#pragma once #include #include "InodeIdentifier.h" #include "InodeMetadata.h" #include "UnixTypes.h" #include #include #include #include #include #include #include #include #include #include #include static const dword mepoch = 476763780; class Inode; class FileDescriptor; class LocalSocket; class VMObject; class FS : public Retainable { friend class Inode; public: virtual ~FS(); unsigned fsid() const { return m_fsid; } static FS* from_fsid(dword); static void sync(); virtual bool initialize() = 0; virtual const char* class_name() const = 0; virtual InodeIdentifier root_inode() const = 0; bool is_readonly() const { return m_readonly; } virtual unsigned total_block_count() const { return 0; } virtual unsigned free_block_count() const { return 0; } virtual unsigned total_inode_count() const { return 0; } virtual unsigned free_inode_count() const { return 0; } struct DirectoryEntry { DirectoryEntry(const char* name, InodeIdentifier, byte file_type); DirectoryEntry(const char* name, int name_length, InodeIdentifier, byte file_type); char name[256]; int name_length { 0 }; InodeIdentifier inode; byte file_type { 0 }; }; virtual RetainPtr create_inode(InodeIdentifier parentInode, const String& name, mode_t, off_t size, int& error) = 0; virtual RetainPtr create_directory(InodeIdentifier parentInode, const String& name, mode_t, int& error) = 0; virtual RetainPtr get_inode(InodeIdentifier) const = 0; virtual void flush_writes() { } protected: FS(); mutable Lock m_lock { "FS" }; private: unsigned m_fsid { 0 }; bool m_readonly { false }; }; class Inode : public Retainable { friend class VFS; friend class FS; public: virtual ~Inode(); virtual void one_retain_left() { } FS& fs() { return m_fs; } const FS& fs() const { return m_fs; } unsigned fsid() const; unsigned index() const { return m_index; } size_t size() const { return metadata().size; } bool is_symlink() const { return metadata().is_symlink(); } bool is_directory() const { return metadata().is_directory(); } bool is_character_device() const { return metadata().is_character_device(); } mode_t mode() const { return metadata().mode; } InodeIdentifier identifier() const { return { fsid(), index() }; } virtual InodeMetadata metadata() const = 0; ByteBuffer read_entire(FileDescriptor* = nullptr) const; virtual ssize_t read_bytes(off_t, ssize_t, byte* buffer, FileDescriptor*) const = 0; virtual bool traverse_as_directory(Function) const = 0; virtual InodeIdentifier lookup(const String& name) = 0; virtual String reverse_lookup(InodeIdentifier) = 0; virtual ssize_t write_bytes(off_t, ssize_t, const byte* data, FileDescriptor*) = 0; virtual KResult add_child(InodeIdentifier child_id, const String& name, byte file_type) = 0; virtual KResult remove_child(const String& name) = 0; virtual RetainPtr parent() const = 0; virtual size_t directory_entry_count() const = 0; virtual KResult chmod(mode_t) = 0; virtual KResult chown(uid_t, gid_t) = 0; virtual KResult truncate(off_t) { return KSuccess; } LocalSocket* socket() { return m_socket.ptr(); } const LocalSocket* socket() const { return m_socket.ptr(); } bool bind_socket(LocalSocket&); bool unbind_socket(); bool is_metadata_dirty() const { return m_metadata_dirty; } virtual int set_atime(time_t); virtual int set_ctime(time_t); virtual int set_mtime(time_t); virtual int increment_link_count(); virtual int decrement_link_count(); virtual void flush_metadata() = 0; void will_be_destroyed(); void set_vmo(VMObject&); VMObject* vmo() { return m_vmo.ptr(); } const VMObject* vmo() const { return m_vmo.ptr(); } protected: Inode(FS& fs, unsigned index); void set_metadata_dirty(bool b) { m_metadata_dirty = b; } void inode_contents_changed(off_t, ssize_t, const byte*); void inode_size_changed(size_t old_size, size_t new_size); mutable Lock m_lock { "Inode" }; private: FS& m_fs; unsigned m_index { 0 }; WeakPtr m_vmo; RetainPtr m_socket; bool m_metadata_dirty { false }; }; inline FS* InodeIdentifier::fs() { return FS::from_fsid(m_fsid); } inline const FS* InodeIdentifier::fs() const { return FS::from_fsid(m_fsid); } inline bool InodeIdentifier::is_root_inode() const { return (*this) == fs()->root_inode(); } inline unsigned Inode::fsid() const { return m_fs.fsid(); } namespace AK { template<> struct Traits { static unsigned hash(const InodeIdentifier& inode) { return pair_int_hash(inode.fsid(), inode.index()); } static void dump(const InodeIdentifier& inode) { kprintf("%02u:%08u", inode.fsid(), inode.index()); } }; }