RASCSI/cpp/scsictl/scsictl_display.cpp
Daniel Markstedt 52c2aa474f
Rebrand project to PiSCSI (#1016)
* 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>
2022-12-05 09:58:23 -08:00

448 lines
11 KiB
C++

//---------------------------------------------------------------------------
//
// SCSI Target Emulator PiSCSI
// for Raspberry Pi
//
// Copyright (C) 2021-2022 Uwe Seimet
//
//---------------------------------------------------------------------------
#include "shared/protobuf_util.h"
#include "generated/piscsi_interface.pb.h"
#include "scsictl_display.h"
#include <sstream>
#include <list>
#include <iomanip>
using namespace std;
using namespace piscsi_interface;
using namespace protobuf_util;
string ScsictlDisplay::DisplayDevicesInfo(const PbDevicesInfo& devices_info) const
{
ostringstream s;
const list<PbDevice>& devices = { devices_info.devices().begin(), devices_info.devices().end() };
s << ListDevices(devices);
return s.str();
}
string ScsictlDisplay::DisplayDeviceInfo(const PbDevice& pb_device) const
{
ostringstream s;
s << " " << pb_device.id() << ":" << pb_device.unit() << " " << PbDeviceType_Name(pb_device.type())
<< " " << pb_device.vendor() << ":" << pb_device.product() << ":" << pb_device.revision();
if (pb_device.block_size()) {
s << " " << pb_device.block_size() << " bytes per sector";
if (pb_device.block_count()) {
s << " " << pb_device.block_size() * pb_device.block_count() << " bytes capacity";
}
}
if (pb_device.properties().supports_file() && !pb_device.file().name().empty()) {
s << " " << pb_device.file().name();
}
s << " ";
bool hasProperty = false;
if (pb_device.properties().read_only()) {
s << "read-only";
hasProperty = true;
}
if (pb_device.properties().protectable() && pb_device.status().protected_()) {
if (hasProperty) {
s << ", ";
}
s << "protected";
hasProperty = true;
}
if (pb_device.properties().stoppable() && pb_device.status().stopped()) {
if (hasProperty) {
s << ", ";
}
s << "stopped";
hasProperty = true;
}
if (pb_device.properties().removable() && pb_device.status().removed()) {
if (hasProperty) {
s << ", ";
}
s << "removed";
hasProperty = true;
}
if (pb_device.properties().lockable() && pb_device.status().locked()) {
if (hasProperty) {
s << ", ";
}
s << "locked";
}
if (hasProperty) {
s << " ";
}
DisplayParams(s, pb_device);
s << '\n';
return s.str();
}
string ScsictlDisplay::DisplayVersionInfo(const PbVersionInfo& version_info) const
{
ostringstream s;
s << "piscsi server version: " << setw(2) << setfill('0') << version_info.major_version() << "."
<< setw(2) << setfill('0') << version_info.minor_version();
if (version_info.patch_version() > 0) {
s << "." << version_info.patch_version();
}
else if (version_info.patch_version() < 0) {
s << " (development version)";
}
s << '\n';
return s.str();
}
string ScsictlDisplay::DisplayLogLevelInfo(const PbLogLevelInfo& log_level_info) const
{
ostringstream s;
if (!log_level_info.log_levels_size()) {
s << " No log level settings available\n";
}
else {
s << "piscsi log levels, sorted by severity:\n";
for (const auto& log_level : log_level_info.log_levels()) {
s << " " << log_level << '\n';
}
}
s << "Current piscsi log level: " << log_level_info.current_log_level() << '\n';
return s.str();
}
string ScsictlDisplay::DisplayDeviceTypesInfo(const PbDeviceTypesInfo& device_types_info) const
{
ostringstream s;
s << "Supported device types and their properties:";
for (const auto& device_type_info : device_types_info.properties()) {
s << "\n " << PbDeviceType_Name(device_type_info.type()) << " ";
const PbDeviceProperties& properties = device_type_info.properties();
DisplayAttributes(s, properties);
if (properties.supports_file()) {
s << "Image file support\n ";
}
if (properties.supports_params()) {
s << "Parameter support\n ";
}
DisplayDefaultParameters(s, properties);
DisplayBlockSizes(s, properties);
}
s << '\n';
return s.str();
}
string ScsictlDisplay::DisplayReservedIdsInfo(const PbReservedIdsInfo& reserved_ids_info) const
{
ostringstream s;
if (reserved_ids_info.ids_size()) {
s << "Reserved device IDs: ";
for (int i = 0; i < reserved_ids_info.ids_size(); i++) {
if(i) {
s << ", ";
}
s << reserved_ids_info.ids(i);
}
s << '\n';
}
else {
s << "No reserved device IDs\n";
}
return s.str();
}
string ScsictlDisplay::DisplayImageFile(const PbImageFile& image_file_info) const
{
ostringstream s;
s << image_file_info.name() << " " << image_file_info.size() << " bytes";
if (image_file_info.read_only()) {
s << " read-only";
}
if (image_file_info.type() != UNDEFINED) {
s << " " << PbDeviceType_Name(image_file_info.type());
}
s << '\n';
return s.str();
}
string ScsictlDisplay::DisplayImageFilesInfo(const PbImageFilesInfo& image_files_info) const
{
ostringstream s;
s << "Default image file folder: " << image_files_info.default_image_folder() << '\n';
s << "Supported folder depth: " << image_files_info.depth() << '\n';
if (image_files_info.image_files().empty()) {
s << " No image files available\n";
}
else {
list<PbImageFile> image_files = { image_files_info.image_files().begin(), image_files_info.image_files().end() };
image_files.sort([](const auto& a, const auto& b) { return a.name() < b.name(); });
s << "Available image files:\n";
for (const auto& image_file : image_files) {
s << " ";
s << DisplayImageFile(image_file);
}
}
return s.str();
}
string ScsictlDisplay::DisplayNetworkInterfaces(const PbNetworkInterfacesInfo& network_interfaces_info) const
{
ostringstream s;
s << "Available (up) network interfaces:\n";
const list<string> sorted_interfaces = { network_interfaces_info.name().begin(), network_interfaces_info.name().end() };
bool isFirst = true;
for (const auto& interface : sorted_interfaces) {
if (!isFirst) {
s << ", ";
}
else {
s << " ";
}
isFirst = false;
s << interface;
}
s << '\n';
return s.str();
}
string ScsictlDisplay::DisplayMappingInfo(const PbMappingInfo& mapping_info) const
{
ostringstream s;
s << "Supported image file extension to device type mappings:\n";
const map<string, PbDeviceType, less<>> sorted_mappings = { mapping_info.mapping().begin(), mapping_info.mapping().end() };
for (const auto& [extension, type] : sorted_mappings) {
s << " " << extension << "->" << PbDeviceType_Name(type) << '\n';
}
return s.str();
}
string ScsictlDisplay::DisplayOperationInfo(const PbOperationInfo& operation_info) const
{
ostringstream s;
const map<int, PbOperationMetaData, less<>> operations = { operation_info.operations().begin(), operation_info.operations().end() };
// Copies result into a map sorted by operation name
auto unknown_operation = make_unique<PbOperationMetaData>();
map<string, PbOperationMetaData, less<>> sorted_operations;
for (const auto& [ordinal, meta_data] : operations) {
if (PbOperation_IsValid(static_cast<PbOperation>(ordinal))) {
sorted_operations[PbOperation_Name(static_cast<PbOperation>(ordinal))] = meta_data;
}
else {
// If the server-side operation is unknown for the client use the server-provided operation name
// No further operation information is available in this case
sorted_operations[meta_data.server_side_name()] = *unknown_operation;
}
}
s << "Operations supported by piscsi server and their parameters:\n";
for (const auto& [name, meta_data] : sorted_operations) {
if (!meta_data.server_side_name().empty()) {
s << " " << name;
if (!meta_data.description().empty()) {
s << " (" << meta_data.description() << ")";
}
s << '\n';
DisplayParameters(s, meta_data);
}
else {
s << " " << name << " (Unknown server-side operation)\n";
}
}
return s.str();
}
void ScsictlDisplay::DisplayParams(ostringstream& s, const PbDevice& pb_device) const
{
const map<string, string, less<>> sorted_params = { pb_device.params().begin(), pb_device.params().end() };
bool isFirst = true;
for (const auto& [key, value] : sorted_params) {
if (!isFirst) {
s << ":";
}
isFirst = false;
s << key << "=" << value;
}
}
void ScsictlDisplay::DisplayAttributes(ostringstream& s, const PbDeviceProperties& properties) const
{
if (properties.read_only() || properties.protectable() || properties.stoppable() || properties.lockable()) {
s << "Properties: ";
bool has_property = false;
if (properties.read_only()) {
s << "read-only";
has_property = true;
}
if (properties.protectable()) {
s << (has_property ? ", " : "") << "protectable";
has_property = true;
}
if (properties.stoppable()) {
s << (has_property ? ", " : "") << "stoppable";
has_property = true;
}
if (properties.removable()) {
s << (has_property ? ", " : "") << "removable";
has_property = true;
}
if (properties.lockable()) {
s << (has_property ? ", " : "") << "lockable";
}
s << "\n ";
}
}
void ScsictlDisplay::DisplayDefaultParameters(ostringstream& s, const PbDeviceProperties& properties) const
{
if (properties.supports_params() && properties.default_params_size()) {
s << "Default parameters: ";
const map<string, string, less<>> sorted_params = { properties.default_params().begin(), properties.default_params().end() };
bool isFirst = true;
for (const auto& [key, value] : sorted_params) {
if (!isFirst) {
s << "\n ";
}
s << key << "=" << value;
isFirst = false;
}
}
}
void ScsictlDisplay::DisplayBlockSizes(ostringstream& s, const PbDeviceProperties& properties) const
{
if (properties.block_sizes_size()) {
s << "Configurable block sizes in bytes: ";
const set<uint32_t> sorted_sizes = { properties.block_sizes().begin(), properties.block_sizes().end() };
bool isFirst = true;
for (const auto& size : sorted_sizes) {
if (!isFirst) {
s << ", ";
}
s << size;
isFirst = false;
}
}
}
void ScsictlDisplay::DisplayParameters(ostringstream& s, const PbOperationMetaData& meta_data) const
{
list<PbOperationParameter> sorted_parameters = { meta_data.parameters().begin(), meta_data.parameters().end() };
sorted_parameters.sort([](const auto& a, const auto& b) { return a.name() < b.name(); });
for (const auto& parameter : sorted_parameters) {
s << " " << parameter.name() << ": "
<< (parameter.is_mandatory() ? "mandatory" : "optional");
if (!parameter.description().empty()) {
s << " (" << parameter.description() << ")";
}
s << '\n';
DisplayPermittedValues(s, parameter);
if (!parameter.default_value().empty()) {
s << " Default value: " << parameter.default_value() << '\n';
}
}
}
void ScsictlDisplay::DisplayPermittedValues(ostringstream& s, const PbOperationParameter& parameter) const
{
if (parameter.permitted_values_size()) {
s << " Permitted values: ";
bool isFirst = true;
for (const auto& permitted_value : parameter.permitted_values()) {
if (!isFirst) {
s << ", ";
}
isFirst = false;
s << permitted_value;
}
s << '\n';
}
}