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c2f08236ed786a48e50af33ecc5c0f951c14761b
git/t/unit-tests/t-reftable-block.c
Patrick Steinhardt c2f08236ed reftable/system: stop depending on "hash.h" 
We include "hash.h" in "reftable/system.h" such that we can use hash
format IDs as well as the raw size of SHA1 and SHA256. As we are in the
process of converting the reftable library to become standalone we of
course cannot rely on those constants anymore.

Introduce a new `enum reftable_hash` to replace internal uses of the
hash format IDs and new constants that replace internal uses of the hash
size. Adapt the reftable backend to set up the correct hash function.

Signed-off-by: Patrick Steinhardt <ps@pks.im>
Signed-off-by: Junio C Hamano <gitster@pobox.com>
2024-11-19 12:23:10 +09:00

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/*
Copyright 2020 Google LLC
Use of this source code is governed by a BSD-style
license that can be found in the LICENSE file or at
https://developers.google.com/open-source/licenses/bsd
*/
#include "test-lib.h"
#include "reftable/block.h"
#include "reftable/blocksource.h"
#include "reftable/constants.h"
#include "reftable/reftable-error.h"
static void t_ref_block_read_write(void)
{
const int header_off = 21; /* random */
struct reftable_record recs[30];
const size_t N = ARRAY_SIZE(recs);
const size_t block_size = 1024;
struct reftable_block block = { 0 };
struct block_writer bw = {
.last_key = REFTABLE_BUF_INIT,
};
struct reftable_record rec = {
.type = BLOCK_TYPE_REF,
};
size_t i = 0;
int ret;
struct block_reader br = { 0 };
struct block_iter it = BLOCK_ITER_INIT;
struct reftable_buf want = REFTABLE_BUF_INIT, buf = REFTABLE_BUF_INIT;
REFTABLE_CALLOC_ARRAY(block.data, block_size);
check(block.data != NULL);
block.len = block_size;
block_source_from_buf(&block.source ,&buf);
ret = block_writer_init(&bw, BLOCK_TYPE_REF, block.data, block_size,
header_off, hash_size(REFTABLE_HASH_SHA1));
check(!ret);
rec.u.ref.refname = (char *) "";
rec.u.ref.value_type = REFTABLE_REF_DELETION;
ret = block_writer_add(&bw, &rec);
check_int(ret, ==, REFTABLE_API_ERROR);
for (i = 0; i < N; i++) {
rec.u.ref.refname = xstrfmt("branch%02"PRIuMAX, (uintmax_t)i);
rec.u.ref.value_type = REFTABLE_REF_VAL1;
memset(rec.u.ref.value.val1, i, REFTABLE_HASH_SIZE_SHA1);
recs[i] = rec;
ret = block_writer_add(&bw, &rec);
rec.u.ref.refname = NULL;
rec.u.ref.value_type = REFTABLE_REF_DELETION;
check_int(ret, ==, 0);
}
ret = block_writer_finish(&bw);
check_int(ret, >, 0);
block_writer_release(&bw);
block_reader_init(&br, &block, header_off, block_size, REFTABLE_HASH_SIZE_SHA1);
block_iter_seek_start(&it, &br);
for (i = 0; ; i++) {
ret = block_iter_next(&it, &rec);
check_int(ret, >=, 0);
if (ret > 0) {
check_int(i, ==, N);
break;
}
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
}
for (i = 0; i < N; i++) {
block_iter_reset(&it);
reftable_record_key(&recs[i], &want);
ret = block_iter_seek_key(&it, &br, &want);
check_int(ret, ==, 0);
ret = block_iter_next(&it, &rec);
check_int(ret, ==, 0);
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
want.len--;
ret = block_iter_seek_key(&it, &br, &want);
check_int(ret, ==, 0);
ret = block_iter_next(&it, &rec);
check_int(ret, ==, 0);
check(reftable_record_equal(&recs[10 * (i / 10)], &rec, REFTABLE_HASH_SIZE_SHA1));
}
block_reader_release(&br);
block_iter_close(&it);
reftable_record_release(&rec);
reftable_block_done(&br.block);
reftable_buf_release(&want);
reftable_buf_release(&buf);
for (i = 0; i < N; i++)
reftable_record_release(&recs[i]);
}
static void t_log_block_read_write(void)
{
const int header_off = 21;
struct reftable_record recs[30];
const size_t N = ARRAY_SIZE(recs);
const size_t block_size = 2048;
struct reftable_block block = { 0 };
struct block_writer bw = {
.last_key = REFTABLE_BUF_INIT,
};
struct reftable_record rec = {
.type = BLOCK_TYPE_LOG,
};
size_t i = 0;
int ret;
struct block_reader br = { 0 };
struct block_iter it = BLOCK_ITER_INIT;
struct reftable_buf want = REFTABLE_BUF_INIT, buf = REFTABLE_BUF_INIT;
REFTABLE_CALLOC_ARRAY(block.data, block_size);
check(block.data != NULL);
block.len = block_size;
block_source_from_buf(&block.source ,&buf);
ret = block_writer_init(&bw, BLOCK_TYPE_LOG, block.data, block_size,
header_off, hash_size(REFTABLE_HASH_SHA1));
check(!ret);
for (i = 0; i < N; i++) {
rec.u.log.refname = xstrfmt("branch%02"PRIuMAX , (uintmax_t)i);
rec.u.log.update_index = i;
rec.u.log.value_type = REFTABLE_LOG_UPDATE;
recs[i] = rec;
ret = block_writer_add(&bw, &rec);
rec.u.log.refname = NULL;
rec.u.log.value_type = REFTABLE_LOG_DELETION;
check_int(ret, ==, 0);
}
ret = block_writer_finish(&bw);
check_int(ret, >, 0);
block_writer_release(&bw);
block_reader_init(&br, &block, header_off, block_size, REFTABLE_HASH_SIZE_SHA1);
block_iter_seek_start(&it, &br);
for (i = 0; ; i++) {
ret = block_iter_next(&it, &rec);
check_int(ret, >=, 0);
if (ret > 0) {
check_int(i, ==, N);
break;
}
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
}
for (i = 0; i < N; i++) {
block_iter_reset(&it);
reftable_buf_reset(&want);
check(!reftable_buf_addstr(&want, recs[i].u.log.refname));
ret = block_iter_seek_key(&it, &br, &want);
check_int(ret, ==, 0);
ret = block_iter_next(&it, &rec);
check_int(ret, ==, 0);
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
want.len--;
ret = block_iter_seek_key(&it, &br, &want);
check_int(ret, ==, 0);
ret = block_iter_next(&it, &rec);
check_int(ret, ==, 0);
check(reftable_record_equal(&recs[10 * (i / 10)], &rec, REFTABLE_HASH_SIZE_SHA1));
}
block_reader_release(&br);
block_iter_close(&it);
reftable_record_release(&rec);
reftable_block_done(&br.block);
reftable_buf_release(&want);
reftable_buf_release(&buf);
for (i = 0; i < N; i++)
reftable_record_release(&recs[i]);
}
static void t_obj_block_read_write(void)
{
const int header_off = 21;
struct reftable_record recs[30];
const size_t N = ARRAY_SIZE(recs);
const size_t block_size = 1024;
struct reftable_block block = { 0 };
struct block_writer bw = {
.last_key = REFTABLE_BUF_INIT,
};
struct reftable_record rec = {
.type = BLOCK_TYPE_OBJ,
};
size_t i = 0;
int ret;
struct block_reader br = { 0 };
struct block_iter it = BLOCK_ITER_INIT;
struct reftable_buf want = REFTABLE_BUF_INIT, buf = REFTABLE_BUF_INIT;
REFTABLE_CALLOC_ARRAY(block.data, block_size);
check(block.data != NULL);
block.len = block_size;
block_source_from_buf(&block.source, &buf);
ret = block_writer_init(&bw, BLOCK_TYPE_OBJ, block.data, block_size,
header_off, hash_size(REFTABLE_HASH_SHA1));
check(!ret);
for (i = 0; i < N; i++) {
uint8_t bytes[] = { i, i + 1, i + 2, i + 3, i + 5 }, *allocated;
DUP_ARRAY(allocated, bytes, ARRAY_SIZE(bytes));
rec.u.obj.hash_prefix = allocated;
rec.u.obj.hash_prefix_len = 5;
recs[i] = rec;
ret = block_writer_add(&bw, &rec);
rec.u.obj.hash_prefix = NULL;
rec.u.obj.hash_prefix_len = 0;
check_int(ret, ==, 0);
}
ret = block_writer_finish(&bw);
check_int(ret, >, 0);
block_writer_release(&bw);
block_reader_init(&br, &block, header_off, block_size, REFTABLE_HASH_SIZE_SHA1);
block_iter_seek_start(&it, &br);
for (i = 0; ; i++) {
ret = block_iter_next(&it, &rec);
check_int(ret, >=, 0);
if (ret > 0) {
check_int(i, ==, N);
break;
}
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
}
for (i = 0; i < N; i++) {
block_iter_reset(&it);
reftable_record_key(&recs[i], &want);
ret = block_iter_seek_key(&it, &br, &want);
check_int(ret, ==, 0);
ret = block_iter_next(&it, &rec);
check_int(ret, ==, 0);
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
}
block_reader_release(&br);
block_iter_close(&it);
reftable_record_release(&rec);
reftable_block_done(&br.block);
reftable_buf_release(&want);
reftable_buf_release(&buf);
for (i = 0; i < N; i++)
reftable_record_release(&recs[i]);
}
static void t_index_block_read_write(void)
{
const int header_off = 21;
struct reftable_record recs[30];
const size_t N = ARRAY_SIZE(recs);
const size_t block_size = 1024;
struct reftable_block block = { 0 };
struct block_writer bw = {
.last_key = REFTABLE_BUF_INIT,
};
struct reftable_record rec = {
.type = BLOCK_TYPE_INDEX,
.u.idx.last_key = REFTABLE_BUF_INIT,
};
size_t i = 0;
int ret;
struct block_reader br = { 0 };
struct block_iter it = BLOCK_ITER_INIT;
struct reftable_buf want = REFTABLE_BUF_INIT, buf = REFTABLE_BUF_INIT;
REFTABLE_CALLOC_ARRAY(block.data, block_size);
check(block.data != NULL);
block.len = block_size;
block_source_from_buf(&block.source, &buf);
ret = block_writer_init(&bw, BLOCK_TYPE_INDEX, block.data, block_size,
header_off, hash_size(REFTABLE_HASH_SHA1));
check(!ret);
for (i = 0; i < N; i++) {
char buf[128];
snprintf(buf, sizeof(buf), "branch%02"PRIuMAX, (uintmax_t)i);
reftable_buf_init(&recs[i].u.idx.last_key);
recs[i].type = BLOCK_TYPE_INDEX;
check(!reftable_buf_addstr(&recs[i].u.idx.last_key, buf));
recs[i].u.idx.offset = i;
ret = block_writer_add(&bw, &recs[i]);
check_int(ret, ==, 0);
}
ret = block_writer_finish(&bw);
check_int(ret, >, 0);
block_writer_release(&bw);
block_reader_init(&br, &block, header_off, block_size, REFTABLE_HASH_SIZE_SHA1);
block_iter_seek_start(&it, &br);
for (i = 0; ; i++) {
ret = block_iter_next(&it, &rec);
check_int(ret, >=, 0);
if (ret > 0) {
check_int(i, ==, N);
break;
}
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
}
for (i = 0; i < N; i++) {
block_iter_reset(&it);
reftable_record_key(&recs[i], &want);
ret = block_iter_seek_key(&it, &br, &want);
check_int(ret, ==, 0);
ret = block_iter_next(&it, &rec);
check_int(ret, ==, 0);
check(reftable_record_equal(&recs[i], &rec, REFTABLE_HASH_SIZE_SHA1));
want.len--;
ret = block_iter_seek_key(&it, &br, &want);
check_int(ret, ==, 0);
ret = block_iter_next(&it, &rec);
check_int(ret, ==, 0);
check(reftable_record_equal(&recs[10 * (i / 10)], &rec, REFTABLE_HASH_SIZE_SHA1));
}
block_reader_release(&br);
block_iter_close(&it);
reftable_record_release(&rec);
reftable_block_done(&br.block);
reftable_buf_release(&want);
reftable_buf_release(&buf);
for (i = 0; i < N; i++)
reftable_record_release(&recs[i]);
}
int cmd_main(int argc UNUSED, const char *argv[] UNUSED)
{
TEST(t_index_block_read_write(), "read-write operations on index blocks work");
TEST(t_log_block_read_write(), "read-write operations on log blocks work");
TEST(t_obj_block_read_write(), "read-write operations on obj blocks work");
TEST(t_ref_block_read_write(), "read-write operations on ref blocks work");
return test_done();
}
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