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|
/* xdelta 3 - delta compression tools and library
* Copyright (C) 2001, 2003, 2004, 2005, 2006, 2007. Joshua P. MacDonald
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/* This is public-domain Mersenne Twister code,
* attributed to Michael Brundage. Thanks!
* http://www.qbrundage.com/michaelb/pubs/essays/random_number_generation.html
*/
static const uint32_t TEST_SEED1 = 5489UL;
#define MT_LEN 624
#define MT_IA 397
static const uint32_t UPPER_MASK = 0x80000000;
static const uint32_t LOWER_MASK = 0x7FFFFFFF;
static const uint32_t MATRIX_A = 0x9908B0DF;
typedef struct mtrand mtrand;
struct mtrand {
int mt_index_;
uint32_t mt_buffer_[MT_LEN];
};
void mt_init(mtrand *mt, uint32_t seed) {
int i;
mt->mt_buffer_[0] = seed;
mt->mt_index_ = MT_LEN;
for (i = 1; i < MT_LEN; i++) {
/* See Knuth TAOCP Vol2. 3rd Ed. P.106 for multiplier. */
/* In the previous versions, MSBs of the seed affect */
/* only MSBs of the array mt[]. */
/* 2002/01/09 modified by Makoto Matsumoto */
mt->mt_buffer_[i] =
(1812433253UL * (mt->mt_buffer_[i-1] ^ (mt->mt_buffer_[i-1] >> 30)) + i);
}
}
uint32_t mt_random (mtrand *mt) {
uint32_t y;
unsigned long mag01[2];
mag01[0] = 0;
mag01[1] = MATRIX_A;
if (mt->mt_index_ >= MT_LEN) {
int kk;
for (kk = 0; kk < MT_LEN - MT_IA; kk++) {
y = (mt->mt_buffer_[kk] & UPPER_MASK) | (mt->mt_buffer_[kk + 1] & LOWER_MASK);
mt->mt_buffer_[kk] = mt->mt_buffer_[kk + MT_IA] ^ (y >> 1) ^ mag01[y & 0x1UL];
}
for (;kk < MT_LEN - 1; kk++) {
y = (mt->mt_buffer_[kk] & UPPER_MASK) | (mt->mt_buffer_[kk + 1] & LOWER_MASK);
mt->mt_buffer_[kk] = mt->mt_buffer_[kk + (MT_IA - MT_LEN)] ^ (y >> 1) ^ mag01[y & 0x1UL];
}
y = (mt->mt_buffer_[MT_LEN - 1] & UPPER_MASK) | (mt->mt_buffer_[0] & LOWER_MASK);
mt->mt_buffer_[MT_LEN - 1] = mt->mt_buffer_[MT_IA - 1] ^ (y >> 1) ^ mag01[y & 0x1UL];
mt->mt_index_ = 0;
}
y = mt->mt_buffer_[mt->mt_index_++];
y ^= (y >> 11);
y ^= (y << 7) & 0x9d2c5680UL;
y ^= (y << 15) & 0xefc60000UL;
y ^= (y >> 18);
return y;
}
static mtrand static_mtrand;
#include <math.h>
static uint32_t
mt_exp_rand (uint32_t mean, uint32_t max_value)
{
double mean_d = mean;
double erand = log (1.0 / (mt_random (&static_mtrand) /
(double)UINT32_MAX));
uint32_t x = (uint32_t) (mean_d * erand + 0.5);
return min (x, max_value);
}
#ifndef WIN32
#include <sys/wait.h>
#endif
#define MSG_IS(x) (stream->msg != NULL && strcmp ((x), stream->msg) == 0)
static const usize_t TWO_MEGS_AND_DELTA = (2 << 20) + (1 << 10);
static const usize_t ADDR_CACHE_ROUNDS = 10000;
static const usize_t TEST_FILE_MEAN = 16384;
static const double TEST_ADD_MEAN = 128;
static const double TEST_ADD_MAX = 512;
static const double TEST_ADD_RATIO = 0.1;
static const double TEST_EPSILON = 0.25;
#define TESTBUFSIZE (1024 * 16)
#define TESTFILESIZE (1024)
static char TEST_TARGET_FILE[TESTFILESIZE];
static char TEST_SOURCE_FILE[TESTFILESIZE];
static char TEST_DELTA_FILE[TESTFILESIZE];
static char TEST_RECON_FILE[TESTFILESIZE];
static char TEST_RECON2_FILE[TESTFILESIZE];
static char TEST_COPY_FILE[TESTFILESIZE];
static char TEST_NOPERM_FILE[TESTFILESIZE];
#define CHECK(cond) if (!(cond)) { DP(RINT "check failure: " #cond); abort(); }
/* Use a fixed soft config so that test values are fixed. See also
* test_compress_text(). */
static const char* test_softcfg_str = "-C9,3,4,8,2,36,70";
static int test_setup (void);
/***********************************************************************
TEST HELPERS
***********************************************************************/
static void DOT (void) { DP(RINT "."); }
static int do_cmd (xd3_stream *stream, const char *buf)
{
int ret;
if ((ret = system (buf)) != 0)
{
if (WIFEXITED (ret))
{
stream->msg = "command exited non-zero";
IF_DEBUG1 (DP(RINT "command was: %s\n", buf));
}
else
{
stream->msg = "abnormal command termination";
}
return XD3_INTERNAL;
}
return 0;
}
static int do_fail (xd3_stream *stream, const char *buf)
{
int ret;
ret = system (buf);
if (! WIFEXITED (ret) || WEXITSTATUS (ret) != 1)
{
stream->msg = "command should have not succeeded";
DP(RINT "command was %s", buf);
return XD3_INTERNAL;
}
return 0;
}
/* Test that the exponential distribution actually produces its mean. */
static int
test_random_numbers (xd3_stream *stream, int ignore)
{
usize_t i;
usize_t sum = 0;
usize_t mean = 50;
usize_t n_rounds = 1000000;
double average, error;
double allowed_error = 0.1;
mt_init (& static_mtrand, 0x9f73f7fe);
for (i = 0; i < n_rounds; i += 1)
{
sum += mt_exp_rand (mean, USIZE_T_MAX);
}
average = (double) sum / (double) n_rounds;
error = average - (double) mean;
if (error < allowed_error && error > -allowed_error)
{
return 0;
}
/*DP(RINT "error is %f\n", error);*/
stream->msg = "random distribution looks broken";
return XD3_INTERNAL;
}
static void
test_unlink (char* file)
{
char buf[TESTBUFSIZE];
while (unlink (file) != 0)
{
if (errno == ENOENT)
{
break;
}
sprintf (buf, "rm -f %s", file);
system (buf);
}
}
static void
test_cleanup (void)
{
#if 1
test_unlink (TEST_TARGET_FILE);
test_unlink (TEST_SOURCE_FILE);
test_unlink (TEST_DELTA_FILE);
test_unlink (TEST_RECON_FILE);
test_unlink (TEST_RECON2_FILE);
test_unlink (TEST_COPY_FILE);
test_unlink (TEST_NOPERM_FILE);
#endif
}
static int
test_setup (void)
{
static int x = 0;
x++;
sprintf (TEST_TARGET_FILE, "/tmp/xdtest.target.%d", x);
sprintf (TEST_SOURCE_FILE, "/tmp/xdtest.source.%d", x);
sprintf (TEST_DELTA_FILE, "/tmp/xdtest.delta.%d", x);
sprintf (TEST_RECON_FILE, "/tmp/xdtest.recon.%d", x);
sprintf (TEST_RECON2_FILE, "/tmp/xdtest.recon2.%d", x);
sprintf (TEST_COPY_FILE, "/tmp/xdtest.copy.%d", x);
sprintf (TEST_NOPERM_FILE, "/tmp/xdtest.noperm.%d", x);
test_cleanup();
return 0;
}
static int
test_make_inputs (xd3_stream *stream, xoff_t *ss_out, xoff_t *ts_out)
{
usize_t ts = (mt_random (&static_mtrand) % TEST_FILE_MEAN) + TEST_FILE_MEAN / 2;
usize_t ss = (mt_random (&static_mtrand) % TEST_FILE_MEAN) + TEST_FILE_MEAN / 2;
uint8_t *buf = (uint8_t*) malloc (ts + ss), *sbuf = buf, *tbuf = buf + ss;
usize_t sadd = 0, sadd_max = (usize_t)(ss * TEST_ADD_RATIO);
FILE *tf = NULL, *sf = NULL;
usize_t i, j;
int ret;
if (buf == NULL) { return ENOMEM; }
if ((tf = fopen (TEST_TARGET_FILE, "w")) == NULL ||
(ss_out != NULL && (sf = fopen (TEST_SOURCE_FILE, "w")) == NULL))
{
stream->msg = "write failed";
ret = get_errno ();
goto failure;
}
if (ss_out != NULL)
{
for (i = 0; i < ss; )
{
sbuf[i++] = (uint8_t) mt_random (&static_mtrand);
}
}
/* Then modify the data to produce copies, everything not copied is
* an add. The following logic produces the TEST_ADD_RATIO. The
* variable SADD contains the number of adds so far, which should
* not exceed SADD_MAX. */
/* DP(RINT "ss = %u ts = %u\n", ss, ts); */
for (i = 0; i < ts; )
{
usize_t left = ts - i;
usize_t next = mt_exp_rand ((uint32_t) TEST_ADD_MEAN,
(uint32_t) TEST_ADD_MAX);
usize_t add_left = sadd_max - sadd;
double add_prob = (left == 0) ? 0 : (add_left / (double) left);
int do_copy;
next = min (left, next);
do_copy = (next > add_left ||
(mt_random (&static_mtrand) / \
(double)USIZE_T_MAX) >= add_prob);
if (ss_out == NULL)
{
do_copy &= (i > 0);
}
else
{
do_copy &= (ss - next) > 0;
}
if (do_copy)
{
/* Copy */
size_t offset = mt_random (&static_mtrand) % ((ss_out == NULL) ?
i :
(ss - next));
/* DP(RINT "[%u] copy %u at %u ", i, next, offset); */
for (j = 0; j < next; j += 1)
{
char c = ((ss_out == NULL) ? tbuf : sbuf)[offset + j];
/* DP(RINT "%x%x", (c >> 4) & 0xf, c & 0xf); */
tbuf[i++] = c;
}
/* DP(RINT "\n"); */
}
else
{
/* Add */
/* DP(RINT "[%u] add %u ", i, next); */
for (j = 0; j < next; j += 1)
{
char c = (char) mt_random (&static_mtrand);
/* DP(RINT "%x%x", (c >> 4) & 0xf, c & 0xf); */
tbuf[i++] = c;
}
/* DP(RINT "\n"); */
sadd += next;
}
}
/* DP(RINT "sadd = %u max = %u\n", sadd, sadd_max); */
if ((fwrite (tbuf, 1, ts, tf) != ts) ||
(ss_out != NULL && (fwrite (sbuf, 1, ss, sf) != ss)))
{
stream->msg = "write failed";
ret = get_errno ();
goto failure;
}
if ((ret = fclose (tf)) || (ss_out != NULL && (ret = fclose (sf))))
{
stream->msg = "close failed";
ret = get_errno ();
goto failure;
}
if (ts_out) { (*ts_out) = ts; }
if (ss_out) { (*ss_out) = ss; }
failure:
free (buf);
return ret;
}
static int
compare_files (xd3_stream *stream, const char* tgt, const char *rec)
{
FILE *orig, *recons;
static uint8_t obuf[TESTBUFSIZE], rbuf[TESTBUFSIZE];
size_t offset = 0;
size_t i;
size_t oc, rc;
if ((orig = fopen (tgt, "r")) == NULL)
{
DP(RINT "open %s failed", tgt);
stream->msg = "open failed";
return get_errno ();
}
if ((recons = fopen (rec, "r")) == NULL)
{
DP(RINT "open %s failed", rec);
stream->msg = "open failed";
return get_errno ();
}
for (;;)
{
oc = fread (obuf, 1, TESTBUFSIZE, orig);
rc = fread (rbuf, 1, TESTBUFSIZE, recons);
if (oc < 0 || rc < 0)
{
stream->msg = "read failed";
return get_errno ();
}
if (oc != rc)
{
stream->msg = "compare files: different length";
return XD3_INTERNAL;
}
if (oc == 0)
{
break;
}
for (i = 0; i < oc; i += 1)
{
if (obuf[i] != rbuf[i])
{
stream->msg = "compare files: different values";
return XD3_INTERNAL;
}
}
offset += oc;
}
fclose (orig);
fclose (recons);
return 0;
}
static int
test_save_copy (const char *origname)
{
char buf[TESTBUFSIZE];
int ret;
sprintf (buf, "cp -f %s %s", origname, TEST_COPY_FILE);
if ((ret = system (buf)) != 0)
{
return XD3_INTERNAL;
}
return 0;
}
static int
test_file_size (const char* file, xoff_t *size)
{
struct stat sbuf;
int ret;
(*size) = 0;
if (stat (file, & sbuf) < 0)
{
ret = get_errno ();
DP(RINT "xdelta3: stat failed: %s: %s\n", file, strerror (ret));
return ret;
}
if (! S_ISREG (sbuf.st_mode))
{
ret = XD3_INTERNAL;
DP(RINT "xdelta3: not a regular file: %s: %s\n", file, strerror (ret));
return ret;
}
(*size) = sbuf.st_size;
return 0;
}
/***********************************************************************
READ OFFSET
***********************************************************************/
/* Common test for read_integer errors: encodes a 64-bit value and
* then attempts to read as a 32-bit value. If TRUNC is non-zero,
* attempts to get errors by shortening the input, otherwise it should
* overflow. Expects XD3_INTERNAL and MSG. */
static int
test_read_integer_error (xd3_stream *stream, usize_t trunto, const char *msg)
{
uint64_t eval = 1ULL << 34;
uint32_t rval;
xd3_output *buf = NULL;
const uint8_t *max;
const uint8_t *inp;
int ret;
buf = xd3_alloc_output (stream, buf);
if ((ret = xd3_emit_uint64_t (stream, & buf, eval)))
{
goto fail;
}
again:
inp = buf->base;
max = buf->base + buf->next - trunto;
if ((ret = xd3_read_uint32_t (stream, & inp, max, & rval)) != XD3_INVALID_INPUT ||
!MSG_IS (msg))
{
ret = XD3_INTERNAL;
}
else if (trunto && trunto < buf->next)
{
trunto += 1;
goto again;
}
else
{
ret = 0;
}
fail:
xd3_free_output (stream, buf);
return ret;
}
/* Test integer overflow using the above routine. */
static int
test_decode_integer_overflow (xd3_stream *stream, int unused)
{
return test_read_integer_error (stream, 0, "overflow in read_intger");
}
/* Test integer EOI using the above routine. */
static int
test_decode_integer_end_of_input (xd3_stream *stream, int unused)
{
return test_read_integer_error (stream, 1, "end-of-input in read_integer");
}
/* Test that emit_integer/decode_integer/sizeof_integer/read_integer
* work on correct inputs. Tests powers of (2^7), plus or minus, up
* to the maximum value. */
#define TEST_ENCODE_DECODE_INTEGER(TYPE,ONE,MAX) \
xd3_output *rbuf = NULL; \
xd3_output *dbuf = NULL; \
TYPE values[64]; \
usize_t nvalues = 0; \
usize_t i; \
int ret = 0; \
\
for (i = 0; i < (sizeof (TYPE) * 8); i += 7) \
{ \
values[nvalues++] = (ONE << i) - ONE; \
values[nvalues++] = (ONE << i); \
values[nvalues++] = (ONE << i) + ONE; \
} \
\
values[nvalues++] = MAX-ONE; \
values[nvalues++] = MAX; \
\
rbuf = xd3_alloc_output (stream, rbuf); \
dbuf = xd3_alloc_output (stream, dbuf); \
\
for (i = 0; i < nvalues; i += 1) \
{ \
const uint8_t *max; \
const uint8_t *inp; \
TYPE val; \
\
DOT (); \
rbuf->next = 0; \
\
if ((ret = xd3_emit_ ## TYPE (stream, & rbuf, values[i])) || \
(ret = xd3_emit_ ## TYPE (stream, & dbuf, values[i]))) \
{ \
goto fail; \
} \
\
inp = rbuf->base; \
max = rbuf->base + rbuf->next; \
\
if (rbuf->next != xd3_sizeof_ ## TYPE (values[i])) \
{ \
ret = XD3_INTERNAL; \
goto fail; \
} \
\
if ((ret = xd3_read_ ## TYPE (stream, & inp, max, & val))) \
{ \
goto fail; \
} \
\
if (val != values[i]) \
{ \
ret = XD3_INTERNAL; \
goto fail; \
} \
\
DOT (); \
} \
\
stream->next_in = dbuf->base; \
stream->avail_in = dbuf->next; \
\
for (i = 0; i < nvalues; i += 1) \
{ \
TYPE val; \
\
if ((ret = xd3_decode_ ## TYPE (stream, & val))) \
{ \
goto fail; \
} \
\
if (val != values[i]) \
{ \
ret = XD3_INTERNAL; \
goto fail; \
} \
} \
\
if (stream->avail_in != 0) \
{ \
ret = XD3_INTERNAL; \
goto fail; \
} \
\
fail: \
xd3_free_output (stream, rbuf); \
xd3_free_output (stream, dbuf); \
\
return ret
static int
test_encode_decode_uint32_t (xd3_stream *stream, int unused)
{
TEST_ENCODE_DECODE_INTEGER(uint32_t,1U,UINT32_MAX);
}
static int
test_encode_decode_uint64_t (xd3_stream *stream, int unused)
{
TEST_ENCODE_DECODE_INTEGER(uint64_t,1ULL,UINT64_MAX);
}
static int
test_usize_t_overflow (xd3_stream *stream, int unused)
{
if (USIZE_T_OVERFLOW (0, 0)) { goto fail; }
if (USIZE_T_OVERFLOW (USIZE_T_MAX, 0)) { goto fail; }
if (USIZE_T_OVERFLOW (0, USIZE_T_MAX)) { goto fail; }
if (USIZE_T_OVERFLOW (USIZE_T_MAX / 2, 0)) { goto fail; }
if (USIZE_T_OVERFLOW (USIZE_T_MAX / 2, USIZE_T_MAX / 2)) { goto fail; }
if (USIZE_T_OVERFLOW (USIZE_T_MAX / 2, USIZE_T_MAX / 2 + 1)) { goto fail; }
if (! USIZE_T_OVERFLOW (USIZE_T_MAX, 1)) { goto fail; }
if (! USIZE_T_OVERFLOW (1, USIZE_T_MAX)) { goto fail; }
if (! USIZE_T_OVERFLOW (USIZE_T_MAX / 2 + 1, USIZE_T_MAX / 2 + 1)) { goto fail; }
return 0;
fail:
stream->msg = "incorrect overflow computation";
return XD3_INTERNAL;
}
static int
test_forward_match (xd3_stream *stream, int unused)
{
usize_t i;
uint8_t buf1[256], buf2[256];
memset(buf1, 0, 256);
memset(buf2, 0, 256);
for (i = 0; i < 256; i++)
{
CHECK(xd3_forward_match(buf1, buf2, i) == i);
}
for (i = 0; i < 255; i++)
{
buf2[i] = 1;
CHECK(xd3_forward_match(buf1, buf2, 256) == i);
buf2[i] = 0;
}
return 0;
}
/***********************************************************************
Address cache
***********************************************************************/
static int
test_address_cache (xd3_stream *stream, int unused)
{
int ret;
usize_t i;
usize_t offset;
usize_t *addrs;
uint8_t *big_buf, *buf_max;
const uint8_t *buf;
xd3_output *outp;
uint8_t *modes;
int mode_counts[16];
stream->acache.s_near = stream->code_table_desc->near_modes;
stream->acache.s_same = stream->code_table_desc->same_modes;
if ((ret = xd3_encode_init_partial (stream))) { return ret; }
addrs = (usize_t*) xd3_alloc (stream, sizeof (usize_t), ADDR_CACHE_ROUNDS);
modes = (uint8_t*) xd3_alloc (stream, sizeof (uint8_t), ADDR_CACHE_ROUNDS);
memset (mode_counts, 0, sizeof (mode_counts));
memset (modes, 0, ADDR_CACHE_ROUNDS);
addrs[0] = 0;
mt_init (& static_mtrand, 0x9f73f7fc);
/* First pass: encode addresses */
xd3_init_cache (& stream->acache);
for (offset = 1; offset < ADDR_CACHE_ROUNDS; offset += 1)
{
double p;
usize_t addr;
usize_t prev_i;
usize_t nearby;
p = (mt_random (&static_mtrand) / (double)USIZE_T_MAX);
prev_i = mt_random (&static_mtrand) % offset;
nearby = (mt_random (&static_mtrand) % 256) % offset;
nearby = max (1U, nearby);
if (p < 0.1) { addr = addrs[offset-nearby]; }
else if (p < 0.4) { addr = min (addrs[prev_i] + nearby, offset-1); }
else { addr = prev_i; }
if ((ret = xd3_encode_address (stream, addr, offset, & modes[offset]))) { return ret; }
addrs[offset] = addr;
mode_counts[modes[offset]] += 1;
}
/* Copy addresses into a contiguous buffer. */
big_buf = (uint8_t*) xd3_alloc (stream, xd3_sizeof_output (ADDR_HEAD (stream)), 1);
for (offset = 0, outp = ADDR_HEAD (stream); outp != NULL; offset += outp->next, outp = outp->next_page)
{
memcpy (big_buf + offset, outp->base, outp->next);
}
buf_max = big_buf + offset;
buf = big_buf;
/* Second pass: decode addresses */
xd3_init_cache (& stream->acache);
for (offset = 1; offset < ADDR_CACHE_ROUNDS; offset += 1)
{
uint32_t addr;
if ((ret = xd3_decode_address (stream, offset, modes[offset], & buf, buf_max, & addr))) { return ret; }
if (addr != addrs[offset])
{
stream->msg = "incorrect decoded address";
return XD3_INTERNAL;
}
}
/* Check that every byte, mode was used. */
if (buf != buf_max)
{
stream->msg = "address bytes not used";
return XD3_INTERNAL;
}
for (i = 0; i < (2 + stream->acache.s_same + stream->acache.s_near); i += 1)
{
if (mode_counts[i] == 0)
{
stream->msg = "address mode not used";
return XD3_INTERNAL;
}
}
xd3_free (stream, modes);
xd3_free (stream, addrs);
xd3_free (stream, big_buf);
return 0;
}
/***********************************************************************
Encode and decode with single bit error
***********************************************************************/
/* It compresses from 256 to around 185 bytes.
* Avoids matching addresses that are a single-bit difference.
* Avoids matching address 0. */
static const uint8_t test_text[] =
"this is a story\n"
"abouttttttttttt\n"
"- his is a stor\n"
"- about nothing "
" all. boutique -"
"his story is a -"
"about "
"what happens all"
" the time what -"
"am I ttttttt the"
" person said, so"
" what, per son -"
" gory story is -"
" about nothing -"
"tttttt to test -"
"his sto nothing";
static const uint8_t test_apphead[] = "header test";
static int
test_compress_text (xd3_stream *stream,
uint8_t *encoded,
usize_t *encoded_size)
{
int ret;
xd3_config cfg;
int oflags = stream->flags;
int flags = stream->flags | XD3_FLUSH;
xd3_free_stream (stream);
xd3_init_config (& cfg, flags);
/* This configuration is fixed so that the "expected non-error" the counts in
* decompress_single_bit_errors are too. See test_coftcfg_str. */
cfg.smatch_cfg = XD3_SMATCH_SOFT;
cfg.smatcher_soft.name = "test";
cfg.smatcher_soft.large_look = 64; /* no source, not used */
cfg.smatcher_soft.large_step = 64; /* no source, not used */
cfg.smatcher_soft.small_look = 4;
cfg.smatcher_soft.small_chain = 128;
cfg.smatcher_soft.small_lchain = 16;
cfg.smatcher_soft.max_lazy = 8;
cfg.smatcher_soft.long_enough = 128;
xd3_config_stream (stream, & cfg);
(*encoded_size) = 0;
xd3_set_appheader (stream, test_apphead,
(usize_t) strlen ((char*) test_apphead));
if ((ret = xd3_encode_stream (stream, test_text, sizeof (test_text),
encoded, encoded_size, 4*sizeof (test_text)))) { goto fail; }
if ((ret = xd3_close_stream (stream))) { goto fail; }
fail:
xd3_free_stream (stream);
xd3_init_config (& cfg, oflags);
xd3_config_stream (stream, & cfg);
return ret;
}
static int
test_decompress_text (xd3_stream *stream, uint8_t *enc, usize_t enc_size, usize_t test_desize)
{
xd3_config cfg;
char decoded[sizeof (test_text)];
uint8_t *apphead;
usize_t apphead_size;
usize_t decoded_size;
const char *msg;
int ret;
usize_t pos = 0;
int flags = stream->flags;
usize_t take;
input:
/* Test decoding test_desize input bytes at a time */
take = min (enc_size - pos, test_desize);
CHECK(take > 0);
xd3_avail_input (stream, enc + pos, take);
again:
ret = xd3_decode_input (stream);
pos += take;
take = 0;
switch (ret)
{
case XD3_OUTPUT:
break;
case XD3_WINSTART:
case XD3_GOTHEADER:
goto again;
case XD3_INPUT:
if (pos < enc_size) { goto input; }
/* else fallthrough */
case XD3_WINFINISH:
default:
goto fail;
}
CHECK(ret == XD3_OUTPUT);
CHECK(pos == enc_size);
if (stream->avail_out != sizeof (test_text))
{
stream->msg = "incorrect output size";
ret = XD3_INTERNAL;
goto fail;
}
decoded_size = stream->avail_out;
memcpy (decoded, stream->next_out, stream->avail_out);
xd3_consume_output (stream);
if ((ret = xd3_get_appheader (stream, & apphead, & apphead_size))) { goto fail; }
if (apphead_size != strlen ((char*) test_apphead) ||
memcmp (apphead, test_apphead, strlen ((char*) test_apphead)) != 0)
{
stream->msg = "incorrect appheader";
ret = XD3_INTERNAL;
goto fail;
}
if ((ret = xd3_decode_input (stream)) != XD3_WINFINISH ||
(ret = xd3_close_stream (stream)) != 0)
{
goto fail;
}
if (decoded_size != sizeof (test_text) ||
memcmp (decoded, test_text, sizeof (test_text)) != 0)
{
stream->msg = "incorrect output text";
ret = EIO;
}
fail:
msg = stream->msg;
xd3_free_stream (stream);
xd3_init_config (& cfg, flags);
xd3_config_stream (stream, & cfg);
stream->msg = msg;
return ret;
}
static int
test_decompress_single_bit_error (xd3_stream *stream, int expected_non_failures)
{
int ret;
usize_t i;
uint8_t encoded[4*sizeof (test_text)]; /* make room for alt code table */
usize_t encoded_size;
int non_failures = 0;
int cksum = (stream->flags & XD3_ADLER32) != 0;
//#define DEBUG_TEST_FAILURES
#ifndef DEBUG_TEST_FAILURES
#define TEST_FAILURES()
#else
/* For checking non-failure cases by hand, enable this macro and run
* xdelta printdelta with print_cpymode disabled. Every non-failure
* should change a copy address mode, which doesn't cause a failure
* because the address cache starts out with all zeros.
./xdelta3 test
for i in test_text.xz.*; do ./xdelta3 printdelta $i > $i.out;
diff $i.out test_text.xz.0.out; done
*/
system ("rm -rf test_text.*");
{
char buf[TESTBUFSIZE];
FILE *f;
sprintf (buf, "test_text");
f = fopen (buf, "w");
fwrite (test_text,1,sizeof (test_text),f);
fclose (f);
}
#define TEST_FAILURES() \
do { \
char buf[TESTBUFSIZE]; \
FILE *f; \
sprintf (buf, "test_text.xz.%d", non_failures); \
f = fopen (buf, "w"); \
fwrite (encoded,1,encoded_size,f); \
fclose (f); \
} while (0)
#endif
stream->sec_data.inefficient = 1;
stream->sec_inst.inefficient = 1;
stream->sec_addr.inefficient = 1;
/* Encode text, test correct input */
if ((ret = test_compress_text (stream, encoded, & encoded_size)))
{
/*stream->msg = "without error: encode failure";*/
return ret;
}
if ((ret = test_decompress_text (stream, encoded, encoded_size,
sizeof (test_text) / 4)))
{
/*stream->msg = "without error: decode failure";*/
return ret;
}
TEST_FAILURES();
for (i = 0; i < encoded_size*8; i += 1)
{
/* Single bit error. */
encoded[i/8] ^= 1 << (i%8);
if ((ret = test_decompress_text (stream, encoded,
encoded_size, sizeof (test_text))) == 0)
{
non_failures += 1;
#ifdef DEBUG_TEST_FAILURES
DP(RINT "%u[%u] non-failure %u\n", i/8, i%8, non_failures);
#endif
TEST_FAILURES();
}
else
{
/*DP(RINT "%u[%u] failure: %s\n", i/8, i%8, stream->msg);*/
}
/* decompress_text returns EIO when the final memcmp() fails, but that
* should never happen with checksumming on. */
if (cksum && ret == EIO)
{
/*DP(RINT "%u[%u] cksum mismatch\n", i/8, i%8);*/
stream->msg = "checksum mismatch";
return XD3_INTERNAL;
}
/* Undo single bit error. */
encoded[i/8] ^= 1 << (i%8);
}
/* Test correct input again */
if ((ret = test_decompress_text (stream, encoded, encoded_size, 1)))
{
/*stream->msg = "without error: decode failure";*/
return ret;
}
/* Check expected non-failures */
if (non_failures != expected_non_failures)
{
DP(RINT "non-failures %u; expected %u",
non_failures, expected_non_failures);
stream->msg = "incorrect";
return XD3_INTERNAL;
}
DOT ();
return 0;
}
/***********************************************************************
Secondary compression tests
***********************************************************************/
#if SECONDARY_ANY
typedef int (*sec_dist_func) (xd3_stream *stream, xd3_output *data);
static int sec_dist_func1 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func2 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func3 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func4 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func5 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func6 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func7 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func8 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func9 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func10 (xd3_stream *stream, xd3_output *data);
static int sec_dist_func11 (xd3_stream *stream, xd3_output *data);
static sec_dist_func sec_dists[] =
{
sec_dist_func1,
sec_dist_func2,
sec_dist_func3,
sec_dist_func4,
sec_dist_func5,
sec_dist_func6,
sec_dist_func7,
sec_dist_func8,
sec_dist_func9,
sec_dist_func10,
sec_dist_func11,
};
/* Test ditsribution: 100 bytes of the same character (13). */
static int
sec_dist_func1 (xd3_stream *stream, xd3_output *data)
{
int i, ret;
for (i = 0; i < 100; i += 1)
{
if ((ret = xd3_emit_byte (stream, & data, 13))) { return ret; }
}
return 0;
}
/* Test ditsribution: uniform covering half the alphabet. */
static int
sec_dist_func2 (xd3_stream *stream, xd3_output *data)
{
int i, ret;
for (i = 0; i < ALPHABET_SIZE; i += 1)
{
if ((ret = xd3_emit_byte (stream, & data, i%(ALPHABET_SIZE/2)))) { return ret; }
}
return 0;
}
/* Test ditsribution: uniform covering the entire alphabet. */
static int
sec_dist_func3 (xd3_stream *stream, xd3_output *data)
{
int i, ret;
for (i = 0; i < ALPHABET_SIZE; i += 1)
{
if ((ret = xd3_emit_byte (stream, & data, i%ALPHABET_SIZE))) { return ret; }
}
return 0;
}
/* Test distribution: An exponential distribution covering half the alphabet */
static int
sec_dist_func4 (xd3_stream *stream, xd3_output *data)
{
int i, ret, x;
for (i = 0; i < ALPHABET_SIZE*20; i += 1)
{
x = mt_exp_rand (10, ALPHABET_SIZE/2);
if ((ret = xd3_emit_byte (stream, & data, x))) { return ret; }
}
return 0;
}
/* Test distribution: An exponential distribution covering the entire alphabet */
static int
sec_dist_func5 (xd3_stream *stream, xd3_output *data)
{
int i, ret, x;
for (i = 0; i < ALPHABET_SIZE*20; i += 1)
{
x = mt_exp_rand (10, ALPHABET_SIZE-1);
if ((ret = xd3_emit_byte (stream, & data, x))) { return ret; }
}
return 0;
}
/* Test distribution: An uniform random distribution covering half the alphabet */
static int
sec_dist_func6 (xd3_stream *stream, xd3_output *data)
{
int i, ret, x;
for (i = 0; i < ALPHABET_SIZE*20; i += 1)
{
x = mt_random (&static_mtrand) % (ALPHABET_SIZE/2);
if ((ret = xd3_emit_byte (stream, & data, x))) { return ret; }
}
return 0;
}
/* Test distribution: An uniform random distribution covering the entire alphabet */
static int
sec_dist_func7 (xd3_stream *stream, xd3_output *data)
{
int i, ret, x;
for (i = 0; i < ALPHABET_SIZE*20; i += 1)
{
x = mt_random (&static_mtrand) % ALPHABET_SIZE;
if ((ret = xd3_emit_byte (stream, & data, x))) { return ret; }
}
return 0;
}
/* Test distribution: A small number of frequent characters, difficult
* to divide into many groups */
static int
sec_dist_func8 (xd3_stream *stream, xd3_output *data)
{
int i, ret;
for (i = 0; i < ALPHABET_SIZE*5; i += 1)
{
if ((ret = xd3_emit_byte (stream, & data, 0))) { return ret; }
if ((ret = xd3_emit_byte (stream, & data, 64))) { return ret; }
if ((ret = xd3_emit_byte (stream, & data, 128))) { return ret; }
if ((ret = xd3_emit_byte (stream, & data, 255))) { return ret; }
}
return 0;
}
/* Test distribution: One that causes many FGK block promotions (found a bug) */
static int
sec_dist_func9 (xd3_stream *stream, xd3_output *data)
{
int i, ret;
int ramp = 0;
int rcount = 0;
int prom = 0;
int pcount = 0;
/* 200 was long enough to trigger it--only when stricter checking
* that counted all blocks was turned on, but it seems I deleted
* this code. (missing fgk_free_block on line 398). */
for (i = 0; i < ALPHABET_SIZE*200; i += 1)
{
repeat:
if (ramp < ALPHABET_SIZE)
{
/* Initially Nth symbol has (N+1) frequency */
if (rcount <= ramp)
{
rcount += 1;
if ((ret = xd3_emit_byte (stream, & data, ramp))) { return ret; }
continue;
}
ramp += 1;
rcount = 0;
goto repeat;
}
/* Thereafter, promote least freq to max freq */
if (pcount == ALPHABET_SIZE)
{
pcount = 0;
prom = (prom + 1) % ALPHABET_SIZE;
}
pcount += 1;
if ((ret = xd3_emit_byte (stream, & data, prom))) { return ret; }
}
return 0;
}
/* Test distribution: freq[i] == i*i, creates a 21-bit code length, fixed in 3.0r. */
static int
sec_dist_func10 (xd3_stream *stream, xd3_output *data)
{
int i, j, ret;
for (i = 0; i < ALPHABET_SIZE; i += 1)
{
for (j = 0; j <= (i*i); j += 1)
{
if ((ret = xd3_emit_byte (stream, & data, i))) { return ret; }
}
}
return 0;
}
/* Test distribution: fibonacci */
static int
sec_dist_func11 (xd3_stream *stream, xd3_output *data)
{
int sum0 = 0;
int sum1 = 1;
int i, j, ret;
for (i = 0; i < 33; ++i)
{
for (j = 0; j < (sum0 + sum1); ++j)
{
if ((ret = xd3_emit_byte (stream, & data, i))) { return ret; }
}
sum0 = sum1;
sum1 = j;
}
return 0;
}
static int
test_secondary_decode (xd3_stream *stream,
const xd3_sec_type *sec,
usize_t input_size,
usize_t compress_size,
const uint8_t *dec_input,
const uint8_t *dec_correct,
uint8_t *dec_output)
{
int ret;
xd3_sec_stream *dec_stream;
const uint8_t *dec_input_used, *dec_input_end;
uint8_t *dec_output_used, *dec_output_end;
if ((dec_stream = sec->alloc (stream)) == NULL) { return ENOMEM; }
sec->init (dec_stream);
dec_input_used = dec_input;
dec_input_end = dec_input + compress_size;
dec_output_used = dec_output;
dec_output_end = dec_output + input_size;
if ((ret = sec->decode (stream, dec_stream,
& dec_input_used, dec_input_end,
& dec_output_used, dec_output_end)))
{
goto fail;
}
if (dec_input_used != dec_input_end)
{
stream->msg = "unused input";
ret = XD3_INTERNAL;
goto fail;
}
if (dec_output_used != dec_output_end)
{
stream->msg = "unfinished output";
ret = XD3_INTERNAL;
goto fail;
}
if (memcmp (dec_output, dec_correct, input_size) != 0)
{
stream->msg = "incorrect output";
ret = XD3_INTERNAL;
goto fail;
}
fail:
sec->destroy (stream, dec_stream);
return ret;
}
static int
test_secondary (xd3_stream *stream, const xd3_sec_type *sec, usize_t groups)
{
usize_t test_i;
int ret;
xd3_output *in_head, *out_head, *p;
usize_t p_off, input_size, compress_size;
uint8_t *dec_input = NULL, *dec_output = NULL, *dec_correct = NULL;
xd3_sec_stream *enc_stream;
xd3_sec_cfg cfg;
memset (& cfg, 0, sizeof (cfg));
cfg.inefficient = 1;
for (cfg.ngroups = 1; cfg.ngroups <= groups; cfg.ngroups += 1)
{
DP(RINT "\n...");
for (test_i = 0; test_i < SIZEOF_ARRAY (sec_dists); test_i += 1)
{
mt_init (& static_mtrand, 0x9f73f7fc);
in_head = xd3_alloc_output (stream, NULL);
out_head = xd3_alloc_output (stream, NULL);
enc_stream = sec->alloc (stream);
dec_input = NULL;
dec_output = NULL;
dec_correct = NULL;
if (in_head == NULL || out_head == NULL || enc_stream == NULL)
{
goto nomem;
}
if ((ret = sec_dists[test_i] (stream, in_head))) { goto fail; }
sec->init (enc_stream);
/* Encode data */
if ((ret = sec->encode (stream, enc_stream,
in_head, out_head, & cfg)))
{
DP(RINT "test %u: encode: %s", test_i, stream->msg);
goto fail;
}
/* Calculate sizes, allocate contiguous arrays for decoding */
input_size = xd3_sizeof_output (in_head);
compress_size = xd3_sizeof_output (out_head);
DP(RINT "%.3f", 8.0 * (double) compress_size / (double) input_size);
if ((dec_input = xd3_alloc (stream, compress_size, 1)) == NULL ||
(dec_output = xd3_alloc (stream, input_size, 1)) == NULL ||
(dec_correct = xd3_alloc (stream, input_size, 1)) == NULL)
{
goto nomem;
}
/* Fill the compressed data array */
for (p_off = 0, p = out_head; p != NULL;
p_off += p->next, p = p->next_page)
{
memcpy (dec_input + p_off, p->base, p->next);
}
CHECK(p_off == compress_size);
/* Fill the input data array */
for (p_off = 0, p = in_head; p != NULL;
p_off += p->next, p = p->next_page)
{
memcpy (dec_correct + p_off, p->base, p->next);
}
CHECK(p_off == input_size);
if ((ret = test_secondary_decode (stream, sec, input_size,
compress_size, dec_input,
dec_correct, dec_output)))
{
DP(RINT "test %u: decode: %s", test_i, stream->msg);
goto fail;
}
/* Single-bit error test, only cover the first 10 bytes.
* Some non-failures are expected in the Huffman case:
* Changing the clclen array, for example, may not harm the
* decoding. Really looking for faults here. */
{
int i;
int bytes = min (compress_size, 10U);
for (i = 0; i < bytes * 8; i += 1)
{
dec_input[i/8] ^= 1 << (i%8);
if ((ret = test_secondary_decode (stream, sec, input_size,
compress_size, dec_input,
dec_correct, dec_output))
== 0)
{
/*DP(RINT "test %u: decode single-bit [%u/%u]
error non-failure", test_i, i/8, i%8);*/
}
dec_input[i/8] ^= 1 << (i%8);
if ((i % (2*bytes)) == (2*bytes)-1)
{
DOT ();
}
}
ret = 0;
}
if (0) { nomem: ret = ENOMEM; }
fail:
sec->destroy (stream, enc_stream);
xd3_free_output (stream, in_head);
xd3_free_output (stream, out_head);
xd3_free (stream, dec_input);
xd3_free (stream, dec_output);
xd3_free (stream, dec_correct);
if (ret != 0) { return ret; }
}
}
return 0;
}
IF_FGK (static int test_secondary_fgk (xd3_stream *stream, usize_t gp)
{ return test_secondary (stream, & fgk_sec_type, gp); })
IF_DJW (static int test_secondary_huff (xd3_stream *stream, usize_t gp)
{ return test_secondary (stream, & djw_sec_type, gp); })
#endif
/***********************************************************************
TEST INSTRUCTION TABLE
***********************************************************************/
/* Test that xd3_choose_instruction() does the right thing for its code
* table. */
static int
test_choose_instruction (xd3_stream *stream, int ignore)
{
int i;
stream->code_table = (*stream->code_table_func) ();
for (i = 0; i < 256; i += 1)
{
const xd3_dinst *d = stream->code_table + i;
xd3_rinst prev, inst;
CHECK(d->type1 > 0);
memset (& prev, 0, sizeof (prev));
memset (& inst, 0, sizeof (inst));
if (d->type2 == 0)
{
inst.type = d->type1;
if ((inst.size = d->size1) == 0)
{
inst.size = TESTBUFSIZE;
}
XD3_CHOOSE_INSTRUCTION (stream, NULL, & inst);
if (inst.code2 != 0 || inst.code1 != i)
{
stream->msg = "wrong single instruction";
return XD3_INTERNAL;
}
}
else
{
prev.type = d->type1;
prev.size = d->size1;
inst.type = d->type2;
inst.size = d->size2;
XD3_CHOOSE_INSTRUCTION (stream, & prev, & inst);
if (prev.code2 != i)
{
stream->msg = "wrong double instruction";
return XD3_INTERNAL;
}
}
}
return 0;
}
/***********************************************************************
TEST INSTRUCTION TABLE CODING
***********************************************************************/
#if GENERIC_ENCODE_TABLES
/* Test that encoding and decoding a code table works */
static int
test_encode_code_table (xd3_stream *stream, int ignore)
{
int ret;
const uint8_t *comp_data;
usize_t comp_size;
if ((ret = xd3_compute_alternate_table_encoding (stream, & comp_data, & comp_size)))
{
return ret;
}
stream->acache.s_near = __alternate_code_table_desc.near_modes;
stream->acache.s_same = __alternate_code_table_desc.same_modes;
if ((ret = xd3_apply_table_encoding (stream, comp_data, comp_size)))
{
return ret;
}
if (memcmp (stream->code_table, xd3_alternate_code_table (), sizeof (xd3_dinst) * 256) != 0)
{
stream->msg = "wrong code table reconstruction";
return XD3_INTERNAL;
}
return 0;
}
#endif
/***********************************************************************
64BIT STREAMING
***********************************************************************/
/* This test encodes and decodes a series of 1 megabyte windows, each
* containing a long run of zeros along with a single xoff_t size
* record to indicate the sequence. */
static int
test_streaming (xd3_stream *in_stream, uint8_t *encbuf, uint8_t *decbuf, uint8_t *delbuf, usize_t megs)
{
xd3_stream estream, dstream;
int ret;
usize_t i, delsize, decsize;
if ((ret = xd3_config_stream (& estream, NULL)) ||
(ret = xd3_config_stream (& dstream, NULL)))
{
goto fail;
}
for (i = 0; i < megs; i += 1)
{
((usize_t*) encbuf)[0] = i;
if ((i % 200) == 199) { DOT (); }
if ((ret = xd3_process_stream (1, & estream, xd3_encode_input, 0,
encbuf, 1 << 20,
delbuf, & delsize, 1 << 10)))
{
in_stream->msg = estream.msg;
goto fail;
}
if ((ret = xd3_process_stream (0, & dstream, xd3_decode_input, 0,
delbuf, delsize,
decbuf, & decsize, 1 << 20)))
{
in_stream->msg = dstream.msg;
goto fail;
}
if (decsize != 1 << 20 ||
memcmp (encbuf, decbuf, 1 << 20) != 0)
{
in_stream->msg = "wrong result";
ret = XD3_INTERNAL;
goto fail;
}
}
if ((ret = xd3_close_stream (& estream)) ||
(ret = xd3_close_stream (& dstream)))
{
goto fail;
}
fail:
xd3_free_stream (& estream);
xd3_free_stream (& dstream);
return ret;
}
/* Run tests of data streaming of over and around 4GB of data. */
static int
test_compressed_stream_overflow (xd3_stream *stream, int ignore)
{
int ret;
uint8_t *buf;
if ((buf = (uint8_t*) malloc (TWO_MEGS_AND_DELTA)) == NULL) { return ENOMEM; }
memset (buf, 0, TWO_MEGS_AND_DELTA);
/* Test overflow of a 32-bit file offset. */
if (SIZEOF_XOFF_T == 4)
{
ret = test_streaming (stream, buf, buf + (1 << 20), buf + (2 << 20), (1 << 12) + 1);
if (ret == XD3_INVALID_INPUT && MSG_IS ("decoder file offset overflow"))
{
ret = 0;
}
else
{
XPR(NT XD3_LIB_ERRMSG (stream, ret));
stream->msg = "expected overflow condition";
ret = XD3_INTERNAL;
goto fail;
}
}
/* Test transfer of exactly 32bits worth of data. */
if ((ret = test_streaming (stream, buf, buf + (1 << 20), buf + (2 << 20), 1 << 12))) { goto fail; }
fail:
free (buf);
return ret;
}
/***********************************************************************
COMMAND LINE
***********************************************************************/
/* For each pair of command templates in the array below, test that
* encoding and decoding commands work. Also check for the expected
* size delta, which should be approximately TEST_ADD_RATIO times the
* file size created by test_make_inputs. Due to differences in the
* application header, it is suppressed (-A) so that all delta files
* are the same. */
static int
test_command_line_arguments (xd3_stream *stream, int ignore)
{
int i, ret;
static const char* cmdpairs[] =
{
/* standard input, output */
"%s %s -A < %s > %s", "%s -d < %s > %s",
"%s %s -A -e < %s > %s", "%s -d < %s > %s",
"%s %s -A= encode < %s > %s", "%s decode < %s > %s",
"%s %s -A -q encode < %s > %s", "%s -qdq < %s > %s",
/* file input, standard output */
"%s %s -A= %s > %s", "%s -d %s > %s",
"%s %s -A -e %s > %s", "%s -d %s > %s",
"%s %s encode -A= %s > %s", "%s decode %s > %s",
/* file input, output */
"%s %s -A= %s %s", "%s -d %s %s",
"%s %s -A -e %s %s", "%s -d %s %s",
"%s %s -A= encode %s %s", "%s decode %s %s",
/* option placement */
"%s %s -A -f %s %s", "%s -f -d %s %s",
"%s %s -e -A= %s %s", "%s -d -f %s %s",
"%s %s -f encode -A= %s %s", "%s -f decode -f %s %s",
};
char ecmd[TESTBUFSIZE], dcmd[TESTBUFSIZE];
int pairs = SIZEOF_ARRAY (cmdpairs) / 2;
xoff_t tsize;
xoff_t dsize;
double ratio;
mt_init (& static_mtrand, 0x9f73f7fc);
for (i = 0; i < pairs; i += 1)
{
test_setup ();
if ((ret = test_make_inputs (stream, NULL, & tsize))) { return ret; }
sprintf (ecmd, cmdpairs[2*i], program_name,
test_softcfg_str, TEST_TARGET_FILE, TEST_DELTA_FILE);
sprintf (dcmd, cmdpairs[2*i+1], program_name,
TEST_DELTA_FILE, TEST_RECON_FILE);
/* Encode and decode. */
if ((ret = system (ecmd)) != 0)
{
DP(RINT "xdelta3: encode command: %s\n", ecmd);
stream->msg = "encode cmd failed";
return XD3_INTERNAL;
}
if ((ret = system (dcmd)) != 0)
{
DP(RINT "xdelta3: decode command: %s\n", dcmd);
stream->msg = "decode cmd failed";
return XD3_INTERNAL;
}
/* Compare the target file. */
if ((ret = compare_files (stream, TEST_TARGET_FILE, TEST_RECON_FILE)))
{
return ret;
}
if ((ret = test_file_size (TEST_DELTA_FILE, & dsize)))
{
return ret;
}
ratio = (double) dsize / (double) tsize;
/* Check that it is not too small, not too large. */
if (ratio >= TEST_ADD_RATIO + TEST_EPSILON)
{
DP(RINT "xdelta3: test encode with size ratio %.4f, "
"expected < %.4f (%"Q"u, %"Q"u)\n",
ratio, TEST_ADD_RATIO + TEST_EPSILON, dsize, tsize);
stream->msg = "strange encoding";
return XD3_INTERNAL;
}
if (ratio <= TEST_ADD_RATIO * (1.0 - 2 * TEST_EPSILON))
{
DP(RINT "xdelta3: test encode with size ratio %.4f, "
"expected > %.4f\n",
ratio, TEST_ADD_RATIO - TEST_EPSILON);
stream->msg = "strange encoding";
return XD3_INTERNAL;
}
/* Also check that compare_files works. The delta and original should
* not be identical. */
if ((ret = compare_files (stream, TEST_DELTA_FILE,
TEST_TARGET_FILE)) == 0)
{
stream->msg = "broken compare_files";
return XD3_INTERNAL;
}
test_cleanup ();
DOT ();
}
return 0;
}
static int
check_vcdiff_header (xd3_stream *stream,
const char *input,
const char *line_start,
const char *matches,
int yes_or_no)
{
int ret;
char vcmd[TESTBUFSIZE], gcmd[TESTBUFSIZE];
sprintf (vcmd, "%s printhdr -f %s %s",
program_name, input, TEST_RECON2_FILE);
if ((ret = system (vcmd)) != 0)
{
DP(RINT "xdelta3: printhdr command: %s\n", vcmd);
stream->msg = "printhdr cmd failed";
return XD3_INTERNAL;
}
sprintf (gcmd, "grep \"%s.*%s.*\" %s > /dev/null",
line_start, matches, TEST_RECON2_FILE);
if (yes_or_no)
{
if ((ret = do_cmd (stream, gcmd)))
{
DP(RINT "xdelta3: %s\n", gcmd);
return ret;
}
}
else
{
if ((ret = do_fail (stream, gcmd)))
{
DP(RINT "xdelta3: %s\n", gcmd);
return ret;
}
}
return 0;
}
static int
test_recode_command2 (xd3_stream *stream, int has_source,
int variant, int change)
{
int has_adler32 = (variant & 0x1) != 0;
int has_apphead = (variant & 0x2) != 0;
int has_secondary = (variant & 0x4) != 0;
int change_adler32 = (change & 0x1) != 0;
int change_apphead = (change & 0x2) != 0;
int change_secondary = (change & 0x4) != 0;
int recoded_adler32 = change_adler32 ? !has_adler32 : has_adler32;
int recoded_apphead = change_apphead ? !has_apphead : has_apphead;
int recoded_secondary = change_secondary ? !has_secondary : has_secondary;
char ecmd[TESTBUFSIZE], recmd[TESTBUFSIZE], dcmd[TESTBUFSIZE];
xoff_t tsize, ssize;
int ret;
test_setup ();
if ((ret = test_make_inputs (stream, has_source ? & ssize : NULL, & tsize)))
{
return ret;
}
/* First encode */
sprintf (ecmd, "%s %s -f ", program_name, test_softcfg_str);
strcat (ecmd, has_adler32 ? "" : "-n ");
strcat (ecmd, has_apphead ? "-A=encode_apphead " : "-A= ");
strcat (ecmd, has_secondary ? "-S djw " : "-S none ");
if (has_source)
{
strcat (ecmd, "-s ");
strcat (ecmd, TEST_SOURCE_FILE);
strcat (ecmd, " ");
}
strcat (ecmd, TEST_TARGET_FILE);
strcat (ecmd, " ");
strcat (ecmd, TEST_DELTA_FILE);
if ((ret = system (ecmd)) != 0)
{
DP(RINT "xdelta3: encode command: %s\n", ecmd);
stream->msg = "encode cmd failed";
return XD3_INTERNAL;
}
/* Now recode */
sprintf (recmd, "%s recode %s -f ", program_name, test_softcfg_str);
strcat (recmd, recoded_adler32 ? "" : "-n ");
strcat (recmd, !change_apphead ? "" :
(recoded_apphead ? "-A=recode_apphead " : "-A= "));
strcat (recmd, recoded_secondary ? "-S djw " : "-S none ");
strcat (recmd, TEST_DELTA_FILE);
strcat (recmd, " ");
strcat (recmd, TEST_COPY_FILE);
if ((ret = system (recmd)) != 0)
{
DP(RINT "xdelta3: recode command: %s\n", recmd);
stream->msg = "recode cmd failed";
return XD3_INTERNAL;
}
/* Check recode changes. */
if ((ret = check_vcdiff_header (stream,
TEST_COPY_FILE,
"VCDIFF window indicator",
"VCD_SOURCE",
has_source))) { return ret; }
if ((ret = check_vcdiff_header (stream,
TEST_COPY_FILE,
"VCDIFF header indicator",
"VCD_SECONDARY",
recoded_secondary))) { return ret; }
if ((ret = check_vcdiff_header (stream,
TEST_COPY_FILE,
"VCDIFF window indicator",
"VCD_ADLER32",
/* Recode can't generate an adler32
* checksum, it can only preserve it or
* remove it. */
has_adler32 && recoded_adler32)))
{
return ret;
}
if (!change_apphead)
{
if ((ret = check_vcdiff_header (stream,
TEST_COPY_FILE,
"VCDIFF header indicator",
"VCD_APPHEADER",
has_apphead)))
{
return ret;
}
if ((ret = check_vcdiff_header (stream,
TEST_COPY_FILE,
"VCDIFF application header",
"encode_apphead",
has_apphead)))
{
return ret;
}
}
else
{
if ((ret = check_vcdiff_header (stream,
TEST_COPY_FILE,
"VCDIFF header indicator",
"VCD_APPHEADER",
recoded_apphead)))
{
return ret;
}
if (recoded_apphead &&
(ret = check_vcdiff_header (stream,
TEST_COPY_FILE,
"VCDIFF application header",
"recode_apphead",
1)))
{
return ret;
}
}
/* Now decode */
sprintf (dcmd, "%s -fd ", program_name);
if (has_source)
{
strcat (dcmd, "-s ");
strcat (dcmd, TEST_SOURCE_FILE);
strcat (dcmd, " ");
}
strcat (dcmd, TEST_COPY_FILE);
strcat (dcmd, " ");
strcat (dcmd, TEST_RECON_FILE);
if ((ret = system (dcmd)) != 0)
{
DP(RINT "xdelta3: decode command: %s\n", dcmd);
stream->msg = "decode cmd failed";
return XD3_INTERNAL;
}
/* Now compare. */
if ((ret = compare_files (stream, TEST_TARGET_FILE, TEST_RECON_FILE)))
{
return ret;
}
return 0;
}
static int
test_recode_command (xd3_stream *stream, int ignore)
{
/* Things to test:
* - with and without a source file (recode does not change)
*
* (recode may or may not change -- 8 variations)
* - with and without adler32
* - with and without app header
* - with and without secondary
*/
int has_source;
int variant;
int change;
int ret;
for (has_source = 0; has_source < 2; has_source++)
{
for (variant = 0; variant < 8; variant++)
{
for (change = 0; change < 8; change++)
{
if ((ret = test_recode_command2 (stream, has_source,
variant, change)))
{
return ret;
}
}
DOT ();
}
}
return 0;
}
/***********************************************************************
EXTERNAL I/O DECOMPRESSION/RECOMPRESSION
***********************************************************************/
#if EXTERNAL_COMPRESSION
/* This performs one step of the test_externally_compressed_io
* function described below. It builds a pipe containing both Xdelta
* and external compression/decompression that should not modify the
* data passing through. */
static int
test_compressed_pipe (xd3_stream *stream, main_extcomp *ext, char* buf,
const char* comp_options, const char* decomp_options,
int do_ext_recomp, const char* msg)
{
int ret;
char decomp_buf[TESTBUFSIZE];
if (do_ext_recomp)
{
sprintf (decomp_buf, " | %s %s", ext->decomp_cmdname, ext->decomp_options);
}
else
{
decomp_buf[0] = 0;
}
sprintf (buf, "%s %s < %s | %s %s | %s %s%s > %s",
ext->recomp_cmdname, ext->recomp_options,
TEST_TARGET_FILE,
program_name, comp_options,
program_name, decomp_options,
decomp_buf,
TEST_RECON_FILE);
if ((ret = system (buf)) != 0)
{
stream->msg = msg;
return XD3_INTERNAL;
}
if ((ret = compare_files (stream, TEST_TARGET_FILE, TEST_RECON_FILE)))
{
return XD3_INTERNAL;
}
DOT ();
return 0;
}
/* We want to test that a pipe such as:
*
* --> | gzip -cf | xdelta3 -cf | xdelta3 -dcf | gzip -dcf | -->
*
* is transparent, i.e., does not modify the stream of data. However,
* we also want to verify that at the center the data is properly
* compressed, i.e., that we do not just have a re-compressed gzip
* format, that we have an VCDIFF format. We do this in two steps.
* First test the above pipe, then test with suppressed output
* recompression (-D). The result should be the original input:
*
* --> | gzip -cf | xdelta3 -cf | xdelta3 -Ddcf | -->
*
* Finally we want to test that -D also disables input decompression:
*
* --> | gzip -cf | xdelta3 -Dcf | xdelta3 -Ddcf | gzip -dcf | -->
*/
static int
test_externally_compressed_io (xd3_stream *stream, int ignore)
{
usize_t i;
int ret;
char buf[TESTBUFSIZE];
mt_init (& static_mtrand, 0x9f73f7fc);
if ((ret = test_make_inputs (stream, NULL, NULL))) { return ret; }
for (i = 0; i < SIZEOF_ARRAY (extcomp_types); i += 1)
{
main_extcomp *ext = & extcomp_types[i];
/* Test for the existence of the external command first, if not skip. */
sprintf (buf, "%s %s < /dev/null > /dev/null", ext->recomp_cmdname, ext->recomp_options);
if ((ret = system (buf)) != 0)
{
DP(RINT "%s=0", ext->recomp_cmdname);
continue;
}
if ((ret = test_compressed_pipe (stream, ext, buf, "-cfq", "-dcfq", 1,
"compression failed: identity pipe")) ||
(ret = test_compressed_pipe (stream, ext, buf, "-cfq", "-Rdcfq", 0,
"compression failed: without recompression")) ||
(ret = test_compressed_pipe (stream, ext, buf, "-Dcfq", "-Rdcfq", 1,
"compression failed: without decompression")))
{
return ret;
}
}
return 0;
}
/* This tests the proper functioning of external decompression for
* source files. The source and target files are identical and
* compressed by gzip. Decoding such a delta with recompression
* disbaled (-R) should produce the original, uncompressed
* source/target file. Then it checks with output recompression
* enabled--in this case the output should be a compressed copy of the
* original source/target file. Then it checks that encoding with
* decompression disabled works--the compressed files are identical
* and decoding them should always produce a compressed output,
* regardless of -R since the encoded delta file had decompression
* disabled..
*/
static int
test_source_decompression (xd3_stream *stream, int ignore)
{
int ret;
char buf[TESTBUFSIZE];
const main_extcomp *ext;
xoff_t dsize;
mt_init (& static_mtrand, 0x9f73f7fc);
test_setup ();
if ((ret = test_make_inputs (stream, NULL, NULL))) { return ret; }
/* Use gzip. */
if ((ext = main_get_compressor ("G")) == NULL)
{
DP(RINT "skipped");
return 0;
}
/* Save an uncompressed copy. */
if ((ret = test_save_copy (TEST_TARGET_FILE))) { return ret; }
/* Compress the source. */
sprintf (buf, "%s -1 %s < %s > %s", ext->recomp_cmdname,
ext->recomp_options, TEST_COPY_FILE, TEST_SOURCE_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Compress the target. */
sprintf (buf, "%s -9 %s < %s > %s", ext->recomp_cmdname,
ext->recomp_options, TEST_COPY_FILE, TEST_TARGET_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Now the two identical files are compressed. Delta-encode the target,
* with decompression. */
sprintf (buf, "%s -e -vfq -s%s %s %s", program_name, TEST_SOURCE_FILE,
TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Check that the compressed file is small (b/c inputs are
* identical). */
if ((ret = test_file_size (TEST_DELTA_FILE, & dsize))) { return ret; }
/* Deltas for identical files should be very small. */
if (dsize > 200)
{
DP(RINT "external compression did not happen\n");
stream->msg = "external compression did not happen";
return XD3_INTERNAL;
}
/* Decode the delta file with recompression disabled, should get an
* uncompressed file out. */
sprintf (buf, "%s -v -dq -R -s%s %s %s", program_name,
TEST_SOURCE_FILE, TEST_DELTA_FILE, TEST_RECON_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
if ((ret = compare_files (stream, TEST_COPY_FILE,
TEST_RECON_FILE))) { return ret; }
/* Decode the delta file with recompression, should get a compressed file
* out. But we can't compare compressed files directly. */
sprintf (buf, "%s -v -dqf -s%s %s %s", program_name,
TEST_SOURCE_FILE, TEST_DELTA_FILE, TEST_RECON_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
sprintf (buf, "%s %s < %s > %s", ext->decomp_cmdname, ext->decomp_options,
TEST_RECON_FILE, TEST_RECON2_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
if ((ret = compare_files (stream, TEST_COPY_FILE,
TEST_RECON2_FILE))) { return ret; }
/* Encode with decompression disabled */
sprintf (buf, "%s -e -D -vfq -s%s %s %s", program_name,
TEST_SOURCE_FILE, TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Decode the delta file with decompression disabled, should get the
* identical compressed file out. */
sprintf (buf, "%s -d -D -vfq -s%s %s %s", program_name,
TEST_SOURCE_FILE, TEST_DELTA_FILE, TEST_RECON_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
if ((ret = compare_files (stream, TEST_TARGET_FILE,
TEST_RECON_FILE))) { return ret; }
test_cleanup();
return 0;
}
#endif
/***********************************************************************
FORCE, STDOUT
***********************************************************************/
/* This tests that output will not overwrite an existing file unless
* -f was specified. The test is for encoding (the same code handles
* it for decoding). */
static int
test_force_behavior (xd3_stream *stream, int ignore)
{
int ret;
char buf[TESTBUFSIZE];
/* Create empty target file */
test_setup ();
sprintf (buf, "cp /dev/null %s", TEST_TARGET_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Encode to delta file */
sprintf (buf, "%s -e %s %s", program_name,
TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Encode again, should fail. */
sprintf (buf, "%s -q -e %s %s ", program_name,
TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_fail (stream, buf))) { return ret; }
/* Force it, should succeed. */
sprintf (buf, "%s -f -e %s %s", program_name,
TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
test_cleanup();
return 0;
}
/* This checks the proper operation of the -c flag. When specified
* the default output becomes stdout, otherwise the input must be
* provided (encode) or it may be defaulted (decode w/ app header). */
static int
test_stdout_behavior (xd3_stream *stream, int ignore)
{
int ret;
char buf[TESTBUFSIZE];
test_setup();
sprintf (buf, "cp /dev/null %s", TEST_TARGET_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Without -c, encode writes to delta file */
sprintf (buf, "%s -e %s %s", program_name,
TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* With -c, encode writes to stdout */
sprintf (buf, "%s -e -c %s > %s", program_name,
TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Without -c, decode writes to target file name, but it fails because the
* file exists. */
sprintf (buf, "%s -q -d %s ", program_name, TEST_DELTA_FILE);
if ((ret = do_fail (stream, buf))) { return ret; }
/* With -c, decode writes to stdout */
sprintf (buf, "%s -d -c %s > /dev/null", program_name, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
test_cleanup();
return 0;
}
/* This tests that the no-output flag (-J) works. */
static int
test_no_output (xd3_stream *stream, int ignore)
{
int ret;
char buf[TESTBUFSIZE];
test_setup ();
sprintf (buf, "touch %s && chmod 0000 %s",
TEST_NOPERM_FILE, TEST_NOPERM_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
if ((ret = test_make_inputs (stream, NULL, NULL))) { return ret; }
/* Try no_output encode w/out unwritable output file */
sprintf (buf, "%s -q -f -e %s %s", program_name,
TEST_TARGET_FILE, TEST_NOPERM_FILE);
if ((ret = do_fail (stream, buf))) { return ret; }
sprintf (buf, "%s -J -e %s %s", program_name,
TEST_TARGET_FILE, TEST_NOPERM_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
/* Now really write the delta to test decode no-output */
sprintf (buf, "%s -e %s %s", program_name,
TEST_TARGET_FILE, TEST_DELTA_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
sprintf (buf, "%s -q -f -d %s %s", program_name,
TEST_DELTA_FILE, TEST_NOPERM_FILE);
if ((ret = do_fail (stream, buf))) { return ret; }
sprintf (buf, "%s -J -d %s %s", program_name,
TEST_DELTA_FILE, TEST_NOPERM_FILE);
if ((ret = do_cmd (stream, buf))) { return ret; }
test_cleanup ();
return 0;
}
/***********************************************************************
Source identical optimization
***********************************************************************/
/* Computing a delta should be fastest when the two inputs are
* identical, this checks it. The library is called to compute a
* delta between a 10000 byte file, 1000 byte winsize, 500 byte source
* blocksize. The same buffer is used for both source and target. */
static int
test_identical_behavior (xd3_stream *stream, int ignore)
{
#define IDB_TGTSZ 10000 /* Not a power of two b/c of hard-coded expectations below. */
#define IDB_BLKSZ 512
#define IDB_WINSZ 1000
#define IDB_DELSZ 1000
#define IDB_WINCNT (IDB_TGTSZ / IDB_WINSZ)
int ret, i;
uint8_t buf[IDB_TGTSZ];
uint8_t del[IDB_DELSZ];
uint8_t rec[IDB_TGTSZ];
xd3_source source;
int nextencwin = 0;
int winstarts = 0, winfinishes = 0;
xoff_t srcwin = XOFF_T_MAX;
usize_t delpos = 0, recsize;
xd3_config config;
memset(&source, 0, sizeof(source));
for (i = 0; i < IDB_TGTSZ; i += 1)
{
buf[i] = (uint8_t) mt_random (&static_mtrand);
}
stream->winsize = IDB_WINSZ;
source.blksize = IDB_BLKSZ;
source.name = "";
source.curblk = NULL;
source.curblkno = 0;
if ((ret = xd3_set_source (stream, & source))) { goto fail; }
/* Compute an delta between identical source and targets. */
for (;;)
{
ret = xd3_encode_input (stream);
if (ret == XD3_INPUT)
{
xd3_avail_input (stream, buf + (IDB_WINSZ * nextencwin), IDB_WINSZ);
nextencwin += 1;
continue;
}
if (ret == XD3_GETSRCBLK)
{
source.curblkno = source.getblkno;
source.onblk = IDB_BLKSZ;
source.curblk = buf + source.getblkno * IDB_BLKSZ;
srcwin = source.getblkno;
continue;
}
if (ret == XD3_WINSTART)
{
winstarts++;
continue;
}
if (ret == XD3_WINFINISH)
{
winfinishes++;
if (winfinishes == IDB_WINCNT)
{
break;
}
continue;
}
if (ret != XD3_OUTPUT) { goto fail; }
CHECK(delpos + stream->avail_out <= IDB_DELSZ);
memcpy (del + delpos, stream->next_out, stream->avail_out);
delpos += stream->avail_out;
xd3_consume_output (stream);
}
CHECK(winfinishes == IDB_WINCNT);
CHECK(winstarts == IDB_WINCNT);
CHECK(nextencwin == IDB_WINCNT);
/* Reset. */
memset(&source, 0, sizeof(source));
source.blksize = IDB_TGTSZ;
source.onblk = IDB_TGTSZ;
source.curblk = buf;
source.curblkno = 0;
if ((ret = xd3_close_stream (stream))) { goto fail; }
xd3_free_stream (stream);
xd3_init_config (& config, 0);
if ((ret = xd3_config_stream (stream, & config))) { goto fail; }
if ((ret = xd3_set_source_and_size (stream, & source, IDB_TGTSZ))) { goto fail; }
/* Decode. */
if ((ret = xd3_decode_stream (stream, del, delpos, rec, & recsize, IDB_TGTSZ))) { goto fail; }
/* Check result size and data. */
if (recsize != IDB_TGTSZ) { stream->msg = "wrong size reconstruction"; goto fail; }
if (memcmp (rec, buf, IDB_TGTSZ) != 0) { stream->msg = "wrong data reconstruction"; goto fail; }
/* Check that there was one copy per window. */
IF_DEBUG (if (stream->n_scpy != IDB_WINCNT ||
stream->n_add != 0 ||
stream->n_run != 0) { stream->msg = "wrong copy count"; goto fail; });
/* Check that no checksums were computed because the initial match
was presumed. */
IF_DEBUG (if (stream->large_ckcnt != 0) { stream->msg = "wrong checksum behavior"; goto fail; });
ret = 0;
fail:
return ret;
}
/***********************************************************************
String matching test
***********************************************************************/
/* Check particular matching behaviors by calling
* xd3_string_match_soft directly with specific arguments. */
typedef struct _string_match_test string_match_test;
typedef enum
{
SM_NONE = 0,
SM_LAZY = (1 << 1),
} string_match_flags;
struct _string_match_test
{
const char *input;
int flags;
const char *result;
};
static const string_match_test match_tests[] =
{
/* nothing */
{ "1234567890", SM_NONE, "" },
/* basic run, copy */
{ "11111111112323232323", SM_NONE, "R0/10 C12/8@10" },
/* no run smaller than MIN_RUN=8 */
{ "1111111", SM_NONE, "C1/6@0" },
{ "11111111", SM_NONE, "R0/8" },
/* simple promotion: the third copy address depends on promotion */
{ "ABCDEF_ABCDEF^ABCDEF", SM_NONE, "C7/6@0 C14/6@7" },
/* { "ABCDEF_ABCDEF^ABCDEF", SM_PROMOTE, "C7/6@0 C14/6@0" }, forgotten */
/* simple lazy: there is a better copy starting with "23 X" than "123 " */
{ "123 23 XYZ 123 XYZ", SM_NONE, "C11/4@0" },
{ "123 23 XYZ 123 XYZ", SM_LAZY, "C11/4@0 C12/6@4" },
/* trylazy: no lazy matches unless there are at least two characters beyond
* the first match */
{ "2123_121212", SM_LAZY, "C7/4@5" },
{ "2123_1212123", SM_LAZY, "C7/4@5" },
{ "2123_1212123_", SM_LAZY, "C7/4@5 C8/5@0" },
/* trylazy: no lazy matches if the copy is >= MAXLAZY=10 */
{ "2123_121212123_", SM_LAZY, "C7/6@5 C10/5@0" },
{ "2123_12121212123_", SM_LAZY, "C7/8@5 C12/5@0" },
{ "2123_1212121212123_", SM_LAZY, "C7/10@5" },
/* lazy run: check a run overlapped by a longer copy */
{ "11111112 111111112 1", SM_LAZY, "C1/6@0 R9/8 C10/10@0" },
/* lazy match: match_length,run_l >= min_match tests, shouldn't get any
* copies within the run, no run within the copy */
{ "^________^________ ", SM_LAZY, "R1/8 C9/9@0" },
/* chain depth: it only goes back 10. this checks that the 10th match hits
* and the 11th misses. */
{ "1234 1234_1234-1234=1234+1234[1234]1234{1234}1234<1234 ", SM_NONE,
"C5/4@0 C10/4@5 C15/4@10 C20/4@15 C25/4@20 C30/4@25 C35/4@30 C40/4@35 C45/4@40 C50/5@0" },
{ "1234 1234_1234-1234=1234+1234[1234]1234{1234}1234<1234>1234 ", SM_NONE,
"C5/4@0 C10/4@5 C15/4@10 C20/4@15 C25/4@20 C30/4@25 C35/4@30 C40/4@35 C45/4@40 C50/4@45 C55/4@50" },
/* ssmatch test */
{ "ABCDE___ABCDE*** BCDE***", SM_NONE, "C8/5@0 C17/4@1" },
/*{ "ABCDE___ABCDE*** BCDE***", SM_SSMATCH, "C8/5@0 C17/7@9" }, forgotten */
};
static int
test_string_matching (xd3_stream *stream, int ignore)
{
usize_t i;
int ret;
xd3_config config;
char rbuf[TESTBUFSIZE];
for (i = 0; i < SIZEOF_ARRAY (match_tests); i += 1)
{
const string_match_test *test = & match_tests[i];
char *rptr = rbuf;
usize_t len = (usize_t) strlen (test->input);
xd3_free_stream (stream);
xd3_init_config (& config, 0);
config.smatch_cfg = XD3_SMATCH_SOFT;
config.smatcher_soft.large_look = 4;
config.smatcher_soft.large_step = 4;
config.smatcher_soft.small_look = 4;
config.smatcher_soft.small_chain = 10;
config.smatcher_soft.small_lchain = 10;
config.smatcher_soft.max_lazy = (test->flags & SM_LAZY) ? 10 : 0;
config.smatcher_soft.long_enough = 10;
if ((ret = xd3_config_stream (stream, & config))) { return ret; }
if ((ret = xd3_encode_init_full (stream))) { return ret; }
xd3_avail_input (stream, (uint8_t*)test->input, len);
if ((ret = stream->smatcher.string_match (stream))) { return ret; }
*rptr = 0;
while (! xd3_rlist_empty (& stream->iopt_used))
{
xd3_rinst *inst = xd3_rlist_pop_front (& stream->iopt_used);
switch (inst->type)
{
case XD3_RUN: *rptr++ = 'R'; break;
case XD3_CPY: *rptr++ = 'C'; break;
default: CHECK(0);
}
sprintf (rptr, "%d/%d", inst->pos, inst->size);
rptr += strlen (rptr);
if (inst->type == XD3_CPY)
{
*rptr++ = '@';
sprintf (rptr, "%"Q"d", inst->addr);
rptr += strlen (rptr);
}
*rptr++ = ' ';
xd3_rlist_push_back (& stream->iopt_free, inst);
}
if (rptr != rbuf)
{
rptr -= 1; *rptr = 0;
}
if (strcmp (rbuf, test->result) != 0)
{
DP(RINT "test %u: expected %s: got %s", i, test->result, rbuf);
stream->msg = "wrong result";
return XD3_INTERNAL;
}
}
return 0;
}
/*
* This is a test for many overlapping instructions. It must be a lazy
* matcher.
*/
static int
test_iopt_flush_instructions (xd3_stream *stream, int ignore)
{
int ret, i;
usize_t tpos = 0;
usize_t delta_size, recon_size;
xd3_config config;
uint8_t target[TESTBUFSIZE];
uint8_t delta[TESTBUFSIZE];
uint8_t recon[TESTBUFSIZE];
xd3_free_stream (stream);
xd3_init_config (& config, 0);
config.smatch_cfg = XD3_SMATCH_SOFT;
config.smatcher_soft.large_look = 16;
config.smatcher_soft.large_step = 16;
config.smatcher_soft.small_look = 4;
config.smatcher_soft.small_chain = 128;
config.smatcher_soft.small_lchain = 16;
config.smatcher_soft.max_lazy = 8;
config.smatcher_soft.long_enough = 128;
if ((ret = xd3_config_stream (stream, & config))) { return ret; }
for (i = 1; i < 250; i++)
{
target[tpos++] = i;
target[tpos++] = i+1;
target[tpos++] = i+2;
target[tpos++] = i+3;
target[tpos++] = 0;
}
for (i = 1; i < 253; i++)
{
target[tpos++] = i;
}
if ((ret = xd3_encode_stream (stream, target, tpos,
delta, & delta_size, sizeof (delta))))
{
return ret;
}
xd3_free_stream(stream);
if ((ret = xd3_config_stream (stream, & config))) { return ret; }
if ((ret = xd3_decode_stream (stream, delta, delta_size,
recon, & recon_size, sizeof (recon))))
{
return ret;
}
CHECK(tpos == recon_size);
CHECK(memcmp(target, recon, recon_size) == 0);
return 0;
}
/*
* This tests the 32/64bit ambiguity for source-window matching.
*/
static int
test_source_cksum_offset (xd3_stream *stream, int ignore)
{
xd3_source source;
// Inputs are:
struct {
xoff_t cpos; // stream->srcwin_cksum_pos;
xoff_t ipos; // stream->total_in;
xoff_t size; // stream->src->size;
usize_t input; // input 32-bit offset
xoff_t output; // output 64-bit offset
} cksum_test[] = {
// If cpos is <= 2^32
{ 1, 1, 1, 1, 1 },
#if XD3_USE_LARGEFILE64
// cpos ipos size input output
// 0x____xxxxxULL, 0x____xxxxxULL, 0x____xxxxxULL, 0x___xxxxxUL, 0x____xxxxxULL
{ 0x100100000ULL, 0x100000000ULL, 0x100200000ULL, 0x00000000UL, 0x100000000ULL },
{ 0x100100000ULL, 0x100000000ULL, 0x100200000ULL, 0xF0000000UL, 0x0F0000000ULL },
{ 0x100200000ULL, 0x100100000ULL, 0x100200000ULL, 0x00300000UL, 0x000300000ULL },
{ 25771983104ULL, 25770000000ULL, 26414808769ULL, 2139216707UL, 23614053187ULL },
#endif
{ 0, 0, 0, 0, 0 },
}, *test_ptr;
stream->src = &source;
for (test_ptr = cksum_test; test_ptr->cpos; test_ptr++) {
xoff_t r;
stream->srcwin_cksum_pos = test_ptr->cpos;
stream->total_in = test_ptr->ipos;
r = xd3_source_cksum_offset(stream, test_ptr->input);
CHECK(r == test_ptr->output);
}
return 0;
}
static int
test_in_memory (xd3_stream *stream, int ignore)
{
// test_text is 256 bytes
uint8_t ibuf[sizeof(test_text)];
uint8_t dbuf[sizeof(test_text)];
uint8_t obuf[sizeof(test_text)];
usize_t size = sizeof(test_text);
usize_t dsize, osize;
int r1, r2;
int eflags = SECONDARY_DJW ? XD3_SEC_DJW : 0;
memcpy(ibuf, test_text, size);
memset(ibuf + 128, 0, 16);
r1 = xd3_encode_memory(ibuf, size,
test_text, size,
dbuf, &dsize, size, eflags);
r2 = xd3_decode_memory(dbuf, dsize,
test_text, size,
obuf, &osize, size, 0);
if (r1 != 0 || r2 != 0 || dsize >= (size/2) || dsize < 1 ||
osize != size) {
stream->msg = "encode/decode size error";
return XD3_INTERNAL;
}
if (memcmp(obuf, ibuf, size) != 0) {
stream->msg = "encode/decode data error";
return XD3_INTERNAL;
}
return 0;
}
/***********************************************************************
TEST MAIN
***********************************************************************/
static int
xd3_selftest (void)
{
#define DO_TEST(fn,flags,arg) \
do { \
xd3_stream stream; \
xd3_config config; \
xd3_init_config (& config, flags); \
DP(RINT "xdelta3: testing " #fn "%s...", \
flags ? (" (" #flags ")") : ""); \
if ((ret = xd3_config_stream (& stream, & config) == 0) && \
(ret = test_ ## fn (& stream, arg)) == 0) { \
DP(RINT " success\n"); \
} else { \
DP(RINT " failed: %s: %s\n", xd3_errstring (& stream), \
xd3_mainerror (ret)); } \
xd3_free_stream (& stream); \
if (ret != 0) { goto failure; } \
} while (0)
int ret;
#ifndef WIN32
if (getuid() == 0)
{
DP(RINT "xdelta3: This test should not be run as root.\n");
ret = XD3_INVALID;
goto failure;
}
#endif
DO_TEST (random_numbers, 0, 0);
DO_TEST (decode_integer_end_of_input, 0, 0);
DO_TEST (decode_integer_overflow, 0, 0);
DO_TEST (encode_decode_uint32_t, 0, 0);
DO_TEST (encode_decode_uint64_t, 0, 0);
DO_TEST (usize_t_overflow, 0, 0);
DO_TEST (forward_match, 0, 0);
DO_TEST (address_cache, 0, 0);
IF_GENCODETBL (DO_TEST (address_cache, XD3_ALT_CODE_TABLE, 0));
DO_TEST (string_matching, 0, 0);
DO_TEST (choose_instruction, 0, 0);
DO_TEST (identical_behavior, 0, 0);
DO_TEST (in_memory, 0, 0);
IF_GENCODETBL (DO_TEST (choose_instruction, XD3_ALT_CODE_TABLE, 0));
IF_GENCODETBL (DO_TEST (encode_code_table, 0, 0));
DO_TEST (iopt_flush_instructions, 0, 0);
DO_TEST (source_cksum_offset, 0, 0);
DO_TEST (decompress_single_bit_error, 0, 3);
DO_TEST (decompress_single_bit_error, XD3_ADLER32, 3);
IF_FGK (DO_TEST (decompress_single_bit_error, XD3_SEC_FGK, 3));
IF_DJW (DO_TEST (decompress_single_bit_error, XD3_SEC_DJW, 8));
/* There are many expected non-failures for ALT_CODE_TABLE because
* not all of the instruction codes are used. */
IF_GENCODETBL (
DO_TEST (decompress_single_bit_error, XD3_ALT_CODE_TABLE, 224));
#ifndef WIN32
DO_TEST (force_behavior, 0, 0);
DO_TEST (stdout_behavior, 0, 0);
DO_TEST (no_output, 0, 0);
DO_TEST (command_line_arguments, 0, 0);
#if EXTERNAL_COMPRESSION
DO_TEST (source_decompression, 0, 0);
DO_TEST (externally_compressed_io, 0, 0);
#endif
DO_TEST (recode_command, 0, 0);
#endif /* WIN32 */
IF_DJW (DO_TEST (secondary_huff, 0, DJW_MAX_GROUPS));
IF_FGK (DO_TEST (secondary_fgk, 0, 1));
DO_TEST (compressed_stream_overflow, 0, 0);
failure:
test_cleanup ();
return ret == 0 ? EXIT_SUCCESS : EXIT_FAILURE;
#undef DO_TEST
}
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