tools/fidlcat/interception_tests/handle_test.cc - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "gtest/gtest.h"
 #include "interception_workflow_test.h"

 namespace fidlcat {

 // zx_handle_close tests.

 std::unique_ptr<SystemCallTest> ZxHandleClose(int64_t result, std::string_view result_name,
                                               zx_handle_t handle) {
   auto value = std::make_unique<SystemCallTest>("zx_handle_close", result, result_name);
   value->AddInput(handle);
   return value;
 }

 #define HANDLE_CLOSE_DISPLAY_TEST_CONTENT(result, expected) \
   PerformDisplayTest("zx_handle_close@plt", ZxHandleClose(result, #result, kHandle), expected);

 #define HANDLE_CLOSE_DISPLAY_TEST(name, errno, expected) \
   TEST_F(InterceptionWorkflowTestX64, name) {            \
     HANDLE_CLOSE_DISPLAY_TEST_CONTENT(errno, expected);  \
   }                                                      \
   TEST_F(InterceptionWorkflowTestArm, name) { HANDLE_CLOSE_DISPLAY_TEST_CONTENT(errno, expected); }

 HANDLE_CLOSE_DISPLAY_TEST(ZxHandleClose, ZX_OK,
                           "\n"
                           "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
                           "zx_handle_close("
                           "handle:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m)\n"
                           "  -> \x1B[32mZX_OK\x1B[0m\n");

 // zx_handle_close_many tests.

 std::unique_ptr<SystemCallTest> ZxHandleCloseMany(int64_t result, std::string_view result_name,
                                                   const zx_handle_t* handles, size_t num_handles) {
   auto value = std::make_unique<SystemCallTest>("zx_handle_close_many", result, result_name);
   value->AddInput(reinterpret_cast<uint64_t>(handles));
   value->AddInput(num_handles);
   return value;
 }

 #define HANDLE_CLOSE_MANY_DISPLAY_TEST_CONTENT(result, expected)                         \
   std::vector<zx_handle_t> handles = {kHandle, kHandle2, kHandle3};                      \
   PerformDisplayTest("zx_handle_close_many@plt",                                         \
                      ZxHandleCloseMany(result, #result, handles.data(), handles.size()), \
                      expected);

 #define HANDLE_CLOSE_MANY_DISPLAY_TEST(name, errno, expected) \
   TEST_F(InterceptionWorkflowTestX64, name) {                 \
     HANDLE_CLOSE_MANY_DISPLAY_TEST_CONTENT(errno, expected);  \
   }                                                           \
   TEST_F(InterceptionWorkflowTestArm, name) {                 \
     HANDLE_CLOSE_MANY_DISPLAY_TEST_CONTENT(errno, expected);  \
   }

 HANDLE_CLOSE_MANY_DISPLAY_TEST(
     ZxHandleCloseMany, ZX_OK,
     "\n"
     "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
     "zx_handle_close_many()\n"
     "    handles:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m, \x1B[31mcefa1222\x1B[0m, "
     "\x1B[31mcefa1333\x1B[0m\n"
     "  -> \x1B[32mZX_OK\x1B[0m\n");

 // zx_handle_duplicate tests.

 std::unique_ptr<SystemCallTest> ZxHandleDuplicate(int64_t result, std::string_view result_name,
                                                   zx_handle_t handle, zx_rights_t rights,
                                                   zx_handle_t* out) {
   auto value = std::make_unique<SystemCallTest>("zx_handle_duplicate", result, result_name);
   value->AddInput(handle);
   value->AddInput(rights);
   value->AddInput(reinterpret_cast<uint64_t>(out));
   return value;
 }

 #define HANDLE_DUPLICATE_DISPLAY_TEST_CONTENT(result, expected)                               \
   zx_handle_t out = kHandleOut;                                                               \
   PerformDisplayTest("zx_handle_duplicate@plt",                                               \
                      ZxHandleDuplicate(result, #result, kHandle, ZX_RIGHT_SAME_RIGHTS, &out), \
                      expected);

 #define HANDLE_DUPLICATE_DISPLAY_TEST(name, errno, expected) \
   TEST_F(InterceptionWorkflowTestX64, name) {                \
     HANDLE_DUPLICATE_DISPLAY_TEST_CONTENT(errno, expected);  \
   }                                                          \
   TEST_F(InterceptionWorkflowTestArm, name) {                \
     HANDLE_DUPLICATE_DISPLAY_TEST_CONTENT(errno, expected);  \
   }

 HANDLE_DUPLICATE_DISPLAY_TEST(
     ZxHandleDuplicate, ZX_OK,
     "\n"
     "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
     "zx_handle_duplicate("
     "handle:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m, "
     "rights:\x1B[32mzx_rights_t\x1B[0m: \x1B[34mZX_RIGHT_SAME_RIGHTS\x1B[0m)\n"
     "  -> \x1B[32mZX_OK\x1B[0m (out:\x1B[32mhandle\x1B[0m: \x1B[31mbde90caf\x1B[0m)\n");

 // zx_handle_replace tests.

 std::unique_ptr<SystemCallTest> ZxHandleReplace(int64_t result, std::string_view result_name,
                                                 zx_handle_t handle, zx_rights_t rights,
                                                 zx_handle_t* out) {
   auto value = std::make_unique<SystemCallTest>("zx_handle_replace", result, result_name);
   value->AddInput(handle);
   value->AddInput(rights);
   value->AddInput(reinterpret_cast<uint64_t>(out));
   return value;
 }

 #define HANDLE_REPLACE_DISPLAY_TEST_CONTENT(result, expected)                               \
   zx_handle_t out = kHandleOut;                                                             \
   PerformDisplayTest("zx_handle_replace@plt",                                               \
                      ZxHandleReplace(result, #result, kHandle, ZX_RIGHT_SAME_RIGHTS, &out), \
                      expected);

 #define HANDLE_REPLACE_DISPLAY_TEST(name, errno, expected) \
   TEST_F(InterceptionWorkflowTestX64, name) {              \
     HANDLE_REPLACE_DISPLAY_TEST_CONTENT(errno, expected);  \
   }                                                        \
   TEST_F(InterceptionWorkflowTestArm, name) {              \
     HANDLE_REPLACE_DISPLAY_TEST_CONTENT(errno, expected);  \
   }

 HANDLE_REPLACE_DISPLAY_TEST(
     ZxHandleReplace, ZX_OK,
     "\n"
     "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
     "zx_handle_replace("
     "handle:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m, "
     "rights:\x1B[32mzx_rights_t\x1B[0m: \x1B[34mZX_RIGHT_SAME_RIGHTS\x1B[0m)\n"
     "  -> \x1B[32mZX_OK\x1B[0m (out:\x1B[32mhandle\x1B[0m: \x1B[31mbde90caf\x1B[0m)\n");

 }  // namespace fidlcat
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "gtest/gtest.h"
	#include "interception_workflow_test.h"

	namespace fidlcat {

	// zx_handle_close tests.

	std::unique_ptr<SystemCallTest> ZxHandleClose(int64_t result, std::string_view result_name,
	zx_handle_t handle) {
	auto value = std::make_unique<SystemCallTest>("zx_handle_close", result, result_name);
	value->AddInput(handle);
	return value;
	}

	#define HANDLE_CLOSE_DISPLAY_TEST_CONTENT(result, expected) \
	PerformDisplayTest("zx_handle_close@plt", ZxHandleClose(result, #result, kHandle), expected);

	#define HANDLE_CLOSE_DISPLAY_TEST(name, errno, expected) \
	TEST_F(InterceptionWorkflowTestX64, name) { \
	HANDLE_CLOSE_DISPLAY_TEST_CONTENT(errno, expected); \
	} \
	TEST_F(InterceptionWorkflowTestArm, name) { HANDLE_CLOSE_DISPLAY_TEST_CONTENT(errno, expected); }

	HANDLE_CLOSE_DISPLAY_TEST(ZxHandleClose, ZX_OK,
	"\n"
	"test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
	"zx_handle_close("
	"handle:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m)\n"
	" -> \x1B[32mZX_OK\x1B[0m\n");

	// zx_handle_close_many tests.

	std::unique_ptr<SystemCallTest> ZxHandleCloseMany(int64_t result, std::string_view result_name,
	const zx_handle_t* handles, size_t num_handles) {
	auto value = std::make_unique<SystemCallTest>("zx_handle_close_many", result, result_name);
	value->AddInput(reinterpret_cast<uint64_t>(handles));
	value->AddInput(num_handles);
	return value;
	}

	#define HANDLE_CLOSE_MANY_DISPLAY_TEST_CONTENT(result, expected) \
	std::vector<zx_handle_t> handles = {kHandle, kHandle2, kHandle3}; \
	PerformDisplayTest("zx_handle_close_many@plt", \
	ZxHandleCloseMany(result, #result, handles.data(), handles.size()), \
	expected);

	#define HANDLE_CLOSE_MANY_DISPLAY_TEST(name, errno, expected) \
	TEST_F(InterceptionWorkflowTestX64, name) { \
	HANDLE_CLOSE_MANY_DISPLAY_TEST_CONTENT(errno, expected); \
	} \
	TEST_F(InterceptionWorkflowTestArm, name) { \
	HANDLE_CLOSE_MANY_DISPLAY_TEST_CONTENT(errno, expected); \
	}

	HANDLE_CLOSE_MANY_DISPLAY_TEST(
	ZxHandleCloseMany, ZX_OK,
	"\n"
	"test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
	"zx_handle_close_many()\n"
	" handles:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m, \x1B[31mcefa1222\x1B[0m, "
	"\x1B[31mcefa1333\x1B[0m\n"
	" -> \x1B[32mZX_OK\x1B[0m\n");

	// zx_handle_duplicate tests.

	std::unique_ptr<SystemCallTest> ZxHandleDuplicate(int64_t result, std::string_view result_name,
	zx_handle_t handle, zx_rights_t rights,
	zx_handle_t* out) {
	auto value = std::make_unique<SystemCallTest>("zx_handle_duplicate", result, result_name);
	value->AddInput(handle);
	value->AddInput(rights);
	value->AddInput(reinterpret_cast<uint64_t>(out));
	return value;
	}

	#define HANDLE_DUPLICATE_DISPLAY_TEST_CONTENT(result, expected) \
	zx_handle_t out = kHandleOut; \
	PerformDisplayTest("zx_handle_duplicate@plt", \
	ZxHandleDuplicate(result, #result, kHandle, ZX_RIGHT_SAME_RIGHTS, &out), \
	expected);

	#define HANDLE_DUPLICATE_DISPLAY_TEST(name, errno, expected) \
	TEST_F(InterceptionWorkflowTestX64, name) { \
	HANDLE_DUPLICATE_DISPLAY_TEST_CONTENT(errno, expected); \
	} \
	TEST_F(InterceptionWorkflowTestArm, name) { \
	HANDLE_DUPLICATE_DISPLAY_TEST_CONTENT(errno, expected); \
	}

	HANDLE_DUPLICATE_DISPLAY_TEST(
	ZxHandleDuplicate, ZX_OK,
	"\n"
	"test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
	"zx_handle_duplicate("
	"handle:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m, "
	"rights:\x1B[32mzx_rights_t\x1B[0m: \x1B[34mZX_RIGHT_SAME_RIGHTS\x1B[0m)\n"
	" -> \x1B[32mZX_OK\x1B[0m (out:\x1B[32mhandle\x1B[0m: \x1B[31mbde90caf\x1B[0m)\n");

	// zx_handle_replace tests.

	std::unique_ptr<SystemCallTest> ZxHandleReplace(int64_t result, std::string_view result_name,
	zx_handle_t handle, zx_rights_t rights,
	zx_handle_t* out) {
	auto value = std::make_unique<SystemCallTest>("zx_handle_replace", result, result_name);
	value->AddInput(handle);
	value->AddInput(rights);
	value->AddInput(reinterpret_cast<uint64_t>(out));
	return value;
	}

	#define HANDLE_REPLACE_DISPLAY_TEST_CONTENT(result, expected) \
	zx_handle_t out = kHandleOut; \
	PerformDisplayTest("zx_handle_replace@plt", \
	ZxHandleReplace(result, #result, kHandle, ZX_RIGHT_SAME_RIGHTS, &out), \
	expected);

	#define HANDLE_REPLACE_DISPLAY_TEST(name, errno, expected) \
	TEST_F(InterceptionWorkflowTestX64, name) { \
	HANDLE_REPLACE_DISPLAY_TEST_CONTENT(errno, expected); \
	} \
	TEST_F(InterceptionWorkflowTestArm, name) { \
	HANDLE_REPLACE_DISPLAY_TEST_CONTENT(errno, expected); \
	}

	HANDLE_REPLACE_DISPLAY_TEST(
	ZxHandleReplace, ZX_OK,
	"\n"
	"test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m "
	"zx_handle_replace("
	"handle:\x1B[32mhandle\x1B[0m: \x1B[31mcefa1db0\x1B[0m, "
	"rights:\x1B[32mzx_rights_t\x1B[0m: \x1B[34mZX_RIGHT_SAME_RIGHTS\x1B[0m)\n"
	" -> \x1B[32mZX_OK\x1B[0m (out:\x1B[32mhandle\x1B[0m: \x1B[31mbde90caf\x1B[0m)\n");

	} // namespace fidlcat