x86-specific Documentation¶
- 1. The Linux/x86 Boot Protocol
- 1.1. Memory Layout
- 1.2. The Real-Mode Kernel Header
- 1.3. Details of Header Fields
- 1.4. The kernel_info
- 1.5. Details of the kernel_info Fields
- 1.6. The Image Checksum
- 1.7. The Kernel Command Line
- 1.8. Memory Layout of The Real-Mode Code
- 1.9. Sample Boot Configuartion
- 1.10. Loading The Rest of The Kernel
- 1.11. Special Command Line Options
- 1.12. Running the Kernel
- 1.13. Advanced Boot Loader Hooks
- 1.14. 32-bit Boot Protocol
- 1.15. 64-bit Boot Protocol
- 1.16. EFI Handover Protocol (deprecated)
- 2. DeviceTree Booting
- 3. x86 Feature Flags
- 4. x86 Topology
- 5. Kernel level exception handling
- 6. Kernel Stacks
- 7. Kernel Entries
- 8. Early Printk
- 9. ORC unwinder
- 10. Zero Page
- 11. The TLB
- 12. MTRR (Memory Type Range Register) control
- 13. PAT (Page Attribute Table)
- 14. Linux IOMMU Support
- 15. Intel(R) TXT Overview
- 16. AMD Memory Encryption
- 17. Page Table Isolation (PTI)
- 18. Microarchitectural Data Sampling (MDS) mitigation
- 19. The Linux Microcode Loader
- 20. User Interface for Resource Control feature
- 21. TSX Async Abort (TAA) mitigation
- 22. Bus lock detection and handling
- 23. USB Legacy support
- 24. i386 Support
- 25. x86_64 Support
- 25.1. AMD64 Specific Boot Options
- 25.2. General note on [U]EFI x86_64 support
- 25.3. Memory Management
- 25.4. 5-level paging
- 25.5. Fake NUMA For CPUSets
- 25.6. Firmware support for CPU hotplug under Linux/x86-64
- 25.7. Configurable sysfs parameters for the x86-64 machine check code
- 25.8. Using FS and GS segments in user space applications
- 26. Shared Virtual Addressing (SVA) with ENQCMD
- 27. Software Guard eXtensions (SGX)
- 28. Feature status on x86 architecture
- 29. x86-specific ELF Auxiliary Vectors
- 30. Using XSTATE features in user space applications