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|
/* -*- Mode: C++ -*- */
#include "test.h"
#include "random.h"
#include "sizes.h"
template <typename Constants>
class Regtest {
public:
typedef typename Constants::Sizes Sizes;
struct Options {
Options()
: encode_srcwin_maxsz(1<<20),
block_size(Constants::BLOCK_SIZE),
window_size(Constants::WINDOW_SIZE),
size_known(false),
iopt_size(XD3_DEFAULT_IOPT_SIZE),
smatch_cfg(XD3_SMATCH_DEFAULT) { }
xoff_t encode_srcwin_maxsz;
size_t block_size;
xoff_t window_size;
bool size_known;
usize_t iopt_size;
xd3_smatch_cfg smatch_cfg;
};
#include "segment.h"
#include "modify.h"
#include "file.h"
#include "cmp.h"
#include "delta.h"
void InMemoryEncodeDecode(const FileSpec &source_file,
const FileSpec &target_file,
Block *coded_data,
const Options &options) {
xd3_stream encode_stream;
xd3_config encode_config;
xd3_source encode_source;
xd3_stream decode_stream;
xd3_config decode_config;
xd3_source decode_source;
xoff_t verified_bytes = 0;
xoff_t encoded_bytes = 0;
if (coded_data) {
coded_data->Reset();
}
memset(&encode_stream, 0, sizeof (encode_stream));
memset(&encode_source, 0, sizeof (encode_source));
memset(&decode_stream, 0, sizeof (decode_stream));
memset(&decode_source, 0, sizeof (decode_source));
xd3_init_config(&encode_config, XD3_ADLER32);
xd3_init_config(&decode_config, XD3_ADLER32);
encode_config.winsize = options.window_size;
encode_config.iopt_size = options.iopt_size;
encode_config.smatch_cfg = options.smatch_cfg;
CHECK_EQ(0, xd3_config_stream (&encode_stream, &encode_config));
CHECK_EQ(0, xd3_config_stream (&decode_stream, &decode_config));
encode_source.blksize = options.block_size;
decode_source.blksize = options.block_size;
encode_source.max_winsize = options.encode_srcwin_maxsz;
decode_source.max_winsize = options.encode_srcwin_maxsz;
if (!options.size_known)
{
xd3_set_source (&encode_stream, &encode_source);
xd3_set_source (&decode_stream, &decode_source);
}
else
{
xd3_set_source_and_size (&encode_stream, &encode_source,
source_file.Size());
xd3_set_source_and_size (&decode_stream, &decode_source,
source_file.Size());
}
BlockIterator source_iterator(source_file, options.block_size);
BlockIterator target_iterator(target_file, Constants::WINDOW_SIZE);
Block encode_source_block, decode_source_block;
Block decoded_block, target_block;
bool encoding = true;
bool done = false;
bool done_after_input = false;
IF_DEBUG1 (XPR(NTR "source %"Q"u[%"Q"u] target %"Q"u winsize %lu\n",
source_file.Size(), options.block_size,
target_file.Size(),
Constants::WINDOW_SIZE));
while (!done) {
target_iterator.Get(&target_block);
xoff_t blks = target_iterator.Blocks();
IF_DEBUG2(XPR(NTR "target in %s: %"Q"u..%"Q"u %"Q"u(%"Q"u) "
"verified %"Q"u\n",
encoding ? "encoding" : "decoding",
target_iterator.Offset(),
target_iterator.Offset() + target_block.Size(),
target_iterator.Blkno(), blks, verified_bytes));
if (blks == 0 || target_iterator.Blkno() == (blks - 1)) {
xd3_set_flags(&encode_stream, XD3_FLUSH | encode_stream.flags);
}
xd3_avail_input(&encode_stream, target_block.Data(), target_block.Size());
encoded_bytes += target_block.Size();
process:
int ret;
const char *msg;
if (encoding) {
ret = xd3_encode_input(&encode_stream);
msg = encode_stream.msg;
} else {
ret = xd3_decode_input(&decode_stream);
msg = decode_stream.msg;
}
(void) msg;
switch (ret) {
case XD3_OUTPUT:
if (encoding) {
if (coded_data != NULL) {
// Optional encoded-output to the caller
coded_data->Append(encode_stream.next_out,
encode_stream.avail_out);
}
// Feed this data to the decoder.
xd3_avail_input(&decode_stream,
encode_stream.next_out,
encode_stream.avail_out);
xd3_consume_output(&encode_stream);
encoding = false;
} else {
decoded_block.Append(decode_stream.next_out,
decode_stream.avail_out);
xd3_consume_output(&decode_stream);
}
goto process;
case XD3_GETSRCBLK: {
xd3_source *src = (encoding ? &encode_source : &decode_source);
Block *block = (encoding ? &encode_source_block : &decode_source_block);
if (encoding) {
IF_DEBUG1(XPR(NTR "[srcblock] %"Q"u last srcpos %"Q"u "
"encodepos %"Q"u\n",
encode_source.getblkno,
encode_stream.match_last_srcpos,
encode_stream.input_position + encode_stream.total_in));
}
source_iterator.SetBlock(src->getblkno);
source_iterator.Get(block);
src->curblkno = src->getblkno;
src->onblk = block->Size();
src->curblk = block->Data();
goto process;
}
case XD3_INPUT:
if (!encoding) {
encoding = true;
goto process;
} else {
if (done_after_input) {
done = true;
continue;
}
if (target_block.Size() < target_iterator.BlockSize()) {
encoding = false;
} else {
target_iterator.Next();
}
continue;
}
case XD3_WINFINISH:
if (encoding) {
if (encode_stream.flags & XD3_FLUSH) {
done_after_input = true;
}
encoding = false;
} else {
CHECK_EQ(0, CmpDifferentBlockBytesAtOffset(decoded_block,
target_file,
verified_bytes));
verified_bytes += decoded_block.Size();
decoded_block.Reset();
encoding = true;
}
goto process;
case XD3_WINSTART:
case XD3_GOTHEADER:
goto process;
default:
XPR(NTR "%s = %s %s\n", encoding ? "E " : " D",
xd3_strerror(ret),
msg == NULL ? "" : msg);
CHECK_EQ(0, ret);
CHECK_EQ(-1, ret);
}
}
CHECK_EQ(target_file.Size(), encoded_bytes);
CHECK_EQ(target_file.Size(), verified_bytes);
CHECK_EQ(0, xd3_close_stream(&decode_stream));
CHECK_EQ(0, xd3_close_stream(&encode_stream));
xd3_free_stream(&encode_stream);
xd3_free_stream(&decode_stream);
}
void MainEncodeDecode(const TmpFile &source_file,
const TmpFile &target_file,
ExtFile *coded_data,
const Options &options) {
vector<const char*> ecmd;
char bbuf[16];
snprintf(bbuf, sizeof(bbuf), "-B%"Q"u", options.encode_srcwin_maxsz);
ecmd.push_back("xdelta3");
ecmd.push_back(bbuf);
ecmd.push_back("-s");
ecmd.push_back(source_file.Name());
ecmd.push_back(target_file.Name());
ecmd.push_back(coded_data->Name());
ecmd.push_back(NULL);
CHECK_EQ(0, xd3_main_cmdline(ecmd.size() - 1,
const_cast<char**>(&ecmd[0])));
vector<const char*> dcmd;
ExtFile recon_file;
dcmd.push_back("xdelta3");
ecmd.push_back(bbuf);
dcmd.push_back("-d");
dcmd.push_back("-s");
dcmd.push_back(source_file.Name());
dcmd.push_back(coded_data->Name());
dcmd.push_back(recon_file.Name());
dcmd.push_back(NULL);
CHECK_EQ(0, xd3_main_cmdline(dcmd.size() - 1,
const_cast<char**>(&dcmd[0])));
CHECK_EQ(0, test_compare_files(recon_file.Name(),
target_file.Name()));
}
// Similar to xd3_process_memory, with support for test Options.
// Exercises xd3_process_stream.
int TestProcessMemory (int is_encode,
int (*func) (xd3_stream *),
const uint8_t *input,
usize_t input_size,
const uint8_t *source,
usize_t source_size,
uint8_t *output,
usize_t *output_size,
usize_t output_size_max,
const Options &options) {
xd3_stream stream;
xd3_config config;
xd3_source src;
int ret;
memset (& stream, 0, sizeof (stream));
memset (& config, 0, sizeof (config));
if (is_encode)
{
config.winsize = input_size;
config.iopt_size = options.iopt_size;
config.sprevsz = xd3_pow2_roundup (config.winsize);
}
if ((ret = xd3_config_stream (&stream, &config)) != 0)
{
goto exit;
}
if (source != NULL)
{
memset (& src, 0, sizeof (src));
src.blksize = source_size;
src.onblk = source_size;
src.curblk = source;
src.curblkno = 0;
src.max_winsize = source_size;
if ((ret = xd3_set_source_and_size (&stream, &src, source_size)) != 0)
{
goto exit;
}
}
if ((ret = xd3_process_stream (is_encode,
& stream,
func, 1,
input, input_size,
output,
output_size,
output_size_max)) != 0)
{
goto exit;
}
exit:
if (ret != 0)
{
IF_DEBUG2 (DP(RINT "test_process_memory: %d: %s\n", ret, stream.msg));
}
xd3_free_stream(&stream);
return ret;
}
void EncodeDecodeAPI(const FileSpec &spec0, const FileSpec &spec1,
Block *delta, const Options &options) {
Block from;
Block to;
spec0.Get(&from, 0, spec0.Size());
spec1.Get(&to, 0, spec1.Size());
delta->SetSize(to.Size() * 1.5);
usize_t out_size;
int enc_ret = TestProcessMemory(true,
&xd3_encode_input,
to.Data(),
to.Size(),
from.Data(),
from.Size(),
delta->Data(),
&out_size,
delta->Size(),
options);
CHECK_EQ(0, enc_ret);
delta->SetSize(out_size);
Block recon;
recon.SetSize(to.Size());
usize_t recon_size;
int dec_ret = xd3_decode_memory(delta->Data(),
delta->Size(),
from.Data(),
from.Size(),
recon.Data(),
&recon_size,
recon.Size(),
0);
CHECK_EQ(0, dec_ret);
CHECK_EQ(0, CmpDifferentBlockBytes(to, recon));
}
//////////////////////////////////////////////////////////////////////
void TestPrintf() {
char buf[64];
xoff_t x = XOFF_T_MAX;
snprintf_func (buf, sizeof(buf), "%"Q"u", x);
const char *expect = XD3_USE_LARGEFILE64 ?
"18446744073709551615" : "4294967295";
XD3_ASSERT(strcmp (buf, expect) == 0);
}
void TestRandomNumbers() {
MTRandom rand;
int rounds = 1<<20;
uint64_t usum = 0;
uint64_t esum = 0;
for (int i = 0; i < rounds; i++) {
usum += rand.Rand32();
esum += rand.ExpRand32(1024);
}
double allowed_error = 0.01;
uint32_t umean = usum / rounds;
uint32_t emean = esum / rounds;
uint32_t uexpect = UINT32_MAX / 2;
uint32_t eexpect = 1024;
if (umean < uexpect * (1.0 - allowed_error) ||
umean > uexpect * (1.0 + allowed_error)) {
XPR(NT "uniform mean error: %u != %u\n", umean, uexpect);
abort();
}
if (emean < eexpect * (1.0 - allowed_error) ||
emean > eexpect * (1.0 + allowed_error)) {
XPR(NT "exponential mean error: %u != %u\n", emean, eexpect);
abort();
}
}
void TestRandomFile() {
MTRandom rand1;
FileSpec spec1(&rand1);
BlockIterator bi(spec1);
spec1.GenerateFixedSize(0);
CHECK_EQ(0, spec1.Size());
CHECK_EQ(0, spec1.Segments());
CHECK_EQ(0, spec1.Blocks());
bi.SetBlock(0);
CHECK_EQ(0, bi.BytesOnBlock());
spec1.GenerateFixedSize(1);
CHECK_EQ(1, spec1.Size());
CHECK_EQ(1, spec1.Segments());
CHECK_EQ(1, spec1.Blocks());
bi.SetBlock(0);
CHECK_EQ(1, bi.BytesOnBlock());
spec1.GenerateFixedSize(Constants::BLOCK_SIZE);
CHECK_EQ(Constants::BLOCK_SIZE, spec1.Size());
CHECK_EQ(1, spec1.Segments());
CHECK_EQ(1, spec1.Blocks());
bi.SetBlock(0);
CHECK_EQ(Constants::BLOCK_SIZE, bi.BytesOnBlock());
bi.SetBlock(1);
CHECK_EQ(0, bi.BytesOnBlock());
spec1.GenerateFixedSize(Constants::BLOCK_SIZE + 1);
CHECK_EQ(Constants::BLOCK_SIZE + 1, spec1.Size());
CHECK_EQ(2, spec1.Segments());
CHECK_EQ(2, spec1.Blocks());
bi.SetBlock(0);
CHECK_EQ(Constants::BLOCK_SIZE, bi.BytesOnBlock());
bi.SetBlock(1);
CHECK_EQ(1, bi.BytesOnBlock());
spec1.GenerateFixedSize(Constants::BLOCK_SIZE * 2);
CHECK_EQ(Constants::BLOCK_SIZE * 2, spec1.Size());
CHECK_EQ(2, spec1.Segments());
CHECK_EQ(2, spec1.Blocks());
bi.SetBlock(0);
CHECK_EQ(Constants::BLOCK_SIZE, bi.BytesOnBlock());
bi.SetBlock(1);
CHECK_EQ(Constants::BLOCK_SIZE, bi.BytesOnBlock());
}
void TestFirstByte() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(0);
spec1.GenerateFixedSize(1);
CHECK_EQ(0, CmpDifferentBytes(spec0, spec0));
CHECK_EQ(0, CmpDifferentBytes(spec1, spec1));
CHECK_EQ(1, CmpDifferentBytes(spec0, spec1));
CHECK_EQ(1, CmpDifferentBytes(spec1, spec0));
spec0.GenerateFixedSize(1);
spec0.ModifyTo(Modify1stByte(), &spec1);
CHECK_EQ(1, CmpDifferentBytes(spec0, spec1));
spec0.GenerateFixedSize(Constants::BLOCK_SIZE + 1);
spec0.ModifyTo(Modify1stByte(), &spec1);
CHECK_EQ(1, CmpDifferentBytes(spec0, spec1));
SizeIterator<size_t, Sizes> si(&rand, Constants::TEST_ROUNDS);
for (; !si.Done(); si.Next()) {
size_t size = si.Get();
if (size == 0) {
continue;
}
spec0.GenerateFixedSize(size);
spec0.ModifyTo(Modify1stByte(), &spec1);
InMemoryEncodeDecode(spec0, spec1, NULL, Options());
}
}
void TestModifyMutator() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE * 3);
struct {
size_t size;
size_t addr;
} test_cases[] = {
{ Constants::BLOCK_SIZE, 0 },
{ Constants::BLOCK_SIZE / 2, 1 },
{ Constants::BLOCK_SIZE, 1 },
{ Constants::BLOCK_SIZE * 2, 1 },
};
for (size_t i = 0; i < SIZEOF_ARRAY(test_cases); i++) {
ChangeList cl1;
cl1.push_back(Change(Change::MODIFY, test_cases[i].size,
test_cases[i].addr));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
CHECK_EQ(spec0.Size(), spec1.Size());
size_t diff = CmpDifferentBytes(spec0, spec1);
CHECK_LE(diff, test_cases[i].size);
// There is a 1/256 probability of the changed byte matching the
// original value. The following allows double the probability to
// pass.
CHECK_GE(diff, test_cases[i].size - (2 * test_cases[i].size / 256));
InMemoryEncodeDecode(spec0, spec1, NULL, Options());
}
}
void TestAddMutator() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE * 2);
// TODO: fix this test (for all block sizes)! it's broken because
// the same byte could be added?
struct {
size_t size;
size_t addr;
size_t expected_adds;
} test_cases[] = {
{ 1, 0, 2 /* 1st byte, last byte (short block) */ },
{ 1, 1, 3 /* 1st 2 bytes, last byte */ },
{ 1, Constants::BLOCK_SIZE - 1, 2 /* changed, last */ },
{ 1, Constants::BLOCK_SIZE, 2 /* changed, last */ },
{ 1, Constants::BLOCK_SIZE + 1, 3 /* changed + 1st of 2nd block, last */ },
{ 1, 2 * Constants::BLOCK_SIZE, 1 /* last byte */ },
};
for (size_t i = 0; i < SIZEOF_ARRAY(test_cases); i++) {
ChangeList cl1;
cl1.push_back(Change(Change::ADD, test_cases[i].size, test_cases[i].addr));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
CHECK_EQ(spec0.Size() + test_cases[i].size, spec1.Size());
Block coded;
InMemoryEncodeDecode(spec0, spec1, &coded, Options());
Delta delta(coded);
CHECK_EQ(test_cases[i].expected_adds,
delta.AddedBytes());
}
}
void TestDeleteMutator() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE * 4);
struct {
size_t size;
size_t addr;
} test_cases[] = {
// Note: an entry { Constants::BLOCK_SIZE, 0 },
// does not work because the xd3_srcwin_move_point logic won't
// find a copy if it occurs >= double its size into the file.
{ Constants::BLOCK_SIZE / 2, 0 },
{ Constants::BLOCK_SIZE / 2, Constants::BLOCK_SIZE / 2 },
{ Constants::BLOCK_SIZE, Constants::BLOCK_SIZE / 2 },
{ Constants::BLOCK_SIZE * 2, Constants::BLOCK_SIZE * 3 / 2 },
{ Constants::BLOCK_SIZE, Constants::BLOCK_SIZE * 2 },
};
for (size_t i = 0; i < SIZEOF_ARRAY(test_cases); i++) {
ChangeList cl1;
cl1.push_back(Change(Change::DELRANGE, test_cases[i].size,
test_cases[i].addr));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
CHECK_EQ(spec0.Size() - test_cases[i].size, spec1.Size());
Block coded;
InMemoryEncodeDecode(spec0, spec1, &coded, Options());
Delta delta(coded);
CHECK_EQ(0, delta.AddedBytes());
}
}
void TestCopyMutator() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE * 3);
struct {
size_t size;
size_t from;
size_t to;
} test_cases[] = {
// Copy is difficult to write tests for because where Xdelta finds
// copies, it does not enter checksums. So these tests copy data from
// later to earlier so that checksumming will start.
{ Constants::BLOCK_SIZE / 2, Constants::BLOCK_SIZE / 2, 0 },
{ Constants::BLOCK_SIZE, 2 * Constants::BLOCK_SIZE,
Constants::BLOCK_SIZE, },
};
for (size_t i = 0; i < SIZEOF_ARRAY(test_cases); i++) {
ChangeList cl1;
cl1.push_back(Change(Change::COPY, test_cases[i].size,
test_cases[i].from, test_cases[i].to));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
CHECK_EQ(spec0.Size() + test_cases[i].size, spec1.Size());
Block coded;
InMemoryEncodeDecode(spec0, spec1, &coded, Options());
Delta delta(coded);
CHECK_EQ(0, delta.AddedBytes());
}
}
void TestMoveMutator() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE * 3);
struct {
size_t size;
size_t from;
size_t to;
} test_cases[] = {
// This is easier to test than Copy but has the same trouble as Delete.
{ Constants::BLOCK_SIZE / 2, Constants::BLOCK_SIZE / 2, 0 },
{ Constants::BLOCK_SIZE / 2, 0, Constants::BLOCK_SIZE / 2 },
{ Constants::BLOCK_SIZE, Constants::BLOCK_SIZE, 2 *
Constants::BLOCK_SIZE },
{ Constants::BLOCK_SIZE, 2 * Constants::BLOCK_SIZE,
Constants::BLOCK_SIZE },
{ Constants::BLOCK_SIZE * 3 / 2, Constants::BLOCK_SIZE,
Constants::BLOCK_SIZE * 3 / 2 },
// This is a no-op
{ Constants::BLOCK_SIZE, Constants::BLOCK_SIZE * 2,
3 * Constants::BLOCK_SIZE },
};
for (size_t i = 0; i < SIZEOF_ARRAY(test_cases); i++) {
ChangeList cl1;
cl1.push_back(Change(Change::MOVE, test_cases[i].size,
test_cases[i].from, test_cases[i].to));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
CHECK_EQ(spec0.Size(), spec1.Size());
Block coded;
InMemoryEncodeDecode(spec0, spec1, &coded, Options());
Delta delta(coded);
CHECK_EQ(0, delta.AddedBytes());
}
}
void TestOverwriteMutator() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE);
ChangeList cl1;
cl1.push_back(Change(Change::COPYOVER, 10, 0, 20));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
CHECK_EQ(spec0.Size(), spec1.Size());
Block b0, b1;
BlockIterator(spec0).Get(&b0);
BlockIterator(spec1).Get(&b1);
CHECK(memcmp(b0.Data(), b1.Data() + 20, 10) == 0);
CHECK(memcmp(b0.Data(), b1.Data(), 20) == 0);
CHECK(memcmp(b0.Data() + 30, b1.Data() + 30,
Constants::BLOCK_SIZE - 30) == 0);
cl1.clear();
cl1.push_back(Change(Change::COPYOVER, 10, 20, (xoff_t)0));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
CHECK_EQ(spec0.Size(), spec1.Size());
BlockIterator(spec0).Get(&b0);
BlockIterator(spec1).Get(&b1);
CHECK(memcmp(b0.Data() + 20, b1.Data(), 10) == 0);
CHECK(memcmp(b0.Data() + 10, b1.Data() + 10,
Constants::BLOCK_SIZE - 10) == 0);
}
// Note: this test is written to expose a problem, but the problem was
// only exposed with BLOCK_SIZE = 128.
void TestNonBlocking() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
FileSpec spec2(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE * 3);
// This is a lazy target match
Change ct(Change::COPYOVER, 22,
Constants::BLOCK_SIZE + 50,
Constants::BLOCK_SIZE + 20);
// This is a source match just after the block boundary, shorter
// than the lazy target match.
Change cs1(Change::COPYOVER, 16,
Constants::BLOCK_SIZE + 51,
Constants::BLOCK_SIZE - 1);
// This overwrites the original source bytes.
Change cs2(Change::MODIFY, 108,
Constants::BLOCK_SIZE + 20);
// This changes the first blocks
Change c1st(Change::MODIFY, Constants::BLOCK_SIZE - 2, 0);
ChangeList csl;
csl.push_back(cs1);
csl.push_back(cs2);
csl.push_back(c1st);
spec0.ModifyTo(ChangeListMutator(csl), &spec1);
ChangeList ctl;
ctl.push_back(ct);
ctl.push_back(c1st);
spec0.ModifyTo(ChangeListMutator(ctl), &spec2);
InMemoryEncodeDecode(spec1, spec2, NULL, Options());
}
void TestEmptyInMemory() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
Block block;
spec0.GenerateFixedSize(0);
spec1.GenerateFixedSize(0);
InMemoryEncodeDecode(spec0, spec1, &block, Options());
Delta delta(block);
CHECK_LT(0, block.Size());
CHECK_EQ(1, delta.Windows());
}
void TestBlockInMemory() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
Block block;
spec0.GenerateFixedSize(Constants::BLOCK_SIZE);
spec1.GenerateFixedSize(Constants::BLOCK_SIZE);
InMemoryEncodeDecode(spec0, spec1, &block, Options());
Delta delta(block);
CHECK_EQ(spec1.Blocks(Constants::WINDOW_SIZE), delta.Windows());
}
void TestSmallStride() {
MTRandom rand;
FileSpec spec0(&rand);
usize_t size = Constants::BLOCK_SIZE * 4;
spec0.GenerateFixedSize(size);
/* TODO Need to study the actual causes of missed adds for tests
* less than 30 bytes. */
const int s = 30;
usize_t adds = 0;
ChangeList cl;
for (usize_t j = s; j < size; j += s, ++adds)
{
cl.push_back(Change(Change::MODIFY, 1, j));
}
FileSpec spec1(&rand);
spec0.ModifyTo(ChangeListMutator(cl), &spec1);
Options options;
options.encode_srcwin_maxsz = size;
options.iopt_size = 128;
options.smatch_cfg = XD3_SMATCH_SLOW;
options.size_known = false;
Block block;
InMemoryEncodeDecode(spec0, spec1, &block, options);
Delta delta(block);
// Allow an additional two byte of add per window
usize_t allowance = 2 * size / Constants::WINDOW_SIZE;
CHECK_GE(adds + allowance, delta.AddedBytes());
}
void TestCopyWindow() {
// Construct an input that has many copies, to fill the IOPT buffer
// and force a source window decision. "srclen" may be set to a
// value that goes beyond the end-of-source.
const int clen = 16;
const int size = 4096;
const int nmov = size / clen;
const int iters = 16;
uint32_t added_01 = 0;
uint32_t added_10 = 0;
for (int i = 1; i <= iters; i++) {
MTRandom rand(MTRandom::TEST_SEED1 * i);
FileSpec spec0(&rand);
ChangeList cl;
spec0.GenerateFixedSize(size);
for (int j = 0; j < nmov; j += 2)
{
cl.push_back(Change(Change::MOVE,
clen, (j + 1) * clen, j * clen));
}
FileSpec spec1(&rand);
spec0.ModifyTo(ChangeListMutator(cl), &spec1);
Options options;
options.encode_srcwin_maxsz = size;
options.iopt_size = 128;
options.smatch_cfg = XD3_SMATCH_SLOW;
Block block1;
InMemoryEncodeDecode(spec0, spec1, &block1, options);
Delta delta1(block1);
// Allow one missed window (e.g., hash collisions)
added_01 += delta1.AddedBytes();
Block block2;
InMemoryEncodeDecode(spec1, spec0, &block2, options);
Delta delta2(block2);
// Allow one missed window (e.g., hash collisions)
added_10 += delta2.AddedBytes();
Block block3;
Block block4;
EncodeDecodeAPI(spec0, spec1, &block3, options);
EncodeDecodeAPI(spec1, spec0, &block4, options);
}
// Average less than 0.5 misses (of length clen) per iteration.
CHECK_GE(clen * iters / 2, added_01);
CHECK_GE(clen * iters / 2, added_10);
}
void TestCopyFromEnd() {
// Copies from the end of the source buffer, which reach a block
// boundary end-of-file.
const int size = 4096;
const int clen = 16;
const int nmov = (size / 2) / clen;
const int iters = 16;
uint32_t added_01 = 0;
uint32_t added_10 = 0;
for (int i = 1; i <= iters; i++) {
MTRandom rand(MTRandom::TEST_SEED1 * i);
FileSpec spec0(&rand);
ChangeList cl;
spec0.GenerateFixedSize(size);
cl.push_back(Change(Change::MODIFY, 2012, 2048));
for (int j = 0; j < nmov; j += 2)
{
cl.push_back(Change(Change::MOVE,
clen, (j + 1) * clen, j * clen));
}
cl.push_back(Change(Change::COPYOVER, 28, 4068, 3000));
cl.push_back(Change(Change::COPYOVER, 30, 4066, 3100));
cl.push_back(Change(Change::COPYOVER, 32, 4064, 3200));
FileSpec spec1(&rand);
spec0.ModifyTo(ChangeListMutator(cl), &spec1);
Options options;
options.encode_srcwin_maxsz = size;
options.iopt_size = 128;
options.smatch_cfg = XD3_SMATCH_SLOW;
Block block1;
InMemoryEncodeDecode(spec0, spec1, &block1, options);
Delta delta1(block1);
added_01 += delta1.AddedBytes();
Block block2;
InMemoryEncodeDecode(spec1, spec0, &block2, options);
Delta delta2(block2);
added_10 += delta2.AddedBytes();
Block block3;
Block block4;
EncodeDecodeAPI(spec0, spec1, &block3, options);
EncodeDecodeAPI(spec1, spec0, &block4, options);
}
CHECK_GE(2000 * iters, added_01);
CHECK_LE(2000 * iters, added_10);
}
void TestHalfBlockCopy() {
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
spec0.GenerateFixedSize(Constants::BLOCK_SIZE * 4);
// Create a half-block copy, 2.5 blocks apart, from the second half
// of the source version to the first half of the target version.
// 0 1 2 3
// spec0 [bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb][ccccc][bbbbb]
// spec1 [aaaaa][ccccc][aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa]
ChangeList cl1;
cl1.push_back(Change(Change::MODIFY,
Constants::BLOCK_SIZE / 2, // size
0));
cl1.push_back(Change(Change::COPYOVER,
Constants::BLOCK_SIZE / 2, // size
Constants::BLOCK_SIZE * 3, // offset
Constants::BLOCK_SIZE / 2));
cl1.push_back(Change(Change::MODIFY,
Constants::BLOCK_SIZE * 3,
Constants::BLOCK_SIZE));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
const int onecopy_adds =
4 * Constants::BLOCK_SIZE - Constants::BLOCK_SIZE / 2;
const int nocopy_adds = 4 * Constants::BLOCK_SIZE;
// Note the case b=4 is contrived: the caller should use a single block
// containing the entire source, if possible.
for (int b = 1; b <= 4; b++)
{
Options options;
options.encode_srcwin_maxsz = Constants::BLOCK_SIZE * b;
Block block0;
Block block1;
InMemoryEncodeDecode(spec0, spec1, &block0, options);
InMemoryEncodeDecode(spec1, spec0, &block1, options);
Delta delta0(block0);
Delta delta1(block1);
// The first block never copies from the last source block, by
// design, because if the last source block is available when
// the first target block is ready, the caller is expected to
// use a single block.
CHECK_EQ(nocopy_adds, delta0.AddedBytes());
if (Constants::BLOCK_SIZE < 8192 || b > 2)
{
// For small-block inputs, the entire file is read into one
// block (the min source window size is 16kB).
//
// For large blocks, at least 3 blocks of source window are
// needed.
CHECK_EQ(onecopy_adds, delta1.AddedBytes());
}
else
{
// When there are fewer than 3 source blocks.
CHECK_EQ(nocopy_adds, delta1.AddedBytes());
}
}
Options options;
options.encode_srcwin_maxsz = Constants::BLOCK_SIZE * 4;
options.block_size = Constants::BLOCK_SIZE * 4;
// Test the whole-buffer case.
Block block0;
Block block1;
InMemoryEncodeDecode(spec0, spec1, &block0, options);
InMemoryEncodeDecode(spec1, spec0, &block1, options);
Delta delta0(block0);
Delta delta1(block1);
// This <= >= are only for blocksize = 512, which has irregular readsize.
CHECK_LE(onecopy_adds, delta0.AddedBytes());
CHECK_GE(onecopy_adds + 1, delta0.AddedBytes());
CHECK_EQ(onecopy_adds, delta1.AddedBytes());
}
void FourWayMergeTest(const FileSpec &spec0,
const FileSpec &spec1,
const FileSpec &spec2,
const FileSpec &spec3) {
TmpFile f0, f1, f2, f3;
ExtFile d01, d12, d23;
Options options;
options.encode_srcwin_maxsz =
std::max(spec0.Size(), options.encode_srcwin_maxsz);
spec0.WriteTmpFile(&f0);
spec1.WriteTmpFile(&f1);
spec2.WriteTmpFile(&f2);
spec3.WriteTmpFile(&f3);
MainEncodeDecode(f0, f1, &d01, options);
MainEncodeDecode(f1, f2, &d12, options);
MainEncodeDecode(f2, f3, &d23, options);
// Merge 2
ExtFile out;
vector<const char*> mcmd;
mcmd.push_back("xdelta3");
mcmd.push_back("merge");
mcmd.push_back("-m");
mcmd.push_back(d01.Name());
mcmd.push_back(d12.Name());
mcmd.push_back(out.Name());
mcmd.push_back(NULL);
// XPR(NTR "Running one merge: %s\n", CommandToString(mcmd).c_str());
CHECK_EQ(0, xd3_main_cmdline(mcmd.size() - 1,
const_cast<char**>(&mcmd[0])));
ExtFile recon;
vector<const char*> tcmd;
tcmd.push_back("xdelta3");
tcmd.push_back("-d");
tcmd.push_back("-s");
tcmd.push_back(f0.Name());
tcmd.push_back(out.Name());
tcmd.push_back(recon.Name());
tcmd.push_back(NULL);
// XPR(NTR "Running one recon! %s\n", CommandToString(tcmd).c_str());
CHECK_EQ(0, xd3_main_cmdline(tcmd.size() - 1,
const_cast<char**>(&tcmd[0])));
// XPR(NTR "Should equal! %s\n", f2.Name());
CHECK(recon.EqualsSpec(spec2));
// Merge 3
ExtFile out3;
vector<const char*> mcmd3;
mcmd3.push_back("xdelta3");
mcmd3.push_back("merge");
mcmd3.push_back("-m");
mcmd3.push_back(d01.Name());
mcmd3.push_back("-m");
mcmd3.push_back(d12.Name());
mcmd3.push_back(d23.Name());
mcmd3.push_back(out3.Name());
mcmd3.push_back(NULL);
// XPR(NTR "Running one 3-merge: %s\n", CommandToString(mcmd3).c_str());
CHECK_EQ(0, xd3_main_cmdline(mcmd3.size() - 1,
const_cast<char**>(&mcmd3[0])));
ExtFile recon3;
vector<const char*> tcmd3;
tcmd3.push_back("xdelta3");
tcmd3.push_back("-d");
tcmd3.push_back("-s");
tcmd3.push_back(f0.Name());
tcmd3.push_back(out3.Name());
tcmd3.push_back(recon3.Name());
tcmd3.push_back(NULL);
// XPR(NTR "Running one 3-recon %s\n", CommandToString(tcmd3).c_str());
CHECK_EQ(0, xd3_main_cmdline(tcmd3.size() - 1,
const_cast<char**>(&tcmd3[0])));
// XPR(NTR "Should equal %s\n", f3.Name());
CHECK(recon3.EqualsSpec(spec3));
}
void TestMergeCommand1() {
/* Repeat random-input testing for a number of iterations.
* Test 2, 3, and 4-file scenarios (i.e., 1, 2, and 3-delta merges). */
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
FileSpec spec2(&rand);
FileSpec spec3(&rand);
SizeIterator<size_t, Sizes> si0(&rand, 10);
for (; !si0.Done(); si0.Next()) {
size_t size0 = si0.Get();
SizeIterator<size_t, Sizes> si1(&rand, 10);
for (; !si1.Done(); si1.Next()) {
size_t change1 = si1.Get();
if (change1 == 0) {
continue;
}
// XPR(NTR "S0 = %lu\n", size0);
// XPR(NTR "C1 = %lu\n", change1);
// XPR(NTR ".");
size_t add1_pos = size0 ? rand.Rand32() % size0 : 0;
size_t del2_pos = size0 ? rand.Rand32() % size0 : 0;
spec0.GenerateFixedSize(size0);
ChangeList cl1, cl2, cl3;
size_t change3 = change1;
size_t change3_pos;
if (change3 >= size0) {
change3 = size0;
change3_pos = 0;
} else {
change3_pos = rand.Rand32() % (size0 - change3);
}
cl1.push_back(Change(Change::ADD, change1, add1_pos));
cl2.push_back(Change(Change::DELRANGE, change1, del2_pos));
cl3.push_back(Change(Change::MODIFY, change3, change3_pos));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
spec1.ModifyTo(ChangeListMutator(cl2), &spec2);
spec2.ModifyTo(ChangeListMutator(cl3), &spec3);
FourWayMergeTest(spec0, spec1, spec2, spec3);
FourWayMergeTest(spec3, spec2, spec1, spec0);
}
}
}
void TestMergeCommand2() {
/* Same as above, different mutation pattern. */
/* TODO: run this with large sizes too */
/* TODO: run this with small sizes too */
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
FileSpec spec2(&rand);
FileSpec spec3(&rand);
SizeIterator<size_t, Sizes> si0(&rand, 10);
for (; !si0.Done(); si0.Next()) {
size_t size0 = si0.Get();
SizeIterator<size_t, Sizes> si1(&rand, 10);
for (; !si1.Done(); si1.Next()) {
size_t size1 = si1.Get();
SizeIterator<size_t, Sizes> si2(&rand, 10);
for (; !si2.Done(); si2.Next()) {
size_t size2 = si2.Get();
SizeIterator<size_t, Sizes> si3(&rand, 10);
for (; !si3.Done(); si3.Next()) {
size_t size3 = si3.Get();
// We're only interested in three sizes, strictly decreasing. */
if (size3 >= size2 || size2 >= size1 || size1 >= size0) {
continue;
}
// XPR(NTR "S0 = %lu\n", size0);
// XPR(NTR "S1 = %lu\n", size1);
// XPR(NTR "S2 = %lu\n", size2);
// XPR(NTR "S3 = %lu\n", size3);
// XPR(NTR ".");
spec0.GenerateFixedSize(size0);
ChangeList cl1, cl2, cl3;
cl1.push_back(Change(Change::DELRANGE, size0 - size1, 0));
cl2.push_back(Change(Change::DELRANGE, size0 - size2, 0));
cl3.push_back(Change(Change::DELRANGE, size0 - size3, 0));
spec0.ModifyTo(ChangeListMutator(cl1), &spec1);
spec0.ModifyTo(ChangeListMutator(cl2), &spec2);
spec0.ModifyTo(ChangeListMutator(cl3), &spec3);
FourWayMergeTest(spec0, spec1, spec2, spec3);
FourWayMergeTest(spec3, spec2, spec1, spec0);
}
}
}
}
}
void TestLastFrontierBlock() {
// This test constructs an input that can expose
// https://github.com/jmacd/xdelta/issues/188
// when run through the command-line with source via a FIFO.
// That is not tested here, but the test stays.
if (Constants::WINDOW_SIZE < XD3_ALLOCSIZE)
{
return;
}
MTRandom rand;
FileSpec spec0(&rand);
FileSpec spec1(&rand);
const xoff_t size = XD3_ALLOCSIZE * 64; // == XD3_MINSRCWINSZ * 2
const xoff_t edit = XD3_ALLOCSIZE;
Options options;
options.encode_srcwin_maxsz = XD3_MINSRCWINSZ;
options.block_size = XD3_ALLOCSIZE;
options.window_size = XD3_MINSRCWINSZ;
options.size_known = false;
spec0.GenerateFixedSize(size);
ChangeList cl;
// Modify the 0th byte in order to induce indexing of subsequent
// bytes, but allow copying most of the file to keep the test fast.
cl.push_back(Change(Change::MODIFY, 1, edit * 31));
cl.push_back(Change(Change::COPYOVER, edit, edit * 31, edit * 63));
spec0.ModifyTo(ChangeListMutator(cl), &spec1);
Block noblock;
InMemoryEncodeDecode(spec0, spec1, &noblock, options);
InMemoryEncodeDecode(spec1, spec0, &noblock, options);
}
}; // class Regtest<Constants>
#define TEST(x) XPR(NTR #x "...\n"); regtest.x()
// These tests are primarily tests of the testing framework itself.
template <class T>
void UnitTest() {
Regtest<T> regtest;
TEST(TestPrintf);
TEST(TestRandomNumbers);
TEST(TestRandomFile);
TEST(TestFirstByte);
TEST(TestModifyMutator);
TEST(TestAddMutator);
TEST(TestDeleteMutator);
TEST(TestCopyMutator);
TEST(TestMoveMutator);
TEST(TestOverwriteMutator);
}
// These are Xdelta tests.
template <class T>
void MainTest() {
XPR(NT "Blocksize %"Q"u windowsize %"Z"u\n",
T::BLOCK_SIZE, T::WINDOW_SIZE);
Regtest<T> regtest;
TEST(TestEmptyInMemory);
TEST(TestBlockInMemory);
TEST(TestSmallStride);
TEST(TestCopyWindow);
TEST(TestCopyFromEnd);
TEST(TestNonBlocking);
TEST(TestHalfBlockCopy);
TEST(TestLastFrontierBlock);
TEST(TestMergeCommand1);
TEST(TestMergeCommand2);
}
#undef TEST
int main(int argc, char **argv)
{
vector<const char*> mcmd;
string pn;
const char *sp = strrchr(argv[0], '/');
if (sp != NULL) {
pn.append(argv[0], sp - argv[0] + 1);
}
pn.append("xdelta3");
mcmd.push_back(pn.c_str());
mcmd.push_back("test");
mcmd.push_back(NULL);
UnitTest<SmallBlock>();
MainTest<SmallBlock>();
MainTest<MixedBlock>();
MainTest<OversizeBlock>();
MainTest<LargeBlock>();
CHECK_EQ(0, xd3_main_cmdline(mcmd.size() - 1,
const_cast<char**>(&mcmd[0])));
return 0;
}
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