ladybird/Kernel/FileSystem/ISO9660FileSystem.h
Liav A 58acdce41f Kernel/FileSystem: Simplify even more the mount syscall
As with the previous commit, we put a distinction between filesystems
that require a file description and those which don't, but now in a much
more readable mechanism - all initialization properties as well as the
create static method are grouped to create the FileSystemInitializer
structure. Then when we need to initialize an instance, we iterate over
a table of these structures, checking for matching structure and then
validating the given arguments from userspace against the requirements
to ensure we can create a valid instance of the requested filesystem.
2022-05-29 19:31:02 +01:00

388 lines
12 KiB
C++

/*
* Copyright (c) 2021, sin-ack <sin-ack@protonmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/EnumBits.h>
#include <AK/Error.h>
#include <AK/HashMap.h>
#include <AK/NonnullRefPtr.h>
#include <AK/RecursionDecision.h>
#include <AK/StringView.h>
#include <AK/Types.h>
#include <Kernel/FileSystem/BlockBasedFileSystem.h>
#include <Kernel/FileSystem/Inode.h>
#include <Kernel/KBuffer.h>
namespace Kernel {
namespace ISO {
// The implemented spec here is ECMA 119, available at:
// https://www.ecma-international.org/wp-content/uploads/ECMA-119_4th_edition_june_2019.pdf
template<typename T>
struct [[gnu::packed]] LittleAndBigEndian {
T little;
T big;
};
// 8.4.26.1 Date and Time Format
struct [[gnu::packed]] AsciiDateAndTime {
// All of these fields are ASCII digits. :^)
u8 year[4];
u8 month[2];
u8 day[2];
u8 hour[2];
u8 minute[2];
u8 second[2];
u8 hundredths_of_second[2];
// From OSDev wiki:
// Time zone offset from GMT in 15 minute intervals, starting at
// interval -48 (west) and running up to interval 52 (east). So value 0
// indicates interval -48 which equals GMT-12 hours, and value 100
// indicates interval 52 which equals GMT+13 hours.
u8 timezone_offset;
};
static_assert(sizeof(AsciiDateAndTime) == 17);
// 9.1.5 Recording Date and Time (BP 19 to 25)
struct [[gnu::packed]] NumericalDateAndTime {
u8 years_since_1900;
u8 month;
u8 day;
u8 hour;
u8 minute;
u8 second;
// Same format as AsciiDateAndTime.
u8 timezone_offset;
};
static_assert(sizeof(NumericalDateAndTime) == 7);
// --- Path Table ---
// 9.4 Format of a Path Table Record
struct [[gnu::packed]] PathTableRecord {
u8 directory_identifier_length;
u8 extended_attribute_record_length;
u32 extent_location;
u16 parent_directory_number;
u8 directory_identifier[];
};
static_assert(sizeof(PathTableRecord) == 8);
// --- Extended Attribute Record ---
// 9.5.3 Permissions
enum class ExtendedPermissions : u16 {
SystemGroupReadable = 1 << 0,
SystemGroupExecutable = 1 << 2,
UserReadable = 1 << 4,
UserExecutable = 1 << 6,
GroupReadable = 1 << 8,
GroupExecutable = 1 << 10,
OtherReadable = 1 << 12,
OtherExecutable = 1 << 14,
};
AK_ENUM_BITWISE_OPERATORS(ExtendedPermissions);
// 9.5.8 Record Format
enum class RecordFormat : u8 {
NotSpecified = 0,
FixedLengthRecords = 1,
LittleEndianVariableRecords = 2,
BigEndianVariableRecords = 3,
// 4-127 are reserved for future standardization.
// 128-255 are reserved for system use.
};
// 9.5.9 Record Attributes
enum class RecordAttributes : u8 {
// This value means the record is stored like: \n123456\r.
LfCrDelimited = 0,
FortranVerticalSpacing = 1,
ContainsControlInformation = 2,
// 3-255 are reserved for future standardization.
};
// 9.5 Format of an Extended Attribute Record
struct [[gnu::packed]] ExtendedAttributeRecord {
LittleAndBigEndian<u16> owner_identification;
LittleAndBigEndian<u16> group_identification;
ExtendedPermissions permissions;
AsciiDateAndTime file_creation_date_and_time;
AsciiDateAndTime file_modification_date_and_time;
AsciiDateAndTime file_expiration_date_and_time;
AsciiDateAndTime file_effective_date_and_time;
RecordFormat record_format;
u8 record_attributes;
LittleAndBigEndian<u16> record_length;
u8 system_identifier[32];
u8 system_use[64];
u8 extended_attribute_record_version;
u8 escape_sequence_length;
u8 reserved[64];
LittleAndBigEndian<u16> application_use_length;
// NOTE: Application use is immediately followed by escape sequences (no
// padding).
u8 application_use_and_escape_sequences[];
};
static_assert(sizeof(ExtendedAttributeRecord) == 250);
// --- Files and Directories ---
// 9.1.6 File Flags
enum class FileFlags : u8 {
Hidden = 1 << 0, // The "existence" flag
Directory = 1 << 1,
AssociatedFile = 1 << 2,
Record = 1 << 3,
Protection = 1 << 4,
// 5 and 6 are reserved.
MultiExtent = 1 << 7,
};
AK_ENUM_BITWISE_OPERATORS(FileFlags);
struct [[gnu::packed]] DirectoryRecordHeader {
u8 length;
u8 extended_attribute_record_length;
LittleAndBigEndian<u32> extent_location;
LittleAndBigEndian<u32> data_length;
NumericalDateAndTime recording_date_and_time;
FileFlags file_flags;
u8 file_unit_size;
u8 interleave_gap_size;
LittleAndBigEndian<u16> volume_sequence_number;
u8 file_identifier_length;
// NOTE: The file identifier itself is of variable length, so it and the
// fields following it are not included in this struct. Instead, they are:
//
// 34 to (33+file_identifier_length) - file identifier
// 1 byte of padding, if file_identifier_length is even
//
// The remaining bytes are system use (ISO9660 extensions).
};
static_assert(sizeof(DirectoryRecordHeader) == 33);
// --- Volume Descriptors ---
enum class VolumeDescriptorType : u8 {
BootRecord = 0,
PrimaryVolumeDescriptor = 1,
SupplementaryOrEnhancedVolumeDescriptor = 2,
VolumePartitionDescriptor = 3,
// 4-254 are reserved.
VolumeDescriptorSetTerminator = 255,
};
// 8.1 Format of a Volume Descriptor
struct [[gnu::packed]] VolumeDescriptorHeader {
VolumeDescriptorType type;
// NOTE: Contains exactly "CD001".
u8 identifier[5];
u8 version;
};
static_assert(sizeof(VolumeDescriptorHeader) == 7);
// 8.2 Boot Record
struct [[gnu::packed]] BootRecord {
VolumeDescriptorHeader header;
u8 boot_system_identifier[32];
u8 boot_identifier[32];
u8 boot_system_use[1977];
};
static_assert(sizeof(BootRecord) == 2048);
// 8.3 Volume Descriptor Set Terminator
struct [[gnu::packed]] VolumeDescriptorSetTerminator {
VolumeDescriptorHeader header;
u8 zeros[2041];
};
static_assert(sizeof(VolumeDescriptorSetTerminator) == 2048);
// 8.4 Primary Volume Descriptor
struct [[gnu::packed]] PrimaryVolumeDescriptor {
VolumeDescriptorHeader header;
u8 unused1;
u8 system_identifier[32];
u8 volume_identifier[32];
u64 unused2;
LittleAndBigEndian<u32> volume_space_size;
u8 unused3[32];
LittleAndBigEndian<u16> volume_set_size;
LittleAndBigEndian<u16> volume_sequence_number;
LittleAndBigEndian<u16> logical_block_size;
LittleAndBigEndian<u32> path_table_size;
u32 l_path_table_occurrence_location;
u32 l_path_table_optional_occurrence_location;
u32 m_path_table_occurrence_location;
u32 m_path_table_optional_occurrence_location;
DirectoryRecordHeader root_directory_record_header;
u8 root_directory_identifier; // Exactly 0x00.
u8 volume_set_identifier[128];
u8 publisher_identifier[128];
u8 data_preparer_identifier[128];
u8 application_identifier[128];
u8 copyright_file_identifier[37];
u8 abstract_file_identifier[37];
u8 bibliographic_file_identifier[37];
AsciiDateAndTime volume_creation_date_and_time;
AsciiDateAndTime volume_modification_date_and_time;
AsciiDateAndTime volume_expiration_date_and_time;
AsciiDateAndTime volume_effective_date_and_time;
u8 file_structure_version; // Always 0x01.
u8 unused4;
u8 application_use[512];
u8 reserved[653];
};
static_assert(sizeof(PrimaryVolumeDescriptor) == 2048);
// 8.6 Volume Partition Descriptor
struct [[gnu::packed]] VolumePartitionDescriptor {
VolumeDescriptorHeader header;
u8 unused;
u8 system_identifier[32];
u8 volume_partition_identifier[32];
LittleAndBigEndian<u32> volume_partition_location;
LittleAndBigEndian<u32> volume_partition_size;
u8 system_use[1960];
};
static_assert(sizeof(VolumePartitionDescriptor) == 2048);
}
class ISO9660Inode;
class ISO9660DirectoryIterator;
class ISO9660FS final : public BlockBasedFileSystem {
friend ISO9660Inode;
friend ISO9660DirectoryIterator;
public:
struct DirectoryEntry : public RefCounted<DirectoryEntry> {
u32 extent { 0 };
u32 length { 0 };
// NOTE: This can never be empty if we read the directory successfully.
// We need it as an OwnPtr to default-construct this struct.
OwnPtr<KBuffer> blocks;
static ErrorOr<NonnullRefPtr<DirectoryEntry>> try_create(u32 extent, u32 length, OwnPtr<KBuffer> blocks)
{
return adopt_nonnull_ref_or_enomem(new (nothrow) DirectoryEntry(extent, length, move(blocks)));
}
private:
DirectoryEntry(u32 extent, u32 length, OwnPtr<KBuffer> blocks)
: extent(extent)
, length(length)
, blocks(move(blocks))
{
}
};
static ErrorOr<NonnullRefPtr<FileSystem>> try_create(OpenFileDescription&);
virtual ~ISO9660FS() override;
virtual ErrorOr<void> initialize() override;
virtual StringView class_name() const override { return "ISO9660FS"sv; }
virtual Inode& root_inode() override;
virtual unsigned total_block_count() const override;
virtual unsigned total_inode_count() const override;
virtual u8 internal_file_type_to_directory_entry_type(DirectoryEntryView const& entry) const override;
ErrorOr<NonnullRefPtr<DirectoryEntry>> directory_entry_for_record(Badge<ISO9660DirectoryIterator>, ISO::DirectoryRecordHeader const* record);
private:
ISO9660FS(OpenFileDescription&);
ErrorOr<void> parse_volume_set();
ErrorOr<void> create_root_inode();
ErrorOr<void> calculate_inode_count() const;
u32 calculate_directory_entry_cache_key(ISO::DirectoryRecordHeader const&);
ErrorOr<void> visit_directory_record(ISO::DirectoryRecordHeader const& record, Function<ErrorOr<RecursionDecision>(ISO::DirectoryRecordHeader const*)> const& visitor) const;
OwnPtr<ISO::PrimaryVolumeDescriptor> m_primary_volume;
RefPtr<ISO9660Inode> m_root_inode;
mutable u32 m_cached_inode_count { 0 };
HashMap<u32, NonnullRefPtr<DirectoryEntry>> m_directory_entry_cache;
};
class ISO9660Inode final : public Inode {
friend ISO9660FS;
public:
virtual ~ISO9660Inode() override;
ISO9660FS& fs() { return static_cast<ISO9660FS&>(Inode::fs()); }
ISO9660FS const& fs() const { return static_cast<ISO9660FS const&>(Inode::fs()); }
// ^Inode
virtual ErrorOr<size_t> read_bytes(off_t, size_t, UserOrKernelBuffer& buffer, OpenFileDescription*) const override;
virtual InodeMetadata metadata() const override;
virtual ErrorOr<void> traverse_as_directory(Function<ErrorOr<void>(FileSystem::DirectoryEntryView const&)>) const override;
virtual ErrorOr<NonnullRefPtr<Inode>> lookup(StringView name) override;
virtual ErrorOr<void> flush_metadata() override;
virtual ErrorOr<size_t> write_bytes(off_t, size_t, UserOrKernelBuffer const& buffer, OpenFileDescription*) override;
virtual ErrorOr<NonnullRefPtr<Inode>> create_child(StringView name, mode_t, dev_t, UserID, GroupID) override;
virtual ErrorOr<void> add_child(Inode&, StringView name, mode_t) override;
virtual ErrorOr<void> remove_child(StringView name) override;
virtual ErrorOr<void> chmod(mode_t) override;
virtual ErrorOr<void> chown(UserID, GroupID) override;
virtual ErrorOr<void> truncate(u64) override;
virtual ErrorOr<void> set_atime(time_t) override;
virtual ErrorOr<void> set_ctime(time_t) override;
virtual ErrorOr<void> set_mtime(time_t) override;
private:
// HACK: The base ISO 9660 standard says the maximum filename length is 37
// bytes large; however, we can read filenames longer than that right now
// without any problems, so let's allow it anyway.
static constexpr size_t max_file_identifier_length = 256 - sizeof(ISO::DirectoryRecordHeader);
ISO9660Inode(ISO9660FS&, ISO::DirectoryRecordHeader const& record, StringView name);
static ErrorOr<NonnullRefPtr<ISO9660Inode>> try_create_from_directory_record(ISO9660FS&, ISO::DirectoryRecordHeader const& record, StringView name);
static InodeIndex get_inode_index(ISO::DirectoryRecordHeader const& record, StringView name);
static StringView get_normalized_filename(ISO::DirectoryRecordHeader const& record, Bytes buffer);
void create_metadata();
time_t parse_numerical_date_time(ISO::NumericalDateAndTime const&);
InodeMetadata m_metadata;
ISO::DirectoryRecordHeader m_record;
};
}
using Kernel::ISO::has_any_flag;
using Kernel::ISO::has_flag;