numam-dpdk/lib/librte_cmdline/cmdline_parse.c
Dmitry Kozlyuk 841dfdd06d cmdline: support Windows
Implement terminal handling, input polling, and vdprintf() for Windows.

Because Windows I/O model differs fundamentally from Unix and there is
no concept of character device, polling is simulated depending on the
underlying input device. Supporting non-terminal input is useful for
automated testing.

Windows emulation of VT100 uses "ESC [ E" for newline instead of
standard "ESC E", so add a workaround.

Signed-off-by: Dmitry Kozlyuk <dmitry.kozliuk@gmail.com>
Acked-by: Olivier Matz <olivier.matz@6wind.com>
2020-10-15 00:39:10 +02:00

531 lines
11 KiB
C

/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2010-2014 Intel Corporation.
* Copyright (c) 2009, Olivier MATZ <zer0@droids-corp.org>
* All rights reserved.
*/
#include <stdio.h>
#include <stdarg.h>
#include <errno.h>
#include <string.h>
#include <inttypes.h>
#include <ctype.h>
#include <netinet/in.h>
#include <rte_string_fns.h>
#include "cmdline_private.h"
#ifdef RTE_LIBRTE_CMDLINE_DEBUG
#define debug_printf printf
#else
#define debug_printf(args...) do {} while(0)
#endif
#define CMDLINE_BUFFER_SIZE 64
/* isblank() needs _XOPEN_SOURCE >= 600 || _ISOC99_SOURCE, so use our
* own. */
static int
isblank2(char c)
{
if (c == ' ' ||
c == '\t' )
return 1;
return 0;
}
static int
isendofline(char c)
{
if (c == '\n' ||
c == '\r' )
return 1;
return 0;
}
static int
iscomment(char c)
{
if (c == '#')
return 1;
return 0;
}
int
cmdline_isendoftoken(char c)
{
if (!c || iscomment(c) || isblank2(c) || isendofline(c))
return 1;
return 0;
}
int
cmdline_isendofcommand(char c)
{
if (!c || iscomment(c) || isendofline(c))
return 1;
return 0;
}
static unsigned int
nb_common_chars(const char * s1, const char * s2)
{
unsigned int i=0;
while (*s1==*s2 && *s1) {
s1++;
s2++;
i++;
}
return i;
}
/** Retrieve either static or dynamic token at a given index. */
static cmdline_parse_token_hdr_t *
get_token(cmdline_parse_inst_t *inst, unsigned int index)
{
cmdline_parse_token_hdr_t *token_p;
/* check presence of static tokens first */
if (inst->tokens[0] || !inst->f)
return inst->tokens[index];
/* generate dynamic token */
token_p = NULL;
inst->f(&token_p, NULL, &inst->tokens[index]);
return token_p;
}
/**
* try to match the buffer with an instruction (only the first
* nb_match_token tokens if != 0). Return 0 if we match all the
* tokens, else the number of matched tokens, else -1.
*/
static int
match_inst(cmdline_parse_inst_t *inst, const char *buf,
unsigned int nb_match_token, void *resbuf, unsigned resbuf_size)
{
cmdline_parse_token_hdr_t *token_p = NULL;
unsigned int i=0;
int n = 0;
struct cmdline_token_hdr token_hdr;
if (resbuf != NULL)
memset(resbuf, 0, resbuf_size);
/* check if we match all tokens of inst */
while (!nb_match_token || i < nb_match_token) {
token_p = get_token(inst, i);
if (!token_p)
break;
memcpy(&token_hdr, token_p, sizeof(token_hdr));
debug_printf("TK\n");
/* skip spaces */
while (isblank2(*buf)) {
buf++;
}
/* end of buf */
if ( isendofline(*buf) || iscomment(*buf) )
break;
if (resbuf == NULL) {
n = token_hdr.ops->parse(token_p, buf, NULL, 0);
} else {
unsigned rb_sz;
if (token_hdr.offset > resbuf_size) {
printf("Parse error(%s:%d): Token offset(%u) "
"exceeds maximum size(%u)\n",
__FILE__, __LINE__,
token_hdr.offset, resbuf_size);
return -ENOBUFS;
}
rb_sz = resbuf_size - token_hdr.offset;
n = token_hdr.ops->parse(token_p, buf, (char *)resbuf +
token_hdr.offset, rb_sz);
}
if (n < 0)
break;
debug_printf("TK parsed (len=%d)\n", n);
i++;
buf += n;
}
/* does not match */
if (i==0)
return -1;
/* in case we want to match a specific num of token */
if (nb_match_token) {
if (i == nb_match_token) {
return 0;
}
return i;
}
/* we don't match all the tokens */
if (token_p) {
return i;
}
/* are there are some tokens more */
while (isblank2(*buf)) {
buf++;
}
/* end of buf */
if ( isendofline(*buf) || iscomment(*buf) )
return 0;
/* garbage after inst */
return i;
}
int
cmdline_parse(struct cmdline *cl, const char * buf)
{
unsigned int inst_num=0;
cmdline_parse_inst_t *inst;
const char *curbuf;
union {
char buf[CMDLINE_PARSE_RESULT_BUFSIZE];
long double align; /* strong alignment constraint for buf */
} result, tmp_result;
void (*f)(void *, struct cmdline *, void *) = NULL;
void *data = NULL;
int comment = 0;
int linelen = 0;
int parse_it = 0;
int err = CMDLINE_PARSE_NOMATCH;
int tok;
cmdline_parse_ctx_t *ctx;
char *result_buf = result.buf;
if (!cl || !buf)
return CMDLINE_PARSE_BAD_ARGS;
ctx = cl->ctx;
/*
* - look if the buffer contains at least one line
* - look if line contains only spaces or comments
* - count line length
*/
curbuf = buf;
while (! isendofline(*curbuf)) {
if ( *curbuf == '\0' ) {
debug_printf("Incomplete buf (len=%d)\n", linelen);
return 0;
}
if ( iscomment(*curbuf) ) {
comment = 1;
}
if ( ! isblank2(*curbuf) && ! comment) {
parse_it = 1;
}
curbuf++;
linelen++;
}
/* skip all endofline chars */
while (isendofline(buf[linelen])) {
linelen++;
}
/* empty line */
if ( parse_it == 0 ) {
debug_printf("Empty line (len=%d)\n", linelen);
return linelen;
}
debug_printf("Parse line : len=%d, <%.*s>\n",
linelen, linelen > 64 ? 64 : linelen, buf);
/* parse it !! */
inst = ctx[inst_num];
while (inst) {
debug_printf("INST %d\n", inst_num);
/* fully parsed */
tok = match_inst(inst, buf, 0, result_buf,
CMDLINE_PARSE_RESULT_BUFSIZE);
if (tok > 0) /* we matched at least one token */
err = CMDLINE_PARSE_BAD_ARGS;
else if (!tok) {
debug_printf("INST fully parsed\n");
/* skip spaces */
while (isblank2(*curbuf)) {
curbuf++;
}
/* if end of buf -> there is no garbage after inst */
if (isendofline(*curbuf) || iscomment(*curbuf)) {
if (!f) {
memcpy(&f, &inst->f, sizeof(f));
memcpy(&data, &inst->data, sizeof(data));
result_buf = tmp_result.buf;
}
else {
/* more than 1 inst matches */
err = CMDLINE_PARSE_AMBIGUOUS;
f=NULL;
debug_printf("Ambiguous cmd\n");
break;
}
}
}
inst_num ++;
inst = ctx[inst_num];
}
/* call func */
if (f) {
f(result.buf, cl, data);
}
/* no match */
else {
debug_printf("No match err=%d\n", err);
return err;
}
return linelen;
}
int
cmdline_complete(struct cmdline *cl, const char *buf, int *state,
char *dst, unsigned int size)
{
const char *partial_tok = buf;
unsigned int inst_num = 0;
cmdline_parse_inst_t *inst;
cmdline_parse_token_hdr_t *token_p;
struct cmdline_token_hdr token_hdr;
char tmpbuf[CMDLINE_BUFFER_SIZE], comp_buf[CMDLINE_BUFFER_SIZE];
unsigned int partial_tok_len;
int comp_len = -1;
int tmp_len = -1;
int nb_token = 0;
unsigned int i, n;
int l;
unsigned int nb_completable;
unsigned int nb_non_completable;
int local_state = 0;
const char *help_str;
cmdline_parse_ctx_t *ctx;
if (!cl || !buf || !state || !dst)
return -1;
ctx = cl->ctx;
debug_printf("%s called\n", __func__);
memset(&token_hdr, 0, sizeof(token_hdr));
/* count the number of complete token to parse */
for (i=0 ; buf[i] ; i++) {
if (!isblank2(buf[i]) && isblank2(buf[i+1]))
nb_token++;
if (isblank2(buf[i]) && !isblank2(buf[i+1]))
partial_tok = buf+i+1;
}
partial_tok_len = strnlen(partial_tok, RDLINE_BUF_SIZE);
/* first call -> do a first pass */
if (*state <= 0) {
debug_printf("try complete <%s>\n", buf);
debug_printf("there is %d complete tokens, <%s> is incomplete\n",
nb_token, partial_tok);
nb_completable = 0;
nb_non_completable = 0;
inst = ctx[inst_num];
while (inst) {
/* parse the first tokens of the inst */
if (nb_token &&
match_inst(inst, buf, nb_token, NULL, 0))
goto next;
debug_printf("instruction match\n");
token_p = get_token(inst, nb_token);
if (token_p)
memcpy(&token_hdr, token_p, sizeof(token_hdr));
/* non completable */
if (!token_p ||
!token_hdr.ops->complete_get_nb ||
!token_hdr.ops->complete_get_elt ||
(n = token_hdr.ops->complete_get_nb(token_p)) == 0) {
nb_non_completable++;
goto next;
}
debug_printf("%d choices for this token\n", n);
for (i=0 ; i<n ; i++) {
if (token_hdr.ops->complete_get_elt(token_p, i,
tmpbuf,
sizeof(tmpbuf)) < 0)
continue;
/* we have at least room for one char */
tmp_len = strnlen(tmpbuf, sizeof(tmpbuf));
if (tmp_len < CMDLINE_BUFFER_SIZE - 1) {
tmpbuf[tmp_len] = ' ';
tmpbuf[tmp_len+1] = 0;
}
debug_printf(" choice <%s>\n", tmpbuf);
/* does the completion match the
* beginning of the word ? */
if (!strncmp(partial_tok, tmpbuf,
partial_tok_len)) {
if (comp_len == -1) {
strlcpy(comp_buf,
tmpbuf + partial_tok_len,
sizeof(comp_buf));
comp_len =
strnlen(tmpbuf + partial_tok_len,
sizeof(tmpbuf) - partial_tok_len);
}
else {
comp_len =
nb_common_chars(comp_buf,
tmpbuf+partial_tok_len);
comp_buf[comp_len] = 0;
}
nb_completable++;
}
}
next:
debug_printf("next\n");
inst_num ++;
inst = ctx[inst_num];
}
debug_printf("total choices %d for this completion\n",
nb_completable);
/* no possible completion */
if (nb_completable == 0 && nb_non_completable == 0)
return 0;
/* if multichoice is not required */
if (*state == 0 && partial_tok_len > 0) {
/* one or several choices starting with the
same chars */
if (comp_len > 0) {
if ((unsigned)(comp_len + 1) > size)
return 0;
strlcpy(dst, comp_buf, size);
dst[comp_len] = 0;
return 2;
}
}
}
/* init state correctly */
if (*state == -1)
*state = 0;
debug_printf("Multiple choice STATE=%d\n", *state);
inst_num = 0;
inst = ctx[inst_num];
while (inst) {
/* we need to redo it */
inst = ctx[inst_num];
if (nb_token &&
match_inst(inst, buf, nb_token, NULL, 0))
goto next2;
token_p = get_token(inst, nb_token);
if (token_p)
memcpy(&token_hdr, token_p, sizeof(token_hdr));
/* one choice for this token */
if (!token_p ||
!token_hdr.ops->complete_get_nb ||
!token_hdr.ops->complete_get_elt ||
(n = token_hdr.ops->complete_get_nb(token_p)) == 0) {
if (local_state < *state) {
local_state++;
goto next2;
}
(*state)++;
if (token_p && token_hdr.ops->get_help) {
token_hdr.ops->get_help(token_p, tmpbuf,
sizeof(tmpbuf));
help_str = inst->help_str;
if (help_str)
snprintf(dst, size, "[%s]: %s", tmpbuf,
help_str);
else
snprintf(dst, size, "[%s]: No help",
tmpbuf);
}
else {
snprintf(dst, size, "[RETURN]");
}
return 1;
}
/* several choices */
for (i=0 ; i<n ; i++) {
if (token_hdr.ops->complete_get_elt(token_p, i, tmpbuf,
sizeof(tmpbuf)) < 0)
continue;
/* we have at least room for one char */
tmp_len = strnlen(tmpbuf, sizeof(tmpbuf));
if (tmp_len < CMDLINE_BUFFER_SIZE - 1) {
tmpbuf[tmp_len] = ' ';
tmpbuf[tmp_len + 1] = 0;
}
debug_printf(" choice <%s>\n", tmpbuf);
/* does the completion match the beginning of
* the word ? */
if (!strncmp(partial_tok, tmpbuf,
partial_tok_len)) {
if (local_state < *state) {
local_state++;
continue;
}
(*state)++;
l=strlcpy(dst, tmpbuf, size);
if (l>=0 && token_hdr.ops->get_help) {
token_hdr.ops->get_help(token_p, tmpbuf,
sizeof(tmpbuf));
help_str = inst->help_str;
if (help_str)
snprintf(dst+l, size-l, "[%s]: %s",
tmpbuf, help_str);
else
snprintf(dst+l, size-l,
"[%s]: No help", tmpbuf);
}
return 1;
}
}
next2:
inst_num ++;
inst = ctx[inst_num];
}
return 0;
}