include/asm-v850/flat.h - linux/kernel/git/davem/net-next - Git at Google

 /*
  * include/asm-v850/flat.h -- uClinux flat-format executables
  *
  *  Copyright (C) 2002,03  NEC Electronics Corporation
  *  Copyright (C) 2002,03  Miles Bader <miles@gnu.org>
  *
  * This file is subject to the terms and conditions of the GNU General
  * Public License.  See the file COPYING in the main directory of this
  * archive for more details.
  *
  * Written by Miles Bader <miles@gnu.org>
  */

 #ifndef __V850_FLAT_H__
 #define __V850_FLAT_H__

 /* The amount by which a relocation can exceed the program image limits
    without being regarded as an error.  On the v850, the relocations of
    some base-pointers can be offset by 0x8000 (to allow better usage of the
    space offered by 16-bit signed offsets -- in most cases the offsets used
    with such a base-pointer will be negative).  */

 #define	flat_reloc_valid(reloc, size)	((reloc) <= (size + 0x8000))

 #define	flat_stack_align(sp)		/* nothing needed */
 #define	flat_argvp_envp_on_stack()	0
 #define	flat_old_ram_flag(flags)	(flags)
 #define	flat_set_persistent(relval, p)	0

 /* We store the type of relocation in the top 4 bits of the `relval.' */

 /* Convert a relocation entry into an address.  */
 static inline unsigned long
 flat_get_relocate_addr (unsigned long relval)
 {
 	return relval & 0x0fffffff; /* Mask out top 4-bits */
 }

 #define flat_v850_get_reloc_type(relval) ((relval) >> 28)

 #define FLAT_V850_R_32		0 /* Normal 32-bit reloc */
 #define FLAT_V850_R_HI16S_LO15	1 /* High 16-bits + signed 15-bit low field */
 #define FLAT_V850_R_HI16S_LO16	2 /* High 16-bits + signed 16-bit low field */

 /* Extract the address to be relocated from the symbol reference at RP;
    RELVAL is the raw relocation-table entry from which RP is derived.
    For the v850, RP should always be half-word aligned.  */
 static inline unsigned long flat_get_addr_from_rp (unsigned long *rp,
 						   unsigned long relval,
 						   unsigned long flags,
 						   unsigned long *persistent)
 {
 	short *srp = (short *)rp;

 	switch (flat_v850_get_reloc_type (relval))
 	{
 	case FLAT_V850_R_32:
 		/* Simple 32-bit address.  */
 		return srp[0] | (srp[1] << 16);

 	case FLAT_V850_R_HI16S_LO16:
 		/* The high and low halves of the address are in the 16
 		   bits at RP, and the 2nd word of the 32-bit instruction
 		   following that, respectively.  The low half is _signed_
 		   so we have to sign-extend it and add it to the upper
 		   half instead of simply or-ing them together.

 		   Unlike most relocated address, this one is stored in
 		   native (little-endian) byte-order to avoid problems with
 		   trashing the low-order bit, so we have to convert to
 		   network-byte-order before returning, as that's what the
 		   caller expects.  */
 		return htonl ((srp[0] << 16) + srp[2]);

 	case FLAT_V850_R_HI16S_LO15:
 		/* The high and low halves of the address are in the 16
 		   bits at RP, and the upper 15 bits of the 2nd word of the
 		   32-bit instruction following that, respectively.  The
 		   low half is _signed_ so we have to sign-extend it and
 		   add it to the upper half instead of simply or-ing them
 		   together.  The lowest bit is always zero.

 		   Unlike most relocated address, this one is stored in
 		   native (little-endian) byte-order to avoid problems with
 		   trashing the low-order bit, so we have to convert to
 		   network-byte-order before returning, as that's what the
 		   caller expects.  */
 		return htonl ((srp[0] << 16) + (srp[2] & ~0x1));

 	default:
 		return ~0;	/* bogus value */
 	}
 }

 /* Insert the address ADDR into the symbol reference at RP;
    RELVAL is the raw relocation-table entry from which RP is derived.
    For the v850, RP should always be half-word aligned.  */
 static inline void flat_put_addr_at_rp (unsigned long *rp, unsigned long addr,
 					unsigned long relval)
 {
 	short *srp = (short *)rp;

 	switch (flat_v850_get_reloc_type (relval)) {
 	case FLAT_V850_R_32:
 		/* Simple 32-bit address.  */
 		srp[0] = addr & 0xFFFF;
 		srp[1] = (addr >> 16);
 		break;

 	case FLAT_V850_R_HI16S_LO16:
 		/* The high and low halves of the address are in the 16
 		   bits at RP, and the 2nd word of the 32-bit instruction
 		   following that, respectively.  The low half is _signed_
 		   so we must carry its sign bit to the upper half before
 		   writing the upper half.  */
 		srp[0] = (addr >> 16) + ((addr >> 15) & 0x1);
 		srp[2] = addr & 0xFFFF;
 		break;

 	case FLAT_V850_R_HI16S_LO15:
 		/* The high and low halves of the address are in the 16
 		   bits at RP, and the upper 15 bits of the 2nd word of the
 		   32-bit instruction following that, respectively.  The
 		   low half is _signed_ so we must carry its sign bit to
 		   the upper half before writing the upper half.  The
 		   lowest bit we preserve from the existing instruction.  */
 		srp[0] = (addr >> 16) + ((addr >> 15) & 0x1);
 		srp[2] = (addr & 0xFFFE) | (srp[2] & 0x1);
 		break;
 	}
 }

 #endif /* __V850_FLAT_H__ */
	/*
	* include/asm-v850/flat.h -- uClinux flat-format executables
	*
	* Copyright (C) 2002,03 NEC Electronics Corporation
	* Copyright (C) 2002,03 Miles Bader <miles@gnu.org>
	*
	* This file is subject to the terms and conditions of the GNU General
	* Public License. See the file COPYING in the main directory of this
	* archive for more details.
	*
	* Written by Miles Bader <miles@gnu.org>
	*/

	#ifndef __V850_FLAT_H__
	#define __V850_FLAT_H__

	/* The amount by which a relocation can exceed the program image limits
	without being regarded as an error. On the v850, the relocations of
	some base-pointers can be offset by 0x8000 (to allow better usage of the
	space offered by 16-bit signed offsets -- in most cases the offsets used
	with such a base-pointer will be negative). */

	#define flat_reloc_valid(reloc, size) ((reloc) <= (size + 0x8000))

	#define flat_stack_align(sp) /* nothing needed */
	#define flat_argvp_envp_on_stack() 0
	#define flat_old_ram_flag(flags) (flags)
	#define flat_set_persistent(relval, p) 0

	/* We store the type of relocation in the top 4 bits of the `relval.' */

	/* Convert a relocation entry into an address. */
	static inline unsigned long
	flat_get_relocate_addr (unsigned long relval)
	{
	return relval & 0x0fffffff; /* Mask out top 4-bits */
	}

	#define flat_v850_get_reloc_type(relval) ((relval) >> 28)

	#define FLAT_V850_R_32 0 /* Normal 32-bit reloc */
	#define FLAT_V850_R_HI16S_LO15 1 /* High 16-bits + signed 15-bit low field */
	#define FLAT_V850_R_HI16S_LO16 2 /* High 16-bits + signed 16-bit low field */

	/* Extract the address to be relocated from the symbol reference at RP;
	RELVAL is the raw relocation-table entry from which RP is derived.
	For the v850, RP should always be half-word aligned. */
	static inline unsigned long flat_get_addr_from_rp (unsigned long *rp,
	unsigned long relval,
	unsigned long flags,
	unsigned long *persistent)
	{
	short srp = (short )rp;

	switch (flat_v850_get_reloc_type (relval))
	{
	case FLAT_V850_R_32:
	/* Simple 32-bit address. */
	return srp[0] \| (srp[1] << 16);

	case FLAT_V850_R_HI16S_LO16:
	/* The high and low halves of the address are in the 16
	bits at RP, and the 2nd word of the 32-bit instruction
	following that, respectively. The low half is _signed_
	so we have to sign-extend it and add it to the upper
	half instead of simply or-ing them together.

	Unlike most relocated address, this one is stored in
	native (little-endian) byte-order to avoid problems with
	trashing the low-order bit, so we have to convert to
	network-byte-order before returning, as that's what the
	caller expects. */
	return htonl ((srp[0] << 16) + srp[2]);

	case FLAT_V850_R_HI16S_LO15:
	/* The high and low halves of the address are in the 16
	bits at RP, and the upper 15 bits of the 2nd word of the
	32-bit instruction following that, respectively. The
	low half is _signed_ so we have to sign-extend it and
	add it to the upper half instead of simply or-ing them
	together. The lowest bit is always zero.

	Unlike most relocated address, this one is stored in
	native (little-endian) byte-order to avoid problems with
	trashing the low-order bit, so we have to convert to
	network-byte-order before returning, as that's what the
	caller expects. */
	return htonl ((srp[0] << 16) + (srp[2] & ~0x1));

	default:
	return ~0; /* bogus value */
	}
	}

	/* Insert the address ADDR into the symbol reference at RP;
	RELVAL is the raw relocation-table entry from which RP is derived.
	For the v850, RP should always be half-word aligned. */
	static inline void flat_put_addr_at_rp (unsigned long *rp, unsigned long addr,
	unsigned long relval)
	{
	short srp = (short )rp;

	switch (flat_v850_get_reloc_type (relval)) {
	case FLAT_V850_R_32:
	/* Simple 32-bit address. */
	srp[0] = addr & 0xFFFF;
	srp[1] = (addr >> 16);
	break;

	case FLAT_V850_R_HI16S_LO16:
	/* The high and low halves of the address are in the 16
	bits at RP, and the 2nd word of the 32-bit instruction
	following that, respectively. The low half is _signed_
	so we must carry its sign bit to the upper half before
	writing the upper half. */
	srp[0] = (addr >> 16) + ((addr >> 15) & 0x1);
	srp[2] = addr & 0xFFFF;
	break;

	case FLAT_V850_R_HI16S_LO15:
	/* The high and low halves of the address are in the 16
	bits at RP, and the upper 15 bits of the 2nd word of the
	32-bit instruction following that, respectively. The
	low half is _signed_ so we must carry its sign bit to
	the upper half before writing the upper half. The
	lowest bit we preserve from the existing instruction. */
	srp[0] = (addr >> 16) + ((addr >> 15) & 0x1);
	srp[2] = (addr & 0xFFFE) \| (srp[2] & 0x1);
	break;
	}
	}

	#endif /* __V850_FLAT_H__ */