transmission/libtransmission/crypto-utils.c

/*
 * This file Copyright (C) 2007-2014 Mnemosyne LLC
 *
 * It may be used under the GNU GPL versions 2 or 3
 * or any future license endorsed by Mnemosyne LLC.
 *
 * $Id$
 */

#include <assert.h>
#include <stdarg.h>
#include <stdlib.h> /* abs (), srand (), rand () */
#include <string.h> /* memcpy (), memmove (), memset (), strcmp (), strlen () */

#include <b64/cdecode.h>
#include <b64/cencode.h>

#include "transmission.h"
#include "crypto-utils.h"
#include "utils.h"

/***
****
***/

void
tr_dh_align_key (uint8_t * key_buffer,
                 size_t    key_size,
                 size_t    buffer_size)
{
  assert (key_size <= buffer_size);

  /* DH can generate key sizes that are smaller than the size of
     key buffer with exponentially decreasing probability, in which case
     the msb's of key buffer need to be zeroed appropriately. */
  if (key_size < buffer_size)
    {
      const size_t offset = buffer_size - key_size;
      memmove (key_buffer + offset, key_buffer, key_size);
      memset (key_buffer, 0, offset);
    }
}

/***
****
***/

bool
tr_sha1 (uint8_t    * hash,
         const void * data1,
         int          data1_length,
                      ...)
{
  tr_sha1_ctx_t sha;

  if ((sha = tr_sha1_init ()) == NULL)
    return false;

  if (tr_sha1_update (sha, data1, data1_length))
    {
      va_list vl;
      const void * data;

      va_start (vl, data1_length);
      while ((data = va_arg (vl, const void *)) != NULL)
        {
          const int data_length = va_arg (vl, int);
          assert (data_length >= 0);
          if (!tr_sha1_update (sha, data, data_length))
            break;
        }
      va_end (vl);

      /* did we reach the end of argument list? */
      if (data == NULL)
        return tr_sha1_final (sha, hash);
    }

  tr_sha1_final (sha, NULL);
  return false;
}

/***
****
***/

int
tr_rand_int (int upper_bound)
{
  int noise;

  assert (upper_bound > 0);

  while (tr_rand_buffer (&noise, sizeof (noise)))
    {
      noise = abs(noise) % upper_bound;
      /* abs(INT_MIN) is undefined and could return negative value */
      if (noise >= 0)
        return noise;
    }

  /* fall back to a weaker implementation... */
  return tr_rand_int_weak (upper_bound);
}

int
tr_rand_int_weak (int upper_bound)
{
  static bool init = false;

  assert (upper_bound > 0);

  if (!init)
    {
      srand (tr_time_msec ());
      init = true;
    }

  return rand () % upper_bound;
}

/***
****
***/

char *
tr_ssha1 (const char * plain_text)
{
  enum { saltval_len = 8,
         salter_len  = 64 };
  static const char * salter = "0123456789"
                               "abcdefghijklmnopqrstuvwxyz"
                               "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
                               "./";

  size_t i;
  unsigned char salt[saltval_len];
  uint8_t sha[SHA_DIGEST_LENGTH];
  char buf[2 * SHA_DIGEST_LENGTH + saltval_len + 2];

  tr_rand_buffer (salt, saltval_len);
  for (i = 0; i < saltval_len; ++i)
    salt[i] = salter[salt[i] % salter_len];

  tr_sha1 (sha, plain_text, strlen (plain_text), salt, (size_t) saltval_len, NULL);
  tr_sha1_to_hex (&buf[1], sha);
  memcpy (&buf[1 + 2 * SHA_DIGEST_LENGTH], &salt, saltval_len);
  buf[1 + 2 * SHA_DIGEST_LENGTH + saltval_len] = '\0';
  buf[0] = '{'; /* signal that this is a hash. this makes saving/restoring easier */

  return tr_strdup (buf);
}

bool
tr_ssha1_matches (const char * ssha1,
                  const char * plain_text)
{
  char * salt;
  size_t saltlen;
  char * my_ssha1;
  uint8_t buf[SHA_DIGEST_LENGTH];
  bool result;
  const size_t sourcelen = strlen (ssha1);

  /* extract the salt */
  if (sourcelen < 2 * SHA_DIGEST_LENGTH - 1)
    return false;
  saltlen = sourcelen - 2 * SHA_DIGEST_LENGTH - 1;
  salt = tr_malloc (saltlen);
  memcpy (salt, ssha1 + 2 * SHA_DIGEST_LENGTH + 1, saltlen);

  /* hash pass + salt */
  my_ssha1 = tr_malloc (2 * SHA_DIGEST_LENGTH + saltlen + 2);
  tr_sha1 (buf, plain_text, strlen (plain_text), salt, saltlen, NULL);
  tr_sha1_to_hex (&my_ssha1[1], buf);
  memcpy (my_ssha1 + 1 + 2 * SHA_DIGEST_LENGTH, salt, saltlen);
  my_ssha1[1 + 2 * SHA_DIGEST_LENGTH + saltlen] = '\0';
  my_ssha1[0] = '{';

  result = strcmp (ssha1, my_ssha1) == 0;

  tr_free (my_ssha1);
  tr_free (salt);

  return result;
}

/***
****
***/

void *
tr_base64_encode (const void * input,
                  size_t       input_length,
                  size_t     * output_length)
{
  char * ret;

  if (input != NULL)
    {
      if (input_length != 0)
        {
          size_t ret_length;
          base64_encodestate state;

          ret = tr_new (char, 4 * ((input_length + 2) / 3) + 1);

          base64_init_encodestate (&state);
          ret_length = base64_encode_block (input, input_length, ret, &state);
          ret_length += base64_encode_blockend (ret + ret_length, &state);

          if (output_length != NULL)
            *output_length = ret_length;

          ret[ret_length] = '\0';

          return ret;
        }
      else
        ret = tr_strdup ("");
    }
  else
    {
      ret = NULL;
    }

  if (output_length != NULL)
    *output_length = 0;

  return ret;
}

void *
tr_base64_encode_str (const char * input,
                      size_t     * output_length)
{
  return tr_base64_encode (input, input == NULL ? 0 : strlen (input), output_length);
}

void *
tr_base64_decode (const void * input,
                  size_t       input_length,
                  size_t     * output_length)
{
  char * ret;

  if (input != NULL)
    {
      if (input_length != 0)
        {
          size_t ret_length;
          base64_decodestate state;

          ret = tr_new (char, input_length / 4 * 3 + 1);

          base64_init_decodestate (&state);
          ret_length = base64_decode_block (input, input_length, ret, &state);

          if (output_length != NULL)
            *output_length = ret_length;

          ret[ret_length] = '\0';

          return ret;
        }
      else
        ret = tr_strdup ("");
    }
  else
    {
      ret = NULL;
    }

  if (output_length != NULL)
    *output_length = 0;

  return ret;
}

void *
tr_base64_decode_str (const char * input,
                      size_t     * output_length)
{
  return tr_base64_decode (input, input == NULL ? 0 : strlen (input), output_length);
}
#4400, #5462: Move random helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing random numbers/data generation to crypto-utils.{c,h}. OpenSSL- related functionality (generation of cryptographically strong random data) is moved to crypto-utils-openssl.c. Rename functions to follow currently accepted style: * tr_cryptoRandBuf -> tr_rand_buffer * tr_cryptoRandInt -> tr_rand_int * tr_cryptoWeakRandInt -> tr_rand_int_weak Fix rare case of invalid value being returned from tr_rand_int. Return value for abs(INT_MIN) may be undefined and thus negative, and so tr_rand_int will return negative value which is incorrect (out of requested and expected range). 2014-12-04 11:27:38 +00:00			`/*`
			`* This file Copyright (C) 2007-2014 Mnemosyne LLC`
			`*`
			`* It may be used under the GNU GPL versions 2 or 3`
			`* or any future license endorsed by Mnemosyne LLC.`
			`*`
			`* $Id$`
			`*/`

			`#include <assert.h>`
#4400, #5462: Move SHA1 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing SHA1 calculation to crypto-utils.{c,h}. OpenSSL-related functionality (SHA1 context management) is moved to crypto-utils-openssl.c. Add new tr_sha1_ctx_t type and functions to be implemented by crypto backends: * tr_sha1_init - allocate SHA1 context and and initialize it, * tr_sha1_update - hash some [more] data, * tr_sha1_final - finish hash calculation and free the context. Add new files to CMakeLists.txt (leftover from previous commit) to fix CMake-based configuration. 2014-12-04 12:13:59 +00:00			`#include <stdarg.h>`
#4400, #5462: Move random helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing random numbers/data generation to crypto-utils.{c,h}. OpenSSL- related functionality (generation of cryptographically strong random data) is moved to crypto-utils-openssl.c. Rename functions to follow currently accepted style: * tr_cryptoRandBuf -> tr_rand_buffer * tr_cryptoRandInt -> tr_rand_int * tr_cryptoWeakRandInt -> tr_rand_int_weak Fix rare case of invalid value being returned from tr_rand_int. Return value for abs(INT_MIN) may be undefined and thus negative, and so tr_rand_int will return negative value which is incorrect (out of requested and expected range). 2014-12-04 11:27:38 +00:00			`#include <stdlib.h> /* abs (), srand (), rand () */`
#4400, #5462: Move SSHA1 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing SSHA1 password generation and checking to crypto-utils.{c,h}. 2014-12-04 20:45:18 +00:00			`#include <string.h> /* memcpy (), memmove (), memset (), strcmp (), strlen () */`
#4400, #5462: Move random helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing random numbers/data generation to crypto-utils.{c,h}. OpenSSL- related functionality (generation of cryptographically strong random data) is moved to crypto-utils-openssl.c. Rename functions to follow currently accepted style: * tr_cryptoRandBuf -> tr_rand_buffer * tr_cryptoRandInt -> tr_rand_int * tr_cryptoWeakRandInt -> tr_rand_int_weak Fix rare case of invalid value being returned from tr_rand_int. Return value for abs(INT_MIN) may be undefined and thus negative, and so tr_rand_int will return negative value which is incorrect (out of requested and expected range). 2014-12-04 11:27:38 +00:00
Use libb64 instead of OpenSSL to encode/decode BASE64 Some crypto libraries (like CyaSSL, MatrixSSL and CommonCrypto) either don't have or expose this functionality at all, expose only part of it, or (like OpenSSL) have heavyweight API for it. Also, for the task as easy as BASE64 encoding and decoding it's much better to use small and simple specialized library. 2015-01-01 21:16:36 +00:00			`#include <b64/cdecode.h>`
			`#include <b64/cencode.h>`

#4400, #5462: Move random helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing random numbers/data generation to crypto-utils.{c,h}. OpenSSL- related functionality (generation of cryptographically strong random data) is moved to crypto-utils-openssl.c. Rename functions to follow currently accepted style: * tr_cryptoRandBuf -> tr_rand_buffer * tr_cryptoRandInt -> tr_rand_int * tr_cryptoWeakRandInt -> tr_rand_int_weak Fix rare case of invalid value being returned from tr_rand_int. Return value for abs(INT_MIN) may be undefined and thus negative, and so tr_rand_int will return negative value which is incorrect (out of requested and expected range). 2014-12-04 11:27:38 +00:00			`#include "transmission.h"`
			`#include "crypto-utils.h"`
			`#include "utils.h"`

			`/***`
			`****`
			`***/`

#4400, #5462: Move DH helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing DH key exchange to crypto-utils.{c,h}. OpenSSL-related functionality (DH context management) is moved to crypto-utils-openssl.c. Since we know in advance that DH secret key management code will be the same for most of backends, implement common functionality in separate crypto-utils-fallback.c. Add new tr_dh_ctx_t and tr_dh_secret_t types and functions to be implemented by crypto backends: * tr_dh_new - allocate DH context, * tr_dh_free - free the context, * tr_dh_make_key - generate private/public keypair, * tr_dh_agree - perform DH key exchange and generate secret key, * tr_dh_secret_derive - calculate secret key hash, * tr_dh_secret_free - free the secret key, * tr_dh_align_key - align some DH key in the buffer allocated for it. Make DH secret key not accessible in plain form outside the crypto backend. This allows for implementations where the key is managed by the underlying library and is not even exposed to our backend. 2014-12-04 19:18:08 +00:00			`void`
			`tr_dh_align_key (uint8_t * key_buffer,`
			`size_t key_size,`
			`size_t buffer_size)`
			`{`
			`assert (key_size <= buffer_size);`

			`/* DH can generate key sizes that are smaller than the size of`
			`key buffer with exponentially decreasing probability, in which case`
			`the msb's of key buffer need to be zeroed appropriately. */`
			`if (key_size < buffer_size)`
			`{`
			`const size_t offset = buffer_size - key_size;`
			`memmove (key_buffer + offset, key_buffer, key_size);`
			`memset (key_buffer, 0, offset);`
			`}`
			`}`

			`/***`
			`****`
			`***/`

#4400, #5462: Move SHA1 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing SHA1 calculation to crypto-utils.{c,h}. OpenSSL-related functionality (SHA1 context management) is moved to crypto-utils-openssl.c. Add new tr_sha1_ctx_t type and functions to be implemented by crypto backends: * tr_sha1_init - allocate SHA1 context and and initialize it, * tr_sha1_update - hash some [more] data, * tr_sha1_final - finish hash calculation and free the context. Add new files to CMakeLists.txt (leftover from previous commit) to fix CMake-based configuration. 2014-12-04 12:13:59 +00:00			`bool`
			`tr_sha1 (uint8_t * hash,`
			`const void * data1,`
			`int data1_length,`
			`...)`
			`{`
			`tr_sha1_ctx_t sha;`

			`if ((sha = tr_sha1_init ()) == NULL)`
			`return false;`

			`if (tr_sha1_update (sha, data1, data1_length))`
			`{`
			`va_list vl;`
			`const void * data;`

			`va_start (vl, data1_length);`
			`while ((data = va_arg (vl, const void *)) != NULL)`
			`{`
			`const int data_length = va_arg (vl, int);`
			`assert (data_length >= 0);`
			`if (!tr_sha1_update (sha, data, data_length))`
			`break;`
			`}`
			`va_end (vl);`

			`/* did we reach the end of argument list? */`
			`if (data == NULL)`
			`return tr_sha1_final (sha, hash);`
			`}`

			`tr_sha1_final (sha, NULL);`
			`return false;`
			`}`

			`/***`
			`****`
			`***/`

#4400, #5462: Move random helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing random numbers/data generation to crypto-utils.{c,h}. OpenSSL- related functionality (generation of cryptographically strong random data) is moved to crypto-utils-openssl.c. Rename functions to follow currently accepted style: * tr_cryptoRandBuf -> tr_rand_buffer * tr_cryptoRandInt -> tr_rand_int * tr_cryptoWeakRandInt -> tr_rand_int_weak Fix rare case of invalid value being returned from tr_rand_int. Return value for abs(INT_MIN) may be undefined and thus negative, and so tr_rand_int will return negative value which is incorrect (out of requested and expected range). 2014-12-04 11:27:38 +00:00			`int`
			`tr_rand_int (int upper_bound)`
			`{`
			`int noise;`

			`assert (upper_bound > 0);`

			`while (tr_rand_buffer (&noise, sizeof (noise)))`
			`{`
			`noise = abs(noise) % upper_bound;`
			`/* abs(INT_MIN) is undefined and could return negative value */`
			`if (noise >= 0)`
			`return noise;`
			`}`

			`/* fall back to a weaker implementation... */`
			`return tr_rand_int_weak (upper_bound);`
			`}`

			`int`
			`tr_rand_int_weak (int upper_bound)`
			`{`
			`static bool init = false;`

			`assert (upper_bound > 0);`

			`if (!init)`
			`{`
			`srand (tr_time_msec ());`
			`init = true;`
			`}`

			`return rand () % upper_bound;`
			`}`
#4400, #5462: Move BASE64 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing BASE64 encoding and decoding to crypto-utils.{c,h}. OpenSSL- related functionality is moved to crypto-utils-openssl.c. Add new functions to be implemented by crypto backends: * tr_base64_encode_impl - encode from binary to BASE64, * tr_base64_decode_impl - decode from BASE64 to binary. Change `tr_base64_encode` and `tr_base64_decode` functions to expect non-negative input data length which is considered real and never adjusted. To process null-terminated strings (which was achieved before by passing 0 or -1 as input data length), add new `tr_base64_encode_str` and `tr_base64_decode_str` functions which do not accept input data length as an argument but calculate it on their own. 2014-12-04 19:58:34 +00:00
			`/***`
			`****`
			`***/`

#4400, #5462: Move SSHA1 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing SSHA1 password generation and checking to crypto-utils.{c,h}. 2014-12-04 20:45:18 +00:00			`char *`
			`tr_ssha1 (const char * plain_text)`
			`{`
			`enum { saltval_len = 8,`
			`salter_len = 64 };`
			`static const char * salter = "0123456789"`
			`"abcdefghijklmnopqrstuvwxyz"`
			`"ABCDEFGHIJKLMNOPQRSTUVWXYZ"`
			`"./";`

			`size_t i;`
			`unsigned char salt[saltval_len];`
			`uint8_t sha[SHA_DIGEST_LENGTH];`
			`char buf[2 * SHA_DIGEST_LENGTH + saltval_len + 2];`

			`tr_rand_buffer (salt, saltval_len);`
			`for (i = 0; i < saltval_len; ++i)`
			`salt[i] = salter[salt[i] % salter_len];`

			`tr_sha1 (sha, plain_text, strlen (plain_text), salt, (size_t) saltval_len, NULL);`
			`tr_sha1_to_hex (&buf[1], sha);`
			`memcpy (&buf[1 + 2 * SHA_DIGEST_LENGTH], &salt, saltval_len);`
			`buf[1 + 2 * SHA_DIGEST_LENGTH + saltval_len] = '\0';`
			`buf[0] = '{'; /* signal that this is a hash. this makes saving/restoring easier */`

			`return tr_strdup (buf);`
			`}`

			`bool`
			`tr_ssha1_matches (const char * ssha1,`
			`const char * plain_text)`
			`{`
			`char * salt;`
			`size_t saltlen;`
			`char * my_ssha1;`
			`uint8_t buf[SHA_DIGEST_LENGTH];`
			`bool result;`
			`const size_t sourcelen = strlen (ssha1);`

			`/* extract the salt */`
			`if (sourcelen < 2 * SHA_DIGEST_LENGTH - 1)`
			`return false;`
			`saltlen = sourcelen - 2 * SHA_DIGEST_LENGTH - 1;`
			`salt = tr_malloc (saltlen);`
			`memcpy (salt, ssha1 + 2 * SHA_DIGEST_LENGTH + 1, saltlen);`

			`/* hash pass + salt */`
			`my_ssha1 = tr_malloc (2 * SHA_DIGEST_LENGTH + saltlen + 2);`
			`tr_sha1 (buf, plain_text, strlen (plain_text), salt, saltlen, NULL);`
			`tr_sha1_to_hex (&my_ssha1[1], buf);`
			`memcpy (my_ssha1 + 1 + 2 * SHA_DIGEST_LENGTH, salt, saltlen);`
			`my_ssha1[1 + 2 * SHA_DIGEST_LENGTH + saltlen] = '\0';`
			`my_ssha1[0] = '{';`

			`result = strcmp (ssha1, my_ssha1) == 0;`

			`tr_free (my_ssha1);`
			`tr_free (salt);`

			`return result;`
			`}`

			`/***`
			`****`
			`***/`

#4400, #5462: Move BASE64 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing BASE64 encoding and decoding to crypto-utils.{c,h}. OpenSSL- related functionality is moved to crypto-utils-openssl.c. Add new functions to be implemented by crypto backends: * tr_base64_encode_impl - encode from binary to BASE64, * tr_base64_decode_impl - decode from BASE64 to binary. Change `tr_base64_encode` and `tr_base64_decode` functions to expect non-negative input data length which is considered real and never adjusted. To process null-terminated strings (which was achieved before by passing 0 or -1 as input data length), add new `tr_base64_encode_str` and `tr_base64_decode_str` functions which do not accept input data length as an argument but calculate it on their own. 2014-12-04 19:58:34 +00:00			`void *`
			`tr_base64_encode (const void * input,`
			`size_t input_length,`
			`size_t * output_length)`
			`{`
			`char * ret;`

			`if (input != NULL)`
			`{`
			`if (input_length != 0)`
			`{`
Use libb64 instead of OpenSSL to encode/decode BASE64 Some crypto libraries (like CyaSSL, MatrixSSL and CommonCrypto) either don't have or expose this functionality at all, expose only part of it, or (like OpenSSL) have heavyweight API for it. Also, for the task as easy as BASE64 encoding and decoding it's much better to use small and simple specialized library. 2015-01-01 21:16:36 +00:00			`size_t ret_length;`
			`base64_encodestate state;`

			`ret = tr_new (char, 4 * ((input_length + 2) / 3) + 1);`

			`base64_init_encodestate (&state);`
			`ret_length = base64_encode_block (input, input_length, ret, &state);`
			`ret_length += base64_encode_blockend (ret + ret_length, &state);`

			`if (output_length != NULL)`
			`*output_length = ret_length;`

			`ret[ret_length] = '\0';`

			`return ret;`
#4400, #5462: Move BASE64 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing BASE64 encoding and decoding to crypto-utils.{c,h}. OpenSSL- related functionality is moved to crypto-utils-openssl.c. Add new functions to be implemented by crypto backends: * tr_base64_encode_impl - encode from binary to BASE64, * tr_base64_decode_impl - decode from BASE64 to binary. Change `tr_base64_encode` and `tr_base64_decode` functions to expect non-negative input data length which is considered real and never adjusted. To process null-terminated strings (which was achieved before by passing 0 or -1 as input data length), add new `tr_base64_encode_str` and `tr_base64_decode_str` functions which do not accept input data length as an argument but calculate it on their own. 2014-12-04 19:58:34 +00:00			`}`
			`else`
			`ret = tr_strdup ("");`
			`}`
			`else`
			`{`
			`ret = NULL;`
			`}`

			`if (output_length != NULL)`
			`*output_length = 0;`

			`return ret;`
			`}`

			`void *`
			`tr_base64_encode_str (const char * input,`
			`size_t * output_length)`
			`{`
			`return tr_base64_encode (input, input == NULL ? 0 : strlen (input), output_length);`
			`}`

			`void *`
			`tr_base64_decode (const void * input,`
			`size_t input_length,`
			`size_t * output_length)`
			`{`
			`char * ret;`

			`if (input != NULL)`
			`{`
			`if (input_length != 0)`
			`{`
Use libb64 instead of OpenSSL to encode/decode BASE64 Some crypto libraries (like CyaSSL, MatrixSSL and CommonCrypto) either don't have or expose this functionality at all, expose only part of it, or (like OpenSSL) have heavyweight API for it. Also, for the task as easy as BASE64 encoding and decoding it's much better to use small and simple specialized library. 2015-01-01 21:16:36 +00:00			`size_t ret_length;`
			`base64_decodestate state;`

			`ret = tr_new (char, input_length / 4 * 3 + 1);`

			`base64_init_decodestate (&state);`
			`ret_length = base64_decode_block (input, input_length, ret, &state);`

			`if (output_length != NULL)`
			`*output_length = ret_length;`

			`ret[ret_length] = '\0';`

			`return ret;`
#4400, #5462: Move BASE64 helpers to crypto-utils On a way to factoring out OpenSSL support to a standalone file to ease addition of other crypto libraries support in the future, move helpers providing BASE64 encoding and decoding to crypto-utils.{c,h}. OpenSSL- related functionality is moved to crypto-utils-openssl.c. Add new functions to be implemented by crypto backends: * tr_base64_encode_impl - encode from binary to BASE64, * tr_base64_decode_impl - decode from BASE64 to binary. Change `tr_base64_encode` and `tr_base64_decode` functions to expect non-negative input data length which is considered real and never adjusted. To process null-terminated strings (which was achieved before by passing 0 or -1 as input data length), add new `tr_base64_encode_str` and `tr_base64_decode_str` functions which do not accept input data length as an argument but calculate it on their own. 2014-12-04 19:58:34 +00:00			`}`
			`else`
			`ret = tr_strdup ("");`
			`}`
			`else`
			`{`
			`ret = NULL;`
			`}`

			`if (output_length != NULL)`
			`*output_length = 0;`

			`return ret;`
			`}`

			`void *`
			`tr_base64_decode_str (const char * input,`
			`size_t * output_length)`
			`{`
			`return tr_base64_decode (input, input == NULL ? 0 : strlen (input), output_length);`
			`}`