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tag.c
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tag.c
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#include "tag.h"
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <stdio.h>
#include <assert.h>
#define LOG_MODULE "tag"
#define LOG_ENABLE_DBG 1
#include "log.h"
#include "module.h"
struct private {
char *name;
union {
struct {
long value;
long min;
long max;
enum tag_realtime_unit realtime_unit;
} value_as_int;
bool value_as_bool;
double value_as_float;
char *value_as_string;
};
};
static const char *
tag_name(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->name;
}
static long
unimpl_min_max(const struct tag *tag)
{
return 0;
}
static enum tag_realtime_unit
no_realtime(const struct tag *tag)
{
return TAG_REALTIME_NONE;
}
static bool
unimpl_refresh_in(const struct tag *tag, long units)
{
return false;
}
static void
destroy_int_and_float(struct tag *tag)
{
struct private *priv = tag->private;
free(priv->name);
free(priv);
free(tag);
}
static void
destroy_string(struct tag *tag)
{
struct private *priv = tag->private;
free(priv->value_as_string);
destroy_int_and_float(tag);
}
static long
int_min(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_int.min;
}
static long
int_max(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_int.max;
}
static enum tag_realtime_unit
int_realtime(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_int.realtime_unit;
}
static const char *
int_as_string(const struct tag *tag)
{
static char as_string[128];
const struct private *priv = tag->private;
snprintf(as_string, sizeof(as_string), "%ld", priv->value_as_int.value);
return as_string;
}
static long
int_as_int(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_int.value;
}
static bool
int_as_bool(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_int.value;
}
static double
int_as_float(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_int.value;
}
static bool
int_refresh_in(const struct tag *tag, long units)
{
const struct private *priv = tag->private;
if (priv->value_as_int.realtime_unit == TAG_REALTIME_NONE)
return false;
if (tag->owner == NULL || tag->owner->refresh_in == NULL)
return false;
assert(priv->value_as_int.realtime_unit == TAG_REALTIME_SECS ||
priv->value_as_int.realtime_unit == TAG_REALTIME_MSECS);
long milli_seconds = units;
if (priv->value_as_int.realtime_unit == TAG_REALTIME_SECS)
milli_seconds *= 1000;
return tag->owner->refresh_in(tag->owner, milli_seconds);
}
static const char *
bool_as_string(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_bool ? "true" : "false";
}
static long
bool_as_int(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_bool;
}
static bool
bool_as_bool(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_bool;
}
static double
bool_as_float(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_bool;
}
static const char *
float_as_string(const struct tag *tag)
{
static char as_string[128];
const struct private *priv = tag->private;
snprintf(as_string, sizeof(as_string), "%.2f", priv->value_as_float);
return as_string;
}
static long
float_as_int(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_float;
}
static bool
float_as_bool(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_float;
}
static double
float_as_float(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_float;
}
static const char *
string_as_string(const struct tag *tag)
{
const struct private *priv = tag->private;
return priv->value_as_string;
}
static long
string_as_int(const struct tag *tag)
{
const struct private *priv = tag->private;
long value;
int matches = sscanf(priv->value_as_string, "%ld", &value);
return matches == 1 ? value : 0;
}
static bool
string_as_bool(const struct tag *tag)
{
const struct private *priv = tag->private;
uint8_t value;
int matches = sscanf(priv->value_as_string, "%hhu", &value);
return matches == 1 ? value : 0;
}
static double
string_as_float(const struct tag *tag)
{
const struct private *priv = tag->private;
double value;
int matches = sscanf(priv->value_as_string, "%lf", &value);
return matches == 1 ? value : 0;
}
struct tag *
tag_new_int(struct module *owner, const char *name, long value)
{
return tag_new_int_range(owner, name, value, value, value);
}
struct tag *
tag_new_int_range(struct module *owner, const char *name, long value,
long min, long max)
{
return tag_new_int_realtime(owner, name, value, min, max, TAG_REALTIME_NONE);
}
struct tag *
tag_new_int_realtime(struct module *owner, const char *name, long value,
long min, long max, enum tag_realtime_unit unit)
{
struct private *priv = malloc(sizeof(*priv));
priv->name = strdup(name);
priv->value_as_int.value = value;
priv->value_as_int.min = min;
priv->value_as_int.max = max;
priv->value_as_int.realtime_unit = unit;
struct tag *tag = malloc(sizeof(*tag));
tag->private = priv;
tag->owner = owner;
tag->destroy = &destroy_int_and_float;
tag->name = &tag_name;
tag->min = &int_min;
tag->max = &int_max;
tag->realtime = &int_realtime;
tag->refresh_in = &int_refresh_in;
tag->as_string = &int_as_string;
tag->as_int = &int_as_int;
tag->as_bool = &int_as_bool;
tag->as_float = &int_as_float;
return tag;
}
struct tag *
tag_new_bool(struct module *owner, const char *name, bool value)
{
struct private *priv = malloc(sizeof(*priv));
priv->name = strdup(name);
priv->value_as_bool = value;
struct tag *tag = malloc(sizeof(*tag));
tag->private = priv;
tag->owner = owner;
tag->destroy = &destroy_int_and_float;
tag->name = &tag_name;
tag->min = &unimpl_min_max;
tag->max = &unimpl_min_max;
tag->realtime = &no_realtime;
tag->refresh_in = &unimpl_refresh_in;
tag->as_string = &bool_as_string;
tag->as_int = &bool_as_int;
tag->as_bool = &bool_as_bool;
tag->as_float = &bool_as_float;
return tag;
}
struct tag *
tag_new_float(struct module *owner, const char *name, double value)
{
struct private *priv = malloc(sizeof(*priv));
priv->name = strdup(name);
priv->value_as_float = value;
struct tag *tag = malloc(sizeof(*tag));
tag->private = priv;
tag->owner = owner;
tag->destroy = &destroy_int_and_float;
tag->name = &tag_name;
tag->min = &unimpl_min_max;
tag->max = &unimpl_min_max;
tag->realtime = &no_realtime;
tag->refresh_in = &unimpl_refresh_in;
tag->as_string = &float_as_string;
tag->as_int = &float_as_int;
tag->as_bool = &float_as_bool;
tag->as_float = &float_as_float;
return tag;
}
struct tag *
tag_new_string(struct module *owner, const char *name, const char *value)
{
struct private *priv = malloc(sizeof(*priv));
priv->name = strdup(name);
priv->value_as_string = value != NULL ? strdup(value) : strdup("");
struct tag *tag = malloc(sizeof(*tag));
tag->private = priv;
tag->owner = owner;
tag->destroy = &destroy_string;
tag->name = &tag_name;
tag->min = &unimpl_min_max;
tag->max = &unimpl_min_max;
tag->realtime = &no_realtime;
tag->refresh_in = &unimpl_refresh_in;
tag->as_string = &string_as_string;
tag->as_int = &string_as_int;
tag->as_bool = &string_as_bool;
tag->as_float = &string_as_float;
return tag;
}
const struct tag *
tag_for_name(const struct tag_set *set, const char *name)
{
if (set == NULL)
return NULL;
for (size_t i = 0; i < set->count; i++) {
const struct tag *tag = set->tags[i];
if (strcmp(tag->name(tag), name) == 0)
return tag;
}
return NULL;
}
void
tag_set_destroy(struct tag_set *set)
{
for (size_t i = 0; i < set->count; i++)
set->tags[i]->destroy(set->tags[i]);
set->tags = NULL;
set->count = 0;
}
struct sbuf {
char *s;
size_t size;
size_t len;
};
static void
sbuf_append_at_most(struct sbuf *s1, const char *s2, size_t n)
{
if (s1->len + n >= s1->size) {
size_t required_size = s1->len + n + 1;
s1->size = 2 * required_size;
s1->s = realloc(s1->s, s1->size);
//s1->s[s1->len] = '\0';
}
memcpy(&s1->s[s1->len], s2, n);
s1->len += n;
s1->s[s1->len] = '\0';
}
static void
sbuf_append(struct sbuf *s1, const char *s2)
{
sbuf_append_at_most(s1, s2, strlen(s2));
}
char *
tags_expand_template(const char *template, const struct tag_set *tags)
{
if (template == NULL)
return NULL;
struct sbuf formatted = {0};
while (true) {
/* Find next tag opening '{' */
const char *begin = strchr(template, '{');
if (begin == NULL) {
/* No more tags, copy remaining characters */
sbuf_append(&formatted, template);
break;
}
/* Find closing '}' */
const char *end = strchr(begin, '}');
if (end == NULL) {
/* Wasn't actually a tag, copy as-is instead */
sbuf_append_at_most(&formatted, template, begin - template + 1);
template = begin + 1;
continue;
}
/* Extract tag name + argument*/
char tag_name_and_arg[end - begin];
strncpy(tag_name_and_arg, begin + 1, end - begin - 1);
tag_name_and_arg[end - begin - 1] = '\0';
static const size_t MAX_TAG_ARGS = 3;
const char *tag_name = NULL;
const char *tag_args[MAX_TAG_ARGS];
memset(tag_args, 0, sizeof(tag_args));
{
char *saveptr;
tag_name = strtok_r(tag_name_and_arg, ":", &saveptr);
for (size_t i = 0; i < MAX_TAG_ARGS; i++) {
const char *arg = strtok_r(NULL, ":", &saveptr);
if (arg == NULL)
break;
tag_args[i] = arg;
}
}
/* Lookup tag */
const struct tag *tag = NULL;
if (tag_name == NULL || (tag = tag_for_name(tags, tag_name)) == NULL) {
/* No such tag, copy as-is instead */
sbuf_append_at_most(&formatted, template, begin - template + 1);
template = begin + 1;
continue;
}
/* Copy characters preceding the tag (name) */
sbuf_append_at_most(&formatted, template, begin - template);
/* Parse arguments */
enum {
FMT_DEFAULT,
FMT_HEX,
FMT_OCT,
FMT_PERCENT,
FMT_KBYTE,
FMT_MBYTE,
FMT_GBYTE,
FMT_KIBYTE,
FMT_MIBYTE,
FMT_GIBYTE,
} format = FMT_DEFAULT;
enum {
VALUE_VALUE,
VALUE_MIN,
VALUE_MAX,
VALUE_UNIT,
} kind = VALUE_VALUE;
for (size_t i = 0; i < MAX_TAG_ARGS; i++) {
if (tag_args[i] == NULL)
break;
else if (strcmp(tag_args[i], "hex") == 0)
format = FMT_HEX;
else if (strcmp(tag_args[i], "oct") == 0)
format = FMT_OCT;
else if (strcmp(tag_args[i], "%") == 0)
format = FMT_PERCENT;
else if (strcmp(tag_args[i], "kb") == 0)
format = FMT_KBYTE;
else if (strcmp(tag_args[i], "mb") == 0)
format = FMT_MBYTE;
else if (strcmp(tag_args[i], "gb") == 0)
format = FMT_GBYTE;
else if (strcmp(tag_args[i], "kib") == 0)
format = FMT_KIBYTE;
else if (strcmp(tag_args[i], "mib") == 0)
format = FMT_MIBYTE;
else if (strcmp(tag_args[i], "gib") == 0)
format = FMT_GIBYTE;
else if (strcmp(tag_args[i], "min") == 0)
kind = VALUE_MIN;
else if (strcmp(tag_args[i], "max") == 0)
kind = VALUE_MAX;
else if (strcmp(tag_args[i], "unit") == 0)
kind = VALUE_UNIT;
else
LOG_WARN("invalid tag formatter: %s", tag_args[i]);
}
/* Copy tag value */
switch (kind) {
case VALUE_VALUE:
switch (format) {
case FMT_DEFAULT:
sbuf_append(&formatted, tag->as_string(tag));
break;
case FMT_HEX:
case FMT_OCT: {
char str[24];
snprintf(str, sizeof(str), format == FMT_HEX ? "%lx" : "%lo",
tag->as_int(tag));
sbuf_append(&formatted, str);
break;
}
case FMT_PERCENT: {
const long min = tag->min(tag);
const long max = tag->max(tag);
const long cur = tag->as_int(tag);
char str[4];
snprintf(str, sizeof(str), "%lu", (cur - min) * 100 / (max - min));
sbuf_append(&formatted, str);
break;
}
case FMT_KBYTE:
case FMT_MBYTE:
case FMT_GBYTE:
case FMT_KIBYTE:
case FMT_MIBYTE:
case FMT_GIBYTE: {
const long divider =
format == FMT_KBYTE ? 1024 :
format == FMT_MBYTE ? 1024 * 1024 :
format == FMT_GBYTE ? 1024 * 1024 * 1024 :
format == FMT_KIBYTE ? 1000 :
format == FMT_MIBYTE ? 1000 * 1000 :
format == FMT_GIBYTE ? 1000 * 1000 * 1000 :
1;
char str[24];
snprintf(str, sizeof(str), "%lu", tag->as_int(tag) / divider);
sbuf_append(&formatted, str);
break;
}
}
break;
case VALUE_MIN:
case VALUE_MAX: {
const long min = tag->min(tag);
const long max = tag->max(tag);
long value = kind == VALUE_MIN ? min : max;
const char *fmt;
switch (format) {
case FMT_DEFAULT: fmt = "%ld"; break;
case FMT_HEX: fmt = "%lx"; break;
case FMT_OCT: fmt = "%lo"; break;
case FMT_PERCENT:
value = (value - min) * 100 / (max - min);
fmt = "%lu";
break;
case FMT_KBYTE:
case FMT_MBYTE:
case FMT_GBYTE:
case FMT_KIBYTE:
case FMT_MIBYTE:
case FMT_GIBYTE: {
const long divider =
format == FMT_KBYTE ? 1024 :
format == FMT_MBYTE ? 1024 * 1024 :
format == FMT_GBYTE ? 1024 * 1024 * 1024 :
format == FMT_KIBYTE ? 1000 :
format == FMT_MIBYTE ? 1000 * 1000 :
format == FMT_GIBYTE ? 1000 * 1000 * 1000 :
1;
value /= divider;
fmt = "%lu";
break;
}
}
char str[24];
snprintf(str, sizeof(str), fmt, value);
sbuf_append(&formatted, str);
break;
}
case VALUE_UNIT: {
const char *value = NULL;
switch (tag->realtime(tag)) {
case TAG_REALTIME_NONE: value = ""; break;
case TAG_REALTIME_SECS: value = "s"; break;
case TAG_REALTIME_MSECS: value = "ms"; break;
}
sbuf_append(&formatted, value);
break;
}
}
/* Skip past tag name + closing '}' */
template = end + 1;
}
return formatted.s;
}
void
tags_expand_templates(char *expanded[], const char *template[], size_t nmemb,
const struct tag_set *tags)
{
for (size_t i = 0; i < nmemb; i++)
expanded[i] = tags_expand_template(template[i], tags);
}