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I have binary data in an unsigned char variable. I need to convert them to PEM base64 in c. I looked in openssl library but i could not find any function. Does any body have any idea?

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7  
I have a github repository with tested base64 and unbase64 functions. The only header you need is base64.h –  bobobobo Apr 17 '13 at 22:17

14 Answers 14

Here's the one I'm using:

#include <stdint.h>
#include <stdlib.h>


static char encoding_table[] = {'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H',
                                'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P',
                                'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X',
                                'Y', 'Z', 'a', 'b', 'c', 'd', 'e', 'f',
                                'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n',
                                'o', 'p', 'q', 'r', 's', 't', 'u', 'v',
                                'w', 'x', 'y', 'z', '0', '1', '2', '3',
                                '4', '5', '6', '7', '8', '9', '+', '/'};
static char *decoding_table = NULL;
static int mod_table[] = {0, 2, 1};


char *base64_encode(const unsigned char *data,
                    size_t input_length,
                    size_t *output_length) {

    *output_length = 4 * ((input_length + 2) / 3);

    char *encoded_data = malloc(*output_length);
    if (encoded_data == NULL) return NULL;

    for (int i = 0, j = 0; i < input_length;) {

        uint32_t octet_a = i < input_length ? (unsigned char)data[i++] : 0;
        uint32_t octet_b = i < input_length ? (unsigned char)data[i++] : 0;
        uint32_t octet_c = i < input_length ? (unsigned char)data[i++] : 0;

        uint32_t triple = (octet_a << 0x10) + (octet_b << 0x08) + octet_c;

        encoded_data[j++] = encoding_table[(triple >> 3 * 6) & 0x3F];
        encoded_data[j++] = encoding_table[(triple >> 2 * 6) & 0x3F];
        encoded_data[j++] = encoding_table[(triple >> 1 * 6) & 0x3F];
        encoded_data[j++] = encoding_table[(triple >> 0 * 6) & 0x3F];
    }

    for (int i = 0; i < mod_table[input_length % 3]; i++)
        encoded_data[*output_length - 1 - i] = '=';

    return encoded_data;
}


unsigned char *base64_decode(const char *data,
                             size_t input_length,
                             size_t *output_length) {

    if (decoding_table == NULL) build_decoding_table();

    if (input_length % 4 != 0) return NULL;

    *output_length = input_length / 4 * 3;
    if (data[input_length - 1] == '=') (*output_length)--;
    if (data[input_length - 2] == '=') (*output_length)--;

    unsigned char *decoded_data = malloc(*output_length);
    if (decoded_data == NULL) return NULL;

    for (int i = 0, j = 0; i < input_length;) {

        uint32_t sextet_a = data[i] == '=' ? 0 & i++ : decoding_table[data[i++]];
        uint32_t sextet_b = data[i] == '=' ? 0 & i++ : decoding_table[data[i++]];
        uint32_t sextet_c = data[i] == '=' ? 0 & i++ : decoding_table[data[i++]];
        uint32_t sextet_d = data[i] == '=' ? 0 & i++ : decoding_table[data[i++]];

        uint32_t triple = (sextet_a << 3 * 6)
        + (sextet_b << 2 * 6)
        + (sextet_c << 1 * 6)
        + (sextet_d << 0 * 6);

        if (j < *output_length) decoded_data[j++] = (triple >> 2 * 8) & 0xFF;
        if (j < *output_length) decoded_data[j++] = (triple >> 1 * 8) & 0xFF;
        if (j < *output_length) decoded_data[j++] = (triple >> 0 * 8) & 0xFF;
    }

    return decoded_data;
}


void build_decoding_table() {

    decoding_table = malloc(256);

    for (int i = 0; i < 64; i++)
        decoding_table[(unsigned char) encoding_table[i]] = i;
}


void base64_cleanup() {
    free(decoding_table);
}

Keep in mind that this doesn't do any error-checking while decoding - non base 64 encoded data will get processed.

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4  
It doesn't make any sense to use this if there is a library. –  diegows Jul 18 '12 at 15:35
7  
You can skip the libm and math.h "dependency" as well the need for floating point operations (which are slow on some hardware), by using *output_length = ((input_length - 1) / 3) * 4 + 4; in the beginning of base64_encode. –  Fabian Henze Sep 8 '12 at 15:54
2  
I'm new in C and going mad trying to make this work, tried many libraries, sugested in this topic and not, but the only thing that worked clearly and nice and error-free was this. Thank you. –  fiatjaf Nov 10 '12 at 14:49
6  
I realize it is "no error checking", but especially notice that although the decoding table in the decoder is an array of 256, since char is signed on most architectures, you are really indexing from -128 to 127. Any character with the high bit set will cause you to read outside the allocated memory. Forcing the data lookup to be an unsigned char clears that up. You still get garbage out for garbage in, but you won't segfault. –  bitmusher Feb 12 '13 at 14:54
1  
You have an array out-of-bounds problem in build_decoding_table. encoding_table[64] to encoding_table[255] do not exist. –  bobobobo Apr 17 '13 at 19:12

But you can also do it in openssl (openssl enc command does it....), look at the BIO_f_base64() function

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It seems like the OP is already using OpenSSL for some other reason, so this is probably the best way to go about it. –  Josh K Apr 30 '09 at 18:19

GNU coreutils has it in lib/base64. It's a little bloated but deals with stuff like EBCDIC. You can also play around on your own, e.g.,

char base64_digit (n) unsigned n; {
  if (n < 10) return n - '0';
  else if (n < 10 + 26) return n - 'a';
  else if (n < 10 + 26 + 26) return n - 'A';
  else assert(0);
  return 0;
}

unsigned char base64_decode_digit(char c) {
  switch (c) {
    case '=' : return 62;
    case '.' : return 63;
    default  :
      if (isdigit(c)) return c - '0';
      else if (islower(c)) return c - 'a' + 10;
      else if (isupper(c)) return c - 'A' + 10 + 26;
      else assert(0);
  }
  return 0xff;
}

unsigned base64_decode(char *s) {
  char *p;
  unsigned n = 0;

  for (p = s; *p; p++)
    n = 64 * n + base64_decode_digit(*p);

  return n;
}

Know ye all persons by these presents that you should not confuse "playing around on your own" with "implementing a standard." Yeesh.

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2  
Also, '+' is 62 and '/' is 63 in PEM base64 as asked for by OP. Here is a list of base64 encoding variants. I do not see a base64 encoding variant with the ordering of characters you use. But the math behind the algorithm is correct. –  Patrick Oct 28 '12 at 3:53
1  
As already said : be careful this algorithm is not compatible with common base64 –  Cerber Nov 15 '12 at 17:34

BASE64 Source Code in C

http://base64.sourceforge.net/

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libb64 has both C and C++ APIs. It is lightweight and perhaps the fastest publicly available implementation. It's also a dedicated stand-alone base64 encoding library, which can be nice if you don't need all the other stuff that comes from using a larger library such as OpenSSL or glib.

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5  
Note on libb64: BUFFERSIZE is defined in a make file, so if you don't use make/cmake, you'll need to manually define it in the header files in order for it to compile. Works/briefly tested VS2012 –  Tom Sep 15 '12 at 3:41
2  
As Tom said: #define BUFFERSIZE 16777216 you can replace to 65536 if you need a smaller buffer. –  jyz Aug 18 '13 at 20:55
    
Beware! After an hour of debugging I figured out that libb64 assumes that char is signed on the target system... This is a problem since base64_decode_value could return a negative number which is then casted to char. –  Noir Aug 29 '14 at 10:07

Here's the decoder I've been using for years...

    static const char  table[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
    static const int   BASE64_INPUT_SIZE = 57;

    BOOL isbase64(char c)
    {
       return c && strchr(table, c) != NULL;
    }

    inline char value(char c)
    {
       const char *p = strchr(table, c);
       if(p) {
          return p-table;
       } else {
          return 0;
       }
    }

    int UnBase64(unsigned char *dest, const unsigned char *src, int srclen)
    {
       *dest = 0;
       if(*src == 0) 
       {
          return 0;
       }
       unsigned char *p = dest;
       do
       {

          char a = value(src[0]);
          char b = value(src[1]);
          char c = value(src[2]);
          char d = value(src[3]);
          *p++ = (a << 2) | (b >> 4);
          *p++ = (b << 4) | (c >> 2);
          *p++ = (c << 6) | d;
          if(!isbase64(src[1])) 
          {
             p -= 2;
             break;
          } 
          else if(!isbase64(src[2])) 
          {
             p -= 2;
             break;
          } 
          else if(!isbase64(src[3])) 
          {
             p--;
             break;
          }
          src += 4;
          while(*src && (*src == 13 || *src == 10)) src++;
       }
       while(srclen-= 4);
       *p = 0;
       return p-dest;
    }
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what is the *dest = 0; at the start for? –  Jim Oct 6 '09 at 10:41
1  
It's just a very simple operation that makes sure the dest buffer is set to NULL in case the caller did not do that before the call, and if perhaps the decode failed, the returned buffer would be zero length. I didn't say I debugged, traced, and profiled this routine, it's just one I've been using for years. :) When I look at it now, it really doesn’t need to be there, so, why don't we call it an "exercise for the reader?" hehe.. Maybe I'll just edit it out. Thanks for pointing it out! –  LarryF Nov 24 '09 at 3:34
3  
your UnBase64 function may compromise the memory after the dest buffer, if that buffer is the exact size required to decode the base 64 encoded string. Take for instance the simple case where you try to decode the following base 64 encoded string "BQ==", into a single BYTE i.e. unsigned char Result = 0; UnBase64(&Result, "BQ==", 4); It will corrupt the stack! –  Mike Dinescu May 8 '10 at 21:14
2  
Yeah, caused nasty bug in our app. Do not recommend. –  Harald Maassen Feb 4 '12 at 14:26

I needed C++ implementation working on std::string. None of answers satisfied my needs, I needed simple two-function solution for encoding and decoding, but I was too lazy to write my own code, so I found this:

http://www.adp-gmbh.ch/cpp/common/base64.html

Credits for code go to René Nyffenegger.

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I wrote one for use with C++, it's very fast, works with streams, free, and open source:

https://tmplusplus.svn.sourceforge.net/svnroot/tmplusplus/trunk/src/

Feel free to use it if it fits your purpose.

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Oh, and its OS portable –  Inge Henriksen Jan 22 '11 at 11:42
    
The linked blog no longer seems to exist at that URL. –  HulkHolden Apr 7 '13 at 14:18
    
@HulkHolden It's still available here tmplusplus.svn.sourceforge.net/svnroot/tmplusplus/trunk/src –  Inge Henriksen Apr 8 '13 at 7:29

In case people need a c++ solution, I put this OpenSSL solution together (for both encode and decode). You'll need to link with the "crypto" library (which is OpenSSL). This has been checked for leaks with valgrind (although you could add some additional error checking code to make it a bit better - I know at least the write function should check for return value).

#include <openssl/bio.h>
#include <openssl/evp.h>
#include <stdlib.h>

string base64_encode( const string &str ){

    BIO *base64_filter = BIO_new( BIO_f_base64() );
    BIO_set_flags( base64_filter, BIO_FLAGS_BASE64_NO_NL );

    BIO *bio = BIO_new( BIO_s_mem() );
    BIO_set_flags( bio, BIO_FLAGS_BASE64_NO_NL );

    bio = BIO_push( base64_filter, bio );

    BIO_write( bio, str.c_str(), str.length() );

    BIO_flush( bio );

    char *new_data;

    long bytes_written = BIO_get_mem_data( bio, &new_data );

    string result( new_data, bytes_written );
    BIO_free_all( bio );

    return result;

}



string base64_decode( const string &str ){

    BIO *bio, *base64_filter, *bio_out;
    char inbuf[512];
    int inlen;
    base64_filter = BIO_new( BIO_f_base64() );
    BIO_set_flags( base64_filter, BIO_FLAGS_BASE64_NO_NL );

    bio = BIO_new_mem_buf( (void*)str.c_str(), str.length() );

    bio = BIO_push( base64_filter, bio );

    bio_out = BIO_new( BIO_s_mem() );

    while( (inlen = BIO_read(bio, inbuf, 512)) > 0 ){
        BIO_write( bio_out, inbuf, inlen );
    }

    BIO_flush( bio_out );

    char *new_data;
    long bytes_written = BIO_get_mem_data( bio_out, &new_data );

    string result( new_data, bytes_written );

    BIO_free_all( bio );
    BIO_free_all( bio_out );

    return result;

}
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BIO_free_all needs to specify the head - not the tail -of your bio chain (i.e. the base64_filter). Your current implementation has a memory leak. –  schulwitz Mar 11 at 3:51
    
@schulwitz Which line has the leak? Bio_free_all frees the entire chain. –  Homer6 Mar 11 at 4:18

Here's my solution using OpenSSL.

/* A BASE-64 ENCODER AND DECODER USING OPENSSL */
#include <openssl/pem.h>
#include <string.h> //Only needed for strlen().

char *base64encode (const void *b64_encode_this, int encode_this_many_bytes){
    BIO *b64_bio, *mem_bio;      //Declares two OpenSSL BIOs: a base64 filter and a memory BIO.
    BUF_MEM *mem_bio_mem_ptr;    //Pointer to a "memory BIO" structure holding our base64 data.
    b64_bio = BIO_new(BIO_f_base64());                      //Initialize our base64 filter BIO.
    mem_bio = BIO_new(BIO_s_mem());                           //Initialize our memory sink BIO.
    BIO_push(b64_bio, mem_bio);            //Link the BIOs by creating a filter-sink BIO chain.
    BIO_set_flags(b64_bio, BIO_FLAGS_BASE64_NO_NL);  //No newlines every 64 characters or less.
    BIO_write(b64_bio, b64_encode_this, encode_this_many_bytes); //Records base64 encoded data.
    BIO_flush(b64_bio);   //Flush data.  Necessary for b64 encoding, because of pad characters.
    BIO_get_mem_ptr(mem_bio, &mem_bio_mem_ptr);  //Store address of mem_bio's memory structure.
    BIO_set_close(mem_bio, BIO_NOCLOSE);   //Permit access to mem_ptr after BIOs are destroyed.
    BIO_free_all(b64_bio);  //Destroys all BIOs in chain, starting with b64 (i.e. the 1st one).
    BUF_MEM_grow(mem_bio_mem_ptr, (*mem_bio_mem_ptr).length + 1);   //Makes space for end null.
    (*mem_bio_mem_ptr).data[(*mem_bio_mem_ptr).length] = '\0';  //Adds null-terminator to tail.
    return (*mem_bio_mem_ptr).data; //Returns base-64 encoded data. (See: "buf_mem_st" struct).
}

char *base64decode (const void *b64_decode_this, int decode_this_many_bytes){
    BIO *b64_bio, *mem_bio;      //Declares two OpenSSL BIOs: a base64 filter and a memory BIO.
    char *base64_decoded = calloc( (decode_this_many_bytes*3)/4+1, sizeof(char) ); //+1 = null.
    b64_bio = BIO_new(BIO_f_base64());                      //Initialize our base64 filter BIO.
    mem_bio = BIO_new(BIO_s_mem());                         //Initialize our memory source BIO.
    BIO_write(mem_bio, b64_decode_this, decode_this_many_bytes); //Base64 data saved in source.
    BIO_push(b64_bio, mem_bio);          //Link the BIOs by creating a filter-source BIO chain.
    BIO_set_flags(b64_bio, BIO_FLAGS_BASE64_NO_NL);          //Don't require trailing newlines.
    int decoded_byte_index = 0;   //Index where the next base64_decoded byte should be written.
    while ( 0 < BIO_read(b64_bio, base64_decoded+decoded_byte_index, 1) ){ //Read byte-by-byte.
        decoded_byte_index++; //Increment the index until read of BIO decoded data is complete.
    } //Once we're done reading decoded data, BIO_read returns -1 even though there's no error.
    BIO_free_all(b64_bio);  //Destroys all BIOs in chain, starting with b64 (i.e. the 1st one).
    return base64_decoded;        //Returns base-64 decoded data with trailing null terminator.
}

/*Here's one way to base64 encode/decode using the base64encode() and base64decode functions.*/
int main(void){
    char data_to_encode[] = "Base64 encode this string!";  //The string we will base-64 encode.

    int bytes_to_encode = strlen(data_to_encode); //Number of bytes in string to base64 encode.
    char *base64_encoded = base64encode(data_to_encode, bytes_to_encode);   //Base-64 encoding.

    int bytes_to_decode = strlen(base64_encoded); //Number of bytes in string to base64 decode.
    char *base64_decoded = base64decode(base64_encoded, bytes_to_decode);   //Base-64 decoding.

    printf("Original character string is: %s\n", data_to_encode);  //Prints our initial string.
    printf("Base-64 encoded string is: %s\n", base64_encoded);  //Prints base64 encoded string.
    printf("Base-64 decoded string is: %s\n", base64_decoded);  //Prints base64 decoded string.

    free(base64_encoded);                //Frees up the memory holding our base64 encoded data.
    free(base64_decoded);                //Frees up the memory holding our base64 decoded data.
}
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2  
On the "Adds a null-terminator" line I get an AddressSanitizer error that the write overflows the heap by 1 byte. –  bparker Jan 18 '14 at 18:16
    
Thanks, I have corrected the error, in addition to doing extensive testing with randomly-sized strings of random bytes to ensure that the code works as advertised. :) –  schulwitz Mar 11 at 3:33

C programming easy and small version: https://gist.github.com/barrysteyn/7308212

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Not small because you need OpenSSL –  Lothar Mar 10 at 19:16

Here is an optimized version of encoder for the accepted answer, that also supports line-breaking for MIME and other protocols (simlar optimization can be applied to the decoder):

 char *base64_encode(const unsigned char *data,
                    size_t input_length,
                    size_t *output_length,
                    bool addLineBreaks)

    *output_length = 4 * ((input_length + 2) / 3);
    if (addLineBreaks) *output_length += *output_length / 38; //  CRLF after each 76 chars

    char *encoded_data = malloc(*output_length);
    if (encoded_data == NULL) return NULL;

    UInt32 octet_a;
    UInt32 octet_b;
    UInt32 octet_c;
    UInt32 triple;
    int lineCount = 0;
    int sizeMod = size - (size % 3); // check if there is a partial triplet
    // adding all octet triplets, before partial last triplet
    for (; offset < sizeMod; ) 
    {
        octet_a = data[offset++];
        octet_b = data[offset++];
        octet_c = data[offset++];

        triple = (octet_a << 0x10) + (octet_b << 0x08) + octet_c;

        encoded_data[mBufferPos++] = encoding_table[(triple >> 3 * 6) & 0x3F];
        encoded_data[mBufferPos++] = encoding_table[(triple >> 2 * 6) & 0x3F];
        encoded_data[mBufferPos++] = encoding_table[(triple >> 1 * 6) & 0x3F];
        encoded_data[mBufferPos++] = encoding_table[(triple >> 0 * 6) & 0x3F];
        if (addLineBreaks)
        {
            if (++lineCount == 19)
            {
                encoded_data[mBufferPos++] = 13;
                encoded_data[mBufferPos++] = 10;
                lineCount = 0;
            }
        }
    }

    // last bytes
    if (sizeMod < size)
    {
        octet_a = data[offset++]; // first octect always added
        octet_b = offset < size ? data[offset++] : (UInt32)0; // conditional 2nd octet
        octet_c = (UInt32)0; // last character is definitely padded

        triple = (octet_a << 0x10) + (octet_b << 0x08) + octet_c;

        encoded_data[mBufferPos++] = encoding_table[(triple >> 3 * 6) & 0x3F];
        encoded_data[mBufferPos++] = encoding_table[(triple >> 2 * 6) & 0x3F];
        encoded_data[mBufferPos++] = encoding_table[(triple >> 1 * 6) & 0x3F];
        encoded_data[mBufferPos++] = encoding_table[(triple >> 0 * 6) & 0x3F];

        // add padding '='
        sizeMod = size % 3; 
        // last character is definitely padded
        encoded_data[mBufferPos - 1] = (byte)'=';
        if (sizeMod == 1) encoded_data[mBufferPos - 2] = (byte)'=';
    }
 }
share|improve this answer
    
your snipped cannot even compile: no size variable and I hope that it is not a global variable in your code. –  Max Lapshin Dec 9 '14 at 10:11

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