serval-dna/cli.c

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/*
Serval DNA command-line functions
Copyright (C) 2010-2013 Serval Project Inc.
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, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <stdio.h>
#include <assert.h>
#include "cli.h"
#include "constants.h"
#include "serval_types.h"
#include "rhizome_types.h"
#include "fdqueue.h"
#include "os.h"
#include "log.h"
#include "str.h"
#include "strbuf_helpers.h"
#include "dataformats.h"
int cli_usage(const struct cli_schema *commands, const struct cli_schema *end_commands, XPRINTF xpf)
{
return cli_usage_args(0, NULL, commands, end_commands, xpf);
}
int cli_usage_parsed(const struct cli_parsed *parsed, XPRINTF xpf)
{
if (parsed->varargi == -1)
return cli_usage(parsed->commands, parsed->end_commands, xpf);
return cli_usage_args(parsed->argc - parsed->varargi, &parsed->args[parsed->varargi],
parsed->commands, parsed->end_commands, xpf);
}
static int cli_usage_print(const int argc, const char *const *args, const struct cli_schema *command, XPRINTF xpf)
{
int opt;
const char *word;
for (opt = 0; opt < argc && (word = command->words[opt]); ++opt)
if (strncmp(word, args[opt], strlen(args[opt])) != 0)
return 0;
for (opt = 0; (word = command->words[opt]); ++opt) {
if (word[0] == '|')
++word;
xprintf(xpf, " %s", word);
}
xputc('\n', xpf);
if (command->description && command->description[0])
xprintf(xpf, " %s\n", command->description);
return 1;
}
int cli_usage_args(const int argc, const char *const *args, const struct cli_schema *commands, const struct cli_schema *end_commands, XPRINTF xpf)
{
unsigned cmd;
int matched_any = 0;
for (cmd = 0; (!end_commands || &commands[cmd] < end_commands) && commands[cmd].function; ++cmd) {
if (cli_usage_print(argc,args,&commands[cmd],xpf)==1)
matched_any = 1;
}
if (!matched_any && argc) {
strbuf b = strbuf_alloca(160);
strbuf_append_argv(b, argc, args);
xprintf(xpf, " No commands matching %s\n", strbuf_str(b));
}
return 0;
}
/* Returns 0 if a command is matched and parsed, with the results of the parsing in the '*parsed'
* structure.
*
* Returns 1 and logs an error if no command matches the argument list, contents of '*parsed' are
* undefined.
*
* Returns 2 if the argument list is ambiguous, ie, matches more than one command, contents of
* '*parsed' are undefined.
*
* Returns -1 and logs an error if the parsing fails due to an internal error (eg, malformed command
* schema), contents of '*parsed' are undefined.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
int cli_parse(const int argc, const char *const *args, const struct cli_schema *commands, const struct cli_schema *end_commands, struct cli_parsed *parsed)
{
int ambiguous = 0;
int matched_cmd = -1;
int cmd;
for (cmd = 0; (!end_commands || &commands[cmd] < end_commands) && commands[cmd].function; ++cmd) {
struct cli_parsed cmdpa;
memset(&cmdpa, 0, sizeof cmdpa);
cmdpa.commands = commands;
cmdpa.end_commands = end_commands;
cmdpa.cmdi = cmd;
cmdpa.args = args;
cmdpa.argc = argc;
cmdpa.labelc = 0;
cmdpa.varargi = -1;
const char *pattern = NULL;
int arg = 0;
unsigned opt = 0;
while ((pattern = commands[cmd].words[opt])) {
//DEBUGF("cmd=%d opt=%d pattern='%s' args[arg=%d]='%s'", cmd, opt, pattern, arg, arg < argc ? args[arg] : "");
unsigned patlen = strlen(pattern);
if (cmdpa.varargi != -1)
return WHYF("Internal error: commands[%d].word[%d]=\"%s\" - more words not allowed after \"...\"", cmd, opt, commands[cmd].words[opt]);
/* These are the argument matching rules:
*
* "..." consumes all remaining arguments
*
* "word" consumes one argument that exactly matches "word", does not label it (this is the
* "simple" case in the code below; all other rules label something that matched)
*
* "word1|word2|...|wordN" consumes one argument that exactly matches "word1" or "word2" etc.
* or "wordN", labels it with the matched word (an empty alternative, eg "|word" does not
* match an empty argument)
*
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* (as a special case of the above rule, "|word" consumes one argument that exactly matches
* "word" and labels it "word", but it appears in the help description as "word")
*
* "<label>" consumes exactly one argument "ANY", records it with label "label"
*
* "prefix=<any>" consumes one argument "prefix=ANY" or two arguments "prefix" "ANY",
* and records the text matching ANY with label "prefix"
*
* "prefix <any>" consumes one argyment "prefix ANY" if available or two arguments "prefix"
* "ANY", and records the text matching ANY with label "prefix"
*
* "prefix<any>" consumes one argument "prefixANY", and records the text matching ANY with
* label "prefix"
*
* "[ANY]..." consumes all remaining arguments which match ANY, as defined below
*
* "[word]" consumes one argument if it exactly matches "word", records it with label
* "word"
*
* "[word1|word2|...|wordN]" consumes one argument if it exactly matches "word1" or "word2"
* etc. or "wordN", labels it with the matched word
*
* "[<label>]" consumes one argument "ANY" if available, records it with label "label"
*
* "[prefix=<any>]" consumes one argument "prefix=ANY" if available or two arguments
* "prefix" "ANY" if available, records the text matching ANY with label "prefix"
*
* "[prefix <any>]" consumes one argument "prefix ANY" if available or two arguments
* "prefix" "ANY" if available, records the text matching ANY with label "prefix"
*
* "[prefix<any>]" consumes one argument "prefixANY" if available, records the text matching
* ANY with label "prefix"
*/
if (patlen == 3 && pattern[0] == '.' && pattern[1] == '.' && pattern[2] == '.') {
cmdpa.varargi = arg;
arg = argc;
++opt;
} else {
int optional = 0;
int repeating = 0;
if (patlen > 5 && pattern[0] == '[' && pattern[patlen-4] == ']' && pattern[patlen-3] == '.' && pattern[patlen-2] == '.' && pattern[patlen-1] == '.') {
optional = repeating = 1;
pattern += 1;
patlen -= 5;
}
else if (patlen > 2 && pattern[0] == '[' && pattern[patlen-1] == ']') {
optional = 1;
pattern += 1;
patlen -= 2;
}
int oarg = arg;
const char *text = NULL;
const char *label = NULL;
unsigned labellen = 0;
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const char *word = pattern;
unsigned wordlen = 0;
char simple = 0;
unsigned alt = 0;
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if (patlen && *word == '|') {
++alt;
++word;
}
if (patlen == 0)
return WHYF("Internal error: commands[%d].word[%d]=\"%s\" - empty words not allowed", cmd, opt, commands[cmd].words[opt]);
for (; word < &pattern[patlen]; word += wordlen + 1, ++alt) {
// Skip over empty "||word" alternative (but still count it).
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if (*word == '|')
return WHYF("Internal error: commands[%d].word[%d]=\"%s\" - empty alternatives not allowed", cmd, opt, commands[cmd].words[opt]);
// Find end of "word|" alternative.
wordlen = 1;
while (&word[wordlen] < &pattern[patlen] && word[wordlen] != '|')
++wordlen;
// Skip remaining alternatives if we already got a match.
if (text)
continue;
// Look for a match.
const char *prefix = NULL;
unsigned prefixlen = 0;
unsigned prefixarglen = 0;
const char *caret = strchr(word, '<');
if (wordlen > 2 && caret && word[wordlen-1] == '>') {
if ((prefixarglen = prefixlen = caret - word)) {
prefix = word;
if (prefixlen > 1 && (prefix[prefixlen-1] == '=' || prefix[prefixlen-1] == ' '))
--prefixarglen;
label = prefix;
labellen = prefixarglen;
if (arg < argc) {
unsigned arglen = strlen(args[arg]);
if (arglen >= prefixlen && strncmp(args[arg], prefix, prefixlen) == 0) {
text = args[arg++] + prefixlen;
} else if (arg + 1 < argc && arglen == prefixarglen && strncmp(args[arg], prefix, prefixarglen) == 0) {
++arg;
text = args[arg++];
}
}
} else {
label = &word[1];
labellen = wordlen - 2;
if (arg < argc)
text = args[arg++];
}
} else if (arg < argc && strlen(args[arg]) == wordlen && strncmp(args[arg], word, wordlen) == 0) {
simple = 1;
text = args[arg];
label = word;
labellen = wordlen;
++arg;
}
}
assert(alt > 0);
if (arg == oarg && !optional)
break;
if (labellen && text && (optional || !simple || alt > 1)) {
if (cmdpa.labelc >= NELS(cmdpa.labelv))
return WHYF("Internal error: commands[%d].word[%d]=\"%s\" - label limit exceeded", cmd, opt, commands[cmd].words[opt]);
cmdpa.labelv[cmdpa.labelc].label = label;
cmdpa.labelv[cmdpa.labelc].len = labellen;
cmdpa.labelv[cmdpa.labelc].text = text;
++cmdpa.labelc;
if (!repeating)
++opt;
} else
++opt;
}
}
//DEBUGF("cmd=%d opt=%d args[arg=%d]='%s'", cmd, opt, arg, arg < argc ? args[arg] : "");
if (!pattern && arg == argc) {
/* A match! We got through the command definition with no internal errors and all literal
args matched and we have a proper number of args. If we have multiple matches, then note
that the call is ambiguous. */
if (matched_cmd >= 0)
++ambiguous;
if (ambiguous == 1) {
NOWHENCE(WHY_argv("Ambiguous command:", argc, args));
NOWHENCE(HINT("Matches the following:"));
NOWHENCE(HINT_argv(" ", argc, commands[matched_cmd].words));
}
if (ambiguous)
NOWHENCE(HINT_argv(" ", argc, commands[cmd].words));
matched_cmd = cmd;
*parsed = cmdpa;
}
}
/* Don't process ambiguous calls */
if (ambiguous)
return 2;
/* Complain if we found no matching calls */
if (matched_cmd < 0) {
if (argc)
NOWHENCE(WHY_argv("Unknown command:", argc, args));
return 1;
}
return 0;
}
void _debug_cli_parsed(struct __sourceloc __whence, const struct cli_parsed *parsed)
{
DEBUG_argv("command", parsed->argc, parsed->args);
strbuf b = strbuf_alloca(1024);
unsigned i;
for (i = 0; i < parsed->labelc; ++i) {
const struct labelv *lab = &parsed->labelv[i];
strbuf_sprintf(b, " %s=%s", alloca_toprint(-1, lab->label, lab->len), alloca_str_toprint(lab->text));
}
if (parsed->varargi >= 0)
strbuf_sprintf(b, " varargi=%d", parsed->varargi);
DEBUGF("parsed%s", strbuf_str(b));
}
int cli_invoke(const struct cli_parsed *parsed, struct cli_context *context)
{
IN();
int ret = parsed->commands[parsed->cmdi].function(parsed, context);
RETURN(ret);
OUT();
}
int _cli_arg(struct __sourceloc __whence, const struct cli_parsed *parsed, char *label, const char **dst, int (*validator)(const char *arg), char *defaultvalue)
{
unsigned labellen = strlen(label);
if (dst)
*dst = defaultvalue;
unsigned i;
for (i = 0; i < parsed->labelc; ++i) {
if (parsed->labelv[i].len == labellen && strncasecmp(label, parsed->labelv[i].label, labellen) == 0) {
const char *value = parsed->labelv[i].text;
if (validator && !(*validator)(value))
return WHYF("Invalid '%s' argument \"%s\"", label, value);
if (dst)
*dst = value;
return 0;
}
}
/* No matching valid argument was found, so return default value. It might seem that this should
never happen, but it can because more than one version of a command line option may exist, one
with a given argument and another without, and allowing a default value means we can have a
single function handle both in a fairly simple manner. */
return 1;
}
int cli_lookup_did(const char *text)
{
return text[0] == '\0' || strcmp(text, "*") == 0 || str_is_did(text);
}
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int cli_path_regular(const char *arg)
{
return arg[0] != '\0' && arg[strlen(arg) - 1] != '/';
}
int cli_absolute_path(const char *arg)
{
return arg[0] == '/' && arg[1] != '\0';
}
int cli_optional_sid(const char *arg)
{
return !arg[0] || str_is_subscriber_id(arg);
}
int cli_optional_bundle_key(const char *arg)
{
return !arg[0] || str_to_rhizome_bk_t(NULL, arg) != -1;
}
int cli_manifestid(const char *arg)
{
return str_to_rhizome_bid_t(NULL, arg) != -1;
}
int cli_fileid(const char *arg)
{
return str_to_rhizome_filehash_t(NULL, arg) != -1;
}
int cli_optional_bundle_crypt_key(const char *arg)
{
return !arg[0] || rhizome_str_is_bundle_crypt_key(arg);
}
int cli_uint(const char *arg)
{
register const char *s = arg;
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while (isdigit(*s))
++s;
return s != arg && *s == '\0';
}
int cli_interval_ms(const char *arg)
{
return str_to_uint64_interval_ms(arg, NULL, NULL);
}
int cli_optional_did(const char *text)
{
return text[0] == '\0' || str_is_did(text);
}