RASCSI/cpp/piscsi/piscsi_executor.cpp

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//---------------------------------------------------------------------------
//
// SCSI Target Emulator PiSCSI
// for Raspberry Pi
//
// Copyright (C) 2021-2023 Uwe Seimet
//
//---------------------------------------------------------------------------
#include "shared/piscsi_util.h"
#include "shared/protobuf_util.h"
#include "shared/piscsi_exceptions.h"
#include "devices/disk.h"
#include "localizer.h"
#include "command_context.h"
#include "piscsi_executor.h"
#include <spdlog/spdlog.h>
#include <sstream>
using namespace spdlog;
using namespace protobuf_util;
using namespace piscsi_util;
bool PiscsiExecutor::ProcessDeviceCmd(const CommandContext& context, const PbDeviceDefinition& pb_device, bool dryRun)
{
spdlog::info((dryRun ? "Validating: " : "Executing: ") + PrintCommand(context.GetCommand(), pb_device));
const int id = pb_device.id();
const int lun = pb_device.unit();
if (!ValidateIdAndLun(context, id, lun)) {
return false;
}
const PbOperation operation = context.GetCommand().operation();
// For all commands except ATTACH the device and LUN must exist
if (operation != ATTACH && !VerifyExistingIdAndLun(context, id, lun)) {
return false;
}
auto device = controller_manager.GetDeviceForIdAndLun(id, lun);
if (!ValidateOperationAgainstDevice(context, *device, operation)) {
return false;
}
switch (operation) {
case START:
return Start(*device, dryRun);
case STOP:
return Stop(*device, dryRun);
case ATTACH:
return Attach(context, pb_device, dryRun);
case DETACH:
return Detach(context, *device, dryRun);
case INSERT:
return Insert(context, pb_device, device, dryRun);
case EJECT:
return Eject(*device, dryRun);
case PROTECT:
return Protect(*device, dryRun);
case UNPROTECT:
return Unprotect(*device, dryRun);
break;
case CHECK_AUTHENTICATION:
case NO_OPERATION:
// Do nothing, just log
spdlog::trace("Received " + PbOperation_Name(operation) + " command");
break;
default:
return context.ReturnLocalizedError(LocalizationKey::ERROR_OPERATION, to_string(operation));
}
return true;
}
bool PiscsiExecutor::ProcessCmd(const CommandContext& context)
{
const PbCommand& command = context.GetCommand();
// Handle commands that are not device-specific
switch (command.operation()) {
case DETACH_ALL:
DetachAll();
return context.ReturnSuccessStatus();
case RESERVE_IDS: {
if (const string error = SetReservedIds(GetParam(command, "ids")); !error.empty()) {
return context.ReturnErrorStatus(error);
}
return context.ReturnSuccessStatus();
}
default:
// This is a device-specific command handled below
break;
}
// Remember the list of reserved files during the dry run
const auto& reserved_files = StorageDevice::GetReservedFiles();
const bool isDryRunError = ranges::find_if_not(command.devices(), [&] (const auto& device)
{ return ProcessDeviceCmd(context, device, true); }) != command.devices().end();
StorageDevice::SetReservedFiles(reserved_files);
if (isDryRunError) {
return false;
}
if (const string error = EnsureLun0(command); !error.empty()) {
return context.ReturnErrorStatus(error);
}
if (ranges::find_if_not(command.devices(), [&] (const auto& device)
{ return ProcessDeviceCmd(context, device, false); } ) != command.devices().end()) {
return false;
}
return context.ReturnSuccessStatus();
}
bool PiscsiExecutor::Start(PrimaryDevice& device, bool dryRun) const
{
if (!dryRun) {
spdlog::info("Start requested for " + device.GetIdentifier());
if (!device.Start()) {
spdlog::warn("Starting " + device.GetIdentifier() + " failed");
}
}
return true;
}
bool PiscsiExecutor::Stop(PrimaryDevice& device, bool dryRun) const
{
if (!dryRun) {
spdlog::info("Stop requested for " + device.GetIdentifier());
device.Stop();
}
return true;
}
bool PiscsiExecutor::Eject(PrimaryDevice& device, bool dryRun) const
{
if (!dryRun) {
spdlog::info("Eject requested for " + device.GetIdentifier());
if (!device.Eject(true)) {
spdlog::warn("Ejecting " + device.GetIdentifier() + " failed");
}
}
return true;
}
bool PiscsiExecutor::Protect(PrimaryDevice& device, bool dryRun) const
{
if (!dryRun) {
spdlog::info("Write protection requested for " + device.GetIdentifier());
device.SetProtected(true);
}
return true;
}
bool PiscsiExecutor::Unprotect(PrimaryDevice& device, bool dryRun) const
{
if (!dryRun) {
spdlog::info("Write unprotection requested for " + device.GetIdentifier());
device.SetProtected(false);
}
return true;
}
bool PiscsiExecutor::Attach(const CommandContext& context, const PbDeviceDefinition& pb_device, bool dryRun)
{
const int id = pb_device.id();
const int lun = pb_device.unit();
const PbDeviceType type = pb_device.type();
if (lun >= ControllerManager::GetScsiLunMax()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_INVALID_LUN, to_string(lun),
to_string(ControllerManager::GetScsiLunMax()));
}
if (controller_manager.HasDeviceForIdAndLun(id, lun)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_DUPLICATE_ID, to_string(id), to_string(lun));
}
if (reserved_ids.contains(id)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_RESERVED_ID, to_string(id));
}
const string filename = GetParam(pb_device, "file");
auto device = CreateDevice(context, type, lun, filename);
if (device == nullptr) {
return false;
}
// If no filename was provided the medium is considered not inserted
device->SetRemoved(device->SupportsFile() ? filename.empty() : false);
if (!SetProductData(context, pb_device, *device)) {
return false;
}
if (!SetSectorSize(context, device, pb_device.block_size())) {
return false;
}
const auto storage_device = dynamic_pointer_cast<StorageDevice>(device);
if (device->SupportsFile()) {
// Only with removable media drives, CD and MO the medium (=file) may be inserted later
if (!device->IsRemovable() && filename.empty()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_MISSING_FILENAME, PbDeviceType_Name(type));
}
if (!ValidateImageFile(context, *storage_device, filename)) {
return false;
}
}
// Only non read-only devices support protect/unprotect
// This operation must not be executed before Open() because Open() overrides some settings.
if (device->IsProtectable() && !device->IsReadOnly()) {
device->SetProtected(pb_device.protected_());
}
// Stop the dry run here, before actually attaching
if (dryRun) {
return true;
}
param_map params = { pb_device.params().begin(), pb_device.params().end() };
if (!device->SupportsFile()) {
// Clients like scsictl might have sent both "file" and "interfaces"
params.erase("file");
}
if (!device->Init(params)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_INITIALIZATION, device->GetIdentifier());
}
if (!controller_manager.AttachToController(bus, id, device)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_SCSI_CONTROLLER);
}
if (storage_device != nullptr && !storage_device->IsRemoved()) {
storage_device->ReserveFile();
}
string msg = "Attached ";
if (device->IsReadOnly()) {
msg += "read-only ";
}
else if (device->IsProtectable() && device->IsProtected()) {
msg += "protected ";
}
msg += device->GetIdentifier();
spdlog::info(msg);
return true;
}
bool PiscsiExecutor::Insert(const CommandContext& context, const PbDeviceDefinition& pb_device,
const shared_ptr<PrimaryDevice>& device, bool dryRun) const
{
if (!device->SupportsFile()) {
return false;
}
if (!device->IsRemoved()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_EJECT_REQUIRED);
}
if (!pb_device.vendor().empty() || !pb_device.product().empty() || !pb_device.revision().empty()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_DEVICE_NAME_UPDATE);
}
const string filename = GetParam(pb_device, "file");
if (filename.empty()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_MISSING_FILENAME);
}
// Stop the dry run here, before modifying the device
if (dryRun) {
return true;
}
spdlog::info("Insert " + string(pb_device.protected_() ? "protected " : "") + "file '" + filename +
"' requested into " + device->GetIdentifier());
if (!SetSectorSize(context, device, pb_device.block_size())) {
return false;
}
auto storage_device = dynamic_pointer_cast<StorageDevice>(device);
if (!ValidateImageFile(context, *storage_device, filename)) {
return false;
}
storage_device->SetProtected(pb_device.protected_());
storage_device->ReserveFile();
storage_device->SetMediumChanged(true);
return true;
}
bool PiscsiExecutor::Detach(const CommandContext& context, PrimaryDevice& device, bool dryRun)
{
auto controller = controller_manager.FindController(device.GetId());
if (controller == nullptr) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_DETACH);
}
// LUN 0 can only be detached if there is no other LUN anymore
if (!device.GetLun() && controller->GetLunCount() > 1) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_LUN0);
}
if (!dryRun) {
// Remember the device identifier for the log message before the device data become invalid on removal
const string identifier = device.GetIdentifier();
if (!controller->RemoveDevice(device)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_DETACH);
}
// If no LUN is left also delete the controller
if (!controller->GetLunCount() && !controller_manager.DeleteController(*controller)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_DETACH);
}
spdlog::info("Detached " + identifier);
}
return true;
}
void PiscsiExecutor::DetachAll()
{
controller_manager.DeleteAllControllers();
spdlog::info("Detached all devices");
}
string PiscsiExecutor::SetReservedIds(string_view ids)
{
set<int> ids_to_reserve;
stringstream ss(ids.data());
string id;
while (getline(ss, id, ',')) {
int res_id;
if (!GetAsUnsignedInt(id, res_id) || res_id > 7) {
return "Invalid ID " + id;
}
if (controller_manager.HasController(res_id)) {
return "ID " + id + " is currently in use";
}
ids_to_reserve.insert(res_id);
}
reserved_ids = { ids_to_reserve.begin(), ids_to_reserve.end() };
if (!ids_to_reserve.empty()) {
spdlog::info("Reserved ID(s) set to " + Join(ids_to_reserve));
}
else {
spdlog::info("Cleared reserved ID(s)");
}
return "";
}
bool PiscsiExecutor::ValidateImageFile(const CommandContext& context, StorageDevice& storage_device,
const string& filename) const
{
if (filename.empty()) {
return true;
}
if (!CheckForReservedFile(context, filename)) {
return false;
}
storage_device.SetFilename(filename);
if (!StorageDevice::FileExists(filename)) {
// If the file does not exist search for it in the default image folder
const string effective_filename = context.GetDefaultFolder() + "/" + filename;
if (!CheckForReservedFile(context, effective_filename)) {
return false;
}
storage_device.SetFilename(effective_filename);
}
try {
storage_device.Open();
}
catch(const io_exception&) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_FILE_OPEN, storage_device.GetFilename());
}
return true;
}
bool PiscsiExecutor::CheckForReservedFile(const CommandContext& context, const string& filename)
{
if (const auto [id, lun] = StorageDevice::GetIdsForReservedFile(filename); id != -1) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_IMAGE_IN_USE, filename,
to_string(id) + ":" + to_string(lun));
}
return true;
}
string PiscsiExecutor::PrintCommand(const PbCommand& command, const PbDeviceDefinition& pb_device) const
{
const map<string, string, less<>> params = { command.params().begin(), command.params().end() };
ostringstream s;
s << "operation=" << PbOperation_Name(command.operation());
if (!params.empty()) {
s << ", command params=";
bool isFirst = true;
for (const auto& [key, value] : params) {
if (!isFirst) {
s << ", ";
}
isFirst = false;
string v = key != "token" ? value : "???";
s << "'" << key << "=" << v << "'";
}
}
s << ", device=" << pb_device.id() << ":" << pb_device.unit() << ", type=" << PbDeviceType_Name(pb_device.type());
if (pb_device.params_size()) {
s << ", device params=";
bool isFirst = true;
for (const auto& [key, value]: pb_device.params()) {
if (!isFirst) {
s << ":";
}
isFirst = false;
s << "'" << key << "=" << value << "'";
}
}
s << ", vendor='" << pb_device.vendor() << "', product='" << pb_device.product()
<< "', revision='" << pb_device.revision() << "', block size=" << pb_device.block_size();
return s.str();
}
string PiscsiExecutor::EnsureLun0(const PbCommand& command) const
{
// Mapping of available LUNs (bit vector) to devices
unordered_map<int32_t, int32_t> luns;
// Collect LUN bit vectors of new devices
for (const auto& device : command.devices()) {
luns[device.id()] |= 1 << device.unit();
}
// Collect LUN bit vectors of existing devices
for (const auto& device : controller_manager.GetAllDevices()) {
luns[device->GetId()] |= 1 << device->GetLun();
}
const auto& it = ranges::find_if_not(luns, [] (const auto& l) { return l.second & 0x01; } );
return it == luns.end() ? "" : "LUN 0 is missing for device ID " + to_string((*it).first);
}
bool PiscsiExecutor::VerifyExistingIdAndLun(const CommandContext& context, int id, int lun) const
{
if (!controller_manager.HasController(id)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_NON_EXISTING_DEVICE, to_string(id));
}
if (!controller_manager.HasDeviceForIdAndLun(id, lun)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_NON_EXISTING_UNIT, to_string(id), to_string(lun));
}
return true;
}
shared_ptr<PrimaryDevice> PiscsiExecutor::CreateDevice(const CommandContext& context, const PbDeviceType type,
int lun, const string& filename) const
{
auto device = device_factory.CreateDevice(type, lun, filename);
if (device == nullptr) {
if (type == UNDEFINED) {
context.ReturnLocalizedError(LocalizationKey::ERROR_MISSING_DEVICE_TYPE, filename);
}
else {
context.ReturnLocalizedError(LocalizationKey::ERROR_UNKNOWN_DEVICE_TYPE, PbDeviceType_Name(type));
}
}
return device;
}
bool PiscsiExecutor::SetSectorSize(const CommandContext& context, shared_ptr<PrimaryDevice> device, int size) const
{
if (size) {
const auto disk = dynamic_pointer_cast<Disk>(device);
if (disk != nullptr && disk->IsSectorSizeConfigurable()) {
if (!disk->SetConfiguredSectorSize(size)) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_BLOCK_SIZE, to_string(size));
}
}
else {
return context.ReturnLocalizedError(LocalizationKey::ERROR_BLOCK_SIZE_NOT_CONFIGURABLE,
device->GetTypeString());
}
}
return true;
}
bool PiscsiExecutor::ValidateOperationAgainstDevice(const CommandContext& context, const PrimaryDevice& device,
PbOperation operation)
{
if ((operation == START || operation == STOP) && !device.IsStoppable()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_OPERATION_DENIED_STOPPABLE, PbOperation_Name(operation),
device.GetTypeString());
}
if ((operation == INSERT || operation == EJECT) && !device.IsRemovable()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_OPERATION_DENIED_REMOVABLE, PbOperation_Name(operation),
device.GetTypeString());
}
if ((operation == PROTECT || operation == UNPROTECT) && !device.IsProtectable()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_OPERATION_DENIED_PROTECTABLE, PbOperation_Name(operation),
device.GetTypeString());
}
if ((operation == PROTECT || operation == UNPROTECT) && !device.IsReady()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_OPERATION_DENIED_READY, PbOperation_Name(operation),
device.GetTypeString());
}
return true;
}
bool PiscsiExecutor::ValidateIdAndLun(const CommandContext& context, int id, int lun)
{
if (id < 0) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_MISSING_DEVICE_ID);
}
if (id >= ControllerManager::GetScsiIdMax()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_INVALID_ID, to_string(id),
to_string(ControllerManager::GetScsiIdMax() - 1));
}
if (lun < 0 || lun >= ControllerManager::GetScsiLunMax()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_INVALID_LUN, to_string(lun),
to_string(ControllerManager::GetScsiLunMax() - 1));
}
return true;
}
bool PiscsiExecutor::SetProductData(const CommandContext& context, const PbDeviceDefinition& pb_device,
PrimaryDevice& device)
{
try {
if (!pb_device.vendor().empty()) {
device.SetVendor(pb_device.vendor());
}
if (!pb_device.product().empty()) {
device.SetProduct(pb_device.product());
}
if (!pb_device.revision().empty()) {
device.SetRevision(pb_device.revision());
}
}
catch(const invalid_argument& e) {
return context.ReturnErrorStatus(e.what());
}
return true;
}