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da88d766b2
This commits inserts TODOs into all necessary places to make the kernel compile on riscv64!
517 lines
20 KiB
C++
517 lines
20 KiB
C++
/*
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* Copyright (c) 2020-2022, Liav A. <liavalb@hotmail.co.il>
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* Copyright (c) 2022, the SerenityOS developers.
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/Platform.h>
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#include <AK/Singleton.h>
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#include <AK/StringView.h>
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#include <AK/UUID.h>
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#if ARCH(X86_64)
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# include <Kernel/Arch/x86_64/ISABus/IDEController.h>
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# include <Kernel/Arch/x86_64/PCI/IDELegacyModeController.h>
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#endif
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#if ARCH(AARCH64)
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# include <Kernel/Arch/aarch64/RPi/SDHostController.h>
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#endif
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#include <Kernel/Boot/CommandLine.h>
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#include <Kernel/Bus/PCI/API.h>
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#include <Kernel/Bus/PCI/Access.h>
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#include <Kernel/Bus/PCI/Controller/VolumeManagementDevice.h>
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#include <Kernel/Devices/BlockDevice.h>
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#include <Kernel/Devices/DeviceManagement.h>
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#include <Kernel/Devices/Storage/ATA/AHCI/Controller.h>
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#include <Kernel/Devices/Storage/ATA/GenericIDE/Controller.h>
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#include <Kernel/Devices/Storage/NVMe/NVMeController.h>
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#include <Kernel/Devices/Storage/SD/PCISDHostController.h>
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#include <Kernel/Devices/Storage/SD/SDHostController.h>
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#include <Kernel/Devices/Storage/StorageManagement.h>
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#include <Kernel/FileSystem/Ext2FS/FileSystem.h>
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#include <Kernel/FileSystem/VirtualFileSystem.h>
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#include <Kernel/Library/Panic.h>
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#include <LibPartition/EBRPartitionTable.h>
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#include <LibPartition/GUIDPartitionTable.h>
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#include <LibPartition/MBRPartitionTable.h>
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namespace Kernel {
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static Singleton<StorageManagement> s_the;
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static Atomic<u32> s_storage_device_minor_number;
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static Atomic<u32> s_partition_device_minor_number;
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static Atomic<u32> s_controller_id;
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static Atomic<u32> s_relative_ata_controller_id;
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static Atomic<u32> s_relative_nvme_controller_id;
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static Atomic<u32> s_relative_sd_controller_id;
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static constexpr StringView partition_uuid_prefix = "PARTUUID:"sv;
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static constexpr StringView partition_number_prefix = "part"sv;
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static constexpr StringView block_device_prefix = "block"sv;
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static constexpr StringView ata_device_prefix = "ata"sv;
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static constexpr StringView nvme_device_prefix = "nvme"sv;
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static constexpr StringView logical_unit_number_device_prefix = "lun"sv;
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static constexpr StringView sd_device_prefix = "sd"sv;
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UNMAP_AFTER_INIT StorageManagement::StorageManagement()
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{
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}
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u32 StorageManagement::generate_relative_nvme_controller_id(Badge<NVMeController>)
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{
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auto controller_id = s_relative_nvme_controller_id.load();
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s_relative_nvme_controller_id++;
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return controller_id;
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}
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u32 StorageManagement::generate_relative_ata_controller_id(Badge<ATAController>)
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{
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auto controller_id = s_relative_ata_controller_id.load();
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s_relative_ata_controller_id++;
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return controller_id;
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}
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u32 StorageManagement::generate_relative_sd_controller_id(Badge<SDHostController>)
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{
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auto controller_id = s_relative_sd_controller_id.load();
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s_relative_sd_controller_id++;
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return controller_id;
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}
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void StorageManagement::add_device(StorageDevice& device)
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{
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m_storage_devices.append(device);
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// FIXME: Maybe handle this error in some way shape or form
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(void)enumerate_device_partitions(device);
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}
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void StorageManagement::remove_device(StorageDevice& device)
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{
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m_storage_devices.remove(device);
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}
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UNMAP_AFTER_INIT void StorageManagement::enumerate_pci_controllers(bool force_pio, bool nvme_poll)
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{
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VERIFY(m_controllers.is_empty());
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if (!kernel_command_line().disable_physical_storage()) {
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// NOTE: Search for VMD devices before actually searching for storage controllers
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// because the VMD device is only a bridge to such (NVMe) controllers.
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MUST(PCI::enumerate([&](PCI::DeviceIdentifier const& device_identifier) -> void {
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constexpr PCI::HardwareID vmd_device = { 0x8086, 0x9a0b };
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if (device_identifier.hardware_id() == vmd_device) {
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auto controller = PCI::VolumeManagementDevice::must_create(device_identifier);
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MUST(PCI::Access::the().add_host_controller_and_scan_for_devices(move(controller)));
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}
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}));
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auto const& handle_mass_storage_device = [&](PCI::DeviceIdentifier const& device_identifier) {
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using SubclassID = PCI::MassStorage::SubclassID;
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auto subclass_code = static_cast<SubclassID>(device_identifier.subclass_code().value());
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#if ARCH(X86_64)
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if (subclass_code == SubclassID::IDEController && kernel_command_line().is_ide_enabled()) {
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if (auto ide_controller_or_error = PCIIDELegacyModeController::initialize(device_identifier, force_pio); !ide_controller_or_error.is_error())
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m_controllers.append(ide_controller_or_error.release_value());
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else
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dmesgln("Unable to initialize IDE controller: {}", ide_controller_or_error.error());
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}
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#elif ARCH(AARCH64)
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(void)force_pio;
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TODO_AARCH64();
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#elif ARCH(RISCV64)
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(void)force_pio;
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if (subclass_code == SubclassID::IDEController && kernel_command_line().is_ide_enabled()) {
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TODO_RISCV64();
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}
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#else
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# error Unknown architecture
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#endif
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if (subclass_code == SubclassID::SATAController
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&& device_identifier.prog_if() == PCI::MassStorage::SATAProgIF::AHCI) {
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if (auto ahci_controller_or_error = AHCIController::initialize(device_identifier); !ahci_controller_or_error.is_error())
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m_controllers.append(ahci_controller_or_error.value());
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else
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dmesgln("Unable to initialize AHCI controller: {}", ahci_controller_or_error.error());
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}
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if (subclass_code == SubclassID::NVMeController) {
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auto controller = NVMeController::try_initialize(device_identifier, nvme_poll);
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if (controller.is_error()) {
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dmesgln("Unable to initialize NVMe controller: {}", controller.error());
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} else {
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m_controllers.append(controller.release_value());
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}
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}
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};
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auto const& handle_base_device = [&](PCI::DeviceIdentifier const& device_identifier) {
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using SubclassID = PCI::Base::SubclassID;
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auto subclass_code = static_cast<SubclassID>(device_identifier.subclass_code().value());
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if (subclass_code == SubclassID::SDHostController) {
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auto sdhc_or_error = PCISDHostController::try_initialize(device_identifier);
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if (sdhc_or_error.is_error()) {
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dmesgln("PCI: Failed to initialize SD Host Controller ({} - {}): {}", device_identifier.address(), device_identifier.hardware_id(), sdhc_or_error.error());
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} else {
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m_controllers.append(sdhc_or_error.release_value());
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}
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}
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};
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MUST(PCI::enumerate([&](PCI::DeviceIdentifier const& device_identifier) -> void {
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auto class_code = device_identifier.class_code();
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if (class_code == PCI::ClassID::MassStorage) {
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handle_mass_storage_device(device_identifier);
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} else if (class_code == PCI::ClassID::Base) {
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handle_base_device(device_identifier);
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}
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}));
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}
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}
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UNMAP_AFTER_INIT void StorageManagement::enumerate_storage_devices()
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{
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VERIFY(!m_controllers.is_empty());
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for (auto& controller : m_controllers) {
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for (size_t device_index = 0; device_index < controller->devices_count(); device_index++) {
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auto device = controller->device(device_index);
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if (device.is_null())
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continue;
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m_storage_devices.append(device.release_nonnull());
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}
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}
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}
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UNMAP_AFTER_INIT void StorageManagement::dump_storage_devices_and_partitions() const
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{
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dbgln("StorageManagement: Detected {} storage devices", m_storage_devices.size_slow());
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for (auto const& storage_device : m_storage_devices) {
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auto const& partitions = storage_device.partitions();
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if (partitions.is_empty()) {
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dbgln(" Device: block{}:{} (no partitions)", storage_device.major(), storage_device.minor());
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} else {
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dbgln(" Device: block{}:{} ({} partitions)", storage_device.major(), storage_device.minor(), partitions.size());
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unsigned partition_number = 1;
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for (auto const& partition : partitions) {
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dbgln(" Partition: {}, block{}:{} (UUID {})", partition_number, partition->major(), partition->minor(), partition->metadata().unique_guid().to_string());
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partition_number++;
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}
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}
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}
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}
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ErrorOr<NonnullOwnPtr<Partition::PartitionTable>> StorageManagement::try_to_initialize_partition_table(StorageDevice& device) const
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{
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auto mbr_table_or_error = Partition::MBRPartitionTable::try_to_initialize(device);
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if (!mbr_table_or_error.is_error())
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return mbr_table_or_error.release_value();
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auto ebr_table_or_error = Partition::EBRPartitionTable::try_to_initialize(device);
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if (!ebr_table_or_error.is_error()) {
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return ebr_table_or_error.release_value();
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}
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return TRY(Partition::GUIDPartitionTable::try_to_initialize(device));
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}
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ErrorOr<void> StorageManagement::enumerate_device_partitions(StorageDevice& device)
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{
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auto partition_table = TRY(try_to_initialize_partition_table(device));
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for (auto partition_metadata : partition_table->partitions()) {
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auto disk_partition = DiskPartition::create(device, generate_partition_minor_number(), partition_metadata);
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device.add_partition(disk_partition);
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}
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return {};
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}
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UNMAP_AFTER_INIT void StorageManagement::enumerate_disk_partitions()
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{
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for (auto& device : m_storage_devices) {
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// FIXME: Maybe handle this error in some way shape or form
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(void)enumerate_device_partitions(device);
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}
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}
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UNMAP_AFTER_INIT Optional<unsigned> StorageManagement::extract_boot_device_partition_number_parameter(StringView device_prefix)
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{
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VERIFY(m_boot_argument.starts_with(device_prefix));
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VERIFY(!m_boot_argument.starts_with(partition_uuid_prefix));
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auto storage_device_relative_address_view = m_boot_argument.substring_view(device_prefix.length());
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auto parameter_view = storage_device_relative_address_view.find_last_split_view(';');
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if (parameter_view == storage_device_relative_address_view)
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return {};
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if (!parameter_view.starts_with(partition_number_prefix)) {
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PANIC("StorageManagement: Invalid root boot parameter.");
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}
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auto parameter_number = parameter_view.substring_view(partition_number_prefix.length()).to_uint<unsigned>();
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if (!parameter_number.has_value()) {
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PANIC("StorageManagement: Invalid root boot parameter.");
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}
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return parameter_number.value();
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}
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UNMAP_AFTER_INIT Array<unsigned, 3> StorageManagement::extract_boot_device_address_parameters(StringView device_prefix)
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{
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VERIFY(!m_boot_argument.starts_with(partition_uuid_prefix));
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Array<unsigned, 3> address_parameters;
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auto parameters_view = m_boot_argument.substring_view(device_prefix.length()).find_first_split_view(';');
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size_t parts_count = 0;
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bool parse_failure = false;
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parameters_view.for_each_split_view(':', SplitBehavior::Nothing, [&](StringView parameter_view) {
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if (parse_failure)
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return;
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if (parts_count > 2)
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return;
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auto parameter_number = parameter_view.to_uint<unsigned>();
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if (!parameter_number.has_value()) {
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parse_failure = true;
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return;
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}
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address_parameters[parts_count] = parameter_number.value();
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parts_count++;
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});
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if (parts_count > 3) {
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dbgln("StorageManagement: Detected {} parts in boot device parameter.", parts_count);
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PANIC("StorageManagement: Invalid root boot parameter.");
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}
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if (parse_failure) {
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PANIC("StorageManagement: Invalid root boot parameter.");
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}
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return address_parameters;
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}
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UNMAP_AFTER_INIT void StorageManagement::resolve_partition_from_boot_device_parameter(StorageDevice const& chosen_storage_device, StringView boot_device_prefix)
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{
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auto possible_partition_number = extract_boot_device_partition_number_parameter(boot_device_prefix);
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if (!possible_partition_number.has_value())
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return;
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auto partition_number = possible_partition_number.value();
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if (chosen_storage_device.partitions().size() <= partition_number)
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PANIC("StorageManagement: Invalid partition number parameter.");
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m_boot_block_device = chosen_storage_device.partitions()[partition_number];
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}
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UNMAP_AFTER_INIT void StorageManagement::determine_hardware_relative_boot_device(StringView relative_hardware_prefix, Function<bool(StorageDevice const&)> filter_device_callback)
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{
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VERIFY(m_boot_argument.starts_with(relative_hardware_prefix));
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auto address_parameters = extract_boot_device_address_parameters(relative_hardware_prefix);
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RefPtr<StorageDevice> chosen_storage_device;
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for (auto& storage_device : m_storage_devices) {
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if (!filter_device_callback(storage_device))
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continue;
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auto storage_device_lun = storage_device.logical_unit_number_address();
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if (storage_device.parent_controller_hardware_relative_id() == address_parameters[0]
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&& storage_device_lun.target_id == address_parameters[1]
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&& storage_device_lun.disk_id == address_parameters[2]) {
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m_boot_block_device = storage_device;
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chosen_storage_device = storage_device;
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break;
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}
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}
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if (chosen_storage_device)
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resolve_partition_from_boot_device_parameter(*chosen_storage_device, relative_hardware_prefix);
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}
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UNMAP_AFTER_INIT void StorageManagement::determine_ata_boot_device()
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{
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determine_hardware_relative_boot_device(ata_device_prefix, [](StorageDevice const& device) -> bool {
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return device.command_set() == StorageDevice::CommandSet::ATA;
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});
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}
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UNMAP_AFTER_INIT void StorageManagement::determine_nvme_boot_device()
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{
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determine_hardware_relative_boot_device(nvme_device_prefix, [](StorageDevice const& device) -> bool {
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return device.command_set() == StorageDevice::CommandSet::NVMe;
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});
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}
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UNMAP_AFTER_INIT void StorageManagement::determine_sd_boot_device()
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{
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determine_hardware_relative_boot_device(sd_device_prefix, [](StorageDevice const& device) -> bool {
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return device.command_set() == StorageDevice::CommandSet::SD;
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});
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}
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UNMAP_AFTER_INIT void StorageManagement::determine_block_boot_device()
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{
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VERIFY(m_boot_argument.starts_with(block_device_prefix));
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auto parameters_view = extract_boot_device_address_parameters(block_device_prefix);
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// Note: We simply fetch the corresponding BlockDevice with the major and minor parameters.
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// We don't try to accept and resolve a partition number as it will make this code much more
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// complicated. This rule is also explained in the boot_device_addressing(7) manual page.
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LockRefPtr<Device> device = DeviceManagement::the().get_device(parameters_view[0], parameters_view[1]);
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if (device && device->is_block_device())
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m_boot_block_device = static_ptr_cast<BlockDevice>(device);
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}
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UNMAP_AFTER_INIT void StorageManagement::determine_boot_device_with_logical_unit_number()
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{
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VERIFY(m_boot_argument.starts_with(logical_unit_number_device_prefix));
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auto address_parameters = extract_boot_device_address_parameters(logical_unit_number_device_prefix);
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RefPtr<StorageDevice> chosen_storage_device;
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for (auto& storage_device : m_storage_devices) {
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auto storage_device_lun = storage_device.logical_unit_number_address();
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if (storage_device_lun.controller_id == address_parameters[0]
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&& storage_device_lun.target_id == address_parameters[1]
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&& storage_device_lun.disk_id == address_parameters[2]) {
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m_boot_block_device = storage_device;
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chosen_storage_device = storage_device;
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break;
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}
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}
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if (chosen_storage_device)
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resolve_partition_from_boot_device_parameter(*chosen_storage_device, logical_unit_number_device_prefix);
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}
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UNMAP_AFTER_INIT bool StorageManagement::determine_boot_device(StringView boot_argument)
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{
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VERIFY(!m_controllers.is_empty());
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m_boot_argument = boot_argument;
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if (m_boot_argument.starts_with(block_device_prefix)) {
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determine_block_boot_device();
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return m_boot_block_device;
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}
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if (m_boot_argument.starts_with(partition_uuid_prefix)) {
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determine_boot_device_with_partition_uuid();
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return m_boot_block_device;
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}
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if (m_boot_argument.starts_with(logical_unit_number_device_prefix)) {
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determine_boot_device_with_logical_unit_number();
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return m_boot_block_device;
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}
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if (m_boot_argument.starts_with(ata_device_prefix)) {
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determine_ata_boot_device();
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return m_boot_block_device;
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}
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if (m_boot_argument.starts_with(nvme_device_prefix)) {
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determine_nvme_boot_device();
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return m_boot_block_device;
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}
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if (m_boot_argument.starts_with(sd_device_prefix)) {
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determine_sd_boot_device();
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return m_boot_block_device;
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}
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PANIC("StorageManagement: Invalid root boot parameter.");
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}
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UNMAP_AFTER_INIT void StorageManagement::determine_boot_device_with_partition_uuid()
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{
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VERIFY(!m_storage_devices.is_empty());
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VERIFY(m_boot_argument.starts_with(partition_uuid_prefix));
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auto partition_uuid = UUID(m_boot_argument.substring_view(partition_uuid_prefix.length()), UUID::Endianness::Mixed);
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for (auto& storage_device : m_storage_devices) {
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for (auto& partition : storage_device.partitions()) {
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if (partition->metadata().unique_guid().is_zero())
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continue;
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if (partition->metadata().unique_guid() == partition_uuid) {
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m_boot_block_device = partition;
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break;
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}
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}
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}
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}
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LockRefPtr<BlockDevice> StorageManagement::boot_block_device() const
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{
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return m_boot_block_device.strong_ref();
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}
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MajorNumber StorageManagement::storage_type_major_number()
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{
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return 3;
|
|
}
|
|
MinorNumber StorageManagement::generate_storage_minor_number()
|
|
{
|
|
return s_storage_device_minor_number.fetch_add(1);
|
|
}
|
|
|
|
MinorNumber StorageManagement::generate_partition_minor_number()
|
|
{
|
|
return s_partition_device_minor_number.fetch_add(1);
|
|
}
|
|
|
|
u32 StorageManagement::generate_controller_id()
|
|
{
|
|
return s_controller_id.fetch_add(1);
|
|
}
|
|
|
|
NonnullRefPtr<FileSystem> StorageManagement::root_filesystem() const
|
|
{
|
|
auto boot_device_description = boot_block_device();
|
|
if (!boot_device_description) {
|
|
dump_storage_devices_and_partitions();
|
|
PANIC("StorageManagement: Couldn't find a suitable device to boot from");
|
|
}
|
|
auto description_or_error = OpenFileDescription::try_create(boot_device_description.release_nonnull());
|
|
VERIFY(!description_or_error.is_error());
|
|
|
|
Array<u8, PAGE_SIZE> mount_specific_data;
|
|
mount_specific_data.fill(0);
|
|
auto file_system = Ext2FS::try_create(description_or_error.release_value(), mount_specific_data.span()).release_value();
|
|
|
|
if (auto result = file_system->initialize(); result.is_error()) {
|
|
dump_storage_devices_and_partitions();
|
|
PANIC("StorageManagement: Couldn't open root filesystem: {}", result.error());
|
|
}
|
|
return file_system;
|
|
}
|
|
|
|
UNMAP_AFTER_INIT void StorageManagement::initialize(bool force_pio, bool poll)
|
|
{
|
|
VERIFY(s_storage_device_minor_number == 0);
|
|
if (PCI::Access::is_disabled()) {
|
|
#if ARCH(X86_64)
|
|
// Note: If PCI is disabled, we assume that at least we have an ISA IDE controller
|
|
// to probe and use
|
|
auto isa_ide_controller = MUST(ISAIDEController::initialize());
|
|
m_controllers.append(isa_ide_controller);
|
|
#endif
|
|
} else {
|
|
enumerate_pci_controllers(force_pio, poll);
|
|
}
|
|
|
|
#if ARCH(AARCH64)
|
|
auto& rpi_sdhc = RPi::SDHostController::the();
|
|
if (auto maybe_error = rpi_sdhc.initialize(); maybe_error.is_error()) {
|
|
dmesgln("Unable to initialize RaspberryPi's SD Host Controller: {}", maybe_error.error());
|
|
} else {
|
|
m_controllers.append(rpi_sdhc);
|
|
}
|
|
#endif
|
|
|
|
enumerate_storage_devices();
|
|
enumerate_disk_partitions();
|
|
}
|
|
|
|
StorageManagement& StorageManagement::the()
|
|
{
|
|
return *s_the;
|
|
}
|
|
|
|
}
|