Chiebot-Mirror
/
protobuf
mirror of https://github.com/protocolbuffers/protobuf.git
8
0
Fork 0
Code Issues Projects Releases Wiki Activity
Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
404 Commits
197 Branches
346 Tags
251 MiB
Tag: Branch: Tree: 19517cc6f3
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from '19517cc6f3'
${ noResults }
protobuf/tests/test_varint.c

215 lines
9.0 KiB
Raw Normal View History Unescape

Split varint decoders into separate .h file. This makes it easier to benchmark and test the multiple possible implementations of varint decoding.
14 years ago
/*
* upb - a minimalist implementation of protocol buffers.
*
Update copyright to be Google Inc. This doesn't reflect any material change in how I will be working on upb, and I have no problem making this change. It's still open source under the BSD license, and I'll still be working on it well beyond the hours that constitute a normal job.
14 years ago
* Copyright (c) 2011 Google Inc. See LICENSE for details.
Split varint decoders into separate .h file. This makes it easier to benchmark and test the multiple possible implementations of varint decoding.
14 years ago
*/
#include "upb_varint_decoder.h"
#include "upb_test.h"
static void test_varint_decoder(upb_decoderet (*decoder)(const char*)) {
#define TEST(bytes, expected_val) {\
const char buf[] = bytes "\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff" ; \
upb_decoderet r = decoder(buf); \
ASSERT(r.val == expected_val); \
ASSERT(r.p == buf + sizeof(buf) - 16); /* - 1 for NULL */ \
}
TEST("\x00", 0ULL);
TEST("\x01", 1ULL);
TEST("\x81\x14", 0xa01ULL);
TEST("\x81\x03", 0x181ULL);
TEST("\x81\x83\x07", 0x1c181ULL);
TEST("\x81\x83\x87\x0f", 0x1e1c181ULL);
TEST("\x81\x83\x87\x8f\x1f", 0x1f1e1c181ULL);
TEST("\x81\x83\x87\x8f\x9f\x3f", 0x1f9f1e1c181ULL);
TEST("\x81\x83\x87\x8f\x9f\xbf\x7f", 0x1fdf9f1e1c181ULL);
TEST("\x81\x83\x87\x8f\x9f\xbf\xff\x01", 0x3fdf9f1e1c181ULL);
TEST("\x81\x83\x87\x8f\x9f\xbf\xff\x81\x03", 0x303fdf9f1e1c181ULL);
TEST("\x81\x83\x87\x8f\x9f\xbf\xff\x81\x83\x07", 0x8303fdf9f1e1c181ULL);
#undef TEST
char twelvebyte[16] = {0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x01, 0x01};
const char *twelvebyte_buf = twelvebyte;
// A varint that terminates before hitting the end of the provided buffer,
// but in too many bytes (11 instead of 10).
upb_decoderet r = upb_decode_varint_fast(twelvebyte_buf);
ASSERT(r.p == NULL);
}
#define TEST_VARINT_DECODER(decoder) \
/* Create non-inline versions for convenient inspection of assembly language \
* output. */ \
upb_decoderet _upb_decode_varint_ ## decoder(const char *p) { \
return upb_decode_varint_ ## decoder(p); \
} \
void test_ ## decoder() { \
test_varint_decoder(&_upb_decode_varint_ ## decoder); \
} \
TEST_VARINT_DECODER(branch32);
TEST_VARINT_DECODER(branch64);
Switch to non-branching varint decoder.
14 years ago
TEST_VARINT_DECODER(nobranch1);
TEST_VARINT_DECODER(nobranch2);
Split varint decoders into separate .h file. This makes it easier to benchmark and test the multiple possible implementations of varint decoding.
14 years ago
int main() {
test_branch32();
test_branch64();
Switch to non-branching varint decoder.
14 years ago
test_nobranch1();
test_nobranch2();
Split varint decoders into separate .h file. This makes it easier to benchmark and test the multiple possible implementations of varint decoding.
14 years ago
}
#if 0
static void test_get_v_uint32_t()
{
#define TEST(name, bytes, val) {\
upb_status status = UPB_STATUS_INIT; \
const uint8_t name[] = bytes; \
const uint8_t *name ## _buf = name; \
uint32_t name ## _val = 0; \
name ## _buf = upb_get_v_uint32_t(name, name + sizeof(name), &name ## _val, &status); \
ASSERT(upb_ok(&status)); \
ASSERT(name ## _val == val); \
ASSERT(name ## _buf == name + sizeof(name) - 1); /* - 1 for NULL */ \
/* Test NEED_MORE_DATA. */ \
if(sizeof(name) > 2) { \
name ## _buf = upb_get_v_uint32_t(name, name + sizeof(name) - 2, &name ## _val, &status); \
ASSERT(status.code == UPB_STATUS_NEED_MORE_DATA); \
} \
}
TEST(zero, "\x00", 0UL);
TEST(one, "\x01", 1UL);
TEST(twob, "\x81\x03", 0x181UL);
TEST(threeb, "\x81\x83\x07", 0x1c181UL);
TEST(fourb, "\x81\x83\x87\x0f", 0x1e1c181UL);
/* get_v_uint32_t truncates, so all the rest return the same thing. */
TEST(fiveb, "\x81\x83\x87\x8f\x1f", 0xf1e1c181UL);
TEST(sixb, "\x81\x83\x87\x8f\x9f\x3f", 0xf1e1c181UL);
TEST(sevenb, "\x81\x83\x87\x8f\x9f\xbf\x7f", 0xf1e1c181UL);
TEST(eightb, "\x81\x83\x87\x8f\x9f\xbf\xff\x01", 0xf1e1c181UL);
TEST(nineb, "\x81\x83\x87\x8f\x9f\xbf\xff\x81\x03", 0xf1e1c181UL);
TEST(tenb, "\x81\x83\x87\x8f\x9f\xbf\xff\x81\x83\x07", 0xf1e1c181UL);
#undef TEST
uint8_t twelvebyte[] = {0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x01, 0x01};
uint32_t twelvebyte_val = 0;
upb_status status = UPB_STATUS_INIT;
/* A varint that terminates before hitting the end of the provided buffer,
* but in too many bytes (11 instead of 10). */
upb_get_v_uint32_t(twelvebyte, twelvebyte + 12, &twelvebyte_val, &status);
ASSERT(status.code == UPB_ERROR_UNTERMINATED_VARINT);
/* A varint that terminates simultaneously with the end of the provided
* buffer, but in too many bytes (11 instead of 10). */
upb_reset(&status);
upb_get_v_uint32_t(twelvebyte, twelvebyte + 11, &twelvebyte_val, &status);
ASSERT(status.code == UPB_ERROR_UNTERMINATED_VARINT);
/* A varint whose buffer ends on exactly the byte where the varint must
* terminate, but the final byte does not terminate. The absolutely most
* correct return code here is UPB_ERROR_UNTERMINATED_VARINT, because we know
* by this point that the varint does not properly terminate. But we also
* allow a return value of UPB_STATUS_NEED_MORE_DATA here, because it does not
* compromise overall correctness -- clients who supply more data later will
* then receive a UPB_ERROR_UNTERMINATED_VARINT error; clients who have no
* more data to supply will (rightly) conclude that their protobuf is corrupt.
*/
upb_reset(&status);
upb_get_v_uint32_t(twelvebyte, twelvebyte + 10, &twelvebyte_val, &status);
ASSERT(status.code == UPB_ERROR_UNTERMINATED_VARINT ||
status.code == UPB_STATUS_NEED_MORE_DATA);
upb_reset(&status);
upb_get_v_uint32_t(twelvebyte, twelvebyte + 9, &twelvebyte_val, &status);
ASSERT(status.code == UPB_STATUS_NEED_MORE_DATA);
}
static void test_skip_v_uint64_t()
{
#define TEST(name, bytes) {\
upb_status status = UPB_STATUS_INIT; \
const uint8_t name[] = bytes; \
const uint8_t *name ## _buf = name; \
name ## _buf = upb_skip_v_uint64_t(name ## _buf, name + sizeof(name), &status); \
ASSERT(upb_ok(&status)); \
ASSERT(name ## _buf == name + sizeof(name) - 1); /* - 1 for NULL */ \
/* Test NEED_MORE_DATA. */ \
if(sizeof(name) > 2) { \
name ## _buf = upb_skip_v_uint64_t(name, name + sizeof(name) - 2, &status); \
ASSERT(status.code == UPB_STATUS_NEED_MORE_DATA); \
} \
}
TEST(zero, "\x00");
TEST(one, "\x01");
TEST(twob, "\x81\x03");
TEST(threeb, "\x81\x83\x07");
TEST(fourb, "\x81\x83\x87\x0f");
TEST(fiveb, "\x81\x83\x87\x8f\x1f");
TEST(sixb, "\x81\x83\x87\x8f\x9f\x3f");
TEST(sevenb, "\x81\x83\x87\x8f\x9f\xbf\x7f");
TEST(eightb, "\x81\x83\x87\x8f\x9f\xbf\xff\x01");
TEST(nineb, "\x81\x83\x87\x8f\x9f\xbf\xff\x81\x03");
TEST(tenb, "\x81\x83\x87\x8f\x9f\xbf\xff\x81\x83\x07");
#undef TEST
uint8_t twelvebyte[] = {0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x01, 0x01};
upb_status status = UPB_STATUS_INIT;
/* A varint that terminates before hitting the end of the provided buffer,
* but in too many bytes (11 instead of 10). */
upb_skip_v_uint64_t(twelvebyte, twelvebyte + 12, &status);
ASSERT(status.code == UPB_ERROR_UNTERMINATED_VARINT);
/* A varint that terminates simultaneously with the end of the provided
* buffer, but in too many bytes (11 instead of 10). */
upb_reset(&status);
upb_skip_v_uint64_t(twelvebyte, twelvebyte + 11, &status);
ASSERT(status.code == UPB_ERROR_UNTERMINATED_VARINT);
/* A varint whose buffer ends on exactly the byte where the varint must
* terminate, but the final byte does not terminate. The absolutely most
* correct return code here is UPB_ERROR_UNTERMINATED_VARINT, because we know
* by this point that the varint does not properly terminate. But we also
* allow a return value of UPB_STATUS_NEED_MORE_DATA here, because it does not
* compromise overall correctness -- clients who supply more data later will
* then receive a UPB_ERROR_UNTERMINATED_VARINT error; clients who have no
* more data to supply will (rightly) conclude that their protobuf is corrupt.
*/
upb_reset(&status);
upb_skip_v_uint64_t(twelvebyte, twelvebyte + 10, &status);
ASSERT(status.code == UPB_ERROR_UNTERMINATED_VARINT ||
status.code == UPB_STATUS_NEED_MORE_DATA);
upb_reset(&status);
upb_skip_v_uint64_t(twelvebyte, twelvebyte + 9, &status);
ASSERT(status.code == UPB_STATUS_NEED_MORE_DATA);
}
static void test_get_f_uint32_t()
{
#define TEST(name, bytes, val) {\
upb_status status = UPB_STATUS_INIT; \
const uint8_t name[] = bytes; \
const uint8_t *name ## _buf = name; \
uint32_t name ## _val = 0; \
name ## _buf = upb_get_f_uint32_t(name ## _buf, name + sizeof(name), &name ## _val, &status); \
ASSERT(upb_ok(&status)); \
ASSERT(name ## _val == val); \
ASSERT(name ## _buf == name + sizeof(name) - 1); /* - 1 for NULL */ \
}
TEST(zero, "\x00\x00\x00\x00", 0x0UL);
TEST(one, "\x01\x00\x00\x00", 0x1UL);
uint8_t threeb[] = {0x00, 0x00, 0x00};
uint32_t threeb_val;
upb_status status = UPB_STATUS_INIT;
upb_get_f_uint32_t(threeb, threeb + sizeof(threeb), &threeb_val, &status);
ASSERT(status.code == UPB_STATUS_NEED_MORE_DATA);
#undef TEST
}
#endif