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hashids.c
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hashids.c
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#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <stdarg.h>
#include <math.h>
#include "hashids.h"
#include "postgres.h"
/* branch prediction hinting */
#ifndef __has_builtin
# define __has_builtin(x) (0)
#endif
#if defined(__builtin_expect) || __has_builtin(__builtin_expect)
# define HASHIDS_LIKELY(x) (__builtin_expect(!!(x), 1))
# define HASHIDS_UNLIKELY(x) (__builtin_expect(!!(x), 0))
#else
# define HASHIDS_LIKELY(x) (x)
# define HASHIDS_UNLIKELY(x) (x)
#endif
/* fallthrough warning suppression */
#ifndef __has_feature
# define __has_feature(x) (0)
#endif
#if __has_feature(fallthrough)
# define ATTRIBUTE_FALLTHROUGH __attribute__((fallthrough))
#else
# define ATTRIBUTE_FALLTHROUGH
#endif
/* thread-local storage */
#ifndef TLS
#define TLS
#endif
/* thread-safe hashids_errno indirection */
TLS int __hashids_errno_val;
int *
__hashids_errno_addr()
{
return &__hashids_errno_val;
}
/* default alloc() implementation */
static inline void *
hashids_alloc_f(size_t size)
{
return palloc0(size);
}
/* default free() implementation */
static inline void
hashids_free_f(void *ptr)
{
pfree(ptr);
}
void *(*_hashids_alloc)(size_t size) = hashids_alloc_f;
void (*_hashids_free)(void *ptr) = hashids_free_f;
/* fast ceil(x / y) for size_t arguments */
static inline size_t
hashids_div_ceil_size_t(size_t x, size_t y)
{
return x / y + !!(x % y);
}
/* fast ceil(x / y) for unsigned short arguments */
static inline unsigned short
hashids_div_ceil_unsigned_short(unsigned short x, unsigned short y) {
return x / y + !!(x % y);
}
/* fast log2(x) for unsigned long long */
const unsigned short hashids_log2_64_tab[64] = {
63, 0, 58, 1, 59, 47, 53, 2,
60, 39, 48, 27, 54, 33, 42, 3,
61, 51, 37, 40, 49, 18, 28, 20,
55, 30, 34, 11, 43, 14, 22, 4,
62, 57, 46, 52, 38, 26, 32, 41,
50, 36, 17, 19, 29, 10, 13, 21,
56, 45, 25, 31, 35, 16, 9, 12,
44, 24, 15, 8, 23, 7, 6, 5
};
static inline unsigned short
hashids_log2_64(unsigned long long x)
{
x |= x >> 1;
x |= x >> 2;
x |= x >> 4;
x |= x >> 8;
x |= x >> 16;
x |= x >> 32;
/* pure evil : ieee abuse */
return hashids_log2_64_tab[
((unsigned long long)((x - (x >> 1)) * 0x07EDD5E59A4E28C2)) >> 58];
}
/* shuffle loop step */
#define hashids_shuffle_step(iter) \
if (i == 0) { break; } \
if (v == salt_length) { v = 0; } \
p += salt[v]; j = (salt[v] + v + p) % (iter); \
temp = str[(iter)]; str[(iter)] = str[j]; str[j] = temp; \
--i; ++v;
/* consistent shuffle */
void
hashids_shuffle(char *str, size_t str_length, char *salt, size_t salt_length)
{
ssize_t i;
size_t j, v, p;
char temp;
/* meh, meh */
if (!salt_length) {
return;
}
/* pure evil : loop unroll */
for (i = str_length - 1, v = 0, p = 0; i > 0; /* empty */) {
switch (i % 32) {
case 31: hashids_shuffle_step(i);
/* fall through */
case 30: hashids_shuffle_step(i);
/* fall through */
case 29: hashids_shuffle_step(i);
/* fall through */
case 28: hashids_shuffle_step(i);
/* fall through */
case 27: hashids_shuffle_step(i);
/* fall through */
case 26: hashids_shuffle_step(i);
/* fall through */
case 25: hashids_shuffle_step(i);
/* fall through */
case 24: hashids_shuffle_step(i);
/* fall through */
case 23: hashids_shuffle_step(i);
/* fall through */
case 22: hashids_shuffle_step(i);
/* fall through */
case 21: hashids_shuffle_step(i);
/* fall through */
case 20: hashids_shuffle_step(i);
/* fall through */
case 19: hashids_shuffle_step(i);
/* fall through */
case 18: hashids_shuffle_step(i);
/* fall through */
case 17: hashids_shuffle_step(i);
/* fall through */
case 16: hashids_shuffle_step(i);
/* fall through */
case 15: hashids_shuffle_step(i);
/* fall through */
case 14: hashids_shuffle_step(i);
/* fall through */
case 13: hashids_shuffle_step(i);
/* fall through */
case 12: hashids_shuffle_step(i);
/* fall through */
case 11: hashids_shuffle_step(i);
/* fall through */
case 10: hashids_shuffle_step(i);
/* fall through */
case 9: hashids_shuffle_step(i);
/* fall through */
case 8: hashids_shuffle_step(i);
/* fall through */
case 7: hashids_shuffle_step(i);
/* fall through */
case 6: hashids_shuffle_step(i);
/* fall through */
case 5: hashids_shuffle_step(i);
/* fall through */
case 4: hashids_shuffle_step(i);
/* fall through */
case 3: hashids_shuffle_step(i);
/* fall through */
case 2: hashids_shuffle_step(i);
/* fall through */
case 1: hashids_shuffle_step(i);
/* fall through */
case 0: hashids_shuffle_step(i);
}
}
}
/* "destructor" */
void
hashids_free(hashids_t *hashids)
{
if (hashids) {
if (hashids->alphabet) {
_hashids_free(hashids->alphabet);
}
if (hashids->alphabet_copy_1) {
_hashids_free(hashids->alphabet_copy_1);
}
if (hashids->alphabet_copy_2) {
_hashids_free(hashids->alphabet_copy_2);
}
if (hashids->salt) {
_hashids_free(hashids->salt);
}
if (hashids->separators) {
_hashids_free(hashids->separators);
}
if (hashids->guards) {
_hashids_free(hashids->guards);
}
_hashids_free(hashids);
}
}
/* common init */
hashids_t *
hashids_init3(const char *salt, size_t min_hash_length, const char *alphabet)
{
hashids_t *result;
size_t i, j, len;
char ch, *p;
hashids_errno = HASHIDS_ERROR_OK;
/* allocate the structure */
result = (hashids_t *)_hashids_alloc(sizeof(hashids_t));
if (HASHIDS_UNLIKELY(!result)) {
hashids_errno = HASHIDS_ERROR_ALLOC;
return NULL;
}
/* allocate enough space for the alphabet */
len = strlen(alphabet) + 1;
result->alphabet = (char *)_hashids_alloc(len);
/* extract only the unique characters */
result->alphabet[0] = '\0';
for (i = 0, j = 0; i < len; ++i) {
ch = alphabet[i];
if (!strchr(result->alphabet, ch)) {
result->alphabet[j++] = ch;
}
}
result->alphabet[j] = '\0';
/* store alphabet length */
result->alphabet_length = j;
/* check length and whitespace */
if (result->alphabet_length < HASHIDS_MIN_ALPHABET_LENGTH) {
hashids_free(result);
hashids_errno = HASHIDS_ERROR_ALPHABET_LENGTH;
return NULL;
}
if (strchr(result->alphabet, 0x20) || strchr(result->alphabet, 0x09)) {
hashids_free(result);
hashids_errno = HASHIDS_ERROR_ALPHABET_SPACE;
return NULL;
}
/* copy salt */
result->salt_length = salt ? strlen(salt) : 0;
result->salt = (char *)_hashids_alloc(result->salt_length + 1);
if (HASHIDS_UNLIKELY(!result->salt)) {
hashids_free(result);
hashids_errno = HASHIDS_ERROR_ALLOC;
return NULL;
}
strncpy(result->salt, salt, result->salt_length);
/* allocate enough space for separators */
len = strlen(HASHIDS_DEFAULT_SEPARATORS);
j = (size_t)
(ceil((float)result->alphabet_length / HASHIDS_SEPARATOR_DIVISOR) + 1);
if (j < len + 1) {
j = len + 1;
}
result->separators = (char *)_hashids_alloc(j);
if (HASHIDS_UNLIKELY(!result->separators)) {
hashids_free(result);
hashids_errno = HASHIDS_ERROR_ALLOC;
return NULL;
}
/* take default separators out of the alphabet */
for (i = 0, j = 0; i < strlen(HASHIDS_DEFAULT_SEPARATORS); ++i) {
ch = HASHIDS_DEFAULT_SEPARATORS[i];
/* check if separator is actually in the used alphabet */
if ((p = strchr(result->alphabet, ch))) {
result->separators[j++] = ch;
/* remove that separator */
memmove(p, p + 1,
strlen(result->alphabet) - (p - result->alphabet));
}
}
/* store separators length */
result->separators_count = j;
/* subtract separators count from alphabet length */
result->alphabet_length -= result->separators_count;
/* shuffle the separators */
if (result->separators_count) {
hashids_shuffle(result->separators, result->separators_count,
result->salt, result->salt_length);
}
/* check if we have any/enough separators */
if (!result->separators_count
|| (((float)result->alphabet_length / (float)result->separators_count)
> HASHIDS_SEPARATOR_DIVISOR)) {
size_t separators_count = (size_t)ceil(
(float)result->alphabet_length / HASHIDS_SEPARATOR_DIVISOR);
if (separators_count == 1) {
separators_count = 2;
}
if (separators_count > result->separators_count) {
/* we need more separators - get some from alphabet */
size_t diff = separators_count - result->separators_count;
strncat(result->separators, result->alphabet, diff);
memmove(result->alphabet, result->alphabet + diff,
result->alphabet_length - diff + 1);
result->separators_count += diff;
result->alphabet_length -= diff;
} else {
/* we have more than enough - truncate */
result->separators[separators_count] = '\0';
result->separators_count = separators_count;
}
}
/* shuffle alphabet */
hashids_shuffle(result->alphabet, result->alphabet_length,
result->salt, result->salt_length);
/* allocate guards */
result->guards_count = hashids_div_ceil_size_t(result->alphabet_length,
HASHIDS_GUARD_DIVISOR);
result->guards = (char *)_hashids_alloc(result->guards_count + 1);
if (HASHIDS_UNLIKELY(!result->guards)) {
hashids_free(result);
hashids_errno = HASHIDS_ERROR_ALLOC;
return NULL;
}
if (HASHIDS_UNLIKELY(result->alphabet_length < 3)) {
/* take some from separators */
strncpy(result->guards, result->separators, result->guards_count);
memmove(result->separators, result->separators + result->guards_count,
result->separators_count - result->guards_count + 1);
result->separators_count -= result->guards_count;
} else {
/* take them from alphabet */
strncpy(result->guards, result->alphabet, result->guards_count);
memmove(result->alphabet, result->alphabet + result->guards_count,
result->alphabet_length - result->guards_count + 1);
result->alphabet_length -= result->guards_count;
}
/* allocate enough space for the alphabet copies */
result->alphabet_copy_1 = (char *)_hashids_alloc(result->alphabet_length +
1);
result->alphabet_copy_2 = (char *)_hashids_alloc(result->alphabet_length +
1);
if (HASHIDS_UNLIKELY(!result->alphabet || !result->alphabet_copy_1
|| !result->alphabet_copy_2)) {
hashids_free(result);
hashids_errno = HASHIDS_ERROR_ALLOC;
return NULL;
}
/* set min hash length */
result->min_hash_length = min_hash_length;
/* return result happily */
return result;
}
/* init with salt and minimum hash length */
hashids_t *
hashids_init2(const char *salt, size_t min_hash_length)
{
return hashids_init3(salt, min_hash_length, HASHIDS_DEFAULT_ALPHABET);
}
/* init with hash only */
hashids_t *
hashids_init(const char *salt)
{
return hashids_init2(salt, HASHIDS_DEFAULT_MIN_HASH_LENGTH);
}
/* estimate buffer size (generic) */
size_t
hashids_estimate_encoded_size(hashids_t *hashids,
size_t numbers_count, unsigned long long *numbers)
{
size_t i, result_len;
for (i = 0, result_len = 1; i < numbers_count; ++i) {
if (numbers[i] == 0) {
result_len += 2;
} else if (numbers[i] == 0xFFFFFFFFFFFFFFFFull) {
result_len += hashids_div_ceil_unsigned_short(
hashids_log2_64(numbers[i]),
hashids_log2_64(hashids->alphabet_length)) - 1;
} else {
result_len += hashids_div_ceil_unsigned_short(
hashids_log2_64(numbers[i] + 1),
hashids_log2_64(hashids->alphabet_length));
}
}
if (numbers_count > 1) {
result_len += numbers_count - 1;
}
if (result_len < hashids->min_hash_length) {
result_len = hashids->min_hash_length;
}
return result_len + 2 /* fast log2 & ceil sometimes undershoot by 1 */;
}
/* estimate buffer size (variadic) */
size_t
hashids_estimate_encoded_size_v(hashids_t *hashids,
size_t numbers_count, ...)
{
size_t i, result;
unsigned long long *numbers;
va_list ap;
numbers = (unsigned long long *)_hashids_alloc(numbers_count *
sizeof(unsigned long long));
if (HASHIDS_UNLIKELY(!numbers)) {
hashids_errno = HASHIDS_ERROR_ALLOC;
return 0;
}
va_start(ap, numbers_count);
for (i = 0; i < numbers_count; ++i) {
numbers[i] = va_arg(ap, unsigned long long);
}
va_end(ap);
result = hashids_estimate_encoded_size(hashids, numbers_count, numbers);
_hashids_free(numbers);
return result;
}
/* encode many (generic) */
size_t
hashids_encode(hashids_t *hashids, char *buffer,
size_t numbers_count, unsigned long long *numbers)
{
/* bail out if no numbers */
if (HASHIDS_UNLIKELY(!numbers_count)) {
buffer[0] = '\0';
return 0;
}
size_t i, j, result_len, guard_index, half_length_ceil, half_length_floor;
unsigned long long number, number_copy, numbers_hash;
int p_max;
char lottery, ch, temp_ch, *p, *buffer_end, *buffer_temp;
/* return an estimation if no buffer */
if (HASHIDS_UNLIKELY(!buffer)) {
return hashids_estimate_encoded_size(hashids, numbers_count, numbers);
}
/* copy the alphabet into internal buffer 1 */
strncpy(hashids->alphabet_copy_1, hashids->alphabet,
hashids->alphabet_length);
/* walk arguments once and generate a hash */
for (i = 0, numbers_hash = 0; i < numbers_count; ++i) {
number = numbers[i];
numbers_hash += number % (i + 100);
}
/* lottery character */
lottery = hashids->alphabet[numbers_hash % hashids->alphabet_length];
/* start output buffer with it (or don't) */
buffer[0] = lottery;
buffer_end = buffer + 1;
/* alphabet-like buffer used for salt at each iteration */
hashids->alphabet_copy_2[0] = lottery;
hashids->alphabet_copy_2[1] = '\0';
strncat(hashids->alphabet_copy_2, hashids->salt,
hashids->alphabet_length - 1);
p = hashids->alphabet_copy_2 + hashids->salt_length + 1;
p_max = hashids->alphabet_length - 1 - hashids->salt_length;
if (p_max > 0) {
strncat(hashids->alphabet_copy_2, hashids->alphabet,
p_max);
} else {
hashids->alphabet_copy_2[hashids->alphabet_length] = '\0';
}
for (i = 0; i < numbers_count; ++i) {
/* take number */
number = number_copy = numbers[i];
/* create a salt for this iteration */
if (p_max > 0) {
strncpy(p, hashids->alphabet_copy_1, p_max);
}
/* shuffle the alphabet */
hashids_shuffle(hashids->alphabet_copy_1, hashids->alphabet_length,
hashids->alphabet_copy_2, hashids->alphabet_length);
/* hash the number */
buffer_temp = buffer_end;
do {
ch = hashids->alphabet_copy_1[number % hashids->alphabet_length];
*buffer_end++ = ch;
number /= hashids->alphabet_length;
} while (number);
/* reverse the hash we got */
for (j = 0; j < (size_t)((buffer_end - buffer_temp) / 2); ++j) {
temp_ch = *(buffer_temp + j);
*(buffer_temp + j) = *(buffer_end - 1 - j);
*(buffer_end - 1 - j) = temp_ch;
}
if (i + 1 < numbers_count) {
number_copy %= ch + i;
*buffer_end = hashids->separators[number_copy %
hashids->separators_count];
++buffer_end;
}
}
/* intermediate string length */
result_len = buffer_end - buffer;
if (result_len < hashids->min_hash_length) {
/* add a guard before the encoded numbers */
guard_index = (numbers_hash + buffer[0]) % hashids->guards_count;
memmove(buffer + 1, buffer, result_len);
buffer[0] = hashids->guards[guard_index];
++result_len;
if (result_len < hashids->min_hash_length) {
/* add a guard after the encoded numbers */
guard_index = (numbers_hash + buffer[2]) % hashids->guards_count;
buffer[result_len] = hashids->guards[guard_index];
++result_len;
/* pad with half alphabet before and after */
half_length_ceil = hashids_div_ceil_size_t(
hashids->alphabet_length, 2);
half_length_floor = floor((float)hashids->alphabet_length / 2);
/* pad, pad, pad */
while (result_len < hashids->min_hash_length) {
/* shuffle the alphabet */
strncpy(hashids->alphabet_copy_2, hashids->alphabet_copy_1,
hashids->alphabet_length);
hashids_shuffle(hashids->alphabet_copy_1,
hashids->alphabet_length, hashids->alphabet_copy_2,
hashids->alphabet_length);
/* left pad from the end of the alphabet */
i = hashids_div_ceil_size_t(
hashids->min_hash_length - result_len, 2);
/* right pad from the beginning */
j = floor((float)(hashids->min_hash_length - result_len) / 2);
/* check bounds */
if (i > half_length_ceil) {
i = half_length_ceil;
}
if (j > half_length_floor) {
j = half_length_floor;
}
/* handle excessively excessive excess */
if ((i + j) % 2 == 0 && hashids->alphabet_length % 2 == 1) {
++i; --j;
}
/* move the current result to "center" */
memmove(buffer + i, buffer, result_len);
/* pad left */
memmove(buffer,
hashids->alphabet_copy_1 + hashids->alphabet_length - i, i);
/* pad right */
memmove(buffer + i + result_len, hashids->alphabet_copy_1, j);
/* increment result_len */
result_len += i + j;
}
}
}
buffer[result_len] = '\0';
return result_len;
}
/* encode many (variadic) */
size_t
hashids_encode_v(hashids_t *hashids, char *buffer,
size_t numbers_count, ...)
{
size_t i, result;
unsigned long long *numbers;
va_list ap;
numbers = (unsigned long long *)_hashids_alloc(numbers_count *
sizeof(unsigned long long));
if (HASHIDS_UNLIKELY(!numbers)) {
hashids_errno = HASHIDS_ERROR_ALLOC;
return 0;
}
va_start(ap, numbers_count);
for (i = 0; i < numbers_count; ++i) {
numbers[i] = va_arg(ap, unsigned long long);
}
va_end(ap);
result = hashids_encode(hashids, buffer, numbers_count, numbers);
_hashids_free(numbers);
return result;
}
/* encode one */
size_t
hashids_encode_one(hashids_t *hashids, char *buffer,
unsigned long long number)
{
return hashids_encode(hashids, buffer, 1, &number);
}
/* numbers count */
size_t
hashids_numbers_count(hashids_t *hashids, const char *str)
{
size_t numbers_count;
char ch;
const char *p;
/* skip characters until we find a guard */
if (hashids->min_hash_length) {
p = str;
while ((ch = *p)) {
if (strchr(hashids->guards, ch)) {
str = p + 1;
break;
}
p++;
}
}
/* parse */
numbers_count = 0;
while ((ch = *str)) {
if (strchr(hashids->guards, ch)) {
break;
}
if (strchr(hashids->separators, ch)) {
numbers_count++;
str++;
continue;
}
if (!strchr(hashids->alphabet, ch)) {
hashids_errno = HASHIDS_ERROR_INVALID_HASH;
return 0;
}
str++;
}
/* account for the last number */
return numbers_count + 1;
}
/* decode */
size_t
hashids_decode(hashids_t *hashids, const char *str,
unsigned long long *numbers, size_t numbers_max)
{
size_t numbers_count;
unsigned long long number;
char lottery, ch, *p, *c;
int p_max;
if (!numbers || !numbers_max) {
return hashids_numbers_count(hashids, str);
}
/* skip characters until we find a guard */
if (hashids->min_hash_length) {
p = (char *)str;
while ((ch = *p)) {
if (strchr(hashids->guards, ch)) {
str = p + 1;
break;
}
p++;
}
}
/* get the lottery character */
lottery = *str++;
/* copy the alphabet into internal buffer 1 */
strncpy(hashids->alphabet_copy_1, hashids->alphabet,
hashids->alphabet_length);
/* alphabet-like buffer used for salt at each iteration */
hashids->alphabet_copy_2[0] = lottery;
hashids->alphabet_copy_2[1] = '\0';
strncat(hashids->alphabet_copy_2, hashids->salt,
hashids->alphabet_length - 1);
p = hashids->alphabet_copy_2 + hashids->salt_length + 1;
p_max = hashids->alphabet_length - 1 - hashids->salt_length;
if (p_max > 0) {
strncat(hashids->alphabet_copy_2, hashids->alphabet,
p_max);
} else {
hashids->alphabet_copy_2[hashids->alphabet_length] = '\0';
}
/* first shuffle */
hashids_shuffle(hashids->alphabet_copy_1, hashids->alphabet_length,
hashids->alphabet_copy_2, hashids->alphabet_length);
/* parse */
numbers_count = 0;
number = 0;
while ((ch = *str)) {
if (strchr(hashids->guards, ch)) {
break;
}
if (strchr(hashids->separators, ch)) {
/* store the number */
*numbers++ = number;
/* check limit */
if (++numbers_count >= numbers_max) {
return numbers_count;
}
number = 0;
/* resalt the alphabet */
if (p_max > 0) {
strncpy(p, hashids->alphabet_copy_1, p_max);
}
hashids_shuffle(hashids->alphabet_copy_1, hashids->alphabet_length,
hashids->alphabet_copy_2, hashids->alphabet_length);
str++;
continue;
}
if (!(c = strchr(hashids->alphabet_copy_1, ch))) {
hashids_errno = HASHIDS_ERROR_INVALID_HASH;
return 0;
}
number *= hashids->alphabet_length;
number += c - hashids->alphabet_copy_1;
str++;
}
/* store last number */
*numbers = number;
return numbers_count + 1;
}
/* unsafe decode */
size_t
hashids_decode_unsafe(hashids_t *hashids, const char *str,
unsigned long long *numbers)
{
return hashids_decode(hashids, str, numbers, (size_t)-1);
}
/* safe decode */
size_t
hashids_decode_safe(hashids_t *hashids, const char *str,
unsigned long long *numbers, size_t numbers_max)
{
size_t numbers_count;
size_t len;
char *p;
numbers_count = hashids_decode(hashids, str, numbers, numbers_max);
if (HASHIDS_UNLIKELY(!numbers_count)) {
hashids_errno = HASHIDS_ERROR_INVALID_HASH;
return 0;
}
len = hashids_estimate_encoded_size(hashids, numbers_count, numbers);
p = (char *)_hashids_alloc(len);
if (HASHIDS_UNLIKELY(!p)) {
hashids_errno = HASHIDS_ERROR_ALLOC;
return 0;
}
len = hashids_encode(hashids, p, numbers_count, numbers);
if (HASHIDS_UNLIKELY(!len)) {
_hashids_free(p);
return 0;
}
if (strcmp(str, p) != 0) {
_hashids_free(p);
hashids_errno = HASHIDS_ERROR_INVALID_HASH;
return 0;
}
_hashids_free(p);
return numbers_count;
}
/* encode hex */
size_t
hashids_encode_hex(hashids_t *hashids, char *buffer,
const char *hex_str)
{
int len;
char *temp, *p;
size_t result;
unsigned long long number;
len = strlen(hex_str);
temp = (char *)_hashids_alloc(len + 2);
if (!temp) {
hashids_errno = HASHIDS_ERROR_ALLOC;
return 0;
}
temp[0] = '1';
strncpy(temp + 1, hex_str, len);
number = strtoull(temp, &p, 16);
if (p == temp) {
_hashids_free(temp);
hashids_errno = HASHIDS_ERROR_INVALID_NUMBER;
return 0;
}
result = hashids_encode(hashids, buffer, 1, &number);
_hashids_free(temp);
return result;
}
/* decode hex */
size_t
hashids_decode_hex(hashids_t *hashids, char *str, char *output)
{
size_t result, i;
unsigned long long number;
char ch, *temp;
result = hashids_numbers_count(hashids, str);
if (result != 1) {
return 0;
}
result = hashids_decode_unsafe(hashids, str, &number);
if (result != 1) {
return 0;
}
temp = output;
do {
ch = number % 16;
if (ch > 9) {
ch += 'A' - 10;
} else {
ch += '0';
}
*temp++ = (char)ch;
number /= 16;
} while (number);
temp--;
*temp = 0;
for (i = 0; i < (size_t)((temp - output) / 2); ++i) {
ch = *(output + i);
*(output + i) = *(temp - 1 - i);
*(temp - 1 - i) = ch;
}
return 1;
}