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parsers.c
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parsers.c
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/*
* This file is part of the sigrok-cli project.
*
* Copyright (C) 2011 Bert Vermeulen <[email protected]>
*
* 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 3 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 <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <glib.h>
#include "sigrok-cli.h"
struct sr_channel *find_channel(GSList *channellist, const char *channelname,
gboolean exact_case)
{
struct sr_channel *ch;
GSList *l;
ch = NULL;
for (l = channellist; l; l = l->next) {
ch = l->data;
if (exact_case) {
if (strcmp(ch->name, channelname) == 0)
break;
} else {
if (g_ascii_strcasecmp(ch->name, channelname) == 0)
break;
}
}
ch = l ? l->data : NULL;
return ch;
}
GSList *parse_channelstring(struct sr_dev_inst *sdi, const char *channelstring)
{
struct sr_channel *ch;
GSList *channellist, *channels;
int ret, n, b, e, i;
char **tokens, **range, **names, *eptr, str[8];
channels = sr_dev_inst_channels_get(sdi);
if (!channelstring || !channelstring[0])
/* Use all channels by default. */
return g_slist_copy(channels);
ret = SR_OK;
range = NULL;
names = NULL;
channellist = NULL;
tokens = g_strsplit(channelstring, ",", 0);
for (i = 0; tokens[i]; i++) {
if (tokens[i][0] == '\0') {
g_critical("Invalid empty channel.");
ret = SR_ERR;
break;
}
if (strchr(tokens[i], '-')) {
/*
* A range of channels in the form a-b. This will only work
* if the channels are named as numbers -- so every channel
* in the range must exist as a channel name string in the
* device.
*/
range = g_strsplit(tokens[i], "-", 2);
if (!range[0] || !range[1] || range[2]) {
/* Need exactly two arguments. */
g_critical("Invalid channel syntax '%s'.", tokens[i]);
ret = SR_ERR;
goto range_fail;
}
b = strtol(range[0], &eptr, 10);
if (eptr == range[0] || *eptr != '\0') {
g_critical("Invalid channel '%s'.", range[0]);
ret = SR_ERR;
goto range_fail;
}
e = strtol(range[1], NULL, 10);
if (eptr == range[1] || *eptr != '\0') {
g_critical("Invalid channel '%s'.", range[1]);
ret = SR_ERR;
goto range_fail;
}
if (b < 0 || b >= e) {
g_critical("Invalid channel range '%s'.", tokens[i]);
ret = SR_ERR;
goto range_fail;
}
while (b <= e) {
n = snprintf(str, 8, "%d", b);
if (n < 0 || n > 8) {
g_critical("Invalid channel '%d'.", b);
ret = SR_ERR;
break;
}
ch = find_channel(channels, str, TRUE);
if (!ch) {
g_critical("unknown channel '%d'.", b);
ret = SR_ERR;
break;
}
channellist = g_slist_append(channellist, ch);
b++;
}
range_fail:
if (range)
g_strfreev(range);
if (ret != SR_OK)
break;
} else {
names = g_strsplit(tokens[i], "=", 2);
if (!names[0] || (names[1] && names[2])) {
/* Need one or two arguments. */
g_critical("Invalid channel '%s'.", tokens[i]);
g_strfreev(names);
ret = SR_ERR;
break;
}
ch = find_channel(channels, names[0], TRUE);
if (!ch) {
g_critical("unknown channel '%s'.", names[0]);
g_strfreev(names);
ret = SR_ERR;
break;
}
if (names[1]) {
/* Rename channel. */
sr_dev_channel_name_set(ch, names[1]);
}
channellist = g_slist_append(channellist, ch);
g_strfreev(names);
}
}
if (ret != SR_OK) {
g_slist_free(channellist);
channellist = NULL;
}
g_strfreev(tokens);
return channellist;
}
int parse_trigger_match(char c)
{
int match;
if (c == '0')
match = SR_TRIGGER_ZERO;
else if (c == '1')
match = SR_TRIGGER_ONE;
else if (c == 'r')
match = SR_TRIGGER_RISING;
else if (c == 'f')
match = SR_TRIGGER_FALLING;
else if (c == 'e')
match = SR_TRIGGER_EDGE;
else if (c == 'o')
match = SR_TRIGGER_OVER;
else if (c == 'u')
match = SR_TRIGGER_UNDER;
else
match = 0;
return match;
}
int parse_triggerstring(const struct sr_dev_inst *sdi, const char *s,
struct sr_trigger **trigger)
{
struct sr_channel *ch;
struct sr_trigger_stage *stage;
GVariant *gvar;
GSList *l, *channels;
gsize num_matches;
gboolean found_match, error;
const int32_t *matches;
int32_t match;
unsigned int j;
int t, i;
char **tokens, *sep;
struct sr_dev_driver *driver;
driver = sr_dev_inst_driver_get(sdi);
channels = sr_dev_inst_channels_get(sdi);
if (maybe_config_list(driver, sdi, NULL, SR_CONF_TRIGGER_MATCH,
&gvar) != SR_OK) {
g_critical("Device doesn't support any triggers.");
return FALSE;
}
matches = g_variant_get_fixed_array(gvar, &num_matches, sizeof(int32_t));
*trigger = sr_trigger_new(NULL);
error = FALSE;
tokens = g_strsplit(s, ",", -1);
for (i = 0; tokens[i]; i++) {
if (!(sep = strchr(tokens[i], '='))) {
g_critical("Invalid trigger '%s'.", tokens[i]);
error = TRUE;
break;
}
*sep++ = 0;
ch = NULL;
for (l = channels; l; l = l->next) {
ch = l->data;
if (ch->enabled && !strcmp(ch->name, tokens[i]))
break;
ch = NULL;
}
if (!ch) {
g_critical("Invalid channel '%s'.", tokens[i]);
error = TRUE;
break;
}
for (t = 0; sep[t]; t++) {
if (!(match = parse_trigger_match(sep[t]))) {
g_critical("Invalid trigger match '%c'.", sep[t]);
error = TRUE;
break;
}
found_match = FALSE;
for (j = 0; j < num_matches; j++) {
if (matches[j] == match) {
found_match = TRUE;
break;
}
}
if (!found_match) {
g_critical("Trigger match '%c' not supported by device.", sep[t]);
error = TRUE;
break;
}
/* Make sure this ends up in the right stage, creating
* them as needed. */
while (!(stage = g_slist_nth_data((*trigger)->stages, t)))
sr_trigger_stage_add(*trigger);
if (sr_trigger_match_add(stage, ch, match, 0) != SR_OK) {
error = TRUE;
break;
}
}
}
g_strfreev(tokens);
g_variant_unref(gvar);
if (error)
sr_trigger_free(*trigger);
return !error;
}
/**
* Split an input text into a key and value respectively ('=' separator).
*
* @param[in] text Writeable copy of the input text, gets modified.
* @param[out] key Position of the keyword.
* @param[out] val Position of the value.
*
* TODO In theory the returned key/value locations could be const pointers.
* Which even would be preferrable. Unfortunately most call sites deal with
* glib hashes, and their insert API seriously lacks the const attribute.
* So we drop it here as well to avoid clutter at callers'.
*/
static void split_key_value(char *text, char **key, char **val)
{
char *k, *v;
char *pos;
if (key)
*key = NULL;
if (val)
*val = NULL;
if (!text || !*text)
return;
k = text;
v = NULL;
pos = strchr(k, '=');
if (pos) {
*pos = '\0';
v = ++pos;
}
if (key)
*key = k;
if (val)
*val = v;
}
/**
* Create hash table from colon separated key-value pairs input text.
*
* Accepts input text as it was specified by users. Splits the colon
* separated key-value pairs and creates a hash table from these items.
* Optionally supports special forms which are useful for different CLI
* features.
*
* Typical form: <key>=<val>[:<key>=<val>]*
* Generic list of key-value pairs, all items being equal. Mere set.
*
* ID form: <id>[:<key>=<val>]*
* First item is not a key-value pair, instead it's an identifier. Used
* to specify a protocol decoder, or a device driver, or an input/output
* file format, optionally followed by more parameters' values. The ID
* part of the input spec is not optional.
*
* Optional ID: [<sel>=<id>][:<key>=<val>]*
* All items are key-value pairs. The first item _may_ be an identifier,
* if its key matches a caller specified key name. Otherwise the input
* text is the above typical form, a mere list of key-value pairs while
* none of them is special.
*
* @param[in] arg Input text.
* @param[in] sep_first Boolean, whether ID form is required.
* @param[in] key_first Keyword name if optional ID is applicable.
*
* @returns A hash table which contains the key/value pairs, or #NULL
* when the input is invalid.
*/
GHashTable *parse_generic_arg(const char *arg,
gboolean sep_first, const char *key_first)
{
GHashTable *hash;
char **elements;
int i;
char *k, *v;
if (!arg || !arg[0])
return NULL;
if (key_first && !key_first[0])
key_first = NULL;
hash = g_hash_table_new_full(g_str_hash, g_str_equal, g_free, g_free);
elements = g_strsplit(arg, ":", 0);
i = 0;
if (sep_first) {
k = g_strdup("sigrok_key");
v = g_strdup(elements[i++]);
g_hash_table_insert(hash, k, v);
} else if (key_first) {
split_key_value(elements[i], &k, &v);
if (g_ascii_strcasecmp(k, key_first) == 0) {
k = "sigrok_key";
}
k = g_strdup(k);
v = g_strdup(v);
g_hash_table_insert(hash, k, v);
i++;
}
for (; elements[i]; i++) {
if (!elements[i][0])
continue;
split_key_value(elements[i], &k, &v);
k = g_strdup(k);
v = v ? g_strdup(v) : NULL;
g_hash_table_insert(hash, k, v);
}
g_strfreev(elements);
return hash;
}
GSList *check_unknown_keys(const struct sr_option **avail, GHashTable *used)
{
GSList *unknown;
GHashTableIter iter;
void *key;
const char *used_id;
size_t avail_idx;
const char *avail_id, *found_id;
/* Collect a list of used but not available keywords. */
unknown = NULL;
g_hash_table_iter_init(&iter, used);
while (g_hash_table_iter_next(&iter, &key, NULL)) {
used_id = key;
found_id = NULL;
for (avail_idx = 0; avail[avail_idx] && avail[avail_idx]->id; avail_idx++) {
avail_id = avail[avail_idx]->id;
if (strcmp(avail_id, used_id) == 0) {
found_id = avail_id;
break;
}
}
if (!found_id)
unknown = g_slist_append(unknown, g_strdup(used_id));
}
/* Return the list of unknown keywords, or NULL if empty. */
return unknown;
}
gboolean warn_unknown_keys(const struct sr_option **avail, GHashTable *used,
const char *caption)
{
GSList *unknown, *l;
gboolean had_unknown;
const char *s;
if (!caption || !*caption)
caption = "Unknown keyword";
unknown = check_unknown_keys(avail, used);
had_unknown = unknown != NULL;
for (l = unknown; l; l = l->next) {
s = l->data;
g_warning("%s: %s.", caption, s);
}
g_slist_free_full(unknown, g_free);
return had_unknown;
}
GHashTable *generic_arg_to_opt(const struct sr_option **opts, GHashTable *genargs)
{
GHashTable *hash;
GVariant *gvar;
int i;
char *s;
gboolean b;
hash = g_hash_table_new_full(g_str_hash, g_str_equal, g_free,
(GDestroyNotify)g_variant_unref);
for (i = 0; opts[i]; i++) {
if (!(s = g_hash_table_lookup(genargs, opts[i]->id)))
continue;
if (g_variant_is_of_type(opts[i]->def, G_VARIANT_TYPE_UINT32)) {
gvar = g_variant_new_uint32(strtoul(s, NULL, 10));
g_hash_table_insert(hash, g_strdup(opts[i]->id),
g_variant_ref_sink(gvar));
} else if (g_variant_is_of_type(opts[i]->def, G_VARIANT_TYPE_INT32)) {
gvar = g_variant_new_int32(strtol(s, NULL, 10));
g_hash_table_insert(hash, g_strdup(opts[i]->id),
g_variant_ref_sink(gvar));
} else if (g_variant_is_of_type(opts[i]->def, G_VARIANT_TYPE_UINT64)) {
gvar = g_variant_new_uint64(strtoull(s, NULL, 10));
g_hash_table_insert(hash, g_strdup(opts[i]->id),
g_variant_ref_sink(gvar));
} else if (g_variant_is_of_type(opts[i]->def, G_VARIANT_TYPE_DOUBLE)) {
gvar = g_variant_new_double(strtod(s, NULL));
g_hash_table_insert(hash, g_strdup(opts[i]->id),
g_variant_ref_sink(gvar));
} else if (g_variant_is_of_type(opts[i]->def, G_VARIANT_TYPE_STRING)) {
gvar = g_variant_new_string(s);
g_hash_table_insert(hash, g_strdup(opts[i]->id),
g_variant_ref_sink(gvar));
} else if (g_variant_is_of_type(opts[i]->def, G_VARIANT_TYPE_BOOLEAN)) {
b = TRUE;
if (0 == strcmp(s, "false") || 0 == strcmp(s, "no")) {
b = FALSE;
} else if (!(0 == strcmp(s, "true") || 0 == strcmp(s, "yes"))) {
g_critical("Unable to convert '%s' to boolean!", s);
}
gvar = g_variant_new_boolean(b);
g_hash_table_insert(hash, g_strdup(opts[i]->id),
g_variant_ref_sink(gvar));
} else {
g_critical("Don't know GVariant type for option '%s'!", opts[i]->id);
}
}
return hash;
}
static char *strcanon(const char *str)
{
int p0, p1;
char *s;
/* Returns newly allocated string. */
s = g_ascii_strdown(str, -1);
for (p0 = p1 = 0; str[p0]; p0++) {
if ((s[p0] >= 'a' && s[p0] <= 'z')
|| (s[p0] >= '0' && s[p0] <= '9'))
s[p1++] = s[p0];
}
s[p1] = '\0';
return s;
}
int canon_cmp(const char *str1, const char *str2)
{
int ret;
char *s1, *s2;
s1 = strcanon(str1);
s2 = strcanon(str2);
ret = g_ascii_strcasecmp(s1, s2);
g_free(s2);
g_free(s1);
return ret;
}
/* Convert driver options hash to GSList of struct sr_config. */
static GSList *hash_to_hwopt(GHashTable *hash)
{
struct sr_config *src;
GList *gl, *keys;
GSList *opts;
char *key;
keys = g_hash_table_get_keys(hash);
opts = NULL;
for (gl = keys; gl; gl = gl->next) {
key = gl->data;
src = g_malloc(sizeof(struct sr_config));
if (opt_to_gvar(key, g_hash_table_lookup(hash, key), src) != 0)
return NULL;
opts = g_slist_append(opts, src);
}
g_list_free(keys);
return opts;
}
int parse_driver(char *arg, struct sr_dev_driver **driver, GSList **drvopts)
{
struct sr_dev_driver **drivers;
GHashTable *drvargs;
int i;
char *drvname;
if (!arg)
return FALSE;
drvargs = parse_generic_arg(arg, TRUE, NULL);
drvname = g_strdup(g_hash_table_lookup(drvargs, "sigrok_key"));
g_hash_table_remove(drvargs, "sigrok_key");
*driver = NULL;
drivers = sr_driver_list(sr_ctx);
for (i = 0; drivers[i]; i++) {
if (strcmp(drivers[i]->name, drvname))
continue;
*driver = drivers[i];
}
if (!*driver) {
g_critical("Driver %s not found.", drvname);
g_hash_table_destroy(drvargs);
g_free(drvname);
return FALSE;
}
g_free(drvname);
if (sr_driver_init(sr_ctx, *driver) != SR_OK) {
g_critical("Failed to initialize driver.");
g_hash_table_destroy(drvargs);
return FALSE;
}
if (drvopts) {
*drvopts = NULL;
if (g_hash_table_size(drvargs) > 0) {
if (!(*drvopts = hash_to_hwopt(drvargs))) {
/* Unknown options, already logged. */
g_hash_table_destroy(drvargs);
return FALSE;
}
}
}
g_hash_table_destroy(drvargs);
return TRUE;
}