The Linux Kernel
5.16.0-rc1
  • The Linux kernel user’s and administrator’s guide
  • Kernel Build System
  • The Linux kernel firmware guide
  • Open Firmware and Devicetree
  • The Linux kernel user-space API guide
  • Working with the kernel development community
  • Development tools for the kernel
  • How to write kernel documentation
  • Kernel Hacking Guides
  • Linux Tracing Technologies
  • Kernel Maintainer Handbook
  • fault-injection
  • Kernel Livepatching
  • The Linux driver implementer’s API guide
  • Core API Documentation
  • locking
  • Accounting
  • Block
  • cdrom
  • Linux CPUFreq - CPU frequency and voltage scaling code in the Linux(TM) kernel
  • Integrated Drive Electronics (IDE)
  • Frame Buffer
  • fpga
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  • Linux Kernel Crypto API
  • Filesystems in the Linux kernel
    • Core VFS documentation
    • Filesystem support layers
    • Filesystems
      • v9fs: Plan 9 Resource Sharing for Linux
      • Acorn Disc Filing System - ADFS
      • Overview of Amiga Filesystems
      • kAFS: AFS FILESYSTEM
      • autofs - how it works
      • Miscellaneous Device control operations for the autofs kernel module
      • BeOS filesystem for Linux
      • BFS Filesystem for Linux
      • BTRFS
      • CIFS
      • Ceph Distributed File System
      • Coda Kernel-Venus Interface
      • Configfs - Userspace-driven Kernel Object Configuration
      • Cramfs - cram a filesystem onto a small ROM
      • Direct Access for files
      • DebugFS
      • DLMFS
      • eCryptfs: A stacked cryptographic filesystem for Linux
      • efivarfs - a (U)EFI variable filesystem
      • Enhanced Read-Only File System - EROFS
      • The Second Extended Filesystem
      • Ext3 Filesystem
      • ext4 Data Structures and Algorithms
        • 1. About this Book
        • 2. High Level Design
        • 3. Global Structures
        • 4. Dynamic Structures
      • WHAT IS Flash-Friendly File System (F2FS)?
      • Global File System 2
      • uevents and GFS2
      • Glock internal locking rules
      • Macintosh HFS Filesystem for Linux
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      • FUSE
      • Fuse I/O Modes
      • Inotify - A Powerful yet Simple File Change Notification System
      • ISO9660 Filesystem
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      • NFS
      • The Linux NTFS filesystem driver
      • NTFS3
      • OCFS2 filesystem
      • OCFS2 file system - online file check
      • Optimized MPEG Filesystem (OMFS)
      • ORANGEFS
      • Overlay Filesystem
      • The /proc Filesystem
      • The QNX6 Filesystem
      • Ramfs, rootfs and initramfs
      • relay interface (formerly relayfs)
      • ROMFS - ROM File System
      • SPU Filesystem
      • Squashfs 4.0 Filesystem
      • sysfs - _The_ filesystem for exporting kernel objects
      • SystemV Filesystem
      • Tmpfs
      • UBI File System
      • UBIFS Authentication Support
      • UDF file system
      • virtiofs: virtio-fs host<->guest shared file system
      • VFAT
      • XFS Delayed Logging Design
      • XFS Self Describing Metadata
      • ZoneFS - Zone filesystem for Zoned block devices
  • Linux Memory Management Documentation
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  • USB support
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  • Assorted Miscellaneous Devices Documentation
  • Linux Scheduler
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  • Assembler Annotations
  • CPU Architectures
  • Unsorted Documentation
  • Atomic Types
  • Atomic bitops
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  • General notification mechanism
  • Translations
The Linux Kernel
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ext4 Data Structures and Algorithms¶

  • 1. About this Book
    • 1.1. License
    • 1.2. Terminology
    • 1.3. Other References
  • 2. High Level Design
    • 2.1. Blocks
    • 2.2. Layout
    • 2.3. Flexible Block Groups
    • 2.4. Meta Block Groups
    • 2.5. Lazy Block Group Initialization
    • 2.6. Special inodes
    • 2.7. Block and Inode Allocation Policy
    • 2.8. Checksums
    • 2.9. Bigalloc
    • 2.10. Inline Data
      • 2.10.1. Inline Directories
    • 2.11. Large Extended Attribute Values
    • 2.12. Verity files
  • 3. Global Structures
    • 3.1. Super Block
    • 3.2. Block Group Descriptors
    • 3.3. Block and inode Bitmaps
    • 3.4. Inode Table
    • 3.5. Multiple Mount Protection
    • 3.6. Journal (jbd2)
      • 3.6.1. Layout
      • 3.6.2. External Journal
      • 3.6.3. Block Header
      • 3.6.4. Super Block
      • 3.6.5. Descriptor Block
      • 3.6.6. Data Block
      • 3.6.7. Revocation Block
      • 3.6.8. Commit Block
      • 3.6.9. Fast commits
      • 3.6.10. Fast Commit Replay Idempotence
      • 3.6.11. Journal Checkpoint
    • 3.7. Orphan file
  • 4. Dynamic Structures
    • 4.1. Index Nodes
      • 4.1.1. Inode Size
      • 4.1.2. Finding an Inode
      • 4.1.3. Inode Timestamps
    • 4.2. The Contents of inode.i_block
      • 4.2.1. Symbolic Links
      • 4.2.2. Direct/Indirect Block Addressing
      • 4.2.3. Extent Tree
      • 4.2.4. Inline Data
    • 4.3. Directory Entries
      • 4.3.1. Linear (Classic) Directories
      • 4.3.2. Hash Tree Directories
    • 4.4. Extended Attributes
      • 4.4.1. Attribute Name Indices
      • 4.4.2. POSIX ACLs
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