crashpad/util/mach/symbolic_constants_mach_test.cc

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// Copyright 2014 The Crashpad Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "util/mach/symbolic_constants_mach.h"
#include <mach/mach.h>
#include <string.h>
#include <sys/types.h>
#include "base/macros.h"
#include "base/strings/string_piece.h"
#include "base/strings/stringprintf.h"
#include "gtest/gtest.h"
#include "util/mach/mach_extensions.h"
#include "util/misc/implicit_cast.h"
#define NUL_TEST_DATA(string) { string, arraysize(string) - 1 }
namespace crashpad {
namespace test {
namespace {
// Options to use for normal tests, those that dont require kAllowOr.
constexpr StringToSymbolicConstantOptions kNormalOptions[] = {
0,
kAllowFullName,
kAllowShortName,
kAllowFullName | kAllowShortName,
kAllowNumber,
kAllowFullName | kAllowNumber,
kAllowShortName | kAllowNumber,
kAllowFullName | kAllowShortName | kAllowNumber,
};
// If |expect| is nullptr, the conversion is expected to fail. If |expect| is
// empty, the conversion is expected to succeed, but the precise returned string
// value is unknown. Otherwise, the conversion is expected to succeed, and
// |expect| contains the precise expected string value to be returned. If
// |expect| contains the substring "0x1", the conversion is expected only to
// succeed when kUnknownIsNumeric is set.
//
// Only set kUseFullName or kUseShortName when calling this. Other options are
// exercised directly by this function.
template <typename Traits>
void TestSomethingToStringOnce(typename Traits::ValueType value,
const char* expect,
SymbolicConstantToStringOptions options) {
std::string actual =
Traits::SomethingToString(value, options | kUnknownIsEmpty | kUseOr);
std::string actual_numeric =
Traits::SomethingToString(value, options | kUnknownIsNumeric | kUseOr);
if (expect) {
if (expect[0] == '\0') {
EXPECT_FALSE(actual.empty()) << Traits::kValueName << " " << value;
} else if (strstr(expect, "0x1")) {
EXPECT_TRUE(actual.empty()) << Traits::kValueName << " " << value
<< ", actual " << actual;
actual.assign(expect);
} else {
test: Use (actual, [un]expected) in gtest {ASSERT,EXPECT}_{EQ,NE} gtest used to require (expected, actual) ordering for arguments to EXPECT_EQ and ASSERT_EQ, and in failed test assertions would identify each side as “expected” or “actual.” Tests in Crashpad adhered to this traditional ordering. After a gtest change in February 2016, it is now agnostic with respect to the order of these arguments. This change mechanically updates all uses of these macros to (actual, expected) by reversing them. This provides consistency with our use of the logging CHECK_EQ and DCHECK_EQ macros, and makes for better readability by ordinary native speakers. The rough (but working!) conversion tool is https://chromium-review.googlesource.com/c/466727/1/rewrite_expectassert_eq.py, and “git cl format” cleaned up its output. EXPECT_NE and ASSERT_NE never had a preferred ordering. gtest never made a judgment that one side or the other needed to provide an “unexpected” value. Consequently, some code used (unexpected, actual) while other code used (actual, unexpected). For consistency with the new EXPECT_EQ and ASSERT_EQ usage, as well as consistency with CHECK_NE and DCHECK_NE, this change also updates these use sites to (actual, unexpected) where one side can be called “unexpected” as, for example, std::string::npos can be. Unfortunately, this portion was a manual conversion. References: https://github.com/google/googletest/blob/master/googletest/docs/Primer.md#binary-comparison https://github.com/google/googletest/commit/77d6b173380332b1c1bc540532641f410ec82d65 https://github.com/google/googletest/pull/713 Change-Id: I978fef7c94183b8b1ef63f12f5ab4d6693626be3 Reviewed-on: https://chromium-review.googlesource.com/466727 Reviewed-by: Scott Graham <scottmg@chromium.org>
2017-04-04 00:35:21 -04:00
EXPECT_EQ(actual, expect) << Traits::kValueName << " " << value;
}
test: Use (actual, [un]expected) in gtest {ASSERT,EXPECT}_{EQ,NE} gtest used to require (expected, actual) ordering for arguments to EXPECT_EQ and ASSERT_EQ, and in failed test assertions would identify each side as “expected” or “actual.” Tests in Crashpad adhered to this traditional ordering. After a gtest change in February 2016, it is now agnostic with respect to the order of these arguments. This change mechanically updates all uses of these macros to (actual, expected) by reversing them. This provides consistency with our use of the logging CHECK_EQ and DCHECK_EQ macros, and makes for better readability by ordinary native speakers. The rough (but working!) conversion tool is https://chromium-review.googlesource.com/c/466727/1/rewrite_expectassert_eq.py, and “git cl format” cleaned up its output. EXPECT_NE and ASSERT_NE never had a preferred ordering. gtest never made a judgment that one side or the other needed to provide an “unexpected” value. Consequently, some code used (unexpected, actual) while other code used (actual, unexpected). For consistency with the new EXPECT_EQ and ASSERT_EQ usage, as well as consistency with CHECK_NE and DCHECK_NE, this change also updates these use sites to (actual, unexpected) where one side can be called “unexpected” as, for example, std::string::npos can be. Unfortunately, this portion was a manual conversion. References: https://github.com/google/googletest/blob/master/googletest/docs/Primer.md#binary-comparison https://github.com/google/googletest/commit/77d6b173380332b1c1bc540532641f410ec82d65 https://github.com/google/googletest/pull/713 Change-Id: I978fef7c94183b8b1ef63f12f5ab4d6693626be3 Reviewed-on: https://chromium-review.googlesource.com/466727 Reviewed-by: Scott Graham <scottmg@chromium.org>
2017-04-04 00:35:21 -04:00
EXPECT_EQ(actual_numeric, actual) << Traits::kValueName << " " << value;
} else {
EXPECT_TRUE(actual.empty()) << Traits::kValueName << " " << value
<< ", actual " << actual;
EXPECT_FALSE(actual_numeric.empty()) << Traits::kValueName << " " << value
<< ", actual_numeric "
<< actual_numeric;
}
}
template <typename Traits>
void TestSomethingToString(typename Traits::ValueType value,
const char* expect_full,
const char* expect_short) {
{
SCOPED_TRACE("full_name");
TestSomethingToStringOnce<Traits>(value, expect_full, kUseFullName);
}
{
SCOPED_TRACE("short_name");
TestSomethingToStringOnce<Traits>(value, expect_short, kUseShortName);
}
}
template <typename Traits>
void TestStringToSomething(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
bool expect_result,
typename Traits::ValueType expect_value) {
typename Traits::ValueType actual_value;
bool actual_result =
Traits::StringToSomething(string, options, &actual_value);
if (expect_result) {
EXPECT_TRUE(actual_result) << "string " << string << ", options " << options
<< ", " << Traits::kValueName << " "
<< expect_value;
if (actual_result) {
test: Use (actual, [un]expected) in gtest {ASSERT,EXPECT}_{EQ,NE} gtest used to require (expected, actual) ordering for arguments to EXPECT_EQ and ASSERT_EQ, and in failed test assertions would identify each side as “expected” or “actual.” Tests in Crashpad adhered to this traditional ordering. After a gtest change in February 2016, it is now agnostic with respect to the order of these arguments. This change mechanically updates all uses of these macros to (actual, expected) by reversing them. This provides consistency with our use of the logging CHECK_EQ and DCHECK_EQ macros, and makes for better readability by ordinary native speakers. The rough (but working!) conversion tool is https://chromium-review.googlesource.com/c/466727/1/rewrite_expectassert_eq.py, and “git cl format” cleaned up its output. EXPECT_NE and ASSERT_NE never had a preferred ordering. gtest never made a judgment that one side or the other needed to provide an “unexpected” value. Consequently, some code used (unexpected, actual) while other code used (actual, unexpected). For consistency with the new EXPECT_EQ and ASSERT_EQ usage, as well as consistency with CHECK_NE and DCHECK_NE, this change also updates these use sites to (actual, unexpected) where one side can be called “unexpected” as, for example, std::string::npos can be. Unfortunately, this portion was a manual conversion. References: https://github.com/google/googletest/blob/master/googletest/docs/Primer.md#binary-comparison https://github.com/google/googletest/commit/77d6b173380332b1c1bc540532641f410ec82d65 https://github.com/google/googletest/pull/713 Change-Id: I978fef7c94183b8b1ef63f12f5ab4d6693626be3 Reviewed-on: https://chromium-review.googlesource.com/466727 Reviewed-by: Scott Graham <scottmg@chromium.org>
2017-04-04 00:35:21 -04:00
EXPECT_EQ(actual_value, expect_value) << "string " << string
<< ", options " << options;
}
} else {
EXPECT_FALSE(actual_result) << "string " << string << ", options "
<< options << ", " << Traits::kValueName << " "
<< actual_value;
}
}
constexpr struct {
exception_type_t exception;
const char* full_name;
const char* short_name;
} kExceptionTestData[] = {
{EXC_BAD_ACCESS, "EXC_BAD_ACCESS", "BAD_ACCESS"},
{EXC_BAD_INSTRUCTION, "EXC_BAD_INSTRUCTION", "BAD_INSTRUCTION"},
{EXC_ARITHMETIC, "EXC_ARITHMETIC", "ARITHMETIC"},
{EXC_EMULATION, "EXC_EMULATION", "EMULATION"},
{EXC_SOFTWARE, "EXC_SOFTWARE", "SOFTWARE"},
{EXC_MACH_SYSCALL, "EXC_MACH_SYSCALL", "MACH_SYSCALL"},
{EXC_RPC_ALERT, "EXC_RPC_ALERT", "RPC_ALERT"},
{EXC_CRASH, "EXC_CRASH", "CRASH"},
{EXC_RESOURCE, "EXC_RESOURCE", "RESOURCE"},
{EXC_GUARD, "EXC_GUARD", "GUARD"},
};
struct ConvertExceptionTraits {
using ValueType = exception_type_t;
static std::string SomethingToString(
ValueType value,
SymbolicConstantToStringOptions options) {
return ExceptionToString(value, options);
}
static bool StringToSomething(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
ValueType* value) {
return StringToException(string, options, value);
}
static constexpr char kValueName[] = "exception";
};
constexpr char ConvertExceptionTraits::kValueName[];
void TestExceptionToString(exception_type_t value,
const char* expect_full,
const char* expect_short) {
return TestSomethingToString<ConvertExceptionTraits>(
value, expect_full, expect_short);
}
TEST(SymbolicConstantsMach, ExceptionToString) {
for (size_t index = 0; index < arraysize(kExceptionTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestExceptionToString(kExceptionTestData[index].exception,
kExceptionTestData[index].full_name,
kExceptionTestData[index].short_name);
}
for (exception_type_t exception = 0;
exception < EXC_TYPES_COUNT + 8;
++exception) {
SCOPED_TRACE(base::StringPrintf("exception %d", exception));
if (exception > 0 && exception < EXC_TYPES_COUNT) {
TestExceptionToString(exception, "", "");
} else {
TestExceptionToString(exception, nullptr, nullptr);
}
}
}
void TestStringToException(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
bool expect_result,
exception_type_t expect_value) {
return TestStringToSomething<ConvertExceptionTraits>(
string, options, expect_result, expect_value);
}
TEST(SymbolicConstantsMach, StringToException) {
for (size_t option_index = 0;
option_index < arraysize(kNormalOptions);
++option_index) {
SCOPED_TRACE(base::StringPrintf("option_index %zu", option_index));
StringToSymbolicConstantOptions options = kNormalOptions[option_index];
for (size_t index = 0; index < arraysize(kExceptionTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
exception_type_t exception = kExceptionTestData[index].exception;
{
SCOPED_TRACE("full_name");
TestStringToException(kExceptionTestData[index].full_name,
options,
options & kAllowFullName,
exception);
}
{
SCOPED_TRACE("short_name");
TestStringToException(kExceptionTestData[index].short_name,
options,
options & kAllowShortName,
exception);
}
{
SCOPED_TRACE("number");
std::string number_string = base::StringPrintf("%d", exception);
TestStringToException(
number_string, options, options & kAllowNumber, exception);
}
}
static constexpr const char* kNegativeTestData[] = {
"EXC_CRASH ",
" EXC_BAD_INSTRUCTION",
"CRASH ",
" BAD_INSTRUCTION",
"EXC_EXC_BAD_ACCESS",
"EXC_SOFTWARES",
"SOFTWARES",
"EXC_JUNK",
"random",
"",
};
for (size_t index = 0; index < arraysize(kNegativeTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestStringToException(kNegativeTestData[index], options, false, 0);
}
static constexpr struct {
const char* string;
size_t length;
} kNULTestData[] = {
NUL_TEST_DATA("\0EXC_ARITHMETIC"),
NUL_TEST_DATA("EXC_\0ARITHMETIC"),
NUL_TEST_DATA("EXC_ARITH\0METIC"),
NUL_TEST_DATA("EXC_ARITHMETIC\0"),
NUL_TEST_DATA("\0ARITHMETIC"),
NUL_TEST_DATA("ARITH\0METIC"),
NUL_TEST_DATA("ARITHMETIC\0"),
NUL_TEST_DATA("\0003"),
NUL_TEST_DATA("3\0"),
NUL_TEST_DATA("1\0002"),
};
for (size_t index = 0; index < arraysize(kNULTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
base::StringPiece string(kNULTestData[index].string,
kNULTestData[index].length);
TestStringToException(string, options, false, 0);
}
}
// Ensure that a NUL is not required at the end of the string.
{
SCOPED_TRACE("trailing_NUL_full");
TestStringToException(base::StringPiece("EXC_BREAKPOINTED", 14),
kAllowFullName,
true,
EXC_BREAKPOINT);
}
{
SCOPED_TRACE("trailing_NUL_short");
TestStringToException(base::StringPiece("BREAKPOINTED", 10),
kAllowShortName,
true,
EXC_BREAKPOINT);
}
}
constexpr struct {
exception_mask_t exception_mask;
const char* full_name;
const char* short_name;
} kExceptionMaskTestData[] = {
{EXC_MASK_BAD_ACCESS, "EXC_MASK_BAD_ACCESS", "BAD_ACCESS"},
{EXC_MASK_BAD_INSTRUCTION, "EXC_MASK_BAD_INSTRUCTION", "BAD_INSTRUCTION"},
{EXC_MASK_ARITHMETIC, "EXC_MASK_ARITHMETIC", "ARITHMETIC"},
{EXC_MASK_EMULATION, "EXC_MASK_EMULATION", "EMULATION"},
{EXC_MASK_SOFTWARE, "EXC_MASK_SOFTWARE", "SOFTWARE"},
{EXC_MASK_MACH_SYSCALL, "EXC_MASK_MACH_SYSCALL", "MACH_SYSCALL"},
{EXC_MASK_RPC_ALERT, "EXC_MASK_RPC_ALERT", "RPC_ALERT"},
{EXC_MASK_CRASH, "EXC_MASK_CRASH", "CRASH"},
{EXC_MASK_RESOURCE, "EXC_MASK_RESOURCE", "RESOURCE"},
{EXC_MASK_GUARD, "EXC_MASK_GUARD", "GUARD"},
{0x1, "0x1", "0x1"},
{EXC_MASK_CRASH | 0x1, "EXC_MASK_CRASH|0x1", "CRASH|0x1"},
{EXC_MASK_BAD_ACCESS | EXC_MASK_BAD_INSTRUCTION | EXC_MASK_ARITHMETIC |
EXC_MASK_EMULATION |
EXC_MASK_SOFTWARE |
EXC_MASK_BREAKPOINT |
EXC_MASK_SYSCALL |
EXC_MASK_MACH_SYSCALL |
EXC_MASK_RPC_ALERT,
"EXC_MASK_BAD_ACCESS|EXC_MASK_BAD_INSTRUCTION|EXC_MASK_ARITHMETIC|"
"EXC_MASK_EMULATION|EXC_MASK_SOFTWARE|EXC_MASK_BREAKPOINT|"
"EXC_MASK_SYSCALL|EXC_MASK_MACH_SYSCALL|EXC_MASK_RPC_ALERT",
"BAD_ACCESS|BAD_INSTRUCTION|ARITHMETIC|EMULATION|SOFTWARE|BREAKPOINT|"
"SYSCALL|MACH_SYSCALL|RPC_ALERT"},
{EXC_MASK_RESOURCE | EXC_MASK_GUARD,
"EXC_MASK_RESOURCE|EXC_MASK_GUARD",
"RESOURCE|GUARD"},
};
struct ConvertExceptionMaskTraits {
using ValueType = exception_mask_t;
static std::string SomethingToString(
ValueType value,
SymbolicConstantToStringOptions options) {
return ExceptionMaskToString(value, options);
}
static bool StringToSomething(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
ValueType* value) {
return StringToExceptionMask(string, options, value);
}
static constexpr char kValueName[] = "exception_mask";
};
constexpr char ConvertExceptionMaskTraits::kValueName[];
void TestExceptionMaskToString(exception_mask_t value,
const char* expect_full,
const char* expect_short) {
return TestSomethingToString<ConvertExceptionMaskTraits>(
value, expect_full, expect_short);
}
TEST(SymbolicConstantsMach, ExceptionMaskToString) {
for (size_t index = 0; index < arraysize(kExceptionMaskTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestExceptionMaskToString(kExceptionMaskTestData[index].exception_mask,
kExceptionMaskTestData[index].full_name,
kExceptionMaskTestData[index].short_name);
}
// Test kUseOr handling.
EXPECT_TRUE(ExceptionMaskToString(EXC_MASK_CRASH | EXC_MASK_GUARD,
kUseFullName).empty());
EXPECT_TRUE(ExceptionMaskToString(EXC_MASK_CRASH | EXC_MASK_GUARD,
kUseShortName).empty());
test: Use (actual, [un]expected) in gtest {ASSERT,EXPECT}_{EQ,NE} gtest used to require (expected, actual) ordering for arguments to EXPECT_EQ and ASSERT_EQ, and in failed test assertions would identify each side as “expected” or “actual.” Tests in Crashpad adhered to this traditional ordering. After a gtest change in February 2016, it is now agnostic with respect to the order of these arguments. This change mechanically updates all uses of these macros to (actual, expected) by reversing them. This provides consistency with our use of the logging CHECK_EQ and DCHECK_EQ macros, and makes for better readability by ordinary native speakers. The rough (but working!) conversion tool is https://chromium-review.googlesource.com/c/466727/1/rewrite_expectassert_eq.py, and “git cl format” cleaned up its output. EXPECT_NE and ASSERT_NE never had a preferred ordering. gtest never made a judgment that one side or the other needed to provide an “unexpected” value. Consequently, some code used (unexpected, actual) while other code used (actual, unexpected). For consistency with the new EXPECT_EQ and ASSERT_EQ usage, as well as consistency with CHECK_NE and DCHECK_NE, this change also updates these use sites to (actual, unexpected) where one side can be called “unexpected” as, for example, std::string::npos can be. Unfortunately, this portion was a manual conversion. References: https://github.com/google/googletest/blob/master/googletest/docs/Primer.md#binary-comparison https://github.com/google/googletest/commit/77d6b173380332b1c1bc540532641f410ec82d65 https://github.com/google/googletest/pull/713 Change-Id: I978fef7c94183b8b1ef63f12f5ab4d6693626be3 Reviewed-on: https://chromium-review.googlesource.com/466727 Reviewed-by: Scott Graham <scottmg@chromium.org>
2017-04-04 00:35:21 -04:00
EXPECT_EQ(ExceptionMaskToString(EXC_MASK_CRASH | EXC_MASK_GUARD,
kUseFullName | kUnknownIsNumeric),
"0x1400");
EXPECT_EQ(ExceptionMaskToString(EXC_MASK_CRASH | EXC_MASK_GUARD,
kUseShortName | kUnknownIsNumeric),
"0x1400");
EXPECT_EQ(ExceptionMaskToString(EXC_MASK_CRASH | EXC_MASK_GUARD,
kUseFullName | kUseOr),
"EXC_MASK_CRASH|EXC_MASK_GUARD");
EXPECT_EQ(ExceptionMaskToString(EXC_MASK_CRASH | EXC_MASK_GUARD,
kUseShortName | kUseOr),
"CRASH|GUARD");
}
void TestStringToExceptionMask(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
bool expect_result,
exception_mask_t expect_value) {
return TestStringToSomething<ConvertExceptionMaskTraits>(
string, options, expect_result, expect_value);
}
TEST(SymbolicConstantsMach, StringToExceptionMask) {
// Dont use kNormalOptions, because kAllowOr needs to be tested.
static constexpr StringToSymbolicConstantOptions kOptions[] = {
0,
kAllowFullName,
kAllowShortName,
kAllowFullName | kAllowShortName,
kAllowNumber,
kAllowFullName | kAllowNumber,
kAllowShortName | kAllowNumber,
kAllowFullName | kAllowShortName | kAllowNumber,
kAllowOr,
kAllowFullName | kAllowOr,
kAllowShortName | kAllowOr,
kAllowFullName | kAllowShortName | kAllowOr,
kAllowNumber | kAllowOr,
kAllowFullName | kAllowNumber | kAllowOr,
kAllowShortName | kAllowNumber | kAllowOr,
kAllowFullName | kAllowShortName | kAllowNumber | kAllowOr,
};
for (size_t option_index = 0;
option_index < arraysize(kOptions);
++option_index) {
SCOPED_TRACE(base::StringPrintf("option_index %zu", option_index));
StringToSymbolicConstantOptions options = kOptions[option_index];
for (size_t index = 0; index < arraysize(kExceptionMaskTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
exception_mask_t exception_mask =
kExceptionMaskTestData[index].exception_mask;
{
SCOPED_TRACE("full_name");
base::StringPiece full_name(kExceptionMaskTestData[index].full_name);
bool has_number = full_name.find("0x", 0) != base::StringPiece::npos;
bool has_or = full_name.find('|', 0) != base::StringPiece::npos;
bool allowed_characteristics =
(has_number ? (options & kAllowNumber) : true) &&
(has_or ? (options & kAllowOr) : true);
bool is_number = full_name.compare("0x1") == 0;
bool expect_valid =
((options & kAllowFullName) && allowed_characteristics) ||
((options & kAllowNumber) && is_number);
TestStringToExceptionMask(
full_name, options, expect_valid, exception_mask);
}
{
SCOPED_TRACE("short_name");
base::StringPiece short_name(kExceptionMaskTestData[index].short_name);
bool has_number = short_name.find("0x", 0) != base::StringPiece::npos;
bool has_or = short_name.find('|', 0) != base::StringPiece::npos;
bool allowed_characteristics =
(has_number ? (options & kAllowNumber) : true) &&
(has_or ? (options & kAllowOr) : true);
bool is_number = short_name.compare("0x1") == 0;
bool expect_valid =
((options & kAllowShortName) && allowed_characteristics) ||
((options & kAllowNumber) && is_number);
TestStringToExceptionMask(
short_name, options, expect_valid, exception_mask);
}
}
static constexpr const char* kNegativeTestData[] = {
"EXC_MASK_CRASH ",
" EXC_MASK_BAD_INSTRUCTION",
"EXC_MASK_EXC_MASK_BAD_ACCESS",
"EXC_MASK_SOFTWARES",
"EXC_MASK_JUNK",
"EXC_GUARD",
"EXC_ARITHMETIC|EXC_FAKE",
"ARITHMETIC|FAKE",
"FAKE|ARITHMETIC",
"EXC_FAKE|EXC_ARITHMETIC",
"random",
"",
};
for (size_t index = 0; index < arraysize(kNegativeTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestStringToExceptionMask(kNegativeTestData[index], options, false, 0);
}
static constexpr struct {
const char* string;
size_t length;
} kNULTestData[] = {
NUL_TEST_DATA("\0EXC_MASK_ARITHMETIC"),
NUL_TEST_DATA("EXC_\0MASK_ARITHMETIC"),
NUL_TEST_DATA("EXC_MASK_\0ARITHMETIC"),
NUL_TEST_DATA("EXC_MASK_ARITH\0METIC"),
NUL_TEST_DATA("EXC_MASK_ARITHMETIC\0"),
NUL_TEST_DATA("\0ARITHMETIC"),
NUL_TEST_DATA("ARITH\0METIC"),
NUL_TEST_DATA("ARITHMETIC\0"),
NUL_TEST_DATA("\0003"),
NUL_TEST_DATA("3\0"),
NUL_TEST_DATA("1\0002"),
NUL_TEST_DATA("EXC_MASK_ARITHMETIC\0|EXC_MASK_EMULATION"),
NUL_TEST_DATA("EXC_MASK_ARITHMETIC|\0EXC_MASK_EMULATION"),
NUL_TEST_DATA("ARITHMETIC\0|EMULATION"),
NUL_TEST_DATA("ARITHMETIC|\0EMULATION"),
};
for (size_t index = 0; index < arraysize(kNULTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
base::StringPiece string(kNULTestData[index].string,
kNULTestData[index].length);
TestStringToExceptionMask(string, options, false, 0);
}
}
static const struct {
const char* string;
StringToSymbolicConstantOptions options;
exception_mask_t mask;
} kNonCanonicalTestData[] = {
{"EXC_MASK_ALL", kAllowFullName, ExcMaskAll()},
{"ALL", kAllowShortName, ExcMaskAll()},
{"EXC_MASK_ALL|EXC_MASK_CRASH",
kAllowFullName | kAllowOr,
ExcMaskAll() | EXC_MASK_CRASH},
{"ALL|CRASH",
kAllowShortName | kAllowOr,
ExcMaskAll() | EXC_MASK_CRASH},
{"EXC_MASK_BAD_INSTRUCTION|EXC_MASK_BAD_ACCESS",
kAllowFullName | kAllowOr,
EXC_MASK_BAD_ACCESS | EXC_MASK_BAD_INSTRUCTION},
{"EMULATION|ARITHMETIC",
kAllowShortName | kAllowOr,
EXC_MASK_ARITHMETIC | EXC_MASK_EMULATION},
{"EXC_MASK_SOFTWARE|BREAKPOINT",
kAllowFullName | kAllowShortName | kAllowOr,
EXC_MASK_SOFTWARE | EXC_MASK_BREAKPOINT},
{"SYSCALL|0x100",
kAllowShortName | kAllowNumber | kAllowOr,
EXC_MASK_SYSCALL | 0x100},
};
for (size_t index = 0; index < arraysize(kNonCanonicalTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestStringToExceptionMask(kNonCanonicalTestData[index].string,
kNonCanonicalTestData[index].options,
true,
kNonCanonicalTestData[index].mask);
}
// Ensure that a NUL is not required at the end of the string.
{
SCOPED_TRACE("trailing_NUL_full");
TestStringToExceptionMask(base::StringPiece("EXC_MASK_BREAKPOINTED", 19),
kAllowFullName,
true,
EXC_MASK_BREAKPOINT);
}
{
SCOPED_TRACE("trailing_NUL_short");
TestStringToExceptionMask(base::StringPiece("BREAKPOINTED", 10),
kAllowShortName,
true,
EXC_MASK_BREAKPOINT);
}
}
constexpr struct {
exception_behavior_t behavior;
const char* full_name;
const char* short_name;
} kExceptionBehaviorTestData[] = {
{EXCEPTION_DEFAULT, "EXCEPTION_DEFAULT", "DEFAULT"},
{EXCEPTION_STATE, "EXCEPTION_STATE", "STATE"},
{EXCEPTION_STATE_IDENTITY, "EXCEPTION_STATE_IDENTITY", "STATE_IDENTITY"},
{implicit_cast<exception_behavior_t>(EXCEPTION_DEFAULT |
MACH_EXCEPTION_CODES),
"EXCEPTION_DEFAULT|MACH_EXCEPTION_CODES",
"DEFAULT|MACH"},
{implicit_cast<exception_behavior_t>(EXCEPTION_STATE |
MACH_EXCEPTION_CODES),
"EXCEPTION_STATE|MACH_EXCEPTION_CODES",
"STATE|MACH"},
{implicit_cast<exception_behavior_t>(EXCEPTION_STATE_IDENTITY |
MACH_EXCEPTION_CODES),
"EXCEPTION_STATE_IDENTITY|MACH_EXCEPTION_CODES",
"STATE_IDENTITY|MACH"},
};
struct ConvertExceptionBehaviorTraits {
using ValueType = exception_behavior_t;
static std::string SomethingToString(
ValueType value,
SymbolicConstantToStringOptions options) {
return ExceptionBehaviorToString(value, options);
}
static bool StringToSomething(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
ValueType* value) {
return StringToExceptionBehavior(string, options, value);
}
static constexpr char kValueName[] = "behavior";
};
constexpr char ConvertExceptionBehaviorTraits::kValueName[];
void TestExceptionBehaviorToString(exception_behavior_t value,
const char* expect_full,
const char* expect_short) {
return TestSomethingToString<ConvertExceptionBehaviorTraits>(
value, expect_full, expect_short);
}
TEST(SymbolicConstantsMach, ExceptionBehaviorToString) {
for (size_t index = 0;
index < arraysize(kExceptionBehaviorTestData);
++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestExceptionBehaviorToString(kExceptionBehaviorTestData[index].behavior,
kExceptionBehaviorTestData[index].full_name,
kExceptionBehaviorTestData[index].short_name);
}
for (exception_behavior_t behavior = 0; behavior < 8; ++behavior) {
SCOPED_TRACE(base::StringPrintf("behavior %d", behavior));
exception_behavior_t behavior_mach = behavior | MACH_EXCEPTION_CODES;
if (behavior > 0 && behavior <= EXCEPTION_STATE_IDENTITY) {
TestExceptionBehaviorToString(behavior, "", "");
TestExceptionBehaviorToString(behavior_mach, "", "");
} else {
TestExceptionBehaviorToString(behavior, nullptr, nullptr);
TestExceptionBehaviorToString(behavior_mach, nullptr, nullptr);
}
}
}
void TestStringToExceptionBehavior(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
bool expect_result,
exception_behavior_t expect_value) {
return TestStringToSomething<ConvertExceptionBehaviorTraits>(
string, options, expect_result, expect_value);
}
TEST(SymbolicConstantsMach, StringToExceptionBehavior) {
for (size_t option_index = 0;
option_index < arraysize(kNormalOptions);
++option_index) {
SCOPED_TRACE(base::StringPrintf("option_index %zu", option_index));
StringToSymbolicConstantOptions options = kNormalOptions[option_index];
for (size_t index = 0;
index < arraysize(kExceptionBehaviorTestData);
++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
exception_behavior_t behavior =
kExceptionBehaviorTestData[index].behavior;
{
SCOPED_TRACE("full_name");
TestStringToExceptionBehavior(
kExceptionBehaviorTestData[index].full_name,
options,
options & kAllowFullName,
behavior);
}
{
SCOPED_TRACE("short_name");
TestStringToExceptionBehavior(
kExceptionBehaviorTestData[index].short_name,
options,
options & kAllowShortName,
behavior);
}
{
SCOPED_TRACE("number");
std::string number_string = base::StringPrintf("0x%x", behavior);
TestStringToExceptionBehavior(
number_string, options, options & kAllowNumber, behavior);
}
}
static constexpr const char* kNegativeTestData[] = {
"EXCEPTION_DEFAULT ",
" EXCEPTION_STATE",
"EXCEPTION_EXCEPTION_STATE_IDENTITY",
"EXCEPTION_DEFAULTS",
"EXCEPTION_JUNK",
"random",
"MACH_EXCEPTION_CODES",
"MACH",
"MACH_EXCEPTION_CODES|MACH_EXCEPTION_CODES",
"MACH_EXCEPTION_CODES|EXCEPTION_NONEXISTENT",
"MACH|junk",
"EXCEPTION_DEFAULT|EXCEPTION_STATE",
"1|2",
"",
};
for (size_t index = 0; index < arraysize(kNegativeTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestStringToExceptionBehavior(
kNegativeTestData[index], options, false, 0);
}
static constexpr struct {
const char* string;
size_t length;
} kNULTestData[] = {
NUL_TEST_DATA("\0EXCEPTION_STATE_IDENTITY"),
NUL_TEST_DATA("EXCEPTION_\0STATE_IDENTITY"),
NUL_TEST_DATA("EXCEPTION_STATE\0_IDENTITY"),
NUL_TEST_DATA("EXCEPTION_STATE_IDENTITY\0"),
NUL_TEST_DATA("\0STATE_IDENTITY"),
NUL_TEST_DATA("STATE\0_IDENTITY"),
NUL_TEST_DATA("STATE_IDENTITY\0"),
NUL_TEST_DATA("\0003"),
NUL_TEST_DATA("3\0"),
NUL_TEST_DATA("0x8000000\0001"),
NUL_TEST_DATA("EXCEPTION_STATE_IDENTITY\0|MACH_EXCEPTION_CODES"),
NUL_TEST_DATA("EXCEPTION_STATE_IDENTITY|\0MACH_EXCEPTION_CODES"),
NUL_TEST_DATA("STATE_IDENTITY\0|MACH"),
NUL_TEST_DATA("STATE_IDENTITY|\0MACH"),
};
for (size_t index = 0; index < arraysize(kNULTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
base::StringPiece string(kNULTestData[index].string,
kNULTestData[index].length);
TestStringToExceptionBehavior(string, options, false, 0);
}
}
static constexpr struct {
const char* string;
StringToSymbolicConstantOptions options;
exception_behavior_t behavior;
} kNonCanonicalTestData[] = {
{"MACH_EXCEPTION_CODES|EXCEPTION_STATE_IDENTITY",
kAllowFullName,
implicit_cast<exception_behavior_t>(EXCEPTION_STATE_IDENTITY |
MACH_EXCEPTION_CODES)},
{"MACH|STATE_IDENTITY",
kAllowShortName,
implicit_cast<exception_behavior_t>(EXCEPTION_STATE_IDENTITY |
MACH_EXCEPTION_CODES)},
{"MACH_EXCEPTION_CODES|STATE",
kAllowFullName | kAllowShortName,
implicit_cast<exception_behavior_t>(EXCEPTION_STATE |
MACH_EXCEPTION_CODES)},
{"MACH|EXCEPTION_STATE",
kAllowFullName | kAllowShortName,
implicit_cast<exception_behavior_t>(EXCEPTION_STATE |
MACH_EXCEPTION_CODES)},
{"3|MACH_EXCEPTION_CODES",
kAllowFullName | kAllowNumber,
implicit_cast<exception_behavior_t>(MACH_EXCEPTION_CODES | 3)},
{"MACH|0x2",
kAllowShortName | kAllowNumber,
implicit_cast<exception_behavior_t>(MACH_EXCEPTION_CODES | 0x2)},
};
for (size_t index = 0; index < arraysize(kNonCanonicalTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestStringToExceptionBehavior(kNonCanonicalTestData[index].string,
kNonCanonicalTestData[index].options,
true,
kNonCanonicalTestData[index].behavior);
}
// Ensure that a NUL is not required at the end of the string.
{
SCOPED_TRACE("trailing_NUL_full");
TestStringToExceptionBehavior(base::StringPiece("EXCEPTION_DEFAULTS", 17),
kAllowFullName,
true,
EXCEPTION_DEFAULT);
}
{
SCOPED_TRACE("trailing_NUL_short");
TestStringToExceptionBehavior(base::StringPiece("DEFAULTS", 7),
kAllowShortName,
true,
EXCEPTION_DEFAULT);
}
{
SCOPED_TRACE("trailing_NUL_full_mach");
base::StringPiece string("EXCEPTION_DEFAULT|MACH_EXCEPTION_CODESS", 38);
TestStringToExceptionBehavior(string,
kAllowFullName | kAllowOr,
true,
EXCEPTION_DEFAULT | MACH_EXCEPTION_CODES);
}
{
SCOPED_TRACE("trailing_NUL_short_mach");
TestStringToExceptionBehavior(base::StringPiece("DEFAULT|MACH_", 12),
kAllowShortName | kAllowOr,
true,
EXCEPTION_DEFAULT | MACH_EXCEPTION_CODES);
}
}
constexpr struct {
thread_state_flavor_t flavor;
const char* full_name;
const char* short_name;
} kThreadStateFlavorTestData[] = {
{THREAD_STATE_NONE, "THREAD_STATE_NONE", "NONE"},
{THREAD_STATE_FLAVOR_LIST, "THREAD_STATE_FLAVOR_LIST", "FLAVOR_LIST"},
{THREAD_STATE_FLAVOR_LIST_NEW,
"THREAD_STATE_FLAVOR_LIST_NEW",
"FLAVOR_LIST_NEW"},
{THREAD_STATE_FLAVOR_LIST_10_9,
"THREAD_STATE_FLAVOR_LIST_10_9",
"FLAVOR_LIST_10_9"},
#if defined(__i386__) || defined(__x86_64__)
{x86_THREAD_STATE32, "x86_THREAD_STATE32", "THREAD32"},
{x86_FLOAT_STATE32, "x86_FLOAT_STATE32", "FLOAT32"},
{x86_EXCEPTION_STATE32, "x86_EXCEPTION_STATE32", "EXCEPTION32"},
{x86_THREAD_STATE64, "x86_THREAD_STATE64", "THREAD64"},
{x86_FLOAT_STATE64, "x86_FLOAT_STATE64", "FLOAT64"},
{x86_EXCEPTION_STATE64, "x86_EXCEPTION_STATE64", "EXCEPTION64"},
{x86_THREAD_STATE, "x86_THREAD_STATE", "THREAD"},
{x86_FLOAT_STATE, "x86_FLOAT_STATE", "FLOAT"},
{x86_EXCEPTION_STATE, "x86_EXCEPTION_STATE", "EXCEPTION"},
{x86_DEBUG_STATE32, "x86_DEBUG_STATE32", "DEBUG32"},
{x86_DEBUG_STATE64, "x86_DEBUG_STATE64", "DEBUG64"},
{x86_DEBUG_STATE, "x86_DEBUG_STATE", "DEBUG"},
{14, "x86_SAVED_STATE32", "SAVED32"},
{15, "x86_SAVED_STATE64", "SAVED64"},
{x86_AVX_STATE32, "x86_AVX_STATE32", "AVX32"},
{x86_AVX_STATE64, "x86_AVX_STATE64", "AVX64"},
{x86_AVX_STATE, "x86_AVX_STATE", "AVX"},
#elif defined(__ppc__) || defined(__ppc64__)
{PPC_THREAD_STATE, "PPC_THREAD_STATE", "THREAD"},
{PPC_FLOAT_STATE, "PPC_FLOAT_STATE", "FLOAT"},
{PPC_EXCEPTION_STATE, "PPC_EXCEPTION_STATE", "EXCEPTION"},
{PPC_VECTOR_STATE, "PPC_VECTOR_STATE", "VECTOR"},
{PPC_THREAD_STATE64, "PPC_THREAD_STATE64", "THREAD64"},
{PPC_EXCEPTION_STATE64, "PPC_EXCEPTION_STATE64", "EXCEPTION64"},
#elif defined(__arm__) || defined(__arm64__)
{ARM_THREAD_STATE, "ARM_THREAD_STATE", "THREAD"},
{ARM_VFP_STATE, "ARM_VFP_STATE", "VFP"},
{ARM_EXCEPTION_STATE, "ARM_EXCEPTION_STATE", "EXCEPTION"},
{ARM_DEBUG_STATE, "ARM_DEBUG_STATE", "DEBUG"},
{ARM_THREAD_STATE64, "ARM_THREAD_STATE64", "THREAD64"},
{ARM_EXCEPTION_STATE64, "ARM_EXCEPTION_STATE64", "EXCEPTION64"},
{ARM_THREAD_STATE32, "ARM_THREAD_STATE32", "THREAD32"},
{ARM_DEBUG_STATE32, "ARM_DEBUG_STATE32", "DEBUG32"},
{ARM_DEBUG_STATE64, "ARM_DEBUG_STATE64", "DEBUG64"},
{ARM_NEON_STATE, "ARM_NEON_STATE", "NEON"},
{ARM_NEON_STATE64, "ARM_NEON_STATE64", "NEON64"},
#endif
};
struct ConvertThreadStateFlavorTraits {
using ValueType = thread_state_flavor_t;
static std::string SomethingToString(
ValueType value,
SymbolicConstantToStringOptions options) {
return ThreadStateFlavorToString(value, options);
}
static bool StringToSomething(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
ValueType* value) {
return StringToThreadStateFlavor(string, options, value);
}
static constexpr char kValueName[] = "flavor";
};
constexpr char ConvertThreadStateFlavorTraits::kValueName[];
void TestThreadStateFlavorToString(exception_type_t value,
const char* expect_full,
const char* expect_short) {
return TestSomethingToString<ConvertThreadStateFlavorTraits>(
value, expect_full, expect_short);
}
TEST(SymbolicConstantsMach, ThreadStateFlavorToString) {
for (size_t index = 0;
index < arraysize(kThreadStateFlavorTestData);
++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestThreadStateFlavorToString(kThreadStateFlavorTestData[index].flavor,
kThreadStateFlavorTestData[index].full_name,
kThreadStateFlavorTestData[index].short_name);
}
for (thread_state_flavor_t flavor = 0; flavor < 136; ++flavor) {
SCOPED_TRACE(base::StringPrintf("flavor %d", flavor));
// Flavor numbers appear to be assigned somewhat haphazardly, especially on
// certain architectures. The conditional should match flavors that
// ThreadStateFlavorToString() knows how to convert.
if (
#if defined(__i386__) || defined(__x86_64__)
flavor <= x86_AVX_STATE
#elif defined(__ppc__) || defined(__ppc64__)
flavor <= THREAD_STATE_NONE
#elif defined(__arm__) || defined(__arm64__)
(flavor <= ARM_EXCEPTION_STATE64 || flavor == ARM_THREAD_STATE32 ||
(flavor >= ARM_DEBUG_STATE32 && flavor <= ARM_NEON_STATE64))
#endif
||
flavor == THREAD_STATE_FLAVOR_LIST_NEW ||
flavor == THREAD_STATE_FLAVOR_LIST_10_9) {
TestThreadStateFlavorToString(flavor, "", "");
} else {
TestThreadStateFlavorToString(flavor, nullptr, nullptr);
}
}
}
void TestStringToThreadStateFlavor(const base::StringPiece& string,
StringToSymbolicConstantOptions options,
bool expect_result,
thread_state_flavor_t expect_value) {
return TestStringToSomething<ConvertThreadStateFlavorTraits>(
string, options, expect_result, expect_value);
}
TEST(SymbolicConstantsMach, StringToThreadStateFlavor) {
for (size_t option_index = 0;
option_index < arraysize(kNormalOptions);
++option_index) {
SCOPED_TRACE(base::StringPrintf("option_index %zu", option_index));
StringToSymbolicConstantOptions options = kNormalOptions[option_index];
for (size_t index = 0;
index < arraysize(kThreadStateFlavorTestData);
++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
thread_state_flavor_t flavor = kThreadStateFlavorTestData[index].flavor;
{
SCOPED_TRACE("full_name");
TestStringToThreadStateFlavor(
kThreadStateFlavorTestData[index].full_name,
options,
options & kAllowFullName,
flavor);
}
{
SCOPED_TRACE("short_name");
TestStringToThreadStateFlavor(
kThreadStateFlavorTestData[index].short_name,
options,
options & kAllowShortName,
flavor);
}
{
SCOPED_TRACE("number");
std::string number_string = base::StringPrintf("%d", flavor);
TestStringToThreadStateFlavor(
number_string, options, options & kAllowNumber, flavor);
}
}
static constexpr const char* kNegativeTestData[] = {
"THREAD_STATE_NONE ",
" THREAD_STATE_NONE",
"NONE ",
" NONE",
"THREAD_STATE_THREAD_STATE_NONE",
"THREAD_STATE_NONE_AT_ALL",
"NONE_AT_ALL",
"THREAD_STATE_JUNK",
"JUNK",
"random",
" THREAD64",
"THREAD64 ",
"THREAD642",
"",
#if defined(__i386__) || defined(__x86_64__)
" x86_THREAD_STATE64",
"x86_THREAD_STATE64 ",
"x86_THREAD_STATE642",
"x86_JUNK",
"x86_JUNK_STATE32",
"PPC_THREAD_STATE",
"ARM_THREAD_STATE",
#elif defined(__ppc__) || defined(__ppc64__)
" PPC_THREAD_STATE64",
"PPC_THREAD_STATE64 ",
"PPC_THREAD_STATE642",
"PPC_JUNK",
"PPC_JUNK_STATE32",
"x86_THREAD_STATE",
"ARM_THREAD_STATE",
#elif defined(__arm__) || defined(__arm64__)
" ARM_THREAD_STATE64",
"ARM_THREAD_STATE64 ",
"ARM_THREAD_STATE642",
"ARM_JUNK",
"ARM_JUNK_STATE32",
"x86_THREAD_STATE",
"PPC_THREAD_STATE",
#endif
};
for (size_t index = 0; index < arraysize(kNegativeTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
TestStringToThreadStateFlavor(
kNegativeTestData[index], options, false, 0);
}
static constexpr struct {
const char* string;
size_t length;
} kNULTestData[] = {
NUL_TEST_DATA("\0THREAD_STATE_NONE"),
NUL_TEST_DATA("THREAD_\0STATE_NONE"),
NUL_TEST_DATA("THREAD_STATE_\0NONE"),
NUL_TEST_DATA("THREAD_STATE_NO\0NE"),
NUL_TEST_DATA("THREAD_STATE_NONE\0"),
NUL_TEST_DATA("\0NONE"),
NUL_TEST_DATA("NO\0NE"),
NUL_TEST_DATA("NONE\0"),
NUL_TEST_DATA("\0THREAD_STATE_FLAVOR_LIST_NEW"),
NUL_TEST_DATA("THREAD_STATE_\0FLAVOR_LIST_NEW"),
NUL_TEST_DATA("THREAD_STATE_FLAVOR_LIST\0_NEW"),
NUL_TEST_DATA("THREAD_STATE_FLAVOR_LIST_NEW\0"),
NUL_TEST_DATA("\0FLAVOR_LIST_NEW"),
NUL_TEST_DATA("FLAVOR_LIST\0_NEW"),
NUL_TEST_DATA("FLAVOR_LIST_NEW\0"),
NUL_TEST_DATA("\0THREAD"),
NUL_TEST_DATA("THR\0EAD"),
NUL_TEST_DATA("THREAD\0"),
NUL_TEST_DATA("\0THREAD64"),
NUL_TEST_DATA("THR\0EAD64"),
NUL_TEST_DATA("THREAD\064"),
NUL_TEST_DATA("THREAD64\0"),
NUL_TEST_DATA("\0002"),
NUL_TEST_DATA("2\0"),
NUL_TEST_DATA("1\0002"),
#if defined(__i386__) || defined(__x86_64__)
NUL_TEST_DATA("\0x86_THREAD_STATE64"),
NUL_TEST_DATA("x86\0_THREAD_STATE64"),
NUL_TEST_DATA("x86_\0THREAD_STATE64"),
NUL_TEST_DATA("x86_THR\0EAD_STATE64"),
NUL_TEST_DATA("x86_THREAD\0_STATE64"),
NUL_TEST_DATA("x86_THREAD_\0STATE64"),
NUL_TEST_DATA("x86_THREAD_STA\0TE64"),
NUL_TEST_DATA("x86_THREAD_STATE\00064"),
NUL_TEST_DATA("x86_THREAD_STATE64\0"),
#elif defined(__ppc__) || defined(__ppc64__)
NUL_TEST_DATA("\0PPC_THREAD_STATE64"),
NUL_TEST_DATA("PPC\0_THREAD_STATE64"),
NUL_TEST_DATA("PPC_\0THREAD_STATE64"),
NUL_TEST_DATA("PPC_THR\0EAD_STATE64"),
NUL_TEST_DATA("PPC_THREAD\0_STATE64"),
NUL_TEST_DATA("PPC_THREAD_\0STATE64"),
NUL_TEST_DATA("PPC_THREAD_STA\0TE64"),
NUL_TEST_DATA("PPC_THREAD_STATE\00064"),
#elif defined(__arm__) || defined(__arm64__)
NUL_TEST_DATA("\0ARM_THREAD_STATE64"),
NUL_TEST_DATA("ARM\0_THREAD_STATE64"),
NUL_TEST_DATA("ARM_\0THREAD_STATE64"),
NUL_TEST_DATA("ARM_THR\0EAD_STATE64"),
NUL_TEST_DATA("ARM_THREAD\0_STATE64"),
NUL_TEST_DATA("ARM_THREAD_\0STATE64"),
NUL_TEST_DATA("ARM_THREAD_STA\0TE64"),
NUL_TEST_DATA("ARM_THREAD_STATE\00064"),
#endif
};
for (size_t index = 0; index < arraysize(kNULTestData); ++index) {
SCOPED_TRACE(base::StringPrintf("index %zu", index));
base::StringPiece string(kNULTestData[index].string,
kNULTestData[index].length);
TestStringToThreadStateFlavor(string, options, false, 0);
}
}
// Ensure that a NUL is not required at the end of the string.
{
SCOPED_TRACE("trailing_NUL_full");
TestStringToThreadStateFlavor(base::StringPiece("THREAD_STATE_NONER", 17),
kAllowFullName,
true,
THREAD_STATE_NONE);
}
{
SCOPED_TRACE("trailing_NUL_short");
TestStringToThreadStateFlavor(base::StringPiece("NONER", 4),
kAllowShortName,
true,
THREAD_STATE_NONE);
}
{
SCOPED_TRACE("trailing_NUL_full_new");
base::StringPiece string("THREAD_STATE_FLAVOR_LIST_NEWS", 28);
TestStringToThreadStateFlavor(
string, kAllowFullName, true, THREAD_STATE_FLAVOR_LIST_NEW);
}
{
SCOPED_TRACE("trailing_NUL_short_new");
TestStringToThreadStateFlavor(base::StringPiece("FLAVOR_LIST_NEWS", 15),
kAllowShortName,
true,
THREAD_STATE_FLAVOR_LIST_NEW);
}
}
} // namespace
} // namespace test
} // namespace crashpad