RASCSI/cpp/piscsi/piscsi_core.cpp

705 lines
19 KiB
C++

//---------------------------------------------------------------------------
//
// SCSI Target Emulator PiSCSI
// for Raspberry Pi
//
// Powered by XM6 TypeG Technology.
// Copyright (C) 2016-2020 GIMONS
// Copyright (C) 2020-2023 Contributors to the PiSCSI project
// Copyright (C) 2023 Uwe Seimet
//
//---------------------------------------------------------------------------
#include "shared/config.h"
#include "shared/piscsi_util.h"
#include "shared/protobuf_util.h"
#include "shared/piscsi_exceptions.h"
#include "shared/piscsi_version.h"
#include "controllers/scsi_controller.h"
#include "devices/device_logger.h"
#include "devices/storage_device.h"
#include "hal/gpiobus_factory.h"
#include "hal/gpiobus.h"
#include "hal/systimer.h"
#include "piscsi/piscsi_core.h"
#include <spdlog/spdlog.h>
#include <netinet/in.h>
#include <csignal>
#include <sstream>
#include <iostream>
#include <fstream>
#include <vector>
using namespace std;
using namespace filesystem;
using namespace spdlog;
using namespace piscsi_interface;
using namespace piscsi_util;
using namespace protobuf_util;
using namespace scsi_defs;
void Piscsi::Banner(span<char *> args) const
{
cout << piscsi_util::Banner("(Backend Service)");
cout << "Connection type: " << CONNECT_DESC << '\n' << flush;
if ((args.size() > 1 && strcmp(args[1], "-h") == 0) || (args.size() > 1 && strcmp(args[1], "--help") == 0)){
cout << "\nUsage: " << args[0] << " [-idID[:LUN] FILE] ...\n\n";
cout << " ID is SCSI device ID (0-" << (ControllerManager::GetScsiIdMax() - 1) << ").\n";
cout << " LUN is the optional logical unit (0-" << (ControllerManager::GetScsiLunMax() - 1) <<").\n";
cout << " FILE is a disk image file, \"daynaport\", \"bridge\", \"printer\" or \"services\".\n\n";
cout << " Image type is detected based on file extension if no explicit type is specified.\n";
cout << " hd1 : SCSI-1 HD image (Non-removable generic SCSI-1 HD image)\n";
cout << " hds : SCSI HD image (Non-removable generic SCSI HD image)\n";
cout << " hdr : SCSI HD image (Removable generic HD image)\n";
cout << " hda : SCSI HD image (Apple compatible image)\n";
cout << " hdn : SCSI HD image (NEC compatible image)\n";
cout << " hdi : SCSI HD image (Anex86 HD image)\n";
cout << " nhd : SCSI HD image (T98Next HD image)\n";
cout << " mos : SCSI MO image (MO image)\n";
cout << " iso : SCSI CD image (ISO 9660 image)\n";
cout << " is1 : SCSI CD image (ISO 9660 image, SCSI-1)\n" << flush;
exit(EXIT_SUCCESS);
}
}
bool Piscsi::InitBus()
{
bus = GPIOBUS_Factory::Create(BUS::mode_e::TARGET);
if (bus == nullptr) {
return false;
}
executor = make_unique<PiscsiExecutor>(*bus, controller_manager);
return true;
}
void Piscsi::CleanUp()
{
if (service.IsRunning()) {
service.Stop();
}
executor->DetachAll();
// TODO Check why there are rare cases where bus is NULL on a remote interface shutdown
// even though it is never set to NULL anywhere
assert(bus);
if (bus) {
bus->Cleanup();
}
}
void Piscsi::ReadAccessToken(const path& filename)
{
if (error_code error; !is_regular_file(filename, error)) {
throw parser_exception("Access token file '" + filename.string() + "' must be a regular file");
}
if (struct stat st; stat(filename.c_str(), &st) || st.st_uid || st.st_gid) {
throw parser_exception("Access token file '" + filename.string() + "' must be owned by root");
}
if (const auto perms = filesystem::status(filename).permissions();
(perms & perms::group_read) != perms::none || (perms & perms::others_read) != perms::none ||
(perms & perms::group_write) != perms::none || (perms & perms::others_write) != perms::none) {
throw parser_exception("Access token file '" + filename.string() + "' must be readable by root only");
}
ifstream token_file(filename);
if (token_file.fail()) {
throw parser_exception("Can't open access token file '" + filename.string() + "'");
}
getline(token_file, access_token);
if (token_file.fail()) {
throw parser_exception("Can't read access token file '" + filename.string() + "'");
}
if (access_token.empty()) {
throw parser_exception("Access token file '" + filename.string() + "' must not be empty");
}
}
void Piscsi::LogDevices(string_view devices) const
{
stringstream ss(devices.data());
string line;
while (getline(ss, line, '\n')) {
spdlog::info(line);
}
}
void Piscsi::TerminationHandler(int)
{
instance->CleanUp();
// Process will terminate automatically
}
string Piscsi::ParseArguments(span<char *> args, PbCommand& command, int& port, string& reserved_ids)
{
string log_level = "info";
PbDeviceType type = UNDEFINED;
int block_size = 0;
string name;
string id_and_lun;
string locale = GetLocale();
// Avoid duplicate messages while parsing
set_level(level::off);
opterr = 1;
int opt;
while ((opt = getopt(static_cast<int>(args.size()), args.data(), "-Iib:d:n:p:r:t:z:D:F:L:P:R:C:v")) != -1) {
switch (opt) {
// The two options below are kind of a compound option with two letters
case 'i':
case 'I':
continue;
case 'd':
case 'D':
id_and_lun = optarg;
continue;
case 'b':
if (!GetAsUnsignedInt(optarg, block_size)) {
throw parser_exception("Invalid block size " + string(optarg));
}
continue;
case 'z':
locale = optarg;
continue;
case 'F':
if (const string error = piscsi_image.SetDefaultFolder(optarg); !error.empty()) {
throw parser_exception(error);
}
continue;
case 'L':
log_level = optarg;
continue;
case 'R':
int depth;
if (!GetAsUnsignedInt(optarg, depth)) {
throw parser_exception("Invalid image file scan depth " + string(optarg));
}
piscsi_image.SetDepth(depth);
continue;
case 'n':
name = optarg;
continue;
case 'p':
if (!GetAsUnsignedInt(optarg, port) || port <= 0 || port > 65535) {
throw parser_exception("Invalid port " + string(optarg) + ", port must be between 1 and 65535");
}
continue;
case 'P':
ReadAccessToken(optarg);
continue;
case 'r':
reserved_ids = optarg;
continue;
case 't':
type = ParseDeviceType(optarg);
continue;
case 1:
// Encountered filename
break;
default:
throw parser_exception("Parser error");
}
if (optopt) {
throw parser_exception("Parser error");
}
// Set up the device data
auto device = command.add_devices();
if (!id_and_lun.empty()) {
if (const string error = SetIdAndLun(*device, id_and_lun); !error.empty()) {
throw parser_exception(error);
}
}
device->set_type(type);
device->set_block_size(block_size);
ParseParameters(*device, optarg);
SetProductData(*device, name);
type = UNDEFINED;
block_size = 0;
name = "";
id_and_lun = "";
}
if (!SetLogLevel(log_level)) {
throw parser_exception("Invalid log level '" + log_level + "'");
}
return locale;
}
PbDeviceType Piscsi::ParseDeviceType(const string& value)
{
string t;
ranges::transform(value, back_inserter(t), ::toupper);
if (PbDeviceType type; PbDeviceType_Parse(t, &type)) {
return type;
}
throw parser_exception("Illegal device type '" + value + "'");
}
bool Piscsi::SetLogLevel(const string& log_level) const
{
int id = -1;
int lun = -1;
string level = log_level;
if (const auto& components = Split(log_level, COMPONENT_SEPARATOR, 2); !components.empty()) {
level = components[0];
if (components.size() > 1) {
if (const string error = ProcessId(components[1], id, lun); !error.empty()) {
spdlog::warn("Error setting log level: " + error);
return false;
}
}
}
const level::level_enum l = level::from_str(level);
// Compensate for spdlog using 'off' for unknown levels
if (to_string_view(l) != level) {
spdlog::warn("Invalid log level '" + level + "'");
return false;
}
set_level(l);
DeviceLogger::SetLogIdAndLun(id, lun);
if (id != -1) {
if (lun == -1) {
spdlog::info("Set log level for device " + to_string(id) + " to '" + level + "'");
}
else {
spdlog::info("Set log level for device " + to_string(id) + ":" + to_string(lun) + " to '" + level + "'");
}
}
else {
spdlog::info("Set log level to '" + level + "'");
}
return true;
}
bool Piscsi::ExecuteCommand(const CommandContext& context)
{
const PbCommand& command = context.GetCommand();
const PbOperation operation = command.operation();
if (!access_token.empty() && access_token != GetParam(command, "token")) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_AUTHENTICATION, UNAUTHORIZED);
}
if (!PbOperation_IsValid(operation)) {
spdlog::trace("Ignored unknown command with operation opcode " + to_string(operation));
return context.ReturnLocalizedError(LocalizationKey::ERROR_OPERATION, UNKNOWN_OPERATION, to_string(operation));
}
spdlog::trace("Received " + PbOperation_Name(operation) + " command");
PbResult result;
switch(operation) {
case LOG_LEVEL:
if (const string log_level = GetParam(command, "level"); !SetLogLevel(log_level)) {
context.ReturnLocalizedError(LocalizationKey::ERROR_LOG_LEVEL, log_level);
}
else {
context.ReturnSuccessStatus();
}
break;
case DEFAULT_FOLDER:
if (const string error = piscsi_image.SetDefaultFolder(GetParam(command, "folder")); !error.empty()) {
context.ReturnErrorStatus(error);
}
else {
context.ReturnSuccessStatus();
}
break;
case DEVICES_INFO:
response.GetDevicesInfo(controller_manager.GetAllDevices(), result, command, piscsi_image.GetDefaultFolder());
context.WriteResult(result);
break;
case DEVICE_TYPES_INFO:
response.GetDeviceTypesInfo(*result.mutable_device_types_info());
return context.WriteSuccessResult(result);
case SERVER_INFO:
response.GetServerInfo(*result.mutable_server_info(), command, controller_manager.GetAllDevices(),
executor->GetReservedIds(), piscsi_image.GetDefaultFolder(), piscsi_image.GetDepth());
context.WriteSuccessResult(result);
break;
case VERSION_INFO:
response.GetVersionInfo(*result.mutable_version_info());
return context.WriteSuccessResult(result);
case LOG_LEVEL_INFO:
response.GetLogLevelInfo(*result.mutable_log_level_info());
return context.WriteSuccessResult(result);
case DEFAULT_IMAGE_FILES_INFO:
response.GetImageFilesInfo(*result.mutable_image_files_info(), piscsi_image.GetDefaultFolder(),
GetParam(command, "folder_pattern"), GetParam(command, "file_pattern"), piscsi_image.GetDepth());
return context.WriteSuccessResult(result);
case IMAGE_FILE_INFO:
if (string filename = GetParam(command, "file"); filename.empty()) {
context.ReturnLocalizedError( LocalizationKey::ERROR_MISSING_FILENAME);
}
else {
auto image_file = make_unique<PbImageFile>();
const bool status = response.GetImageFile(*image_file.get(), piscsi_image.GetDefaultFolder(),
filename);
if (status) {
result.set_allocated_image_file_info(image_file.get());
result.set_status(true);
context.WriteResult(result);
}
else {
context.ReturnLocalizedError(LocalizationKey::ERROR_IMAGE_FILE_INFO);
}
}
break;
case NETWORK_INTERFACES_INFO:
response.GetNetworkInterfacesInfo(*result.mutable_network_interfaces_info());
return context.WriteSuccessResult(result);
case MAPPING_INFO:
response.GetMappingInfo(*result.mutable_mapping_info());
return context.WriteSuccessResult(result);
case STATISTICS_INFO:
response.GetStatisticsInfo(*result.mutable_statistics_info(), controller_manager.GetAllDevices());
context.WriteSuccessResult(result);
break;
case OPERATION_INFO:
response.GetOperationInfo(*result.mutable_operation_info(), piscsi_image.GetDepth());
return context.WriteSuccessResult(result);
case RESERVED_IDS_INFO:
response.GetReservedIds(*result.mutable_reserved_ids_info(), executor->GetReservedIds());
return context.WriteSuccessResult(result);
case SHUT_DOWN:
return ShutDown(context, GetParam(command, "mode"));
case NO_OPERATION:
return context.ReturnSuccessStatus();
case CREATE_IMAGE:
return piscsi_image.CreateImage(context);
case DELETE_IMAGE:
return piscsi_image.DeleteImage(context);
case RENAME_IMAGE:
return piscsi_image.RenameImage(context);
case COPY_IMAGE:
return piscsi_image.CopyImage(context);
case PROTECT_IMAGE:
case UNPROTECT_IMAGE:
return piscsi_image.SetImagePermissions(context);
case RESERVE_IDS:
return executor->ProcessCmd(context);
default:
// The remaining commands may only be executed when the target is idle
if (!ExecuteWithLock(context)) {
return false;
}
return HandleDeviceListChange(context, operation);
}
return true;
}
bool Piscsi::ExecuteWithLock(const CommandContext& context)
{
scoped_lock<mutex> lock(execution_locker);
return executor->ProcessCmd(context);
}
bool Piscsi::HandleDeviceListChange(const CommandContext& context, PbOperation operation) const
{
// ATTACH and DETACH return the resulting device list
if (operation == ATTACH || operation == DETACH) {
// A command with an empty device list is required here in order to return data for all devices
PbCommand command;
PbResult result;
response.GetDevicesInfo(controller_manager.GetAllDevices(), result, command, piscsi_image.GetDefaultFolder());
context.WriteResult(result);
return result.status();
}
return true;
}
int Piscsi::run(span<char *> args)
{
GOOGLE_PROTOBUF_VERIFY_VERSION;
Banner(args);
// The -v option shall result in no other action except displaying the version
if (ranges::find_if(args, [] (const char *arg) { return !strcasecmp(arg, "-v"); } ) != args.end()) {
cout << piscsi_get_version_string() << '\n';
return EXIT_SUCCESS;
}
PbCommand command;
string locale;
string reserved_ids;
int port = DEFAULT_PORT;
try {
locale = ParseArguments(args, command, port, reserved_ids);
}
catch(const parser_exception& e) {
cerr << "Error: " << e.what() << endl;
return EXIT_FAILURE;
}
if (!InitBus()) {
cerr << "Error: Can't initialize bus" << endl;
return EXIT_FAILURE;
}
if (const string error = service.Init([this] (CommandContext& context) {
context.SetDefaultFolder(piscsi_image.GetDefaultFolder());
return ExecuteCommand(context);
}, port); !error.empty()) {
cerr << "Error: " << error << endl;
CleanUp();
return EXIT_FAILURE;
}
if (const string error = executor->SetReservedIds(reserved_ids); !error.empty()) {
cerr << "Error: " << error << endl;
CleanUp();
return EXIT_FAILURE;
}
if (command.devices_size()) {
// Attach all specified devices
command.set_operation(ATTACH);
if (const CommandContext context(command, piscsi_image.GetDefaultFolder(), locale); !executor->ProcessCmd(context)) {
cerr << "Error: Can't attach devices" << endl;
CleanUp();
return EXIT_FAILURE;
}
}
// Display and log the device list
PbServerInfo server_info;
response.GetDevices(controller_manager.GetAllDevices(), server_info, piscsi_image.GetDefaultFolder());
const vector<PbDevice>& devices = { server_info.devices_info().devices().begin(), server_info.devices_info().devices().end() };
const string device_list = ListDevices(devices);
LogDevices(device_list);
cout << device_list << flush;
instance = this;
// Signal handler to detach all devices on a KILL or TERM signal
struct sigaction termination_handler;
termination_handler.sa_handler = TerminationHandler;
sigemptyset(&termination_handler.sa_mask);
termination_handler.sa_flags = 0;
sigaction(SIGINT, &termination_handler, nullptr);
sigaction(SIGTERM, &termination_handler, nullptr);
signal(SIGPIPE, SIG_IGN);
// Set the affinity to a specific processor core
FixCpu(3);
service.Start();
Process();
return EXIT_SUCCESS;
}
void Piscsi::Process()
{
#ifdef USE_SEL_EVENT_ENABLE
// Scheduling policy setting (highest priority)
// TODO Check whether this results in any performance gain
sched_param schparam;
schparam.sched_priority = sched_get_priority_max(SCHED_FIFO);
sched_setscheduler(0, SCHED_FIFO, &schparam);
#else
cout << "Note: No PiSCSI hardware support, only client interface calls are supported" << endl;
#endif
// Main Loop
while (service.IsRunning()) {
#ifdef USE_SEL_EVENT_ENABLE
// SEL signal polling
if (!bus->PollSelectEvent()) {
// Stop on interrupt
if (errno == EINTR) {
break;
}
continue;
}
// Get the bus
bus->Acquire();
#else
bus->Acquire();
if (!bus->GetSEL()) {
const timespec ts = { .tv_sec = 0, .tv_nsec = 0};
nanosleep(&ts, nullptr);
continue;
}
#endif
// Only process the SCSI command if the bus is not busy and no other device responded
if (IsNotBusy() && bus->GetSEL()) {
scoped_lock<mutex> lock(execution_locker);
// Process command on the responsible controller based on the current initiator and target ID
if (const auto shutdown_mode = controller_manager.ProcessOnController(bus->GetDAT());
shutdown_mode != AbstractController::piscsi_shutdown_mode::NONE) {
// When the bus is free PiSCSI or the Pi may be shut down.
ShutDown(shutdown_mode);
}
}
}
}
// Shutdown on a remote interface command
bool Piscsi::ShutDown(const CommandContext& context, const string& m) {
if (m.empty()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_SHUTDOWN_MODE_MISSING);
}
AbstractController::piscsi_shutdown_mode mode = AbstractController::piscsi_shutdown_mode::NONE;
if (m == "rascsi") {
mode = AbstractController::piscsi_shutdown_mode::STOP_PISCSI;
}
else if (m == "system") {
mode = AbstractController::piscsi_shutdown_mode::STOP_PI;
}
else if (m == "reboot") {
mode = AbstractController::piscsi_shutdown_mode::RESTART_PI;
}
else {
return context.ReturnLocalizedError(LocalizationKey::ERROR_SHUTDOWN_MODE_INVALID, m);
}
// Shutdown modes other than rascsi require root permissions
if (mode != AbstractController::piscsi_shutdown_mode::STOP_PISCSI && getuid()) {
return context.ReturnLocalizedError(LocalizationKey::ERROR_SHUTDOWN_PERMISSION);
}
// Report success now because after a shutdown nothing can be reported anymore
PbResult result;
context.WriteSuccessResult(result);
return ShutDown(mode);
}
// Shutdown on a SCSI command
bool Piscsi::ShutDown(AbstractController::piscsi_shutdown_mode shutdown_mode)
{
switch(shutdown_mode) {
case AbstractController::piscsi_shutdown_mode::STOP_PISCSI:
spdlog::info("PiSCSI shutdown requested");
CleanUp();
return true;
case AbstractController::piscsi_shutdown_mode::STOP_PI:
spdlog::info("Raspberry Pi shutdown requested");
CleanUp();
if (system("init 0") == -1) {
spdlog::error("Raspberry Pi shutdown failed");
}
break;
case AbstractController::piscsi_shutdown_mode::RESTART_PI:
spdlog::info("Raspberry Pi restart requested");
CleanUp();
if (system("init 6") == -1) {
spdlog::error("Raspberry Pi restart failed");
}
break;
case AbstractController::piscsi_shutdown_mode::NONE:
assert(false);
break;
}
return false;
}
bool Piscsi::IsNotBusy() const
{
// Wait until BSY is released as there is a possibility for the
// initiator to assert it while setting the ID (for up to 3 seconds)
if (bus->GetBSY()) {
const uint32_t now = SysTimer::GetTimerLow();
// Wait for 3s
while ((SysTimer::GetTimerLow() - now) < 3'000'000) {
bus->Acquire();
if (!bus->GetBSY()) {
return true;
}
}
return false;
}
return true;
}