versions/v1_4_0/mynewt-core/hw/mips-hal/src/arch/mips/m64tlb_ops.S - mynewt-documentation - Git at Google

 /*
  * Copyright 2015, Imagination Technologies Limited and/or its
  *                 affiliated group companies.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are met:
  *
  * 1. Redistributions of source code must retain the above copyright notice,
  * this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright notice,
  * this list of conditions and the following disclaimer in the documentation
  * and/or other materials provided with the distribution.
  * 3. Neither the name of the copyright holder nor the names of its
  * contributors may be used to endorse or promote products derived from this
  * software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
  * POSSIBILITY OF SUCH DAMAGE.
 */


 /*
  * m64tlb_ops.S: MIPS XPA TLB support functions
  *
  */

 .set nomips16
 #include <mips/m64tlb.h>
 #include <mips/asm.h>
 #include <mips/endian.h>

 #define PTR_XO32_MTC0(top, bot, reg)	\
 #if BYTE_ORDER == BIG_ENDIAN		\
 	mtc0	bot, reg; 		\
 	mthc0	top, reg; 		\
 #else					\
 	mtc0	top, reg;		\
 	mthc0	bot, reg;		\
 #endif

 #define PTR_XO32_MFC0(top, bot, reg)	\
 #if BYTE_ORDER == BIG_ENDIAN		\
 	mfc0	bot, reg; 		\
 	mfhc0	top, reg; 		\
 #else					\
 	mfc0	top, reg;		\
 	mfhc0	bot, reg;		\
 #endif

 #define PTR_XO32_MTC0(top, bot, reg)	\
 #if BYTE_ORDER == BIG_ENDIAN		\
 	mtc0	bot, reg; 		\
 	mthc0	top, reg; 		\
 #else					\
 	mtc0	top, reg;		\
 	mthc0	bot, reg;		\
 #endif

 #define PTR_XO32_MFC0(top, bot, reg)	\
 #if BYTE_ORDER == BIG_ENDIAN		\
 	mfc0	bot, reg; 		\
 	mfhc0	top, reg; 		\
 #else					\
 	mfc0	top, reg;		\
 	mfhc0	bot, reg;		\
 #endif

 /*
  * void m64_tlbwi2(tlbhi64_t hi, tlblo64_t lo0, tlblo64_t lo1, unsigned long long mask,
  *		   unsigned int index)
  *
  * Writes hi,lo0,lo1 and msk in to the TLB entry specified by index.
  *
  */
 LEAF(m64_tlbwi2)
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
 	PTR_XO32_MTC0(a2, a3, C0_ENTRYLO0)

 	PTR_L	t1, 20(sp)
 	PTR_L	t2, 16(sp)
 	PTR_XO32_MTC0(t2, t1, C0_ENTRYLO1)

 	PTR_L	t1, 28(sp)
 	PTR_L	t2, 24(sp)
 	PTR_XO32_MTC0(t2, t1, C0_PAGEMASK)

 	lw	ta0, 32(sp)
 #else /* _MIPS_SIM==N32 || _MIPS_SIM==N64 */
 	PTR_MTC0 a0, C0_ENTRYHI
 	PTR_MTC0 a1, C0_ENTRYLO0
 	PTR_MTC0 a2, C0_ENTRYLO1
 	PTR_MTC0 a3, C0_PAGEMASK
 #endif

 	mtc0	ta0, C0_INDEX
 	ehb			# mtc0, hazard barrier on tlbwi
 	tlbwi
 	.set	push
 	.set	noreorder
 	jr.hb	ra
 	nop
 	.set	pop

 END(m64_tlbwi2)

 /*
  * void m64_tlbwr2(tlbhi64_t hi, tlblo64_t lo0, tlblo64_t lo1, unsigned long long mask)
  *
  * Writes hi, lo0, lo1 and msk into the TLB entry specified by the
  * Random register.
  *
  */
 LEAF(m64_tlbwr2)
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
 	PTR_XO32_MTC0(a2, a3, C0_ENTRYLO0)

 	PTR_L	t1, 20(sp)
 	PTR_L	t2, 16(sp)
 	PTR_XO32_MTC0(t2, t1, C0_ENTRYLO1)

 	PTR_L	t1, 28(sp)
 	PTR_L	t2, 24(sp)
 	PTR_XO32_MTC0(t2, t1, C0_PAGEMASK)
 #else
 	PTR_MTC0 a0, C0_ENTRYHI
 	PTR_MTC0 a1, C0_ENTRYLO0
 	PTR_MTC0 a2, C0_ENTRYLO1
 	PTR_MTC0 a3, C0_PAGEMASK
 #endif
 	ehb
 	tlbwr
 	.set	push
 	.set	noreorder
 	jr.hb	ra
 	nop
 	.set	pop

 END(m64_tlbwr2)

 /*
  * int m64_tlbrwr2(tlbhi64_t hi, tlblo64_t lo0, tlblo64_t lo1, unsigned long long mask)
  *
  * Probes the TLB for an entry matching hi and if present rewrites that
  * entry, otherwise updates a random entry. A safe way to update the TLB.
  *
  */
 LEAF(m64_tlbrwr2)
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MFC0(t1, t0, C0_ENTRYHI)
 	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MFC0 t0, C0_ENTRYHI
 	PTR_MTC0 a0, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */
 	ehb		# MTCO, hazard on tlbp

 	tlbp
 	ehb		# tlbp, hazard on MFCO $index

 	mfc0	v0, C0_INDEX
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(a2, a3, C0_ENTRYLO0)

 	PTR_L	t2, 20(sp)
 	PTR_L	t3, 16(sp)
 	PTR_XO32_MTC0(t3, t2, C0_ENTRYLO1)

 	PTR_L	t2, 28(sp)
 	PTR_L	t3, 24(sp)
 	PTR_XO32_MTC0(t3, t2, C0_PAGEMASK)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MTC0 a1, C0_ENTRYLO0
 	PTR_MTC0 a2, C0_ENTRYLO1
 	PTR_MTC0 a3, C0_PAGEMASK
 #endif /* _MIPS_SIM==_ABIO32 */
 	ehb		# mtc0, hazard on tlbwi
 	bltz	v0, 1f	# no matching entry

 	tlbwi
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(t1, t0, C0_ENTRYHI)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MTC0 t0, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */
 	.set	push
 	.set	noreorder
 	jr.hb	ra
 	nop
 	.set	pop

 1:	tlbwr
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(t1, t0, C0_ENTRYHI)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MTC0 t0, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */
 	.set	push
 	.set	noreorder
 	jr.hb	ra
 	nop
 	.set	pop

 END(m64_tlbrwr2)

 /*
  * void m64_tlbri2(tlbhi64_t *phi, tlblo64_t *plo0, tlblo64_t *plo1,
  *		   unsigned long long * mask, unsigned int index)
  *
  * Reads the TLB entry with specified by index, and returns the EntryHi, EntryLo0,
  * EntryLo1 and PageMask parts in *phi, *plo0, *plo1 and *pmsk respectively.
  *
  */
 LEAF(m64_tlbri2)
 #if _MIPS_SIM==_ABIO32
 	PTR_L   ta0, 16(sp)	# index
 #endif /* _MIPS_SIM==_ABIO32 */
 	mtc0	ta0, C0_INDEX
 	ehb			# mtc0, hazard on tlbr

 	tlbr
 	ehb			# tlbr, hazard on entry*, pagemask
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MFC0(t0, t1, C0_ENTRYHI)
 	PTR_XO32_MFC0(t2, t3, C0_ENTRYLO0)
 	PTR_XO32_MFC0(t4, t5, C0_ENTRYLO1)
 	PTR_XO32_MFC0(t6, t7, C0_PAGEMASK)
 	PTR_S	t0, 0(a0)
 	PTR_S	t1, 4(a0)
 	PTR_S	t2, 0(a1)
 	PTR_S	t3, 4(a1)
 	PTR_S	t4, 0(a2)
 	PTR_S	t5, 4(a2)
 	PTR_S	t6, 0(a3)
 	PTR_S	t7, 4(a3)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MFC0 t0, C0_ENTRYHI
 	PTR_MFC0 t1, C0_ENTRYLO0
 	PTR_MFC0 t2, C0_ENTRYLO1
 	PTR_MFC0 t3, C0_PAGEMASK
 	PTR_S	t0, 0(a0)
 	PTR_S	t1, 0(a1)
 	PTR_S	t2, 0(a2)
 	PTR_S	t3, 0(a3)
 #endif /* _MIPS_SIM==_ABIO32 */
 	jr	ra
 END(m64_tlbri2)

 /*
  * int m64_tlbprobe2(tlbhi64_t hi, tlblo64_t *lo0, tlblo64_t *lo1,
  * 	unsigned int *mask)
  *
  * Probes the TLB for an entry matching hi and returns its index, or -1 if
  * not found. If found, then the EntryLo0, EntryLo1 and PageMask parts of the
  * entry are also returned in *plo0, *plo1 and *pmsk respectively.
  *
  */
 LEAF(m64_tlbprobe2)
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MFC0(t9, t8, C0_ENTRYHI)
 	PTR_L	t0, 16(sp)
 	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)

 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MFC0 t8, C0_ENTRYHI
 	PTR_MTC0 a0, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */
 	ehb			# mtc0, hazard on tlbp

 	tlbp
 	ehb			# tlpb, hazard on index.

 	mfc0	v0, C0_INDEX
 	bltz	v0, 1f		# Return -1 if not found.

 	tlbr
 	ehb			# tlbr, hazard on entry*, pagemask
 # return entrylo, entrylo1, pagermask
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MFC0(t2, t3, C0_ENTRYLO0)
 	PTR_XO32_MFC0(t4, t5, C0_ENTRYLO1)
 	PTR_XO32_MFC0(t6, t7, C0_PAGEMASK)
 	PTR_S	t2, 0(a2)
 	PTR_S	t3, 4(a2)
 	PTR_S	t4, 0(a3)
 	PTR_S	t5, 4(a3)
 	PTR_S	t6, 0(t0)
 	PTR_S	t7, 4(t0)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MFC0 t1, C0_ENTRYLO0
 	PTR_MFC0 t2, C0_ENTRYLO1
 	PTR_MFC0 t3, C0_PAGEMASK
 	PTR_S	t1, 0(a1)
 	PTR_S	t2, 0(a2)
 	PTR_S	t3, 0(a3)
 #endif /* _MIPS_SIM==_ABIO32 */

 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(t9, t8, C0_ENTRYHI)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MTC0 t8, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */
 	.set	push
 	.set	noreorder
 	jr.hb	ra
 	nop
 	.set	pop

 1:	li	v0,-1
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(t9, t8, C0_ENTRYHI)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MTC0 t8, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */

 	.set	push
 	.set	noreorder
 	jr.hb	ra
 	nop
 	.set	pop

 END(m64_tlbprobe2)

 /*
  * void m64_tlbinval(tlbhi64_t a0)
  *
  * Probes the TLB for an entry matching hi, and if present invalidates it.
  *
  */
 LEAF(m64_tlbinval)

 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MFC0(t9, t8, C0_ENTRYHI)
 	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MFC0 t8, C0_ENTRYHI
 	PTR_MTC0 a0, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */
 	ehb			# mtc0, Hazard on tlbp

 	tlbp
 	ehb			# tlbp, Hazard on index, entry*

 	mfc0	v0, C0_INDEX
 	bltz	v0, 4f

 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(zero, zero, C0_ENTRYLO0)
 	PTR_XO32_MTC0(zero, zero, C0_ENTRYLO1)
 #else
 	PTR_MTC0 zero, C0_ENTRYLO0
 	PTR_MTC0 zero, C0_ENTRYLO1
 #endif /* _MIPS_SIM==_ABIO32 */

 	mfc0	v1, C0_CONFIG3
 	ext	v1, v1, CFG3_M_SHIFT, 1
 	beqz	v1, 2f

 	mfc0	v1, C0_CONFIG4
 	ext	v1, v1, CFG4_IE_SHIFT, CFG4_IE_BITS
 	beqz	v1, 2f

 	li	v1, C0_ENTRYHI_EHINV_MASK
 	b	3f

 #if _MIPS_SIM==_ABIO32
 2:	li	t1, -1
 	li	v1, (KSEG0_BASE - 2<<13)
 5:	addiu	v1, v1, (2<<13)
 	PTR_XO32_MTC0(t1, v1, C0_ENTRYHI)
 	ehb				# mtc0, Hazard on tlbp

 	tlbp
 	ehb				# tlbp, hazard on index

 	mfc0	t2, C0_INDEX
 	bgez	t2, 5b

 	mtc0	v0, C0_INDEX
 3:	PTR_XO32_MTC0(t1, v1, C0_ENTRYHI)
 #else
 2:	li	v1, (KSEG0_BASE-2<<13)	# replace with this
 5:	addiu	v1, v1, (2<<13)
 	PTR_MTC0 v1, C0_ENTRYHI
 	ehb				# mtc0, Hazard on tlbp

 	tlbp
 	ehb				# tlbp, hazard on index

 	mfc0	t2, C0_INDEX
 	bgez	t2, 5b

 	mtc0	v0, C0_INDEX
 3:	PTR_MTC0 v1, C0_ENTRYHI
 #endif
 	ehb			# mtco, hazard on tlbwi

 	tlbwi
 	ehb			# tlbwi, hazard on C0_ENTRYHI

 4:
 #if _MIPS_SIM==_ABIO32
 	PTR_XO32_MTC0(t9, t8, C0_ENTRYHI)
 #else /* _MIPS_SIM==_ABIO32 */
 	PTR_MTC0 t8, C0_ENTRYHI
 #endif /* _MIPS_SIM==_ABIO32 */
 	.set	push
 	.set	noreorder
 	jr.hb	ra
 	nop
 	.set	pop

 END(m64_tlbinval)
	/*
	* Copyright 2015, Imagination Technologies Limited and/or its
	* affiliated group companies.
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright notice,
	* this list of conditions and the following disclaimer in the documentation
	* and/or other materials provided with the distribution.
	* 3. Neither the name of the copyright holder nor the names of its
	* contributors may be used to endorse or promote products derived from this
	* software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
	* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
	* POSSIBILITY OF SUCH DAMAGE.
	*/


	/*
	* m64tlb_ops.S: MIPS XPA TLB support functions
	*
	*/

	.set nomips16
	#include <mips/m64tlb.h>
	#include <mips/asm.h>
	#include <mips/endian.h>

	#define PTR_XO32_MTC0(top, bot, reg) \
	#if BYTE_ORDER == BIG_ENDIAN \
	mtc0 bot, reg; \
	mthc0 top, reg; \
	#else \
	mtc0 top, reg; \
	mthc0 bot, reg; \
	#endif

	#define PTR_XO32_MFC0(top, bot, reg) \
	#if BYTE_ORDER == BIG_ENDIAN \
	mfc0 bot, reg; \
	mfhc0 top, reg; \
	#else \
	mfc0 top, reg; \
	mfhc0 bot, reg; \
	#endif

	#define PTR_XO32_MTC0(top, bot, reg) \
	#if BYTE_ORDER == BIG_ENDIAN \
	mtc0 bot, reg; \
	mthc0 top, reg; \
	#else \
	mtc0 top, reg; \
	mthc0 bot, reg; \
	#endif

	#define PTR_XO32_MFC0(top, bot, reg) \
	#if BYTE_ORDER == BIG_ENDIAN \
	mfc0 bot, reg; \
	mfhc0 top, reg; \
	#else \
	mfc0 top, reg; \
	mfhc0 bot, reg; \
	#endif

	/*
	* void m64_tlbwi2(tlbhi64_t hi, tlblo64_t lo0, tlblo64_t lo1, unsigned long long mask,
	* unsigned int index)
	*
	* Writes hi,lo0,lo1 and msk in to the TLB entry specified by index.
	*
	*/
	LEAF(m64_tlbwi2)
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
	PTR_XO32_MTC0(a2, a3, C0_ENTRYLO0)

	PTR_L t1, 20(sp)
	PTR_L t2, 16(sp)
	PTR_XO32_MTC0(t2, t1, C0_ENTRYLO1)

	PTR_L t1, 28(sp)
	PTR_L t2, 24(sp)
	PTR_XO32_MTC0(t2, t1, C0_PAGEMASK)

	lw ta0, 32(sp)
	#else /* _MIPS_SIM==N32 \|\| _MIPS_SIM==N64 */
	PTR_MTC0 a0, C0_ENTRYHI
	PTR_MTC0 a1, C0_ENTRYLO0
	PTR_MTC0 a2, C0_ENTRYLO1
	PTR_MTC0 a3, C0_PAGEMASK
	#endif

	mtc0 ta0, C0_INDEX
	ehb # mtc0, hazard barrier on tlbwi
	tlbwi
	.set push
	.set noreorder
	jr.hb ra
	nop
	.set pop

	END(m64_tlbwi2)

	/*
	* void m64_tlbwr2(tlbhi64_t hi, tlblo64_t lo0, tlblo64_t lo1, unsigned long long mask)
	*
	* Writes hi, lo0, lo1 and msk into the TLB entry specified by the
	* Random register.
	*
	*/
	LEAF(m64_tlbwr2)
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
	PTR_XO32_MTC0(a2, a3, C0_ENTRYLO0)

	PTR_L t1, 20(sp)
	PTR_L t2, 16(sp)
	PTR_XO32_MTC0(t2, t1, C0_ENTRYLO1)

	PTR_L t1, 28(sp)
	PTR_L t2, 24(sp)
	PTR_XO32_MTC0(t2, t1, C0_PAGEMASK)
	#else
	PTR_MTC0 a0, C0_ENTRYHI
	PTR_MTC0 a1, C0_ENTRYLO0
	PTR_MTC0 a2, C0_ENTRYLO1
	PTR_MTC0 a3, C0_PAGEMASK
	#endif
	ehb
	tlbwr
	.set push
	.set noreorder
	jr.hb ra
	nop
	.set pop

	END(m64_tlbwr2)

	/*
	* int m64_tlbrwr2(tlbhi64_t hi, tlblo64_t lo0, tlblo64_t lo1, unsigned long long mask)
	*
	* Probes the TLB for an entry matching hi and if present rewrites that
	* entry, otherwise updates a random entry. A safe way to update the TLB.
	*
	*/
	LEAF(m64_tlbrwr2)
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MFC0(t1, t0, C0_ENTRYHI)
	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MFC0 t0, C0_ENTRYHI
	PTR_MTC0 a0, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */
	ehb # MTCO, hazard on tlbp

	tlbp
	ehb # tlbp, hazard on MFCO $index

	mfc0 v0, C0_INDEX
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(a2, a3, C0_ENTRYLO0)

	PTR_L t2, 20(sp)
	PTR_L t3, 16(sp)
	PTR_XO32_MTC0(t3, t2, C0_ENTRYLO1)

	PTR_L t2, 28(sp)
	PTR_L t3, 24(sp)
	PTR_XO32_MTC0(t3, t2, C0_PAGEMASK)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MTC0 a1, C0_ENTRYLO0
	PTR_MTC0 a2, C0_ENTRYLO1
	PTR_MTC0 a3, C0_PAGEMASK
	#endif /* _MIPS_SIM==_ABIO32 */
	ehb # mtc0, hazard on tlbwi
	bltz v0, 1f # no matching entry

	tlbwi
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(t1, t0, C0_ENTRYHI)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MTC0 t0, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */
	.set push
	.set noreorder
	jr.hb ra
	nop
	.set pop

	1: tlbwr
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(t1, t0, C0_ENTRYHI)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MTC0 t0, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */
	.set push
	.set noreorder
	jr.hb ra
	nop
	.set pop

	END(m64_tlbrwr2)

	/*
	* void m64_tlbri2(tlbhi64_t phi, tlblo64_t plo0, tlblo64_t *plo1,
	* unsigned long long * mask, unsigned int index)
	*
	* Reads the TLB entry with specified by index, and returns the EntryHi, EntryLo0,
	* EntryLo1 and PageMask parts in phi, plo0, plo1 and pmsk respectively.
	*
	*/
	LEAF(m64_tlbri2)
	#if _MIPS_SIM==_ABIO32
	PTR_L ta0, 16(sp) # index
	#endif /* _MIPS_SIM==_ABIO32 */
	mtc0 ta0, C0_INDEX
	ehb # mtc0, hazard on tlbr

	tlbr
	ehb # tlbr, hazard on entry*, pagemask
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MFC0(t0, t1, C0_ENTRYHI)
	PTR_XO32_MFC0(t2, t3, C0_ENTRYLO0)
	PTR_XO32_MFC0(t4, t5, C0_ENTRYLO1)
	PTR_XO32_MFC0(t6, t7, C0_PAGEMASK)
	PTR_S t0, 0(a0)
	PTR_S t1, 4(a0)
	PTR_S t2, 0(a1)
	PTR_S t3, 4(a1)
	PTR_S t4, 0(a2)
	PTR_S t5, 4(a2)
	PTR_S t6, 0(a3)
	PTR_S t7, 4(a3)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MFC0 t0, C0_ENTRYHI
	PTR_MFC0 t1, C0_ENTRYLO0
	PTR_MFC0 t2, C0_ENTRYLO1
	PTR_MFC0 t3, C0_PAGEMASK
	PTR_S t0, 0(a0)
	PTR_S t1, 0(a1)
	PTR_S t2, 0(a2)
	PTR_S t3, 0(a3)
	#endif /* _MIPS_SIM==_ABIO32 */
	jr ra
	END(m64_tlbri2)

	/*
	* int m64_tlbprobe2(tlbhi64_t hi, tlblo64_t lo0, tlblo64_t lo1,
	* unsigned int *mask)
	*
	* Probes the TLB for an entry matching hi and returns its index, or -1 if
	* not found. If found, then the EntryLo0, EntryLo1 and PageMask parts of the
	* entry are also returned in plo0, plo1 and *pmsk respectively.
	*
	*/
	LEAF(m64_tlbprobe2)
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MFC0(t9, t8, C0_ENTRYHI)
	PTR_L t0, 16(sp)
	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)

	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MFC0 t8, C0_ENTRYHI
	PTR_MTC0 a0, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */
	ehb # mtc0, hazard on tlbp

	tlbp
	ehb # tlpb, hazard on index.

	mfc0 v0, C0_INDEX
	bltz v0, 1f # Return -1 if not found.

	tlbr
	ehb # tlbr, hazard on entry*, pagemask
	# return entrylo, entrylo1, pagermask
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MFC0(t2, t3, C0_ENTRYLO0)
	PTR_XO32_MFC0(t4, t5, C0_ENTRYLO1)
	PTR_XO32_MFC0(t6, t7, C0_PAGEMASK)
	PTR_S t2, 0(a2)
	PTR_S t3, 4(a2)
	PTR_S t4, 0(a3)
	PTR_S t5, 4(a3)
	PTR_S t6, 0(t0)
	PTR_S t7, 4(t0)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MFC0 t1, C0_ENTRYLO0
	PTR_MFC0 t2, C0_ENTRYLO1
	PTR_MFC0 t3, C0_PAGEMASK
	PTR_S t1, 0(a1)
	PTR_S t2, 0(a2)
	PTR_S t3, 0(a3)
	#endif /* _MIPS_SIM==_ABIO32 */

	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(t9, t8, C0_ENTRYHI)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MTC0 t8, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */
	.set push
	.set noreorder
	jr.hb ra
	nop
	.set pop

	1: li v0,-1
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(t9, t8, C0_ENTRYHI)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MTC0 t8, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */

	.set push
	.set noreorder
	jr.hb ra
	nop
	.set pop

	END(m64_tlbprobe2)

	/*
	* void m64_tlbinval(tlbhi64_t a0)
	*
	* Probes the TLB for an entry matching hi, and if present invalidates it.
	*
	*/
	LEAF(m64_tlbinval)

	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MFC0(t9, t8, C0_ENTRYHI)
	PTR_XO32_MTC0(a0, a1, C0_ENTRYHI)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MFC0 t8, C0_ENTRYHI
	PTR_MTC0 a0, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */
	ehb # mtc0, Hazard on tlbp

	tlbp
	ehb # tlbp, Hazard on index, entry*

	mfc0 v0, C0_INDEX
	bltz v0, 4f

	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(zero, zero, C0_ENTRYLO0)
	PTR_XO32_MTC0(zero, zero, C0_ENTRYLO1)
	#else
	PTR_MTC0 zero, C0_ENTRYLO0
	PTR_MTC0 zero, C0_ENTRYLO1
	#endif /* _MIPS_SIM==_ABIO32 */

	mfc0 v1, C0_CONFIG3
	ext v1, v1, CFG3_M_SHIFT, 1
	beqz v1, 2f

	mfc0 v1, C0_CONFIG4
	ext v1, v1, CFG4_IE_SHIFT, CFG4_IE_BITS
	beqz v1, 2f

	li v1, C0_ENTRYHI_EHINV_MASK
	b 3f

	#if _MIPS_SIM==_ABIO32
	2: li t1, -1
	li v1, (KSEG0_BASE - 2<<13)
	5: addiu v1, v1, (2<<13)
	PTR_XO32_MTC0(t1, v1, C0_ENTRYHI)
	ehb # mtc0, Hazard on tlbp

	tlbp
	ehb # tlbp, hazard on index

	mfc0 t2, C0_INDEX
	bgez t2, 5b

	mtc0 v0, C0_INDEX
	3: PTR_XO32_MTC0(t1, v1, C0_ENTRYHI)
	#else
	2: li v1, (KSEG0_BASE-2<<13) # replace with this
	5: addiu v1, v1, (2<<13)
	PTR_MTC0 v1, C0_ENTRYHI
	ehb # mtc0, Hazard on tlbp

	tlbp
	ehb # tlbp, hazard on index

	mfc0 t2, C0_INDEX
	bgez t2, 5b

	mtc0 v0, C0_INDEX
	3: PTR_MTC0 v1, C0_ENTRYHI
	#endif
	ehb # mtco, hazard on tlbwi

	tlbwi
	ehb # tlbwi, hazard on C0_ENTRYHI

	4:
	#if _MIPS_SIM==_ABIO32
	PTR_XO32_MTC0(t9, t8, C0_ENTRYHI)
	#else /* _MIPS_SIM==_ABIO32 */
	PTR_MTC0 t8, C0_ENTRYHI
	#endif /* _MIPS_SIM==_ABIO32 */
	.set push
	.set noreorder
	jr.hb ra
	nop
	.set pop

	END(m64_tlbinval)