mirror of
https://github.com/akuker/RASCSI.git
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52c2aa474f
* Rebrand project to PiSCSI - rascsi ->piscsi - rasctl -> scsictl - rasdump -> scsidump - ras* -> piscsi* (rasutil -> piscsi_util, etc.) * Refined the formatting and wording of the app startup banner * Kept some references to rascsi and rasctl where backwards compatibility is concerned * Point to the new github repo URL Co-authored-by: nucleogenic <nr@nucleogenic.com> Co-authored-by: Uwe Seimet <Uwe.Seimet@seimet.de>
552 lines
21 KiB
C++
552 lines
21 KiB
C++
//---------------------------------------------------------------------------
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//
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// SCSI Target Emulator PiSCSI
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// for Raspberry Pi
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//
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// Copyright (C) 2021-2022 Uwe Seimet
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//
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//---------------------------------------------------------------------------
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#include "shared/log.h"
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#include "shared/protobuf_util.h"
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#include "shared/piscsi_version.h"
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#include "devices/disk.h"
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#include "devices/device_factory.h"
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#include "generated/piscsi_interface.pb.h"
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#include "piscsi_response.h"
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#include <filesystem>
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using namespace std;
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using namespace filesystem;
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using namespace piscsi_interface;
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using namespace protobuf_util;
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unique_ptr<PbDeviceProperties> PiscsiResponse::GetDeviceProperties(const Device& device) const
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{
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auto properties = make_unique<PbDeviceProperties>();
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// Currently there is only a SCSI controller, i.e. there can always be 32 LUNs
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properties->set_luns(32);
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properties->set_read_only(device.IsReadOnly());
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properties->set_protectable(device.IsProtectable());
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properties->set_stoppable(device.IsStoppable());
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properties->set_removable(device.IsRemovable());
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properties->set_lockable(device.IsLockable());
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properties->set_supports_file(device.SupportsFile());
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properties->set_supports_params(device.SupportsParams());
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if (device.SupportsParams()) {
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for (const auto& [key, value] : device_factory.GetDefaultParams(device.GetType())) {
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auto& map = *properties->mutable_default_params();
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map[key] = value;
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}
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}
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for (const auto& block_size : device_factory.GetSectorSizes(device.GetType())) {
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properties->add_block_sizes(block_size);
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}
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return properties;
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}
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void PiscsiResponse::GetDeviceTypeProperties(PbDeviceTypesInfo& device_types_info, PbDeviceType type) const
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{
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auto type_properties = device_types_info.add_properties();
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type_properties->set_type(type);
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const auto device = device_factory.CreateDevice(type, 0, "");
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type_properties->set_allocated_properties(GetDeviceProperties(*device).release());
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} //NOSONAR The allocated memory is managed by protobuf
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void PiscsiResponse::GetAllDeviceTypeProperties(PbDeviceTypesInfo& device_types_info) const
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{
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// Start with 2 instead of 1. 1 was the removed SASI drive type.
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int ordinal = 2;
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while (PbDeviceType_IsValid(ordinal)) {
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PbDeviceType type = UNDEFINED;
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PbDeviceType_Parse(PbDeviceType_Name((PbDeviceType)ordinal), &type);
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GetDeviceTypeProperties(device_types_info, type);
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ordinal++;
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}
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}
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void PiscsiResponse::GetDevice(const Device& device, PbDevice& pb_device, const string& default_folder) const
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{
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pb_device.set_id(device.GetId());
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pb_device.set_unit(device.GetLun());
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pb_device.set_vendor(device.GetVendor());
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pb_device.set_product(device.GetProduct());
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pb_device.set_revision(device.GetRevision());
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pb_device.set_type(device.GetType());
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pb_device.set_allocated_properties(GetDeviceProperties(device).release());
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auto status = make_unique<PbDeviceStatus>().release(); //NOSONAR The allocated memory is managed by protobuf
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pb_device.set_allocated_status(status);
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status->set_protected_(device.IsProtected());
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status->set_stopped(device.IsStopped());
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status->set_removed(device.IsRemoved());
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status->set_locked(device.IsLocked());
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if (device.SupportsParams()) { //NOSONAR The allocated memory is managed by protobuf
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for (const auto& [key, value] : device.GetParams()) {
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SetParam(pb_device, key, value);
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}
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}
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if (const auto disk = dynamic_cast<const Disk*>(&device); disk) {
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pb_device.set_block_size(device.IsRemoved()? 0 : disk->GetSectorSizeInBytes());
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pb_device.set_block_count(device.IsRemoved() ? 0: disk->GetBlockCount());
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}
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const auto storage_device = dynamic_cast<const StorageDevice *>(&device);
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if (storage_device != nullptr) {
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auto image_file = make_unique<PbImageFile>().release();
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GetImageFile(*image_file, default_folder, device.IsReady() ? storage_device->GetFilename() : "");
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pb_device.set_allocated_file(image_file);
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}
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} //NOSONAR The allocated memory is managed by protobuf
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bool PiscsiResponse::GetImageFile(PbImageFile& image_file, const string& default_folder, const string& filename) const
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{
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if (!filename.empty()) {
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image_file.set_name(filename);
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image_file.set_type(device_factory.GetTypeForFile(filename));
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const string f = filename[0] == '/' ? filename : default_folder + "/" + filename;
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image_file.set_read_only(access(f.c_str(), W_OK));
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// filesystem::file_size cannot be used here because gcc < 10.3.0 cannot handle files of more than 2 GiB
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if (struct stat st; !stat(f.c_str(), &st) && !S_ISDIR(st.st_mode)) {
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image_file.set_size(st.st_size);
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return true;
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}
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}
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return false;
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}
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void PiscsiResponse::GetAvailableImages(PbImageFilesInfo& image_files_info, const string& default_folder,
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const string& folder, const string& folder_pattern, const string& file_pattern, int scan_depth) const
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{
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if (scan_depth-- < 0) {
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return;
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}
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string folder_pattern_lower = folder_pattern;
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transform(folder_pattern_lower.begin(), folder_pattern_lower.end(), folder_pattern_lower.begin(), ::tolower);
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string file_pattern_lower = file_pattern;
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transform(file_pattern_lower.begin(), file_pattern_lower.end(), file_pattern_lower.begin(), ::tolower);
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DIR *d = opendir(folder.c_str());
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if (d == nullptr) {
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return;
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}
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// C++ filesystem cannot be used here because gcc < 10.3.0 cannot handle files of more than 2 GiB
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const dirent *dir;
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while ((dir = readdir(d))) {
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string filename = GetNextImageFile(dir, folder);
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if (filename.empty()) {
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continue;
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}
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string name_lower = dir->d_name;
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if (!file_pattern.empty()) {
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transform(name_lower.begin(), name_lower.end(), name_lower.begin(), ::tolower);
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}
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if (dir->d_type == DT_DIR) {
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if (folder_pattern_lower.empty() || name_lower.find(folder_pattern_lower) != string::npos) {
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GetAvailableImages(image_files_info, default_folder, filename, folder_pattern,
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file_pattern, scan_depth);
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}
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continue;
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}
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if (file_pattern_lower.empty() || name_lower.find(file_pattern_lower) != string::npos) {
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if (auto image_file = make_unique<PbImageFile>(); GetImageFile(*image_file.get(), default_folder, filename)) {
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GetImageFile(*image_files_info.add_image_files(), default_folder,
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filename.substr(default_folder.length() + 1));
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}
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}
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}
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closedir(d);
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}
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unique_ptr<PbImageFilesInfo> PiscsiResponse::GetAvailableImages(PbResult& result, const string& default_folder,
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const string& folder_pattern, const string& file_pattern, int scan_depth) const
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{
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auto image_files_info = make_unique<PbImageFilesInfo>();
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image_files_info->set_default_image_folder(default_folder);
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image_files_info->set_depth(scan_depth);
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GetAvailableImages(*image_files_info, default_folder, default_folder, folder_pattern,
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file_pattern, scan_depth);
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result.set_status(true);
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return image_files_info;
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}
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void PiscsiResponse::GetAvailableImages(PbResult& result, PbServerInfo& server_info, const string& default_folder,
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const string& folder_pattern, const string& file_pattern, int scan_depth) const
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{
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auto image_files_info = GetAvailableImages(result, default_folder, folder_pattern, file_pattern, scan_depth);
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image_files_info->set_default_image_folder(default_folder);
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server_info.set_allocated_image_files_info(image_files_info.release());
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result.set_status(true); //NOSONAR The allocated memory is managed by protobuf
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}
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unique_ptr<PbReservedIdsInfo> PiscsiResponse::GetReservedIds(PbResult& result, const unordered_set<int>& ids) const
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{
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auto reserved_ids_info = make_unique<PbReservedIdsInfo>();
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for (const int id : ids) {
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reserved_ids_info->add_ids(id);
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}
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result.set_status(true);
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return reserved_ids_info;
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}
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void PiscsiResponse::GetDevices(const unordered_set<shared_ptr<PrimaryDevice>>& devices, PbServerInfo& server_info,
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const string& default_folder) const
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{
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for (const auto& device : devices) {
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PbDevice *pb_device = server_info.mutable_devices_info()->add_devices();
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GetDevice(*device, *pb_device, default_folder);
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}
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}
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void PiscsiResponse::GetDevicesInfo(const unordered_set<shared_ptr<PrimaryDevice>>& devices, PbResult& result,
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const PbCommand& command, const string& default_folder) const
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{
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set<id_set> id_sets;
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// If no device list was provided in the command get information on all devices
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if (!command.devices_size()) {
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for (const auto& device : devices) {
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id_sets.insert(make_pair(device->GetId(), device->GetLun()));
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}
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}
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// Otherwise get information on the devices provided in the command
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else {
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id_sets = MatchDevices(devices, result, command);
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if (id_sets.empty()) {
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return;
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}
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}
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auto devices_info = make_unique<PbDevicesInfo>();
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for (const auto& [id, lun] : id_sets) {
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for (const auto& d : devices) {
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if (d->GetId() == id && d->GetLun() == lun) {
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GetDevice(*d, *devices_info->add_devices(), default_folder);
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break;
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}
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}
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}
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result.set_allocated_devices_info(devices_info.release());
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result.set_status(true);
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}
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unique_ptr<PbDeviceTypesInfo> PiscsiResponse::GetDeviceTypesInfo(PbResult& result) const
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{
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auto device_types_info = make_unique<PbDeviceTypesInfo>();
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GetAllDeviceTypeProperties(*device_types_info);
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result.set_status(true);
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return device_types_info;
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}
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unique_ptr<PbServerInfo> PiscsiResponse::GetServerInfo(const unordered_set<shared_ptr<PrimaryDevice>>& devices,
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PbResult& result, const unordered_set<int>& reserved_ids, const string& current_log_level,
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const string& default_folder, const string& folder_pattern, const string& file_pattern, int scan_depth) const
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{
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auto server_info = make_unique<PbServerInfo>();
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server_info->set_allocated_version_info(GetVersionInfo(result).release());
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server_info->set_allocated_log_level_info(GetLogLevelInfo(result, current_log_level).release()); //NOSONAR The allocated memory is managed by protobuf
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GetAllDeviceTypeProperties(*server_info->mutable_device_types_info()); //NOSONAR The allocated memory is managed by protobuf
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GetAvailableImages(result, *server_info, default_folder, folder_pattern, file_pattern, scan_depth);
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server_info->set_allocated_network_interfaces_info(GetNetworkInterfacesInfo(result).release());
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server_info->set_allocated_mapping_info(GetMappingInfo(result).release()); //NOSONAR The allocated memory is managed by protobuf
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GetDevices(devices, *server_info, default_folder); //NOSONAR The allocated memory is managed by protobuf
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server_info->set_allocated_reserved_ids_info(GetReservedIds(result, reserved_ids).release());
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server_info->set_allocated_operation_info(GetOperationInfo(result, scan_depth).release()); //NOSONAR The allocated memory is managed by protobuf
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result.set_status(true);
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return server_info;
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}
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unique_ptr<PbVersionInfo> PiscsiResponse::GetVersionInfo(PbResult& result) const
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{
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auto version_info = make_unique<PbVersionInfo>();
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version_info->set_major_version(piscsi_major_version);
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version_info->set_minor_version(piscsi_minor_version);
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version_info->set_patch_version(piscsi_patch_version);
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result.set_status(true);
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return version_info;
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}
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unique_ptr<PbLogLevelInfo> PiscsiResponse::GetLogLevelInfo(PbResult& result, const string& current_log_level) const
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{
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auto log_level_info = make_unique<PbLogLevelInfo>();
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for (const auto& log_level : log_levels) {
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log_level_info->add_log_levels(log_level);
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}
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log_level_info->set_current_log_level(current_log_level);
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result.set_status(true);
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return log_level_info;
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}
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unique_ptr<PbNetworkInterfacesInfo> PiscsiResponse::GetNetworkInterfacesInfo(PbResult& result) const
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{
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auto network_interfaces_info = make_unique<PbNetworkInterfacesInfo>();
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for (const auto& network_interface : device_factory.GetNetworkInterfaces()) {
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network_interfaces_info->add_name(network_interface);
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}
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result.set_status(true);
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return network_interfaces_info;
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}
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unique_ptr<PbMappingInfo> PiscsiResponse::GetMappingInfo(PbResult& result) const
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{
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auto mapping_info = make_unique<PbMappingInfo>();
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for (const auto& [name, type] : device_factory.GetExtensionMapping()) {
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(*mapping_info->mutable_mapping())[name] = type;
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}
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result.set_status(true);
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return mapping_info;
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}
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unique_ptr<PbOperationInfo> PiscsiResponse::GetOperationInfo(PbResult& result, int depth) const
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{
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auto operation_info = make_unique<PbOperationInfo>();
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auto operation = CreateOperation(*operation_info, ATTACH, "Attach device, device-specific parameters are required");
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AddOperationParameter(*operation, "name", "Image file name in case of a mass storage device").release();
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AddOperationParameter(*operation, "interface", "Comma-separated prioritized network interface list").release();
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AddOperationParameter(*operation, "inet", "IP address and netmask of the network bridge").release();
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AddOperationParameter(*operation, "cmd", "Print command for the printer device").release();
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operation.release();
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CreateOperation(*operation_info, DETACH, "Detach device, device-specific parameters are required").release();
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CreateOperation(*operation_info, DETACH_ALL, "Detach all devices").release();
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CreateOperation(*operation_info, START, "Start device, device-specific parameters are required").release();
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CreateOperation(*operation_info, STOP, "Stop device, device-specific parameters are required").release();
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operation = CreateOperation(*operation_info, INSERT, "Insert medium, device-specific parameters are required");
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AddOperationParameter(*operation, "file", "Image file name", "", true).release();
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operation.release();
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CreateOperation(*operation_info, EJECT, "Eject medium, device-specific parameters are required").release();
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CreateOperation(*operation_info, PROTECT, "Protect medium, device-specific parameters are required").release();
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CreateOperation(*operation_info, UNPROTECT, "Unprotect medium, device-specific parameters are required").release();
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operation = CreateOperation(*operation_info, SERVER_INFO, "Get piscsi server information");
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if (depth) {
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AddOperationParameter(*operation, "folder_pattern", "Pattern for filtering image folder names").release();
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}
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AddOperationParameter(*operation, "file_pattern", "Pattern for filtering image file names").release();
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operation.release();
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CreateOperation(*operation_info, VERSION_INFO, "Get piscsi server version").release();
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CreateOperation(*operation_info, DEVICES_INFO, "Get information on attached devices").release();
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CreateOperation(*operation_info, DEVICE_TYPES_INFO, "Get device properties by device type").release();
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operation = CreateOperation(*operation_info, DEFAULT_IMAGE_FILES_INFO, "Get information on available image files");
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if (depth) {
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AddOperationParameter(*operation, "folder_pattern", "Pattern for filtering image folder names").release();
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}
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AddOperationParameter(*operation, "file_pattern", "Pattern for filtering image file names").release();
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operation.release();
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operation = CreateOperation(*operation_info, IMAGE_FILE_INFO, "Get information on image file");
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AddOperationParameter(*operation, "file", "Image file name", "", true).release();
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operation.release();
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CreateOperation(*operation_info, LOG_LEVEL_INFO, "Get log level information").release();
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CreateOperation(*operation_info, NETWORK_INTERFACES_INFO, "Get the available network interfaces").release();
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CreateOperation(*operation_info, MAPPING_INFO, "Get mapping of extensions to device types").release();
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CreateOperation(*operation_info, RESERVED_IDS_INFO, "Get list of reserved device IDs").release();
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operation = CreateOperation(*operation_info, DEFAULT_FOLDER, "Set default image file folder");
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AddOperationParameter(*operation, "folder", "Default image file folder name", "", true).release();
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operation.release();
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operation = CreateOperation(*operation_info, LOG_LEVEL, "Set log level");
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AddOperationParameter(*operation, "level", "New log level", "", true).release();
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operation.release();
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operation = CreateOperation(*operation_info, RESERVE_IDS, "Reserve device IDs");
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AddOperationParameter(*operation, "ids", "Comma-separated device ID list", "", true).release();
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operation.release();
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operation = CreateOperation(*operation_info, SHUT_DOWN, "Shut down or reboot");
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auto parameter = AddOperationParameter(*operation, "mode", "Shutdown mode", "", true).release();
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parameter->add_permitted_values("piscsi");
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// System shutdown/reboot requires root permissions
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if (!getuid()) {
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parameter->add_permitted_values("system");
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parameter->add_permitted_values("reboot");
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}
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operation.release();
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operation = CreateOperation(*operation_info, CREATE_IMAGE, "Create an image file");
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AddOperationParameter(*operation, "file", "Image file name", "", true).release();
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AddOperationParameter(*operation, "size", "Image file size in bytes", "", true).release();
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parameter = AddOperationParameter(*operation, "read_only", "Read-only flag", "false").release();
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parameter->add_permitted_values("true");
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parameter->add_permitted_values("false");
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operation.release();
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operation = CreateOperation(*operation_info, DELETE_IMAGE, "Delete image file");
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AddOperationParameter(*operation, "file", "Image file name", "", true).release();
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operation.release();
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operation = CreateOperation(*operation_info, RENAME_IMAGE, "Rename image file");
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AddOperationParameter(*operation, "from", "Source image file name", "", true).release();
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AddOperationParameter(*operation, "to", "Destination image file name", "", true).release();
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operation.release();
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operation = CreateOperation(*operation_info, COPY_IMAGE, "Copy image file");
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AddOperationParameter(*operation, "from", "Source image file name", "", true).release();
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AddOperationParameter(*operation, "to", "Destination image file name", "", true).release();
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parameter = AddOperationParameter(*operation, "read_only", "Read-only flag", "false").release();
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parameter->add_permitted_values("true");
|
|
parameter->add_permitted_values("false");
|
|
operation.release();
|
|
|
|
operation = CreateOperation(*operation_info, PROTECT_IMAGE, "Write-protect image file");
|
|
AddOperationParameter(*operation, "file", "Image file name", "", true).release();
|
|
operation.release();
|
|
|
|
operation = CreateOperation(*operation_info, UNPROTECT_IMAGE, "Make image file writable");
|
|
AddOperationParameter(*operation, "file", "Image file name", "", true).release();
|
|
operation.release();
|
|
|
|
operation = CreateOperation(*operation_info, CHECK_AUTHENTICATION, "Check whether an authentication token is valid");
|
|
AddOperationParameter(*operation, "token", "Authentication token to be checked", "", true).release();
|
|
operation.release();
|
|
|
|
CreateOperation(*operation_info, OPERATION_INFO, "Get operation meta data").release();
|
|
|
|
result.set_status(true);
|
|
|
|
return operation_info;
|
|
}
|
|
|
|
unique_ptr<PbOperationMetaData> PiscsiResponse::CreateOperation(PbOperationInfo& operation_info, const PbOperation& operation,
|
|
const string& description) const
|
|
{
|
|
auto meta_data = make_unique<PbOperationMetaData>();
|
|
meta_data->set_server_side_name(PbOperation_Name(operation));
|
|
meta_data->set_description(description);
|
|
int ordinal = PbOperation_descriptor()->FindValueByName(PbOperation_Name(operation))->index();
|
|
(*operation_info.mutable_operations())[ordinal] = *meta_data.release();
|
|
return unique_ptr<PbOperationMetaData>(&(*operation_info.mutable_operations())[ordinal]);
|
|
}
|
|
|
|
unique_ptr<PbOperationParameter> PiscsiResponse::AddOperationParameter(PbOperationMetaData& meta_data,
|
|
const string& name, const string& description, const string& default_value, bool is_mandatory) const
|
|
{
|
|
auto parameter = unique_ptr<PbOperationParameter>(meta_data.add_parameters());
|
|
parameter->set_name(name);
|
|
parameter->set_description(description);
|
|
parameter->set_default_value(default_value);
|
|
parameter->set_is_mandatory(is_mandatory);
|
|
|
|
return parameter;
|
|
}
|
|
|
|
set<id_set> PiscsiResponse::MatchDevices(const unordered_set<shared_ptr<PrimaryDevice>>& devices, PbResult& result,
|
|
const PbCommand& command) const
|
|
{
|
|
set<id_set> id_sets;
|
|
|
|
for (const auto& device : command.devices()) {
|
|
bool has_device = false;
|
|
for (const auto& d : devices) {
|
|
if (d->GetId() == device.id() && d->GetLun() == device.unit()) {
|
|
id_sets.insert(make_pair(device.id(), device.unit()));
|
|
has_device = true;
|
|
break;
|
|
}
|
|
}
|
|
|
|
if (!has_device) {
|
|
id_sets.clear();
|
|
|
|
result.set_status(false);
|
|
result.set_msg("No device for ID " + to_string(device.id()) + ", unit " + to_string(device.unit()));
|
|
|
|
break;
|
|
}
|
|
}
|
|
|
|
return id_sets;
|
|
}
|
|
|
|
string PiscsiResponse::GetNextImageFile(const dirent *dir, const string& folder)
|
|
{
|
|
// Ignore unknown folder types and folder names starting with '.'
|
|
if ((dir->d_type != DT_REG && dir->d_type != DT_DIR && dir->d_type != DT_LNK && dir->d_type != DT_BLK)
|
|
|| dir->d_name[0] == '.') {
|
|
return "";
|
|
}
|
|
|
|
const string filename = folder + "/" + dir->d_name;
|
|
|
|
const bool file_exists = exists(path(filename));
|
|
|
|
// filesystem::file_size cannot be used here because gcc < 10.3.0 cannot handle files of more than 2 GiB
|
|
struct stat st;
|
|
stat(filename.c_str(), &st);
|
|
if (dir->d_type == DT_REG && file_exists && !st.st_size) {
|
|
LOGWARN("File '%s' in image folder '%s' is empty", dir->d_name, folder.c_str())
|
|
return "";
|
|
}
|
|
|
|
if (dir->d_type == DT_LNK && !file_exists) {
|
|
LOGWARN("Symlink '%s' in image folder '%s' is broken", dir->d_name, folder.c_str())
|
|
return "";
|
|
}
|
|
|
|
return filename;
|
|
}
|