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basex.h
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basex.h
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/*
* $Id$
*
* convert/decode to/from ascii using various bases
*
* Copyright (C) 2008 iptelorg GmbH
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
/*!
* \file
* \brief SIP-router core :: convert/decode to/from ascii using various bases
*
* \ingroup core
*
* Module: \ref core
*
*
* Functions:
* - base16_enc(src, src_len, dst, dst_len) : encode to standard hex
* - base16_dec(src, src_len, dst, dst_len) : decode from standard hex
* - base16_enc_len(len) : length needed to encode len bytes (macro)
* - base16_max_dec_len(len) : length needed to decode a string of size len
*
* - base64_enc(src, src_len, dst, dst_len) : encode to base64, standard alphabet
* - base64_dec(src, src_len, dst, dst_len) : decode from base64, standard alphabet
* - base64_enc_len(len) : length needed to encode len bytes (macro)
* - base64_max_dec_len(len) : maximum length needed to decode len bytes (macro)
* - base64_dec_len(str, len) : size of the decoded str
* - q_base64_enc(src, src_len, dst, dst_len) : encode to special base64 alphabet (non standard)
* - q_base64_dec(src, src_len, dst, dst_len) - decode from special non-standard base64 alphabet
*
* All the above functions return the size used (in dst) on success and
* 0 or a negative number (which is -1*size_needed) on error.
*
* There are close to no checks for validity, an unexpected char will lead
* to a corrupted result, but the functions won't return error.
*
* Notes:
* on a core2 duo the versions with lookup tables are way faster (see
* http://www.experts-exchange.com/Programming/Languages/CPP/Q_21988706.html
* for some interesting tests and ideeas).
*
* Test results for 40 bytes (typical ser nounce) in average cpu cycles:
\verbatim
* lookup lookup_large lookup8k no-lookup
* base16_enc 211/231 218/199 - 1331
* base16_dec 252/251 236 - 1226
* base64_enc 209 186 156 1005
* base64_dec 208 207 207 1242
* q_base64_enc - 288
* q_base64_dec - 281
* (see test/basex.txt for more results)
\endverbatim
*
* Defines:
* - BASE64_LOOKUP_TABLE/NO_BASE64_LOOKUP_TABLE : use (default)/don't use
* small lookup tables for conversions (faster in general).
* - BASE64_LOOKUP_LARGE : use large lookup tables (2560 bytes for
* encoding and 256 bytes for decoding; without it 64 bytes are used for
* encoding and 85 bytes for decoding.
* - BASE64_LOOKUP_8K : use even larger lookup tables (8K for encoding and
* 256 for decoding); also try to write 2 bytes at a time (short) if
* the destination is 2 byte aligned
*
* - BASE16_LOOKUP_TABLE/NO_BASE16_LOOKUP_TABLE : use (default)/don't use
* small lookup tables for conversions (faster in general).
* - BASE16_LOOKUP_LARGE : use large lookup tables (512 bytes for
* encoding and 256 bytes for decoding
* - BASE16_READ_WHOLE_INTS : read an int at a time
*
* History:
* --------
* 2008-06-11 created by andrei
*/
#ifndef _basex_h
#define _basex_h
#include "compiler_opt.h"
/* defaults */
#ifndef NO_BASE16_LOOKUP_TABLE
#define BASE16_LOOKUP_TABLE
#endif
#ifndef NO_BASE64_LOOKUP_TABLE
#define BASE64_LOOKUP_TABLE
#endif
#ifndef NO_BASE64_LOOKUP_8K
#define BASE64_LOOKUP_8K
#endif
#ifndef NO_BASE16_LOOKUP_LARGE
#define BASE16_LOOKUP_LARGE
#endif
#if !defined NO_BASE64_LOOKUP_LARGE && !defined BASE64_LOOKUP_8K
#define BASE64_LOOKUP_LARGE
#endif
#if defined BASE16_READ_WHOLE_INTS || defined BASE64_READ_WHOLE_INTS || \
defined BASE64_LOOKUP_8K
#include "endianness.h"
/*! \brief aligns p to a type* pointer, type must have a 2^k size */
#define ALIGN_POINTER(p, type) \
((type*) ((long)((char*)(p)+sizeof(type)-1)&~(long)(sizeof(type)-1)))
#define ALIGN_UINT_POINTER(p) ALIGN_POINTER(p, unsigned int)
#endif
#ifdef BASE16_LOOKUP_TABLE
#ifdef BASE16_LOOKUP_LARGE
/*! \brief use large tables: 512 for lookup and 256 for decode */
extern unsigned char _bx_hexdig_hi[256];
extern unsigned char _bx_hexdig_low[256];
/*! \brief returns the first 4 bits of c converted to a hex digit */
#define HEX_HI(h) _bx_hexdig_hi[(unsigned char)(h)]
/*! \brief returns the low 4 bits of converted to a hex digit */
#define HEX_LOW(h) _bx_hexdig_low[(unsigned char)(h)]
extern unsigned char _bx_unhexdig256[256];
/*! \brief converts hex_digit to a number (0..15); it might
* \return 0xff for invalid digit (but with some compile
* option it won't check)
*/
#define UNHEX(h) _bx_unhexdig256[(h)]
#else /* BASE16_LOOKUP_LARGE */
/*! \brief use small tabes: 16 bytes for lookup and 32 for decode */
extern unsigned char _bx_hexdig[16+1];
#define HEX_4BITS(h) _bx_hexdig[(h)]
#define HEX_HI(h) HEX_4BITS(((unsigned char)(h))>>4)
#define HEX_LOW(h) HEX_4BITS((h)&0xf)
extern unsigned char _bx_unhexdig32[32];
#define UNHEX(h) _bx_unhexdig32[(((h))-'0')&0x1f]
#endif /* BASE16_LOOKUP_LARGE */
#else /* BASE16_LOOKUP_TABLE */
/* no lookup tables */
#if 0
#define HEX_4BITS(h) (unsigned char)((unlikely((h)>=10))?((h)-10+'A'):(h)+'0')
#define UNHEX(c) (unsigned char)((unlikely((c)>='A'))?(c)-'A'+10:(c)-'0')
#else
#define HEX_4BITS(hc) (unsigned char)( ((((hc)>=10)-1)&((hc)+'0')) | \
((((hc)<10)-1)&((hc)+'A')) )
#define UNHEX(c) (unsigned char) ( ((((c)>'9')-1)& ((c)-'0')) | \
((((c)<='9')-1)&((c)-'A')) )
#endif
#define HEX_HI(h) HEX_4BITS(((unsigned char)(h))>>4)
#define HEX_LOW(h) HEX_4BITS((h)&0xf)
#endif /* BASE16_LOOKUP_TABLE */
#ifdef BASE64_LOOKUP_TABLE
#ifdef BASE64_LOOKUP_LARGE
/* large lookup tables, 2.5 k */
extern unsigned char _bx_b64_first[256];
extern unsigned char _bx_b64_second[4][256];
extern unsigned char _bx_b64_third[4][256];
extern unsigned char _bx_b64_fourth[256];
#define BASE64_1(a) _bx_b64_first[(a)]
#define BASE64_2(a,b) _bx_b64_second[(a)&0x3][(b)]
#define BASE64_3(b,c) _bx_b64_third[(c)>>6][(b)]
#define BASE64_4(c) _bx_b64_fourth[(c)]
extern unsigned char _bx_ub64[256];
#define UNBASE64(v) _bx_ub64[(v)]
#elif defined BASE64_LOOKUP_8K
/* even larger encode tables: 8k */
extern unsigned short _bx_b64_12[4096];
/* return a word (16 bits) */
#define BASE64_12(a,b) _bx_b64_12[((a)<<4)|((b)>>4)]
#define BASE64_34(b,c) _bx_b64_12[(((b)&0xf)<<8)|(c)]
#ifdef __IS_LITTLE_ENDIAN
#define FIRST_8B(s) ((unsigned char)(s))
#define LAST_8B(s) ((s)>>8)
#elif defined __IS_BIG_ENDIAN
#define FIRST_8B(s) ((s)>>8)
#define LAST_8B(s) ((unsigned char)(s))
#else
#error neither __IS_LITTLE_ENDIAN nor __IS_BIG_ENDIAN are defined
#endif
extern unsigned char _bx_ub64[256];
#define UNBASE64(v) _bx_ub64[(v)]
#else /* BASE64_LOOKUP_LARGE */
/* small lookup tables */
extern unsigned char _bx_b64[64+1];
#define BASE64_DIG(v) _bx_b64[(v)]
#define BASE64_1(a) BASE64_DIG((a)>>2)
#define BASE64_2(a, b) BASE64_DIG( (((a)<<4)&0x3f) | ((b)>>4))
#define BASE64_3(b, c) BASE64_DIG( (((b)<<2)&0x3f) | ((c)>>6))
#define BASE64_4(c) BASE64_DIG((c)&0x3f)
extern unsigned char _bx_ub64[0x54+1];
#define UNBASE64(v) _bx_ub64[(((v)&0x7f)-0x2b)]
#endif /* BASE64_LOOKUP_LARGE */
#else /* BASE64_LOOKUP_TABLE */
#define BASE64_DIG(v) base64_enc_char(v)
#define BASE64_1(a) BASE64_DIG((a)>>2)
#define BASE64_2(a, b) BASE64_DIG( (((a)<<4)&0x3f) | ((b)>>4))
#define BASE64_3(b, c) BASE64_DIG( (((b)<<2)&0x3f) | ((c)>>6))
#define BASE64_4(c) BASE64_DIG((c)&0x3f)
#define UNBASE64(v) base64_dec_char(v)
#endif /* BASE64_LOOKUP_TABLE */
/*! \brief lenght needed for encoding l bytes */
#define base16_enc_len(l) (l*2)
/*! \brief maximum lenght needed for decoding l bytes */
#define base16_max_dec_len(l) (l/2)
/*! \brief actual space needed for decoding a string b of size l */
#define base16_dec_len(b, l) base16_max_dec_len(l)
/*! \brief minimum valid source len for decoding */
#define base16_dec_min_len() 2
/*! \brief minimum valid source len for encoding */
#define base16_enc_min_len() 0
/*! \brief space needed for encoding l bytes */
#define base64_enc_len(l) (((l)+2)/3*4)
/*! \brief maximum space needed for encoding l bytes */
#define base64_max_dec_len(l) ((l)/4*3)
/*! \brief actual space needed for decoding a string b of size l, l>=4 */
#define base64_dec_len(b, l) \
(base64_max_dec_len(l)-((b)[(l)-2]=='=') -((b)[(l)-1]=='='))
/*! \brief minimum valid source len for decoding */
#define base64_dec_min_len() 4
/*! \brief minimum valid source len for encoding */
#define base64_enc_min_len() 0
#ifdef BASE16_READ_WHOLE_INTS
/*!
* \params:
* \return: size used from the output buffer (dst) on success,
* -size_needed on error
*
* WARNING: the output string is not 0-term
*/
inline static int base16_enc(unsigned char* src, int slen, unsigned char* dst, int dlen)
{
unsigned int* p;
unsigned char* end;
int osize;
unsigned short us;
osize=2*slen;
if (unlikely(dlen<osize))
return -osize;
end=src+slen;
p=ALIGN_UINT_POINTER(src);
if (likely((unsigned char*)p<end)){
switch((unsigned char)((unsigned char*)p-src)){
case 3:
*dst=HEX_HI(*src);
*(dst+1)=HEX_LOW(*src);
dst+=2;
src++;
/* no break */
case 2:
us=*(unsigned short*)(src);
#if defined __IS_LITTLE_ENDIAN
*(dst+0)=HEX_HI(us);
*(dst+1)=HEX_LOW(us);
*(dst+2)=HEX_HI(us>>8);
*(dst+3)=HEX_LOW(us>>8);
#elif defined __IS_BIG_ENDIAN
*(dst+2)=HEX_HI(us);
*(dst+3)=HEX_LOW(us);
*(dst+0)=HEX_HI(us>>8);
*(dst+1)=HEX_LOW(us>>8);
#endif
dst+=4;
/* no need to inc src */
break;
case 1:
*dst=HEX_HI(*src);
*(dst+1)=HEX_LOW(*src);
dst+=2;
/* no need to inc src */
case 0:
break;
}
for(;(unsigned char*)p<=(end-4);p++,dst+=8){
#if defined __IS_LITTLE_ENDIAN
*(dst+0)=HEX_HI(*p);
*(dst+1)=HEX_LOW(*p);
*(dst+2)=HEX_HI(((*p)>>8));
*(dst+3)=HEX_LOW(((*p)>>8));
*(dst+4)=HEX_HI(((*p)>>16));
*(dst+5)=HEX_LOW(((*p)>>16));
*(dst+6)=HEX_HI(((*p)>>24));
*(dst+7)=HEX_LOW(((*p)>>24));
#elif defined __IS_BIG_ENDIAN
*(dst+6)=HEX_HI(*p);
*(dst+7)=HEX_LOW(*p);
*(dst+4)=HEX_HI(((*p)>>8));
*(dst+5)=HEX_LOW(((*p)>>8));
*(dst+2)=HEX_HI(((*p)>>16));
*(dst+3)=HEX_LOW(((*p)>>16));
*(dst+0)=HEX_HI(((*p)>>24));
*(dst+1)=HEX_LOW(((*p)>>24));
#else
#error neither BIG ro LITTLE endian defined
#endif /* __IS_*_ENDIAN */
}
src=(unsigned char*)p;
/* src is 2-bytes aligned (short) */
switch((unsigned char)((unsigned char*)end-src)){
case 3:
case 2:
us=*(unsigned short*)(src);
#if defined __IS_LITTLE_ENDIAN
*(dst+0)=HEX_HI(us);
*(dst+1)=HEX_LOW(us);
*(dst+2)=HEX_HI(us>>8);
*(dst+3)=HEX_LOW(us>>8);
#elif defined __IS_BIG_ENDIAN
*(dst+2)=HEX_HI(us);
*(dst+3)=HEX_LOW(us);
*(dst+0)=HEX_HI(us>>8);
*(dst+1)=HEX_LOW(us>>8);
#endif
if ((end-src)==3){
*(dst+4)=HEX_HI(*(src+2));
*(dst+5)=HEX_LOW(*(src+2));
}
/* no need to inc anything */
break;
case 1:
*dst=HEX_HI(*src);
*(dst+1)=HEX_LOW(*src);
/* no need to inc anything */
case 0:
break;
}
}else if (unlikely((long)src&1)){
/* src is not 2-bytes (short) aligned */
switch((unsigned char)((unsigned char*)end-src)){
case 3:
*dst=HEX_HI(*src);
*(dst+1)=HEX_LOW(*src);
dst+=2;
src++;
/* no break */
case 2:
us=*(unsigned short*)(src);
#if defined __IS_LITTLE_ENDIAN
*(dst+0)=HEX_HI(us);
*(dst+1)=HEX_LOW(us);
*(dst+2)=HEX_HI(us>>8);
*(dst+3)=HEX_LOW(us>>8);
#elif defined __IS_BIG_ENDIAN
*(dst+2)=HEX_HI(us);
*(dst+3)=HEX_LOW(us);
*(dst+0)=HEX_HI(us>>8);
*(dst+1)=HEX_LOW(us>>8);
#endif
/* no need to inc anything */
break;
case 1:
*dst=HEX_HI(*src);
*(dst+1)=HEX_LOW(*src);
/* no need to inc anything */
case 0:
break;
}
}else{
/* src is 2-bytes aligned (short) */
switch((unsigned char)((unsigned char*)end-src)){
case 3:
case 2:
us=*(unsigned short*)(src);
#if defined __IS_LITTLE_ENDIAN
*(dst+0)=HEX_HI(us);
*(dst+1)=HEX_LOW(us);
*(dst+2)=HEX_HI(us>>8);
*(dst+3)=HEX_LOW(us>>8);
#elif defined __IS_BIG_ENDIAN
*(dst+2)=HEX_HI(us);
*(dst+3)=HEX_LOW(us);
*(dst+0)=HEX_HI(us>>8);
*(dst+1)=HEX_LOW(us>>8);
#endif
if ((end-src)==3){
*(dst+4)=HEX_HI(*(src+2));
*(dst+5)=HEX_LOW(*(src+2));
}
/* no need to inc anything */
break;
case 1:
*dst=HEX_HI(*src);
*(dst+1)=HEX_LOW(*src);
/* no need to inc anything */
case 0:
break;
}
}
return osize;
}
#else /* BASE16_READ_WHOLE_INTS */
/*!
* \return : size used from the output buffer (dst) on success,
* -size_needed on error
*
* \note WARNING: the output string is not 0-term
*/
inline static int base16_enc(unsigned char* src, int slen,
unsigned char* dst, int dlen)
{
unsigned char* end;
int osize;
osize=2*slen;
if (unlikely(dlen<osize))
return -osize;
end=src+slen;
for (;src<end; src++,dst+=2){
*dst=HEX_HI(*src);
*(dst+1)=HEX_LOW(*src);
}
return osize;
}
#endif /* BASE16_READ_WHOLE_INTS */
inline static int base16_dec(unsigned char* src, int slen, unsigned char* dst, int dlen)
{
unsigned char* end;
int osize;
osize=slen/2;
if (unlikely(dlen<osize))
return -osize;
end=src+2*osize;
for (; src<end; src+=2, dst++)
*dst=(UNHEX(*src)<<4) | UNHEX(*(src+1));
return osize;
}
/*! \brief helper internal function: encodes v (6 bits value)
* \return char ascii encoding on success and 0xff on error
* (value out of range) */
inline static unsigned char base64_enc_char(unsigned char v)
{
switch(v){
case 0x3f:
return '/';
case 0x3e:
return '+';
default:
if (v<=25)
return v+'A';
else if (v<=51)
return v-26+'a';
else if (v<=61)
return v-52+'0';
}
return 0xff;
}
/*! \brief helper internal function: decodes a base64 "digit",
* \return value on success (0-63) and 0xff on error (invalid)*/
inline static unsigned base64_dec_char(unsigned char v)
{
switch(v){
case '/':
return 0x3f;
case '+':
return 0x3e;
case ':':
case ';':
case '<':
case '=':
case '>':
case '?':
case '@':
case '[':
case '\\':
case ']':
case '^':
case '_':
case '`':
return 0xff;
default:
if ((v)<'0')
return 0xff;
if ((v)<='9')
return (v)-'0'+0x34;
else if ((v)<='Z')
return (v)-'A';
else if ((v) <='z')
return (v)-'a'+0x1a;
}
return 0xff;
}
#ifdef BASE64_LOOKUP_8K
/*!
* \return : size used from the output buffer (dst) on success ((slen+2)/3*4)
* -size_needed on error
*
* \note WARNING: the output string is not 0-term
*/
inline static int base64_enc(unsigned char* src, int slen,
unsigned char* dst, int dlen)
{
unsigned char* end;
int osize;
osize=(slen+2)/3*4;
if (unlikely(dlen<osize))
return -osize;
end=src+slen/3*3;
if (unlikely((long)dst%2)){
for (;src<end; src+=3,dst+=4){
dst[0]=FIRST_8B(BASE64_12(src[0], src[1]));
dst[1]=LAST_8B(BASE64_12(src[0], src[1]));
dst[2]=FIRST_8B(BASE64_34(src[1], src[2]));
dst[3]=LAST_8B(BASE64_34(src[1], src[2]));
}
switch(slen%3){
case 2:
dst[0]=FIRST_8B(BASE64_12(src[0], src[1]));
dst[1]=LAST_8B(BASE64_12(src[0], src[1]));
dst[2]=FIRST_8B(BASE64_34(src[1], 0));
dst[3]='=';
break;
case 1:
dst[0]=FIRST_8B(BASE64_12(src[0], 0));
dst[1]=LAST_8B(BASE64_12(src[0], 0));
dst[2]='=';
dst[3]='=';
break;
}
}else{
for (;src<end; src+=3,dst+=4){
*(unsigned short*)(dst+0)=_bx_b64_12[(src[0]<<4)|(src[1]>>4)];
*(unsigned short*)(dst+2)=_bx_b64_12[((src[1]&0xf)<<8)|src[2]];
}
switch(slen%3){
case 2:
*(unsigned short*)(dst+0)=_bx_b64_12[(src[0]<<4)|(src[1]>>4)];
*(unsigned short*)(dst+2)=_bx_b64_12[((src[1]&0xf)<<8)|0];
dst[3]='=';
break;
case 1:
*(unsigned short*)(dst+0)=_bx_b64_12[(src[0]<<4)|0];
dst[2]='=';
dst[3]='=';
break;
}
}
return osize;
}
#else /*BASE64_LOOKUP_8K*/
/*! \brief Convert to base64
* \return size used from the output buffer (dst) on success ((slen+2)/3*4)
* -size_needed on error
* \note WARNING: the output string is not 0-term
*/
inline static int base64_enc(unsigned char* src, int slen,
unsigned char* dst, int dlen)
{
unsigned char* end;
int osize;
osize=(slen+2)/3*4;
if (unlikely(dlen<osize))
return -osize;
end=src+slen/3*3;
for (;src<end; src+=3,dst+=4){
dst[0]=BASE64_1(src[0]);
dst[1]=BASE64_2(src[0], src[1]);
dst[2]=BASE64_3(src[1], src[2]);
dst[3]=BASE64_4(src[2]);
}
switch(slen%3){
case 2:
dst[0]=BASE64_1(src[0]);
dst[1]=BASE64_2(src[0], src[1]);
dst[2]=BASE64_3(src[1], 0);
dst[3]='=';
break;
case 1:
dst[0]=BASE64_1(src[0]);
dst[1]=BASE64_2(src[0], 0);
dst[2]='=';
dst[3]='=';
break;
}
return osize;
}
#endif /*BASE64_LOOKUP_8K*/
/*! \brief
* \return size used from the output buffer (dst) on success (max: slen/4*3)
* -size_needed on error or 0 on bad base64 encoded string
* \note WARNING: the output string is not 0-term
*/
inline static int base64_dec(unsigned char* src, int slen,
unsigned char* dst, int dlen)
{
unsigned char* end;
int osize;
register unsigned a, b, c, d; /* more registers used, but allows for
paralles execution */
if (unlikely((slen<4) || (slen%4) ||
(src[slen-2]=='=' && src[slen-1]!='=')))
return 0; /* invalid base64 enc. */
osize=(slen/4*3)-(src[slen-2]=='=')-(src[slen-1]=='=');
if (unlikely(dlen<osize))
return -osize;
end=src+slen-4;
for (;src<end; src+=4,dst+=3){
#if 0
u= (UNBASE64(src[0])<<18) | (UNBASE64(src[1])<<12) |
(UNBASE64(src[2])<<6) | UNBASE64(src[3]);
dst[0]=u>>16;
dst[1]=u>>8;
dst[3]=u;
#endif
a=UNBASE64(src[0]);
b=UNBASE64(src[1]);
c=UNBASE64(src[2]);
d=UNBASE64(src[3]);
dst[0]=(a<<2) | (b>>4);
dst[1]=(b<<4) | (c>>2);
dst[2]=(c<<6) | d;
}
switch(osize%3){
case 0: /* no '=' => 3 output bytes at the end */
a=UNBASE64(src[0]);
b=UNBASE64(src[1]);
c=UNBASE64(src[2]);
d=UNBASE64(src[3]);
dst[0]=(a<<2) | (b>>4);
dst[1]=(b<<4) | (c>>2);
dst[2]=(c<<6) | d;
break;
case 2: /* 1 '=' => 2 output bytes at the end */
a=UNBASE64(src[0]);
b=UNBASE64(src[1]);
c=UNBASE64(src[2]);
dst[0]=(a<<2) | (b>>4);
dst[1]=(b<<4) | (c>>2);
break;
case 1: /* 2 '=' => 1 output byte at the end */
a=UNBASE64(src[0]);
b=UNBASE64(src[1]);
dst[0]=(a<<2) | (b>>4);
break;
}
return osize;
}
/*! \brief
* same as \ref base64_enc() but with a different alphabet, that allows simpler and
* faster enc/dec
* \return size used from the output buffer (dst) on success ((slen+2)/3*4)
* -size_needed on error
* \note WARNING: the alphabet includes ":;<>?@[]\`", so it might not be suited
* in all cases (e.g. encoding something in a sip uri).
*/
inline static int q_base64_enc(unsigned char* src, int slen,
unsigned char* dst, int dlen)
{
#define q_b64_base '0'
#define q_b64_pad 'z'
#define Q_BASE64(v) (unsigned char)((v)+q_b64_base)
unsigned char* end;
int osize;
osize=(slen+2)/3*4;
if (unlikely(dlen<osize))
return -osize;
end=src+slen/3*3;
for (;src<end; src+=3,dst+=4){
dst[0]=Q_BASE64(src[0]>>2);
dst[1]=(Q_BASE64((src[0]<<4)&0x3f) | (src[1]>>4));
dst[2]=(Q_BASE64((src[1]<<2)&0x3f) | (src[2]>>6) );
dst[3]=Q_BASE64(src[2]&0x3f);
}
switch(slen%3){
case 2:
dst[0]=Q_BASE64(src[0]>>2);
dst[1]=(Q_BASE64((src[0]<<4)&0x3f) | (src[1]>>4));
dst[2]=Q_BASE64((src[1]<<2)&0x3f);
dst[3]=q_b64_pad;
break;
case 1:
dst[0]=Q_BASE64(src[0]>>2);
dst[1]=Q_BASE64((src[0]<<4)&0x3f);
dst[2]=q_b64_pad;
dst[3]=q_b64_pad;
break;
}
return osize;
#undef Q_BASE64
}
/*! \brief
* same as \ref base64_enc() but with a different alphabet, that allows simpler and
* faster enc/dec
*
* \return size used from the output buffer (dst) on success (max: slen/4*3)
* -size_needed on error or 0 on bad base64 encoded string
* \note WARNING: the output string is not 0-term
*/
inline static int q_base64_dec(unsigned char* src, int slen,
unsigned char* dst, int dlen)
{
#define Q_UNBASE64(v) (unsigned char)((v)-q_b64_base)
unsigned char* end;
int osize;
#ifdef SINGLE_REG
register unsigned u;
#else
register unsigned a, b, c, d; /* more registers used, but allows for
paralles execution */
#endif
if (unlikely((slen<4) || (slen%4) ||
(src[slen-2]==q_b64_pad && src[slen-1]!=q_b64_pad)))
return 0; /* invalid base64 enc. */
osize=(slen/4*3)-(src[slen-2]==q_b64_pad)-(src[slen-1]==q_b64_pad);
if (unlikely(dlen<osize))
return -osize;
end=src+slen-4;
for (;src<end; src+=4,dst+=3){
#ifdef SINGLE_REG
u= (Q_UNBASE64(src[0])<<18) | (Q_UNBASE64(src[1])<<12) |
(Q_UNBASE64(src[2])<<6) | Q_UNBASE64(src[3]);
dst[0]=u>>16;
dst[1]=u>>8;
dst[2]=u;
#else
a=Q_UNBASE64(src[0]);
b=Q_UNBASE64(src[1]);
c=Q_UNBASE64(src[2]);
d=Q_UNBASE64(src[3]);
dst[0]=(a<<2) | (b>>4);
dst[1]=(b<<4) | (c>>2);
dst[2]=(c<<6) | d;
#endif
}
switch(osize%3){
case 0: /* no '=' => 3 output bytes at the end */
#ifdef SINGLE_REG
u= (Q_UNBASE64(src[0])<<18) | (Q_UNBASE64(src[1])<<12) |
(Q_UNBASE64(src[2])<<6) | Q_UNBASE64(src[3]);
dst[0]=u>>16;
dst[1]=u>>8;
dst[2]=u;
#else
a=Q_UNBASE64(src[0]);
b=Q_UNBASE64(src[1]);
c=Q_UNBASE64(src[2]);
d=Q_UNBASE64(src[3]);
dst[0]=(a<<2) | (b>>4);
dst[1]=(b<<4) | (c>>2);
dst[2]=(c<<6) | d;
#endif
break;
case 2: /* 1 '=' => 2 output bytes at the end */
#ifdef SINGLE_REG
u= (Q_UNBASE64(src[0])<<12) | (Q_UNBASE64(src[1])<<6) |
(Q_UNBASE64(src[2]));
dst[0]=u>>10;
dst[1]=u>>2;
#else
a=Q_UNBASE64(src[0]);
b=Q_UNBASE64(src[1]);
c=Q_UNBASE64(src[2]);
dst[0]=(a<<2) | (b>>4);
dst[1]=(b<<4) | (c>>2);
#endif
break;
case 1: /* 2 '=' => 1 output byte at the end */
#ifdef SINGLE_REG
dst[0]=(Q_UNBASE64(src[0])<<2) | (Q_UNBASE64(src[1])>>4);
#else
a=Q_UNBASE64(src[0]);
b=Q_UNBASE64(src[1]);
dst[0]=(a<<2) | (b>>4);
#endif
break;
}
return osize;
#undef q_b64_base
#undef q_b64_pad
}
/*! \brief inits internal lookup tables */
int init_basex(void);
#endif /* _basex_h */