tools/kwbimage.h - platform/external/u-boot - Gitiles

 /* SPDX-License-Identifier: GPL-2.0+ */
 /*
  * (C) Copyright 2008
  * Marvell Semiconductor <www.marvell.com>
  * Written-by: Prafulla Wadaskar <prafulla@marvell.com>
  */

 #ifndef _KWBIMAGE_H_
 #define _KWBIMAGE_H_

 #include <compiler.h>
 #include <stdint.h>

 #ifdef __GNUC__
 #define __packed __attribute((packed))
 #else
 #define __packed
 #endif

 #define KWBIMAGE_MAX_CONFIG	((0x1dc - 0x20)/sizeof(struct reg_config))
 #define MAX_TEMPBUF_LEN		32

 /* NAND ECC Mode */
 #define IBR_HDR_ECC_DEFAULT		0x00
 #define IBR_HDR_ECC_FORCED_HAMMING	0x01
 #define IBR_HDR_ECC_FORCED_RS		0x02
 #define IBR_HDR_ECC_DISABLED		0x03

 /* Boot Type - block ID */
 #define IBR_HDR_I2C_ID			0x4D
 #define IBR_HDR_SPI_ID			0x5A
 #define IBR_HDR_NAND_ID			0x8B
 #define IBR_HDR_SATA_ID			0x78
 #define IBR_HDR_PEX_ID			0x9C
 #define IBR_HDR_UART_ID			0x69
 #define IBR_HDR_SDIO_ID			0xAE
 #define IBR_DEF_ATTRIB			0x00

 /* Structure of the main header, version 0 (Kirkwood, Dove) */
 struct main_hdr_v0 {
 	uint8_t  blockid;		/* 0x0       */
 	uint8_t  nandeccmode;		/* 0x1       */
 	uint16_t nandpagesize;		/* 0x2-0x3   */
 	uint32_t blocksize;		/* 0x4-0x7   */
 	uint8_t  version;		/* 0x8       */
 	uint8_t  rsvd1[3];		/* 0x9-0xB   */
 	uint32_t srcaddr;		/* 0xC-0xF   */
 	uint32_t destaddr;		/* 0x10-0x13 */
 	uint32_t execaddr;		/* 0x14-0x17 */
 	uint8_t  satapiomode;		/* 0x18      */
 	uint8_t  nandblocksize;		/* 0x19      */
 	union {
 	uint8_t  nandbadblklocation;    /* 0x1A      */
 	uint16_t ddrinitdelay;		/* 0x1A-0x1B */
 	};
 	uint8_t  rsvd2;			/* 0x1C      */
 	uint8_t  bin;			/* 0x1D      */
 	uint8_t  ext;			/* 0x1E      */
 	uint8_t  checksum;		/* 0x1F      */
 } __packed;

 struct ext_hdr_v0_reg {
 	uint32_t raddr;
 	uint32_t rdata;
 } __packed;

 /* Structure of the extension header, version 0 (Kirkwood, Dove) */
 struct ext_hdr_v0 {
 	/*
 	 * Beware that extension header offsets specified in 88AP510 Functional
 	 * Specifications are relative to the start of the main header, not to
 	 * the start of the extension header itself.
 	 */
 	uint32_t offset;		/* 0x0-0x3     */
 	uint8_t  rsvd1[8];		/* 0x4-0xB     */
 	uint32_t enddelay;		/* 0xC-0xF     */
 	uint32_t match_addr;		/* 0x10-0x13   */
 	uint32_t match_mask;		/* 0x14-0x17   */
 	uint32_t match_value;		/* 0x18-0x1B   */
 	uint8_t  ddrwritetype;		/* 0x1C        */
 	uint8_t  ddrresetmpp;		/* 0x1D        */
 	uint8_t  ddrclkenmpp;		/* 0x1E        */
 	uint8_t  ddrinitdelay;		/* 0x1F        */
 	struct ext_hdr_v0_reg rcfg[55]; /* 0x20-0x1D7  */
 	uint8_t  rsvd2[7];		/* 0x1D8-0x1DE */
 	uint8_t  checksum;		/* 0x1DF       */
 } __packed;

 /* Structure of the binary code header, version 0 (Dove) */
 struct bin_hdr_v0 {
 	uint32_t match_addr;		/* 0x00-0x03  */
 	uint32_t match_mask;		/* 0x04-0x07  */
 	uint32_t match_value;		/* 0x08-0x0B  */
 	uint32_t offset;		/* 0x0C-0x0F  */
 	uint32_t destaddr;		/* 0x10-0x13  */
 	uint32_t size;			/* 0x14-0x17  */
 	uint32_t execaddr;		/* 0x18-0x1B  */
 	uint32_t params[4];		/* 0x1C-0x2B  */
 	uint8_t  params_flags;		/* 0x2C       */
 	uint8_t  rsvd1;			/* 0x2D       */
 	uint8_t  rsvd2;			/* 0x2E       */
 	uint8_t  checksum;		/* 0x2F       */
 	uint8_t  code[2000];		/* 0x30-0x7FF */
 } __packed;

 /* Structure of the main header, version 1 (Armada 370/XP/375/38x/39x) */
 struct main_hdr_v1 {
 	uint8_t  blockid;               /* 0x0       */
 	uint8_t  flags;                 /* 0x1       */
 	uint16_t nandpagesize;          /* 0x2-0x3   */
 	uint32_t blocksize;             /* 0x4-0x7   */
 	uint8_t  version;               /* 0x8       */
 	uint8_t  headersz_msb;          /* 0x9       */
 	uint16_t headersz_lsb;          /* 0xA-0xB   */
 	uint32_t srcaddr;               /* 0xC-0xF   */
 	uint32_t destaddr;              /* 0x10-0x13 */
 	uint32_t execaddr;              /* 0x14-0x17 */
 	uint8_t  options;               /* 0x18      */
 	uint8_t  nandblocksize;         /* 0x19      */
 	uint8_t  nandbadblklocation;    /* 0x1A      */
 	uint8_t  reserved4;             /* 0x1B      */
 	uint16_t reserved5;             /* 0x1C-0x1D */
 	uint8_t  ext;                   /* 0x1E      */
 	uint8_t  checksum;              /* 0x1F      */
 } __packed;

 /*
  * Main header options
  */
 #define MAIN_HDR_V1_OPT_BAUD_DEFAULT	0
 #define MAIN_HDR_V1_OPT_BAUD_2400	0x1
 #define MAIN_HDR_V1_OPT_BAUD_4800	0x2
 #define MAIN_HDR_V1_OPT_BAUD_9600	0x3
 #define MAIN_HDR_V1_OPT_BAUD_19200	0x4
 #define MAIN_HDR_V1_OPT_BAUD_38400	0x5
 #define MAIN_HDR_V1_OPT_BAUD_57600	0x6
 #define MAIN_HDR_V1_OPT_BAUD_115200	0x7

 /*
  * Header for the optional headers, version 1 (Armada 370/XP/375/38x/39x)
  */
 struct opt_hdr_v1 {
 	uint8_t  headertype;
 	uint8_t  headersz_msb;
 	uint16_t headersz_lsb;
 	char     data[0];
 } __packed;

 /*
  * Public Key data in DER format
  */
 struct pubkey_der_v1 {
 	uint8_t key[524];
 } __packed;

 /*
  * Signature (RSA 2048)
  */
 struct sig_v1 {
 	uint8_t sig[256];
 } __packed;

 /*
  * Structure of secure header (Armada XP/375/38x/39x)
  */
 struct secure_hdr_v1 {
 	uint8_t  headertype;		/* 0x0 */
 	uint8_t  headersz_msb;		/* 0x1 */
 	uint16_t headersz_lsb;		/* 0x2 - 0x3 */
 	uint32_t reserved1;		/* 0x4 - 0x7 */
 	struct pubkey_der_v1 kak;	/* 0x8 - 0x213 */
 	uint8_t  jtag_delay;		/* 0x214 */
 	uint8_t  reserved2;		/* 0x215 */
 	uint16_t reserved3;		/* 0x216 - 0x217 */
 	uint32_t boxid;			/* 0x218 - 0x21B */
 	uint32_t flashid;		/* 0x21C - 0x21F */
 	struct sig_v1 hdrsig;		/* 0x220 - 0x31F */
 	struct sig_v1 imgsig;		/* 0x320 - 0x41F */
 	struct pubkey_der_v1 csk[16];	/* 0x420 - 0x24DF */
 	struct sig_v1 csksig;		/* 0x24E0 - 0x25DF */
 	uint8_t  next;			/* 0x25E0 */
 	uint8_t  reserved4;		/* 0x25E1 */
 	uint16_t reserved5;		/* 0x25E2 - 0x25E3 */
 } __packed;

 /*
  * Structure of register set
  */
 struct register_set_hdr_v1 {
 	uint8_t  headertype;		/* 0x0 */
 	uint8_t  headersz_msb;		/* 0x1 */
 	uint16_t headersz_lsb;		/* 0x2 - 0x3 */
 	union {
 		struct {
 			uint32_t address;	/* 0x4+8*N - 0x7+8*N */
 			uint32_t value;		/* 0x8+8*N - 0xB+8*N */
 		} __packed entry;
 		struct {
 			uint8_t  next;		/* 0xC+8*N */
 			uint8_t  delay;		/* 0xD+8*N */
 			uint16_t reserved;	/* 0xE+8*N - 0xF+8*N */
 		} __packed last_entry;
 	} data[];
 } __packed;

 /*
  * Value 0 in register_set_hdr_v1 delay field is special.
  * Instead of delay it setup SDRAM Controller.
  */
 #define REGISTER_SET_HDR_OPT_DELAY_SDRAM_SETUP 0
 #define REGISTER_SET_HDR_OPT_DELAY_MS(val) ((val) ?: 1)

 /*
  * Various values for the opt_hdr_v1->headertype field, describing the
  * different types of optional headers. The "secure" header contains
  * informations related to secure boot (encryption keys, etc.). The
  * "binary" header contains ARM binary code to be executed prior to
  * executing the main payload (usually the bootloader). This is
  * typically used to execute DDR3 training code. The "register" header
  * allows to describe a set of (address, value) tuples that are
  * generally used to configure the DRAM controller.
  */
 #define OPT_HDR_V1_SECURE_TYPE   0x1
 #define OPT_HDR_V1_BINARY_TYPE   0x2
 #define OPT_HDR_V1_REGISTER_TYPE 0x3

 /*
  * Byte 8 of the image header contains the version number. In the v0
  * header, byte 8 was reserved, and always set to 0. In the v1 header,
  * byte 8 has been changed to a proper field, set to 1.
  */
 static inline unsigned int kwbimage_version(const void *header)
 {
 	const unsigned char *ptr = header;
 	return ptr[8];
 }

 static inline size_t kwbheader_size(const void *header)
 {
 	if (kwbimage_version(header) == 0) {
 		const struct main_hdr_v0 *hdr = header;

 		/*
 		 * First extension header starts immediately after the main
 		 * header without any padding. Between extension headers is
 		 * 0x20 byte padding. There is no padding after the last
 		 * extension header. First binary code header starts immediately
 		 * after the last extension header (or immediately after the
 		 * main header if there is no extension header) without any
 		 * padding. There is no padding between binary code headers and
 		 * neither after the last binary code header.
 		 */
 		return sizeof(*hdr) +
 		       hdr->ext * sizeof(struct ext_hdr_v0) +
 		       ((hdr->ext > 1) ? ((hdr->ext - 1) * 0x20) : 0) +
 		       hdr->bin * sizeof(struct bin_hdr_v0);
 	} else {
 		const struct main_hdr_v1 *hdr = header;

 		return (hdr->headersz_msb << 16) |
 		       le16_to_cpu(hdr->headersz_lsb);
 	}
 }

 static inline size_t kwbheader_size_for_csum(const void *header)
 {
 	if (kwbimage_version(header) == 0)
 		return sizeof(struct main_hdr_v0);
 	else
 		return kwbheader_size(header);
 }

 static inline struct ext_hdr_v0 *ext_hdr_v0_first(void *img)
 {
 	struct main_hdr_v0 *mhdr;

 	if (kwbimage_version(img) != 0)
 		return NULL;

 	mhdr = img;
 	if (mhdr->ext)
 		return (struct ext_hdr_v0 *)(mhdr + 1);
 	else
 		return NULL;
 }

 static inline void *_ext_hdr_v0_end(struct main_hdr_v0 *mhdr)
 {
 	return (uint8_t *)mhdr + kwbheader_size(mhdr) - mhdr->bin * sizeof(struct bin_hdr_v0);
 }

 static inline struct ext_hdr_v0 *ext_hdr_v0_next(void *img, struct ext_hdr_v0 *cur)
 {
 	if ((void *)(cur + 1) < _ext_hdr_v0_end(img))
 		return (struct ext_hdr_v0 *)((uint8_t *)(cur + 1) + 0x20);
 	else
 		return NULL;
 }

 #define for_each_ext_hdr_v0(ehdr, img)			\
 	for ((ehdr) = ext_hdr_v0_first((img));		\
 	     (ehdr) != NULL;				\
 	     (ehdr) = ext_hdr_v0_next((img), (ehdr)))

 static inline struct bin_hdr_v0 *bin_hdr_v0_first(void *img)
 {
 	struct main_hdr_v0 *mhdr;

 	if (kwbimage_version(img) != 0)
 		return NULL;

 	mhdr = img;
 	if (mhdr->bin)
 		return _ext_hdr_v0_end(mhdr);
 	else
 		return NULL;
 }

 #define for_each_bin_hdr_v0(bhdr, img)							\
 	for ((bhdr) = bin_hdr_v0_first((img));						\
 	     (bhdr) && (void *)(bhdr) < (void *)((uint8_t *)img + kwbheader_size(img));	\
 	     (bhdr) = (struct bin_hdr_v0 *)((bhdr))+1)

 static inline uint32_t opt_hdr_v1_size(const struct opt_hdr_v1 *ohdr)
 {
 	return (ohdr->headersz_msb << 16) | le16_to_cpu(ohdr->headersz_lsb);
 }

 static inline int opt_hdr_v1_valid_size(const struct opt_hdr_v1 *ohdr,
 					const void *mhdr_end)
 {
 	uint32_t ohdr_size;

 	if ((const void *)(ohdr + 1) > mhdr_end)
 		return 0;

 	ohdr_size = opt_hdr_v1_size(ohdr);
 	if (ohdr_size < 8 || (const void *)((const uint8_t *)ohdr + ohdr_size) > mhdr_end)
 		return 0;

 	return 1;
 }

 static inline struct opt_hdr_v1 *opt_hdr_v1_first(void *img) {
 	struct main_hdr_v1 *mhdr;

 	if (kwbimage_version(img) != 1)
 		return NULL;

 	mhdr = img;
 	if (mhdr->ext)
 		return (struct opt_hdr_v1 *)(mhdr + 1);
 	else
 		return NULL;
 }

 static inline uint8_t *opt_hdr_v1_ext(struct opt_hdr_v1 *cur)
 {
 	uint32_t size = opt_hdr_v1_size(cur);

 	return (uint8_t *)cur + size - 4;
 }

 static inline struct opt_hdr_v1 *_opt_hdr_v1_next(struct opt_hdr_v1 *cur)
 {
 	return (struct opt_hdr_v1 *)((uint8_t *)cur + opt_hdr_v1_size(cur));
 }

 static inline struct opt_hdr_v1 *opt_hdr_v1_next(struct opt_hdr_v1 *cur)
 {
 	if (*opt_hdr_v1_ext(cur))
 		return _opt_hdr_v1_next(cur);
 	else
 		return NULL;
 }

 #define for_each_opt_hdr_v1(ohdr, img)		\
 	for ((ohdr) = opt_hdr_v1_first((img));	\
 	     (ohdr) != NULL;			\
 	     (ohdr) = opt_hdr_v1_next((ohdr)))

 #endif /* _KWBIMAGE_H_ */
	/* SPDX-License-Identifier: GPL-2.0+ */
	/*
	* (C) Copyright 2008
	* Marvell Semiconductor <www.marvell.com>
	* Written-by: Prafulla Wadaskar <prafulla@marvell.com>
	*/

	#ifndef _KWBIMAGE_H_
	#define _KWBIMAGE_H_

	#include <compiler.h>
	#include <stdint.h>

	#ifdef __GNUC__
	#define __packed __attribute((packed))
	#else
	#define __packed
	#endif

	#define KWBIMAGE_MAX_CONFIG ((0x1dc - 0x20)/sizeof(struct reg_config))
	#define MAX_TEMPBUF_LEN 32

	/* NAND ECC Mode */
	#define IBR_HDR_ECC_DEFAULT 0x00
	#define IBR_HDR_ECC_FORCED_HAMMING 0x01
	#define IBR_HDR_ECC_FORCED_RS 0x02
	#define IBR_HDR_ECC_DISABLED 0x03

	/* Boot Type - block ID */
	#define IBR_HDR_I2C_ID 0x4D
	#define IBR_HDR_SPI_ID 0x5A
	#define IBR_HDR_NAND_ID 0x8B
	#define IBR_HDR_SATA_ID 0x78
	#define IBR_HDR_PEX_ID 0x9C
	#define IBR_HDR_UART_ID 0x69
	#define IBR_HDR_SDIO_ID 0xAE
	#define IBR_DEF_ATTRIB 0x00

	/* Structure of the main header, version 0 (Kirkwood, Dove) */
	struct main_hdr_v0 {
	uint8_t blockid; /* 0x0 */
	uint8_t nandeccmode; /* 0x1 */
	uint16_t nandpagesize; /* 0x2-0x3 */
	uint32_t blocksize; /* 0x4-0x7 */
	uint8_t version; /* 0x8 */
	uint8_t rsvd1[3]; /* 0x9-0xB */
	uint32_t srcaddr; /* 0xC-0xF */
	uint32_t destaddr; /* 0x10-0x13 */
	uint32_t execaddr; /* 0x14-0x17 */
	uint8_t satapiomode; /* 0x18 */
	uint8_t nandblocksize; /* 0x19 */
	union {
	uint8_t nandbadblklocation; /* 0x1A */
	uint16_t ddrinitdelay; /* 0x1A-0x1B */
	};
	uint8_t rsvd2; /* 0x1C */
	uint8_t bin; /* 0x1D */
	uint8_t ext; /* 0x1E */
	uint8_t checksum; /* 0x1F */
	} __packed;

	struct ext_hdr_v0_reg {
	uint32_t raddr;
	uint32_t rdata;
	} __packed;

	/* Structure of the extension header, version 0 (Kirkwood, Dove) */
	struct ext_hdr_v0 {
	/*
	* Beware that extension header offsets specified in 88AP510 Functional
	* Specifications are relative to the start of the main header, not to
	* the start of the extension header itself.
	*/
	uint32_t offset; /* 0x0-0x3 */
	uint8_t rsvd1[8]; /* 0x4-0xB */
	uint32_t enddelay; /* 0xC-0xF */
	uint32_t match_addr; /* 0x10-0x13 */
	uint32_t match_mask; /* 0x14-0x17 */
	uint32_t match_value; /* 0x18-0x1B */
	uint8_t ddrwritetype; /* 0x1C */
	uint8_t ddrresetmpp; /* 0x1D */
	uint8_t ddrclkenmpp; /* 0x1E */
	uint8_t ddrinitdelay; /* 0x1F */
	struct ext_hdr_v0_reg rcfg[55]; /* 0x20-0x1D7 */
	uint8_t rsvd2[7]; /* 0x1D8-0x1DE */
	uint8_t checksum; /* 0x1DF */
	} __packed;

	/* Structure of the binary code header, version 0 (Dove) */
	struct bin_hdr_v0 {
	uint32_t match_addr; /* 0x00-0x03 */
	uint32_t match_mask; /* 0x04-0x07 */
	uint32_t match_value; /* 0x08-0x0B */
	uint32_t offset; /* 0x0C-0x0F */
	uint32_t destaddr; /* 0x10-0x13 */
	uint32_t size; /* 0x14-0x17 */
	uint32_t execaddr; /* 0x18-0x1B */
	uint32_t params[4]; /* 0x1C-0x2B */
	uint8_t params_flags; /* 0x2C */
	uint8_t rsvd1; /* 0x2D */
	uint8_t rsvd2; /* 0x2E */
	uint8_t checksum; /* 0x2F */
	uint8_t code[2000]; /* 0x30-0x7FF */
	} __packed;

	/* Structure of the main header, version 1 (Armada 370/XP/375/38x/39x) */
	struct main_hdr_v1 {
	uint8_t blockid; /* 0x0 */
	uint8_t flags; /* 0x1 */
	uint16_t nandpagesize; /* 0x2-0x3 */
	uint32_t blocksize; /* 0x4-0x7 */
	uint8_t version; /* 0x8 */
	uint8_t headersz_msb; /* 0x9 */
	uint16_t headersz_lsb; /* 0xA-0xB */
	uint32_t srcaddr; /* 0xC-0xF */
	uint32_t destaddr; /* 0x10-0x13 */
	uint32_t execaddr; /* 0x14-0x17 */
	uint8_t options; /* 0x18 */
	uint8_t nandblocksize; /* 0x19 */
	uint8_t nandbadblklocation; /* 0x1A */
	uint8_t reserved4; /* 0x1B */
	uint16_t reserved5; /* 0x1C-0x1D */
	uint8_t ext; /* 0x1E */
	uint8_t checksum; /* 0x1F */
	} __packed;

	/*
	* Main header options
	*/
	#define MAIN_HDR_V1_OPT_BAUD_DEFAULT 0
	#define MAIN_HDR_V1_OPT_BAUD_2400 0x1
	#define MAIN_HDR_V1_OPT_BAUD_4800 0x2
	#define MAIN_HDR_V1_OPT_BAUD_9600 0x3
	#define MAIN_HDR_V1_OPT_BAUD_19200 0x4
	#define MAIN_HDR_V1_OPT_BAUD_38400 0x5
	#define MAIN_HDR_V1_OPT_BAUD_57600 0x6
	#define MAIN_HDR_V1_OPT_BAUD_115200 0x7

	/*
	* Header for the optional headers, version 1 (Armada 370/XP/375/38x/39x)
	*/
	struct opt_hdr_v1 {
	uint8_t headertype;
	uint8_t headersz_msb;
	uint16_t headersz_lsb;
	char data[0];
	} __packed;

	/*
	* Public Key data in DER format
	*/
	struct pubkey_der_v1 {
	uint8_t key[524];
	} __packed;

	/*
	* Signature (RSA 2048)
	*/
	struct sig_v1 {
	uint8_t sig[256];
	} __packed;

	/*
	* Structure of secure header (Armada XP/375/38x/39x)
	*/
	struct secure_hdr_v1 {
	uint8_t headertype; /* 0x0 */
	uint8_t headersz_msb; /* 0x1 */
	uint16_t headersz_lsb; /* 0x2 - 0x3 */
	uint32_t reserved1; /* 0x4 - 0x7 */
	struct pubkey_der_v1 kak; /* 0x8 - 0x213 */
	uint8_t jtag_delay; /* 0x214 */
	uint8_t reserved2; /* 0x215 */
	uint16_t reserved3; /* 0x216 - 0x217 */
	uint32_t boxid; /* 0x218 - 0x21B */
	uint32_t flashid; /* 0x21C - 0x21F */
	struct sig_v1 hdrsig; /* 0x220 - 0x31F */
	struct sig_v1 imgsig; /* 0x320 - 0x41F */
	struct pubkey_der_v1 csk[16]; /* 0x420 - 0x24DF */
	struct sig_v1 csksig; /* 0x24E0 - 0x25DF */
	uint8_t next; /* 0x25E0 */
	uint8_t reserved4; /* 0x25E1 */
	uint16_t reserved5; /* 0x25E2 - 0x25E3 */
	} __packed;

	/*
	* Structure of register set
	*/
	struct register_set_hdr_v1 {
	uint8_t headertype; /* 0x0 */
	uint8_t headersz_msb; /* 0x1 */
	uint16_t headersz_lsb; /* 0x2 - 0x3 */
	union {
	struct {
	uint32_t address; /* 0x4+8N - 0x7+8N */
	uint32_t value; /* 0x8+8N - 0xB+8N */
	} __packed entry;
	struct {
	uint8_t next; /* 0xC+8N /
	uint8_t delay; /* 0xD+8N /
	uint16_t reserved; /* 0xE+8N - 0xF+8N */
	} __packed last_entry;
	} data[];
	} __packed;

	/*
	* Value 0 in register_set_hdr_v1 delay field is special.
	* Instead of delay it setup SDRAM Controller.
	*/
	#define REGISTER_SET_HDR_OPT_DELAY_SDRAM_SETUP 0
	#define REGISTER_SET_HDR_OPT_DELAY_MS(val) ((val) ?: 1)

	/*
	* Various values for the opt_hdr_v1->headertype field, describing the
	* different types of optional headers. The "secure" header contains
	* informations related to secure boot (encryption keys, etc.). The
	* "binary" header contains ARM binary code to be executed prior to
	* executing the main payload (usually the bootloader). This is
	* typically used to execute DDR3 training code. The "register" header
	* allows to describe a set of (address, value) tuples that are
	* generally used to configure the DRAM controller.
	*/
	#define OPT_HDR_V1_SECURE_TYPE 0x1
	#define OPT_HDR_V1_BINARY_TYPE 0x2
	#define OPT_HDR_V1_REGISTER_TYPE 0x3

	/*
	* Byte 8 of the image header contains the version number. In the v0
	* header, byte 8 was reserved, and always set to 0. In the v1 header,
	* byte 8 has been changed to a proper field, set to 1.
	*/
	static inline unsigned int kwbimage_version(const void *header)
	{
	const unsigned char *ptr = header;
	return ptr[8];
	}

	static inline size_t kwbheader_size(const void *header)
	{
	if (kwbimage_version(header) == 0) {
	const struct main_hdr_v0 *hdr = header;

	/*
	* First extension header starts immediately after the main
	* header without any padding. Between extension headers is
	* 0x20 byte padding. There is no padding after the last
	* extension header. First binary code header starts immediately
	* after the last extension header (or immediately after the
	* main header if there is no extension header) without any
	* padding. There is no padding between binary code headers and
	* neither after the last binary code header.
	*/
	return sizeof(*hdr) +
	hdr->ext * sizeof(struct ext_hdr_v0) +
	((hdr->ext > 1) ? ((hdr->ext - 1) * 0x20) : 0) +
	hdr->bin * sizeof(struct bin_hdr_v0);
	} else {
	const struct main_hdr_v1 *hdr = header;

	return (hdr->headersz_msb << 16) \|
	le16_to_cpu(hdr->headersz_lsb);
	}
	}

	static inline size_t kwbheader_size_for_csum(const void *header)
	{
	if (kwbimage_version(header) == 0)
	return sizeof(struct main_hdr_v0);
	else
	return kwbheader_size(header);
	}

	static inline struct ext_hdr_v0 ext_hdr_v0_first(void img)
	{
	struct main_hdr_v0 *mhdr;

	if (kwbimage_version(img) != 0)
	return NULL;

	mhdr = img;
	if (mhdr->ext)
	return (struct ext_hdr_v0 *)(mhdr + 1);
	else
	return NULL;
	}

	static inline void _ext_hdr_v0_end(struct main_hdr_v0 mhdr)
	{
	return (uint8_t )mhdr + kwbheader_size(mhdr) - mhdr->bin sizeof(struct bin_hdr_v0);
	}

	static inline struct ext_hdr_v0 ext_hdr_v0_next(void img, struct ext_hdr_v0 *cur)
	{
	if ((void *)(cur + 1) < _ext_hdr_v0_end(img))
	return (struct ext_hdr_v0 )((uint8_t )(cur + 1) + 0x20);
	else
	return NULL;
	}

	#define for_each_ext_hdr_v0(ehdr, img) \
	for ((ehdr) = ext_hdr_v0_first((img)); \
	(ehdr) != NULL; \
	(ehdr) = ext_hdr_v0_next((img), (ehdr)))

	static inline struct bin_hdr_v0 bin_hdr_v0_first(void img)
	{
	struct main_hdr_v0 *mhdr;

	if (kwbimage_version(img) != 0)
	return NULL;

	mhdr = img;
	if (mhdr->bin)
	return _ext_hdr_v0_end(mhdr);
	else
	return NULL;
	}

	#define for_each_bin_hdr_v0(bhdr, img) \
	for ((bhdr) = bin_hdr_v0_first((img)); \
	(bhdr) && (void )(bhdr) < (void )((uint8_t *)img + kwbheader_size(img)); \
	(bhdr) = (struct bin_hdr_v0 *)((bhdr))+1)

	static inline uint32_t opt_hdr_v1_size(const struct opt_hdr_v1 *ohdr)
	{
	return (ohdr->headersz_msb << 16) \| le16_to_cpu(ohdr->headersz_lsb);
	}

	static inline int opt_hdr_v1_valid_size(const struct opt_hdr_v1 *ohdr,
	const void *mhdr_end)
	{
	uint32_t ohdr_size;

	if ((const void *)(ohdr + 1) > mhdr_end)
	return 0;

	ohdr_size = opt_hdr_v1_size(ohdr);
	if (ohdr_size < 8 \|\| (const void )((const uint8_t )ohdr + ohdr_size) > mhdr_end)
	return 0;

	return 1;
	}

	static inline struct opt_hdr_v1 opt_hdr_v1_first(void img) {
	struct main_hdr_v1 *mhdr;

	if (kwbimage_version(img) != 1)
	return NULL;

	mhdr = img;
	if (mhdr->ext)
	return (struct opt_hdr_v1 *)(mhdr + 1);
	else
	return NULL;
	}

	static inline uint8_t opt_hdr_v1_ext(struct opt_hdr_v1 cur)
	{
	uint32_t size = opt_hdr_v1_size(cur);

	return (uint8_t *)cur + size - 4;
	}

	static inline struct opt_hdr_v1 _opt_hdr_v1_next(struct opt_hdr_v1 cur)
	{
	return (struct opt_hdr_v1 )((uint8_t )cur + opt_hdr_v1_size(cur));
	}

	static inline struct opt_hdr_v1 opt_hdr_v1_next(struct opt_hdr_v1 cur)
	{
	if (*opt_hdr_v1_ext(cur))
	return _opt_hdr_v1_next(cur);
	else
	return NULL;
	}

	#define for_each_opt_hdr_v1(ohdr, img) \
	for ((ohdr) = opt_hdr_v1_first((img)); \
	(ohdr) != NULL; \
	(ohdr) = opt_hdr_v1_next((ohdr)))

	#endif /* _KWBIMAGE_H_ */