x1b\x5b\x44");
tl->buf_len++;
tl->pos++;
}
}
static void set_line(t_tokenline *tl, char *line)
{
int size;
size = strlen(line);
if (size > TL_MAX_LINE_LEN - 1) {
add_char(tl, '!');
return;
}
if (tl->pos == tl->buf_len) {
tl->print(tl->user, line);
tl->pos += size;
memcpy(tl->buf + tl->buf_len, line, size);
tl->buf_len += size;
tl->buf[tl->buf_len] = 0;
}
}
static void print_token_and_help(t_tokenline *tl, t_token *token)
{
char *s;
tl->print(tl->user, INDENT);
if (token->token < T_ARG_UINT)
s = tl->token_dict[token->token].tokenstr;
else
s = arg_type_to_string(token->token);
tl->print(tl->user, s);
if (token->help) {
tl->print(tl->user, space + strlen(s));
tl->print(tl->user, token->help);
}
}
static void complete(t_tokenline *tl)
{
t_token *tokens, *partial;
unsigned int i;
int words[TL_MAX_WORDS], num_words, arg_needed, multiple;
int reprompt, t;
char *word;
reprompt = FALSE;
if (!tl->pos) {
/* Tab on an empty line: show all commmands. */
tl->print(tl->user, NL);
tokens = tl->token_levels[tl->token_level];
for (i = 0; tokens[i].token; i++) {
print_token_and_help(tl, &tokens[i]);
tl->print(tl->user, NL);
}
reprompt = TRUE;
} else if (tl->buf[tl->pos - 1] != ' ') {
/* Try to complete the current word. */
if (!split_line(tl, words, &num_words, TRUE) || !num_words)
return;
if (tokenize(tl, words, num_words - 1, &tokens, NULL)) {
if (tokens) {
word = tl->buf + words[num_words - 1];
partial = NULL;
multiple = FALSE;
for (t = 0; tokens[t].token; t++) {
if (tokens[t].token >= T_ARG_UINT)
continue;
if (!strncmp(word, tl->token_dict[tokens[t].token].tokenstr, strlen(word))) {
if (partial) {
/* Not the first match, print previous one. */
multiple = TRUE;
tl->print(tl->user, NL);
print_token_and_help(tl, partial);
}
partial = &tokens[t];
}
}
if (partial) {
if (multiple) {
/* Last partial match. */
tl->print(tl->user, NL);
print_token_and_help(tl, partial);
tl->print(tl->user, NL);
reprompt = TRUE;
} else {
for (i = strlen(word); i < strlen(tl->token_dict[partial->token].tokenstr); i++)
add_char(tl, tl->token_dict[partial->token].tokenstr[i]);
if(tl->pos+1 < TL_MAX_LINE_LEN - 1)
add_char(tl, ' ');
}
}
}
}
} else {
/* List all possible tokens from this point. */
if (!split_line(tl, words, &num_words, TRUE) || !num_words)
return;
if (tokenize(tl, words, num_words, &tokens, &arg_needed)) {
if (arg_needed && arg_needed != T_ARG_TOKEN) {
tl->print(tl->user, INDENT NL);
tl->print(tl->user, arg_type_to_string(arg_needed));
tl->print(tl->user, NL);
reprompt = TRUE;
} else if (tokens) {
tl->print(tl->user, NL);
for (t = 0; tokens[t].token; t++) {
print_token_and_help(tl, &tokens[t]);
tl->print(tl->user, NL);
reprompt = TRUE;
}
}
}
}
unsplit_line(tl);
if (reprompt) {
tl->print(tl->user, tl->prompt);
tl->print(tl->user, tl->buf);
}
}
static void line_clear(t_tokenline *tl)
{
while (tl->pos < tl->buf_len) {
tl->pos++;
tl->print(tl->user, "\x1b\x5b\x43");
}
while (tl->pos)
line_backspace(tl);
}
static void line_backspace(t_tokenline *tl)
{
int i;
if (tl->pos == tl->buf_len) {
tl->buf[tl->buf_len - 1] = 0;
tl->print(tl->user, "\x1b\x5b\x44 \x1b\x5b\x44");
} else {
memmove(tl->buf + tl->pos - 1, tl->buf + tl->pos,
tl->buf_len - tl->pos + 1);
tl->print(tl->user, "\x1b\x5b\x44");
tl->print(tl->user, tl->buf + tl->pos - 1);
tl->print(tl->user, " ");
for (i = 0; i < tl->buf_len - tl->pos + 1; i++)
tl->print(tl->user, "\x1b\x5b\x44");
}
tl->buf_len--;
tl->pos--;
}
static void line_home(t_tokenline *tl)
{
while (tl->pos) {
tl->pos--;
tl->print(tl->user, "\x1b\x5b\x44");
}
}
static void line_end(t_tokenline *tl)
{
while (tl->pos < tl->buf_len) {
tl->pos++;
tl->print(tl->user, "\x1b\x5b\x43");
}
}
static void line_delete_char(t_tokenline *tl)
{
int i;
if (tl->pos < tl->buf_len) {
memmove(tl->buf + tl->pos, tl->buf + tl->pos + 1,