zircon/system/public/zircon/boot/bootdata.h - fuchsia - Git at Google

 // Copyright 2016 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef SYSROOT_ZIRCON_BOOT_BOOTDATA_H_
 #define SYSROOT_ZIRCON_BOOT_BOOTDATA_H_

 #ifndef __ASSEMBLER__
 #include <stdbool.h>
 #include <stdint.h>
 #include <zircon/compiler.h>
 #endif

 // lsw of sha256("bootdata")
 #define BOOTDATA_MAGIC (0x868cf7e6)

 // lsw of sha256("bootitem")
 #define BOOTITEM_MAGIC (0xb5781729)

 // Round n up to the next 8 byte boundary
 #define BOOTDATA_ALIGN(n) (((n) + 7) & (~7))

 #define BOOTITEM_NO_CRC32 (0x4a87e8d6)

 // This flag is required.
 #define BOOTDATA_FLAG_V2 (0x00010000)

 // Bootdata items with the CRC32 flag must have a valid crc32.
 // Otherwise their crc32 field must contain BOOTITEM_NO_CRC32
 #define BOOTDATA_FLAG_CRC32 (0x00020000)

 // Bootdata types that have least significant byte set to 'm'
 // are reserved for driver metadata
 #define BOOTDATA_KIND_METADATA (0x0000006D)
 #define BOOTDATA_KIND_MASK (0x000000FF)

 // Containers are used to wrap a set of bootdata items
 // written to a file or partition.  The "length" is the
 // length of the set of following bootdata items.  The
 // "extra" is the value BOOTDATA_MAGIC and "flags" is
 // set to 0.
 #define BOOTDATA_CONTAINER (0x544f4f42) // BOOT

 // BOOTFS images.  The "extra" field is the decompressed
 // size of the image, if compressed, otherwise the same
 // as the "length" field.
 #define BOOTDATA_BOOTFS_BOOT (0x42534642)    // BFSB
 #define BOOTDATA_BOOTFS_SYSTEM (0x53534642)  // BFSS
 #define BOOTDATA_BOOTFS_DISCARD (0x58534642) // BFSX

 #define BOOTDATA_BOOTFS_MASK (0x00FFFFFF)
 #define BOOTDATA_BOOTFS_TYPE (0x00534642) // BFS\0

 // Virtual disk images.  The header fields and compression protocol
 // are the same as for the BOOTFS types, but the payload before
 // compression is a raw disk image rather than BOOTFS format.
 #define BOOTDATA_RAMDISK (0x4b534452) // RDSK

 // A Zircon Kernel Image
 // Content: bootdata_kernel_t
 #define BOOTDATA_KERNEL (0x4c4e524b) // KRNL

 // A Zircon Partition Map
 // Content: bootdata_partition_map_t
 // The bootdata_t.extra field is used as a board specific index
 // to specify which device the partition map applies to.
 #define BOOTDATA_PARTITION_MAP (0x5452506D) // mPRT

 // MAC Address for Ethernet, Wifi, Bluetooth, etc.
 // Content: uint8_t[] (variable length based on type of MAC address)
 // The bootdata_t.extra field is used as a board specific index
 // to specify which device the MAC address applies to.
 #define BOOTDATA_MAC_ADDRESS (0x43414D6D) // mMAC

 // Flag indicating that the bootfs is compressed.
 #define BOOTDATA_BOOTFS_FLAG_COMPRESSED (1 << 0)

 // These items are for passing from bootloader to kernel

 // Kernel Command Line String
 // Content: uint8_t[]
 #define BOOTDATA_CMDLINE (0x4c444d43) // CMDL

 // ACPI Root Table Pointer
 // Content: uint64_t phys addr
 #define BOOTDATA_ACPI_RSDP (0x50445352) // RSDP

 // SMBIOS entry point pointer
 // Content: uint64_t phys addr
 #define BOOTDATA_SMBIOS (0x49424d53) // SMBI

 // Framebuffer Parameters
 // Content: bootdata_swfb_t
 #define BOOTDATA_FRAMEBUFFER (0x42465753) // SWFB

 // Debug Serial Port
 // Content: bootdata_uart_t
 #define BOOTDATA_DEBUG_UART (0x54524155) // UART

 // Platform ID Information
 // Content: bootdata_platform_id_t
 #define BOOTDATA_PLATFORM_ID (0x44494C50) // PLID

 // Memory which will persist across warm boots
 // Content bootdata_lastlog_nvram_t
 #define BOOTDATA_LASTLOG_NVRAM (0x4c4c564e) // NVLL

 // This reflects a typo we need to support for a while
 #define BOOTDATA_LASTLOG_NVRAM2 (0x4c4c5643) // CVLL

 // E820 Memory Table
 // Content: e820entry[]
 #define BOOTDATA_E820_TABLE (0x30323845) // E820

 // EFI Memory Map
 // Content: a uint64_t entrysz followed by a set of
 // efi_memory_descriptor aligned on entrysz
 #define BOOTDATA_EFI_MEMORY_MAP (0x4d494645) // EFIM

 // EFI System Table
 // Content: a uint64_t physical address of the table
 #define BOOTDATA_EFI_SYSTEM_TABLE (0x53494645) // EFIS

 // Last crashlog
 // Content: ascii/utf8 log data from previous boot
 #define BOOTDATA_LAST_CRASHLOG (0x4d4f4f42) // BOOM

 // CPU configuration
 // Content: bootdata_cpu_config_t
 #define BOOTDATA_CPU_CONFIG (0x43555043) // CPUC

 // Memory configuration
 // Content: one or more of bootdata_mem_range_t (count determined by bootdata_t length)
 #define BOOTDATA_MEM_CONFIG (0x434D454D) // MEMC

 // Kernel driver configuration
 // Content: driver specific struct, with type determined by bootdata "extra" field
 #define BOOTDATA_KERNEL_DRIVER (0x5652444B) // KDRV

 #define BOOTDATA_IGNORE (0x50494b53) // SKIP

 #ifndef __ASSEMBLER__
 __BEGIN_CDECLS

 // BootData header, describing the type and size of data
 // used to initialize the system. All fields are little-endian.
 //
 // BootData headers in a stream must be 8-byte-aligned.
 //
 // The length field specifies the actual payload length
 // and does not include the size of padding.
 typedef struct {
     // Boot data type
     uint32_t type;

     // Size of the payload following this header
     uint32_t length;

     // type-specific extra data
     // For CONTAINER this is MAGIC.
     // For BOOTFS this is the decompressed size.
     uint32_t extra;

     // Flags for the boot data. See flag descriptions for each type.
     uint32_t flags;

     // For future expansion.  Set to 0.
     uint32_t reserved0;
     uint32_t reserved1;

     // Must be BOOTITEM_MAGIC
     uint32_t magic;

     // Must be the CRC32 of payload if FLAG_CRC32 is set,
     // otherwise must be BOOTITEM_NO_CRC32
     uint32_t crc32;
 } bootdata_t;

 typedef struct {
     uint64_t base; // physical base addr
     uint32_t width;
     uint32_t height;
     uint32_t stride;
     uint32_t format;
 } bootdata_swfb_t;

 typedef struct {
     uint64_t entry64;
     uint64_t reserved;
 } bootdata_kernel_t;

 #define BOOTDATA_PART_NAME_LEN 32
 #define BOOTDATA_PART_GUID_LEN 16

 typedef struct {
     uint8_t type_guid[BOOTDATA_PART_GUID_LEN];
     uint8_t uniq_guid[BOOTDATA_PART_GUID_LEN];
     uint64_t first_block;
     uint64_t last_block;
     uint64_t flags;
     char name[BOOTDATA_PART_NAME_LEN];
 } bootdata_partition_t;

 typedef struct {
     uint64_t block_count;
     uint64_t block_size;
     uint32_t partition_count;
     uint32_t reserved;
     char guid[BOOTDATA_PART_GUID_LEN];
     bootdata_partition_t partitions[];
 } bootdata_partition_map_t;

 typedef struct {
     uint64_t base;
     uint64_t length;
 } bootdata_nvram_t;

 #define BOOTDATA_UART_NONE 0
 #define BOOTDATA_UART_PC_PORT 1
 #define BOOTDATA_UART_PC_MMIO 2
 typedef struct {
     uint64_t base;
     uint32_t type;
     uint32_t irq;
 } bootdata_uart_t;

 typedef struct {
     uint32_t vid;
     uint32_t pid;
     char board_name[32];
 } bootdata_platform_id_t;

 typedef struct {
     uint32_t cpu_count; // number of CPU cores in the cluster
     uint32_t type;      // for future use
     uint32_t flags;     // for future use
     uint32_t reserved;
 } bootdata_cpu_cluster_t;

 typedef struct {
     uint32_t cluster_count;
     uint32_t reserved[3];
     bootdata_cpu_cluster_t clusters[];
 } bootdata_cpu_config_t;

 #define BOOTDATA_MEM_RANGE_RAM 1
 #define BOOTDATA_MEM_RANGE_PERIPHERAL 2
 #define BOOTDATA_MEM_RANGE_RESERVED 3
 typedef struct {
     uint64_t paddr;
     uint64_t length;
     uint32_t type;
     uint32_t reserved;
 } bootdata_mem_range_t;

 __END_CDECLS

 // BOOTFS is a trivial "filesystem" format
 //
 // It consists of a bootfs_header_t
 //
 // Followed by a series of bootfs_entry_t's of:
 //   name length (32bit le)
 //   data size   (32bit le)
 //   data offset (32bit le)
 //   namedata   (namelength bytes, includes \0)
 //
 // - data offsets must be page aligned (multiple of 4096)
 // - entries start on uint32 boundaries

 //lsw of sha256("bootfs")
 #define BOOTFS_MAGIC (0xa56d3ff9)

 #define BOOTFS_PAGE_SIZE (4096)
 #define BOOTFS_PAGE_ALIGN(size) \
     (((size) + BOOTFS_PAGE_SIZE - 1) & -BOOTFS_PAGE_SIZE)

 #define BOOTFS_MAX_NAME_LEN 256

 typedef struct bootfs_header {
     // magic value BOOTFS_MAGIC
     uint32_t magic;

     // total size of all bootfs_entry_t's
     // does not include the size of the bootfs_header_t
     uint32_t dirsize;

     // 0, 0
     uint32_t reserved0;
     uint32_t reserved1;
 } bootfs_header_t;

 typedef struct bootfs_entry {
     uint32_t name_len;
     uint32_t data_len;
     uint32_t data_off;
     char name[];
 } bootfs_entry_t;

 #define BOOTFS_ALIGN(nlen) (((nlen) + 3) & (~3))
 #define BOOTFS_RECSIZE(entry) \
     (sizeof(bootfs_entry_t) + BOOTFS_ALIGN(entry->name_len))

 static inline bool bootdata_is_metadata(uint32_t type) {
     return ((type & BOOTDATA_KIND_MASK) == BOOTDATA_KIND_METADATA);
 }

 #endif

 #endif  // SYSROOT_ZIRCON_BOOT_BOOTDATA_H_
	// Copyright 2016 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef SYSROOT_ZIRCON_BOOT_BOOTDATA_H_
	#define SYSROOT_ZIRCON_BOOT_BOOTDATA_H_

	#ifndef __ASSEMBLER__
	#include <stdbool.h>
	#include <stdint.h>
	#include <zircon/compiler.h>
	#endif

	// lsw of sha256("bootdata")
	#define BOOTDATA_MAGIC (0x868cf7e6)

	// lsw of sha256("bootitem")
	#define BOOTITEM_MAGIC (0xb5781729)

	// Round n up to the next 8 byte boundary
	#define BOOTDATA_ALIGN(n) (((n) + 7) & (~7))

	#define BOOTITEM_NO_CRC32 (0x4a87e8d6)

	// This flag is required.
	#define BOOTDATA_FLAG_V2 (0x00010000)

	// Bootdata items with the CRC32 flag must have a valid crc32.
	// Otherwise their crc32 field must contain BOOTITEM_NO_CRC32
	#define BOOTDATA_FLAG_CRC32 (0x00020000)

	// Bootdata types that have least significant byte set to 'm'
	// are reserved for driver metadata
	#define BOOTDATA_KIND_METADATA (0x0000006D)
	#define BOOTDATA_KIND_MASK (0x000000FF)

	// Containers are used to wrap a set of bootdata items
	// written to a file or partition. The "length" is the
	// length of the set of following bootdata items. The
	// "extra" is the value BOOTDATA_MAGIC and "flags" is
	// set to 0.
	#define BOOTDATA_CONTAINER (0x544f4f42) // BOOT

	// BOOTFS images. The "extra" field is the decompressed
	// size of the image, if compressed, otherwise the same
	// as the "length" field.
	#define BOOTDATA_BOOTFS_BOOT (0x42534642) // BFSB
	#define BOOTDATA_BOOTFS_SYSTEM (0x53534642) // BFSS
	#define BOOTDATA_BOOTFS_DISCARD (0x58534642) // BFSX

	#define BOOTDATA_BOOTFS_MASK (0x00FFFFFF)
	#define BOOTDATA_BOOTFS_TYPE (0x00534642) // BFS\0

	// Virtual disk images. The header fields and compression protocol
	// are the same as for the BOOTFS types, but the payload before
	// compression is a raw disk image rather than BOOTFS format.
	#define BOOTDATA_RAMDISK (0x4b534452) // RDSK

	// A Zircon Kernel Image
	// Content: bootdata_kernel_t
	#define BOOTDATA_KERNEL (0x4c4e524b) // KRNL

	// A Zircon Partition Map
	// Content: bootdata_partition_map_t
	// The bootdata_t.extra field is used as a board specific index
	// to specify which device the partition map applies to.
	#define BOOTDATA_PARTITION_MAP (0x5452506D) // mPRT

	// MAC Address for Ethernet, Wifi, Bluetooth, etc.
	// Content: uint8_t[] (variable length based on type of MAC address)
	// The bootdata_t.extra field is used as a board specific index
	// to specify which device the MAC address applies to.
	#define BOOTDATA_MAC_ADDRESS (0x43414D6D) // mMAC

	// Flag indicating that the bootfs is compressed.
	#define BOOTDATA_BOOTFS_FLAG_COMPRESSED (1 << 0)

	// These items are for passing from bootloader to kernel

	// Kernel Command Line String
	// Content: uint8_t[]
	#define BOOTDATA_CMDLINE (0x4c444d43) // CMDL

	// ACPI Root Table Pointer
	// Content: uint64_t phys addr
	#define BOOTDATA_ACPI_RSDP (0x50445352) // RSDP

	// SMBIOS entry point pointer
	// Content: uint64_t phys addr
	#define BOOTDATA_SMBIOS (0x49424d53) // SMBI

	// Framebuffer Parameters
	// Content: bootdata_swfb_t
	#define BOOTDATA_FRAMEBUFFER (0x42465753) // SWFB

	// Debug Serial Port
	// Content: bootdata_uart_t
	#define BOOTDATA_DEBUG_UART (0x54524155) // UART

	// Platform ID Information
	// Content: bootdata_platform_id_t
	#define BOOTDATA_PLATFORM_ID (0x44494C50) // PLID

	// Memory which will persist across warm boots
	// Content bootdata_lastlog_nvram_t
	#define BOOTDATA_LASTLOG_NVRAM (0x4c4c564e) // NVLL

	// This reflects a typo we need to support for a while
	#define BOOTDATA_LASTLOG_NVRAM2 (0x4c4c5643) // CVLL

	// E820 Memory Table
	// Content: e820entry[]
	#define BOOTDATA_E820_TABLE (0x30323845) // E820

	// EFI Memory Map
	// Content: a uint64_t entrysz followed by a set of
	// efi_memory_descriptor aligned on entrysz
	#define BOOTDATA_EFI_MEMORY_MAP (0x4d494645) // EFIM

	// EFI System Table
	// Content: a uint64_t physical address of the table
	#define BOOTDATA_EFI_SYSTEM_TABLE (0x53494645) // EFIS

	// Last crashlog
	// Content: ascii/utf8 log data from previous boot
	#define BOOTDATA_LAST_CRASHLOG (0x4d4f4f42) // BOOM

	// CPU configuration
	// Content: bootdata_cpu_config_t
	#define BOOTDATA_CPU_CONFIG (0x43555043) // CPUC

	// Memory configuration
	// Content: one or more of bootdata_mem_range_t (count determined by bootdata_t length)
	#define BOOTDATA_MEM_CONFIG (0x434D454D) // MEMC

	// Kernel driver configuration
	// Content: driver specific struct, with type determined by bootdata "extra" field
	#define BOOTDATA_KERNEL_DRIVER (0x5652444B) // KDRV

	#define BOOTDATA_IGNORE (0x50494b53) // SKIP

	#ifndef __ASSEMBLER__
	__BEGIN_CDECLS

	// BootData header, describing the type and size of data
	// used to initialize the system. All fields are little-endian.
	//
	// BootData headers in a stream must be 8-byte-aligned.
	//
	// The length field specifies the actual payload length
	// and does not include the size of padding.
	typedef struct {
	// Boot data type
	uint32_t type;

	// Size of the payload following this header
	uint32_t length;

	// type-specific extra data
	// For CONTAINER this is MAGIC.
	// For BOOTFS this is the decompressed size.
	uint32_t extra;

	// Flags for the boot data. See flag descriptions for each type.
	uint32_t flags;

	// For future expansion. Set to 0.
	uint32_t reserved0;
	uint32_t reserved1;

	// Must be BOOTITEM_MAGIC
	uint32_t magic;

	// Must be the CRC32 of payload if FLAG_CRC32 is set,
	// otherwise must be BOOTITEM_NO_CRC32
	uint32_t crc32;
	} bootdata_t;

	typedef struct {
	uint64_t base; // physical base addr
	uint32_t width;
	uint32_t height;
	uint32_t stride;
	uint32_t format;
	} bootdata_swfb_t;

	typedef struct {
	uint64_t entry64;
	uint64_t reserved;
	} bootdata_kernel_t;

	#define BOOTDATA_PART_NAME_LEN 32
	#define BOOTDATA_PART_GUID_LEN 16

	typedef struct {
	uint8_t type_guid[BOOTDATA_PART_GUID_LEN];
	uint8_t uniq_guid[BOOTDATA_PART_GUID_LEN];
	uint64_t first_block;
	uint64_t last_block;
	uint64_t flags;
	char name[BOOTDATA_PART_NAME_LEN];
	} bootdata_partition_t;

	typedef struct {
	uint64_t block_count;
	uint64_t block_size;
	uint32_t partition_count;
	uint32_t reserved;
	char guid[BOOTDATA_PART_GUID_LEN];
	bootdata_partition_t partitions[];
	} bootdata_partition_map_t;

	typedef struct {
	uint64_t base;
	uint64_t length;
	} bootdata_nvram_t;

	#define BOOTDATA_UART_NONE 0
	#define BOOTDATA_UART_PC_PORT 1
	#define BOOTDATA_UART_PC_MMIO 2
	typedef struct {
	uint64_t base;
	uint32_t type;
	uint32_t irq;
	} bootdata_uart_t;

	typedef struct {
	uint32_t vid;
	uint32_t pid;
	char board_name[32];
	} bootdata_platform_id_t;

	typedef struct {
	uint32_t cpu_count; // number of CPU cores in the cluster
	uint32_t type; // for future use
	uint32_t flags; // for future use
	uint32_t reserved;
	} bootdata_cpu_cluster_t;

	typedef struct {
	uint32_t cluster_count;
	uint32_t reserved[3];
	bootdata_cpu_cluster_t clusters[];
	} bootdata_cpu_config_t;

	#define BOOTDATA_MEM_RANGE_RAM 1
	#define BOOTDATA_MEM_RANGE_PERIPHERAL 2
	#define BOOTDATA_MEM_RANGE_RESERVED 3
	typedef struct {
	uint64_t paddr;
	uint64_t length;
	uint32_t type;
	uint32_t reserved;
	} bootdata_mem_range_t;

	__END_CDECLS

	// BOOTFS is a trivial "filesystem" format
	//
	// It consists of a bootfs_header_t
	//
	// Followed by a series of bootfs_entry_t's of:
	// name length (32bit le)
	// data size (32bit le)
	// data offset (32bit le)
	// namedata (namelength bytes, includes \0)
	//
	// - data offsets must be page aligned (multiple of 4096)
	// - entries start on uint32 boundaries

	//lsw of sha256("bootfs")
	#define BOOTFS_MAGIC (0xa56d3ff9)

	#define BOOTFS_PAGE_SIZE (4096)
	#define BOOTFS_PAGE_ALIGN(size) \
	(((size) + BOOTFS_PAGE_SIZE - 1) & -BOOTFS_PAGE_SIZE)

	#define BOOTFS_MAX_NAME_LEN 256

	typedef struct bootfs_header {
	// magic value BOOTFS_MAGIC
	uint32_t magic;

	// total size of all bootfs_entry_t's
	// does not include the size of the bootfs_header_t
	uint32_t dirsize;

	// 0, 0
	uint32_t reserved0;
	uint32_t reserved1;
	} bootfs_header_t;

	typedef struct bootfs_entry {
	uint32_t name_len;
	uint32_t data_len;
	uint32_t data_off;
	char name[];
	} bootfs_entry_t;

	#define BOOTFS_ALIGN(nlen) (((nlen) + 3) & (~3))
	#define BOOTFS_RECSIZE(entry) \
	(sizeof(bootfs_entry_t) + BOOTFS_ALIGN(entry->name_len))

	static inline bool bootdata_is_metadata(uint32_t type) {
	return ((type & BOOTDATA_KIND_MASK) == BOOTDATA_KIND_METADATA);
	}

	#endif

	#endif // SYSROOT_ZIRCON_BOOT_BOOTDATA_H_