arch/x86/include/asm/cb_sysinfo.h - mirrors/cros/chromiumos/third_party/u-boot - Git at Google

 /* SPDX-License-Identifier: BSD-3-Clause */
 /*
  * This file is part of the libpayload project.
  *
  * Copyright (C) 2008 Advanced Micro Devices, Inc.
  */

 #ifndef _COREBOOT_SYSINFO_H
 #define _COREBOOT_SYSINFO_H

 #include <asm/coreboot_tables.h>

 /* Maximum number of memory range definitions */
 #define SYSINFO_MAX_MEM_RANGES	32
 /* Allow a maximum of 8 GPIOs */
 #define SYSINFO_MAX_GPIOS	8
 /* Up to 10 MAC addresses */
 #define SYSINFO_MAX_MACS 10

 /**
  * struct sysinfo_t - Information passed to U-Boot from coreboot
  *
  * Coreboot passes on a lot of information using a list of individual data
  * structures identified by a numeric tag. These are parsed in U-Boot to produce
  * this struct. Some of the pointers here point back to the tagged data
  * structure, since it is assumed to remain around while U-Boot is running.
  *
  * The 'cbsysinfo' command can display this information.
  *
  * @cpu_khz: CPU frequence in KHz (e.g. 1100000)
  * @serial: Pointer to the serial information, NULL if none
  * @ser_ioport: Not actually provided by a tag and not used on modern hardware,
  *	which typicaally uses a memory-mapped port
  * @ser_base: Not used at all, but present to match up with the coreboot data
  *	structure
  * @n_memranges: Number of memory ranges
  * @memrange: List of memory ranges:
  *	@base: Base address of range
  *	@size: Size of range in bytes
  *	@type: Type of range (CB_MEM_RAM, etc.)
  * @option_table: Provides a pointer to the CMOS RAM options table, which
  *	indicates which options are available. The header is followed by a list
  *	of struct cb_cmos_entries records, so that an option can be found from
  *	its name. This is not used in U-Boot. NULL if not present
  * @cmos_range_start: Start bit of the CMOS checksum range (in fact this must
  *	be a multiple of 8)
  * @cmos_range_end: End bit of the CMOS checksum range (multiple of 8). This is
  *	the inclusive end.
  * @cmos_checksum_location: Location of checksum, multiplied by 8. This is the
  *	byte offset into the CMOS RAM of the first checksum byte. The second one
  *	follows immediately. The checksum is a simple 16-bit sum of all the
  *	bytes from offset cmos_range_start / 8 to cmos_range_end / 8, inclusive,
  *	in big-endian format (so sum >> 8 is stored in the first byte).
  * @vbnv_start: Start offset of CMOS RAM used for Chromium OS verified boot
  *	(typically 0x34)
  * @vbnv_size: Number of bytes used by Chromium OS verified boot (typically
  *	0x10)
  * @extra_version: Extra version information, typically ""
  * @build: Build date, e.g. "Wed Nov 18 02:51:58 UTC 2020"
  * @compile_time: Compilation time, e.g. "02:51:58"
  * @compile_by: Who compiled coreboot (never set?)
  * @compile_host: Name of the machine that compiled coreboot (never set?)
  * @compile_domain: Domain name of the machine that compiled coreboot (never
  *	set?)
  * @compiler: Name of the compiler used to build coreboot (never set?)
  * @linker: Name of the linker used to build coreboot (never set?)
  * @assembler: Name of the assembler used to build coreboot (never set?)
  * @cb_version: Coreboot version string, e.g. v1.9308_26_0.0.22-2599-g232f22c75d
  * @framebuffer: Address of framebuffer tag, or NULL if none. See
  *	struct cb_framebuffer for the definition
  * @num_gpios: Number of verified-boot GPIOs
  * @gpios: List of GPIOs:
  *	@port: GPIO number, or 0xffffffff if not a GPIO
  *	@polarity: CB_GPIO_ACTIVE_LOW or CB_GPIO_ACTIVE_HIGH
  *	@value: Value of GPIO (0 or 1)
  *	@name: Name of GPIO
  *
  *	A typical list is:
  *	  id: port     polarity val name
  *	   0:    -  active-high   1 write protect
  *	   1:    -  active-high   0 recovery
  *	   2:    -  active-high   1 lid
  *	   3:    -  active-high   0 power
  *	   4:    -  active-high   0 oprom
  *	   5:   29  active-high   0 EC in RW
  *
  * @num_macs: Number of MAC addresses
  * @macs: List of MAC addresses
  * @serialno: Serial number, or NULL (never set?)
  * @mbtable: Address of the multiboot table, or NULL. This is a
  *	struct multiboot_header, not used in U-Boot
  * @header: Address of header, if there is a CB_TAG_FORWARD, else NULL
  * @mainboard: Pointer to mainboard info or NULL. Typically the vendor is
  *	"Google" and the part number is ""
  * @vboot_handoff: Pointer to Chromium OS verified boot hand-off information.
  *	This is struct vboot_handoff, providing access to internal information
  *	generated by coreboot when this is being used
  * @vboot_handoff_size: Size of hand-off information (typically 0xc0c)
  * @vdat_addr: Pointer to Chromium OS verified boot data, which uses
  *	struct chromeos_acpi. It sits in the Intel Global NVS struct, after the
  *	first 0x100 bytes
  * @vdat_size: Size of this data, typically 0xf00
  * @smbios_start: Address of SMBIOS tables
  * @smbios_size: Size of SMBIOS tables (e.g. 0x800)
  * @x86_rom_var_mtrr_index: MTRR number used for ROM caching. Not used in U-Boot
  * @tstamp_table: Pointer to timestamp_table, struct timestamp_table
  * @cbmem_cons: Pointer to the console dump, struct cbmem_console. This provides
  *	access to the console output generated by coreboot, typically about 64KB
  *	and mostly PCI enumeration info
  * @mrc_cache: Pointer to memory-reference-code cache, typically NULL
  * acpi_gnvs: @Pointer to Intel Global NVS struct, see struct acpi_global_nvs
  * @board_id: Board ID indicating the board variant, typically 0xffffffff
  * @ram_code: RAM code indicating the SDRAM type, typically 0xffffffff
  * @wifi_calibration: WiFi calibration info, NULL if none
  * @ramoops_buffer: Address of kernel Ramoops buffer
  * @ramoops_buffer_size: Sizeof of Ramoops buffer, typically 1MB
  * @spi_flash: Information about SPI flash:
  *	@size: Size in bytes, e.g. 16MB
  *	@sector_size; Sector size of flash device, e.g. 4KB
  *	@erase_cmd: Command used to erase flash, or 0 if not used
  * @fmap_offset: SPI-flash offset of the flash map (FMAP) table. This has a
  *	__FMAP__ header. It provides information about the different top-level
  *	sections in the SPI flash, e.g. 0x204000
  * @cbfs_offset: SPI-flash offset of the Coreboot Filesystem (CBFS) used for
  *	read-only data, e.g. 0x205000. This is typically called 'COREBOOT' in
  *	the flash map. It holds various coreboot binaries as well as
  *	video-configuration files and graphics data for the Chromium OS
  *	verified boot user interface.
  * @cbfs_size: Size of CBFS, e.g. 0x17b000
  * @boot_media_size; Size of boot media (i.e. SPI flash), e.g. 16MB
  * @mtc_start; Start of MTC region (Nvidia private data), 0 if not used. See
  *	https://chromium.googlesource.com/chromiumos/third_party/coreboot/+/chromeos-2013.04/src/soc/nvidia/tegra210/mtc.c
  * @mtc_size: Size of MTC region
  * @chromeos_vpd: Chromium OS Vital Product Data region, typically NULL, meaning
  *	not used
  */
 struct sysinfo_t {
 	unsigned int cpu_khz;
 	struct cb_serial *serial;
 	unsigned short ser_ioport;
 	unsigned long ser_base; // for mmapped serial

 	int n_memranges;

 	struct memrange {
 		unsigned long long base;
 		unsigned long long size;
 		unsigned int type;
 	} memrange[SYSINFO_MAX_MEM_RANGES];

 	struct cb_cmos_option_table *option_table;
 	u32 cmos_range_start;
 	u32 cmos_range_end;
 	u32 cmos_checksum_location;
 	u32 vbnv_start;
 	u32 vbnv_size;

 	char *version;
 	char *extra_version;
 	char *build;
 	char *compile_time;
 	char *compile_by;
 	char *compile_host;
 	char *compile_domain;
 	char *compiler;
 	char *linker;
 	char *assembler;

 	char *cb_version;

 	struct cb_framebuffer *framebuffer;

 	int num_gpios;
 	struct cb_gpio gpios[SYSINFO_MAX_GPIOS];
 	int num_macs;
 	struct mac_address macs[SYSINFO_MAX_MACS];
 	char *serialno;

 	unsigned long *mbtable; /** Pointer to the multiboot table */

 	struct cb_header *header;
 	struct cb_mainboard *mainboard;

 	void	*vboot_handoff;
 	u32	vboot_handoff_size;
 	void	*vdat_addr;
 	u32	vdat_size;
 	u64 smbios_start;
 	u32 smbios_size;

 	int x86_rom_var_mtrr_index;

 	void		*tstamp_table;
 	void		*cbmem_cons;
 	void		*mrc_cache;
 	void		*acpi_gnvs;
 	u32		board_id;
 	u32		ram_code;
 	void		*wifi_calibration;
 	u64	ramoops_buffer;
 	u32	ramoops_buffer_size;
 	struct {
 		u32 size;
 		u32 sector_size;
 		u32 erase_cmd;
 	} spi_flash;
 	u64 fmap_offset;
 	u64 cbfs_offset;
 	u64 cbfs_size;
 	u64 boot_media_size;
 	u64 mtc_start;
 	u32 mtc_size;
 	void	*chromeos_vpd;
 };

 extern struct sysinfo_t lib_sysinfo;

 /**
  * get_coreboot_info() - parse the coreboot sysinfo table
  *
  * Parses the coreboot table if found, setting the GD_FLG_SKIP_LL_INIT flag if
  * so.
  *
  * @info: Place to put the parsed information
  * @return 0 if OK, -ENOENT if no table found
  */
 int get_coreboot_info(struct sysinfo_t *info);

 /**
  * cb_get_sysinfo() - get a pointer to the parsed coreboot sysinfo
  *
  * @return pointer to sysinfo, or NULL if not available
  */
 const struct sysinfo_t *cb_get_sysinfo(void);

 #endif
	/* SPDX-License-Identifier: BSD-3-Clause */
	/*
	* This file is part of the libpayload project.
	*
	* Copyright (C) 2008 Advanced Micro Devices, Inc.
	*/

	#ifndef _COREBOOT_SYSINFO_H
	#define _COREBOOT_SYSINFO_H

	#include <asm/coreboot_tables.h>

	/* Maximum number of memory range definitions */
	#define SYSINFO_MAX_MEM_RANGES 32
	/* Allow a maximum of 8 GPIOs */
	#define SYSINFO_MAX_GPIOS 8
	/* Up to 10 MAC addresses */
	#define SYSINFO_MAX_MACS 10

	/**
	* struct sysinfo_t - Information passed to U-Boot from coreboot
	*
	* Coreboot passes on a lot of information using a list of individual data
	* structures identified by a numeric tag. These are parsed in U-Boot to produce
	* this struct. Some of the pointers here point back to the tagged data
	* structure, since it is assumed to remain around while U-Boot is running.
	*
	* The 'cbsysinfo' command can display this information.
	*
	* @cpu_khz: CPU frequence in KHz (e.g. 1100000)
	* @serial: Pointer to the serial information, NULL if none
	* @ser_ioport: Not actually provided by a tag and not used on modern hardware,
	* which typicaally uses a memory-mapped port
	* @ser_base: Not used at all, but present to match up with the coreboot data
	* structure
	* @n_memranges: Number of memory ranges
	* @memrange: List of memory ranges:
	* @base: Base address of range
	* @size: Size of range in bytes
	* @type: Type of range (CB_MEM_RAM, etc.)
	* @option_table: Provides a pointer to the CMOS RAM options table, which
	* indicates which options are available. The header is followed by a list
	* of struct cb_cmos_entries records, so that an option can be found from
	* its name. This is not used in U-Boot. NULL if not present
	* @cmos_range_start: Start bit of the CMOS checksum range (in fact this must
	* be a multiple of 8)
	* @cmos_range_end: End bit of the CMOS checksum range (multiple of 8). This is
	* the inclusive end.
	* @cmos_checksum_location: Location of checksum, multiplied by 8. This is the
	* byte offset into the CMOS RAM of the first checksum byte. The second one
	* follows immediately. The checksum is a simple 16-bit sum of all the
	* bytes from offset cmos_range_start / 8 to cmos_range_end / 8, inclusive,
	* in big-endian format (so sum >> 8 is stored in the first byte).
	* @vbnv_start: Start offset of CMOS RAM used for Chromium OS verified boot
	* (typically 0x34)
	* @vbnv_size: Number of bytes used by Chromium OS verified boot (typically
	* 0x10)
	* @extra_version: Extra version information, typically ""
	* @build: Build date, e.g. "Wed Nov 18 02:51:58 UTC 2020"
	* @compile_time: Compilation time, e.g. "02:51:58"
	* @compile_by: Who compiled coreboot (never set?)
	* @compile_host: Name of the machine that compiled coreboot (never set?)
	* @compile_domain: Domain name of the machine that compiled coreboot (never
	* set?)
	* @compiler: Name of the compiler used to build coreboot (never set?)
	* @linker: Name of the linker used to build coreboot (never set?)
	* @assembler: Name of the assembler used to build coreboot (never set?)
	* @cb_version: Coreboot version string, e.g. v1.9308_26_0.0.22-2599-g232f22c75d
	* @framebuffer: Address of framebuffer tag, or NULL if none. See
	* struct cb_framebuffer for the definition
	* @num_gpios: Number of verified-boot GPIOs
	* @gpios: List of GPIOs:
	* @port: GPIO number, or 0xffffffff if not a GPIO
	* @polarity: CB_GPIO_ACTIVE_LOW or CB_GPIO_ACTIVE_HIGH
	* @value: Value of GPIO (0 or 1)
	* @name: Name of GPIO
	*
	* A typical list is:
	* id: port polarity val name
	* 0: - active-high 1 write protect
	* 1: - active-high 0 recovery
	* 2: - active-high 1 lid
	* 3: - active-high 0 power
	* 4: - active-high 0 oprom
	* 5: 29 active-high 0 EC in RW
	*
	* @num_macs: Number of MAC addresses
	* @macs: List of MAC addresses
	* @serialno: Serial number, or NULL (never set?)
	* @mbtable: Address of the multiboot table, or NULL. This is a
	* struct multiboot_header, not used in U-Boot
	* @header: Address of header, if there is a CB_TAG_FORWARD, else NULL
	* @mainboard: Pointer to mainboard info or NULL. Typically the vendor is
	* "Google" and the part number is ""
	* @vboot_handoff: Pointer to Chromium OS verified boot hand-off information.
	* This is struct vboot_handoff, providing access to internal information
	* generated by coreboot when this is being used
	* @vboot_handoff_size: Size of hand-off information (typically 0xc0c)
	* @vdat_addr: Pointer to Chromium OS verified boot data, which uses
	* struct chromeos_acpi. It sits in the Intel Global NVS struct, after the
	* first 0x100 bytes
	* @vdat_size: Size of this data, typically 0xf00
	* @smbios_start: Address of SMBIOS tables
	* @smbios_size: Size of SMBIOS tables (e.g. 0x800)
	* @x86_rom_var_mtrr_index: MTRR number used for ROM caching. Not used in U-Boot
	* @tstamp_table: Pointer to timestamp_table, struct timestamp_table
	* @cbmem_cons: Pointer to the console dump, struct cbmem_console. This provides
	* access to the console output generated by coreboot, typically about 64KB
	* and mostly PCI enumeration info
	* @mrc_cache: Pointer to memory-reference-code cache, typically NULL
	* acpi_gnvs: @Pointer to Intel Global NVS struct, see struct acpi_global_nvs
	* @board_id: Board ID indicating the board variant, typically 0xffffffff
	* @ram_code: RAM code indicating the SDRAM type, typically 0xffffffff
	* @wifi_calibration: WiFi calibration info, NULL if none
	* @ramoops_buffer: Address of kernel Ramoops buffer
	* @ramoops_buffer_size: Sizeof of Ramoops buffer, typically 1MB
	* @spi_flash: Information about SPI flash:
	* @size: Size in bytes, e.g. 16MB
	* @sector_size; Sector size of flash device, e.g. 4KB
	* @erase_cmd: Command used to erase flash, or 0 if not used
	* @fmap_offset: SPI-flash offset of the flash map (FMAP) table. This has a
	* __FMAP__ header. It provides information about the different top-level
	* sections in the SPI flash, e.g. 0x204000
	* @cbfs_offset: SPI-flash offset of the Coreboot Filesystem (CBFS) used for
	* read-only data, e.g. 0x205000. This is typically called 'COREBOOT' in
	* the flash map. It holds various coreboot binaries as well as
	* video-configuration files and graphics data for the Chromium OS
	* verified boot user interface.
	* @cbfs_size: Size of CBFS, e.g. 0x17b000
	* @boot_media_size; Size of boot media (i.e. SPI flash), e.g. 16MB
	* @mtc_start; Start of MTC region (Nvidia private data), 0 if not used. See
	* https://chromium.googlesource.com/chromiumos/third_party/coreboot/+/chromeos-2013.04/src/soc/nvidia/tegra210/mtc.c
	* @mtc_size: Size of MTC region
	* @chromeos_vpd: Chromium OS Vital Product Data region, typically NULL, meaning
	* not used
	*/
	struct sysinfo_t {
	unsigned int cpu_khz;
	struct cb_serial *serial;
	unsigned short ser_ioport;
	unsigned long ser_base; // for mmapped serial

	int n_memranges;

	struct memrange {
	unsigned long long base;
	unsigned long long size;
	unsigned int type;
	} memrange[SYSINFO_MAX_MEM_RANGES];

	struct cb_cmos_option_table *option_table;
	u32 cmos_range_start;
	u32 cmos_range_end;
	u32 cmos_checksum_location;
	u32 vbnv_start;
	u32 vbnv_size;

	char *version;
	char *extra_version;
	char *build;
	char *compile_time;
	char *compile_by;
	char *compile_host;
	char *compile_domain;
	char *compiler;
	char *linker;
	char *assembler;

	char *cb_version;

	struct cb_framebuffer *framebuffer;

	int num_gpios;
	struct cb_gpio gpios[SYSINFO_MAX_GPIOS];
	int num_macs;
	struct mac_address macs[SYSINFO_MAX_MACS];
	char *serialno;

	unsigned long mbtable; /* Pointer to the multiboot table */

	struct cb_header *header;
	struct cb_mainboard *mainboard;

	void *vboot_handoff;
	u32 vboot_handoff_size;
	void *vdat_addr;
	u32 vdat_size;
	u64 smbios_start;
	u32 smbios_size;

	int x86_rom_var_mtrr_index;

	void *tstamp_table;
	void *cbmem_cons;
	void *mrc_cache;
	void *acpi_gnvs;
	u32 board_id;
	u32 ram_code;
	void *wifi_calibration;
	u64 ramoops_buffer;
	u32 ramoops_buffer_size;
	struct {
	u32 size;
	u32 sector_size;
	u32 erase_cmd;
	} spi_flash;
	u64 fmap_offset;
	u64 cbfs_offset;
	u64 cbfs_size;
	u64 boot_media_size;
	u64 mtc_start;
	u32 mtc_size;
	void *chromeos_vpd;
	};

	extern struct sysinfo_t lib_sysinfo;

	/**
	* get_coreboot_info() - parse the coreboot sysinfo table
	*
	* Parses the coreboot table if found, setting the GD_FLG_SKIP_LL_INIT flag if
	* so.
	*
	* @info: Place to put the parsed information
	* @return 0 if OK, -ENOENT if no table found
	*/
	int get_coreboot_info(struct sysinfo_t *info);

	/**
	* cb_get_sysinfo() - get a pointer to the parsed coreboot sysinfo
	*
	* @return pointer to sysinfo, or NULL if not available
	*/
	const struct sysinfo_t *cb_get_sysinfo(void);

	#endif