Awesome
About this fork
This is Inkymail's fork of aklomp's base64 library. This fork adds support for AVX2 and ARM NEON istructions. It also auto-detecets SSSE3 and AVX2 instructions at runtime and chooses the best codec accordingly, which prevents illegal instruction traps on older CPUs that don't support these instructions.
Also added in this fork is support for URL-safe base64 and optional ignoring of illegal characters in the base64 stream (rather than aborting when an illegal character is encountered.)
The remainder of this readme is identical to what's in the upstream repository.
Base64 stream encoder/decoder in C89
This is an implementation of a base64 stream encoder/decoder in C89. It also contains wrapper functions to encode/decode simple length-delimited strings.
If your processor supports SSSE3, encoding/decoding speed is about four times higher than the competition, because this library uses SSE intrinsics to encode/decode twelve bytes at a time. To the author's knowledge, this is the only Base64 library that does this.
Notable features:
- Really fast on x86 systems by using SSE vector instructions;
- Reads/writes blocks of streaming data;
- Does not dynamically allocate memory;
- Valid C89 that compiles with pedantic options on;
- Re-entrant and threadsafe;
- Unit tested;
- Uses Duff's Device.
Strings are represented as a pointer and a length; they are not zero-terminated. This was a conscious design decision. In the decoding step, relying on zero-termination would make no sense since the output could contain legitimate zero bytes. In the encoding step, returning the length saves the overhead of calling strlen() on the output. If you insist on the trailing zero, you can easily add it yourself at the given offset.
Usage and building
To use the library routines, include base64.c
and base64.h
into your
project. No special compiler flags are necessary to build the files. If your
target supports it, compile with -mssse3
or equivalent to benefit from SSSE3
acceleration.
API reference
Encoding
base64_encode
void base64_encode (const char *const src, size_t srclen, char *const out, size_t *const outlen);
Wrapper function to encode a plain string of given length.
Output is written to out
without trailing zero.
Output length in bytes is written to outlen
.
The buffer in out
has been allocated by the caller and is at least 4/3 the size of the input.
base64_stream_encode_init
void base64_stream_encode_init (struct base64_state *);
Call this before calling base64_stream_encode()
to init the state.
base64_stream_encode
void base64_stream_encode (struct base64_state *, const char *const src, size_t srclen, char *const out, size_t *const outlen);
Encodes the block of data of given length at src
, into the buffer at out
.
Caller is responsible for allocating a large enough out-buffer; it must be at least 4/3 the size of the in-buffer, but take some margin.
Places the number of new bytes written into outlen
(which is set to zero when the function starts).
Does not zero-terminate or finalize the output.
base64_stream_encode_final
void base64_stream_encode_final (struct base64_state *, char *const out, size_t *outlen);
Finalizes the output begun by previous calls to base64_stream_encode()
.
Adds the required end-of-stream markers if appropriate.
outlen
is modified and will contain the number of new bytes written at out
(which will quite often be zero).
Decoding
base64_decode
int base64_decode (const char *const src, size_t srclen, char *const out, size_t *const outlen);
Wrapper function to decode a plain string of given length.
Output is written to out
without trailing zero. Output length in bytes is written to outlen
.
The buffer in out
has been allocated by the caller and is at least 3/4 the size of the input.
base64_stream_decode_init
void base64_stream_decode_init (struct base64_state *);
Call this before calling base64_stream_decode()
to init the state.
base64_stream_decode
int base64_stream_decode (struct base64_state *, const char *const src, size_t srclen, char *const out, size_t *const outlen);
Decodes the block of data of given length at src
, into the buffer at out
.
Caller is responsible for allocating a large enough out-buffer; it must be at least 3/4 the size of the in-buffer, but take some margin.
Places the number of new bytes written into outlen
(which is set to zero when the function starts).
Does not zero-terminate the output.
Returns 1 if all is well, and 0 if a decoding error was found, such as an invalid character.
Examples
A simple example of encoding a static string to base64 and printing the output to stdout:
#include <stdio.h> /* fwrite */
#include "base64.h"
int main ()
{
char src[] = "hello world";
char out[20];
size_t srclen = sizeof(src) - 1;
size_t outlen;
base64_encode(src, srclen, out, &outlen);
fwrite(out, outlen, 1, stdout);
return 0;
}
A simple example (no error checking, etc) of stream encoding standard input to standard output:
#include <stdio.h>
#include "base64.h"
int main ()
{
size_t nread, nout;
char buf[12000], out[16000];
struct base64_state state;
base64_stream_encode_init(&state);
while ((nread = fread(buf, 1, sizeof(buf), stdin)) > 0) {
base64_stream_encode(&state, buf, nread, out, &nout);
if (nout) fwrite(out, nout, 1, stdout);
if (feof(stdin)) break;
}
base64_stream_encode_final(&state, out, &nout);
if (nout) fwrite(out, nout, 1, stdout);
return 0;
}
Also see main.c
for a simple re-implementation of the base64
utility. A
file or standard input is fed through the encoder/decoder, and the output is
written to standard output.
Tests
See tests/
for a small test suite. Testing is automated with Travis CI:
License
This repository is licensed under the BSD 2-clause License. See the LICENSE file.