| // 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 "tools/fidlcat/interception_tests/interception_workflow_test.h" |
| |
| namespace fidlcat { |
| |
| // zx_socket_create tests. |
| |
| std::unique_ptr<SystemCallTest> ZxSocketCreate(int64_t result, std::string_view result_name, |
| uint32_t options, zx_handle_t* out0, |
| zx_handle_t* out1) { |
| auto value = std::make_unique<SystemCallTest>("zx_socket_create", result, result_name); |
| value->AddInput(options); |
| value->AddInput(reinterpret_cast<uint64_t>(out0)); |
| value->AddInput(reinterpret_cast<uint64_t>(out1)); |
| return value; |
| } |
| |
| #define SOCKET_CREATE_DISPLAY_TEST_CONTENT(result, expected) \ |
| zx_handle_t out0 = kHandleOut; \ |
| zx_handle_t out1 = kHandleOut2; \ |
| PerformDisplayTest("$plt(zx_socket_create)", \ |
| ZxSocketCreate(result, #result, ZX_SOCKET_STREAM, &out0, &out1), expected) |
| |
| #define SOCKET_CREATE_DISPLAY_TEST(name, errno, expected) \ |
| TEST_F(InterceptionWorkflowTestX64, name) { \ |
| SOCKET_CREATE_DISPLAY_TEST_CONTENT(errno, expected); \ |
| } \ |
| TEST_F(InterceptionWorkflowTestArm, name) { SOCKET_CREATE_DISPLAY_TEST_CONTENT(errno, expected); } |
| |
| SOCKET_CREATE_DISPLAY_TEST( |
| ZxSocketCreate, ZX_OK, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_create(" |
| "options: \x1B[32mzx.socket_create_options\x1B[0m = \x1B[34mZX_SOCKET_STREAM\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m (" |
| "out0: \x1B[32mhandle\x1B[0m = \x1B[31mbde90caf\x1B[0m, " |
| "out1: \x1B[32mhandle\x1B[0m = \x1B[31mbde90222\x1B[0m)\n") |
| |
| // zx_socket_write tests. |
| |
| std::unique_ptr<SystemCallTest> ZxSocketWrite(int64_t result, std::string_view result_name, |
| zx_handle_t handle, uint32_t options, |
| const uint8_t* buffer, size_t buffer_size, |
| size_t* actual) { |
| auto value = std::make_unique<SystemCallTest>("zx_socket_write", result, result_name); |
| value->AddInput(handle); |
| value->AddInput(options); |
| value->AddInput(reinterpret_cast<uint64_t>(buffer)); |
| value->AddInput(buffer_size); |
| value->AddInput(reinterpret_cast<uint64_t>(actual)); |
| return value; |
| } |
| |
| #define SOCKET_WRITE_DISPLAY_TEST_CONTENT(result, expected) \ |
| std::vector<uint8_t> buffer = {0x10, 0x01, 0x20, 0x02, 0x30, 0x03, 0x40, 0x04}; \ |
| size_t actual = buffer.size(); \ |
| PerformDisplayTest( \ |
| "$plt(zx_socket_write)", \ |
| ZxSocketWrite(result, #result, kHandle, 0, buffer.data(), buffer.size(), &actual), \ |
| expected) |
| |
| #define SOCKET_WRITE_DISPLAY_TEST(name, errno, expected) \ |
| TEST_F(InterceptionWorkflowTestX64, name) { \ |
| SOCKET_WRITE_DISPLAY_TEST_CONTENT(errno, expected); \ |
| } \ |
| TEST_F(InterceptionWorkflowTestArm, name) { SOCKET_WRITE_DISPLAY_TEST_CONTENT(errno, expected); } |
| |
| SOCKET_WRITE_DISPLAY_TEST( |
| ZxSocketWrite, ZX_OK, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_write(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "options: \x1B[32muint32\x1B[0m = \x1B[34m0\x1B[0m)\n" |
| " buffer: \x1B[32mvector<uint8>\x1B[0m = [ " |
| "\x1B[34m10\x1B[0m, \x1B[34m01\x1B[0m, \x1B[34m20\x1B[0m, \x1B[34m02\x1B[0m, " |
| "\x1B[34m30\x1B[0m, \x1B[34m03\x1B[0m, \x1B[34m40\x1B[0m, \x1B[34m04\x1B[0m ]\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m (" |
| "actual: \x1B[32msize\x1B[0m = \x1B[34m8\x1B[0m/\x1B[34m8\x1B[0m)\n") |
| |
| #define SOCKET_WRITE_STRING_DISPLAY_TEST_CONTENT(result, expected) \ |
| std::vector<uint8_t> buffer = {'h', 'e', 'l', 'l', 'o'}; \ |
| size_t actual = buffer.size(); \ |
| PerformDisplayTest( \ |
| "$plt(zx_socket_write)", \ |
| ZxSocketWrite(result, #result, kHandle, 0, buffer.data(), buffer.size(), &actual), \ |
| expected) |
| |
| #define SOCKET_WRITE_STRING_DISPLAY_TEST(name, errno, expected) \ |
| TEST_F(InterceptionWorkflowTestX64, name) { \ |
| SOCKET_WRITE_STRING_DISPLAY_TEST_CONTENT(errno, expected); \ |
| } \ |
| TEST_F(InterceptionWorkflowTestArm, name) { \ |
| SOCKET_WRITE_STRING_DISPLAY_TEST_CONTENT(errno, expected); \ |
| } |
| |
| SOCKET_WRITE_STRING_DISPLAY_TEST( |
| ZxSocketWriteString, ZX_OK, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_write(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "options: \x1B[32muint32\x1B[0m = \x1B[34m0\x1B[0m)\n" |
| " buffer: \x1B[32mvector<uint8>\x1B[0m = \x1B[31m\"hello\"\x1B[0m\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m (" |
| "actual: \x1B[32msize\x1B[0m = \x1B[34m5\x1B[0m/\x1B[34m5\x1B[0m)\n") |
| |
| // zx_socket_read tests. |
| |
| std::unique_ptr<SystemCallTest> ZxSocketRead(int64_t result, std::string_view result_name, |
| zx_handle_t handle, uint32_t options, |
| const uint8_t* buffer, size_t buffer_size, |
| size_t* actual) { |
| auto value = std::make_unique<SystemCallTest>("zx_socket_read", result, result_name); |
| value->AddInput(handle); |
| value->AddInput(options); |
| value->AddInput(reinterpret_cast<uint64_t>(buffer)); |
| value->AddInput(buffer_size); |
| value->AddInput(reinterpret_cast<uint64_t>(actual)); |
| return value; |
| } |
| |
| #define SOCKET_READ_DISPLAY_TEST_CONTENT(result, options, expected) \ |
| std::vector<uint8_t> buffer = {0x10, 0x01, 0x20, 0x02, 0x30, 0x03, 0x40, 0x04}; \ |
| size_t actual = buffer.size(); \ |
| PerformDisplayTest( \ |
| "$plt(zx_socket_read)", \ |
| ZxSocketRead(result, #result, kHandle, options, buffer.data(), 1024, &actual), expected) |
| |
| #define SOCKET_READ_DISPLAY_TEST(name, errno, options, expected) \ |
| TEST_F(InterceptionWorkflowTestX64, name) { \ |
| SOCKET_READ_DISPLAY_TEST_CONTENT(errno, options, expected); \ |
| } \ |
| TEST_F(InterceptionWorkflowTestArm, name) { \ |
| SOCKET_READ_DISPLAY_TEST_CONTENT(errno, options, expected); \ |
| } |
| |
| SOCKET_READ_DISPLAY_TEST( |
| ZxSocketRead, ZX_OK, 0, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_read(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "options: \x1B[32mzx.socket_read_options\x1B[0m = \x1B[34m0\x1B[0m, " |
| "buffer_size: \x1B[32msize\x1B[0m = \x1B[34m1024\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m (" |
| "actual: \x1B[32msize\x1B[0m = \x1B[34m8\x1B[0m/\x1B[34m1024\x1B[0m)\n" |
| " buffer: \x1B[32mvector<uint8>\x1B[0m = [ " |
| "\x1B[34m10\x1B[0m, \x1B[34m01\x1B[0m, \x1B[34m20\x1B[0m, \x1B[34m02\x1B[0m, " |
| "\x1B[34m30\x1B[0m, \x1B[34m03\x1B[0m, \x1B[34m40\x1B[0m, \x1B[34m04\x1B[0m ]\n") |
| |
| SOCKET_READ_DISPLAY_TEST( |
| ZxSocketReadPeek, ZX_OK, ZX_SOCKET_PEEK, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_read(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "options: \x1B[32mzx.socket_read_options\x1B[0m = \x1B[34mZX_SOCKET_PEEK\x1B[0m, " |
| "buffer_size: \x1B[32msize\x1B[0m = \x1B[34m1024\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m (" |
| "actual: \x1B[32msize\x1B[0m = \x1B[34m8\x1B[0m/\x1B[34m1024\x1B[0m)\n" |
| " buffer: \x1B[32mvector<uint8>\x1B[0m = [ " |
| "\x1B[34m10\x1B[0m, \x1B[34m01\x1B[0m, \x1B[34m20\x1B[0m, \x1B[34m02\x1B[0m, " |
| "\x1B[34m30\x1B[0m, \x1B[34m03\x1B[0m, \x1B[34m40\x1B[0m, \x1B[34m04\x1B[0m ]\n") |
| |
| #define SOCKET_READ_STRING_DISPLAY_TEST_CONTENT(result, expected) \ |
| std::vector<uint8_t> buffer = {'h', 'e', 'l', 'l', 'o'}; \ |
| size_t actual = buffer.size(); \ |
| PerformDisplayTest("$plt(zx_socket_read)", \ |
| ZxSocketRead(result, #result, kHandle, 0, buffer.data(), 1024, &actual), \ |
| expected) |
| |
| #define SOCKET_READ_STRING_DISPLAY_TEST(name, errno, expected) \ |
| TEST_F(InterceptionWorkflowTestX64, name) { \ |
| SOCKET_READ_STRING_DISPLAY_TEST_CONTENT(errno, expected); \ |
| } \ |
| TEST_F(InterceptionWorkflowTestArm, name) { \ |
| SOCKET_READ_STRING_DISPLAY_TEST_CONTENT(errno, expected); \ |
| } |
| |
| SOCKET_READ_STRING_DISPLAY_TEST( |
| ZxSocketReadString, ZX_OK, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_read(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "options: \x1B[32mzx.socket_read_options\x1B[0m = \x1B[34m0\x1B[0m, " |
| "buffer_size: \x1B[32msize\x1B[0m = \x1B[34m1024\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m (" |
| "actual: \x1B[32msize\x1B[0m = \x1B[34m5\x1B[0m/\x1B[34m1024\x1B[0m)\n" |
| " buffer: \x1B[32mvector<uint8>\x1B[0m = \x1B[31m\"hello\"\x1B[0m\n") |
| |
| std::unique_ptr<SystemCallTest> ZxSocketSetDisposition(int64_t result, std::string_view result_name, |
| zx_handle_t handle, uint32_t disposition, |
| uint32_t disposition_peer) { |
| auto value = std::make_unique<SystemCallTest>("zx_socket_set_disposition", result, result_name); |
| value->AddInput(handle); |
| value->AddInput(disposition); |
| value->AddInput(disposition_peer); |
| return value; |
| } |
| |
| #define SOCKET_SET_DISPOSITION_DISPLAY_TEST_CONTENT(result, disposition, disposition_peer, \ |
| expected) \ |
| PerformDisplayTest( \ |
| "$plt(zx_socket_set_disposition)", \ |
| ZxSocketSetDisposition(result, #result, kHandle, disposition, disposition_peer), expected) |
| |
| #define SOCKET_SET_DISPOSITION_DISPLAY_TEST(name, errno, disposition, disposition_peer, expected) \ |
| TEST_F(InterceptionWorkflowTestX64, name) { \ |
| SOCKET_SET_DISPOSITION_DISPLAY_TEST_CONTENT(errno, disposition, disposition_peer, expected); \ |
| } \ |
| TEST_F(InterceptionWorkflowTestArm, name) { \ |
| SOCKET_SET_DISPOSITION_DISPLAY_TEST_CONTENT(errno, disposition, disposition_peer, expected); \ |
| } |
| |
| SOCKET_SET_DISPOSITION_DISPLAY_TEST(ZxSocketSetDispositionLocal, ZX_OK, |
| ZX_SOCKET_DISPOSITION_WRITE_ENABLED, 0, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_set_disposition(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "disposition: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34mZX_SOCKET_DISPOSITION_WRITE_ENABLED\x1B[0m, " |
| "disposition_peer: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34m0\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m\n") |
| |
| SOCKET_SET_DISPOSITION_DISPLAY_TEST(ZxSocketSetDispositionPeer, ZX_OK, 0, |
| ZX_SOCKET_DISPOSITION_WRITE_ENABLED, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_set_disposition(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "disposition: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34m0\x1B[0m, " |
| "disposition_peer: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34mZX_SOCKET_DISPOSITION_WRITE_ENABLED\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m\n") |
| |
| SOCKET_SET_DISPOSITION_DISPLAY_TEST(ZxSocketSetDispositionBoth, ZX_OK, |
| ZX_SOCKET_DISPOSITION_WRITE_DISABLED | |
| ZX_SOCKET_DISPOSITION_WRITE_ENABLED, |
| ZX_SOCKET_DISPOSITION_WRITE_DISABLED, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_set_disposition(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "disposition: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34mZX_SOCKET_DISPOSITION_WRITE_DISABLED | " |
| "ZX_SOCKET_DISPOSITION_WRITE_ENABLED\x1B[0m, " |
| "disposition_peer: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34mZX_SOCKET_DISPOSITION_WRITE_DISABLED\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m\n") |
| |
| SOCKET_SET_DISPOSITION_DISPLAY_TEST(ZxSocketSetDispositionInvalid, ZX_OK, 1337, 0, |
| "\n" |
| "\x1B[32m0.000000\x1B[0m " |
| "test_3141 \x1B[31m3141\x1B[0m:\x1B[31m8764\x1B[0m " |
| "zx_socket_set_disposition(" |
| "handle: \x1B[32mhandle\x1B[0m = \x1B[31mcefa1db0\x1B[0m, " |
| "disposition: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34mZX_SOCKET_DISPOSITION_WRITE_DISABLED | 1336\x1B[0m, " |
| "disposition_peer: \x1B[32mzx.socket_disposition\x1B[0m = " |
| "\x1B[34m0\x1B[0m)\n" |
| "\x1B[32m0.000000\x1B[0m " |
| " -> \x1B[32mZX_OK\x1B[0m\n") |
| |
| } // namespace fidlcat |
