gecko/security/nss/lib/util/nssb64e.c

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2008-06-06 05:40:11 -07:00
/* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is the Netscape security libraries.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation.
* Portions created by the Initial Developer are Copyright (C) 1994-2000
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
/*
* Base64 encoding (binary to ascii).
*
* $Id: nssb64e.c,v 1.3 2004/04/25 15:03:17 gerv%gerv.net Exp $
*/
#include "nssb64.h"
#include "nspr.h"
#include "secitem.h"
#include "secerr.h"
/*
* XXX See the big comment at the top of nssb64d.c about moving the
* bulk of this code over into NSPR (the PL part). It all applies
* here but I didn't want to duplicate it, to avoid divergence problems.
*/
/*
**************************************************************
* XXX Beginning of base64 encoding code to be moved into NSPR.
*/
struct PLBase64EncodeStateStr {
unsigned chunks;
unsigned saved;
unsigned char buf[3];
};
/*
* This typedef would belong in the NSPR header file (i.e. plbase64.h).
*/
typedef struct PLBase64EncoderStr PLBase64Encoder;
/*
* The following implementation of base64 encoding was based on code
* found in libmime (specifically, in mimeenc.c). It has been adapted to
* use PR types and naming as well as to provide other necessary semantics
* (like buffer-in/buffer-out in addition to "streaming" without undue
* performance hit of extra copying if you made the buffer versions
* use the output_fn). It also incorporates some aspects of the current
* NSPR base64 encoding code. As such, you may find similarities to
* both of those implementations. I tried to use names that reflected
* the original code when possible. For this reason you may find some
* inconsistencies -- libmime used lots of "in" and "out" whereas the
* NSPR version uses "src" and "dest"; sometimes I changed one to the other
* and sometimes I left them when I thought the subroutines were at least
* self-consistent.
*/
PR_BEGIN_EXTERN_C
/*
* Opaque object used by the encoder to store state.
*/
struct PLBase64EncoderStr {
/*
* The one or two bytes pending. (We need 3 to create a "token",
* and hold the leftovers here. in_buffer_count is *only* ever
* 0, 1, or 2.
*/
unsigned char in_buffer[2];
int in_buffer_count;
/*
* If the caller wants linebreaks added, line_length specifies
* where they come out. It must be a multiple of 4; if the caller
* provides one that isn't, we round it down to the nearest
* multiple of 4.
*
* The value of current_column counts how many characters have been
* added since the last linebreaks (or since the beginning, on the
* first line). It is also always a multiple of 4; it is unused when
* line_length is 0.
*/
PRUint32 line_length;
PRUint32 current_column;
/*
* Where to write the encoded data (used when streaming, not when
* doing all in-memory (buffer) operations).
*
* Note that this definition is chosen to be compatible with PR_Write.
*/
PRInt32 (*output_fn) (void *output_arg, const char *buf, PRInt32 size);
void *output_arg;
/*
* Where the encoded output goes -- either temporarily (in the streaming
* case, staged here before it goes to the output function) or what will
* be the entire buffered result for users of the buffer version.
*/
char *output_buffer;
PRUint32 output_buflen; /* the total length of allocated buffer */
PRUint32 output_length; /* the length that is currently populated */
};
PR_END_EXTERN_C
/*
* Table to convert a binary value to its corresponding ascii "code".
*/
static unsigned char base64_valuetocode[64] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
#define B64_PAD '='
#define B64_CR '\r'
#define B64_LF '\n'
static PRStatus
pl_base64_encode_buffer (PLBase64Encoder *data, const unsigned char *in,
PRUint32 size)
{
const unsigned char *end = in + size;
char *out = data->output_buffer + data->output_length;
unsigned int i = data->in_buffer_count;
PRUint32 n = 0;
int off;
PRUint32 output_threshold;
/* If this input buffer is too small, wait until next time. */
if (size < (3 - i)) {
data->in_buffer[i++] = in[0];
if (size > 1)
data->in_buffer[i++] = in[1];
PR_ASSERT(i < 3);
data->in_buffer_count = i;
return PR_SUCCESS;
}
/* If there are bytes that were put back last time, take them now. */
if (i > 0) {
n = data->in_buffer[0];
if (i > 1)
n = (n << 8) | data->in_buffer[1];
data->in_buffer_count = 0;
}
/* If our total is not a multiple of three, put one or two bytes back. */
off = (size + i) % 3;
if (off > 0) {
size -= off;
data->in_buffer[0] = in[size];
if (off > 1)
data->in_buffer[1] = in[size + 1];
data->in_buffer_count = off;
end -= off;
}
output_threshold = data->output_buflen - 3;
/*
* Populate the output buffer with base64 data, one line (or buffer)
* at a time.
*/
while (in < end) {
int j, k;
while (i < 3) {
n = (n << 8) | *in++;
i++;
}
i = 0;
if (data->line_length > 0) {
if (data->current_column >= data->line_length) {
data->current_column = 0;
*out++ = B64_CR;
*out++ = B64_LF;
data->output_length += 2;
}
data->current_column += 4; /* the bytes we are about to add */
}
for (j = 18; j >= 0; j -= 6) {
k = (n >> j) & 0x3F;
*out++ = base64_valuetocode[k];
}
n = 0;
data->output_length += 4;
if (data->output_length >= output_threshold) {
PR_ASSERT(data->output_length <= data->output_buflen);
if (data->output_fn != NULL) {
PRInt32 output_result;
output_result = data->output_fn (data->output_arg,
data->output_buffer,
(PRInt32) data->output_length);
if (output_result < 0)
return PR_FAILURE;
out = data->output_buffer;
data->output_length = 0;
} else {
/*
* Check that we are about to exit the loop. (Since we
* are over the threshold, there isn't enough room in the
* output buffer for another trip around.)
*/
PR_ASSERT(in == end);
if (in < end) {
PR_SetError (PR_BUFFER_OVERFLOW_ERROR, 0);
return PR_FAILURE;
}
}
}
}
return PR_SUCCESS;
}
static PRStatus
pl_base64_encode_flush (PLBase64Encoder *data)
{
int i = data->in_buffer_count;
if (i == 0 && data->output_length == 0)
return PR_SUCCESS;
if (i > 0) {
char *out = data->output_buffer + data->output_length;
PRUint32 n;
int j, k;
n = ((PRUint32) data->in_buffer[0]) << 16;
if (i > 1)
n |= ((PRUint32) data->in_buffer[1] << 8);
data->in_buffer_count = 0;
if (data->line_length > 0) {
if (data->current_column >= data->line_length) {
data->current_column = 0;
*out++ = B64_CR;
*out++ = B64_LF;
data->output_length += 2;
}
}
/*
* This will fill in more than we really have data for, but the
* valid parts will end up in the correct position and the extras
* will be over-written with pad characters below.
*/
for (j = 18; j >= 0; j -= 6) {
k = (n >> j) & 0x3F;
*out++ = base64_valuetocode[k];
}
/* Pad with equal-signs. */
if (i == 1)
out[-2] = B64_PAD;
out[-1] = B64_PAD;
data->output_length += 4;
}
if (data->output_fn != NULL) {
PRInt32 output_result;
output_result = data->output_fn (data->output_arg, data->output_buffer,
(PRInt32) data->output_length);
data->output_length = 0;
if (output_result < 0)
return PR_FAILURE;
}
return PR_SUCCESS;
}
/*
* The maximum space needed to hold the output of the encoder given input
* data of length "size", and allowing for CRLF added at least every
* line_length bytes (we will add it at nearest lower multiple of 4).
* There is no trailing CRLF.
*/
static PRUint32
PL_Base64MaxEncodedLength (PRUint32 size, PRUint32 line_length)
{
PRUint32 tokens, tokens_per_line, full_lines, line_break_chars, remainder;
tokens = (size + 2) / 3;
if (line_length == 0)
return tokens * 4;
if (line_length < 4) /* too small! */
line_length = 4;
tokens_per_line = line_length / 4;
full_lines = tokens / tokens_per_line;
remainder = (tokens - (full_lines * tokens_per_line)) * 4;
line_break_chars = full_lines * 2;
if (remainder == 0)
line_break_chars -= 2;
return (full_lines * tokens_per_line * 4) + line_break_chars + remainder;
}
/*
* A distinct internal creation function for the buffer version to use.
* (It does not want to specify an output_fn, and we want the normal
* Create function to require that.) All common initialization of the
* encoding context should be done *here*.
*
* Save "line_length", rounded down to nearest multiple of 4 (if not
* already even multiple). Allocate output_buffer, if not provided --
* based on given size if specified, otherwise based on line_length.
*/
static PLBase64Encoder *
pl_base64_create_encoder (PRUint32 line_length, char *output_buffer,
PRUint32 output_buflen)
{
PLBase64Encoder *data;
PRUint32 line_tokens;
data = PR_NEWZAP(PLBase64Encoder);
if (data == NULL)
return NULL;
if (line_length > 0 && line_length < 4) /* too small! */
line_length = 4;
line_tokens = line_length / 4;
data->line_length = line_tokens * 4;
if (output_buffer == NULL) {
if (output_buflen == 0) {
if (data->line_length > 0) /* need to include room for CRLF */
output_buflen = data->line_length + 2;
else
output_buflen = 64; /* XXX what is a good size? */
}
output_buffer = (char *) PR_Malloc(output_buflen);
if (output_buffer == NULL) {
PR_Free(data);
return NULL;
}
}
data->output_buffer = output_buffer;
data->output_buflen = output_buflen;
return data;
}
/*
* Function to start a base64 encoding context.
* An "output_fn" is required; the "output_arg" parameter to that is optional.
* If linebreaks in the encoded output are desired, "line_length" specifies
* where to place them -- it will be rounded down to the nearest multiple of 4
* (if it is not already an even multiple of 4). If it is zero, no linebreaks
* will be added. (FYI, a linebreak is CRLF -- two characters.)
*/
static PLBase64Encoder *
PL_CreateBase64Encoder (PRInt32 (*output_fn) (void *, const char *, PRInt32),
void *output_arg, PRUint32 line_length)
{
PLBase64Encoder *data;
if (output_fn == NULL) {
PR_SetError (PR_INVALID_ARGUMENT_ERROR, 0);
return NULL;
}
data = pl_base64_create_encoder (line_length, NULL, 0);
if (data == NULL)
return NULL;
data->output_fn = output_fn;
data->output_arg = output_arg;
return data;
}
/*
* Push data through the encoder, causing the output_fn (provided to Create)
* to be called with the encoded data.
*/
static PRStatus
PL_UpdateBase64Encoder (PLBase64Encoder *data, const unsigned char *buffer,
PRUint32 size)
{
/* XXX Should we do argument checking only in debug build? */
if (data == NULL || buffer == NULL || size == 0) {
PR_SetError (PR_INVALID_ARGUMENT_ERROR, 0);
return PR_FAILURE;
}
return pl_base64_encode_buffer (data, buffer, size);
}
/*
* When you're done encoding, call this to free the data. If "abort_p"
* is false, then calling this may cause the output_fn to be called
* one last time (as the last buffered data is flushed out).
*/
static PRStatus
PL_DestroyBase64Encoder (PLBase64Encoder *data, PRBool abort_p)
{
PRStatus status = PR_SUCCESS;
/* XXX Should we do argument checking only in debug build? */
if (data == NULL) {
PR_SetError (PR_INVALID_ARGUMENT_ERROR, 0);
return PR_FAILURE;
}
/* Flush out the last few buffered characters. */
if (!abort_p)
status = pl_base64_encode_flush (data);
if (data->output_buffer != NULL)
PR_Free(data->output_buffer);
PR_Free(data);
return status;
}
/*
* Perform base64 encoding from an input buffer to an output buffer.
* The output buffer can be provided (as "dest"); you can also pass in
* a NULL and this function will allocate a buffer large enough for you,
* and return it. If you do provide the output buffer, you must also
* provide the maximum length of that buffer (as "maxdestlen").
* The actual encoded length of output will be returned to you in
* "output_destlen".
*
* If linebreaks in the encoded output are desired, "line_length" specifies
* where to place them -- it will be rounded down to the nearest multiple of 4
* (if it is not already an even multiple of 4). If it is zero, no linebreaks
* will be added. (FYI, a linebreak is CRLF -- two characters.)
*
* Return value is NULL on error, the output buffer (allocated or provided)
* otherwise.
*/
static char *
PL_Base64EncodeBuffer (const unsigned char *src, PRUint32 srclen,
PRUint32 line_length, char *dest, PRUint32 maxdestlen,
PRUint32 *output_destlen)
{
PRUint32 need_length;
PLBase64Encoder *data = NULL;
PRStatus status;
PR_ASSERT(srclen > 0);
if (srclen == 0)
return dest;
/*
* How much space could we possibly need for encoding this input?
*/
need_length = PL_Base64MaxEncodedLength (srclen, line_length);
/*
* Make sure we have at least that much, if output buffer provided.
*/
if (dest != NULL) {
PR_ASSERT(maxdestlen >= need_length);
if (maxdestlen < need_length) {
PR_SetError(PR_BUFFER_OVERFLOW_ERROR, 0);
return NULL;
}
} else {
maxdestlen = need_length;
}
data = pl_base64_create_encoder(line_length, dest, maxdestlen);
if (data == NULL)
return NULL;
status = pl_base64_encode_buffer (data, src, srclen);
/*
* We do not wait for Destroy to flush, because Destroy will also
* get rid of our encoder context, which we need to look at first!
*/
if (status == PR_SUCCESS)
status = pl_base64_encode_flush (data);
if (status != PR_SUCCESS) {
(void) PL_DestroyBase64Encoder (data, PR_TRUE);
return NULL;
}
dest = data->output_buffer;
/* Must clear this or Destroy will free it. */
data->output_buffer = NULL;
*output_destlen = data->output_length;
status = PL_DestroyBase64Encoder (data, PR_FALSE);
if (status == PR_FAILURE) {
PR_Free(dest);
return NULL;
}
return dest;
}
/*
* XXX End of base64 encoding code to be moved into NSPR.
********************************************************
*/
/*
* This is the beginning of the NSS cover functions. These will
* provide the interface we want to expose as NSS-ish. For example,
* they will operate on our Items, do any special handling or checking
* we want to do, etc.
*/
PR_BEGIN_EXTERN_C
/*
* A boring cover structure for now. Perhaps someday it will include
* some more interesting fields.
*/
struct NSSBase64EncoderStr {
PLBase64Encoder *pl_data;
};
PR_END_EXTERN_C
/*
* Function to start a base64 encoding context.
*/
NSSBase64Encoder *
NSSBase64Encoder_Create (PRInt32 (*output_fn) (void *, const char *, PRInt32),
void *output_arg)
{
PLBase64Encoder *pl_data;
NSSBase64Encoder *nss_data;
nss_data = PORT_ZNew(NSSBase64Encoder);
if (nss_data == NULL)
return NULL;
pl_data = PL_CreateBase64Encoder (output_fn, output_arg, 64);
if (pl_data == NULL) {
PORT_Free(nss_data);
return NULL;
}
nss_data->pl_data = pl_data;
return nss_data;
}
/*
* Push data through the encoder, causing the output_fn (provided to Create)
* to be called with the encoded data.
*/
SECStatus
NSSBase64Encoder_Update (NSSBase64Encoder *data, const unsigned char *buffer,
PRUint32 size)
{
PRStatus pr_status;
/* XXX Should we do argument checking only in debug build? */
if (data == NULL) {
PORT_SetError (SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
pr_status = PL_UpdateBase64Encoder (data->pl_data, buffer, size);
if (pr_status == PR_FAILURE)
return SECFailure;
return SECSuccess;
}
/*
* When you're done encoding, call this to free the data. If "abort_p"
* is false, then calling this may cause the output_fn to be called
* one last time (as the last buffered data is flushed out).
*/
SECStatus
NSSBase64Encoder_Destroy (NSSBase64Encoder *data, PRBool abort_p)
{
PRStatus pr_status;
/* XXX Should we do argument checking only in debug build? */
if (data == NULL) {
PORT_SetError (SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
pr_status = PL_DestroyBase64Encoder (data->pl_data, abort_p);
PORT_Free(data);
if (pr_status == PR_FAILURE)
return SECFailure;
return SECSuccess;
}
/*
* Perform base64 encoding of binary data "inItem" to an ascii string.
* The output buffer may be provided (as "outStrOpt"); you can also pass
* in a NULL and the buffer will be allocated for you. The result will
* be null-terminated, and if the buffer is provided, "maxOutLen" must
* specify the maximum length of the buffer and will be checked to
* supply sufficient space space for the encoded result. (If "outStrOpt"
* is NULL, "maxOutLen" is ignored.)
*
* If "outStrOpt" is NULL, allocation will happen out of the passed-in
* "arenaOpt", if *it* is non-NULL, otherwise standard allocation (heap)
* will be used.
*
* Return value is NULL on error, the output buffer (allocated or provided)
* otherwise.
*/
char *
NSSBase64_EncodeItem (PRArenaPool *arenaOpt, char *outStrOpt,
unsigned int maxOutLen, SECItem *inItem)
{
char *out_string = outStrOpt;
PRUint32 max_out_len;
PRUint32 out_len;
void *mark = NULL;
char *dummy;
PORT_Assert(inItem != NULL && inItem->data != NULL && inItem->len != 0);
if (inItem == NULL || inItem->data == NULL || inItem->len == 0) {
PORT_SetError (SEC_ERROR_INVALID_ARGS);
return NULL;
}
max_out_len = PL_Base64MaxEncodedLength (inItem->len, 64);
if (arenaOpt != NULL)
mark = PORT_ArenaMark (arenaOpt);
if (out_string == NULL) {
if (arenaOpt != NULL)
out_string = PORT_ArenaAlloc (arenaOpt, max_out_len + 1);
else
out_string = PORT_Alloc (max_out_len + 1);
if (out_string == NULL) {
if (arenaOpt != NULL)
PORT_ArenaRelease (arenaOpt, mark);
return NULL;
}
} else {
if ((max_out_len + 1) > maxOutLen) {
PORT_SetError (SEC_ERROR_OUTPUT_LEN);
return NULL;
}
max_out_len = maxOutLen;
}
dummy = PL_Base64EncodeBuffer (inItem->data, inItem->len, 64,
out_string, max_out_len, &out_len);
if (dummy == NULL) {
if (arenaOpt != NULL) {
PORT_ArenaRelease (arenaOpt, mark);
} else {
PORT_Free (out_string);
}
return NULL;
}
if (arenaOpt != NULL)
PORT_ArenaUnmark (arenaOpt, mark);
out_string[out_len] = '\0';
return out_string;
}
/*
* XXX Everything below is deprecated. If you add new stuff, put it
* *above*, not below.
*/
/*
* XXX The following "BTOA" functions are provided for backward compatibility
* with current code. They should be considered strongly deprecated.
* When we can convert all our code over to using the new NSSBase64Encoder_
* functions defined above, we should get rid of these altogether. (Remove
* protoypes from base64.h as well -- actually, remove that file completely).
* If someone thinks either of these functions provides such a very useful
* interface (though, as shown, the same functionality can already be
* obtained by calling NSSBase64_EncodeItem directly), fine -- but then
* that API should be provided with a nice new NSSFoo name and using
* appropriate types, etc.
*/
#include "base64.h"
/*
** Return an PORT_Alloc'd ascii string which is the base64 encoded
** version of the input string.
*/
char *
BTOA_DataToAscii(const unsigned char *data, unsigned int len)
{
SECItem binary_item;
binary_item.data = (unsigned char *)data;
binary_item.len = len;
return NSSBase64_EncodeItem (NULL, NULL, 0, &binary_item);
}
/*
** Convert from binary encoding of an item to ascii.
*/
char *
BTOA_ConvertItemToAscii (SECItem *binary_item)
{
return NSSBase64_EncodeItem (NULL, NULL, 0, binary_item);
}