include/vxworks.h - u-boot-mtk - Git at Google

 /* SPDX-License-Identifier: GPL-2.0+ */
 /*
  * (C) Copyright 2008
  * Niklaus Giger, niklaus.giger@member.fsf.org
  */

 #ifndef _VXWORKS_H_
 #define _VXWORKS_H_

 #include <efi_api.h>

 /*
  * Physical address of memory base for VxWorks x86
  * This is LOCAL_MEM_LOCAL_ADRS in the VxWorks kernel configuration.
  */
 #define VXWORKS_PHYS_MEM_BASE	0x100000

 /* x86 bootline offset relative to LOCAL_MEM_LOCAL_ADRS in VxWorks */
 #define X86_BOOT_LINE_OFFSET	0x1200

 /*
  * VxWorks x86 E820 related stuff
  *
  * VxWorks on x86 gets E820 information from pre-defined offset @
  * 0x4a00 and 0x4000. At 0x4a00 it's an information table defined
  * by VxWorks and the actual E820 table entries starts from 0x4000.
  * As defined by the BIOS E820 spec, the maximum number of E820 table
  * entries is 128 and each entry occupies 20 bytes, so it's 128 * 20
  * = 2560 (0xa00) bytes in total. That's where VxWorks stores some
  * information that is retrieved from the BIOS E820 call and saved
  * later for sanity test during the kernel boot-up.
  */
 #define E820_DATA_OFFSET	0x4000
 #define E820_INFO_OFFSET	0x4a00

 /* E820 info signatiure "SMAP" - System MAP */
 #define E820_SIGNATURE	0x534d4150

 struct e820_info {
 	u32 sign;	/* "SMAP" signature */
 	u32 x0;		/* don't care, used by VxWorks */
 	u32 x1;		/* don't care, used by VxWorks */
 	u32 x2;		/* don't care, used by VxWorks */
 	u32 addr;	/* last e820 table entry addr */
 	u32 x3;		/* don't care, used by VxWorks */
 	u32 entries;	/* e820 table entry count */
 	u32 error;	/* must be zero */
 };

 /*
  * VxWorks bootloader stores its size at a pre-defined offset @ 0x5004.
  * Later when VxWorks kernel boots up and system memory information is
  * retrieved from the E820 table, the bootloader size will be subtracted
  * from the total system memory size to calculate the size of available
  * memory for the OS.
  */
 #define BOOT_IMAGE_SIZE_OFFSET	0x5004

 /*
  * When booting from EFI BIOS, VxWorks bootloader stores the EFI GOP
  * framebuffer info at a pre-defined offset @ 0x6100. When VxWorks kernel
  * boots up, its EFI console driver tries to find such a block and if
  * the signature matches, the framebuffer information will be used to
  * initialize the driver.
  *
  * However it is not necessary to prepare an EFI environment for VxWorks's
  * EFI console driver to function (eg: EFI loader in U-Boot). If U-Boot has
  * already initialized the graphics card and set it to a VESA mode that is
  * compatible with EFI GOP, we can simply prepare such a block for VxWorks.
  */
 #define EFI_GOP_INFO_OFFSET	0x6100

 /* EFI GOP info signatiure */
 #define EFI_GOP_INFO_MAGIC	0xfeedface

 struct efi_gop_info {
 	u32 magic;			/* signature */
 	struct efi_gop_mode_info info;	/* EFI GOP mode info structure */
 	phys_addr_t fb_base;		/* framebuffer base address */
 	u32 fb_size;			/* framebuffer size */
 };

 int do_bootvx(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[]);
 void boot_prep_vxworks(bootm_headers_t *images);
 void boot_jump_vxworks(bootm_headers_t *images);

 #endif
	/* SPDX-License-Identifier: GPL-2.0+ */
	/*
	* (C) Copyright 2008
	* Niklaus Giger, niklaus.giger@member.fsf.org
	*/

	#ifndef _VXWORKS_H_
	#define _VXWORKS_H_

	#include <efi_api.h>

	/*
	* Physical address of memory base for VxWorks x86
	* This is LOCAL_MEM_LOCAL_ADRS in the VxWorks kernel configuration.
	*/
	#define VXWORKS_PHYS_MEM_BASE 0x100000

	/* x86 bootline offset relative to LOCAL_MEM_LOCAL_ADRS in VxWorks */
	#define X86_BOOT_LINE_OFFSET 0x1200

	/*
	* VxWorks x86 E820 related stuff
	*
	* VxWorks on x86 gets E820 information from pre-defined offset @
	* 0x4a00 and 0x4000. At 0x4a00 it's an information table defined
	* by VxWorks and the actual E820 table entries starts from 0x4000.
	* As defined by the BIOS E820 spec, the maximum number of E820 table
	* entries is 128 and each entry occupies 20 bytes, so it's 128 * 20
	* = 2560 (0xa00) bytes in total. That's where VxWorks stores some
	* information that is retrieved from the BIOS E820 call and saved
	* later for sanity test during the kernel boot-up.
	*/
	#define E820_DATA_OFFSET 0x4000
	#define E820_INFO_OFFSET 0x4a00

	/* E820 info signatiure "SMAP" - System MAP */
	#define E820_SIGNATURE 0x534d4150

	struct e820_info {
	u32 sign; /* "SMAP" signature */
	u32 x0; /* don't care, used by VxWorks */
	u32 x1; /* don't care, used by VxWorks */
	u32 x2; /* don't care, used by VxWorks */
	u32 addr; /* last e820 table entry addr */
	u32 x3; /* don't care, used by VxWorks */
	u32 entries; /* e820 table entry count */
	u32 error; /* must be zero */
	};

	/*
	* VxWorks bootloader stores its size at a pre-defined offset @ 0x5004.
	* Later when VxWorks kernel boots up and system memory information is
	* retrieved from the E820 table, the bootloader size will be subtracted
	* from the total system memory size to calculate the size of available
	* memory for the OS.
	*/
	#define BOOT_IMAGE_SIZE_OFFSET 0x5004

	/*
	* When booting from EFI BIOS, VxWorks bootloader stores the EFI GOP
	* framebuffer info at a pre-defined offset @ 0x6100. When VxWorks kernel
	* boots up, its EFI console driver tries to find such a block and if
	* the signature matches, the framebuffer information will be used to
	* initialize the driver.
	*
	* However it is not necessary to prepare an EFI environment for VxWorks's
	* EFI console driver to function (eg: EFI loader in U-Boot). If U-Boot has
	* already initialized the graphics card and set it to a VESA mode that is
	* compatible with EFI GOP, we can simply prepare such a block for VxWorks.
	*/
	#define EFI_GOP_INFO_OFFSET 0x6100

	/* EFI GOP info signatiure */
	#define EFI_GOP_INFO_MAGIC 0xfeedface

	struct efi_gop_info {
	u32 magic; /* signature */
	struct efi_gop_mode_info info; /* EFI GOP mode info structure */
	phys_addr_t fb_base; /* framebuffer base address */
	u32 fb_size; /* framebuffer size */
	};

	int do_bootvx(cmd_tbl_t cmdtp, int flag, int argc, char const argv[]);
	void boot_prep_vxworks(bootm_headers_t *images);
	void boot_jump_vxworks(bootm_headers_t *images);

	#endif