esp-idf/components/console/linenoise/linenoise.c

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/* linenoise.c -- guerrilla line editing library against the idea that a
* line editing lib needs to be 20,000 lines of C code.
*
* You can find the latest source code at:
*
* http://github.com/antirez/linenoise
*
* Does a number of crazy assumptions that happen to be true in 99.9999% of
* the 2010 UNIX computers around.
*
* ------------------------------------------------------------------------
*
* Copyright (c) 2010-2016, Salvatore Sanfilippo <antirez at gmail dot com>
* Copyright (c) 2010-2013, Pieter Noordhuis <pcnoordhuis at gmail dot com>
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* ------------------------------------------------------------------------
*
* References:
* - http://invisible-island.net/xterm/ctlseqs/ctlseqs.html
* - http://www.3waylabs.com/nw/WWW/products/wizcon/vt220.html
*
* Todo list:
* - Filter bogus Ctrl+<char> combinations.
* - Win32 support
*
* Bloat:
* - History search like Ctrl+r in readline?
*
* List of escape sequences used by this program, we do everything just
* with three sequences. In order to be so cheap we may have some
* flickering effect with some slow terminal, but the lesser sequences
* the more compatible.
*
* EL (Erase Line)
* Sequence: ESC [ n K
* Effect: if n is 0 or missing, clear from cursor to end of line
* Effect: if n is 1, clear from beginning of line to cursor
* Effect: if n is 2, clear entire line
*
* CUF (CUrsor Forward)
* Sequence: ESC [ n C
* Effect: moves cursor forward n chars
*
* CUB (CUrsor Backward)
* Sequence: ESC [ n D
* Effect: moves cursor backward n chars
*
* The following is used to get the terminal width if getting
* the width with the TIOCGWINSZ ioctl fails
*
* DSR (Device Status Report)
* Sequence: ESC [ 6 n
* Effect: reports the current cusor position as ESC [ n ; m R
* where n is the row and m is the column
*
* When multi line mode is enabled, we also use an additional escape
* sequence. However multi line editing is disabled by default.
*
* CUU (Cursor Up)
* Sequence: ESC [ n A
* Effect: moves cursor up of n chars.
*
* CUD (Cursor Down)
* Sequence: ESC [ n B
* Effect: moves cursor down of n chars.
*
* When linenoiseClearScreen() is called, two additional escape sequences
* are used in order to clear the screen and position the cursor at home
* position.
*
* CUP (Cursor position)
* Sequence: ESC [ H
* Effect: moves the cursor to upper left corner
*
* ED (Erase display)
* Sequence: ESC [ 2 J
* Effect: clear the whole screen
*
*/
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdio_ext.h>
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#include <errno.h>
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/fcntl.h>
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#include <unistd.h>
#include <assert.h>
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#include "linenoise.h"
#define LINENOISE_DEFAULT_HISTORY_MAX_LEN 100
#define LINENOISE_DEFAULT_MAX_LINE 4096
#define LINENOISE_MINIMAL_MAX_LINE 64
#define LINENOISE_COMMAND_MAX_LEN 32
#define LINENOISE_PASTE_KEY_DELAY 30 /* Delay, in milliseconds, between two characters being pasted from clipboard */
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static linenoiseCompletionCallback *completionCallback = NULL;
static linenoiseHintsCallback *hintsCallback = NULL;
static linenoiseFreeHintsCallback *freeHintsCallback = NULL;
static size_t max_cmdline_length = LINENOISE_DEFAULT_MAX_LINE;
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static int mlmode = 0; /* Multi line mode. Default is single line. */
static int dumbmode = 0; /* Dumb mode where line editing is disabled. Off by default */
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static int history_max_len = LINENOISE_DEFAULT_HISTORY_MAX_LEN;
static int history_len = 0;
static char **history = NULL;
static bool allow_empty = true;
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/* The linenoiseState structure represents the state during line editing.
* We pass this state to functions implementing specific editing
* functionalities. */
struct linenoiseState {
char *buf; /* Edited line buffer. */
size_t buflen; /* Edited line buffer size. */
const char *prompt; /* Prompt to display. */
size_t plen; /* Prompt length. */
size_t pos; /* Current cursor position. */
size_t oldpos; /* Previous refresh cursor position. */
size_t len; /* Current edited line length. */
size_t cols; /* Number of columns in terminal. */
size_t maxrows; /* Maximum num of rows used so far (multiline mode) */
int history_index; /* The history index we are currently editing. */
};
enum KEY_ACTION{
KEY_NULL = 0, /* NULL */
CTRL_A = 1, /* Ctrl+a */
CTRL_B = 2, /* Ctrl-b */
CTRL_C = 3, /* Ctrl-c */
CTRL_D = 4, /* Ctrl-d */
CTRL_E = 5, /* Ctrl-e */
CTRL_F = 6, /* Ctrl-f */
CTRL_H = 8, /* Ctrl-h */
TAB = 9, /* Tab */
CTRL_K = 11, /* Ctrl+k */
CTRL_L = 12, /* Ctrl+l */
ENTER = 10, /* Enter */
CTRL_N = 14, /* Ctrl-n */
CTRL_P = 16, /* Ctrl-p */
CTRL_T = 20, /* Ctrl-t */
CTRL_U = 21, /* Ctrl+u */
CTRL_W = 23, /* Ctrl+w */
ESC = 27, /* Escape */
BACKSPACE = 127 /* Backspace */
};
int linenoiseHistoryAdd(const char *line);
static void refreshLine(struct linenoiseState *l);
/* Debugging macro. */
#if 0
FILE *lndebug_fp = NULL;
#define lndebug(...) \
do { \
if (lndebug_fp == NULL) { \
lndebug_fp = fopen("/tmp/lndebug.txt","a"); \
fprintf(lndebug_fp, \
"[%d %d %d] p: %d, rows: %d, rpos: %d, max: %d, oldmax: %d\n", \
(int)l->len,(int)l->pos,(int)l->oldpos,plen,rows,rpos, \
(int)l->maxrows,old_rows); \
} \
fprintf(lndebug_fp, ", " __VA_ARGS__); \
fflush(lndebug_fp); \
} while (0)
#else
#define lndebug(fmt, ...)
#endif
/* ======================= Low level terminal handling ====================== */
/* Set if to use or not the multi line mode. */
void linenoiseSetMultiLine(int ml) {
mlmode = ml;
}
/* Set if terminal does not recognize escape sequences */
void linenoiseSetDumbMode(int set) {
dumbmode = set;
}
/* Returns whether the current mode is dumbmode or not. */
bool linenoiseIsDumbMode(void) {
return dumbmode;
}
static void flushWrite(void) {
if (__fbufsize(stdout) > 0) {
fflush(stdout);
}
fsync(fileno(stdout));
}
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/* Use the ESC [6n escape sequence to query the horizontal cursor position
* and return it. On error -1 is returned, on success the position of the
* cursor. */
static int getCursorPosition(void) {
char buf[LINENOISE_COMMAND_MAX_LEN] = { 0 };
int cols = 0;
int rows = 0;
int i = 0;
const int out_fd = fileno(stdout);
const int in_fd = fileno(stdin);
/* The following ANSI escape sequence is used to get from the TTY the
* cursor position. */
const char get_cursor_cmd[] = "\x1b[6n";
/* Send the command to the TTY on the other end of the UART.
* Let's use unistd's write function. Thus, data sent through it are raw
* reducing the overhead compared to using fputs, fprintf, etc... */
write(out_fd, get_cursor_cmd, sizeof(get_cursor_cmd));
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/* For USB CDC, it is required to flush the output. */
flushWrite();
/* The other end will send its response which format is ESC [ rows ; cols R
* We don't know exactly how many bytes we have to read, thus, perform a
* read for each byte.
* Stop right before the last character of the buffer, to be able to NULL
* terminate it. */
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while (i < sizeof(buf)-1) {
/* Keep using unistd's functions. Here, using `read` instead of `fgets`
* or `fgets` guarantees us that we we can read a byte regardless on
* whether the sender sent end of line character(s) (CR, CRLF, LF). */
if (read(in_fd, buf + i, 1) != 1 || buf[i] == 'R') {
/* If we couldn't read a byte from STDIN or if 'R' was received,
* the transmission is finished. */
break;
}
/* For some reasons, it is possible that we receive new line character
* after querying the cursor position on some UART. Let's ignore them,
* this will not affect the rest of the program. */
if (buf[i] != '\n') {
i++;
}
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}
/* NULL-terminate the buffer, this is required by `sscanf`. */
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buf[i] = '\0';
/* Parse the received data to get the position of the cursor. */
if (buf[0] != ESC || buf[1] != '[' || sscanf(buf+2,"%d;%d",&rows,&cols) != 2) {
return -1;
}
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return cols;
}
/* Try to get the number of columns in the current terminal, or assume 80
* if it fails. */
static int getColumns(void) {
int start = 0;
int cols = 0;
int written = 0;
char seq[LINENOISE_COMMAND_MAX_LEN] = { 0 };
const int fd = fileno(stdout);
/* The following ANSI escape sequence is used to tell the TTY to move
* the cursor to the most-right position. */
const char move_cursor_right[] = "\x1b[999C";
const size_t cmd_len = sizeof(move_cursor_right);
/* This one is used to set the cursor position. */
const char set_cursor_pos[] = "\x1b[%dD";
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/* Get the initial position so we can restore it later. */
start = getCursorPosition();
if (start == -1) {
goto failed;
}
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/* Send the command to go to right margin. Use `write` function instead of
* `fwrite` for the same reasons explained in `getCursorPosition()` */
if (write(fd, move_cursor_right, cmd_len) != cmd_len) {
goto failed;
}
flushWrite();
/* After sending this command, we can get the new position of the cursor,
* we'd get the size, in columns, of the opened TTY. */
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cols = getCursorPosition();
if (cols == -1) {
goto failed;
}
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/* Restore the position of the cursor back. */
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if (cols > start) {
/* Generate the move cursor command. */
written = snprintf(seq, LINENOISE_COMMAND_MAX_LEN, set_cursor_pos, cols-start);
/* If `written` is equal or bigger than LINENOISE_COMMAND_MAX_LEN, it
* means that the output has been truncated because the size provided
* is too small. */
assert (written < LINENOISE_COMMAND_MAX_LEN);
/* Send the command with `write`, which is not buffered. */
if (write(fd, seq, written) == -1) {
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/* Can't recover... */
}
flushWrite();
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}
return cols;
failed:
return 80;
}
/* Clear the screen. Used to handle ctrl+l */
void linenoiseClearScreen(void) {
fprintf(stdout,"\x1b[H\x1b[2J");
flushWrite();
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}
/* Beep, used for completion when there is nothing to complete or when all
* the choices were already shown. */
static void linenoiseBeep(void) {
fprintf(stdout, "\x7");
flushWrite();
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}
/* ============================== Completion ================================ */
/* Free a list of completion option populated by linenoiseAddCompletion(). */
static void freeCompletions(linenoiseCompletions *lc) {
size_t i;
for (i = 0; i < lc->len; i++)
free(lc->cvec[i]);
if (lc->cvec != NULL)
free(lc->cvec);
}
/* This is an helper function for linenoiseEdit() and is called when the
* user types the <tab> key in order to complete the string currently in the
* input.
*
* The state of the editing is encapsulated into the pointed linenoiseState
* structure as described in the structure definition. */
static int completeLine(struct linenoiseState *ls) {
linenoiseCompletions lc = { 0, NULL };
int nread, nwritten;
char c = 0;
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int in_fd = fileno(stdin);
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completionCallback(ls->buf,&lc);
if (lc.len == 0) {
linenoiseBeep();
} else {
size_t stop = 0, i = 0;
while(!stop) {
/* Show completion or original buffer */
if (i < lc.len) {
struct linenoiseState saved = *ls;
ls->len = ls->pos = strlen(lc.cvec[i]);
ls->buf = lc.cvec[i];
refreshLine(ls);
ls->len = saved.len;
ls->pos = saved.pos;
ls->buf = saved.buf;
} else {
refreshLine(ls);
}
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nread = read(in_fd, &c, 1);
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if (nread <= 0) {
freeCompletions(&lc);
return -1;
}
switch(c) {
case TAB: /* tab */
i = (i+1) % (lc.len+1);
if (i == lc.len) linenoiseBeep();
break;
case ESC: /* escape */
/* Re-show original buffer */
if (i < lc.len) refreshLine(ls);
stop = 1;
break;
default:
/* Update buffer and return */
if (i < lc.len) {
nwritten = snprintf(ls->buf,ls->buflen,"%s",lc.cvec[i]);
ls->len = ls->pos = nwritten;
}
stop = 1;
break;
}
}
}
freeCompletions(&lc);
return c; /* Return last read character */
}
/* Register a callback function to be called for tab-completion. */
void linenoiseSetCompletionCallback(linenoiseCompletionCallback *fn) {
completionCallback = fn;
}
/* Register a hits function to be called to show hits to the user at the
* right of the prompt. */
void linenoiseSetHintsCallback(linenoiseHintsCallback *fn) {
hintsCallback = fn;
}
/* Register a function to free the hints returned by the hints callback
* registered with linenoiseSetHintsCallback(). */
void linenoiseSetFreeHintsCallback(linenoiseFreeHintsCallback *fn) {
freeHintsCallback = fn;
}
/* This function is used by the callback function registered by the user
* in order to add completion options given the input string when the
* user typed <tab>. See the example.c source code for a very easy to
* understand example. */
void linenoiseAddCompletion(linenoiseCompletions *lc, const char *str) {
size_t len = strlen(str);
char *copy, **cvec;
copy = malloc(len+1);
if (copy == NULL) return;
memcpy(copy,str,len+1);
cvec = realloc(lc->cvec,sizeof(char*)*(lc->len+1));
if (cvec == NULL) {
free(copy);
return;
}
lc->cvec = cvec;
lc->cvec[lc->len++] = copy;
}
/* =========================== Line editing ================================= */
/* We define a very simple "append buffer" structure, that is an heap
* allocated string where we can append to. This is useful in order to
* write all the escape sequences in a buffer and flush them to the standard
* output in a single call, to avoid flickering effects. */
struct abuf {
char *b;
int len;
};
static void abInit(struct abuf *ab) {
ab->b = NULL;
ab->len = 0;
}
static void abAppend(struct abuf *ab, const char *s, int len) {
char *new = realloc(ab->b,ab->len+len);
if (new == NULL) return;
memcpy(new+ab->len,s,len);
ab->b = new;
ab->len += len;
}
static void abFree(struct abuf *ab) {
free(ab->b);
}
/* Helper of refreshSingleLine() and refreshMultiLine() to show hints
* to the right of the prompt. */
void refreshShowHints(struct abuf *ab, struct linenoiseState *l, int plen) {
char seq[64];
if (hintsCallback && plen+l->len < l->cols) {
int color = -1, bold = 0;
char *hint = hintsCallback(l->buf,&color,&bold);
if (hint) {
int hintlen = strlen(hint);
int hintmaxlen = l->cols-(plen+l->len);
if (hintlen > hintmaxlen) hintlen = hintmaxlen;
if (bold == 1 && color == -1) color = 37;
if (color != -1 || bold != 0)
snprintf(seq,64,"\033[%d;%d;49m",bold,color);
abAppend(ab,seq,strlen(seq));
abAppend(ab,hint,hintlen);
if (color != -1 || bold != 0)
abAppend(ab,"\033[0m",4);
/* Call the function to free the hint returned. */
if (freeHintsCallback) freeHintsCallback(hint);
}
}
}
/* Single line low level line refresh.
*
* Rewrite the currently edited line accordingly to the buffer content,
* cursor position, and number of columns of the terminal. */
static void refreshSingleLine(struct linenoiseState *l) {
char seq[64];
size_t plen = l->plen;
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int fd = fileno(stdout);
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char *buf = l->buf;
size_t len = l->len;
size_t pos = l->pos;
struct abuf ab;
while((plen+pos) >= l->cols) {
buf++;
len--;
pos--;
}
while (plen+len > l->cols) {
len--;
}
abInit(&ab);
/* Cursor to left edge */
snprintf(seq,64,"\r");
abAppend(&ab,seq,strlen(seq));
/* Write the prompt and the current buffer content */
abAppend(&ab,l->prompt,strlen(l->prompt));
abAppend(&ab,buf,len);
/* Show hits if any. */
refreshShowHints(&ab,l,plen);
/* Erase to right */
snprintf(seq,64,"\x1b[0K");
abAppend(&ab,seq,strlen(seq));
/* Move cursor to original position. */
snprintf(seq,64,"\r\x1b[%dC", (int)(pos+plen));
abAppend(&ab,seq,strlen(seq));
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if (write(fd, ab.b, ab.len) == -1) {} /* Can't recover from write error. */
flushWrite();
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abFree(&ab);
}
/* Multi line low level line refresh.
*
* Rewrite the currently edited line accordingly to the buffer content,
* cursor position, and number of columns of the terminal. */
static void refreshMultiLine(struct linenoiseState *l) {
char seq[64];
int plen = l->plen;
int rows = (plen+l->len+l->cols-1)/l->cols; /* rows used by current buf. */
int rpos = (plen+l->oldpos+l->cols)/l->cols; /* cursor relative row. */
int rpos2; /* rpos after refresh. */
int col; /* colum position, zero-based. */
int old_rows = l->maxrows;
int j;
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int fd = fileno(stdout);
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struct abuf ab;
/* Update maxrows if needed. */
if (rows > (int)l->maxrows) l->maxrows = rows;
/* First step: clear all the lines used before. To do so start by
* going to the last row. */
abInit(&ab);
if (old_rows-rpos > 0) {
lndebug("go down %d", old_rows-rpos);
snprintf(seq,64,"\x1b[%dB", old_rows-rpos);
abAppend(&ab,seq,strlen(seq));
}
/* Now for every row clear it, go up. */
for (j = 0; j < old_rows-1; j++) {
lndebug("clear+up");
snprintf(seq,64,"\r\x1b[0K\x1b[1A");
abAppend(&ab,seq,strlen(seq));
}
/* Clean the top line. */
lndebug("clear");
snprintf(seq,64,"\r\x1b[0K");
abAppend(&ab,seq,strlen(seq));
/* Write the prompt and the current buffer content */
abAppend(&ab,l->prompt,strlen(l->prompt));
abAppend(&ab,l->buf,l->len);
/* Show hits if any. */
refreshShowHints(&ab,l,plen);
/* If we are at the very end of the screen with our prompt, we need to
* emit a newline and move the prompt to the first column. */
if (l->pos &&
l->pos == l->len &&
(l->pos+plen) % l->cols == 0)
{
lndebug("<newline>");
abAppend(&ab,"\n",1);
snprintf(seq,64,"\r");
abAppend(&ab,seq,strlen(seq));
rows++;
if (rows > (int)l->maxrows) l->maxrows = rows;
}
/* Move cursor to right position. */
rpos2 = (plen+l->pos+l->cols)/l->cols; /* current cursor relative row. */
lndebug("rpos2 %d", rpos2);
/* Go up till we reach the expected positon. */
if (rows-rpos2 > 0) {
lndebug("go-up %d", rows-rpos2);
snprintf(seq,64,"\x1b[%dA", rows-rpos2);
abAppend(&ab,seq,strlen(seq));
}
/* Set column. */
col = (plen+(int)l->pos) % (int)l->cols;
lndebug("set col %d", 1+col);
if (col)
snprintf(seq,64,"\r\x1b[%dC", col);
else
snprintf(seq,64,"\r");
abAppend(&ab,seq,strlen(seq));
lndebug("\n");
l->oldpos = l->pos;
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if (write(fd,ab.b,ab.len) == -1) {} /* Can't recover from write error. */
flushWrite();
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abFree(&ab);
}
/* Calls the two low level functions refreshSingleLine() or
* refreshMultiLine() according to the selected mode. */
static void refreshLine(struct linenoiseState *l) {
if (mlmode)
refreshMultiLine(l);
else
refreshSingleLine(l);
}
/* Insert the character 'c' at cursor current position.
*
* On error writing to the terminal -1 is returned, otherwise 0. */
int linenoiseEditInsert(struct linenoiseState *l, char c) {
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int fd = fileno(stdout);
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if (l->len < l->buflen) {
if (l->len == l->pos) {
l->buf[l->pos] = c;
l->pos++;
l->len++;
l->buf[l->len] = '\0';
if ((!mlmode && l->plen+l->len < l->cols && !hintsCallback)) {
/* Avoid a full update of the line in the
* trivial case. */
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if (write(fd, &c,1) == -1) {
return -1;
}
flushWrite();
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} else {
refreshLine(l);
}
} else {
memmove(l->buf+l->pos+1,l->buf+l->pos,l->len-l->pos);
l->buf[l->pos] = c;
l->len++;
l->pos++;
l->buf[l->len] = '\0';
refreshLine(l);
}
}
return 0;
}
int linenoiseInsertPastedChar(struct linenoiseState *l, char c) {
int fd = fileno(stdout);
if (l->len < l->buflen && l->len == l->pos) {
l->buf[l->pos] = c;
l->pos++;
l->len++;
l->buf[l->len] = '\0';
if (write(fd, &c,1) == -1) {
return -1;
}
flushWrite();
}
return 0;
}
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/* Move cursor on the left. */
void linenoiseEditMoveLeft(struct linenoiseState *l) {
if (l->pos > 0) {
l->pos--;
refreshLine(l);
}
}
/* Move cursor on the right. */
void linenoiseEditMoveRight(struct linenoiseState *l) {
if (l->pos != l->len) {
l->pos++;
refreshLine(l);
}
}
/* Move cursor to the start of the line. */
void linenoiseEditMoveHome(struct linenoiseState *l) {
if (l->pos != 0) {
l->pos = 0;
refreshLine(l);
}
}
/* Move cursor to the end of the line. */
void linenoiseEditMoveEnd(struct linenoiseState *l) {
if (l->pos != l->len) {
l->pos = l->len;
refreshLine(l);
}
}
/* Substitute the currently edited line with the next or previous history
* entry as specified by 'dir'. */
#define LINENOISE_HISTORY_NEXT 0
#define LINENOISE_HISTORY_PREV 1
void linenoiseEditHistoryNext(struct linenoiseState *l, int dir) {
if (history_len > 1) {
/* Update the current history entry before to
* overwrite it with the next one. */
free(history[history_len - 1 - l->history_index]);
history[history_len - 1 - l->history_index] = strdup(l->buf);
/* Show the new entry */
l->history_index += (dir == LINENOISE_HISTORY_PREV) ? 1 : -1;
if (l->history_index < 0) {
l->history_index = 0;
return;
} else if (l->history_index >= history_len) {
l->history_index = history_len-1;
return;
}
strncpy(l->buf,history[history_len - 1 - l->history_index],l->buflen);
l->buf[l->buflen-1] = '\0';
l->len = l->pos = strlen(l->buf);
refreshLine(l);
}
}
/* Delete the character at the right of the cursor without altering the cursor
* position. Basically this is what happens with the "Delete" keyboard key. */
void linenoiseEditDelete(struct linenoiseState *l) {
if (l->len > 0 && l->pos < l->len) {
memmove(l->buf+l->pos,l->buf+l->pos+1,l->len-l->pos-1);
l->len--;
l->buf[l->len] = '\0';
refreshLine(l);
}
}
/* Backspace implementation. */
void linenoiseEditBackspace(struct linenoiseState *l) {
if (l->pos > 0 && l->len > 0) {
memmove(l->buf+l->pos-1,l->buf+l->pos,l->len-l->pos);
l->pos--;
l->len--;
l->buf[l->len] = '\0';
refreshLine(l);
}
}
/* Delete the previosu word, maintaining the cursor at the start of the
* current word. */
void linenoiseEditDeletePrevWord(struct linenoiseState *l) {
size_t old_pos = l->pos;
size_t diff;
while (l->pos > 0 && l->buf[l->pos-1] == ' ')
l->pos--;
while (l->pos > 0 && l->buf[l->pos-1] != ' ')
l->pos--;
diff = old_pos - l->pos;
memmove(l->buf+l->pos,l->buf+old_pos,l->len-old_pos+1);
l->len -= diff;
refreshLine(l);
}
uint32_t getMillis(void) {
struct timeval tv = { 0 };
gettimeofday(&tv, NULL);
return tv.tv_sec * 1000 + tv.tv_usec / 1000;
}
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/* This function is the core of the line editing capability of linenoise.
* It expects 'fd' to be already in "raw mode" so that every key pressed
* will be returned ASAP to read().
*
* The resulting string is put into 'buf' when the user type enter, or
* when ctrl+d is typed.
*
* The function returns the length of the current buffer. */
static int linenoiseEdit(char *buf, size_t buflen, const char *prompt)
{
uint32_t t1 = 0;
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struct linenoiseState l;
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int out_fd = fileno(stdout);
int in_fd = fileno(stdin);
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/* Populate the linenoise state that we pass to functions implementing
* specific editing functionalities. */
l.buf = buf;
l.buflen = buflen;
l.prompt = prompt;
l.plen = strlen(prompt);
l.oldpos = l.pos = 0;
l.len = 0;
l.cols = getColumns();
l.maxrows = 0;
l.history_index = 0;
/* Buffer starts empty. */
l.buf[0] = '\0';
l.buflen--; /* Make sure there is always space for the nulterm */
/* The latest history entry is always our current buffer, that
* initially is just an empty string. */
linenoiseHistoryAdd("");
int pos1 = getCursorPosition();
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if (write(out_fd, prompt,l.plen) == -1) {
return -1;
}
flushWrite();
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int pos2 = getCursorPosition();
if (pos1 >= 0 && pos2 >= 0) {
l.plen = pos2 - pos1;
}
while(1) {
char c;
int nread;
char seq[3];
/**
* To determine whether the user is pasting data or typing itself, we
* need to calculate how many milliseconds elapsed between two key
* presses. Indeed, if there is less than LINENOISE_PASTE_KEY_DELAY
* (typically 30-40ms), then a paste is being performed, else, the
* user is typing.
* NOTE: pressing a key down without releasing it will also spend
* about 40ms (or even more)
*/
t1 = getMillis();
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nread = read(in_fd, &c, 1);
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if (nread <= 0) return l.len;
if ( (getMillis() - t1) < LINENOISE_PASTE_KEY_DELAY ) {
/* Pasting data, insert characters without formatting.
* This can only be performed when the cursor is at the end of the
* line. */
if (linenoiseInsertPastedChar(&l,c)) {
return -1;
}
continue;
}
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/* Only autocomplete when the callback is set. It returns < 0 when
* there was an error reading from fd. Otherwise it will return the
* character that should be handled next. */
if (c == 9 && completionCallback != NULL) {
int c2 = completeLine(&l);
/* Return on errors */
if (c2 < 0) return l.len;
/* Read next character when 0 */
if (c2 == 0) continue;
c = c2;
}
switch(c) {
case ENTER: /* enter */
history_len--;
free(history[history_len]);
if (mlmode) linenoiseEditMoveEnd(&l);
if (hintsCallback) {
/* Force a refresh without hints to leave the previous
* line as the user typed it after a newline. */
linenoiseHintsCallback *hc = hintsCallback;
hintsCallback = NULL;
refreshLine(&l);
hintsCallback = hc;
}
return (int)l.len;
case CTRL_C: /* ctrl-c */
errno = EAGAIN;
return -1;
case BACKSPACE: /* backspace */
case 8: /* ctrl-h */
linenoiseEditBackspace(&l);
break;
case CTRL_D: /* ctrl-d, remove char at right of cursor, or if the
line is empty, act as end-of-file. */
if (l.len > 0) {
linenoiseEditDelete(&l);
} else {
history_len--;
free(history[history_len]);
return -1;
}
break;
case CTRL_T: /* ctrl-t, swaps current character with previous. */
if (l.pos > 0 && l.pos < l.len) {
int aux = buf[l.pos-1];
buf[l.pos-1] = buf[l.pos];
buf[l.pos] = aux;
if (l.pos != l.len-1) l.pos++;
refreshLine(&l);
}
break;
case CTRL_B: /* ctrl-b */
linenoiseEditMoveLeft(&l);
break;
case CTRL_F: /* ctrl-f */
linenoiseEditMoveRight(&l);
break;
case CTRL_P: /* ctrl-p */
linenoiseEditHistoryNext(&l, LINENOISE_HISTORY_PREV);
break;
case CTRL_N: /* ctrl-n */
linenoiseEditHistoryNext(&l, LINENOISE_HISTORY_NEXT);
break;
case ESC: /* escape sequence */
/* Read the next two bytes representing the escape sequence. */
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if (read(in_fd, seq, 2) < 2) {
break;
}
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/* ESC [ sequences. */
if (seq[0] == '[') {
if (seq[1] >= '0' && seq[1] <= '9') {
/* Extended escape, read additional byte. */
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if (read(in_fd, seq+2, 1) == -1) {
break;
}
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if (seq[2] == '~') {
switch(seq[1]) {
case '3': /* Delete key. */
linenoiseEditDelete(&l);
break;
}
}
} else {
switch(seq[1]) {
case 'A': /* Up */
linenoiseEditHistoryNext(&l, LINENOISE_HISTORY_PREV);
break;
case 'B': /* Down */
linenoiseEditHistoryNext(&l, LINENOISE_HISTORY_NEXT);
break;
case 'C': /* Right */
linenoiseEditMoveRight(&l);
break;
case 'D': /* Left */
linenoiseEditMoveLeft(&l);
break;
case 'H': /* Home */
linenoiseEditMoveHome(&l);
break;
case 'F': /* End*/
linenoiseEditMoveEnd(&l);
break;
}
}
}
/* ESC O sequences. */
else if (seq[0] == 'O') {
switch(seq[1]) {
case 'H': /* Home */
linenoiseEditMoveHome(&l);
break;
case 'F': /* End*/
linenoiseEditMoveEnd(&l);
break;
}
}
break;
default:
if (linenoiseEditInsert(&l,c)) return -1;
break;
case CTRL_U: /* Ctrl+u, delete the whole line. */
buf[0] = '\0';
l.pos = l.len = 0;
refreshLine(&l);
break;
case CTRL_K: /* Ctrl+k, delete from current to end of line. */
buf[l.pos] = '\0';
l.len = l.pos;
refreshLine(&l);
break;
case CTRL_A: /* Ctrl+a, go to the start of the line */
linenoiseEditMoveHome(&l);
break;
case CTRL_E: /* ctrl+e, go to the end of the line */
linenoiseEditMoveEnd(&l);
break;
case CTRL_L: /* ctrl+l, clear screen */
linenoiseClearScreen();
refreshLine(&l);
break;
case CTRL_W: /* ctrl+w, delete previous word */
linenoiseEditDeletePrevWord(&l);
break;
}
flushWrite();
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}
return l.len;
}
void linenoiseAllowEmpty(bool val) {
allow_empty = val;
}
int linenoiseProbe(void) {
/* Switch to non-blocking mode */
int stdin_fileno = fileno(stdin);
int flags = fcntl(stdin_fileno, F_GETFL);
flags |= O_NONBLOCK;
int res = fcntl(stdin_fileno, F_SETFL, flags);
if (res != 0) {
return -1;
}
/* Device status request */
fprintf(stdout, "\x1b[5n");
flushWrite();
/* Try to read response */
int timeout_ms = 200;
const int retry_ms = 10;
size_t read_bytes = 0;
while (timeout_ms > 0 && read_bytes < 4) { // response is ESC[0n or ESC[3n
usleep(retry_ms * 1000);
timeout_ms -= retry_ms;
char c;
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int cb = read(stdin_fileno, &c, 1);
if (cb < 0) {
continue;
}
read_bytes += cb;
}
/* Restore old mode */
flags &= ~O_NONBLOCK;
res = fcntl(stdin_fileno, F_SETFL, flags);
if (res != 0) {
return -1;
}
if (read_bytes < 4) {
return -2;
}
return 0;
}
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static int linenoiseRaw(char *buf, size_t buflen, const char *prompt) {
int count;
if (buflen == 0) {
errno = EINVAL;
return -1;
}
count = linenoiseEdit(buf, buflen, prompt);
fputc('\n', stdout);
flushWrite();
return count;
}
static int linenoiseDumb(char* buf, size_t buflen, const char* prompt) {
/* dumb terminal, fall back to fgets */
fputs(prompt, stdout);
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size_t count = 0;
while (count < buflen) {
int c = fgetc(stdin);
if (c == '\n') {
break;
} else if (c >= 0x1c && c <= 0x1f){
continue; /* consume arrow keys */
} else if (c == BACKSPACE || c == 0x8) {
if (count > 0) {
buf[count - 1] = 0;
count --;
}
fputs("\x08 ", stdout); /* Windows CMD: erase symbol under cursor */
} else {
buf[count] = c;
++count;
}
fputc(c, stdout); /* echo */
}
fputc('\n', stdout);
flushWrite();
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return count;
}
static void sanitize(char* src) {
char* dst = src;
for (int c = *src; c != 0; src++, c = *src) {
if (isprint(c)) {
*dst = c;
++dst;
}
}
*dst = 0;
}
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/* The high level function that is the main API of the linenoise library. */
char *linenoise(const char *prompt) {
char *buf = calloc(1, max_cmdline_length);
int count = 0;
if (buf == NULL) {
return NULL;
}
if (!dumbmode) {
count = linenoiseRaw(buf, max_cmdline_length, prompt);
} else {
count = linenoiseDumb(buf, max_cmdline_length, prompt);
}
if (count > 0) {
sanitize(buf);
count = strlen(buf);
} else if (count == 0 && allow_empty) {
/* will return an empty (0-length) string */
} else {
free(buf);
return NULL;
}
return buf;
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}
/* This is just a wrapper the user may want to call in order to make sure
* the linenoise returned buffer is freed with the same allocator it was
* created with. Useful when the main program is using an alternative
* allocator. */
void linenoiseFree(void *ptr) {
free(ptr);
}
/* ================================ History ================================= */
void linenoiseHistoryFree(void) {
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if (history) {
for (int j = 0; j < history_len; j++) {
free(history[j]);
}
free(history);
}
history = NULL;
}
/* This is the API call to add a new entry in the linenoise history.
* It uses a fixed array of char pointers that are shifted (memmoved)
* when the history max length is reached in order to remove the older
* entry and make room for the new one, so it is not exactly suitable for huge
* histories, but will work well for a few hundred of entries.
*
* Using a circular buffer is smarter, but a bit more complex to handle. */
int linenoiseHistoryAdd(const char *line) {
char *linecopy;
if (history_max_len == 0) return 0;
/* Initialization on first call. */
if (history == NULL) {
history = malloc(sizeof(char*)*history_max_len);
if (history == NULL) return 0;
memset(history,0,(sizeof(char*)*history_max_len));
}
/* Don't add duplicated lines. */
if (history_len && !strcmp(history[history_len-1], line)) return 0;
/* Add an heap allocated copy of the line in the history.
* If we reached the max length, remove the older line. */
linecopy = strdup(line);
if (!linecopy) return 0;
if (history_len == history_max_len) {
free(history[0]);
memmove(history,history+1,sizeof(char*)*(history_max_len-1));
history_len--;
}
history[history_len] = linecopy;
history_len++;
return 1;
}
/* Set the maximum length for the history. This function can be called even
* if there is already some history, the function will make sure to retain
* just the latest 'len' elements if the new history length value is smaller
* than the amount of items already inside the history. */
int linenoiseHistorySetMaxLen(int len) {
char **new;
if (len < 1) return 0;
if (history) {
int tocopy = history_len;
new = malloc(sizeof(char*)*len);
if (new == NULL) return 0;
/* If we can't copy everything, free the elements we'll not use. */
if (len < tocopy) {
int j;
for (j = 0; j < tocopy-len; j++) free(history[j]);
tocopy = len;
}
memset(new,0,sizeof(char*)*len);
memcpy(new,history+(history_len-tocopy), sizeof(char*)*tocopy);
free(history);
history = new;
}
history_max_len = len;
if (history_len > history_max_len)
history_len = history_max_len;
return 1;
}
/* Save the history in the specified file. On success 0 is returned
* otherwise -1 is returned. */
int linenoiseHistorySave(const char *filename) {
FILE *fp;
int j;
fp = fopen(filename,"w");
if (fp == NULL) return -1;
for (j = 0; j < history_len; j++)
fprintf(fp,"%s\n",history[j]);
fclose(fp);
return 0;
}
/* Load the history from the specified file. If the file does not exist
* zero is returned and no operation is performed.
*
* If the file exists and the operation succeeded 0 is returned, otherwise
* on error -1 is returned. */
int linenoiseHistoryLoad(const char *filename) {
FILE *fp = fopen(filename, "r");
if (fp == NULL) {
return -1;
}
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char *buf = calloc(1, max_cmdline_length);
if (buf == NULL) {
fclose(fp);
return -1;
}
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while (fgets(buf, max_cmdline_length, fp) != NULL) {
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char *p;
p = strchr(buf,'\r');
if (!p) p = strchr(buf,'\n');
if (p) *p = '\0';
linenoiseHistoryAdd(buf);
}
free(buf);
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fclose(fp);
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return 0;
}
/* Set line maximum length. If len parameter is smaller than
* LINENOISE_MINIMAL_MAX_LINE, -1 is returned
* otherwise 0 is returned. */
int linenoiseSetMaxLineLen(size_t len) {
if (len < LINENOISE_MINIMAL_MAX_LINE) {
return -1;
}
max_cmdline_length = len;
return 0;
}