//--------------------------------------------------------------------------- // // SCSI Target Emulator PiSCSI // for Raspberry Pi // // Copyright (C) 2021-2022 Uwe Seimet // //--------------------------------------------------------------------------- #include "shared/piscsi_util.h" #include "shared/protobuf_util.h" #include "shared/piscsi_exceptions.h" #include "scsictl_commands.h" #include #include #include #include using namespace std; using namespace piscsi_interface; using namespace piscsi_util; using namespace protobuf_util; bool ScsictlCommands::Execute(const string& log_level, const string& default_folder, const string& reserved_ids, const string& image_params, const string& filename) { switch(command.operation()) { case LOG_LEVEL: return CommandLogLevel(log_level); case DEFAULT_FOLDER: return CommandDefaultImageFolder(default_folder); case RESERVE_IDS: return CommandReserveIds(reserved_ids); case CREATE_IMAGE: return CommandCreateImage(image_params); case DELETE_IMAGE: return CommandDeleteImage(image_params); case RENAME_IMAGE: return CommandRenameImage(image_params); case COPY_IMAGE: return CommandCopyImage(image_params); case DEVICES_INFO: return CommandDeviceInfo(); case DEVICE_TYPES_INFO: return CommandDeviceTypesInfo(); case VERSION_INFO: return CommandVersionInfo(); case SERVER_INFO: return CommandServerInfo(); case DEFAULT_IMAGE_FILES_INFO: return CommandDefaultImageFilesInfo(); case IMAGE_FILE_INFO: return CommandImageFileInfo(filename); case NETWORK_INTERFACES_INFO: return CommandNetworkInterfacesInfo(); case LOG_LEVEL_INFO: return CommandLogLevelInfo(); case RESERVED_IDS_INFO: return CommandReservedIdsInfo(); case MAPPING_INFO: return CommandMappingInfo(); case OPERATION_INFO: return CommandOperationInfo(); default: return SendCommand(); } return false; } bool ScsictlCommands::SendCommand() { sockaddr_in server_addr = {}; if (!ResolveHostName(hostname, &server_addr)) { throw io_exception("Can't resolve hostname '" + hostname + "'"); } const int fd = socket(AF_INET, SOCK_STREAM, 0); if (fd == -1) { throw io_exception("Can't create socket: " + string(strerror(errno))); } server_addr.sin_port = htons(uint16_t(port)); if (connect(fd, (sockaddr *)&server_addr, sizeof(server_addr)) < 0) { close(fd); throw io_exception("Can't connect to piscsi on host '" + hostname + "', port " + to_string(port) + ": " + strerror(errno)); } if (write(fd, "RASCSI", 6) != 6) { close(fd); throw io_exception("Can't write magic"); } serializer.SerializeMessage(fd, command); serializer.DeserializeMessage(fd, result); close(fd); if (!result.status()) { throw io_exception(result.msg()); } if (!result.msg().empty()) { cout << result.msg() << endl; } return true; } bool ScsictlCommands::CommandDevicesInfo() { SendCommand(); cout << scsictl_display.DisplayDevicesInfo(result.devices_info()) << flush; return true; } bool ScsictlCommands::CommandLogLevel(const string& log_level) { SetParam(command, "level", log_level); return SendCommand(); } bool ScsictlCommands::CommandReserveIds(const string& reserved_ids) { SetParam(command, "ids", reserved_ids); return SendCommand(); } bool ScsictlCommands::CommandCreateImage(const string& image_params) { if (const size_t separator_pos = image_params.find(COMPONENT_SEPARATOR); separator_pos != string::npos) { SetParam(command, "file", string_view(image_params).substr(0, separator_pos)); SetParam(command, "size", string_view(image_params).substr(separator_pos + 1)); } else { cerr << "Error: Invalid file descriptor '" << image_params << "', format is NAME:SIZE" << endl; return false; } SetParam(command, "read_only", "false"); return SendCommand(); } bool ScsictlCommands::CommandDeleteImage(const string& filename) { SetParam(command, "file", filename); return SendCommand(); } bool ScsictlCommands::CommandRenameImage(const string& image_params) { if (const size_t separator_pos = image_params.find(COMPONENT_SEPARATOR); separator_pos != string::npos) { SetParam(command, "from", string_view(image_params).substr(0, separator_pos)); SetParam(command, "to", string_view(image_params).substr(separator_pos + 1)); } else { cerr << "Error: Invalid file descriptor '" << image_params << "', format is CURRENT_NAME:NEW_NAME" << endl; return false; } return SendCommand(); } bool ScsictlCommands::CommandCopyImage(const string& image_params) { if (const size_t separator_pos = image_params.find(COMPONENT_SEPARATOR); separator_pos != string::npos) { SetParam(command, "from", string_view(image_params).substr(0, separator_pos)); SetParam(command, "to", string_view(image_params).substr(separator_pos + 1)); } else { cerr << "Error: Invalid file descriptor '" << image_params << "', format is CURRENT_NAME:NEW_NAME" << endl; return false; } return SendCommand(); } bool ScsictlCommands::CommandDefaultImageFolder(const string& folder) { SetParam(command, "folder", folder); return SendCommand(); } bool ScsictlCommands::CommandDeviceInfo() { SendCommand(); for (const auto& device : result.devices_info().devices()) { cout << scsictl_display.DisplayDeviceInfo(device); } cout << flush; return true; } bool ScsictlCommands::CommandDeviceTypesInfo() { SendCommand(); cout << scsictl_display.DisplayDeviceTypesInfo(result.device_types_info()) << flush; return true; } bool ScsictlCommands::CommandVersionInfo() { SendCommand(); cout << scsictl_display.DisplayVersionInfo(result.version_info()) << flush; return true; } bool ScsictlCommands::CommandServerInfo() { SendCommand(); PbServerInfo server_info = result.server_info(); cout << scsictl_display.DisplayVersionInfo(server_info.version_info()); cout << scsictl_display.DisplayLogLevelInfo(server_info.log_level_info()); cout << scsictl_display.DisplayImageFilesInfo(server_info.image_files_info()); cout << scsictl_display.DisplayMappingInfo(server_info.mapping_info()); cout << scsictl_display.DisplayNetworkInterfaces(server_info.network_interfaces_info()); cout << scsictl_display.DisplayDeviceTypesInfo(server_info.device_types_info()); cout << scsictl_display.DisplayReservedIdsInfo(server_info.reserved_ids_info()); cout << scsictl_display.DisplayOperationInfo(server_info.operation_info()); if (server_info.devices_info().devices_size()) { list sorted_devices = { server_info.devices_info().devices().begin(), server_info.devices_info().devices().end() }; sorted_devices.sort([](const auto& a, const auto& b) { return a.id() < b.id() || a.unit() < b.unit(); }); cout << "Attached devices:\n"; for (const auto& device : sorted_devices) { cout << scsictl_display.DisplayDeviceInfo(device); } } cout << flush; return true; } bool ScsictlCommands::CommandDefaultImageFilesInfo() { SendCommand(); cout << scsictl_display.DisplayImageFilesInfo(result.image_files_info()) << flush; return true; } bool ScsictlCommands::CommandImageFileInfo(const string& filename) { SetParam(command, "file", filename); SendCommand(); cout << scsictl_display.DisplayImageFile(result.image_file_info()) << flush; return true; } bool ScsictlCommands::CommandNetworkInterfacesInfo() { SendCommand(); cout << scsictl_display.DisplayNetworkInterfaces(result.network_interfaces_info()) << flush; return true; } bool ScsictlCommands::CommandLogLevelInfo() { SendCommand(); cout << scsictl_display.DisplayLogLevelInfo(result.log_level_info()) << flush; return true; } bool ScsictlCommands::CommandReservedIdsInfo() { SendCommand(); cout << scsictl_display.DisplayReservedIdsInfo(result.reserved_ids_info()) << flush; return true; } bool ScsictlCommands::CommandMappingInfo() { SendCommand(); cout << scsictl_display.DisplayMappingInfo(result.mapping_info()) << flush; return true; } bool ScsictlCommands::CommandOperationInfo() { SendCommand(); cout << scsictl_display.DisplayOperationInfo(result.operation_info()) << flush; return true; } bool ScsictlCommands::ResolveHostName(const string& host, sockaddr_in *addr) { addrinfo hints = {}; hints.ai_family = AF_INET; hints.ai_socktype = SOCK_STREAM; if (addrinfo *result; !getaddrinfo(host.c_str(), nullptr, &hints, &result)) { *addr = *(sockaddr_in *)(result->ai_addr); freeaddrinfo(result); return true; } return false; }