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///////////////////////////////////////////////////////////////////////////////
//
/// \file       test_index.c
/// \brief      Tests functions handling the lzma_index structure
//
//  Author:     Lasse Collin
//
//  This file has been put into the public domain.
//  You can do whatever you want with this file.
//
///////////////////////////////////////////////////////////////////////////////

#include "tests.h"

#define MEMLIMIT (LZMA_VLI_C(1) << 20)

#define SMALL_COUNT 3
#define BIG_COUNT 5555


static lzma_index *
create_empty(void)
{
	lzma_index *i = lzma_index_init(NULL);
	expect(i != NULL);
	return i;
}


static lzma_index *
create_small(void)
{
	lzma_index *i = lzma_index_init(NULL);
	expect(i != NULL);
	expect(lzma_index_append(i, NULL, 101, 555) == LZMA_OK);
	expect(lzma_index_append(i, NULL, 602, 777) == LZMA_OK);
	expect(lzma_index_append(i, NULL, 804, 999) == LZMA_OK);
	return i;
}


static lzma_index *
create_big(void)
{
	lzma_index *i = lzma_index_init(NULL);
	expect(i != NULL);

	lzma_vli total_size = 0;
	lzma_vli uncompressed_size = 0;

	// Add pseudo-random sizes (but always the same size values).
	uint32_t n = 11;
	for (size_t j = 0; j < BIG_COUNT; ++j) {
		n = 7019 * n + 7607;
		const uint32_t t = n * 3011;
		expect(lzma_index_append(i, NULL, t, n) == LZMA_OK);
		total_size += (t + 3) & ~LZMA_VLI_C(3);
		uncompressed_size += n;
	}

	expect(lzma_index_block_count(i) == BIG_COUNT);
	expect(lzma_index_total_size(i) == total_size);
	expect(lzma_index_uncompressed_size(i) == uncompressed_size);
	expect(lzma_index_total_size(i) + lzma_index_size(i)
				+ 2 * LZMA_STREAM_HEADER_SIZE
			== lzma_index_stream_size(i));

	return i;
}


static bool
is_equal(const lzma_index *a, const lzma_index *b)
{
	// Compare only the Stream and Block sizes and offsets.
	lzma_index_iter ra, rb;
	lzma_index_iter_init(&ra, a);
	lzma_index_iter_init(&rb, b);

	while (true) {
		bool reta = lzma_index_iter_next(&ra, LZMA_INDEX_ITER_ANY);
		bool retb = lzma_index_iter_next(&rb, LZMA_INDEX_ITER_ANY);
		if (reta)
			return !(reta ^ retb);

		if (ra.stream.number != rb.stream.number
				|| ra.stream.block_count
					!= rb.stream.block_count
				|| ra.stream.compressed_offset
					!= rb.stream.compressed_offset
				|| ra.stream.uncompressed_offset
					!= rb.stream.uncompressed_offset
				|| ra.stream.compressed_size
					!= rb.stream.compressed_size
				|| ra.stream.uncompressed_size
					!= rb.stream.uncompressed_size
				|| ra.stream.padding
					!= rb.stream.padding)
			return false;

		if (ra.stream.block_count == 0)
			continue;

		if (ra.block.number_in_file != rb.block.number_in_file
				|| ra.block.compressed_file_offset
					!= rb.block.compressed_file_offset
				|| ra.block.uncompressed_file_offset
					!= rb.block.uncompressed_file_offset
				|| ra.block.number_in_stream
					!= rb.block.number_in_stream
				|| ra.block.compressed_stream_offset
					!= rb.block.compressed_stream_offset
				|| ra.block.uncompressed_stream_offset
					!= rb.block.uncompressed_stream_offset
				|| ra.block.uncompressed_size
					!= rb.block.uncompressed_size
				|| ra.block.unpadded_size
					!= rb.block.unpadded_size
				|| ra.block.total_size
					!= rb.block.total_size)
			return false;
	}
}


static void
test_equal(void)
{
	lzma_index *a = create_empty();
	lzma_index *b = create_small();
	lzma_index *c = create_big();
	expect(a && b && c);

	expect(is_equal(a, a));
	expect(is_equal(b, b));
	expect(is_equal(c, c));

	expect(!is_equal(a, b));
	expect(!is_equal(a, c));
	expect(!is_equal(b, c));

	lzma_index_end(a, NULL);
	lzma_index_end(b, NULL);
	lzma_index_end(c, NULL);
}


static void
test_overflow(void)
{
	// Integer overflow tests
	lzma_index *i = create_empty();

	expect(lzma_index_append(i, NULL, LZMA_VLI_MAX - 5, 1234)
			== LZMA_DATA_ERROR);

	// TODO

	lzma_index_end(i, NULL);
}


static void
test_copy(const lzma_index *i)
{
	lzma_index *d = lzma_index_dup(i, NULL);
	expect(d != NULL);
	expect(is_equal(i, d));
	lzma_index_end(d, NULL);
}


static void
test_read(lzma_index *i)
{
	lzma_index_iter r;
	lzma_index_iter_init(&r, i);

	// Try twice so we see that rewinding works.
	for (size_t j = 0; j < 2; ++j) {
		lzma_vli total_size = 0;
		lzma_vli uncompressed_size = 0;
		lzma_vli stream_offset = LZMA_STREAM_HEADER_SIZE;
		lzma_vli uncompressed_offset = 0;
		uint32_t count = 0;

		while (!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)) {
			++count;

			total_size += r.block.total_size;
			uncompressed_size += r.block.uncompressed_size;

			expect(r.block.compressed_file_offset
					== stream_offset);
			expect(r.block.uncompressed_file_offset
					== uncompressed_offset);

			stream_offset += r.block.total_size;
			uncompressed_offset += r.block.uncompressed_size;
		}

		expect(lzma_index_total_size(i) == total_size);
		expect(lzma_index_uncompressed_size(i) == uncompressed_size);
		expect(lzma_index_block_count(i) == count);

		lzma_index_iter_rewind(&r);
	}
}


static void
test_code(lzma_index *i)
{
#if defined(HAVE_ENCODERS) && defined(HAVE_DECODERS)
	const size_t alloc_size = 128 * 1024;
	uint8_t *buf = malloc(alloc_size);
	expect(buf != NULL);

	// Encode
	lzma_stream strm = LZMA_STREAM_INIT;
	expect(lzma_index_encoder(&strm, i) == LZMA_OK);
	const lzma_vli index_size = lzma_index_size(i);
	succeed(coder_loop(&strm, NULL, 0, buf, index_size,
			LZMA_STREAM_END, LZMA_RUN));

	// Decode
	lzma_index *d;
	expect(lzma_index_decoder(&strm, &d, MEMLIMIT) == LZMA_OK);
	expect(d == NULL);
	succeed(decoder_loop(&strm, buf, index_size));

	expect(is_equal(i, d));

	lzma_index_end(d, NULL);
	lzma_end(&strm);

	// Decode with hashing
	lzma_index_hash *h = lzma_index_hash_init(NULL, NULL);
	expect(h != NULL);
	lzma_index_iter r;
	lzma_index_iter_init(&r, i);
	while (!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK))
		expect(lzma_index_hash_append(h, r.block.unpadded_size,
				r.block.uncompressed_size) == LZMA_OK);
	size_t pos = 0;
	while (pos < index_size - 1)
		expect(lzma_index_hash_decode(h, buf, &pos, pos + 1)
				== LZMA_OK);
	expect(lzma_index_hash_decode(h, buf, &pos, pos + 1)
			== LZMA_STREAM_END);

	lzma_index_hash_end(h, NULL);

	// Encode buffer
	size_t buf_pos = 1;
	expect(lzma_index_buffer_encode(i, buf, &buf_pos, index_size)
			== LZMA_BUF_ERROR);
	expect(buf_pos == 1);

	succeed(lzma_index_buffer_encode(i, buf, &buf_pos, index_size + 1));
	expect(buf_pos == index_size + 1);

	// Decode buffer
	buf_pos = 1;
	uint64_t memlimit = MEMLIMIT;
	expect(lzma_index_buffer_decode(&d, &memlimit, NULL, buf, &buf_pos,
			index_size) == LZMA_DATA_ERROR);
	expect(buf_pos == 1);
	expect(d == NULL);

	succeed(lzma_index_buffer_decode(&d, &memlimit, NULL, buf, &buf_pos,
			index_size + 1));
	expect(buf_pos == index_size + 1);
	expect(is_equal(i, d));

	lzma_index_end(d, NULL);

	free(buf);
#else
	(void)i;
#endif
}


static void
test_many(lzma_index *i)
{
	test_copy(i);
	test_read(i);
	test_code(i);
}


static void
test_cat(void)
{
	lzma_index *a, *b, *c, *d, *e, *f;
	lzma_index_iter r;

	// Empty Indexes
	a = create_empty();
	b = create_empty();
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	expect(lzma_index_block_count(a) == 0);
	expect(lzma_index_stream_size(a) == 2 * LZMA_STREAM_HEADER_SIZE + 8);
	expect(lzma_index_file_size(a)
			== 2 * (2 * LZMA_STREAM_HEADER_SIZE + 8));
	lzma_index_iter_init(&r, a);
	expect(lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK));

	b = create_empty();
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	expect(lzma_index_block_count(a) == 0);
	expect(lzma_index_stream_size(a) == 2 * LZMA_STREAM_HEADER_SIZE + 8);
	expect(lzma_index_file_size(a)
			== 3 * (2 * LZMA_STREAM_HEADER_SIZE + 8));

	b = create_empty();
	c = create_empty();
	expect(lzma_index_stream_padding(b, 4) == LZMA_OK);
	expect(lzma_index_cat(b, c, NULL) == LZMA_OK);
	expect(lzma_index_block_count(b) == 0);
	expect(lzma_index_stream_size(b) == 2 * LZMA_STREAM_HEADER_SIZE + 8);
	expect(lzma_index_file_size(b)
			== 2 * (2 * LZMA_STREAM_HEADER_SIZE + 8) + 4);

	expect(lzma_index_stream_padding(a, 8) == LZMA_OK);
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	expect(lzma_index_block_count(a) == 0);
	expect(lzma_index_stream_size(a) == 2 * LZMA_STREAM_HEADER_SIZE + 8);
	expect(lzma_index_file_size(a)
			== 5 * (2 * LZMA_STREAM_HEADER_SIZE + 8) + 4 + 8);

	expect(lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK));
	lzma_index_iter_rewind(&r);
	expect(lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK));
	lzma_index_end(a, NULL);

	// Small Indexes
	a = create_small();
	lzma_vli stream_size = lzma_index_stream_size(a);
	lzma_index_iter_init(&r, a);
	for (int i = SMALL_COUNT; i >= 0; --i)
		expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)
				^ (i == 0));

	b = create_small();
	expect(lzma_index_stream_padding(a, 4) == LZMA_OK);
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	expect(lzma_index_file_size(a) == stream_size * 2 + 4);
	expect(lzma_index_stream_size(a) > stream_size);
	expect(lzma_index_stream_size(a) < stream_size * 2);
	for (int i = SMALL_COUNT; i >= 0; --i)
		expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)
				^ (i == 0));

	lzma_index_iter_rewind(&r);
	for (int i = SMALL_COUNT * 2; i >= 0; --i)
		expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)
				^ (i == 0));

	b = create_small();
	c = create_small();
	expect(lzma_index_stream_padding(b, 8) == LZMA_OK);
	expect(lzma_index_cat(b, c, NULL) == LZMA_OK);
	expect(lzma_index_stream_padding(a, 12) == LZMA_OK);
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	expect(lzma_index_file_size(a) == stream_size * 4 + 4 + 8 + 12);

	expect(lzma_index_block_count(a) == SMALL_COUNT * 4);
	for (int i = SMALL_COUNT * 2; i >= 0; --i)
		expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)
				^ (i == 0));

	lzma_index_iter_rewind(&r);
	for (int i = SMALL_COUNT * 4; i >= 0; --i)
		expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)
				^ (i == 0));

	lzma_index_end(a, NULL);

	// Mix of empty and small
	a = create_empty();
	b = create_small();
	expect(lzma_index_stream_padding(a, 4) == LZMA_OK);
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	lzma_index_iter_init(&r, a);
	for (int i = SMALL_COUNT; i >= 0; --i)
		expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)
				^ (i == 0));

	lzma_index_end(a, NULL);

	// Big Indexes
	a = create_big();
	stream_size = lzma_index_stream_size(a);
	b = create_big();
	expect(lzma_index_stream_padding(a, 4) == LZMA_OK);
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	expect(lzma_index_file_size(a) == stream_size * 2 + 4);
	expect(lzma_index_stream_size(a) > stream_size);
	expect(lzma_index_stream_size(a) < stream_size * 2);

	b = create_big();
	c = create_big();
	expect(lzma_index_stream_padding(b, 8) == LZMA_OK);
	expect(lzma_index_cat(b, c, NULL) == LZMA_OK);
	expect(lzma_index_stream_padding(a, 12) == LZMA_OK);
	expect(lzma_index_cat(a, b, NULL) == LZMA_OK);
	expect(lzma_index_file_size(a) == stream_size * 4 + 4 + 8 + 12);

	lzma_index_iter_init(&r, a);
	for (int i = BIG_COUNT * 4; i >= 0; --i)
		expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK)
				^ (i == 0));

	lzma_index_end(a, NULL);

	// Test for the bug fix 3d5a99ca373a4e86faf671226ca6487febb9eeac.
	// lzma_index_checks would previously only return the checks
	// for the last stream that was concatenated to the index.
	d = create_small();
	e = create_small();
	f = create_small();

	lzma_stream_flags crc32_flags = {
		.backward_size = LZMA_BACKWARD_SIZE_MIN,
		.check = LZMA_CHECK_CRC32
	};
	expect(lzma_index_stream_flags(d, &crc32_flags) == LZMA_OK);

	lzma_stream_flags crc64_flags = {
		.backward_size = LZMA_BACKWARD_SIZE_MIN,
		.check = LZMA_CHECK_CRC64
	};
	expect(lzma_index_stream_flags(e, &crc64_flags) == LZMA_OK);

	lzma_stream_flags sha256_flags = {
		.backward_size = LZMA_BACKWARD_SIZE_MIN,
		.check = LZMA_CHECK_SHA256
	};
	expect(lzma_index_stream_flags(f, &sha256_flags) == LZMA_OK);

	expect(lzma_index_checks(d) == (1U << LZMA_CHECK_CRC32));
	expect(lzma_index_checks(e) == (1U << LZMA_CHECK_CRC64));
	expect(lzma_index_checks(f) == (1U << LZMA_CHECK_SHA256));

	expect(lzma_index_cat(d, e, NULL) == LZMA_OK);
	expect(lzma_index_checks(d) == ((1U << LZMA_CHECK_CRC32) |
			(1U << LZMA_CHECK_CRC64)));

	expect(lzma_index_cat(d, f, NULL) == LZMA_OK);
	expect(lzma_index_checks(d) == ((1U << LZMA_CHECK_CRC32) |
			(1U << LZMA_CHECK_CRC64) |
			(1U << LZMA_CHECK_SHA256)));

	lzma_index_end(d, NULL);

}


static void
test_locate(void)
{
	lzma_index *i = lzma_index_init(NULL);
	expect(i != NULL);
	lzma_index_iter r;
	lzma_index_iter_init(&r, i);

	// Cannot locate anything from an empty Index.
	expect(lzma_index_iter_locate(&r, 0));
	expect(lzma_index_iter_locate(&r, 555));

	// One empty Record: nothing is found since there's no uncompressed
	// data.
	expect(lzma_index_append(i, NULL, 16, 0) == LZMA_OK);
	expect(lzma_index_iter_locate(&r, 0));

	// Non-empty Record and we can find something.
	expect(lzma_index_append(i, NULL, 32, 5) == LZMA_OK);
	expect(!lzma_index_iter_locate(&r, 0));
	expect(r.block.total_size == 32);
	expect(r.block.uncompressed_size == 5);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + 16);
	expect(r.block.uncompressed_file_offset == 0);

	// Still cannot find anything past the end.
	expect(lzma_index_iter_locate(&r, 5));

	// Add the third Record.
	expect(lzma_index_append(i, NULL, 40, 11) == LZMA_OK);

	expect(!lzma_index_iter_locate(&r, 0));
	expect(r.block.total_size == 32);
	expect(r.block.uncompressed_size == 5);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + 16);
	expect(r.block.uncompressed_file_offset == 0);

	expect(!lzma_index_iter_next(&r, LZMA_INDEX_ITER_BLOCK));
	expect(r.block.total_size == 40);
	expect(r.block.uncompressed_size == 11);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + 16 + 32);
	expect(r.block.uncompressed_file_offset == 5);

	expect(!lzma_index_iter_locate(&r, 2));
	expect(r.block.total_size == 32);
	expect(r.block.uncompressed_size == 5);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + 16);
	expect(r.block.uncompressed_file_offset == 0);

	expect(!lzma_index_iter_locate(&r, 5));
	expect(r.block.total_size == 40);
	expect(r.block.uncompressed_size == 11);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + 16 + 32);
	expect(r.block.uncompressed_file_offset == 5);

	expect(!lzma_index_iter_locate(&r, 5 + 11 - 1));
	expect(r.block.total_size == 40);
	expect(r.block.uncompressed_size == 11);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + 16 + 32);
	expect(r.block.uncompressed_file_offset == 5);

	expect(lzma_index_iter_locate(&r, 5 + 11));
	expect(lzma_index_iter_locate(&r, 5 + 15));

	// Large Index
	lzma_index_end(i, NULL);
	i = lzma_index_init(NULL);
	expect(i != NULL);
	lzma_index_iter_init(&r, i);

	for (size_t n = 4; n <= 4 * 5555; n += 4)
		expect(lzma_index_append(i, NULL, n + 8, n) == LZMA_OK);

	expect(lzma_index_block_count(i) == 5555);

	// First Record
	expect(!lzma_index_iter_locate(&r, 0));
	expect(r.block.total_size == 4 + 8);
	expect(r.block.uncompressed_size == 4);
	expect(r.block.compressed_file_offset == LZMA_STREAM_HEADER_SIZE);
	expect(r.block.uncompressed_file_offset == 0);

	expect(!lzma_index_iter_locate(&r, 3));
	expect(r.block.total_size == 4 + 8);
	expect(r.block.uncompressed_size == 4);
	expect(r.block.compressed_file_offset == LZMA_STREAM_HEADER_SIZE);
	expect(r.block.uncompressed_file_offset == 0);

	// Second Record
	expect(!lzma_index_iter_locate(&r, 4));
	expect(r.block.total_size == 2 * 4 + 8);
	expect(r.block.uncompressed_size == 2 * 4);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + 4 + 8);
	expect(r.block.uncompressed_file_offset == 4);

	// Last Record
	expect(!lzma_index_iter_locate(
			&r, lzma_index_uncompressed_size(i) - 1));
	expect(r.block.total_size == 4 * 5555 + 8);
	expect(r.block.uncompressed_size == 4 * 5555);
	expect(r.block.compressed_file_offset == lzma_index_total_size(i)
			+ LZMA_STREAM_HEADER_SIZE - 4 * 5555 - 8);
	expect(r.block.uncompressed_file_offset
			== lzma_index_uncompressed_size(i) - 4 * 5555);

	// Allocation chunk boundaries. See INDEX_GROUP_SIZE in
	// liblzma/common/index.c.
	const size_t group_multiple = 256 * 4;
	const size_t radius = 8;
	const size_t start = group_multiple - radius;
	lzma_vli ubase = 0;
	lzma_vli tbase = 0;
	size_t n;
	for (n = 1; n < start; ++n) {
		ubase += n * 4;
		tbase += n * 4 + 8;
	}

	while (n < start + 2 * radius) {
		expect(!lzma_index_iter_locate(&r, ubase + n * 4));

		expect(r.block.compressed_file_offset == tbase + n * 4 + 8
				+ LZMA_STREAM_HEADER_SIZE);
		expect(r.block.uncompressed_file_offset == ubase + n * 4);

		tbase += n * 4 + 8;
		ubase += n * 4;
		++n;

		expect(r.block.total_size == n * 4 + 8);
		expect(r.block.uncompressed_size == n * 4);
	}

	// Do it also backwards.
	while (n > start) {
		expect(!lzma_index_iter_locate(&r, ubase + (n - 1) * 4));

		expect(r.block.total_size == n * 4 + 8);
		expect(r.block.uncompressed_size == n * 4);

		--n;
		tbase -= n * 4 + 8;
		ubase -= n * 4;

		expect(r.block.compressed_file_offset == tbase + n * 4 + 8
				+ LZMA_STREAM_HEADER_SIZE);
		expect(r.block.uncompressed_file_offset == ubase + n * 4);
	}

	// Test locating in concatenated Index.
	lzma_index_end(i, NULL);
	i = lzma_index_init(NULL);
	expect(i != NULL);
	lzma_index_iter_init(&r, i);
	for (n = 0; n < group_multiple; ++n)
		expect(lzma_index_append(i, NULL, 8, 0) == LZMA_OK);
	expect(lzma_index_append(i, NULL, 16, 1) == LZMA_OK);
	expect(!lzma_index_iter_locate(&r, 0));
	expect(r.block.total_size == 16);
	expect(r.block.uncompressed_size == 1);
	expect(r.block.compressed_file_offset
			== LZMA_STREAM_HEADER_SIZE + group_multiple * 8);
	expect(r.block.uncompressed_file_offset == 0);

	lzma_index_end(i, NULL);
}


static void
test_corrupt(void)
{
#if defined(HAVE_ENCODERS) && defined(HAVE_DECODERS)
	const size_t alloc_size = 128 * 1024;
	uint8_t *buf = malloc(alloc_size);
	expect(buf != NULL);
	lzma_stream strm = LZMA_STREAM_INIT;

	lzma_index *i = create_empty();
	expect(lzma_index_append(i, NULL, 0, 1) == LZMA_PROG_ERROR);
	lzma_index_end(i, NULL);

	// Create a valid Index and corrupt it in different ways.
	i = create_small();
	expect(lzma_index_encoder(&strm, i) == LZMA_OK);
	succeed(coder_loop(&strm, NULL, 0, buf, 20,
			LZMA_STREAM_END, LZMA_RUN));
	lzma_index_end(i, NULL);

	// Wrong Index Indicator
	buf[0] ^= 1;
	expect(lzma_index_decoder(&strm, &i, MEMLIMIT) == LZMA_OK);
	succeed(decoder_loop_ret(&strm, buf, 1, LZMA_DATA_ERROR));
	buf[0] ^= 1;

	// Wrong Number of Records and thus CRC32 fails.
	--buf[1];
	expect(lzma_index_decoder(&strm, &i, MEMLIMIT) == LZMA_OK);
	succeed(decoder_loop_ret(&strm, buf, 10, LZMA_DATA_ERROR));
	++buf[1];

	// Padding not NULs
	buf[15] ^= 1;
	expect(lzma_index_decoder(&strm, &i, MEMLIMIT) == LZMA_OK);
	succeed(decoder_loop_ret(&strm, buf, 16, LZMA_DATA_ERROR));

	lzma_end(&strm);
	free(buf);
#endif
}


// Allocator that succeeds for the first two allocation but fails the rest.
static void *
my_alloc(void *opaque, size_t a, size_t b)
{
	(void)opaque;

	static unsigned count = 0;
	if (++count > 2)
		return NULL;

	return malloc(a * b);
}

static const lzma_allocator my_allocator = { &my_alloc, NULL, NULL };


int
main(void)
{
	test_equal();

	test_overflow();

	lzma_index *i = create_empty();
	test_many(i);
	lzma_index_end(i, NULL);

	i = create_small();
	test_many(i);
	lzma_index_end(i, NULL);

	i = create_big();
	test_many(i);
	lzma_index_end(i, NULL);

	test_cat();

	test_locate();

	test_corrupt();

	// Test for the bug fix 21515d79d778b8730a434f151b07202d52a04611:
	// liblzma: Fix lzma_index_dup() for empty Streams.
	i = create_empty();
	expect(lzma_index_stream_padding(i, 4) == LZMA_OK);
	test_copy(i);
	lzma_index_end(i, NULL);

	// Test for the bug fix 3bf857edfef51374f6f3fffae3d817f57d3264a0:
	// liblzma: Fix a memory leak in error path of lzma_index_dup().
	// Use Valgrind to see that there are no leaks.
	i = create_small();
	expect(lzma_index_dup(i, &my_allocator) == NULL);
	lzma_index_end(i, NULL);

	return 0;
}