Hash :
e6d93612
Author :
Date :
2021-11-16T23:59:43
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#include "clar_libgit2.h"
#include "zstream.h"
static const char *data = "This is a test test test of This is a test";
#define INFLATE_EXTRA 2
static void assert_zlib_equal_(
const void *expected, size_t e_len,
const void *compressed, size_t c_len,
const char *msg, const char *file, const char *func, int line)
{
z_stream stream;
char *expanded = git__calloc(1, e_len + INFLATE_EXTRA);
cl_assert(expanded);
memset(&stream, 0, sizeof(stream));
stream.next_out = (Bytef *)expanded;
stream.avail_out = (uInt)(e_len + INFLATE_EXTRA);
stream.next_in = (Bytef *)compressed;
stream.avail_in = (uInt)c_len;
cl_assert(inflateInit(&stream) == Z_OK);
cl_assert(inflate(&stream, Z_FINISH));
inflateEnd(&stream);
clar__assert_equal(
file, func, line, msg, 1,
"%d", (int)stream.total_out, (int)e_len);
clar__assert_equal(
file, func, line, "Buffer len was not exact match", 1,
"%d", (int)stream.avail_out, (int)INFLATE_EXTRA);
clar__assert(
memcmp(expanded, expected, e_len) == 0,
file, func, line, "uncompressed data did not match", NULL, 1);
git__free(expanded);
}
#define assert_zlib_equal(E,EL,C,CL) \
assert_zlib_equal_(E, EL, C, CL, #EL " != " #CL, __FILE__, __func__, (int)__LINE__)
void test_zstream__basic(void)
{
git_zstream z = GIT_ZSTREAM_INIT;
char out[128];
size_t outlen = sizeof(out);
cl_git_pass(git_zstream_init(&z, GIT_ZSTREAM_DEFLATE));
cl_git_pass(git_zstream_set_input(&z, data, strlen(data) + 1));
cl_git_pass(git_zstream_get_output(out, &outlen, &z));
cl_assert(git_zstream_done(&z));
cl_assert(outlen > 0);
git_zstream_free(&z);
assert_zlib_equal(data, strlen(data) + 1, out, outlen);
}
void test_zstream__fails_on_trailing_garbage(void)
{
git_str deflated = GIT_STR_INIT, inflated = GIT_STR_INIT;
char i = 0;
/* compress a simple string */
git_zstream_deflatebuf(&deflated, "foobar!!", 8);
/* append some garbage */
for (i = 0; i < 10; i++) {
git_str_putc(&deflated, i);
}
cl_git_fail(git_zstream_inflatebuf(&inflated, deflated.ptr, deflated.size));
git_str_dispose(&deflated);
git_str_dispose(&inflated);
}
void test_zstream__buffer(void)
{
git_str out = GIT_STR_INIT;
cl_git_pass(git_zstream_deflatebuf(&out, data, strlen(data) + 1));
assert_zlib_equal(data, strlen(data) + 1, out.ptr, out.size);
git_str_dispose(&out);
}
#define BIG_STRING_PART "Big Data IS Big - Long Data IS Long - We need a buffer larger than 1024 x 1024 to make sure we trigger chunked compression - Big Big Data IS Bigger than Big - Long Long Data IS Longer than Long"
static void compress_and_decompress_input_various_ways(git_str *input)
{
git_str out1 = GIT_STR_INIT, out2 = GIT_STR_INIT;
git_str inflated = GIT_STR_INIT;
size_t i, fixed_size = max(input->size / 2, 256);
char *fixed = git__malloc(fixed_size);
cl_assert(fixed);
/* compress with deflatebuf */
cl_git_pass(git_zstream_deflatebuf(&out1, input->ptr, input->size));
assert_zlib_equal(input->ptr, input->size, out1.ptr, out1.size);
/* compress with various fixed size buffer (accumulating the output) */
for (i = 0; i < 3; ++i) {
git_zstream zs = GIT_ZSTREAM_INIT;
size_t use_fixed_size;
switch (i) {
case 0: use_fixed_size = 256; break;
case 1: use_fixed_size = fixed_size / 2; break;
case 2: use_fixed_size = fixed_size; break;
}
cl_assert(use_fixed_size <= fixed_size);
cl_git_pass(git_zstream_init(&zs, GIT_ZSTREAM_DEFLATE));
cl_git_pass(git_zstream_set_input(&zs, input->ptr, input->size));
while (!git_zstream_done(&zs)) {
size_t written = use_fixed_size;
cl_git_pass(git_zstream_get_output(fixed, &written, &zs));
cl_git_pass(git_str_put(&out2, fixed, written));
}
git_zstream_free(&zs);
assert_zlib_equal(input->ptr, input->size, out2.ptr, out2.size);
/* did both approaches give the same data? */
cl_assert_equal_sz(out1.size, out2.size);
cl_assert(!memcmp(out1.ptr, out2.ptr, out1.size));
git_str_dispose(&out2);
}
cl_git_pass(git_zstream_inflatebuf(&inflated, out1.ptr, out1.size));
cl_assert_equal_i(input->size, inflated.size);
cl_assert(memcmp(input->ptr, inflated.ptr, inflated.size) == 0);
git_str_dispose(&out1);
git_str_dispose(&inflated);
git__free(fixed);
}
void test_zstream__big_data(void)
{
git_str in = GIT_STR_INIT;
size_t scan, target;
for (target = 1024; target <= 1024 * 1024 * 4; target *= 8) {
/* make a big string that's easy to compress */
git_str_clear(&in);
while (in.size < target)
cl_git_pass(
git_str_put(&in, BIG_STRING_PART, strlen(BIG_STRING_PART)));
compress_and_decompress_input_various_ways(&in);
/* make a big string that's hard to compress */
srand(0xabad1dea);
for (scan = 0; scan < in.size; ++scan)
in.ptr[scan] = (char)rand();
compress_and_decompress_input_various_ways(&in);
}
git_str_dispose(&in);
}