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sksp2024-mcu/libucw/ucw/opt.c

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/*
* UCW Library -- Parsing of command-line options
*
* (c) 2013 Maria Matejka <mq@ucw.cz>
* (c) 2014 Martin Mares <mj@ucw.cz>
* (c) 2014 Pavel Charvat <pchar@ucw.cz>
*
* This software may be freely distributed and used according to the terms
* of the GNU Lesser General Public License.
*/
#include <ucw/lib.h>
#include <ucw/opt.h>
#include <ucw/opt-internal.h>
#include <ucw/gary.h>
#include <ucw/stkstring.h>
#include <ucw/strtonum.h>
#include <alloca.h>
#include <math.h>
static uint opt_default_value_flags[] = {
[OPT_CL_BOOL] = OPT_NO_VALUE,
[OPT_CL_STATIC] = OPT_MAYBE_VALUE,
[OPT_CL_MULTIPLE] = OPT_REQUIRED_VALUE,
[OPT_CL_SWITCH] = OPT_NO_VALUE,
[OPT_CL_INC] = OPT_NO_VALUE,
[OPT_CL_CALL] = 0,
[OPT_CL_SECTION] = 0,
[OPT_CL_HELP] = 0
};
void opt_failure(const char * mesg, ...) {
va_list args;
va_start(args, mesg);
vfprintf(stderr, mesg, args);
fprintf(stderr, "\nRun with --help for more information.\n");
exit(OPT_EXIT_BAD_ARGS);
}
static char *opt_name(struct opt_context *oc, struct opt_precomputed *opt)
{
const struct opt_item *item = opt->item;
char *res;
if (item->letter >= OPT_POSITIONAL_TAIL)
res = stk_printf("positional argument #%d", oc->positional_count);
else if (opt->flags & OPT_SEEN_AS_LONG)
res = stk_printf("--%s", opt->name);
else
res = stk_printf("-%c", item->letter);
return xstrdup(res);
}
#define THIS_OPT opt_name(oc, opt)
void opt_precompute(struct opt_precomputed *opt, const struct opt_item *item)
{
opt->item = item;
opt->count = 0;
opt->name = item->name;
uint flags = item->flags;
if (item->letter >= OPT_POSITIONAL_TAIL) {
flags &= ~OPT_VALUE_FLAGS;
flags |= OPT_REQUIRED_VALUE;
}
if (!(flags & OPT_VALUE_FLAGS)) {
ASSERT(item->cls != OPT_CL_CALL);
flags |= opt_default_value_flags[item->cls];
}
opt->flags = flags;
}
static void opt_invoke_hooks(struct opt_context *oc, uint event, const struct opt_item *item, char *value)
{
for (int i = 0; i < oc->hook_count; i++) {
const struct opt_item *hook = oc->hooks[i];
if (hook->flags & event) {
void *data = (hook->flags & OPT_HOOK_INTERNAL) ? oc : hook->ptr;
hook->u.hook(item, event, value, data);
}
}
}
static struct opt_precomputed * opt_find_item_longopt(struct opt_context * oc, char * str) {
uint len = strlen(str);
struct opt_precomputed * candidate = NULL;
for (int i = 0; i < oc->opt_count; i++) {
struct opt_precomputed *opt = &oc->opts[i];
if (!opt->name)
continue;
if (!strncmp(opt->name, str, len)) {
if (strlen(opt->name) == len)
return opt;
} else if (opt->item->cls == OPT_CL_BOOL) {
if (opt->flags & OPT_NEGATIVE) {
// If the option is called no-X, match X as well
if (!strncmp("no-", opt->name, 3) && !strncmp(opt->name+3, str, len)) {
if (strlen(opt->name) == len+3)
return opt;
} else
continue;
} else {
// Match no-X as well
if (!strncmp("no-", str, 3) && !strncmp(opt->name, str+3, len-3)) {
if (strlen(opt->name) == len-3)
return opt;
} else
continue;
}
} else
continue;
if (candidate)
opt_failure("Ambiguous option --%s: matches both --%s and --%s.", str, candidate->name, opt->name);
else
candidate = opt;
}
if (candidate)
return candidate;
opt_failure("Invalid option --%s.", str);
}
static void opt_parse_value(struct opt_context * oc, struct opt_precomputed * opt, char * value) {
const struct opt_item * item = opt->item;
if (opt->count++ && (opt->flags & OPT_SINGLE))
opt_failure("Option %s must be specified at most once.", THIS_OPT);
if (opt->flags & OPT_LAST_ARG)
oc->stop_parsing = 1;
opt_invoke_hooks(oc, OPT_HOOK_BEFORE_VALUE, item, value);
switch (item->cls) {
case OPT_CL_BOOL:
if (!value || !strcasecmp(value, "y") || !strcasecmp(value, "yes") || !strcasecmp(value, "true") || !strcasecmp(value, "1"))
*((int *) item->ptr) = 1 ^ (!!(opt->flags & OPT_NEGATIVE));
else if (!strcasecmp(value, "n") || !strcasecmp(value, "no") || !strcasecmp(value, "false") || !strcasecmp(value, "0"))
*((int *) item->ptr) = 0 ^ (!!(opt->flags & OPT_NEGATIVE));
else
opt_failure("Boolean argument for %s has a strange value. Supported (case insensitive): 1/0, y/n, yes/no, true/false.", THIS_OPT);
break;
case OPT_CL_STATIC:
case OPT_CL_MULTIPLE:
{
char * e = NULL;
void * ptr;
if (item->cls == OPT_CL_STATIC)
ptr = item->ptr;
else
ptr = GARY_PUSH_GENERIC(*(void **)item->ptr);
#define OPT_PTR(type) ((type *) ptr)
switch (item->type) {
case CT_INT:
if (!value)
*OPT_PTR(int) = 0;
else
e = cf_parse_int(value, OPT_PTR(int));
if (e)
opt_failure("Integer value parsing failed for %s: %s", THIS_OPT, e);
break;
case CT_U64:
if (!value)
*OPT_PTR(u64) = 0;
else
e = cf_parse_u64(value, OPT_PTR(u64));
if (e)
opt_failure("Unsigned 64-bit value parsing failed for %s: %s", THIS_OPT, e);
break;
case CT_DOUBLE:
if (!value)
*OPT_PTR(double) = NAN;
else
e = cf_parse_double(value, OPT_PTR(double));
if (e)
opt_failure("Floating-point value parsing failed for %s: %s", THIS_OPT, e);
break;
case CT_IP:
if (!value)
*OPT_PTR(u32) = 0;
else
e = cf_parse_ip(value, OPT_PTR(u32));
if (e)
opt_failure("IP address parsing failed for %s: %s", THIS_OPT, e);
break;
case CT_STRING:
if (!value)
*OPT_PTR(const char *) = NULL;
else
*OPT_PTR(const char *) = xstrdup(value);
break;
case CT_USER:
{
char * e = item->u.utype->parser(value, ptr);
if (e)
opt_failure("Cannot parse the value of %s: %s", THIS_OPT, e);
break;
}
case CT_XTYPE:
{
const char * e = item->u.xtype->parse(value, ptr, cf_get_pool());
if (e)
opt_failure("Cannot parse the value of %s: %s", THIS_OPT, e);
break;
}
default:
ASSERT(0);
}
#undef OPT_PTR
break;
}
case OPT_CL_SWITCH:
if ((opt->flags & OPT_SINGLE) && *((int *)item->ptr) != -1)
opt_failure("Multiple switches: %s", THIS_OPT);
else
*((int *)item->ptr) = item->u.value;
break;
case OPT_CL_INC:
if (opt->flags & OPT_NEGATIVE)
(*((int *)item->ptr))--;
else
(*((int *)item->ptr))++;
break;
case OPT_CL_CALL:
{
void *data = (opt->flags & OPT_INTERNAL) ? oc : item->ptr;
item->u.call(item, value, data);
break;
}
case OPT_CL_BREAK:
oc->stop_parsing = 2;
break;
default:
ASSERT(0);
}
opt_invoke_hooks(oc, OPT_HOOK_AFTER_VALUE, item, value);
}
static int opt_longopt(struct opt_context * oc, char ** argv, int index) {
int eaten = 0;
char * name_in = argv[index] + 2; // skipping the -- on the beginning
uint pos = strchrnul(name_in, '=') - name_in;
struct opt_precomputed * opt = opt_find_item_longopt(oc, strndupa(name_in, pos));
char * value = NULL;
opt->flags |= OPT_SEEN_AS_LONG;
if (opt->item->cls == OPT_CL_BOOL &&
((opt->flags & OPT_NEGATIVE)
? (!strncmp(opt->item->name, "no-", 3) && !strncmp(name_in, opt->item->name + 3, pos-3))
: (!strncmp(name_in, "no-", 3) && !strncmp(name_in+3, opt->item->name, pos-3)))) {
if (name_in[pos])
opt_failure("Option --%s must not have any value.", name_in);
value = "n";
} else if (opt->flags & OPT_REQUIRED_VALUE) {
if (name_in[pos])
value = name_in + pos + 1;
else {
value = argv[index+1];
if (!value)
opt_failure("Option %s must have a value, but nothing supplied.", THIS_OPT);
eaten++;
}
} else if (opt->flags & OPT_MAYBE_VALUE) {
if (name_in[pos])
value = name_in + pos + 1;
} else {
if (name_in[pos])
opt_failure("Option %s must have no value.", THIS_OPT);
}
opt_parse_value(oc, opt, value);
return eaten;
}
static int opt_shortopt(struct opt_context * oc, char ** argv, int index) {
int chr = 0;
struct opt_precomputed * opt;
int o;
while (o = argv[index][++chr]) {
if (o < 0 || o >= 128)
opt_failure("Invalid character 0x%02x in option name. Only ASCII is allowed.", o & 0xff);
opt = oc->shortopt[o];
if (!opt)
opt_failure("Unknown option -%c.", o);
opt->flags &= ~OPT_SEEN_AS_LONG;
if (opt->flags & OPT_NO_VALUE)
opt_parse_value(oc, opt, NULL);
else if (opt->flags & OPT_REQUIRED_VALUE) {
if (argv[index][chr+1]) {
opt_parse_value(oc, opt, argv[index] + chr + 1);
return 0;
} else if (!argv[index+1])
opt_failure("Option -%c must have a value, but nothing supplied.", o);
else {
opt_parse_value(oc, opt, argv[index+1]);
return 1;
}
} else if (opt->flags & OPT_MAYBE_VALUE) {
if (argv[index][chr+1]) {
opt_parse_value(oc, opt, argv[index] + chr + 1);
return 0;
} else
opt_parse_value(oc, opt, NULL);
} else {
ASSERT(0);
}
}
return 0;
}
static void opt_positional(struct opt_context * oc, char * value) {
oc->positional_count++;
uint id = oc->positional_count > oc->positional_max ? OPT_POSITIONAL_TAIL : OPT_POSITIONAL(oc->positional_count);
struct opt_precomputed * opt = oc->shortopt[id];
if (!opt)
opt_failure("Too many positional arguments.");
else {
opt->flags &= ~OPT_SEEN_AS_LONG;
opt_parse_value(oc, opt, value);
}
}
static void opt_count_items(struct opt_context *oc, const struct opt_section *sec)
{
for (const struct opt_item *item = sec->opt; item->cls != OPT_CL_END; item++) {
if (item->cls == OPT_CL_SECTION)
opt_count_items(oc, item->u.section);
else if (item->cls == OPT_CL_HOOK)
oc->hook_count++;
else if (item->letter || item->name) {
oc->opt_count++;
if (item->letter > OPT_POSITIONAL_TAIL)
oc->positional_max++;
}
}
}
static void opt_prepare_items(struct opt_context *oc, const struct opt_section *sec)
{
for (const struct opt_item *item = sec->opt; item->cls != OPT_CL_END; item++) {
if (item->cls == OPT_CL_SECTION)
opt_prepare_items(oc, item->u.section);
else if (item->cls == OPT_CL_HOOK)
oc->hooks[oc->hook_count++] = item;
else if (item->letter || item->name) {
struct opt_precomputed * opt = &oc->opts[oc->opt_count++];
opt_precompute(opt, item);
if (item->letter)
oc->shortopt[(int) item->letter] = opt;
}
}
}
static void opt_check_required(struct opt_context *oc)
{
for (int i = 0; i < oc->opt_count; i++) {
struct opt_precomputed *opt = &oc->opts[i];
if (!opt->count && (opt->flags & OPT_REQUIRED)) {
const struct opt_item *item = opt->item;
if (item->letter > OPT_POSITIONAL_TAIL)
opt_failure("Required positional argument #%d not found.", item->letter - OPT_POSITIONAL_TAIL);
else if (item->letter == OPT_POSITIONAL_TAIL)
opt_failure("Required positional argument not found.");
else if (item->letter && item->name)
opt_failure("Required option -%c/--%s not found.", item->letter, item->name);
else if (item->letter)
opt_failure("Required option -%c not found.", item->letter);
else
opt_failure("Required option --%s not found.", item->name);
}
}
}
int opt_parse(const struct opt_section * options, char ** argv) {
struct opt_context * oc = alloca(sizeof(*oc));
memset(oc, 0, sizeof (*oc));
oc->options = options;
opt_count_items(oc, options);
oc->opts = alloca(sizeof(*oc->opts) * oc->opt_count);
oc->shortopt = alloca(sizeof(*oc->shortopt) * (oc->positional_max + OPT_POSITIONAL_TAIL + 1));
memset(oc->shortopt, 0, sizeof(*oc->shortopt) * (oc->positional_max + OPT_POSITIONAL_TAIL + 1));
oc->hooks = alloca(sizeof (*oc->hooks) * oc->hook_count);
oc->opt_count = 0;
oc->hook_count = 0;
opt_prepare_items(oc, options);
int force_positional = 0;
int i, start_i = 0;
for (i=0; argv[i] && !oc->stop_parsing; i++) {
start_i = i;
char *arg = argv[i];
opt_invoke_hooks(oc, OPT_HOOK_BEFORE_ARG, NULL, NULL);
if (arg[0] != '-' || force_positional)
opt_positional(oc, arg);
else {
if (arg[1] == '-') {
if (arg[2] == '\0')
force_positional++;
else
i += opt_longopt(oc, argv, i);
} else if (arg[1])
i += opt_shortopt(oc, argv, i);
else
opt_positional(oc, arg);
}
}
opt_check_required(oc);
opt_invoke_hooks(oc, OPT_HOOK_FINAL, NULL, NULL);
return (oc->stop_parsing < 2 ? i : start_i);
}