kolibrios/contrib/media/updf/fitz/filt_basic.c

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#include "fitz.h"
/* Pretend we have a filter that just copies data forever */
fz_stream *
fz_open_copy(fz_stream *chain)
{
return fz_keep_stream(chain);
}
/* Null filter copies a specified amount of data */
struct null_filter
{
fz_stream *chain;
int remain;
};
static int
read_null(fz_stream *stm, unsigned char *buf, int len)
{
struct null_filter *state = stm->state;
int amount = MIN(len, state->remain);
int n = fz_read(state->chain, buf, amount);
if (n < 0)
return fz_rethrow(n, "read error in null filter");
state->remain -= n;
return n;
}
static void
close_null(fz_stream *stm)
{
struct null_filter *state = stm->state;
fz_close(state->chain);
fz_free(state);
}
fz_stream *
fz_open_null(fz_stream *chain, int len)
{
struct null_filter *state;
state = fz_malloc(sizeof(struct null_filter));
state->chain = chain;
state->remain = len;
return fz_new_stream(state, read_null, close_null);
}
/* ASCII Hex Decode */
typedef struct fz_ahxd_s fz_ahxd;
struct fz_ahxd_s
{
fz_stream *chain;
int eod;
};
static inline int iswhite(int a)
{
switch (a) {
case '\n': case '\r': case '\t': case ' ':
case '\0': case '\f': case '\b': case 0177:
return 1;
}
return 0;
}
static inline int ishex(int a)
{
return (a >= 'A' && a <= 'F') ||
(a >= 'a' && a <= 'f') ||
(a >= '0' && a <= '9');
}
static inline int unhex(int a)
{
if (a >= 'A' && a <= 'F') return a - 'A' + 0xA;
if (a >= 'a' && a <= 'f') return a - 'a' + 0xA;
if (a >= '0' && a <= '9') return a - '0';
return 0;
}
static int
read_ahxd(fz_stream *stm, unsigned char *buf, int len)
{
fz_ahxd *state = stm->state;
unsigned char *p = buf;
unsigned char *ep = buf + len;
int a, b, c, odd;
odd = 0;
while (p < ep)
{
if (state->eod)
return p - buf;
c = fz_read_byte(state->chain);
if (c < 0)
return p - buf;
if (ishex(c))
{
if (!odd)
{
a = unhex(c);
odd = 1;
}
else
{
b = unhex(c);
*p++ = (a << 4) | b;
odd = 0;
}
}
else if (c == '>')
{
if (odd)
*p++ = (a << 4);
state->eod = 1;
}
else if (!iswhite(c))
{
return fz_throw("bad data in ahxd: '%c'", c);
}
}
return p - buf;
}
static void
close_ahxd(fz_stream *stm)
{
fz_ahxd *state = stm->state;
fz_close(state->chain);
fz_free(state);
}
fz_stream *
fz_open_ahxd(fz_stream *chain)
{
fz_ahxd *state;
state = fz_malloc(sizeof(fz_ahxd));
state->chain = chain;
state->eod = 0;
return fz_new_stream(state, read_ahxd, close_ahxd);
}
/* ASCII 85 Decode */
typedef struct fz_a85d_s fz_a85d;
struct fz_a85d_s
{
fz_stream *chain;
unsigned char bp[4];
unsigned char *rp, *wp;
int eod;
};
static int
read_a85d(fz_stream *stm, unsigned char *buf, int len)
{
fz_a85d *state = stm->state;
unsigned char *p = buf;
unsigned char *ep = buf + len;
int count = 0;
int word = 0;
int c;
while (state->rp < state->wp && p < ep)
*p++ = *state->rp++;
while (p < ep)
{
if (state->eod)
return p - buf;
c = fz_read_byte(state->chain);
if (c < 0)
return p - buf;
if (c >= '!' && c <= 'u')
{
if (count == 4)
{
word = word * 85 + (c - '!');
state->bp[0] = (word >> 24) & 0xff;
state->bp[1] = (word >> 16) & 0xff;
state->bp[2] = (word >> 8) & 0xff;
state->bp[3] = (word) & 0xff;
state->rp = state->bp;
state->wp = state->bp + 4;
word = 0;
count = 0;
}
else
{
word = word * 85 + (c - '!');
count ++;
}
}
else if (c == 'z' && count == 0)
{
state->bp[0] = 0;
state->bp[1] = 0;
state->bp[2] = 0;
state->bp[3] = 0;
state->rp = state->bp;
state->wp = state->bp + 4;
}
else if (c == '~')
{
c = fz_read_byte(state->chain);
if (c != '>')
fz_warn("bad eod marker in a85d");
switch (count) {
case 0:
break;
case 1:
return fz_throw("partial final byte in a85d");
case 2:
word = word * (85 * 85 * 85) + 0xffffff;
state->bp[0] = word >> 24;
state->rp = state->bp;
state->wp = state->bp + 1;
break;
case 3:
word = word * (85 * 85) + 0xffff;
state->bp[0] = word >> 24;
state->bp[1] = word >> 16;
state->rp = state->bp;
state->wp = state->bp + 2;
break;
case 4:
word = word * 85 + 0xff;
state->bp[0] = word >> 24;
state->bp[1] = word >> 16;
state->bp[2] = word >> 8;
state->rp = state->bp;
state->wp = state->bp + 3;
break;
}
state->eod = 1;
}
else if (!iswhite(c))
{
return fz_throw("bad data in a85d: '%c'", c);
}
while (state->rp < state->wp && p < ep)
*p++ = *state->rp++;
}
return p - buf;
}
static void
close_a85d(fz_stream *stm)
{
fz_a85d *state = stm->state;
fz_close(state->chain);
fz_free(state);
}
fz_stream *
fz_open_a85d(fz_stream *chain)
{
fz_a85d *state;
state = fz_malloc(sizeof(fz_a85d));
state->chain = chain;
state->rp = state->bp;
state->wp = state->bp;
state->eod = 0;
return fz_new_stream(state, read_a85d, close_a85d);
}
/* Run Length Decode */
typedef struct fz_rld_s fz_rld;
struct fz_rld_s
{
fz_stream *chain;
int run, n, c;
};
static int
read_rld(fz_stream *stm, unsigned char *buf, int len)
{
fz_rld *state = stm->state;
unsigned char *p = buf;
unsigned char *ep = buf + len;
while (p < ep)
{
if (state->run == 128)
return p - buf;
if (state->n == 0)
{
state->run = fz_read_byte(state->chain);
if (state->run < 0)
state->run = 128;
if (state->run < 128)
state->n = state->run + 1;
if (state->run > 128)
{
state->n = 257 - state->run;
state->c = fz_read_byte(state->chain);
if (state->c < 0)
return fz_throw("premature end of data in run length decode");
}
}
if (state->run < 128)
{
while (p < ep && state->n)
{
int c = fz_read_byte(state->chain);
if (c < 0)
return fz_throw("premature end of data in run length decode");
*p++ = c;
state->n--;
}
}
if (state->run > 128)
{
while (p < ep && state->n)
{
*p++ = state->c;
state->n--;
}
}
}
return p - buf;
}
static void
close_rld(fz_stream *stm)
{
fz_rld *state = stm->state;
fz_close(state->chain);
fz_free(state);
}
fz_stream *
fz_open_rld(fz_stream *chain)
{
fz_rld *state;
state = fz_malloc(sizeof(fz_rld));
state->chain = chain;
state->run = 0;
state->n = 0;
state->c = 0;
return fz_new_stream(state, read_rld, close_rld);
}
/* RC4 Filter */
typedef struct fz_arc4c_s fz_arc4c;
struct fz_arc4c_s
{
fz_stream *chain;
fz_arc4 arc4;
};
static int
read_arc4(fz_stream *stm, unsigned char *buf, int len)
{
fz_arc4c *state = stm->state;
int n;
n = fz_read(state->chain, buf, len);
if (n < 0)
return fz_rethrow(n, "read error in arc4 filter");
fz_arc4_encrypt(&state->arc4, buf, buf, n);
return n;
}
static void
close_arc4(fz_stream *stm)
{
fz_arc4c *state = stm->state;
fz_close(state->chain);
fz_free(state);
}
fz_stream *
fz_open_arc4(fz_stream *chain, unsigned char *key, unsigned keylen)
{
fz_arc4c *state;
state = fz_malloc(sizeof(fz_arc4c));
state->chain = chain;
fz_arc4_init(&state->arc4, key, keylen);
return fz_new_stream(state, read_arc4, close_arc4);
}
/* AES Filter */
typedef struct fz_aesd_s fz_aesd;
struct fz_aesd_s
{
fz_stream *chain;
fz_aes aes;
unsigned char iv[16];
int ivcount;
unsigned char bp[16];
unsigned char *rp, *wp;
};
static int
read_aesd(fz_stream *stm, unsigned char *buf, int len)
{
fz_aesd *state = stm->state;
unsigned char *p = buf;
unsigned char *ep = buf + len;
while (state->ivcount < 16)
{
int c = fz_read_byte(state->chain);
if (c < 0)
return fz_throw("premature end in aes filter");
state->iv[state->ivcount++] = c;
}
while (state->rp < state->wp && p < ep)
*p++ = *state->rp++;
while (p < ep)
{
int n = fz_read(state->chain, state->bp, 16);
if (n < 0)
return fz_rethrow(n, "read error in aes filter");
else if (n == 0)
return p - buf;
else if (n < 16)
return fz_throw("partial block in aes filter");
aes_crypt_cbc(&state->aes, AES_DECRYPT, 16, state->iv, state->bp, state->bp);
state->rp = state->bp;
state->wp = state->bp + 16;
/* strip padding at end of file */
if (fz_is_eof(state->chain))
{
int pad = state->bp[15];
if (pad < 1 || pad > 16)
return fz_throw("aes padding out of range: %d", pad);
state->wp -= pad;
}
while (state->rp < state->wp && p < ep)
*p++ = *state->rp++;
}
return p - buf;
}
static void
close_aesd(fz_stream *stm)
{
fz_aesd *state = stm->state;
fz_close(state->chain);
fz_free(state);
}
fz_stream *
fz_open_aesd(fz_stream *chain, unsigned char *key, unsigned keylen)
{
fz_aesd *state;
state = fz_malloc(sizeof(fz_aesd));
state->chain = chain;
aes_setkey_dec(&state->aes, key, keylen * 8);
state->ivcount = 0;
state->rp = state->bp;
state->wp = state->bp;
return fz_new_stream(state, read_aesd, close_aesd);
}