//--------------------------------------------------------------------------- // // SCSI Target Emulator RaSCSI Reloaded // for Raspberry Pi // // Copyright (C) 2022 Uwe Seimet // //--------------------------------------------------------------------------- #include "test_shared.h" #include "controllers/controller_manager.h" #include "mocks.h" #include "shared/rascsi_exceptions.h" #include "shared/rascsi_version.h" #include #include #include #include using namespace std; using namespace filesystem; // Inlude the process id in the temp file path so that multiple instances of the test procedures // could run on the same host. const path test_data_temp_path(temp_directory_path() / path(fmt::format("rascsi-test-{}", getpid()))); // NOSONAR Publicly writable directory is fine here shared_ptr CreateDevice(PbDeviceType type, MockAbstractController &controller, const string &extension) { DeviceFactory device_factory; auto device = device_factory.CreateDevice(type, 0, extension); unordered_map params; device->Init(params); controller.AddDevice(device); return device; } void TestInquiry(PbDeviceType type, device_type t, scsi_level l, const string &ident, int additional_length, bool removable, const string &extension) { auto bus = make_shared(); auto controller_manager = make_shared(*bus); auto controller = make_shared>(controller_manager, 0); auto device = CreateDevice(type, *controller, extension); auto &cmd = controller->GetCmd(); // ALLOCATION LENGTH cmd[4] = 255; EXPECT_CALL(*controller, DataIn()); device->Dispatch(scsi_command::eCmdInquiry); const vector &buffer = controller->GetBuffer(); EXPECT_EQ(t, static_cast(buffer[0])); EXPECT_EQ(removable ? 0x80 : 0x00, buffer[1]); EXPECT_EQ(l, static_cast(buffer[2])); EXPECT_EQ(l > scsi_level::SCSI_2 ? scsi_level::SCSI_2 : l, static_cast(buffer[3])); EXPECT_EQ(additional_length, buffer[4]); string product_data; if (ident.size() == 24) { ostringstream s; s << ident << setw(2) << setfill('0') << rascsi_major_version << rascsi_minor_version; product_data = s.str(); } else { product_data = ident; } EXPECT_TRUE(!memcmp(product_data.c_str(), &buffer[8], 28)); } pair OpenTempFile() { const string filename = string(test_data_temp_path) + "/rascsi_test-XXXXXX"; // NOSONAR Publicly writable directory is fine here vector f(filename.begin(), filename.end()); f.push_back(0); create_directories(path(filename).parent_path()); const int fd = mkstemp(f.data()); EXPECT_NE(-1, fd) << "Couldn't create temporary file '" << f.data() << "'"; return make_pair(fd, path(f.data())); } path CreateTempFile(int size) { const auto [fd, filename] = OpenTempFile(); vector data(size); const size_t count = write(fd, data.data(), data.size()); close(fd); EXPECT_EQ(count, data.size()) << "Couldn't create temporary file '" << string(filename) << "'"; return path(filename); } void CreateTempFileWithData(string filename, vector &data) { path new_filename = test_data_temp_path; new_filename += path(filename); create_directories(new_filename.parent_path()); FILE *fp = fopen(new_filename.c_str(), "wb"); if (fp == nullptr) { printf("ERROR: Unable to open file %s\n", new_filename.c_str()); return; } size_t size_written = fwrite(&data[0], sizeof(uint8_t), data.size(), fp); if (size_written != sizeof(vector::value_type) * data.size()) { printf("Expected to write %zu bytes, but only wrote %zu to %s", size_written, sizeof(vector::value_type) * data.size(), filename.c_str()); } fclose(fp); } void DeleteTempFile(string filename) { path temp_file = test_data_temp_path; temp_file += path(filename); remove(temp_file); } void CleanupAllTempFiles() { remove_all(test_data_temp_path); } int GetInt16(const vector &buf, int offset) { assert(buf.size() > static_cast(offset) + 1); return (to_integer(buf[offset]) << 8) | to_integer(buf[offset + 1]); } uint32_t GetInt32(const vector &buf, int offset) { assert(buf.size() > static_cast(offset) + 3); return (to_integer(buf[offset]) << 24) | (to_integer(buf[offset + 1]) << 16) | (to_integer(buf[offset + 2]) << 8) | to_integer(buf[offset + 3]); }