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# commit fe6e95d7171eba5f3e07848f081676fae4e86322
# Author: Alan Modra <amodra@gmail.com>
# Date:   Sat Aug 17 18:46:47 2013 +0930
# 
#     PowerPC LE memcmp
#     http://sourceware.org/ml/libc-alpha/2013-08/msg00102.html
#     
#     This is a rather large patch due to formatting and renaming.  The
#     formatting changes were to make it possible to compare power7 and
#     power4 versions of memcmp.  Using different register defines came
#     about while I was wrestling with the code, trying to find spare
#     registers at one stage.  I found it much simpler if we refer to a reg
#     by the same name throughout a function, so it's better if short-term
#     multiple use regs like rTMP are referred to using their register
#     number.  I made the cr field usage changes when attempting to reload
#     rWORDn regs in the exit path to byte swap before comparing when
#     little-endian.  That proved a bad idea due to the pipelining involved
#     in the main loop;  Offsets to reload the regs were different first
#     time around the loop..  Anyway, I left the cr field usage changes in
#     place for consistency.
#     
#     Aside from these more-or-less cosmetic changes, I fixed a number of
#     places where an early exit path restores regs unnecessarily, removed
#     some dead code, and optimised one or two exits.
#     
#         * sysdeps/powerpc/powerpc64/power7/memcmp.S: Add little-endian support.
#         Formatting.  Consistently use rXXX register defines or rN defines.
#         Use early exit labels that avoid restoring unused non-volatile regs.
#         Make cr field use more consistent with rWORDn compares.  Rename
#         regs used as shift registers for unaligned loop, using rN defines
#         for short lifetime/multiple use regs.
#         * sysdeps/powerpc/powerpc64/power4/memcmp.S: Likewise.
#         * sysdeps/powerpc/powerpc32/power7/memcmp.S: Likewise.  Exit with
#         addi 1,1,64 to pop stack frame.  Simplify return value code.
#         * sysdeps/powerpc/powerpc32/power4/memcmp.S: Likewise.
# 
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcmp.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcmp.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcmp.S	2014-05-28 19:22:37.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcmp.S	2014-05-28 23:55:52.000000000 -0500
@@ -1,4 +1,4 @@
-/* Optimized strcmp implementation for PowerPC64.
+/* Optimized strcmp implementation for PowerPC32.
    Copyright (C) 2003, 2006 Free Software Foundation, Inc.
    This file is part of the GNU C Library.
 
@@ -20,13 +20,14 @@
 #include <bp-sym.h>
 #include <bp-asm.h>
 
-/* int [r3] memcmp (const char *s1 [r3], const char *s2 [r4], size_t size [r5])  */
-
+/* int [r3] memcmp (const char *s1 [r3],
+		    const char *s2 [r4],
+		    size_t size [r5])  */
+ 
 	.machine power4
 EALIGN (BP_SYM(memcmp), 4, 0)
 	CALL_MCOUNT
 
-#define rTMP	r0
 #define rRTN	r3
 #define rSTR1	r3	/* first string arg */
 #define rSTR2	r4	/* second string arg */
@@ -37,33 +38,32 @@
 #define rWORD4	r9	/* next word in s2 */
 #define rWORD5	r10	/* next word in s1 */
 #define rWORD6	r11	/* next word in s2 */
-#define rBITDIF	r12	/* bits that differ in s1 & s2 words */
 #define rWORD7	r30	/* next word in s1 */
 #define rWORD8	r31	/* next word in s2 */
 
-	xor	rTMP, rSTR2, rSTR1
+	xor	r0, rSTR2, rSTR1
 	cmplwi	cr6, rN, 0
 	cmplwi	cr1, rN, 12
-	clrlwi.	rTMP, rTMP, 30
-	clrlwi	rBITDIF, rSTR1, 30
-	cmplwi	cr5, rBITDIF, 0
+	clrlwi.	r0, r0, 30
+	clrlwi	r12, rSTR1, 30
+	cmplwi	cr5, r12, 0
 	beq-	cr6, L(zeroLength)
-	dcbt	0,rSTR1
-	dcbt	0,rSTR2
+	dcbt	0, rSTR1
+	dcbt	0, rSTR2
 /* If less than 8 bytes or not aligned, use the unaligned
    byte loop.  */
 	blt	cr1, L(bytealigned)
-        stwu    1,-64(1)
+	stwu	1, -64(r1)
 	cfi_adjust_cfa_offset(64)
-        stw     r31,48(1)	
-	cfi_offset(31,(48-64))
-        stw     r30,44(1)	
-	cfi_offset(30,(44-64))
+	stw	rWORD8, 48(r1)
+	cfi_offset(rWORD8, (48-64))
+	stw	rWORD7, 44(r1)
+	cfi_offset(rWORD7, (44-64))
 	bne	L(unaligned)
 /* At this point we know both strings have the same alignment and the
-   compare length is at least 8 bytes.  rBITDIF contains the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    2 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then we are already word 
+   of r12 to 0.  If r12 == 0 then we are already word
    aligned and can perform the word aligned loop.
   
    Otherwise we know the two strings have the same alignment (but not
@@ -72,74 +72,95 @@
    eliminate bits preceeding the first byte.  Since we want to join the
    normal (word aligned) compare loop, starting at the second word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first word. This insures that the loop count is
+   versioning for the first word. This ensures that the loop count is
    correct and the first word (shifted) is in the expected register pair. */
-	.align 4
+	.align	4
 L(samealignment):
 	clrrwi	rSTR1, rSTR1, 2
 	clrrwi	rSTR2, rSTR2, 2
 	beq	cr5, L(Waligned)
-	add	rN, rN, rBITDIF
-	slwi	r11, rBITDIF, 3
-	srwi	rTMP, rN, 4	 /* Divide by 16 */
-	andi.	rBITDIF, rN, 12  /* Get the word remainder */
+	add	rN, rN, r12
+	slwi	rWORD6, r12, 3
+	srwi	r0, rN, 4	/* Divide by 16 */
+	andi.	r12, rN, 12	/* Get the word remainder */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 0(rSTR1)
 	lwz	rWORD2, 0(rSTR2)
-	cmplwi	cr1, rBITDIF, 8
+#endif
+	cmplwi	cr1, r12, 8
 	cmplwi	cr7, rN, 16
 	clrlwi	rN, rN, 30
 	beq	L(dPs4)
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
 	bgt	cr1, L(dPs3)
 	beq	cr1, L(dPs2)
 
 /* Remainder is 4 */
-	.align 3
+	.align	3
 L(dsP1):
-	slw	rWORD5, rWORD1, r11
-	slw	rWORD6, rWORD2, r11
+	slw	rWORD5, rWORD1, rWORD6
+	slw	rWORD6, rWORD2, rWORD6
 	cmplw	cr5, rWORD5, rWORD6
 	blt	cr7, L(dP1x)
 /* Do something useful in this cycle since we have to branch anyway.  */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 4(rSTR1)
 	lwz	rWORD2, 4(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 	b	L(dP1e)
 /* Remainder is 8 */
-	.align 4
+	.align	4
 L(dPs2):
-	slw	rWORD5, rWORD1, r11
-	slw	rWORD6, rWORD2, r11
+	slw	rWORD5, rWORD1, rWORD6
+	slw	rWORD6, rWORD2, rWORD6
 	cmplw	cr6, rWORD5, rWORD6
 	blt	cr7, L(dP2x)
 /* Do something useful in this cycle since we have to branch anyway.  */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD7, 4(rSTR1)
 	lwz	rWORD8, 4(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
 	b	L(dP2e)
 /* Remainder is 12 */
-	.align 4
+	.align	4
 L(dPs3):
-	slw	rWORD3, rWORD1, r11
-	slw	rWORD4, rWORD2, r11
+	slw	rWORD3, rWORD1, rWORD6
+	slw	rWORD4, rWORD2, rWORD6
 	cmplw	cr1, rWORD3, rWORD4
 	b	L(dP3e)
 /* Count is a multiple of 16, remainder is 0 */
-	.align 4
+	.align	4
 L(dPs4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	slw	rWORD1, rWORD1, r11
-	slw	rWORD2, rWORD2, r11
-	cmplw	cr0, rWORD1, rWORD2
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	slw	rWORD1, rWORD1, rWORD6
+	slw	rWORD2, rWORD2, rWORD6
+	cmplw	cr7, rWORD1, rWORD2
 	b	L(dP4e)
 
 /* At this point we know both strings are word aligned and the
    compare length is at least 8 bytes.  */
-	.align 4
+	.align	4
 L(Waligned):
-	andi.	rBITDIF, rN, 12  /* Get the word remainder */
-	srwi	rTMP, rN, 4	 /* Divide by 16 */
-	cmplwi	cr1, rBITDIF, 8
+	andi.	r12, rN, 12	/* Get the word remainder */
+	srwi	r0, rN, 4	/* Divide by 16 */
+	cmplwi	cr1, r12, 8
 	cmplwi	cr7, rN, 16
 	clrlwi	rN, rN, 30
 	beq	L(dP4)
@@ -147,177 +168,352 @@
 	beq	cr1, L(dP2)
 		
 /* Remainder is 4 */
-	.align 4
+	.align	4
 L(dP1):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
 /* Normally we'd use rWORD7/rWORD8 here, but since we might exit early
    (8-15 byte compare), we want to use only volatile registers.  This
    means we can avoid restoring non-volatile registers since we did not
    change any on the early exit path.  The key here is the non-early
    exit path only cares about the condition code (cr5), not about which 
    register pair was used.  */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 0(rSTR1)
 	lwz	rWORD6, 0(rSTR2)
+#endif
 	cmplw	cr5, rWORD5, rWORD6
 	blt	cr7, L(dP1x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 4(rSTR1)
 	lwz	rWORD2, 4(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 L(dP1e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 8(rSTR1)
 	lwz	rWORD4, 8(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 12(rSTR1)
 	lwz	rWORD6, 12(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
-	bne	cr5, L(dLcr5)
-	bne	cr0, L(dLcr0)
-	
+	bne	cr5, L(dLcr5x)
+	bne	cr7, L(dLcr7x)
+
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwzu	rWORD7, 16(rSTR1)
 	lwzu	rWORD8, 16(rSTR2)
+#endif
 	bne	cr1, L(dLcr1)
 	cmplw	cr5, rWORD7, rWORD8
 	bdnz	L(dLoop)
 	bne	cr6, L(dLcr6)
-        lwz     r30,44(1)
-        lwz     r31,48(1)
-	.align 3
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+	.align	3
 L(dP1x):
 	slwi.	r12, rN, 3
-	bne	cr5, L(dLcr5)
+	bne	cr5, L(dLcr5x)
 	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
-        lwz     1,0(1)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	bne	L(d00)
 	li	rRTN, 0
 	blr
 		
 /* Remainder is 8 */
-	.align 4
+	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dP2):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 0(rSTR1)
 	lwz	rWORD6, 0(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
 	blt	cr7, L(dP2x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD7, 4(rSTR1)
 	lwz	rWORD8, 4(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
 L(dP2e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 8(rSTR1)
 	lwz	rWORD2, 8(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 12(rSTR1)
 	lwz	rWORD4, 12(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 4
 	addi	rSTR2, rSTR2, 4
+#endif
 	bne	cr6, L(dLcr6)
 	bne	cr5, L(dLcr5)
 	b	L(dLoop2)
 /* Again we are on a early exit path (16-23 byte compare), we want to
    only use volatile registers and avoid restoring non-volatile
    registers.  */
-	.align 4
+	.align	4
 L(dP2x):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 4(rSTR1)
 	lwz	rWORD4, 4(rSTR2)
-	cmplw	cr5, rWORD3, rWORD4
+#endif
+	cmplw	cr1, rWORD3, rWORD4
 	slwi.	r12, rN, 3
-	bne	cr6, L(dLcr6)
+	bne	cr6, L(dLcr6x)
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 4
 	addi	rSTR2, rSTR2, 4
-	bne	cr5, L(dLcr5)
+#endif
+	bne	cr1, L(dLcr1x)
 	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
-        lwz     1,0(1)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	bne	L(d00)
 	li	rRTN, 0
 	blr
 		
 /* Remainder is 12 */
-	.align 4
+	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dP3):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 0(rSTR1)
 	lwz	rWORD4, 0(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
 L(dP3e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 4(rSTR1)
 	lwz	rWORD6, 4(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
 	blt	cr7, L(dP3x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD7, 8(rSTR1)
 	lwz	rWORD8, 8(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 12(rSTR1)
 	lwz	rWORD2, 12(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
+#endif
 	bne	cr1, L(dLcr1)
 	bne	cr6, L(dLcr6)
 	b	L(dLoop1)
 /* Again we are on a early exit path (24-31 byte compare), we want to
    only use volatile registers and avoid restoring non-volatile
    registers.  */
-	.align 4
+	.align	4
 L(dP3x):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 8(rSTR1)
 	lwz	rWORD2, 8(rSTR2)
-	cmplw	cr5, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 	slwi.	r12, rN, 3
-	bne	cr1, L(dLcr1)
+	bne	cr1, L(dLcr1x)
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
-	bne	cr6, L(dLcr6)
+#endif
+	bne	cr6, L(dLcr6x)
 	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
-	bne	cr5, L(dLcr5)
-        lwz     1,0(1)
+	bne	cr7, L(dLcr7x)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	bne	L(d00)
 	li	rRTN, 0
 	blr
 	
 /* Count is a multiple of 16, remainder is 0 */
-	.align 4
+	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dP4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 0(rSTR1)
 	lwz	rWORD2, 0(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 L(dP4e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 4(rSTR1)
 	lwz	rWORD4, 4(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 8(rSTR1)
 	lwz	rWORD6, 8(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwzu	rWORD7, 12(rSTR1)
 	lwzu	rWORD8, 12(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
-	bne	cr0, L(dLcr0)
+	bne	cr7, L(dLcr7)
 	bne	cr1, L(dLcr1)
 	bdz-	L(d24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
-	.align 4
+	.align	4
 L(dLoop):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 4(rSTR1)
 	lwz	rWORD2, 4(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
 	bne	cr6, L(dLcr6)
 L(dLoop1):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 8(rSTR1)
 	lwz	rWORD4, 8(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
 	bne	cr5, L(dLcr5)
 L(dLoop2):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 12(rSTR1)
 	lwz	rWORD6, 12(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
-	bne	cr0, L(dLcr0)
+	bne	cr7, L(dLcr7)
 L(dLoop3):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwzu	rWORD7, 16(rSTR1)
 	lwzu	rWORD8, 16(rSTR2)
+#endif
 	bne-	cr1, L(dLcr1)
-	cmplw	cr0, rWORD1, rWORD2
+	cmplw	cr7, rWORD1, rWORD2
 	bdnz+	L(dLoop)	
 	
 L(dL4):
@@ -327,7 +523,7 @@
 	bne	cr5, L(dLcr5)
 	cmplw	cr5, rWORD7, rWORD8
 L(d44):
-	bne	cr0, L(dLcr0)
+	bne	cr7, L(dLcr7)
 L(d34):
 	bne	cr1, L(dLcr1)
 L(d24):
@@ -336,69 +532,82 @@
 	slwi.	r12, rN, 3
 	bne	cr5, L(dLcr5) 
 L(d04):
-        lwz     r30,44(1)
-        lwz     r31,48(1)
-        lwz     1,0(1)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
 	beq	L(zeroLength)
 /* At this point we have a remainder of 1 to 3 bytes to compare.  Since
    we are aligned it is safe to load the whole word, and use
-   shift right to eliminate bits beyond the compare length. */ 
+   shift right to eliminate bits beyond the compare length.  */
 L(d00):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 4(rSTR1)
 	lwz	rWORD2, 4(rSTR2) 
+#endif
 	srw	rWORD1, rWORD1, rN
 	srw	rWORD2, rWORD2, rN
-        cmplw   rWORD1,rWORD2
-        li      rRTN,0
-        beqlr
-        li      rRTN,1
-        bgtlr
-        li      rRTN,-1
-        blr
-
-	.align 4
-L(dLcr0):
-        lwz     r30,44(1)
-        lwz     r31,48(1)
+	sub	rRTN, rWORD1, rWORD2
+	blr
+
+	.align	4
+	cfi_adjust_cfa_offset(64)
+L(dLcr7):
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+L(dLcr7x):
 	li	rRTN, 1
-        lwz     1,0(1)
-	bgtlr	cr0
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
+	bgtlr	cr7
 	li	rRTN, -1
 	blr
-	.align 4
+	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dLcr1):
-        lwz     r30,44(1)
-        lwz     r31,48(1)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+L(dLcr1x):
 	li	rRTN, 1
-        lwz     1,0(1)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	bgtlr	cr1
 	li	rRTN, -1
 	blr
-	.align 4
+	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dLcr6):
-        lwz     r30,44(1)
-        lwz     r31,48(1)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+L(dLcr6x):
 	li	rRTN, 1
-        lwz     1,0(1)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	bgtlr	cr6
 	li	rRTN, -1
 	blr
-	.align 4
+	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dLcr5):
-        lwz     r30,44(1)
-        lwz     r31,48(1)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
 L(dLcr5x):
 	li	rRTN, 1
-        lwz     1,0(1)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	bgtlr	cr5
 	li	rRTN, -1
 	blr
 	
-	.align 4
+	.align	4
 L(bytealigned):
-	cfi_adjust_cfa_offset(-64)
-	mtctr   rN	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	rN	/* Power4 wants mtctr 1st in dispatch group */
 
 /* We need to prime this loop.  This loop is swing modulo scheduled
    to avoid pipe delays.  The dependent instruction latencies (load to 
@@ -413,7 +622,7 @@
 	lbz	rWORD1, 0(rSTR1)
 	lbz	rWORD2, 0(rSTR2)
 	bdz-	L(b11)
-	cmplw	cr0, rWORD1, rWORD2
+	cmplw	cr7, rWORD1, rWORD2
 	lbz	rWORD3, 1(rSTR1)
 	lbz	rWORD4, 1(rSTR2)
 	bdz-	L(b12)
@@ -421,11 +630,11 @@
 	lbzu	rWORD5, 2(rSTR1)
 	lbzu	rWORD6, 2(rSTR2)
 	bdz-	L(b13)
-	.align 4
+	.align	4
 L(bLoop):
 	lbzu	rWORD1, 1(rSTR1)
 	lbzu	rWORD2, 1(rSTR2)
-	bne-	cr0, L(bLcr0)
+	bne-	cr7, L(bLcr7)
 
 	cmplw	cr6, rWORD5, rWORD6
 	bdz-	L(b3i)
@@ -434,7 +643,7 @@
 	lbzu	rWORD4, 1(rSTR2)
 	bne-	cr1, L(bLcr1)
 
-	cmplw	cr0, rWORD1, rWORD2
+	cmplw	cr7, rWORD1, rWORD2
 	bdz-	L(b2i)
 
 	lbzu	rWORD5, 1(rSTR1)
@@ -451,23 +660,23 @@
    tested.  In this case we must complete the pending operations
    before returning.  */
 L(b1i):
-	bne-	cr0, L(bLcr0)
+	bne-	cr7, L(bLcr7)
 	bne-	cr1, L(bLcr1)
 	b	L(bx56)
-	.align 4
+	.align	4
 L(b2i):
 	bne-	cr6, L(bLcr6)
-	bne-	cr0, L(bLcr0)
+	bne-	cr7, L(bLcr7)
 	b	L(bx34)
-	.align 4
+	.align	4
 L(b3i):
 	bne-	cr1, L(bLcr1)
 	bne-	cr6, L(bLcr6)
 	b	L(bx12)
-	.align 4
-L(bLcr0):
+	.align	4
+L(bLcr7):
 	li	rRTN, 1
-	bgtlr	cr0
+	bgtlr	cr7
 	li	rRTN, -1
 	blr
 L(bLcr1):
@@ -482,36 +691,31 @@
 	blr
 
 L(b13):
-	bne-	cr0, L(bx12)
+	bne-	cr7, L(bx12)
 	bne-	cr1, L(bx34)
 L(bx56):
 	sub	rRTN, rWORD5, rWORD6
 	blr
 	nop
 L(b12):
-	bne-	cr0, L(bx12)
+	bne-	cr7, L(bx12)
 L(bx34):	
 	sub	rRTN, rWORD3, rWORD4
 	blr
-
 L(b11):
 L(bx12):
 	sub	rRTN, rWORD1, rWORD2
 	blr
-
-	.align 4 
-L(zeroLengthReturn):
-
+	.align	4
 L(zeroLength):
 	li	rRTN, 0
 	blr
 
-	cfi_adjust_cfa_offset(64)
-	.align 4
+	.align	4
 /* At this point we know the strings have different alignment and the
-   compare length is at least 8 bytes.  rBITDIF contains the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    2 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then rStr1 is word aligned and can 
+   of r12 to 0.  If r12 == 0 then rStr1 is word aligned and can
    perform the Wunaligned loop.
   
    Otherwise we know that rSTR1 is not aready word aligned yet.
@@ -520,79 +724,88 @@
    eliminate bits preceeding the first byte.  Since we want to join the
    normal (Wualigned) compare loop, starting at the second word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first W. This insures that the loop count is
+   versioning for the first W. This ensures that the loop count is
    correct and the first W (shifted) is in the expected resister pair.  */
 #define rSHL		r29	/* Unaligned shift left count.  */
 #define rSHR		r28	/* Unaligned shift right count.  */
-#define rB		r27	/* Left rotation temp for rWORD2.  */
-#define rD		r26	/* Left rotation temp for rWORD4.  */
-#define rF		r25	/* Left rotation temp for rWORD6.  */
-#define rH		r24	/* Left rotation temp for rWORD8.  */
-#define rA		r0	/* Right rotation temp for rWORD2.  */
-#define rC		r12	/* Right rotation temp for rWORD4.  */
-#define rE		r0	/* Right rotation temp for rWORD6.  */
-#define rG		r12	/* Right rotation temp for rWORD8.  */
+#define rWORD8_SHIFT	r27	/* Left rotation temp for rWORD2.  */
+#define rWORD2_SHIFT	r26	/* Left rotation temp for rWORD4.  */
+#define rWORD4_SHIFT	r25	/* Left rotation temp for rWORD6.  */
+#define rWORD6_SHIFT	r24	/* Left rotation temp for rWORD8.  */
+	cfi_adjust_cfa_offset(64)
 L(unaligned):
-	stw     r29,40(r1)	
-	cfi_offset(r29,(40-64))	
+	stw	rSHL, 40(r1)
+	cfi_offset(rSHL, (40-64))
 	clrlwi	rSHL, rSTR2, 30
-        stw     r28,36(r1)	
-	cfi_offset(r28,(36-64))
+	stw	rSHR, 36(r1)
+	cfi_offset(rSHR, (36-64))
 	beq	cr5, L(Wunaligned)
-        stw     r27,32(r1)	
-	cfi_offset(r27,(32-64))
+	stw	rWORD8_SHIFT, 32(r1)
+	cfi_offset(rWORD8_SHIFT, (32-64))
 /* Adjust the logical start of rSTR2 to compensate for the extra bits
    in the 1st rSTR1 W.  */
-	sub	r27, rSTR2, rBITDIF
+	sub	rWORD8_SHIFT, rSTR2, r12
 /* But do not attempt to address the W before that W that contains
    the actual start of rSTR2.  */
 	clrrwi	rSTR2, rSTR2, 2
-        stw     r26,28(r1)	
-	cfi_offset(r26,(28-64))
-/* Compute the left/right shift counts for the unalign rSTR2,
+	stw	rWORD2_SHIFT, 28(r1)
+	cfi_offset(rWORD2_SHIFT, (28-64))
+/* Compute the left/right shift counts for the unaligned rSTR2,
    compensating for the logical (W aligned) start of rSTR1.  */ 
-	clrlwi	rSHL, r27, 30
+	clrlwi	rSHL, rWORD8_SHIFT, 30
 	clrrwi	rSTR1, rSTR1, 2	
-        stw     r25,24(r1)	
-	cfi_offset(r25,(24-64))
+	stw	rWORD4_SHIFT, 24(r1)
+	cfi_offset(rWORD4_SHIFT, (24-64))
 	slwi	rSHL, rSHL, 3
-	cmplw	cr5, r27, rSTR2
-	add	rN, rN, rBITDIF
-	slwi	r11, rBITDIF, 3
-        stw     r24,20(r1)	
-	cfi_offset(r24,(20-64))
+	cmplw	cr5, rWORD8_SHIFT, rSTR2
+	add	rN, rN, r12
+	slwi	rWORD6, r12, 3
+	stw	rWORD6_SHIFT, 20(r1)
+	cfi_offset(rWORD6_SHIFT, (20-64))
 	subfic	rSHR, rSHL, 32
-	srwi	rTMP, rN, 4      /* Divide by 16 */
-	andi.	rBITDIF, rN, 12  /* Get the W remainder */
+	srwi	r0, rN, 4	/* Divide by 16 */
+	andi.	r12, rN, 12	/* Get the W remainder */
 /* We normally need to load 2 Ws to start the unaligned rSTR2, but in
    this special case those bits may be discarded anyway.  Also we
    must avoid loading a W where none of the bits are part of rSTR2 as
    this may cross a page boundary and cause a page fault.  */
 	li	rWORD8, 0
 	blt	cr5, L(dus0)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD8, 0(rSTR2)
-	la	rSTR2, 4(rSTR2)
+	addi	rSTR2, rSTR2, 4
+#endif
 	slw	rWORD8, rWORD8, rSHL
 
 L(dus0):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 0(rSTR1)
 	lwz	rWORD2, 0(rSTR2)
-	cmplwi	cr1, rBITDIF, 8
+#endif
+	cmplwi	cr1, r12, 8
 	cmplwi	cr7, rN, 16
-	srw	rG, rWORD2, rSHR
+	srw	r12, rWORD2, rSHR
 	clrlwi	rN, rN, 30
 	beq	L(duPs4)
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	or	rWORD8, rG, rWORD8
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	or	rWORD8, r12, rWORD8
 	bgt	cr1, L(duPs3)
 	beq	cr1, L(duPs2)
 
 /* Remainder is 4 */
-	.align 4
+	.align	4
 L(dusP1):
-	slw	rB, rWORD2, rSHL
-	slw	rWORD7, rWORD1, r11
-	slw	rWORD8, rWORD8, r11
+	slw	rWORD8_SHIFT, rWORD2, rSHL
+	slw	rWORD7, rWORD1, rWORD6
+	slw	rWORD8, rWORD8, rWORD6
 	bge	cr7, L(duP1e)
 /* At this point we exit early with the first word compare
    complete and remainder of 0 to 3 bytes.  See L(du14) for details on
@@ -602,95 +815,133 @@
 	bne	cr5, L(duLcr5)
 	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD2, 4(rSTR2)
-	srw	rA, rWORD2, rSHR
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 8 */
-	.align 4
+	.align	4
 L(duPs2):
-	slw	rH, rWORD2, rSHL
-	slw	rWORD5, rWORD1, r11
-	slw	rWORD6, rWORD8, r11
+	slw	rWORD6_SHIFT, rWORD2, rSHL
+	slw	rWORD5, rWORD1, rWORD6
+	slw	rWORD6, rWORD8, rWORD6
 	b	L(duP2e)
 /* Remainder is 12 */
-	.align 4
+	.align	4
 L(duPs3):
-	slw	rF, rWORD2, rSHL
-	slw	rWORD3, rWORD1, r11
-	slw	rWORD4, rWORD8, r11
+	slw	rWORD4_SHIFT, rWORD2, rSHL
+	slw	rWORD3, rWORD1, rWORD6
+	slw	rWORD4, rWORD8, rWORD6
 	b	L(duP3e)
 /* Count is a multiple of 16, remainder is 0 */
-	.align 4
+	.align	4
 L(duPs4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	or	rWORD8, rG, rWORD8
-	slw	rD, rWORD2, rSHL
-	slw	rWORD1, rWORD1, r11
-	slw	rWORD2, rWORD8, r11
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	or	rWORD8, r12, rWORD8
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	slw	rWORD1, rWORD1, rWORD6
+	slw	rWORD2, rWORD8, rWORD6
 	b	L(duP4e)
 
 /* At this point we know rSTR1 is word aligned and the
    compare length is at least 8 bytes.  */
-	.align 4
+	.align	4
 L(Wunaligned):
-        stw     r27,32(r1)	
-	cfi_offset(r27,(32-64))
+	stw	rWORD8_SHIFT, 32(r1)
+	cfi_offset(rWORD8_SHIFT, (32-64))
 	clrrwi	rSTR2, rSTR2, 2
-        stw     r26,28(r1)	
-	cfi_offset(r26,(28-64))
-	srwi	rTMP, rN, 4	 /* Divide by 16 */
-        stw     r25,24(r1)	
-	cfi_offset(r25,(24-64))
-	andi.	rBITDIF, rN, 12  /* Get the W remainder */
-        stw     r24,20(r1)	
-	cfi_offset(r24,(20-64))
+	stw	rWORD2_SHIFT, 28(r1)
+	cfi_offset(rWORD2_SHIFT, (28-64))
+	srwi	r0, rN, 4	/* Divide by 16 */
+	stw	rWORD4_SHIFT, 24(r1)
+	cfi_offset(rWORD4_SHIFT, (24-64))
+	andi.	r12, rN, 12	/* Get the W remainder */
+	stw	rWORD6_SHIFT, 20(r1)
+	cfi_offset(rWORD6_SHIFT, (20-64))
 	slwi	rSHL, rSHL, 3
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD6, 0(rSTR2)
 	lwzu	rWORD8, 4(rSTR2)
-	cmplwi	cr1, rBITDIF, 8
+#endif
+	cmplwi	cr1, r12, 8
 	cmplwi	cr7, rN, 16
 	clrlwi	rN, rN, 30
 	subfic	rSHR, rSHL, 32
-	slw	rH, rWORD6, rSHL
+	slw	rWORD6_SHIFT, rWORD6, rSHL
 	beq	L(duP4)
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
 	bgt	cr1, L(duP3)
 	beq	cr1, L(duP2)
 		
 /* Remainder is 4 */
-	.align 4
+	.align	4
 L(duP1):
-	srw	rG, rWORD8, rSHR
+	srw	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
 	lwz	rWORD7, 0(rSTR1)
-	slw	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+#endif
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	blt	cr7, L(duP1x)
 L(duP1e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 4(rSTR1)
 	lwz	rWORD2, 4(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
-	srw	rA, rWORD2, rSHR
-	slw	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 8(rSTR1)
 	lwz	rWORD4, 8(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
-	srw	rC, rWORD4, rSHR
-	slw	rF, rWORD4, rSHL
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
 	bne	cr5, L(duLcr5)
-	or	rWORD4, rC, rD
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 12(rSTR1)
 	lwz	rWORD6, 12(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
-	srw	rE, rWORD6, rSHR
-	slw	rH, rWORD6, rSHL
-	bne	cr0, L(duLcr0)
-	or	rWORD6, rE, rF
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	bne	cr7, L(duLcr7)
+	or	rWORD6, r0, rWORD4_SHIFT
 	cmplw	cr6, rWORD5, rWORD6
 	b	L(duLoop3)	
-	.align 4
+	.align	4
 /* At this point we exit early with the first word compare
    complete and remainder of 0 to 3 bytes.  See L(du14) for details on
    how we handle the remaining bytes.  */
@@ -700,186 +951,321 @@
 	bne	cr5, L(duLcr5)
 	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
-	ld	rWORD2, 8(rSTR2)
-	srw	rA, rWORD2, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD2, 8(rSTR2)
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 8 */
-	.align 4
+	.align	4
 L(duP2):
-	srw	rE, rWORD8, rSHR
+	srw	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
 	lwz	rWORD5, 0(rSTR1)
-	or	rWORD6, rE, rH
-	slw	rH, rWORD8, rSHL
+#endif
+	or	rWORD6, r0, rWORD6_SHIFT
+	slw	rWORD6_SHIFT, rWORD8, rSHL
 L(duP2e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD7, 4(rSTR1)
 	lwz	rWORD8, 4(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
-	srw	rG, rWORD8, rSHR
-	slw	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	blt	cr7, L(duP2x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 8(rSTR1)
 	lwz	rWORD2, 8(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
 	bne	cr6, L(duLcr6)
-	srw	rA, rWORD2, rSHR
-	slw	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 12(rSTR1)
 	lwz	rWORD4, 12(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 	bne	cr5, L(duLcr5)
-	srw	rC, rWORD4, rSHR
-	slw	rF, rWORD4, rSHL
-	or	rWORD4, rC, rD
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 4
 	addi	rSTR2, rSTR2, 4
+#endif
 	cmplw	cr1, rWORD3, rWORD4
 	b	L(duLoop2)
-	.align 4
+	.align	4
 L(duP2x):
 	cmplw	cr5, rWORD7, rWORD8
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 4
 	addi	rSTR2, rSTR2, 4
+#endif
 	bne	cr6, L(duLcr6)
 	slwi.	rN, rN, 3
 	bne	cr5, L(duLcr5)
 	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD2, 4(rSTR2)
-	srw	rA, rWORD2, rSHR
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 		
 /* Remainder is 12 */
-	.align 4
+	.align	4
 L(duP3):
-	srw	rC, rWORD8, rSHR
+	srw	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
 	lwz	rWORD3, 0(rSTR1)
-	slw	rF, rWORD8, rSHL
-	or	rWORD4, rC, rH
+#endif
+	slw	rWORD4_SHIFT, rWORD8, rSHL
+	or	rWORD4, r12, rWORD6_SHIFT
 L(duP3e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 4(rSTR1)
 	lwz	rWORD6, 4(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
-	srw	rE, rWORD6, rSHR
-	slw	rH, rWORD6, rSHL
-	or	rWORD6, rE, rF
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD7, 8(rSTR1)
 	lwz	rWORD8, 8(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
 	bne	cr1, L(duLcr1)
-	srw	rG, rWORD8, rSHR
-	slw	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	blt	cr7, L(duP3x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 12(rSTR1)
 	lwz	rWORD2, 12(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
 	bne	cr6, L(duLcr6)
-	srw	rA, rWORD2, rSHR
-	slw	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 	b	L(duLoop1)
-	.align 4
+	.align	4
 L(duP3x):
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
+#endif
+#if 0
+/* Huh?  We've already branched on cr1!  */
 	bne	cr1, L(duLcr1)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
 	bne	cr6, L(duLcr6)
 	slwi.	rN, rN, 3
 	bne	cr5, L(duLcr5)
 	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD2, 4(rSTR2)
-	srw	rA, rWORD2, rSHR
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 	
 /* Count is a multiple of 16, remainder is 0 */
-	.align 4
+	.align	4
 L(duP4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	srw	rA, rWORD8, rSHR
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	srw	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
 	lwz	rWORD1, 0(rSTR1)
-	slw	rD, rWORD8, rSHL
-	or	rWORD2, rA, rH
+#endif
+	slw	rWORD2_SHIFT, rWORD8, rSHL
+	or	rWORD2, r0, rWORD6_SHIFT
 L(duP4e):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 4(rSTR1)
 	lwz	rWORD4, 4(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
-	srw	rC, rWORD4, rSHR
-	slw	rF, rWORD4, rSHL
-	or	rWORD4, rC, rD
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 8(rSTR1)
 	lwz	rWORD6, 8(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
-	bne	cr0, L(duLcr0)
-	srw	rE, rWORD6, rSHR
-	slw	rH, rWORD6, rSHL
-	or	rWORD6, rE, rF
+	bne	cr7, L(duLcr7)
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwzu	rWORD7, 12(rSTR1)
 	lwzu	rWORD8, 12(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
 	bne	cr1, L(duLcr1)
-	srw	rG, rWORD8, rSHR
-	slw	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	cmplw	cr5, rWORD7, rWORD8
 	bdz-	L(du24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
-	.align 4
+	.align	4
 L(duLoop):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD1, 4(rSTR1)
 	lwz	rWORD2, 4(rSTR2)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
 	bne	cr6, L(duLcr6)
-	srw	rA, rWORD2, rSHR
-	slw	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
 L(duLoop1):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD3, 8(rSTR1)
 	lwz	rWORD4, 8(rSTR2)
+#endif
 	cmplw	cr6, rWORD5, rWORD6
 	bne	cr5, L(duLcr5)
-	srw	rC, rWORD4, rSHR
-	slw	rF, rWORD4, rSHL
-	or	rWORD4, rC, rD
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
 L(duLoop2):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD5, 12(rSTR1)
 	lwz	rWORD6, 12(rSTR2)
+#endif
 	cmplw	cr5, rWORD7, rWORD8
-	bne	cr0, L(duLcr0)
-	srw	rE, rWORD6, rSHR
-	slw	rH, rWORD6, rSHL
-	or	rWORD6, rE, rF
+	bne	cr7, L(duLcr7)
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
 L(duLoop3):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
 	lwzu	rWORD7, 16(rSTR1)
 	lwzu	rWORD8, 16(rSTR2)
-	cmplw	cr0, rWORD1, rWORD2
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 	bne-	cr1, L(duLcr1)
-	srw	rG, rWORD8, rSHR
-	slw	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	bdnz+	L(duLoop)	
 	
 L(duL4):
+#if 0
+/* Huh?  We've already branched on cr1!  */
 	bne	cr1, L(duLcr1)
+#endif
 	cmplw	cr1, rWORD3, rWORD4
 	bne	cr6, L(duLcr6)
 	cmplw	cr6, rWORD5, rWORD6
 	bne	cr5, L(duLcr5)
 	cmplw	cr5, rWORD7, rWORD8
 L(du44):
-	bne	cr0, L(duLcr0)
+	bne	cr7, L(duLcr7)
 L(du34):
 	bne	cr1, L(duLcr1)
 L(du24):
@@ -889,95 +1275,101 @@
 	bne	cr5, L(duLcr5)
 /* At this point we have a remainder of 1 to 3 bytes to compare.  We use
    shift right to eliminate bits beyond the compare length. 
+   This allows the use of word subtract to compute the final result.
 
    However it may not be safe to load rWORD2 which may be beyond the 
    string length. So we compare the bit length of the remainder to
    the right shift count (rSHR). If the bit count is less than or equal
    we do not need to load rWORD2 (all significant bits are already in
-   rB).  */
+   rWORD8_SHIFT).  */
 	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
 	lwz	rWORD2, 4(rSTR2)
-	srw	rA, rWORD2, rSHR
-	.align 4
+#endif
+	srw	r0, rWORD2, rSHR
+	.align	4
 L(dutrim):
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+#else
 	lwz	rWORD1, 4(rSTR1)
-        lwz     r31,48(1)
+#endif
+	lwz	rWORD8, 48(r1)
 	subfic	rN, rN, 32	/* Shift count is 32 - (rN * 8).  */ 
-	or	rWORD2, rA, rB
-        lwz     r30,44(1)
-        lwz     r29,40(r1)
+	or	rWORD2, r0, rWORD8_SHIFT
+	lwz	rWORD7, 44(r1)
+	lwz	rSHL, 40(r1)
 	srw	rWORD1, rWORD1, rN
 	srw	rWORD2, rWORD2, rN
-        lwz     r28,36(r1)	
-        lwz     r27,32(r1)
-        cmplw   rWORD1,rWORD2
-        li      rRTN,0
-        beq     L(dureturn26)
-        li      rRTN,1
-        bgt     L(dureturn26)
-        li      rRTN,-1
-	b    L(dureturn26)
-	.align 4
-L(duLcr0):
-        lwz     r31,48(1)
-        lwz     r30,44(1)
-	li	rRTN, 1
-	bgt	cr0, L(dureturn29)	
-	lwz     r29,40(r1)
-        lwz     r28,36(r1)	
+	lwz	rSHR, 36(r1)
+	lwz	rWORD8_SHIFT, 32(r1)
+	sub	rRTN, rWORD1, rWORD2
+	b	L(dureturn26)
+	.align	4
+L(duLcr7):
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
+	li	rRTN, 1
+	bgt	cr7, L(dureturn29)
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
-	.align 4
+	.align	4
 L(duLcr1):
-        lwz     r31,48(1)
-        lwz     r30,44(1)
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
 	li	rRTN, 1
 	bgt	cr1, L(dureturn29)	
-        lwz     r29,40(r1)
-        lwz     r28,36(r1)	
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
-	.align 4
+	.align	4
 L(duLcr6):
-        lwz     r31,48(1)
-        lwz     r30,44(1)
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
 	li	rRTN, 1
 	bgt	cr6, L(dureturn29)	
-        lwz     r29,40(r1)
-        lwz     r28,36(r1)	
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
-	.align 4
+	.align	4
 L(duLcr5):
-        lwz     r31,48(1)
-        lwz     r30,44(1)
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
 	li	rRTN, 1
 	bgt	cr5, L(dureturn29)	
-        lwz     r29,40(r1)
-        lwz     r28,36(r1)	
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
 	.align	3
 L(duZeroReturn):
-	li	rRTN,0
+	li	rRTN, 0
 	.align	4
 L(dureturn):
-        lwz     r31,48(1)
-        lwz     r30,44(1)
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
 L(dureturn29):	
-        lwz     r29,40(r1)
-        lwz     r28,36(r1)	
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
 L(dureturn27):	
-        lwz     r27,32(r1)
+	lwz	rWORD8_SHIFT, 32(r1)
 L(dureturn26):	
-        lwz     r26,28(r1)
+	lwz	rWORD2_SHIFT, 28(r1)
 L(dureturn25):	
-        lwz     r25,24(r1)
-        lwz     r24,20(r1)
-        lwz     1,0(1)
+	lwz	rWORD4_SHIFT, 24(r1)
+	lwz	rWORD6_SHIFT, 20(r1)
+	addi	1, 1, 64
+	cfi_adjust_cfa_offset(-64)
 	blr
 END (BP_SYM (memcmp))
 
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcmp.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcmp.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcmp.S	2014-05-28 19:22:37.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcmp.S	2014-05-28 21:44:57.000000000 -0500
@@ -25,10 +25,9 @@
 		    size_t size [r5])  */
 
 	.machine power7
-EALIGN (BP_SYM(memcmp),4,0)
+EALIGN (BP_SYM(memcmp), 4, 0)
 	CALL_MCOUNT
 
-#define rTMP	r0
 #define rRTN	r3
 #define rSTR1	r3	/* first string arg */
 #define rSTR2	r4	/* second string arg */
@@ -39,35 +38,32 @@
 #define rWORD4	r9	/* next word in s2 */
 #define rWORD5	r10	/* next word in s1 */
 #define rWORD6	r11	/* next word in s2 */
-#define rBITDIF	r12	/* bits that differ in s1 & s2 words */
 #define rWORD7	r30	/* next word in s1 */
 #define rWORD8	r31	/* next word in s2 */
 
-	xor	rTMP,rSTR2,rSTR1
-	cmplwi	cr6,rN,0
-	cmplwi	cr1,rN,12
-	clrlwi.	rTMP,rTMP,30
-	clrlwi	rBITDIF,rSTR1,30
-	cmplwi	cr5,rBITDIF,0
-	beq-	cr6,L(zeroLength)
-	dcbt	0,rSTR1
-	dcbt	0,rSTR2
-
-	/* If less than 8 bytes or not aligned, use the unaligned
-	   byte loop.  */
-
-	blt	cr1,L(bytealigned)
-	stwu	1,-64(1)
+	xor	r0, rSTR2, rSTR1
+	cmplwi	cr6, rN, 0
+	cmplwi	cr1, rN, 12
+	clrlwi.	r0, r0, 30
+	clrlwi	r12, rSTR1, 30
+	cmplwi	cr5, r12, 0
+	beq-	cr6, L(zeroLength)
+	dcbt	0, rSTR1
+	dcbt	0, rSTR2
+/* If less than 8 bytes or not aligned, use the unaligned
+   byte loop.  */
+	blt	cr1, L(bytealigned)
+	stwu	1, -64(r1)
 	cfi_adjust_cfa_offset(64)
-	stw	r31,48(1)
-	cfi_offset(31,(48-64))
-	stw	r30,44(1)
-	cfi_offset(30,(44-64))
+	stw	rWORD8, 48(r1)
+	cfi_offset(rWORD8, (48-64))
+	stw	rWORD7, 44(r1)
+	cfi_offset(rWORD7, (44-64))
 	bne	L(unaligned)
 /* At this point we know both strings have the same alignment and the
-   compare length is at least 8 bytes.  rBITDIF contains the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    2 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then we are already word
+   of r12 to 0.  If r12 == 0 then we are already word
    aligned and can perform the word aligned loop.
 
    Otherwise we know the two strings have the same alignment (but not
@@ -76,332 +72,541 @@
    eliminate bits preceeding the first byte.  Since we want to join the
    normal (word aligned) compare loop, starting at the second word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first word. This insures that the loop count is
+   versioning for the first word. This ensures that the loop count is
    correct and the first word (shifted) is in the expected register pair. */
 	.align	4
 L(samealignment):
-	clrrwi	rSTR1,rSTR1,2
-	clrrwi	rSTR2,rSTR2,2
-	beq	cr5,L(Waligned)
-	add	rN,rN,rBITDIF
-	slwi	r11,rBITDIF,3
-	srwi	rTMP,rN,4	/* Divide by 16 */
-	andi.	rBITDIF,rN,12	/* Get the word remainder */
-	lwz	rWORD1,0(rSTR1)
-	lwz	rWORD2,0(rSTR2)
-	cmplwi	cr1,rBITDIF,8
-	cmplwi	cr7,rN,16
-	clrlwi	rN,rN,30
+	clrrwi	rSTR1, rSTR1, 2
+	clrrwi	rSTR2, rSTR2, 2
+	beq	cr5, L(Waligned)
+	add	rN, rN, r12
+	slwi	rWORD6, r12, 3
+	srwi	r0, rN, 4	/* Divide by 16 */
+	andi.	r12, rN, 12	/* Get the word remainder */
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 0(rSTR1)
+	lwz	rWORD2, 0(rSTR2)
+#endif
+	cmplwi	cr1, r12, 8
+	cmplwi	cr7, rN, 16
+	clrlwi	rN, rN, 30
 	beq	L(dPs4)
-	mtctr	rTMP
-	bgt	cr1,L(dPs3)
-	beq	cr1,L(dPs2)
+	mtctr	r0
+	bgt	cr1, L(dPs3)
+	beq	cr1, L(dPs2)
 
 /* Remainder is 4 */
 	.align	3
 L(dsP1):
-	slw	rWORD5,rWORD1,r11
-	slw	rWORD6,rWORD2,r11
-	cmplw	cr5,rWORD5,rWORD6
-	blt	cr7,L(dP1x)
+	slw	rWORD5, rWORD1, rWORD6
+	slw	rWORD6, rWORD2, rWORD6
+	cmplw	cr5, rWORD5, rWORD6
+	blt	cr7, L(dP1x)
 /* Do something useful in this cycle since we have to branch anyway.  */
-	lwz	rWORD1,4(rSTR1)
-	lwz	rWORD2,4(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 4(rSTR1)
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 	b	L(dP1e)
 /* Remainder is 8 */
 	.align	4
 L(dPs2):
-	slw	rWORD5,rWORD1,r11
-	slw	rWORD6,rWORD2,r11
-	cmplw	cr6,rWORD5,rWORD6
-	blt	cr7,L(dP2x)
+	slw	rWORD5, rWORD1, rWORD6
+	slw	rWORD6, rWORD2, rWORD6
+	cmplw	cr6, rWORD5, rWORD6
+	blt	cr7, L(dP2x)
 /* Do something useful in this cycle since we have to branch anyway.  */
-	lwz	rWORD7,4(rSTR1)
-	lwz	rWORD8,4(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD7, 4(rSTR1)
+	lwz	rWORD8, 4(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
 	b	L(dP2e)
 /* Remainder is 12 */
 	.align	4
 L(dPs3):
-	slw	rWORD3,rWORD1,r11
-	slw	rWORD4,rWORD2,r11
-	cmplw	cr1,rWORD3,rWORD4
+	slw	rWORD3, rWORD1, rWORD6
+	slw	rWORD4, rWORD2, rWORD6
+	cmplw	cr1, rWORD3, rWORD4
 	b	L(dP3e)
 /* Count is a multiple of 16, remainder is 0 */
 	.align	4
 L(dPs4):
-	mtctr	rTMP
-	slw	rWORD1,rWORD1,r11
-	slw	rWORD2,rWORD2,r11
-	cmplw	cr0,rWORD1,rWORD2
+	mtctr	r0
+	slw	rWORD1, rWORD1, rWORD6
+	slw	rWORD2, rWORD2, rWORD6
+	cmplw	cr7, rWORD1, rWORD2
 	b	L(dP4e)
 
 /* At this point we know both strings are word aligned and the
    compare length is at least 8 bytes.  */
 	.align	4
 L(Waligned):
-	andi.	rBITDIF,rN,12	/* Get the word remainder */
-	srwi	rTMP,rN,4	/* Divide by 16 */
-	cmplwi	cr1,rBITDIF,8
-	cmplwi	cr7,rN,16
-	clrlwi	rN,rN,30
+	andi.	r12, rN, 12	/* Get the word remainder */
+	srwi	r0, rN, 4	/* Divide by 16 */
+	cmplwi	cr1, r12, 8
+	cmplwi	cr7, rN, 16
+	clrlwi	rN, rN, 30
 	beq	L(dP4)
-	bgt	cr1,L(dP3)
-	beq	cr1,L(dP2)
+	bgt	cr1, L(dP3)
+	beq	cr1, L(dP2)
 
 /* Remainder is 4 */
 	.align	4
 L(dP1):
-	mtctr	rTMP
+	mtctr	r0
 /* Normally we'd use rWORD7/rWORD8 here, but since we might exit early
    (8-15 byte compare), we want to use only volatile registers.  This
    means we can avoid restoring non-volatile registers since we did not
    change any on the early exit path.  The key here is the non-early
    exit path only cares about the condition code (cr5), not about which
    register pair was used.  */
-	lwz	rWORD5,0(rSTR1)
-	lwz	rWORD6,0(rSTR2)
-	cmplw	cr5,rWORD5,rWORD6
-	blt	cr7,L(dP1x)
-	lwz	rWORD1,4(rSTR1)
-	lwz	rWORD2,4(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 0(rSTR1)
+	lwz	rWORD6, 0(rSTR2)
+#endif
+	cmplw	cr5, rWORD5, rWORD6
+	blt	cr7, L(dP1x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 4(rSTR1)
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 L(dP1e):
-	lwz	rWORD3,8(rSTR1)
-	lwz	rWORD4,8(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	lwz	rWORD5,12(rSTR1)
-	lwz	rWORD6,12(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	bne	cr5,L(dLcr5)
-	bne	cr0,L(dLcr0)
-
-	lwzu	rWORD7,16(rSTR1)
-	lwzu	rWORD8,16(rSTR2)
-	bne	cr1,L(dLcr1)
-	cmplw	cr5,rWORD7,rWORD8
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 8(rSTR1)
+	lwz	rWORD4, 8(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 12(rSTR1)
+	lwz	rWORD6, 12(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	bne	cr5, L(dLcr5x)
+	bne	cr7, L(dLcr7x)
+
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwzu	rWORD7, 16(rSTR1)
+	lwzu	rWORD8, 16(rSTR2)
+#endif
+	bne	cr1, L(dLcr1)
+	cmplw	cr5, rWORD7, rWORD8
 	bdnz	L(dLoop)
-	bne	cr6,L(dLcr6)
-	lwz	r30,44(1)
-	lwz	r31,48(1)
+	bne	cr6, L(dLcr6)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
 	.align	3
 L(dP1x):
-	slwi.	r12,rN,3
-	bne	cr5,L(dLcr5)
-	subfic	rN,r12,32	/* Shift count is 32 - (rN * 8).  */
-	lwz	1,0(1)
+	slwi.	r12, rN, 3
+	bne	cr5, L(dLcr5x)
+	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
 	bne	L(d00)
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
 /* Remainder is 8 */
 	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dP2):
-	mtctr	rTMP
-	lwz	rWORD5,0(rSTR1)
-	lwz	rWORD6,0(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	blt	cr7,L(dP2x)
-	lwz	rWORD7,4(rSTR1)
-	lwz	rWORD8,4(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
+	mtctr	r0
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 0(rSTR1)
+	lwz	rWORD6, 0(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	blt	cr7, L(dP2x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD7, 4(rSTR1)
+	lwz	rWORD8, 4(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
 L(dP2e):
-	lwz	rWORD1,8(rSTR1)
-	lwz	rWORD2,8(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
-	lwz	rWORD3,12(rSTR1)
-	lwz	rWORD4,12(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	addi	rSTR1,rSTR1,4
-	addi	rSTR2,rSTR2,4
-	bne	cr6,L(dLcr6)
-	bne	cr5,L(dLcr5)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 8(rSTR1)
+	lwz	rWORD2, 8(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 12(rSTR1)
+	lwz	rWORD4, 12(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#endif
+	bne	cr6, L(dLcr6)
+	bne	cr5, L(dLcr5)
 	b	L(dLoop2)
 /* Again we are on a early exit path (16-23 byte compare), we want to
    only use volatile registers and avoid restoring non-volatile
    registers.  */
 	.align	4
 L(dP2x):
-	lwz	rWORD3,4(rSTR1)
-	lwz	rWORD4,4(rSTR2)
-	cmplw	cr5,rWORD3,rWORD4
-	slwi.	r12,rN,3
-	bne	cr6,L(dLcr6)
-	addi	rSTR1,rSTR1,4
-	addi	rSTR2,rSTR2,4
-	bne	cr5,L(dLcr5)
-	subfic	rN,r12,32	/* Shift count is 32 - (rN * 8).  */
-	lwz	1,0(1)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 4(rSTR1)
+	lwz	rWORD4, 4(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+	slwi.	r12, rN, 3
+	bne	cr6, L(dLcr6x)
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#endif
+	bne	cr1, L(dLcr1x)
+	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
 	bne	L(d00)
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
 /* Remainder is 12 */
 	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dP3):
-	mtctr	rTMP
-	lwz	rWORD3,0(rSTR1)
-	lwz	rWORD4,0(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
+	mtctr	r0
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 0(rSTR1)
+	lwz	rWORD4, 0(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
 L(dP3e):
-	lwz	rWORD5,4(rSTR1)
-	lwz	rWORD6,4(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	blt	cr7,L(dP3x)
-	lwz	rWORD7,8(rSTR1)
-	lwz	rWORD8,8(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
-	lwz	rWORD1,12(rSTR1)
-	lwz	rWORD2,12(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	bne	cr1,L(dLcr1)
-	bne	cr6,L(dLcr6)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 4(rSTR1)
+	lwz	rWORD6, 4(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	blt	cr7, L(dP3x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD7, 8(rSTR1)
+	lwz	rWORD8, 8(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 12(rSTR1)
+	lwz	rWORD2, 12(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+	bne	cr1, L(dLcr1)
+	bne	cr6, L(dLcr6)
 	b	L(dLoop1)
 /* Again we are on a early exit path (24-31 byte compare), we want to
    only use volatile registers and avoid restoring non-volatile
    registers.  */
 	.align	4
 L(dP3x):
-	lwz	rWORD1,8(rSTR1)
-	lwz	rWORD2,8(rSTR2)
-	cmplw	cr5,rWORD1,rWORD2
-	slwi.	r12,rN,3
-	bne	cr1,L(dLcr1)
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	bne	cr6,L(dLcr6)
-	subfic	rN,r12,32	/* Shift count is 32 - (rN * 8).  */
-	bne	cr5,L(dLcr5)
-	lwz	1,0(1)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 8(rSTR1)
+	lwz	rWORD2, 8(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+	slwi.	r12, rN, 3
+	bne	cr1, L(dLcr1x)
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+	bne	cr6, L(dLcr6x)
+	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
+	bne	cr7, L(dLcr7x)
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
 	bne	L(d00)
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
 /* Count is a multiple of 16, remainder is 0 */
 	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dP4):
-	mtctr	rTMP
-	lwz	rWORD1,0(rSTR1)
-	lwz	rWORD2,0(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
+	mtctr	r0
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 0(rSTR1)
+	lwz	rWORD2, 0(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 L(dP4e):
-	lwz	rWORD3,4(rSTR1)
-	lwz	rWORD4,4(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	lwz	rWORD5,8(rSTR1)
-	lwz	rWORD6,8(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	lwzu	rWORD7,12(rSTR1)
-	lwzu	rWORD8,12(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
-	bne	cr0,L(dLcr0)
-	bne	cr1,L(dLcr1)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 4(rSTR1)
+	lwz	rWORD4, 4(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 8(rSTR1)
+	lwz	rWORD6, 8(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwzu	rWORD7, 12(rSTR1)
+	lwzu	rWORD8, 12(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+	bne	cr7, L(dLcr7)
+	bne	cr1, L(dLcr1)
 	bdz-	L(d24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
 	.align	4
 L(dLoop):
-	lwz	rWORD1,4(rSTR1)
-	lwz	rWORD2,4(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	bne	cr6,L(dLcr6)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 4(rSTR1)
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+	bne	cr6, L(dLcr6)
 L(dLoop1):
-	lwz	rWORD3,8(rSTR1)
-	lwz	rWORD4,8(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	bne	cr5,L(dLcr5)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 8(rSTR1)
+	lwz	rWORD4, 8(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	bne	cr5, L(dLcr5)
 L(dLoop2):
-	lwz	rWORD5,12(rSTR1)
-	lwz	rWORD6,12(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
-	bne	cr0,L(dLcr0)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 12(rSTR1)
+	lwz	rWORD6, 12(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+	bne	cr7, L(dLcr7)
 L(dLoop3):
-	lwzu	rWORD7,16(rSTR1)
-	lwzu	rWORD8,16(rSTR2)
-	bne	cr1,L(dLcr1)
-	cmplw	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwzu	rWORD7, 16(rSTR1)
+	lwzu	rWORD8, 16(rSTR2)
+#endif
+	bne	cr1, L(dLcr1)
+	cmplw	cr7, rWORD1, rWORD2
 	bdnz	L(dLoop)
 
 L(dL4):
-	cmplw	cr1,rWORD3,rWORD4
-	bne	cr6,L(dLcr6)
-	cmplw	cr6,rWORD5,rWORD6
-	bne	cr5,L(dLcr5)
-	cmplw	cr5,rWORD7,rWORD8
+	cmplw	cr1, rWORD3, rWORD4
+	bne	cr6, L(dLcr6)
+	cmplw	cr6, rWORD5, rWORD6
+	bne	cr5, L(dLcr5)
+	cmplw	cr5, rWORD7, rWORD8
 L(d44):
-	bne	cr0,L(dLcr0)
+	bne	cr7, L(dLcr7)
 L(d34):
-	bne	cr1,L(dLcr1)
+	bne	cr1, L(dLcr1)
 L(d24):
-	bne	cr6,L(dLcr6)
+	bne	cr6, L(dLcr6)
 L(d14):
-	slwi.	r12,rN,3
-	bne	cr5,L(dLcr5)
+	slwi.	r12, rN, 3
+	bne	cr5, L(dLcr5)
 L(d04):
-	lwz	r30,44(1)
-	lwz	r31,48(1)
-	lwz	1,0(1)
-	subfic	rN,r12,32	/* Shift count is 32 - (rN * 8).  */
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
+	subfic	rN, r12, 32	/* Shift count is 32 - (rN * 8).  */
 	beq	L(zeroLength)
 /* At this point we have a remainder of 1 to 3 bytes to compare.  Since
    we are aligned it is safe to load the whole word, and use
-   shift right to eliminate bits beyond the compare length. */
+   shift right to eliminate bits beyond the compare length.  */
 L(d00):
-	lwz	rWORD1,4(rSTR1)
-	lwz	rWORD2,4(rSTR2)
-	srw	rWORD1,rWORD1,rN
-	srw	rWORD2,rWORD2,rN
-	cmplw	rWORD1,rWORD2
-	li	rRTN,0
-	beqlr
-	li	rRTN,1
-	bgtlr
-	li	rRTN,-1
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 4(rSTR1)
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	srw	rWORD1, rWORD1, rN
+	srw	rWORD2, rWORD2, rN
+	sub	rRTN, rWORD1, rWORD2
 	blr
 
 	.align	4
-L(dLcr0):
-	lwz	r30,44(1)
-	lwz	r31,48(1)
-	li	rRTN,1
-	lwz	1,0(1)
-	bgtlr	cr0
-	li	rRTN,-1
+	cfi_adjust_cfa_offset(64)
+L(dLcr7):
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+L(dLcr7x):
+	li	rRTN, 1
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
+	bgtlr	cr7
+	li	rRTN, -1
 	blr
 	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dLcr1):
-	lwz	r30,44(1)
-	lwz	r31,48(1)
-	li	rRTN,1
-	lwz	1,0(1)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+L(dLcr1x):
+	li	rRTN, 1
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
 	bgtlr	cr1
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dLcr6):
-	lwz	r30,44(1)
-	lwz	r31,48(1)
-	li	rRTN,1
-	lwz	1,0(1)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
+L(dLcr6x):
+	li	rRTN, 1
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
 	bgtlr	cr6
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 	.align	4
+	cfi_adjust_cfa_offset(64)
 L(dLcr5):
-	lwz	r30,44(1)
-	lwz	r31,48(1)
+	lwz	rWORD7, 44(r1)
+	lwz	rWORD8, 48(r1)
 L(dLcr5x):
-	li	rRTN,1
-	lwz	1,0(1)
+	li	rRTN, 1
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
 	bgtlr	cr5
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 
 	.align	4
 L(bytealigned):
-	cfi_adjust_cfa_offset(-64)
 	mtctr	rN
 
 /* We need to prime this loop.  This loop is swing modulo scheduled
@@ -413,38 +618,39 @@
 
    So we must precondition some registers and condition codes so that
    we don't exit the loop early on the first iteration.  */
-	lbz	rWORD1,0(rSTR1)
-	lbz	rWORD2,0(rSTR2)
+
+	lbz	rWORD1, 0(rSTR1)
+	lbz	rWORD2, 0(rSTR2)
 	bdz	L(b11)
-	cmplw	cr0,rWORD1,rWORD2
-	lbz	rWORD3,1(rSTR1)
-	lbz	rWORD4,1(rSTR2)
+	cmplw	cr7, rWORD1, rWORD2
+	lbz	rWORD3, 1(rSTR1)
+	lbz	rWORD4, 1(rSTR2)
 	bdz	L(b12)
-	cmplw	cr1,rWORD3,rWORD4
-	lbzu	rWORD5,2(rSTR1)
-	lbzu	rWORD6,2(rSTR2)
+	cmplw	cr1, rWORD3, rWORD4
+	lbzu	rWORD5, 2(rSTR1)
+	lbzu	rWORD6, 2(rSTR2)
 	bdz	L(b13)
 	.align	4
 L(bLoop):
-	lbzu	rWORD1,1(rSTR1)
-	lbzu	rWORD2,1(rSTR2)
-	bne	cr0,L(bLcr0)
+	lbzu	rWORD1, 1(rSTR1)
+	lbzu	rWORD2, 1(rSTR2)
+	bne	cr7, L(bLcr7)
 
-	cmplw	cr6,rWORD5,rWORD6
+	cmplw	cr6, rWORD5, rWORD6
 	bdz	L(b3i)
 
-	lbzu	rWORD3,1(rSTR1)
-	lbzu	rWORD4,1(rSTR2)
-	bne	cr1,L(bLcr1)
+	lbzu	rWORD3, 1(rSTR1)
+	lbzu	rWORD4, 1(rSTR2)
+	bne	cr1, L(bLcr1)
 
-	cmplw	cr0,rWORD1,rWORD2
+	cmplw	cr7, rWORD1, rWORD2
 	bdz	L(b2i)
 
-	lbzu	rWORD5,1(rSTR1)
-	lbzu	rWORD6,1(rSTR2)
-	bne	cr6,L(bLcr6)
+	lbzu	rWORD5, 1(rSTR1)
+	lbzu	rWORD6, 1(rSTR2)
+	bne	cr6, L(bLcr6)
 
-	cmplw	cr1,rWORD3,rWORD4
+	cmplw	cr1, rWORD3, rWORD4
 	bdnz	L(bLoop)
 
 /* We speculatively loading bytes before we have tested the previous
@@ -454,67 +660,62 @@
    tested.  In this case we must complete the pending operations
    before returning.  */
 L(b1i):
-	bne	cr0,L(bLcr0)
-	bne	cr1,L(bLcr1)
+	bne	cr7, L(bLcr7)
+	bne	cr1, L(bLcr1)
 	b	L(bx56)
 	.align	4
 L(b2i):
-	bne	cr6,L(bLcr6)
-	bne	cr0,L(bLcr0)
+	bne	cr6, L(bLcr6)
+	bne	cr7, L(bLcr7)
 	b	L(bx34)
 	.align	4
 L(b3i):
-	bne	cr1,L(bLcr1)
-	bne	cr6,L(bLcr6)
+	bne	cr1, L(bLcr1)
+	bne	cr6, L(bLcr6)
 	b	L(bx12)
 	.align	4
-L(bLcr0):
-	li	rRTN,1
-	bgtlr	cr0
-	li	rRTN,-1
+L(bLcr7):
+	li	rRTN, 1
+	bgtlr	cr7
+	li	rRTN, -1
 	blr
 L(bLcr1):
-	li	rRTN,1
+	li	rRTN, 1
 	bgtlr	cr1
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 L(bLcr6):
-	li	rRTN,1
+	li	rRTN, 1
 	bgtlr	cr6
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 
 L(b13):
-	bne	cr0,L(bx12)
-	bne	cr1,L(bx34)
+	bne	cr7, L(bx12)
+	bne	cr1, L(bx34)
 L(bx56):
-	sub	rRTN,rWORD5,rWORD6
+	sub	rRTN, rWORD5, rWORD6
 	blr
 	nop
 L(b12):
-	bne	cr0,L(bx12)
+	bne	cr7, L(bx12)
 L(bx34):
-	sub	rRTN,rWORD3,rWORD4
+	sub	rRTN, rWORD3, rWORD4
 	blr
-
 L(b11):
 L(bx12):
-	sub	rRTN,rWORD1,rWORD2
+	sub	rRTN, rWORD1, rWORD2
 	blr
-
 	.align	4
-L(zeroLengthReturn):
-
 L(zeroLength):
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
-	cfi_adjust_cfa_offset(64)
 	.align	4
 /* At this point we know the strings have different alignment and the
-   compare length is at least 8 bytes.  rBITDIF contains the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    2 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then rStr1 is word aligned and can
+   of r12 to 0.  If r12 == 0 then rStr1 is word aligned and can
    perform the Wunaligned loop.
 
    Otherwise we know that rSTR1 is not aready word aligned yet.
@@ -523,465 +724,654 @@
    eliminate bits preceeding the first byte.  Since we want to join the
    normal (Wualigned) compare loop, starting at the second word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first W. This insures that the loop count is
+   versioning for the first W. This ensures that the loop count is
    correct and the first W (shifted) is in the expected resister pair.  */
 #define rSHL		r29	/* Unaligned shift left count.  */
 #define rSHR		r28	/* Unaligned shift right count.  */
-#define rB		r27	/* Left rotation temp for rWORD2.  */
-#define rD		r26	/* Left rotation temp for rWORD4.  */
-#define rF		r25	/* Left rotation temp for rWORD6.  */
-#define rH		r24	/* Left rotation temp for rWORD8.  */
-#define rA		r0	/* Right rotation temp for rWORD2.  */
-#define rC		r12	/* Right rotation temp for rWORD4.  */
-#define rE		r0	/* Right rotation temp for rWORD6.  */
-#define rG		r12	/* Right rotation temp for rWORD8.  */
+#define rWORD8_SHIFT	r27	/* Left rotation temp for rWORD2.  */
+#define rWORD2_SHIFT	r26	/* Left rotation temp for rWORD4.  */
+#define rWORD4_SHIFT	r25	/* Left rotation temp for rWORD6.  */
+#define rWORD6_SHIFT	r24	/* Left rotation temp for rWORD8.  */
+	cfi_adjust_cfa_offset(64)
 L(unaligned):
-	stw	r29,40(r1)
-	cfi_offset(r29,(40-64))
-	clrlwi	rSHL,rSTR2,30
-	stw	r28,36(r1)
-	cfi_offset(r28,(36-64))
-	beq	cr5,L(Wunaligned)
-	stw	r27,32(r1)
-	cfi_offset(r27,(32-64))
+	stw	rSHL, 40(r1)
+	cfi_offset(rSHL, (40-64))
+	clrlwi	rSHL, rSTR2, 30
+	stw	rSHR, 36(r1)
+	cfi_offset(rSHR, (36-64))
+	beq	cr5, L(Wunaligned)
+	stw	rWORD8_SHIFT, 32(r1)
+	cfi_offset(rWORD8_SHIFT, (32-64))
 /* Adjust the logical start of rSTR2 to compensate for the extra bits
    in the 1st rSTR1 W.  */
-	sub	r27,rSTR2,rBITDIF
+	sub	rWORD8_SHIFT, rSTR2, r12
 /* But do not attempt to address the W before that W that contains
    the actual start of rSTR2.  */
-	clrrwi	rSTR2,rSTR2,2
-	stw	r26,28(r1)
-	cfi_offset(r26,(28-64))
-/* Compute the left/right shift counts for the unalign rSTR2,
+	clrrwi	rSTR2, rSTR2, 2
+	stw	rWORD2_SHIFT, 28(r1)
+	cfi_offset(rWORD2_SHIFT, (28-64))
+/* Compute the left/right shift counts for the unaligned rSTR2,
    compensating for the logical (W aligned) start of rSTR1.  */
-	clrlwi	rSHL,r27,30
-	clrrwi	rSTR1,rSTR1,2
-	stw	r25,24(r1)
-	cfi_offset(r25,(24-64))
-	slwi	rSHL,rSHL,3
-	cmplw	cr5,r27,rSTR2
-	add	rN,rN,rBITDIF
-	slwi	r11,rBITDIF,3
-	stw	r24,20(r1)
-	cfi_offset(r24,(20-64))
-	subfic	rSHR,rSHL,32
-	srwi	rTMP,rN,4	/* Divide by 16 */
-	andi.	rBITDIF,rN,12	/* Get the W remainder */
+	clrlwi	rSHL, rWORD8_SHIFT, 30
+	clrrwi	rSTR1, rSTR1, 2
+	stw	rWORD4_SHIFT, 24(r1)
+	cfi_offset(rWORD4_SHIFT, (24-64))
+	slwi	rSHL, rSHL, 3
+	cmplw	cr5, rWORD8_SHIFT, rSTR2
+	add	rN, rN, r12
+	slwi	rWORD6, r12, 3
+	stw	rWORD6_SHIFT, 20(r1)
+	cfi_offset(rWORD6_SHIFT, (20-64))
+	subfic	rSHR, rSHL, 32
+	srwi	r0, rN, 4	/* Divide by 16 */
+	andi.	r12, rN, 12	/* Get the W remainder */
 /* We normally need to load 2 Ws to start the unaligned rSTR2, but in
    this special case those bits may be discarded anyway.  Also we
    must avoid loading a W where none of the bits are part of rSTR2 as
    this may cross a page boundary and cause a page fault.  */
-	li	rWORD8,0
-	blt	cr5,L(dus0)
-	lwz	rWORD8,0(rSTR2)
-	la	rSTR2,4(rSTR2)
-	slw	rWORD8,rWORD8,rSHL
+	li	rWORD8, 0
+	blt	cr5, L(dus0)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD8, 0(rSTR2)
+	addi	rSTR2, rSTR2, 4
+#endif
+	slw	rWORD8, rWORD8, rSHL
 
 L(dus0):
-	lwz	rWORD1,0(rSTR1)
-	lwz	rWORD2,0(rSTR2)
-	cmplwi	cr1,rBITDIF,8
-	cmplwi	cr7,rN,16
-	srw	rG,rWORD2,rSHR
-	clrlwi	rN,rN,30
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 0(rSTR1)
+	lwz	rWORD2, 0(rSTR2)
+#endif
+	cmplwi	cr1, r12, 8
+	cmplwi	cr7, rN, 16
+	srw	r12, rWORD2, rSHR
+	clrlwi	rN, rN, 30
 	beq	L(duPs4)
-	mtctr	rTMP
-	or	rWORD8,rG,rWORD8
-	bgt	cr1,L(duPs3)
-	beq	cr1,L(duPs2)
+	mtctr	r0
+	or	rWORD8, r12, rWORD8
+	bgt	cr1, L(duPs3)
+	beq	cr1, L(duPs2)
 
 /* Remainder is 4 */
 	.align	4
 L(dusP1):
-	slw	rB,rWORD2,rSHL
-	slw	rWORD7,rWORD1,r11
-	slw	rWORD8,rWORD8,r11
-	bge	cr7,L(duP1e)
+	slw	rWORD8_SHIFT, rWORD2, rSHL
+	slw	rWORD7, rWORD1, rWORD6
+	slw	rWORD8, rWORD8, rWORD6
+	bge	cr7, L(duP1e)
 /* At this point we exit early with the first word compare
    complete and remainder of 0 to 3 bytes.  See L(du14) for details on
    how we handle the remaining bytes.  */
-	cmplw	cr5,rWORD7,rWORD8
-	slwi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmplw	cr7,rN,rSHR
+	cmplw	cr5, rWORD7, rWORD8
+	slwi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	lwz	rWORD2,4(rSTR2)
-	srw	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 8 */
 	.align	4
 L(duPs2):
-	slw	rH,rWORD2,rSHL
-	slw	rWORD5,rWORD1,r11
-	slw	rWORD6,rWORD8,r11
+	slw	rWORD6_SHIFT, rWORD2, rSHL
+	slw	rWORD5, rWORD1, rWORD6
+	slw	rWORD6, rWORD8, rWORD6
 	b	L(duP2e)
 /* Remainder is 12 */
 	.align	4
 L(duPs3):
-	slw	rF,rWORD2,rSHL
-	slw	rWORD3,rWORD1,r11
-	slw	rWORD4,rWORD8,r11
+	slw	rWORD4_SHIFT, rWORD2, rSHL
+	slw	rWORD3, rWORD1, rWORD6
+	slw	rWORD4, rWORD8, rWORD6
 	b	L(duP3e)
 /* Count is a multiple of 16, remainder is 0 */
 	.align	4
 L(duPs4):
-	mtctr	rTMP
-	or	rWORD8,rG,rWORD8
-	slw	rD,rWORD2,rSHL
-	slw	rWORD1,rWORD1,r11
-	slw	rWORD2,rWORD8,r11
+	mtctr	r0
+	or	rWORD8, r12, rWORD8
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	slw	rWORD1, rWORD1, rWORD6
+	slw	rWORD2, rWORD8, rWORD6
 	b	L(duP4e)
 
 /* At this point we know rSTR1 is word aligned and the
    compare length is at least 8 bytes.  */
 	.align	4
 L(Wunaligned):
-	stw	r27,32(r1)
-	cfi_offset(r27,(32-64))
-	clrrwi	rSTR2,rSTR2,2
-	stw	r26,28(r1)
-	cfi_offset(r26,(28-64))
-	srwi	rTMP,rN,4	/* Divide by 16 */
-	stw	r25,24(r1)
-	cfi_offset(r25,(24-64))
-	andi.	rBITDIF,rN,12	/* Get the W remainder */
-	stw	r24,20(r1)
-	cfi_offset(r24,(24-64))
-	slwi	rSHL,rSHL,3
-	lwz	rWORD6,0(rSTR2)
-	lwzu	rWORD8,4(rSTR2)
-	cmplwi	cr1,rBITDIF,8
-	cmplwi	cr7,rN,16
-	clrlwi	rN,rN,30
-	subfic	rSHR,rSHL,32
-	slw	rH,rWORD6,rSHL
+	stw	rWORD8_SHIFT, 32(r1)
+	cfi_offset(rWORD8_SHIFT, (32-64))
+	clrrwi	rSTR2, rSTR2, 2
+	stw	rWORD2_SHIFT, 28(r1)
+	cfi_offset(rWORD2_SHIFT, (28-64))
+	srwi	r0, rN, 4	/* Divide by 16 */
+	stw	rWORD4_SHIFT, 24(r1)
+	cfi_offset(rWORD4_SHIFT, (24-64))
+	andi.	r12, rN, 12	/* Get the W remainder */
+	stw	rWORD6_SHIFT, 20(r1)
+	cfi_offset(rWORD6_SHIFT, (20-64))
+	slwi	rSHL, rSHL, 3
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD6, 0(rSTR2)
+	lwzu	rWORD8, 4(rSTR2)
+#endif
+	cmplwi	cr1, r12, 8
+	cmplwi	cr7, rN, 16
+	clrlwi	rN, rN, 30
+	subfic	rSHR, rSHL, 32
+	slw	rWORD6_SHIFT, rWORD6, rSHL
 	beq	L(duP4)
-	mtctr	rTMP
-	bgt	cr1,L(duP3)
-	beq	cr1,L(duP2)
+	mtctr	r0
+	bgt	cr1, L(duP3)
+	beq	cr1, L(duP2)
 
 /* Remainder is 4 */
 	.align	4
 L(duP1):
-	srw	rG,rWORD8,rSHR
-	lwz	rWORD7,0(rSTR1)
-	slw	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	blt	cr7,L(duP1x)
+	srw	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
+	lwz	rWORD7, 0(rSTR1)
+#endif
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	blt	cr7, L(duP1x)
 L(duP1e):
-	lwz	rWORD1,4(rSTR1)
-	lwz	rWORD2,4(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
-	srw	rA,rWORD2,rSHR
-	slw	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
-	lwz	rWORD3,8(rSTR1)
-	lwz	rWORD4,8(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
-	srw	rC,rWORD4,rSHR
-	slw	rF,rWORD4,rSHL
-	bne	cr5,L(duLcr5)
-	or	rWORD4,rC,rD
-	lwz	rWORD5,12(rSTR1)
-	lwz	rWORD6,12(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	srw	rE,rWORD6,rSHR
-	slw	rH,rWORD6,rSHL
-	bne	cr0,L(duLcr0)
-	or	rWORD6,rE,rF
-	cmplw	cr6,rWORD5,rWORD6
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 4(rSTR1)
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 8(rSTR1)
+	lwz	rWORD4, 8(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
+	bne	cr5, L(duLcr5)
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 12(rSTR1)
+	lwz	rWORD6, 12(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	bne	cr7, L(duLcr7)
+	or	rWORD6, r0, rWORD4_SHIFT
+	cmplw	cr6, rWORD5, rWORD6
 	b	L(duLoop3)
 	.align	4
 /* At this point we exit early with the first word compare
    complete and remainder of 0 to 3 bytes.  See L(du14) for details on
    how we handle the remaining bytes.  */
 L(duP1x):
-	cmplw	cr5,rWORD7,rWORD8
-	slwi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmplw	cr7,rN,rSHR
+	cmplw	cr5, rWORD7, rWORD8
+	slwi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	ld	rWORD2,8(rSTR2)
-	srw	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD2, 8(rSTR2)
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 8 */
 	.align	4
 L(duP2):
-	srw	rE,rWORD8,rSHR
-	lwz	rWORD5,0(rSTR1)
-	or	rWORD6,rE,rH
-	slw	rH,rWORD8,rSHL
+	srw	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
+	lwz	rWORD5, 0(rSTR1)
+#endif
+	or	rWORD6, r0, rWORD6_SHIFT
+	slw	rWORD6_SHIFT, rWORD8, rSHL
 L(duP2e):
-	lwz	rWORD7,4(rSTR1)
-	lwz	rWORD8,4(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	srw	rG,rWORD8,rSHR
-	slw	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	blt	cr7,L(duP2x)
-	lwz	rWORD1,8(rSTR1)
-	lwz	rWORD2,8(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
-	bne	cr6,L(duLcr6)
-	srw	rA,rWORD2,rSHR
-	slw	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
-	lwz	rWORD3,12(rSTR1)
-	lwz	rWORD4,12(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
-	bne	cr5,L(duLcr5)
-	srw	rC,rWORD4,rSHR
-	slw	rF,rWORD4,rSHL
-	or	rWORD4,rC,rD
-	addi	rSTR1,rSTR1,4
-	addi	rSTR2,rSTR2,4
-	cmplw	cr1,rWORD3,rWORD4
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD7, 4(rSTR1)
+	lwz	rWORD8, 4(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	blt	cr7, L(duP2x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 8(rSTR1)
+	lwz	rWORD2, 8(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+	bne	cr6, L(duLcr6)
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 12(rSTR1)
+	lwz	rWORD4, 12(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+	bne	cr5, L(duLcr5)
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#endif
+	cmplw	cr1, rWORD3, rWORD4
 	b	L(duLoop2)
 	.align	4
 L(duP2x):
-	cmplw	cr5,rWORD7,rWORD8
-	addi	rSTR1,rSTR1,4
-	addi	rSTR2,rSTR2,4
-	bne	cr6,L(duLcr6)
-	slwi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmplw	cr7,rN,rSHR
+	cmplw	cr5, rWORD7, rWORD8
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#endif
+	bne	cr6, L(duLcr6)
+	slwi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	lwz	rWORD2,4(rSTR2)
-	srw	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 
 /* Remainder is 12 */
 	.align	4
 L(duP3):
-	srw	rC,rWORD8,rSHR
-	lwz	rWORD3,0(rSTR1)
-	slw	rF,rWORD8,rSHL
-	or	rWORD4,rC,rH
+	srw	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
+	lwz	rWORD3, 0(rSTR1)
+#endif
+	slw	rWORD4_SHIFT, rWORD8, rSHL
+	or	rWORD4, r12, rWORD6_SHIFT
 L(duP3e):
-	lwz	rWORD5,4(rSTR1)
-	lwz	rWORD6,4(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	srw	rE,rWORD6,rSHR
-	slw	rH,rWORD6,rSHL
-	or	rWORD6,rE,rF
-	lwz	rWORD7,8(rSTR1)
-	lwz	rWORD8,8(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	bne	cr1,L(duLcr1)
-	srw	rG,rWORD8,rSHR
-	slw	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	blt	cr7,L(duP3x)
-	lwz	rWORD1,12(rSTR1)
-	lwz	rWORD2,12(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
-	bne	cr6,L(duLcr6)
-	srw	rA,rWORD2,rSHR
-	slw	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	cmplw	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 4(rSTR1)
+	lwz	rWORD6, 4(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD7, 8(rSTR1)
+	lwz	rWORD8, 8(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	bne	cr1, L(duLcr1)
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	blt	cr7, L(duP3x)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 12(rSTR1)
+	lwz	rWORD2, 12(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+	bne	cr6, L(duLcr6)
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+	cmplw	cr7, rWORD1, rWORD2
 	b	L(duLoop1)
 	.align	4
 L(duP3x):
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	bne	cr1,L(duLcr1)
-	cmplw	cr5,rWORD7,rWORD8
-	bne	cr6,L(duLcr6)
-	slwi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmplw	cr7,rN,rSHR
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+#if 0
+/* Huh?  We've already branched on cr1!  */
+	bne	cr1, L(duLcr1)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+	bne	cr6, L(duLcr6)
+	slwi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	lwz	rWORD2,4(rSTR2)
-	srw	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	srw	r0, rWORD2, rSHR
 	b	L(dutrim)
 
 /* Count is a multiple of 16, remainder is 0 */
 	.align	4
 L(duP4):
-	mtctr	rTMP
-	srw	rA,rWORD8,rSHR
-	lwz	rWORD1,0(rSTR1)
-	slw	rD,rWORD8,rSHL
-	or	rWORD2,rA,rH
+	mtctr	r0
+	srw	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	addi	rSTR1, rSTR1, 4
+#else
+	lwz	rWORD1, 0(rSTR1)
+#endif
+	slw	rWORD2_SHIFT, rWORD8, rSHL
+	or	rWORD2, r0, rWORD6_SHIFT
 L(duP4e):
-	lwz	rWORD3,4(rSTR1)
-	lwz	rWORD4,4(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
-	srw	rC,rWORD4,rSHR
-	slw	rF,rWORD4,rSHL
-	or	rWORD4,rC,rD
-	lwz	rWORD5,8(rSTR1)
-	lwz	rWORD6,8(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	bne	cr0,L(duLcr0)
-	srw	rE,rWORD6,rSHR
-	slw	rH,rWORD6,rSHL
-	or	rWORD6,rE,rF
-	lwzu	rWORD7,12(rSTR1)
-	lwzu	rWORD8,12(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	bne	cr1,L(duLcr1)
-	srw	rG,rWORD8,rSHR
-	slw	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	cmplw	cr5,rWORD7,rWORD8
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 4(rSTR1)
+	lwz	rWORD4, 4(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 8(rSTR1)
+	lwz	rWORD6, 8(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+	bne	cr7, L(duLcr7)
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwzu	rWORD7, 12(rSTR1)
+	lwzu	rWORD8, 12(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	bne	cr1, L(duLcr1)
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	cmplw	cr5, rWORD7, rWORD8
 	bdz	L(du24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
 	.align	4
 L(duLoop):
-	lwz	rWORD1,4(rSTR1)
-	lwz	rWORD2,4(rSTR2)
-	cmplw	cr1,rWORD3,rWORD4
-	bne	cr6,L(duLcr6)
-	srw	rA,rWORD2,rSHR
-	slw	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD1, 4(rSTR1)
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+	bne	cr6, L(duLcr6)
+	srw	r0, rWORD2, rSHR
+	slw	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
 L(duLoop1):
-	lwz	rWORD3,8(rSTR1)
-	lwz	rWORD4,8(rSTR2)
-	cmplw	cr6,rWORD5,rWORD6
-	bne	cr5,L(duLcr5)
-	srw	rC,rWORD4,rSHR
-	slw	rF,rWORD4,rSHL
-	or	rWORD4,rC,rD
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD3, 0, rSTR1
+	lwbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD3, 8(rSTR1)
+	lwz	rWORD4, 8(rSTR2)
+#endif
+	cmplw	cr6, rWORD5, rWORD6
+	bne	cr5, L(duLcr5)
+	srw	r12, rWORD4, rSHR
+	slw	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
 L(duLoop2):
-	lwz	rWORD5,12(rSTR1)
-	lwz	rWORD6,12(rSTR2)
-	cmplw	cr5,rWORD7,rWORD8
-	bne	cr0,L(duLcr0)
-	srw	rE,rWORD6,rSHR
-	slw	rH,rWORD6,rSHL
-	or	rWORD6,rE,rF
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD5, 0, rSTR1
+	lwbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD5, 12(rSTR1)
+	lwz	rWORD6, 12(rSTR2)
+#endif
+	cmplw	cr5, rWORD7, rWORD8
+	bne	cr7, L(duLcr7)
+	srw	r0, rWORD6, rSHR
+	slw	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
 L(duLoop3):
-	lwzu	rWORD7,16(rSTR1)
-	lwzu	rWORD8,16(rSTR2)
-	cmplw	cr0,rWORD1,rWORD2
-	bne	cr1,L(duLcr1)
-	srw	rG,rWORD8,rSHR
-	slw	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD7, 0, rSTR1
+	lwbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 4
+	addi	rSTR2, rSTR2, 4
+#else
+	lwzu	rWORD7, 16(rSTR1)
+	lwzu	rWORD8, 16(rSTR2)
+#endif
+	cmplw	cr7, rWORD1, rWORD2
+	bne	cr1, L(duLcr1)
+	srw	r12, rWORD8, rSHR
+	slw	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	bdnz	L(duLoop)
 
 L(duL4):
-	bne	cr1,L(duLcr1)
-	cmplw	cr1,rWORD3,rWORD4
-	bne	cr6,L(duLcr6)
-	cmplw	cr6,rWORD5,rWORD6
-	bne	cr5,L(duLcr5)
-	cmplw	cr5,rWORD7,rWORD8
+#if 0
+/* Huh?  We've already branched on cr1!  */
+	bne	cr1, L(duLcr1)
+#endif
+	cmplw	cr1, rWORD3, rWORD4
+	bne	cr6, L(duLcr6)
+	cmplw	cr6, rWORD5, rWORD6
+	bne	cr5, L(duLcr5)
+	cmplw	cr5, rWORD7, rWORD8
 L(du44):
-	bne	cr0,L(duLcr0)
+	bne	cr7, L(duLcr7)
 L(du34):
-	bne	cr1,L(duLcr1)
+	bne	cr1, L(duLcr1)
 L(du24):
-	bne	cr6,L(duLcr6)
+	bne	cr6, L(duLcr6)
 L(du14):
-	slwi.	rN,rN,3
-	bne	cr5,L(duLcr5)
+	slwi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
 /* At this point we have a remainder of 1 to 3 bytes to compare.  We use
    shift right to eliminate bits beyond the compare length.
+   This allows the use of word subtract to compute the final result.
 
    However it may not be safe to load rWORD2 which may be beyond the
    string length. So we compare the bit length of the remainder to
    the right shift count (rSHR). If the bit count is less than or equal
    we do not need to load rWORD2 (all significant bits are already in
-   rB).  */
-	cmplw	cr7,rN,rSHR
+   rWORD8_SHIFT).  */
+	cmplw	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	lwz	rWORD2,4(rSTR2)
-	srw	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 4
+#else
+	lwz	rWORD2, 4(rSTR2)
+#endif
+	srw	r0, rWORD2, rSHR
 	.align	4
 L(dutrim):
-	lwz	rWORD1,4(rSTR1)
-	lwz	r31,48(1)
-	subfic	rN,rN,32	/* Shift count is 32 - (rN * 8).  */
-	or	rWORD2,rA,rB
-	lwz	r30,44(1)
-	lwz	r29,40(r1)
-	srw	rWORD1,rWORD1,rN
-	srw	rWORD2,rWORD2,rN
-	lwz	r28,36(r1)
-	lwz	r27,32(r1)
-	cmplw	rWORD1,rWORD2
-	li	rRTN,0
-	beq	L(dureturn26)
-	li	rRTN,1
-	bgt	L(dureturn26)
-	li	rRTN,-1
+#ifdef __LITTLE_ENDIAN__
+	lwbrx	rWORD1, 0, rSTR1
+#else
+	lwz	rWORD1, 4(rSTR1)
+#endif
+	lwz	rWORD8, 48(r1)
+	subfic	rN, rN, 32	/* Shift count is 32 - (rN * 8).  */
+	or	rWORD2, r0, rWORD8_SHIFT
+	lwz	rWORD7, 44(r1)
+	lwz	rSHL, 40(r1)
+	srw	rWORD1, rWORD1, rN
+	srw	rWORD2, rWORD2, rN
+	lwz	rSHR, 36(r1)
+	lwz	rWORD8_SHIFT, 32(r1)
+	sub	rRTN, rWORD1, rWORD2
 	b	L(dureturn26)
 	.align	4
-L(duLcr0):
-	lwz	r31,48(1)
-	lwz	r30,44(1)
-	li	rRTN,1
-	bgt	cr0,L(dureturn29)
-	lwz	r29,40(r1)
-	lwz	r28,36(r1)
-	li	rRTN,-1
+L(duLcr7):
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
+	li	rRTN, 1
+	bgt	cr7, L(dureturn29)
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	4
 L(duLcr1):
-	lwz	r31,48(1)
-	lwz	r30,44(1)
-	li	rRTN,1
-	bgt	cr1,L(dureturn29)
-	lwz	r29,40(r1)
-	lwz	r28,36(r1)
-	li	rRTN,-1
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
+	li	rRTN, 1
+	bgt	cr1, L(dureturn29)
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	4
 L(duLcr6):
-	lwz	r31,48(1)
-	lwz	r30,44(1)
-	li	rRTN,1
-	bgt	cr6,L(dureturn29)
-	lwz	r29,40(r1)
-	lwz	r28,36(r1)
-	li	rRTN,-1
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
+	li	rRTN, 1
+	bgt	cr6, L(dureturn29)
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	4
 L(duLcr5):
-	lwz	r31,48(1)
-	lwz	r30,44(1)
-	li	rRTN,1
-	bgt	cr5,L(dureturn29)
-	lwz	r29,40(r1)
-	lwz	r28,36(r1)
-	li	rRTN,-1
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
+	li	rRTN, 1
+	bgt	cr5, L(dureturn29)
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	3
 L(duZeroReturn):
-	li	rRTN,0
+	li	rRTN, 0
 	.align	4
 L(dureturn):
-	lwz	r31,48(1)
-	lwz	r30,44(1)
+	lwz	rWORD8, 48(r1)
+	lwz	rWORD7, 44(r1)
 L(dureturn29):
-	lwz	r29,40(r1)
-	lwz	r28,36(r1)
+	lwz	rSHL, 40(r1)
+	lwz	rSHR, 36(r1)
 L(dureturn27):
-	lwz	r27,32(r1)
+	lwz	rWORD8_SHIFT, 32(r1)
 L(dureturn26):
-	lwz	r26,28(r1)
+	lwz	rWORD2_SHIFT, 28(r1)
 L(dureturn25):
-	lwz	r25,24(r1)
-	lwz	r24,20(r1)
-	lwz	1,0(1)
+	lwz	rWORD4_SHIFT, 24(r1)
+	lwz	rWORD6_SHIFT, 20(r1)
+	addi	r1, r1, 64
+	cfi_adjust_cfa_offset(-64)
 	blr
 END (BP_SYM (memcmp))
+
 libc_hidden_builtin_def (memcmp)
 weak_alias (memcmp,bcmp)
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcmp.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcmp.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcmp.S	2014-05-28 19:22:37.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcmp.S	2014-05-29 09:35:25.000000000 -0500
@@ -1,5 +1,5 @@
-/* Optimized strcmp implementation for PowerPC64.
-   Copyright (C) 2003, 2006, 2011 Free Software Foundation, Inc.
+/* Optimized memcmp implementation for PowerPC64.
+   Copyright (C) 2003-2014 Free Software Foundation, Inc.
    This file is part of the GNU C Library.
 
    The GNU C Library is free software; you can redistribute it and/or
@@ -17,307 +17,492 @@
    <http://www.gnu.org/licenses/>.  */
 
 #include <sysdep.h>
-#include <bp-sym.h>
-#include <bp-asm.h>
 
-/* int [r3] memcmp (const char *s1 [r3], const char *s2 [r4], size_t size [r5])  */
+/* int [r3] memcmp (const char *s1 [r3],
+		    const char *s2 [r4],
+		    size_t size [r5])  */
 
 	.machine power4
-EALIGN (BP_SYM(memcmp), 4, 0)
+EALIGN (memcmp, 4, 0)
 	CALL_MCOUNT 3
 
-#define rTMP	r0
 #define rRTN	r3
 #define rSTR1	r3	/* first string arg */
 #define rSTR2	r4	/* second string arg */
 #define rN	r5	/* max string length */
-/* Note:  The Bounded pointer support in this code is broken.  This code
-   was inherited from PPC32 and that support was never completed.
-   Current PPC gcc does not support -fbounds-check or -fbounded-pointers.  */
 #define rWORD1	r6	/* current word in s1 */
 #define rWORD2	r7	/* current word in s2 */
 #define rWORD3	r8	/* next word in s1 */
 #define rWORD4	r9	/* next word in s2 */
 #define rWORD5	r10	/* next word in s1 */
 #define rWORD6	r11	/* next word in s2 */
-#define rBITDIF	r12	/* bits that differ in s1 & s2 words */
 #define rWORD7	r30	/* next word in s1 */
 #define rWORD8	r31	/* next word in s2 */
 
-	xor	rTMP, rSTR2, rSTR1
+	xor	r0, rSTR2, rSTR1
 	cmpldi	cr6, rN, 0
 	cmpldi	cr1, rN, 12
-	clrldi.	rTMP, rTMP, 61
-	clrldi	rBITDIF, rSTR1, 61
-	cmpldi	cr5, rBITDIF, 0
+	clrldi.	r0, r0, 61
+	clrldi	r12, rSTR1, 61
+	cmpldi	cr5, r12, 0
 	beq-	cr6, L(zeroLength)
-	dcbt	0,rSTR1
-	dcbt	0,rSTR2
-/* If less than 8 bytes or not aligned, use the unalligned
+	dcbt	0, rSTR1
+	dcbt	0, rSTR2
+/* If less than 8 bytes or not aligned, use the unaligned
    byte loop.  */
 	blt	cr1, L(bytealigned)
-	std	rWORD8,-8(r1)	
-	cfi_offset(rWORD8,-8)
-	std	rWORD7,-16(r1)	
-	cfi_offset(rWORD7,-16)
+	std	rWORD8, -8(r1)
+	cfi_offset(rWORD8, -8)
+	std	rWORD7, -16(r1)
+	cfi_offset(rWORD7, -16)
 	bne	L(unaligned)
 /* At this point we know both strings have the same alignment and the
-   compare length is at least 8 bytes.  rBITDIF containes the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    3 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then we are already double word 
-   aligned and can perform the DWaligned loop.
-  
+   of r12 to 0.  If r12 == 0 then we are already double word
+   aligned and can perform the DW aligned loop.
+
    Otherwise we know the two strings have the same alignment (but not
-   yet DW).  So we can force the string addresses to the next lower DW
-   boundary and special case this first DW word using shift left to
-   ellimiate bits preceeding the first byte.  Since we want to join the
-   normal (DWaligned) compare loop, starting at the second double word,
+   yet DW).  So we force the string addresses to the next lower DW
+   boundary and special case this first DW using shift left to
+   eliminate bits preceding the first byte.  Since we want to join the
+   normal (DW aligned) compare loop, starting at the second double word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first DW. This insures that the loop count is
-   correct and the first DW (shifted) is in the expected resister pair.  */
-	.align 4
+   versioning for the first DW. This ensures that the loop count is
+   correct and the first DW (shifted) is in the expected register pair.  */
+	.align	4
 L(samealignment):
 	clrrdi	rSTR1, rSTR1, 3
 	clrrdi	rSTR2, rSTR2, 3
 	beq	cr5, L(DWaligned)
-	add	rN, rN, rBITDIF
-	sldi	r11, rBITDIF, 3
-	srdi	rTMP, rN, 5	/* Divide by 32 */
-	andi.	rBITDIF, rN, 24	/* Get the DW remainder */
+	add	rN, rN, r12
+	sldi	rWORD6, r12, 3
+	srdi	r0, rN, 5	/* Divide by 32 */
+	andi.	r12, rN, 24	/* Get the DW remainder */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 0(rSTR1)
 	ld	rWORD2, 0(rSTR2)
-	cmpldi	cr1, rBITDIF, 16
+#endif
+	cmpldi	cr1, r12, 16
 	cmpldi	cr7, rN, 32
 	clrldi	rN, rN, 61
 	beq	L(dPs4)
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
 	bgt	cr1, L(dPs3)
 	beq	cr1, L(dPs2)
 
 /* Remainder is 8 */
-	.align 3
+	.align	3
 L(dsP1):
-	sld	rWORD5, rWORD1, r11
-	sld	rWORD6, rWORD2, r11
+	sld	rWORD5, rWORD1, rWORD6
+	sld	rWORD6, rWORD2, rWORD6
 	cmpld	cr5, rWORD5, rWORD6
 	blt	cr7, L(dP1x)
 /* Do something useful in this cycle since we have to branch anyway.  */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 8(rSTR1)
 	ld	rWORD2, 8(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 	b	L(dP1e)
 /* Remainder is 16 */
-	.align 4
+	.align	4
 L(dPs2):
-	sld	rWORD5, rWORD1, r11
-	sld	rWORD6, rWORD2, r11
+	sld	rWORD5, rWORD1, rWORD6
+	sld	rWORD6, rWORD2, rWORD6
 	cmpld	cr6, rWORD5, rWORD6
 	blt	cr7, L(dP2x)
 /* Do something useful in this cycle since we have to branch anyway.  */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD7, 8(rSTR1)
 	ld	rWORD8, 8(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
 	b	L(dP2e)
 /* Remainder is 24 */
-	.align 4
+	.align	4
 L(dPs3):
-	sld	rWORD3, rWORD1, r11
-	sld	rWORD4, rWORD2, r11
+	sld	rWORD3, rWORD1, rWORD6
+	sld	rWORD4, rWORD2, rWORD6
 	cmpld	cr1, rWORD3, rWORD4
 	b	L(dP3e)
 /* Count is a multiple of 32, remainder is 0 */
-	.align 4
+	.align	4
 L(dPs4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	sld	rWORD1, rWORD1, r11
-	sld	rWORD2, rWORD2, r11
-	cmpld	cr0, rWORD1, rWORD2
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	sld	rWORD1, rWORD1, rWORD6
+	sld	rWORD2, rWORD2, rWORD6
+	cmpld	cr7, rWORD1, rWORD2
 	b	L(dP4e)
 
 /* At this point we know both strings are double word aligned and the
    compare length is at least 8 bytes.  */
-	.align 4
+	.align	4
 L(DWaligned):
-	andi.	rBITDIF, rN, 24	/* Get the DW remainder */
-	srdi	rTMP, rN, 5	/* Divide by 32 */
-	cmpldi	cr1, rBITDIF, 16
+	andi.	r12, rN, 24	/* Get the DW remainder */
+	srdi	r0, rN, 5	/* Divide by 32 */
+	cmpldi	cr1, r12, 16
 	cmpldi	cr7, rN, 32
 	clrldi	rN, rN, 61
 	beq	L(dP4)
 	bgt	cr1, L(dP3)
 	beq	cr1, L(dP2)
-		
+
 /* Remainder is 8 */
-	.align 4
+	.align	4
 L(dP1):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
 /* Normally we'd use rWORD7/rWORD8 here, but since we might exit early
-   (8-15 byte compare), we want to use only volitile registers.  This
-   means we can avoid restoring non-volitile registers since we did not
+   (8-15 byte compare), we want to use only volatile registers.  This
+   means we can avoid restoring non-volatile registers since we did not
    change any on the early exit path.  The key here is the non-early
-   exit path only cares about the condition code (cr5), not about which 
+   exit path only cares about the condition code (cr5), not about which
    register pair was used.  */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 0(rSTR1)
 	ld	rWORD6, 0(rSTR2)
+#endif
 	cmpld	cr5, rWORD5, rWORD6
 	blt	cr7, L(dP1x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 8(rSTR1)
 	ld	rWORD2, 8(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 L(dP1e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 16(rSTR1)
 	ld	rWORD4, 16(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 24(rSTR1)
 	ld	rWORD6, 24(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
-	bne	cr5, L(dLcr5)
-	bne	cr0, L(dLcr0)
-	
+	bne	cr5, L(dLcr5x)
+	bne	cr7, L(dLcr7x)
+
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ldu	rWORD7, 32(rSTR1)
 	ldu	rWORD8, 32(rSTR2)
+#endif
 	bne	cr1, L(dLcr1)
 	cmpld	cr5, rWORD7, rWORD8
 	bdnz	L(dLoop)
 	bne	cr6, L(dLcr6)
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	.align 3
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+	.align	3
 L(dP1x):
 	sldi.	r12, rN, 3
-	bne	cr5, L(dLcr5)
+	bne	cr5, L(dLcr5x)
 	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
 	bne	L(d00)
 	li	rRTN, 0
 	blr
-		
+
 /* Remainder is 16 */
-	.align 4
+	.align	4
 L(dP2):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 0(rSTR1)
 	ld	rWORD6, 0(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
 	blt	cr7, L(dP2x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD7, 8(rSTR1)
 	ld	rWORD8, 8(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
 L(dP2e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 16(rSTR1)
 	ld	rWORD2, 16(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 24(rSTR1)
 	ld	rWORD4, 24(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
+#endif
 	bne	cr6, L(dLcr6)
 	bne	cr5, L(dLcr5)
 	b	L(dLoop2)
 /* Again we are on a early exit path (16-23 byte compare), we want to
-   only use volitile registers and avoid restoring non-volitile
+   only use volatile registers and avoid restoring non-volatile
    registers.  */
-	.align 4
+	.align	4
 L(dP2x):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 8(rSTR1)
 	ld	rWORD4, 8(rSTR2)
-	cmpld	cr5, rWORD3, rWORD4
+#endif
+	cmpld	cr1, rWORD3, rWORD4
 	sldi.	r12, rN, 3
-	bne	cr6, L(dLcr6)
+	bne	cr6, L(dLcr6x)
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
-	bne	cr5, L(dLcr5)
+#endif
+	bne	cr1, L(dLcr1x)
 	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
 	bne	L(d00)
 	li	rRTN, 0
 	blr
-		
+
 /* Remainder is 24 */
-	.align 4
+	.align	4
 L(dP3):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 0(rSTR1)
 	ld	rWORD4, 0(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
 L(dP3e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 8(rSTR1)
 	ld	rWORD6, 8(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
 	blt	cr7, L(dP3x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD7, 16(rSTR1)
 	ld	rWORD8, 16(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 24(rSTR1)
 	ld	rWORD2, 24(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 16
 	addi	rSTR2, rSTR2, 16
+#endif
 	bne	cr1, L(dLcr1)
 	bne	cr6, L(dLcr6)
 	b	L(dLoop1)
 /* Again we are on a early exit path (24-31 byte compare), we want to
-   only use volitile registers and avoid restoring non-volitile
+   only use volatile registers and avoid restoring non-volatile
    registers.  */
-	.align 4
+	.align	4
 L(dP3x):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 16(rSTR1)
 	ld	rWORD2, 16(rSTR2)
-	cmpld	cr5, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 	sldi.	r12, rN, 3
-	bne	cr1, L(dLcr1)
+	bne	cr1, L(dLcr1x)
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 16
 	addi	rSTR2, rSTR2, 16
-	bne	cr6, L(dLcr6)
+#endif
+	bne	cr6, L(dLcr6x)
 	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
-	bne	cr5, L(dLcr5)
+	bne	cr7, L(dLcr7x)
 	bne	L(d00)
 	li	rRTN, 0
 	blr
-	
+
 /* Count is a multiple of 32, remainder is 0 */
-	.align 4
+	.align	4
 L(dP4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 0(rSTR1)
 	ld	rWORD2, 0(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 L(dP4e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 8(rSTR1)
 	ld	rWORD4, 8(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 16(rSTR1)
 	ld	rWORD6, 16(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ldu	rWORD7, 24(rSTR1)
 	ldu	rWORD8, 24(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
-	bne	cr0, L(dLcr0)
+	bne	cr7, L(dLcr7)
 	bne	cr1, L(dLcr1)
 	bdz-	L(d24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
-	.align 4
+	.align	4
 L(dLoop):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 8(rSTR1)
 	ld	rWORD2, 8(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
 	bne	cr6, L(dLcr6)
 L(dLoop1):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 16(rSTR1)
 	ld	rWORD4, 16(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
 	bne	cr5, L(dLcr5)
 L(dLoop2):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 24(rSTR1)
 	ld	rWORD6, 24(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
-	bne	cr0, L(dLcr0)
+	bne	cr7, L(dLcr7)
 L(dLoop3):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ldu	rWORD7, 32(rSTR1)
 	ldu	rWORD8, 32(rSTR2)
+#endif
 	bne-	cr1, L(dLcr1)
-	cmpld	cr0, rWORD1, rWORD2
-	bdnz+	L(dLoop)	
-	
+	cmpld	cr7, rWORD1, rWORD2
+	bdnz+	L(dLoop)
+
 L(dL4):
 	cmpld	cr1, rWORD3, rWORD4
 	bne	cr6, L(dLcr6)
@@ -325,84 +510,98 @@
 	bne	cr5, L(dLcr5)
 	cmpld	cr5, rWORD7, rWORD8
 L(d44):
-	bne	cr0, L(dLcr0)
+	bne	cr7, L(dLcr7)
 L(d34):
 	bne	cr1, L(dLcr1)
 L(d24):
 	bne	cr6, L(dLcr6)
 L(d14):
 	sldi.	r12, rN, 3
-	bne	cr5, L(dLcr5) 
+	bne	cr5, L(dLcr5)
 L(d04):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
 	beq	L(zeroLength)
 /* At this point we have a remainder of 1 to 7 bytes to compare.  Since
    we are aligned it is safe to load the whole double word, and use
-   shift right double to elliminate bits beyond the compare length.  */ 
+   shift right double to eliminate bits beyond the compare length.  */
 L(d00):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 8(rSTR1)
-	ld	rWORD2, 8(rSTR2) 
+	ld	rWORD2, 8(rSTR2)
+#endif
 	srd	rWORD1, rWORD1, rN
 	srd	rWORD2, rWORD2, rN
-	cmpld	cr5, rWORD1, rWORD2
- 	bne	cr5, L(dLcr5x)
+	cmpld	cr7, rWORD1, rWORD2
+	bne	cr7, L(dLcr7x)
 	li	rRTN, 0
 	blr
-	.align 4
-L(dLcr0):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+
+	.align	4
+L(dLcr7):
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+L(dLcr7x):
 	li	rRTN, 1
-	bgtlr	cr0
+	bgtlr	cr7
 	li	rRTN, -1
 	blr
-	.align 4
+	.align	4
 L(dLcr1):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+L(dLcr1x):
 	li	rRTN, 1
 	bgtlr	cr1
 	li	rRTN, -1
 	blr
-	.align 4
+	.align	4
 L(dLcr6):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+L(dLcr6x):
 	li	rRTN, 1
 	bgtlr	cr6
 	li	rRTN, -1
 	blr
-	.align 4
+	.align	4
 L(dLcr5):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 L(dLcr5x):
 	li	rRTN, 1
 	bgtlr	cr5
 	li	rRTN, -1
 	blr
-	
-	.align 4
+
+	.align	4
 L(bytealigned):
-	mtctr   rN	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	rN	/* Power4 wants mtctr 1st in dispatch group */
+#if 0
+/* Huh?  We've already branched on cr6!  */
 	beq-	cr6, L(zeroLength)
+#endif
 
 /* We need to prime this loop.  This loop is swing modulo scheduled
-   to avoid pipe delays.  The dependent instruction latencies (load to 
+   to avoid pipe delays.  The dependent instruction latencies (load to
    compare to conditional branch) is 2 to 3 cycles.  In this loop each
    dispatch group ends in a branch and takes 1 cycle.  Effectively
-   the first iteration of the loop only serves to load operands and 
-   branches based on compares are delayed until the next loop. 
+   the first iteration of the loop only serves to load operands and
+   branches based on compares are delayed until the next loop.
 
    So we must precondition some registers and condition codes so that
    we don't exit the loop early on the first iteration.  */
-   
+
 	lbz	rWORD1, 0(rSTR1)
 	lbz	rWORD2, 0(rSTR2)
 	bdz-	L(b11)
-	cmpld	cr0, rWORD1, rWORD2
+	cmpld	cr7, rWORD1, rWORD2
 	lbz	rWORD3, 1(rSTR1)
 	lbz	rWORD4, 1(rSTR2)
 	bdz-	L(b12)
@@ -410,20 +609,20 @@
 	lbzu	rWORD5, 2(rSTR1)
 	lbzu	rWORD6, 2(rSTR2)
 	bdz-	L(b13)
-	.align 4
+	.align	4
 L(bLoop):
 	lbzu	rWORD1, 1(rSTR1)
 	lbzu	rWORD2, 1(rSTR2)
-	bne-	cr0, L(bLcr0)
+	bne-	cr7, L(bLcr7)
 
 	cmpld	cr6, rWORD5, rWORD6
 	bdz-	L(b3i)
-	
+
 	lbzu	rWORD3, 1(rSTR1)
 	lbzu	rWORD4, 1(rSTR2)
 	bne-	cr1, L(bLcr1)
 
-	cmpld	cr0, rWORD1, rWORD2
+	cmpld	cr7, rWORD1, rWORD2
 	bdz-	L(b2i)
 
 	lbzu	rWORD5, 1(rSTR1)
@@ -432,31 +631,31 @@
 
 	cmpld	cr1, rWORD3, rWORD4
 	bdnz+	L(bLoop)
-	
+
 /* We speculatively loading bytes before we have tested the previous
    bytes.  But we must avoid overrunning the length (in the ctr) to
-   prevent these speculative loads from causing a segfault.  In this 
+   prevent these speculative loads from causing a segfault.  In this
    case the loop will exit early (before the all pending bytes are
    tested.  In this case we must complete the pending operations
    before returning.  */
 L(b1i):
-	bne-	cr0, L(bLcr0)
+	bne-	cr7, L(bLcr7)
 	bne-	cr1, L(bLcr1)
 	b	L(bx56)
-	.align 4
+	.align	4
 L(b2i):
 	bne-	cr6, L(bLcr6)
-	bne-	cr0, L(bLcr0)
+	bne-	cr7, L(bLcr7)
 	b	L(bx34)
-	.align 4
+	.align	4
 L(b3i):
 	bne-	cr1, L(bLcr1)
 	bne-	cr6, L(bLcr6)
 	b	L(bx12)
-	.align 4
-L(bLcr0):
+	.align	4
+L(bLcr7):
 	li	rRTN, 1
-	bgtlr	cr0
+	bgtlr	cr7
 	li	rRTN, -1
 	blr
 L(bLcr1):
@@ -471,116 +670,121 @@
 	blr
 
 L(b13):
-	bne-	cr0, L(bx12)
+	bne-	cr7, L(bx12)
 	bne-	cr1, L(bx34)
 L(bx56):
 	sub	rRTN, rWORD5, rWORD6
 	blr
 	nop
 L(b12):
-	bne-	cr0, L(bx12)
-L(bx34):	
+	bne-	cr7, L(bx12)
+L(bx34):
 	sub	rRTN, rWORD3, rWORD4
 	blr
 L(b11):
 L(bx12):
 	sub	rRTN, rWORD1, rWORD2
 	blr
-	.align 4 
-L(zeroLengthReturn):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	.align	4
 L(zeroLength):
 	li	rRTN, 0
 	blr
 
-	.align 4
+	.align	4
 /* At this point we know the strings have different alignment and the
-   compare length is at least 8 bytes.  rBITDIF containes the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    3 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then rStr1 is double word 
+   of r12 to 0.  If r12 == 0 then rStr1 is double word
    aligned and can perform the DWunaligned loop.
-  
-   Otherwise we know that rSTR1 is not aready DW aligned yet.
+
+   Otherwise we know that rSTR1 is not already DW aligned yet.
    So we can force the string addresses to the next lower DW
-   boundary and special case this first DW word using shift left to
-   ellimiate bits preceeding the first byte.  Since we want to join the
+   boundary and special case this first DW using shift left to
+   eliminate bits preceding the first byte.  Since we want to join the
    normal (DWaligned) compare loop, starting at the second double word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first DW. This insures that the loop count is
+   versioning for the first DW. This ensures that the loop count is
    correct and the first DW (shifted) is in the expected resister pair.  */
-#define rSHL	r29	/* Unaligned shift left count.  */
-#define rSHR	r28	/* Unaligned shift right count.  */
-#define rB		r27	/* Left rotation temp for rWORD2.  */
-#define rD		r26	/* Left rotation temp for rWORD4.  */
-#define rF		r25	/* Left rotation temp for rWORD6.  */
-#define rH		r24	/* Left rotation temp for rWORD8.  */
-#define rA		r0	/* Right rotation temp for rWORD2.  */
-#define rC		r12	/* Right rotation temp for rWORD4.  */
-#define rE		r0	/* Right rotation temp for rWORD6.  */
-#define rG		r12	/* Right rotation temp for rWORD8.  */
+#define rSHL		r29	/* Unaligned shift left count.  */
+#define rSHR		r28	/* Unaligned shift right count.  */
+#define rWORD8_SHIFT	r27	/* Left rotation temp for rWORD2.  */
+#define rWORD2_SHIFT	r26	/* Left rotation temp for rWORD4.  */
+#define rWORD4_SHIFT	r25	/* Left rotation temp for rWORD6.  */
+#define rWORD6_SHIFT	r24	/* Left rotation temp for rWORD8.  */
 L(unaligned):
-	std	r29,-24(r1)	
-	cfi_offset(r29,-24)
+	std	rSHL, -24(r1)
+	cfi_offset(rSHL, -24)
 	clrldi	rSHL, rSTR2, 61
 	beq-	cr6, L(duzeroLength)
-	std	r28,-32(r1)	
-	cfi_offset(r28,-32)
+	std	rSHR, -32(r1)
+	cfi_offset(rSHR, -32)
 	beq	cr5, L(DWunaligned)
-	std	r27,-40(r1)	
-	cfi_offset(r27,-40)
-/* Adjust the logical start of rSTR2 ro compensate for the extra bits
+	std	rWORD8_SHIFT, -40(r1)
+	cfi_offset(rWORD8_SHIFT, -40)
+/* Adjust the logical start of rSTR2 to compensate for the extra bits
    in the 1st rSTR1 DW.  */
-	sub	r27, rSTR2, rBITDIF
+	sub	rWORD8_SHIFT, rSTR2, r12
 /* But do not attempt to address the DW before that DW that contains
    the actual start of rSTR2.  */
 	clrrdi	rSTR2, rSTR2, 3
-	std	r26,-48(r1)	
-	cfi_offset(r26,-48)
-/* Compute the leaft/right shift counts for the unalign rSTR2,
-   compensating for the logical (DW aligned) start of rSTR1.  */ 
-	clrldi	rSHL, r27, 61
-	clrrdi	rSTR1, rSTR1, 3	
-	std	r25,-56(r1)	
-	cfi_offset(r25,-56)
+	std	rWORD2_SHIFT, -48(r1)
+	cfi_offset(rWORD2_SHIFT, -48)
+/* Compute the left/right shift counts for the unaligned rSTR2,
+   compensating for the logical (DW aligned) start of rSTR1.  */
+	clrldi	rSHL, rWORD8_SHIFT, 61
+	clrrdi	rSTR1, rSTR1, 3
+	std	rWORD4_SHIFT, -56(r1)
+	cfi_offset(rWORD4_SHIFT, -56)
 	sldi	rSHL, rSHL, 3
-	cmpld	cr5, r27, rSTR2
-	add	rN, rN, rBITDIF
-	sldi	r11, rBITDIF, 3
-	std	r24,-64(r1)	
-	cfi_offset(r24,-64)
+	cmpld	cr5, rWORD8_SHIFT, rSTR2
+	add	rN, rN, r12
+	sldi	rWORD6, r12, 3
+	std	rWORD6_SHIFT, -64(r1)
+	cfi_offset(rWORD6_SHIFT, -64)
 	subfic	rSHR, rSHL, 64
-	srdi	rTMP, rN, 5	/* Divide by 32 */
-	andi.	rBITDIF, rN, 24	/* Get the DW remainder */
+	srdi	r0, rN, 5	/* Divide by 32 */
+	andi.	r12, rN, 24	/* Get the DW remainder */
 /* We normally need to load 2 DWs to start the unaligned rSTR2, but in
    this special case those bits may be discarded anyway.  Also we
    must avoid loading a DW where none of the bits are part of rSTR2 as
    this may cross a page boundary and cause a page fault.  */
 	li	rWORD8, 0
 	blt	cr5, L(dus0)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD8, 0(rSTR2)
-	la	rSTR2, 8(rSTR2)
+	addi	rSTR2, rSTR2, 8
+#endif
 	sld	rWORD8, rWORD8, rSHL
 
 L(dus0):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 0(rSTR1)
 	ld	rWORD2, 0(rSTR2)
-	cmpldi	cr1, rBITDIF, 16
+#endif
+	cmpldi	cr1, r12, 16
 	cmpldi	cr7, rN, 32
-	srd	rG, rWORD2, rSHR
+	srd	r12, rWORD2, rSHR
 	clrldi	rN, rN, 61
 	beq	L(duPs4)
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	or	rWORD8, rG, rWORD8
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	or	rWORD8, r12, rWORD8
 	bgt	cr1, L(duPs3)
 	beq	cr1, L(duPs2)
 
 /* Remainder is 8 */
-	.align 4
+	.align	4
 L(dusP1):
-	sld	rB, rWORD2, rSHL
-	sld	rWORD7, rWORD1, r11
-	sld	rWORD8, rWORD8, r11
+	sld	rWORD8_SHIFT, rWORD2, rSHL
+	sld	rWORD7, rWORD1, rWORD6
+	sld	rWORD8, rWORD8, rWORD6
 	bge	cr7, L(duP1e)
 /* At this point we exit early with the first double word compare
    complete and remainder of 0 to 7 bytes.  See L(du14) for details on
@@ -590,95 +794,133 @@
 	bne	cr5, L(duLcr5)
 	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD2, 8(rSTR2)
-	srd	rA, rWORD2, rSHR
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 16 */
-	.align 4
+	.align	4
 L(duPs2):
-	sld	rH, rWORD2, rSHL
-	sld	rWORD5, rWORD1, r11
-	sld	rWORD6, rWORD8, r11
+	sld	rWORD6_SHIFT, rWORD2, rSHL
+	sld	rWORD5, rWORD1, rWORD6
+	sld	rWORD6, rWORD8, rWORD6
 	b	L(duP2e)
 /* Remainder is 24 */
-	.align 4
+	.align	4
 L(duPs3):
-	sld	rF, rWORD2, rSHL
-	sld	rWORD3, rWORD1, r11
-	sld	rWORD4, rWORD8, r11
+	sld	rWORD4_SHIFT, rWORD2, rSHL
+	sld	rWORD3, rWORD1, rWORD6
+	sld	rWORD4, rWORD8, rWORD6
 	b	L(duP3e)
 /* Count is a multiple of 32, remainder is 0 */
-	.align 4
+	.align	4
 L(duPs4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	or	rWORD8, rG, rWORD8
-	sld	rD, rWORD2, rSHL
-	sld	rWORD1, rWORD1, r11
-	sld	rWORD2, rWORD8, r11
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	or	rWORD8, r12, rWORD8
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	sld	rWORD1, rWORD1, rWORD6
+	sld	rWORD2, rWORD8, rWORD6
 	b	L(duP4e)
 
 /* At this point we know rSTR1 is double word aligned and the
    compare length is at least 8 bytes.  */
-	.align 4
+	.align	4
 L(DWunaligned):
-	std	r27,-40(r1)	
-	cfi_offset(r27,-40)
+	std	rWORD8_SHIFT, -40(r1)
+	cfi_offset(rWORD8_SHIFT, -40)
 	clrrdi	rSTR2, rSTR2, 3
-	std	r26,-48(r1)	
-	cfi_offset(r26,-48)
-	srdi	rTMP, rN, 5	/* Divide by 32 */
-	std	r25,-56(r1)	
-	cfi_offset(r25,-56)
-	andi.	rBITDIF, rN, 24	/* Get the DW remainder */
-	std	r24,-64(r1)	
-	cfi_offset(r24,-64)
+	std	rWORD2_SHIFT, -48(r1)
+	cfi_offset(rWORD2_SHIFT, -48)
+	srdi	r0, rN, 5	/* Divide by 32 */
+	std	rWORD4_SHIFT, -56(r1)
+	cfi_offset(rWORD4_SHIFT, -56)
+	andi.	r12, rN, 24	/* Get the DW remainder */
+	std	rWORD6_SHIFT, -64(r1)
+	cfi_offset(rWORD6_SHIFT, -64)
 	sldi	rSHL, rSHL, 3
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD6, 0(rSTR2)
 	ldu	rWORD8, 8(rSTR2)
-	cmpldi	cr1, rBITDIF, 16
+#endif
+	cmpldi	cr1, r12, 16
 	cmpldi	cr7, rN, 32
 	clrldi	rN, rN, 61
 	subfic	rSHR, rSHL, 64
-	sld	rH, rWORD6, rSHL
+	sld	rWORD6_SHIFT, rWORD6, rSHL
 	beq	L(duP4)
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
 	bgt	cr1, L(duP3)
 	beq	cr1, L(duP2)
-		
+
 /* Remainder is 8 */
-	.align 4
+	.align	4
 L(duP1):
-	srd	rG, rWORD8, rSHR
+	srd	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
 	ld	rWORD7, 0(rSTR1)
-	sld	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+#endif
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	blt	cr7, L(duP1x)
 L(duP1e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 8(rSTR1)
 	ld	rWORD2, 8(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
-	srd	rA, rWORD2, rSHR
-	sld	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 16(rSTR1)
 	ld	rWORD4, 16(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
-	srd	rC, rWORD4, rSHR
-	sld	rF, rWORD4, rSHL
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
 	bne	cr5, L(duLcr5)
-	or	rWORD4, rC, rD
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 24(rSTR1)
 	ld	rWORD6, 24(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
-	srd	rE, rWORD6, rSHR
-	sld	rH, rWORD6, rSHL
-	bne	cr0, L(duLcr0)
-	or	rWORD6, rE, rF
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	bne	cr7, L(duLcr7)
+	or	rWORD6, r0, rWORD4_SHIFT
 	cmpld	cr6, rWORD5, rWORD6
-	b	L(duLoop3)	
-	.align 4
+	b	L(duLoop3)
+	.align	4
 /* At this point we exit early with the first double word compare
    complete and remainder of 0 to 7 bytes.  See L(du14) for details on
    how we handle the remaining bytes.  */
@@ -688,186 +930,321 @@
 	bne	cr5, L(duLcr5)
 	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD2, 8(rSTR2)
-	srd	rA, rWORD2, rSHR
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 16 */
-	.align 4
+	.align	4
 L(duP2):
-	srd	rE, rWORD8, rSHR
+	srd	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
 	ld	rWORD5, 0(rSTR1)
-	or	rWORD6, rE, rH
-	sld	rH, rWORD8, rSHL
+#endif
+	or	rWORD6, r0, rWORD6_SHIFT
+	sld	rWORD6_SHIFT, rWORD8, rSHL
 L(duP2e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD7, 8(rSTR1)
 	ld	rWORD8, 8(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
-	srd	rG, rWORD8, rSHR
-	sld	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	blt	cr7, L(duP2x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 16(rSTR1)
 	ld	rWORD2, 16(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
 	bne	cr6, L(duLcr6)
-	srd	rA, rWORD2, rSHR
-	sld	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 24(rSTR1)
 	ld	rWORD4, 24(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 	bne	cr5, L(duLcr5)
-	srd	rC, rWORD4, rSHR
-	sld	rF, rWORD4, rSHL
-	or	rWORD4, rC, rD
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
+#endif
 	cmpld	cr1, rWORD3, rWORD4
 	b	L(duLoop2)
-	.align 4
+	.align	4
 L(duP2x):
 	cmpld	cr5, rWORD7, rWORD8
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 8
 	addi	rSTR2, rSTR2, 8
+#endif
 	bne	cr6, L(duLcr6)
 	sldi.	rN, rN, 3
 	bne	cr5, L(duLcr5)
 	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD2, 8(rSTR2)
-	srd	rA, rWORD2, rSHR
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
-		
+
 /* Remainder is 24 */
-	.align 4
+	.align	4
 L(duP3):
-	srd	rC, rWORD8, rSHR
+	srd	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
 	ld	rWORD3, 0(rSTR1)
-	sld	rF, rWORD8, rSHL
-	or	rWORD4, rC, rH
+#endif
+	sld	rWORD4_SHIFT, rWORD8, rSHL
+	or	rWORD4, r12, rWORD6_SHIFT
 L(duP3e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 8(rSTR1)
 	ld	rWORD6, 8(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
-	srd	rE, rWORD6, rSHR
-	sld	rH, rWORD6, rSHL
-	or	rWORD6, rE, rF
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD7, 16(rSTR1)
 	ld	rWORD8, 16(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
 	bne	cr1, L(duLcr1)
-	srd	rG, rWORD8, rSHR
-	sld	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	blt	cr7, L(duP3x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 24(rSTR1)
 	ld	rWORD2, 24(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
 	bne	cr6, L(duLcr6)
-	srd	rA, rWORD2, rSHR
-	sld	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 16
 	addi	rSTR2, rSTR2, 16
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 	b	L(duLoop1)
-	.align 4
+	.align	4
 L(duP3x):
+#ifndef __LITTLE_ENDIAN__
 	addi	rSTR1, rSTR1, 16
 	addi	rSTR2, rSTR2, 16
+#endif
+#if 0
+/* Huh?  We've already branched on cr1!  */
 	bne	cr1, L(duLcr1)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
 	bne	cr6, L(duLcr6)
 	sldi.	rN, rN, 3
 	bne	cr5, L(duLcr5)
 	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD2, 8(rSTR2)
-	srd	rA, rWORD2, rSHR
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
-	
+
 /* Count is a multiple of 32, remainder is 0 */
-	.align 4
+	.align	4
 L(duP4):
-	mtctr   rTMP	/* Power4 wants mtctr 1st in dispatch group */
-	srd	rA, rWORD8, rSHR
+	mtctr	r0	/* Power4 wants mtctr 1st in dispatch group */
+	srd	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
 	ld	rWORD1, 0(rSTR1)
-	sld	rD, rWORD8, rSHL
-	or	rWORD2, rA, rH
+#endif
+	sld	rWORD2_SHIFT, rWORD8, rSHL
+	or	rWORD2, r0, rWORD6_SHIFT
 L(duP4e):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 8(rSTR1)
 	ld	rWORD4, 8(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
-	srd	rC, rWORD4, rSHR
-	sld	rF, rWORD4, rSHL
-	or	rWORD4, rC, rD
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 16(rSTR1)
 	ld	rWORD6, 16(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
-	bne	cr0, L(duLcr0)
-	srd	rE, rWORD6, rSHR
-	sld	rH, rWORD6, rSHL
-	or	rWORD6, rE, rF
+	bne	cr7, L(duLcr7)
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ldu	rWORD7, 24(rSTR1)
 	ldu	rWORD8, 24(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
 	bne	cr1, L(duLcr1)
-	srd	rG, rWORD8, rSHR
-	sld	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	cmpld	cr5, rWORD7, rWORD8
 	bdz-	L(du24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
-	.align 4
+	.align	4
 L(duLoop):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD1, 8(rSTR1)
 	ld	rWORD2, 8(rSTR2)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
 	bne	cr6, L(duLcr6)
-	srd	rA, rWORD2, rSHR
-	sld	rD, rWORD2, rSHL
-	or	rWORD2, rA, rB
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
 L(duLoop1):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD3, 16(rSTR1)
 	ld	rWORD4, 16(rSTR2)
+#endif
 	cmpld	cr6, rWORD5, rWORD6
 	bne	cr5, L(duLcr5)
-	srd	rC, rWORD4, rSHR
-	sld	rF, rWORD4, rSHL
-	or	rWORD4, rC, rD
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
 L(duLoop2):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD5, 24(rSTR1)
 	ld	rWORD6, 24(rSTR2)
+#endif
 	cmpld	cr5, rWORD7, rWORD8
-	bne	cr0, L(duLcr0)
-	srd	rE, rWORD6, rSHR
-	sld	rH, rWORD6, rSHL
-	or	rWORD6, rE, rF
+	bne	cr7, L(duLcr7)
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
 L(duLoop3):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
 	ldu	rWORD7, 32(rSTR1)
 	ldu	rWORD8, 32(rSTR2)
-	cmpld	cr0, rWORD1, rWORD2
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 	bne-	cr1, L(duLcr1)
-	srd	rG, rWORD8, rSHR
-	sld	rB, rWORD8, rSHL
-	or	rWORD8, rG, rH
-	bdnz+	L(duLoop)	
-	
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	bdnz+	L(duLoop)
+
 L(duL4):
+#if 0
+/* Huh?  We've already branched on cr1!  */
 	bne	cr1, L(duLcr1)
+#endif
 	cmpld	cr1, rWORD3, rWORD4
 	bne	cr6, L(duLcr6)
 	cmpld	cr6, rWORD5, rWORD6
 	bne	cr5, L(duLcr5)
 	cmpld	cr5, rWORD7, rWORD8
 L(du44):
-	bne	cr0, L(duLcr0)
+	bne	cr7, L(duLcr7)
 L(du34):
 	bne	cr1, L(duLcr1)
 L(du24):
@@ -876,106 +1253,113 @@
 	sldi.	rN, rN, 3
 	bne	cr5, L(duLcr5)
 /* At this point we have a remainder of 1 to 7 bytes to compare.  We use
-   shift right double to elliminate bits beyond the compare length. 
-   This allows the use of double word subtract to compute the final
-   result.
+   shift right double to eliminate bits beyond the compare length.
 
-   However it may not be safe to load rWORD2 which may be beyond the 
+   However it may not be safe to load rWORD2 which may be beyond the
    string length. So we compare the bit length of the remainder to
    the right shift count (rSHR). If the bit count is less than or equal
    we do not need to load rWORD2 (all significant bits are already in
-   rB).  */
+   rWORD8_SHIFT).  */
 	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA, 0
+	li	r0, 0
 	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
 	ld	rWORD2, 8(rSTR2)
-	srd	rA, rWORD2, rSHR
-	.align 4
+#endif
+	srd	r0, rWORD2, rSHR
+	.align	4
 L(dutrim):
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+#else
 	ld	rWORD1, 8(rSTR1)
-	ld	rWORD8,-8(r1)
-	subfic	rN, rN, 64	/* Shift count is 64 - (rN * 8).  */ 
-	or	rWORD2, rA, rB
-	ld	rWORD7,-16(r1)	
-	ld	r29,-24(r1)
+#endif
+	ld	rWORD8, -8(r1)
+	subfic	rN, rN, 64	/* Shift count is 64 - (rN * 8).  */
+	or	rWORD2, r0, rWORD8_SHIFT
+	ld	rWORD7, -16(r1)
+	ld	rSHL, -24(r1)
 	srd	rWORD1, rWORD1, rN
 	srd	rWORD2, rWORD2, rN
-	ld	r28,-32(r1)	
-	ld	r27,-40(r1)
+	ld	rSHR, -32(r1)
+	ld	rWORD8_SHIFT, -40(r1)
 	li	rRTN, 0
-	cmpld	cr0, rWORD1, rWORD2	
-	ld	r26,-48(r1)
-	ld	r25,-56(r1)
- 	beq	cr0, L(dureturn24)
-	li	rRTN, 1
-	ld	r24,-64(r1)
-	bgtlr	cr0
-	li	rRTN, -1
-	blr
-	.align 4
-L(duLcr0):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN, 1
-	bgt	cr0, L(dureturn29)	
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
+	cmpld	cr7, rWORD1, rWORD2
+	ld	rWORD2_SHIFT, -48(r1)
+	ld	rWORD4_SHIFT, -56(r1)
+	beq	cr7, L(dureturn24)
+	li	rRTN, 1
+	ld	rWORD6_SHIFT, -64(r1)
+	bgtlr	cr7
+	li	rRTN, -1
+	blr
+	.align	4
+L(duLcr7):
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+	li	rRTN, 1
+	bgt	cr7, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
-	.align 4
+	.align	4
 L(duLcr1):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 	li	rRTN, 1
-	bgt	cr1, L(dureturn29)	
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
+	bgt	cr1, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
-	.align 4
+	.align	4
 L(duLcr6):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 	li	rRTN, 1
-	bgt	cr6, L(dureturn29)	
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
+	bgt	cr6, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
-	.align 4
+	.align	4
 L(duLcr5):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 	li	rRTN, 1
-	bgt	cr5, L(dureturn29)	
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
+	bgt	cr5, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
 	li	rRTN, -1
 	b	L(dureturn27)
 	.align	3
 L(duZeroReturn):
-	li	rRTN,0
+	li	rRTN, 0
 	.align	4
 L(dureturn):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-L(dureturn29):	
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
-L(dureturn27):	
-	ld	r27,-40(r1)
-L(dureturn26):	
-	ld	r26,-48(r1)
-L(dureturn25):	
-	ld	r25,-56(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+L(dureturn29):
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
+L(dureturn27):
+	ld	rWORD8_SHIFT, -40(r1)
+L(dureturn26):
+	ld	rWORD2_SHIFT, -48(r1)
+L(dureturn25):
+	ld	rWORD4_SHIFT, -56(r1)
 L(dureturn24):
-	ld	r24,-64(r1)
+	ld	rWORD6_SHIFT, -64(r1)
 	blr
 L(duzeroLength):
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
-END (BP_SYM (memcmp))
+END (memcmp)
 libc_hidden_builtin_def (memcmp)
 weak_alias (memcmp, bcmp)
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcmp.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcmp.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcmp.S	2014-05-28 19:22:37.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcmp.S	2014-05-29 09:35:08.000000000 -0500
@@ -1,5 +1,5 @@
 /* Optimized memcmp implementation for POWER7/PowerPC64.
-   Copyright (C) 2010, 2011 Free Software Foundation, Inc.
+   Copyright (C) 2010-2014 Free Software Foundation, Inc.
    This file is part of the GNU C Library.
 
    The GNU C Library is free software; you can redistribute it and/or
@@ -17,379 +17,576 @@
    <http://www.gnu.org/licenses/>.  */
 
 #include <sysdep.h>
-#include <bp-sym.h>
-#include <bp-asm.h>
 
 /* int [r3] memcmp (const char *s1 [r3],
 		    const char *s2 [r4],
 		    size_t size [r5])  */
 
 	.machine power7
-EALIGN (BP_SYM(memcmp),4,0)
+EALIGN (memcmp, 4, 0)
 	CALL_MCOUNT 3
 
-#define rTMP	r0
 #define rRTN	r3
 #define rSTR1	r3	/* first string arg */
 #define rSTR2	r4	/* second string arg */
 #define rN	r5	/* max string length */
-/* Note:  The Bounded pointer support in this code is broken.  This code
-   was inherited from PPC32 and that support was never completed.
-   Current PPC gcc does not support -fbounds-check or -fbounded-pointers.  */
 #define rWORD1	r6	/* current word in s1 */
 #define rWORD2	r7	/* current word in s2 */
 #define rWORD3	r8	/* next word in s1 */
 #define rWORD4	r9	/* next word in s2 */
 #define rWORD5	r10	/* next word in s1 */
 #define rWORD6	r11	/* next word in s2 */
-#define rBITDIF	r12	/* bits that differ in s1 & s2 words */
 #define rWORD7	r30	/* next word in s1 */
 #define rWORD8	r31	/* next word in s2 */
 
-	xor	rTMP,rSTR2,rSTR1
-	cmpldi	cr6,rN,0
-	cmpldi	cr1,rN,12
-	clrldi.	rTMP,rTMP,61
-	clrldi	rBITDIF,rSTR1,61
-	cmpldi	cr5,rBITDIF,0
-	beq-	cr6,L(zeroLength)
-	dcbt	0,rSTR1
-	dcbt	0,rSTR2
-/* If less than 8 bytes or not aligned, use the unalligned
+	xor	r0, rSTR2, rSTR1
+	cmpldi	cr6, rN, 0
+	cmpldi	cr1, rN, 12
+	clrldi.	r0, r0, 61
+	clrldi	r12, rSTR1, 61
+	cmpldi	cr5, r12, 0
+	beq-	cr6, L(zeroLength)
+	dcbt	0, rSTR1
+	dcbt	0, rSTR2
+/* If less than 8 bytes or not aligned, use the unaligned
    byte loop.  */
-	blt	cr1,L(bytealigned)
-	std	rWORD8,-8(r1)
-	cfi_offset(rWORD8,-8)
-	std	rWORD7,-16(r1)
-	cfi_offset(rWORD7,-16)
+	blt	cr1, L(bytealigned)
+	std	rWORD8, -8(r1)
+	cfi_offset(rWORD8, -8)
+	std	rWORD7, -16(r1)
+	cfi_offset(rWORD7, -16)
 	bne	L(unaligned)
 /* At this point we know both strings have the same alignment and the
-   compare length is at least 8 bytes.  rBITDIF containes the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    3 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then we are already double word
-   aligned and can perform the DWaligned loop.
+   of r12 to 0.  If r12 == 0 then we are already double word
+   aligned and can perform the DW aligned loop.
 
    Otherwise we know the two strings have the same alignment (but not
-   yet DW).  So we can force the string addresses to the next lower DW
-   boundary and special case this first DW word using shift left to
-   ellimiate bits preceeding the first byte.  Since we want to join the
-   normal (DWaligned) compare loop, starting at the second double word,
+   yet DW).  So we force the string addresses to the next lower DW
+   boundary and special case this first DW using shift left to
+   eliminate bits preceding the first byte.  Since we want to join the
+   normal (DW aligned) compare loop, starting at the second double word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first DW. This insures that the loop count is
-   correct and the first DW (shifted) is in the expected resister pair.  */
+   versioning for the first DW. This ensures that the loop count is
+   correct and the first DW (shifted) is in the expected register pair.  */
 	.align	4
 L(samealignment):
-	clrrdi	rSTR1,rSTR1,3
-	clrrdi	rSTR2,rSTR2,3
-	beq	cr5,L(DWaligned)
-	add	rN,rN,rBITDIF
-	sldi	r11,rBITDIF,3
-	srdi	rTMP,rN,5	/* Divide by 32 */
-	andi.	rBITDIF,rN,24	/* Get the DW remainder */
-	ld	rWORD1,0(rSTR1)
-	ld	rWORD2,0(rSTR2)
-	cmpldi	cr1,rBITDIF,16
-	cmpldi	cr7,rN,32
-	clrldi	rN,rN,61
+	clrrdi	rSTR1, rSTR1, 3
+	clrrdi	rSTR2, rSTR2, 3
+	beq	cr5, L(DWaligned)
+	add	rN, rN, r12
+	sldi	rWORD6, r12, 3
+	srdi	r0, rN, 5	/* Divide by 32 */
+	andi.	r12, rN, 24	/* Get the DW remainder */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 0(rSTR1)
+	ld	rWORD2, 0(rSTR2)
+#endif
+	cmpldi	cr1, r12, 16
+	cmpldi	cr7, rN, 32
+	clrldi	rN, rN, 61
 	beq	L(dPs4)
-	mtctr	rTMP
-	bgt	cr1,L(dPs3)
-	beq	cr1,L(dPs2)
+	mtctr	r0
+	bgt	cr1, L(dPs3)
+	beq	cr1, L(dPs2)
 
 /* Remainder is 8 */
 	.align	3
 L(dsP1):
-	sld	rWORD5,rWORD1,r11
-	sld	rWORD6,rWORD2,r11
-	cmpld	cr5,rWORD5,rWORD6
-	blt	cr7,L(dP1x)
+	sld	rWORD5, rWORD1, rWORD6
+	sld	rWORD6, rWORD2, rWORD6
+	cmpld	cr5, rWORD5, rWORD6
+	blt	cr7, L(dP1x)
 /* Do something useful in this cycle since we have to branch anyway.  */
-	ld	rWORD1,8(rSTR1)
-	ld	rWORD2,8(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 8(rSTR1)
+	ld	rWORD2, 8(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 	b	L(dP1e)
 /* Remainder is 16 */
 	.align	4
 L(dPs2):
-	sld	rWORD5,rWORD1,r11
-	sld	rWORD6,rWORD2,r11
-	cmpld	cr6,rWORD5,rWORD6
-	blt	cr7,L(dP2x)
+	sld	rWORD5, rWORD1, rWORD6
+	sld	rWORD6, rWORD2, rWORD6
+	cmpld	cr6, rWORD5, rWORD6
+	blt	cr7, L(dP2x)
 /* Do something useful in this cycle since we have to branch anyway.  */
-	ld	rWORD7,8(rSTR1)
-	ld	rWORD8,8(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD7, 8(rSTR1)
+	ld	rWORD8, 8(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
 	b	L(dP2e)
 /* Remainder is 24 */
 	.align	4
 L(dPs3):
-	sld	rWORD3,rWORD1,r11
-	sld	rWORD4,rWORD2,r11
-	cmpld	cr1,rWORD3,rWORD4
+	sld	rWORD3, rWORD1, rWORD6
+	sld	rWORD4, rWORD2, rWORD6
+	cmpld	cr1, rWORD3, rWORD4
 	b	L(dP3e)
 /* Count is a multiple of 32, remainder is 0 */
 	.align	4
 L(dPs4):
-	mtctr	rTMP
-	sld	rWORD1,rWORD1,r11
-	sld	rWORD2,rWORD2,r11
-	cmpld	cr0,rWORD1,rWORD2
+	mtctr	r0
+	sld	rWORD1, rWORD1, rWORD6
+	sld	rWORD2, rWORD2, rWORD6
+	cmpld	cr7, rWORD1, rWORD2
 	b	L(dP4e)
 
 /* At this point we know both strings are double word aligned and the
    compare length is at least 8 bytes.  */
 	.align	4
 L(DWaligned):
-	andi.	rBITDIF,rN,24	/* Get the DW remainder */
-	srdi	rTMP,rN,5	/* Divide by 32 */
-	cmpldi	cr1,rBITDIF,16
-	cmpldi	cr7,rN,32
-	clrldi	rN,rN,61
+	andi.	r12, rN, 24	/* Get the DW remainder */
+	srdi	r0, rN, 5	/* Divide by 32 */
+	cmpldi	cr1, r12, 16
+	cmpldi	cr7, rN, 32
+	clrldi	rN, rN, 61
 	beq	L(dP4)
-	bgt	cr1,L(dP3)
-	beq	cr1,L(dP2)
+	bgt	cr1, L(dP3)
+	beq	cr1, L(dP2)
 
 /* Remainder is 8 */
 	.align	4
 L(dP1):
-	mtctr	rTMP
+	mtctr	r0
 /* Normally we'd use rWORD7/rWORD8 here, but since we might exit early
-   (8-15 byte compare), we want to use only volitile registers.  This
-   means we can avoid restoring non-volitile registers since we did not
+   (8-15 byte compare), we want to use only volatile registers.  This
+   means we can avoid restoring non-volatile registers since we did not
    change any on the early exit path.  The key here is the non-early
    exit path only cares about the condition code (cr5), not about which
    register pair was used.  */
-	ld	rWORD5,0(rSTR1)
-	ld	rWORD6,0(rSTR2)
-	cmpld	cr5,rWORD5,rWORD6
-	blt	cr7,L(dP1x)
-	ld	rWORD1,8(rSTR1)
-	ld	rWORD2,8(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 0(rSTR1)
+	ld	rWORD6, 0(rSTR2)
+#endif
+	cmpld	cr5, rWORD5, rWORD6
+	blt	cr7, L(dP1x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 8(rSTR1)
+	ld	rWORD2, 8(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 L(dP1e):
-	ld	rWORD3,16(rSTR1)
-	ld	rWORD4,16(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	ld	rWORD5,24(rSTR1)
-	ld	rWORD6,24(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	bne	cr5,L(dLcr5)
-	bne	cr0,L(dLcr0)
-
-	ldu	rWORD7,32(rSTR1)
-	ldu	rWORD8,32(rSTR2)
-	bne	cr1,L(dLcr1)
-	cmpld	cr5,rWORD7,rWORD8
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 16(rSTR1)
+	ld	rWORD4, 16(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 24(rSTR1)
+	ld	rWORD6, 24(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	bne	cr5, L(dLcr5x)
+	bne	cr7, L(dLcr7x)
+
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ldu	rWORD7, 32(rSTR1)
+	ldu	rWORD8, 32(rSTR2)
+#endif
+	bne	cr1, L(dLcr1)
+	cmpld	cr5, rWORD7, rWORD8
 	bdnz	L(dLoop)
-	bne	cr6,L(dLcr6)
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	bne	cr6, L(dLcr6)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 	.align	3
 L(dP1x):
-	sldi.	r12,rN,3
-	bne	cr5,L(dLcr5)
-	subfic	rN,r12,64	/* Shift count is 64 - (rN * 8).  */
+	sldi.	r12, rN, 3
+	bne	cr5, L(dLcr5x)
+	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
 	bne	L(d00)
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
 /* Remainder is 16 */
 	.align	4
 L(dP2):
-	mtctr	rTMP
-	ld	rWORD5,0(rSTR1)
-	ld	rWORD6,0(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	blt	cr7,L(dP2x)
-	ld	rWORD7,8(rSTR1)
-	ld	rWORD8,8(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
+	mtctr	r0
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 0(rSTR1)
+	ld	rWORD6, 0(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	blt	cr7, L(dP2x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD7, 8(rSTR1)
+	ld	rWORD8, 8(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
 L(dP2e):
-	ld	rWORD1,16(rSTR1)
-	ld	rWORD2,16(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
-	ld	rWORD3,24(rSTR1)
-	ld	rWORD4,24(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	bne	cr6,L(dLcr6)
-	bne	cr5,L(dLcr5)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 16(rSTR1)
+	ld	rWORD2, 16(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 24(rSTR1)
+	ld	rWORD4, 24(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+	bne	cr6, L(dLcr6)
+	bne	cr5, L(dLcr5)
 	b	L(dLoop2)
 /* Again we are on a early exit path (16-23 byte compare), we want to
-   only use volitile registers and avoid restoring non-volitile
+   only use volatile registers and avoid restoring non-volatile
    registers.  */
 	.align	4
 L(dP2x):
-	ld	rWORD3,8(rSTR1)
-	ld	rWORD4,8(rSTR2)
-	cmpld	cr5,rWORD3,rWORD4
-	sldi.	r12,rN,3
-	bne	cr6,L(dLcr6)
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	bne	cr5,L(dLcr5)
-	subfic	rN,r12,64	/* Shift count is 64 - (rN * 8).  */
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 8(rSTR1)
+	ld	rWORD4, 8(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+	sldi.	r12, rN, 3
+	bne	cr6, L(dLcr6x)
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+	bne	cr1, L(dLcr1x)
+	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
 	bne	L(d00)
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
 /* Remainder is 24 */
 	.align	4
 L(dP3):
-	mtctr	rTMP
-	ld	rWORD3,0(rSTR1)
-	ld	rWORD4,0(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
+	mtctr	r0
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 0(rSTR1)
+	ld	rWORD4, 0(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
 L(dP3e):
-	ld	rWORD5,8(rSTR1)
-	ld	rWORD6,8(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	blt	cr7,L(dP3x)
-	ld	rWORD7,16(rSTR1)
-	ld	rWORD8,16(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
-	ld	rWORD1,24(rSTR1)
-	ld	rWORD2,24(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
-	addi	rSTR1,rSTR1,16
-	addi	rSTR2,rSTR2,16
-	bne	cr1,L(dLcr1)
-	bne	cr6,L(dLcr6)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 8(rSTR1)
+	ld	rWORD6, 8(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	blt	cr7, L(dP3x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD7, 16(rSTR1)
+	ld	rWORD8, 16(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 24(rSTR1)
+	ld	rWORD2, 24(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 16
+	addi	rSTR2, rSTR2, 16
+#endif
+	bne	cr1, L(dLcr1)
+	bne	cr6, L(dLcr6)
 	b	L(dLoop1)
 /* Again we are on a early exit path (24-31 byte compare), we want to
-   only use volitile registers and avoid restoring non-volitile
+   only use volatile registers and avoid restoring non-volatile
    registers.  */
 	.align	4
 L(dP3x):
-	ld	rWORD1,16(rSTR1)
-	ld	rWORD2,16(rSTR2)
-	cmpld	cr5,rWORD1,rWORD2
-	sldi.	r12,rN,3
-	bne	cr1,L(dLcr1)
-	addi	rSTR1,rSTR1,16
-	addi	rSTR2,rSTR2,16
-	bne	cr6,L(dLcr6)
-	subfic	rN,r12,64	/* Shift count is 64 - (rN * 8).  */
-	bne	cr5,L(dLcr5)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 16(rSTR1)
+	ld	rWORD2, 16(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+	sldi.	r12, rN, 3
+	bne	cr1, L(dLcr1x)
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 16
+	addi	rSTR2, rSTR2, 16
+#endif
+	bne	cr6, L(dLcr6x)
+	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
+	bne	cr7, L(dLcr7x)
 	bne	L(d00)
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
 /* Count is a multiple of 32, remainder is 0 */
 	.align	4
 L(dP4):
-	mtctr	rTMP
-	ld	rWORD1,0(rSTR1)
-	ld	rWORD2,0(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
+	mtctr	r0
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 0(rSTR1)
+	ld	rWORD2, 0(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 L(dP4e):
-	ld	rWORD3,8(rSTR1)
-	ld	rWORD4,8(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	ld	rWORD5,16(rSTR1)
-	ld	rWORD6,16(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	ldu	rWORD7,24(rSTR1)
-	ldu	rWORD8,24(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
-	bne	cr0,L(dLcr0)
-	bne	cr1,L(dLcr1)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 8(rSTR1)
+	ld	rWORD4, 8(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 16(rSTR1)
+	ld	rWORD6, 16(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ldu	rWORD7, 24(rSTR1)
+	ldu	rWORD8, 24(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+	bne	cr7, L(dLcr7)
+	bne	cr1, L(dLcr1)
 	bdz-	L(d24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
 	.align	4
 L(dLoop):
-	ld	rWORD1,8(rSTR1)
-	ld	rWORD2,8(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	bne	cr6,L(dLcr6)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 8(rSTR1)
+	ld	rWORD2, 8(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+	bne	cr6, L(dLcr6)
 L(dLoop1):
-	ld	rWORD3,16(rSTR1)
-	ld	rWORD4,16(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	bne	cr5,L(dLcr5)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 16(rSTR1)
+	ld	rWORD4, 16(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	bne	cr5, L(dLcr5)
 L(dLoop2):
-	ld	rWORD5,24(rSTR1)
-	ld	rWORD6,24(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
-	bne	cr0,L(dLcr0)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 24(rSTR1)
+	ld	rWORD6, 24(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+	bne	cr7, L(dLcr7)
 L(dLoop3):
-	ldu	rWORD7,32(rSTR1)
-	ldu	rWORD8,32(rSTR2)
-	bne	cr1,L(dLcr1)
-	cmpld	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ldu	rWORD7, 32(rSTR1)
+	ldu	rWORD8, 32(rSTR2)
+#endif
+	bne	cr1, L(dLcr1)
+	cmpld	cr7, rWORD1, rWORD2
 	bdnz	L(dLoop)
 
 L(dL4):
-	cmpld	cr1,rWORD3,rWORD4
-	bne	cr6,L(dLcr6)
-	cmpld	cr6,rWORD5,rWORD6
-	bne	cr5,L(dLcr5)
-	cmpld	cr5,rWORD7,rWORD8
+	cmpld	cr1, rWORD3, rWORD4
+	bne	cr6, L(dLcr6)
+	cmpld	cr6, rWORD5, rWORD6
+	bne	cr5, L(dLcr5)
+	cmpld	cr5, rWORD7, rWORD8
 L(d44):
-	bne	cr0,L(dLcr0)
+	bne	cr7, L(dLcr7)
 L(d34):
-	bne	cr1,L(dLcr1)
+	bne	cr1, L(dLcr1)
 L(d24):
-	bne	cr6,L(dLcr6)
+	bne	cr6, L(dLcr6)
 L(d14):
-	sldi.	r12,rN,3
-	bne	cr5,L(dLcr5)
+	sldi.	r12, rN, 3
+	bne	cr5, L(dLcr5)
 L(d04):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	subfic	rN,r12,64	/* Shift count is 64 - (rN * 8).  */
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+	subfic	rN, r12, 64	/* Shift count is 64 - (rN * 8).  */
 	beq	L(zeroLength)
 /* At this point we have a remainder of 1 to 7 bytes to compare.  Since
    we are aligned it is safe to load the whole double word, and use
-   shift right double to elliminate bits beyond the compare length.  */
+   shift right double to eliminate bits beyond the compare length.  */
 L(d00):
-	ld	rWORD1,8(rSTR1)
-	ld	rWORD2,8(rSTR2)
-	srd	rWORD1,rWORD1,rN
-	srd	rWORD2,rWORD2,rN
-	cmpld	cr5,rWORD1,rWORD2
-	bne	cr5,L(dLcr5x)
-	li	rRTN,0
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 8(rSTR1)
+	ld	rWORD2, 8(rSTR2)
+#endif
+	srd	rWORD1, rWORD1, rN
+	srd	rWORD2, rWORD2, rN
+	cmpld	cr7, rWORD1, rWORD2
+	bne	cr7, L(dLcr7x)
+	li	rRTN, 0
 	blr
+
 	.align	4
-L(dLcr0):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN,1
-	bgtlr	cr0
-	li	rRTN,-1
+L(dLcr7):
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+L(dLcr7x):
+	li	rRTN, 1
+	bgtlr	cr7
+	li	rRTN, -1
 	blr
 	.align	4
 L(dLcr1):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN,1
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+L(dLcr1x):
+	li	rRTN, 1
 	bgtlr	cr1
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 	.align	4
 L(dLcr6):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN,1
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+L(dLcr6x):
+	li	rRTN, 1
 	bgtlr	cr6
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 	.align	4
 L(dLcr5):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 L(dLcr5x):
-	li	rRTN,1
+	li	rRTN, 1
 	bgtlr	cr5
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 
 	.align	4
 L(bytealigned):
 	mtctr	rN
-	beq	cr6,L(zeroLength)
+#if 0
+/* Huh?  We've already branched on cr6!  */
+	beq	cr6, L(zeroLength)
+#endif
 
 /* We need to prime this loop.  This loop is swing modulo scheduled
    to avoid pipe delays.  The dependent instruction latencies (load to
@@ -401,38 +598,38 @@
    So we must precondition some registers and condition codes so that
    we don't exit the loop early on the first iteration.  */
 
-	lbz	rWORD1,0(rSTR1)
-	lbz	rWORD2,0(rSTR2)
+	lbz	rWORD1, 0(rSTR1)
+	lbz	rWORD2, 0(rSTR2)
 	bdz	L(b11)
-	cmpld	cr0,rWORD1,rWORD2
-	lbz	rWORD3,1(rSTR1)
-	lbz	rWORD4,1(rSTR2)
+	cmpld	cr7, rWORD1, rWORD2
+	lbz	rWORD3, 1(rSTR1)
+	lbz	rWORD4, 1(rSTR2)
 	bdz	L(b12)
-	cmpld	cr1,rWORD3,rWORD4
-	lbzu	rWORD5,2(rSTR1)
-	lbzu	rWORD6,2(rSTR2)
+	cmpld	cr1, rWORD3, rWORD4
+	lbzu	rWORD5, 2(rSTR1)
+	lbzu	rWORD6, 2(rSTR2)
 	bdz	L(b13)
 	.align	4
 L(bLoop):
-	lbzu	rWORD1,1(rSTR1)
-	lbzu	rWORD2,1(rSTR2)
-	bne	cr0,L(bLcr0)
+	lbzu	rWORD1, 1(rSTR1)
+	lbzu	rWORD2, 1(rSTR2)
+	bne	cr7, L(bLcr7)
 
-	cmpld	cr6,rWORD5,rWORD6
+	cmpld	cr6, rWORD5, rWORD6
 	bdz	L(b3i)
 
-	lbzu	rWORD3,1(rSTR1)
-	lbzu	rWORD4,1(rSTR2)
-	bne	cr1,L(bLcr1)
+	lbzu	rWORD3, 1(rSTR1)
+	lbzu	rWORD4, 1(rSTR2)
+	bne	cr1, L(bLcr1)
 
-	cmpld	cr0,rWORD1,rWORD2
+	cmpld	cr7, rWORD1, rWORD2
 	bdz	L(b2i)
 
-	lbzu	rWORD5,1(rSTR1)
-	lbzu	rWORD6,1(rSTR2)
-	bne	cr6,L(bLcr6)
+	lbzu	rWORD5, 1(rSTR1)
+	lbzu	rWORD6, 1(rSTR2)
+	bne	cr6, L(bLcr6)
 
-	cmpld	cr1,rWORD3,rWORD4
+	cmpld	cr1, rWORD3, rWORD4
 	bdnz	L(bLoop)
 
 /* We speculatively loading bytes before we have tested the previous
@@ -442,542 +639,727 @@
    tested.  In this case we must complete the pending operations
    before returning.  */
 L(b1i):
-	bne	cr0,L(bLcr0)
-	bne	cr1,L(bLcr1)
+	bne	cr7, L(bLcr7)
+	bne	cr1, L(bLcr1)
 	b	L(bx56)
 	.align	4
 L(b2i):
-	bne	cr6,L(bLcr6)
-	bne	cr0,L(bLcr0)
+	bne	cr6, L(bLcr6)
+	bne	cr7, L(bLcr7)
 	b	L(bx34)
 	.align	4
 L(b3i):
-	bne	cr1,L(bLcr1)
-	bne	cr6,L(bLcr6)
+	bne	cr1, L(bLcr1)
+	bne	cr6, L(bLcr6)
 	b	L(bx12)
 	.align	4
-L(bLcr0):
-	li	rRTN,1
-	bgtlr	cr0
-	li	rRTN,-1
+L(bLcr7):
+	li	rRTN, 1
+	bgtlr	cr7
+	li	rRTN, -1
 	blr
 L(bLcr1):
-	li	rRTN,1
+	li	rRTN, 1
 	bgtlr	cr1
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 L(bLcr6):
-	li	rRTN,1
+	li	rRTN, 1
 	bgtlr	cr6
-	li	rRTN,-1
+	li	rRTN, -1
 	blr
 
 L(b13):
-	bne	cr0,L(bx12)
-	bne	cr1,L(bx34)
+	bne	cr7, L(bx12)
+	bne	cr1, L(bx34)
 L(bx56):
-	sub	rRTN,rWORD5,rWORD6
+	sub	rRTN, rWORD5, rWORD6
 	blr
 	nop
 L(b12):
-	bne	cr0,L(bx12)
+	bne	cr7, L(bx12)
 L(bx34):
-	sub	rRTN,rWORD3,rWORD4
+	sub	rRTN, rWORD3, rWORD4
 	blr
 L(b11):
 L(bx12):
-	sub	rRTN,rWORD1,rWORD2
+	sub	rRTN, rWORD1, rWORD2
 	blr
 	.align	4
-L(zeroLengthReturn):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
 L(zeroLength):
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
 	.align	4
 /* At this point we know the strings have different alignment and the
-   compare length is at least 8 bytes.  rBITDIF containes the low order
+   compare length is at least 8 bytes.  r12 contains the low order
    3 bits of rSTR1 and cr5 contains the result of the logical compare
-   of rBITDIF to 0.  If rBITDIF == 0 then rStr1 is double word
+   of r12 to 0.  If r12 == 0 then rStr1 is double word
    aligned and can perform the DWunaligned loop.
 
-   Otherwise we know that rSTR1 is not aready DW aligned yet.
+   Otherwise we know that rSTR1 is not already DW aligned yet.
    So we can force the string addresses to the next lower DW
-   boundary and special case this first DW word using shift left to
-   ellimiate bits preceeding the first byte.  Since we want to join the
+   boundary and special case this first DW using shift left to
+   eliminate bits preceding the first byte.  Since we want to join the
    normal (DWaligned) compare loop, starting at the second double word,
    we need to adjust the length (rN) and special case the loop
-   versioning for the first DW. This insures that the loop count is
+   versioning for the first DW. This ensures that the loop count is
    correct and the first DW (shifted) is in the expected resister pair.  */
-#define rSHL	r29	/* Unaligned shift left count.  */
-#define rSHR	r28	/* Unaligned shift right count.  */
-#define rB		r27	/* Left rotation temp for rWORD2.  */
-#define rD		r26	/* Left rotation temp for rWORD4.  */
-#define rF		r25	/* Left rotation temp for rWORD6.  */
-#define rH		r24	/* Left rotation temp for rWORD8.  */
-#define rA		r0	/* Right rotation temp for rWORD2.  */
-#define rC		r12	/* Right rotation temp for rWORD4.  */
-#define rE		r0	/* Right rotation temp for rWORD6.  */
-#define rG		r12	/* Right rotation temp for rWORD8.  */
+#define rSHL		r29	/* Unaligned shift left count.  */
+#define rSHR		r28	/* Unaligned shift right count.  */
+#define rWORD8_SHIFT	r27	/* Left rotation temp for rWORD2.  */
+#define rWORD2_SHIFT	r26	/* Left rotation temp for rWORD4.  */
+#define rWORD4_SHIFT	r25	/* Left rotation temp for rWORD6.  */
+#define rWORD6_SHIFT	r24	/* Left rotation temp for rWORD8.  */
 L(unaligned):
-	std	r29,-24(r1)
-	cfi_offset(r29,-24)
-	clrldi	rSHL,rSTR2,61
-	beq	cr6,L(duzeroLength)
-	std	r28,-32(r1)
-	cfi_offset(r28,-32)
-	beq	cr5,L(DWunaligned)
-	std	r27,-40(r1)
-	cfi_offset(r27,-40)
-/* Adjust the logical start of rSTR2 ro compensate for the extra bits
+	std	rSHL, -24(r1)
+	cfi_offset(rSHL, -24)
+	clrldi	rSHL, rSTR2, 61
+	beq	cr6, L(duzeroLength)
+	std	rSHR, -32(r1)
+	cfi_offset(rSHR, -32)
+	beq	cr5, L(DWunaligned)
+	std	rWORD8_SHIFT, -40(r1)
+	cfi_offset(rWORD8_SHIFT, -40)
+/* Adjust the logical start of rSTR2 to compensate for the extra bits
    in the 1st rSTR1 DW.  */
-	sub	r27,rSTR2,rBITDIF
+	sub	rWORD8_SHIFT, rSTR2, r12
 /* But do not attempt to address the DW before that DW that contains
    the actual start of rSTR2.  */
-	clrrdi	rSTR2,rSTR2,3
-	std	r26,-48(r1)
-	cfi_offset(r26,-48)
-/* Compute the leaft/right shift counts for the unalign rSTR2,
+	clrrdi	rSTR2, rSTR2, 3
+	std	rWORD2_SHIFT, -48(r1)
+	cfi_offset(rWORD2_SHIFT, -48)
+/* Compute the left/right shift counts for the unaligned rSTR2,
    compensating for the logical (DW aligned) start of rSTR1.  */
-	clrldi	rSHL,r27,61
-	clrrdi	rSTR1,rSTR1,3
-	std	r25,-56(r1)
-	cfi_offset(r25,-56)
-	sldi	rSHL,rSHL,3
-	cmpld	cr5,r27,rSTR2
-	add	rN,rN,rBITDIF
-	sldi	r11,rBITDIF,3
-	std	r24,-64(r1)
-	cfi_offset(r24,-64)
-	subfic	rSHR,rSHL,64
-	srdi	rTMP,rN,5	/* Divide by 32 */
-	andi.	rBITDIF,rN,24	/* Get the DW remainder */
+	clrldi	rSHL, rWORD8_SHIFT, 61
+	clrrdi	rSTR1, rSTR1, 3
+	std	rWORD4_SHIFT, -56(r1)
+	cfi_offset(rWORD4_SHIFT, -56)
+	sldi	rSHL, rSHL, 3
+	cmpld	cr5, rWORD8_SHIFT, rSTR2
+	add	rN, rN, r12
+	sldi	rWORD6, r12, 3
+	std	rWORD6_SHIFT, -64(r1)
+	cfi_offset(rWORD6_SHIFT, -64)
+	subfic	rSHR, rSHL, 64
+	srdi	r0, rN, 5	/* Divide by 32 */
+	andi.	r12, rN, 24	/* Get the DW remainder */
 /* We normally need to load 2 DWs to start the unaligned rSTR2, but in
    this special case those bits may be discarded anyway.  Also we
    must avoid loading a DW where none of the bits are part of rSTR2 as
    this may cross a page boundary and cause a page fault.  */
-	li	rWORD8,0
-	blt	cr5,L(dus0)
-	ld	rWORD8,0(rSTR2)
-	la	rSTR2,8(rSTR2)
-	sld	rWORD8,rWORD8,rSHL
+	li	rWORD8, 0
+	blt	cr5, L(dus0)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD8, 0(rSTR2)
+	addi	rSTR2, rSTR2, 8
+#endif
+	sld	rWORD8, rWORD8, rSHL
 
 L(dus0):
-	ld	rWORD1,0(rSTR1)
-	ld	rWORD2,0(rSTR2)
-	cmpldi	cr1,rBITDIF,16
-	cmpldi	cr7,rN,32
-	srd	rG,rWORD2,rSHR
-	clrldi	rN,rN,61
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 0(rSTR1)
+	ld	rWORD2, 0(rSTR2)
+#endif
+	cmpldi	cr1, r12, 16
+	cmpldi	cr7, rN, 32
+	srd	r12, rWORD2, rSHR
+	clrldi	rN, rN, 61
 	beq	L(duPs4)
-	mtctr	rTMP
-	or	rWORD8,rG,rWORD8
-	bgt	cr1,L(duPs3)
-	beq	cr1,L(duPs2)
+	mtctr	r0
+	or	rWORD8, r12, rWORD8
+	bgt	cr1, L(duPs3)
+	beq	cr1, L(duPs2)
 
 /* Remainder is 8 */
 	.align	4
 L(dusP1):
-	sld	rB,rWORD2,rSHL
-	sld	rWORD7,rWORD1,r11
-	sld	rWORD8,rWORD8,r11
-	bge	cr7,L(duP1e)
+	sld	rWORD8_SHIFT, rWORD2, rSHL
+	sld	rWORD7, rWORD1, rWORD6
+	sld	rWORD8, rWORD8, rWORD6
+	bge	cr7, L(duP1e)
 /* At this point we exit early with the first double word compare
    complete and remainder of 0 to 7 bytes.  See L(du14) for details on
    how we handle the remaining bytes.  */
-	cmpld	cr5,rWORD7,rWORD8
-	sldi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmpld	cr7,rN,rSHR
+	cmpld	cr5, rWORD7, rWORD8
+	sldi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	ld	rWORD2,8(rSTR2)
-	srd	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD2, 8(rSTR2)
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 16 */
 	.align	4
 L(duPs2):
-	sld	rH,rWORD2,rSHL
-	sld	rWORD5,rWORD1,r11
-	sld	rWORD6,rWORD8,r11
+	sld	rWORD6_SHIFT, rWORD2, rSHL
+	sld	rWORD5, rWORD1, rWORD6
+	sld	rWORD6, rWORD8, rWORD6
 	b	L(duP2e)
 /* Remainder is 24 */
 	.align	4
 L(duPs3):
-	sld	rF,rWORD2,rSHL
-	sld	rWORD3,rWORD1,r11
-	sld	rWORD4,rWORD8,r11
+	sld	rWORD4_SHIFT, rWORD2, rSHL
+	sld	rWORD3, rWORD1, rWORD6
+	sld	rWORD4, rWORD8, rWORD6
 	b	L(duP3e)
 /* Count is a multiple of 32, remainder is 0 */
 	.align	4
 L(duPs4):
-	mtctr	rTMP
-	or	rWORD8,rG,rWORD8
-	sld	rD,rWORD2,rSHL
-	sld	rWORD1,rWORD1,r11
-	sld	rWORD2,rWORD8,r11
+	mtctr	r0
+	or	rWORD8, r12, rWORD8
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	sld	rWORD1, rWORD1, rWORD6
+	sld	rWORD2, rWORD8, rWORD6
 	b	L(duP4e)
 
 /* At this point we know rSTR1 is double word aligned and the
    compare length is at least 8 bytes.  */
 	.align	4
 L(DWunaligned):
-	std	r27,-40(r1)
-	cfi_offset(r27,-40)
-	clrrdi	rSTR2,rSTR2,3
-	std	r26,-48(r1)
-	cfi_offset(r26,-48)
-	srdi	rTMP,rN,5	/* Divide by 32 */
-	std	r25,-56(r1)
-	cfi_offset(r25,-56)
-	andi.	rBITDIF,rN,24	/* Get the DW remainder */
-	std	r24,-64(r1)
-	cfi_offset(r24,-64)
-	sldi	rSHL,rSHL,3
-	ld	rWORD6,0(rSTR2)
-	ldu	rWORD8,8(rSTR2)
-	cmpldi	cr1,rBITDIF,16
-	cmpldi	cr7,rN,32
-	clrldi	rN,rN,61
-	subfic	rSHR,rSHL,64
-	sld	rH,rWORD6,rSHL
+	std	rWORD8_SHIFT, -40(r1)
+	cfi_offset(rWORD8_SHIFT, -40)
+	clrrdi	rSTR2, rSTR2, 3
+	std	rWORD2_SHIFT, -48(r1)
+	cfi_offset(rWORD2_SHIFT, -48)
+	srdi	r0, rN, 5	/* Divide by 32 */
+	std	rWORD4_SHIFT, -56(r1)
+	cfi_offset(rWORD4_SHIFT, -56)
+	andi.	r12, rN, 24	/* Get the DW remainder */
+	std	rWORD6_SHIFT, -64(r1)
+	cfi_offset(rWORD6_SHIFT, -64)
+	sldi	rSHL, rSHL, 3
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD6, 0(rSTR2)
+	ldu	rWORD8, 8(rSTR2)
+#endif
+	cmpldi	cr1, r12, 16
+	cmpldi	cr7, rN, 32
+	clrldi	rN, rN, 61
+	subfic	rSHR, rSHL, 64
+	sld	rWORD6_SHIFT, rWORD6, rSHL
 	beq	L(duP4)
-	mtctr	rTMP
-	bgt	cr1,L(duP3)
-	beq	cr1,L(duP2)
+	mtctr	r0
+	bgt	cr1, L(duP3)
+	beq	cr1, L(duP2)
 
 /* Remainder is 8 */
 	.align	4
 L(duP1):
-	srd	rG,rWORD8,rSHR
-	ld	rWORD7,0(rSTR1)
-	sld	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	blt	cr7,L(duP1x)
+	srd	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
+	ld	rWORD7, 0(rSTR1)
+#endif
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	blt	cr7, L(duP1x)
 L(duP1e):
-	ld	rWORD1,8(rSTR1)
-	ld	rWORD2,8(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
-	srd	rA,rWORD2,rSHR
-	sld	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
-	ld	rWORD3,16(rSTR1)
-	ld	rWORD4,16(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
-	srd	rC,rWORD4,rSHR
-	sld	rF,rWORD4,rSHL
-	bne	cr5,L(duLcr5)
-	or	rWORD4,rC,rD
-	ld	rWORD5,24(rSTR1)
-	ld	rWORD6,24(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	srd	rE,rWORD6,rSHR
-	sld	rH,rWORD6,rSHL
-	bne	cr0,L(duLcr0)
-	or	rWORD6,rE,rF
-	cmpld	cr6,rWORD5,rWORD6
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 8(rSTR1)
+	ld	rWORD2, 8(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 16(rSTR1)
+	ld	rWORD4, 16(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
+	bne	cr5, L(duLcr5)
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 24(rSTR1)
+	ld	rWORD6, 24(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	bne	cr7, L(duLcr7)
+	or	rWORD6, r0, rWORD4_SHIFT
+	cmpld	cr6, rWORD5, rWORD6
 	b	L(duLoop3)
 	.align	4
 /* At this point we exit early with the first double word compare
    complete and remainder of 0 to 7 bytes.  See L(du14) for details on
    how we handle the remaining bytes.  */
 L(duP1x):
-	cmpld	cr5,rWORD7,rWORD8
-	sldi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmpld	cr7,rN,rSHR
+	cmpld	cr5, rWORD7, rWORD8
+	sldi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	ld	rWORD2,8(rSTR2)
-	srd	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD2, 8(rSTR2)
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
 /* Remainder is 16 */
 	.align	4
 L(duP2):
-	srd	rE,rWORD8,rSHR
-	ld	rWORD5,0(rSTR1)
-	or	rWORD6,rE,rH
-	sld	rH,rWORD8,rSHL
+	srd	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
+	ld	rWORD5, 0(rSTR1)
+#endif
+	or	rWORD6, r0, rWORD6_SHIFT
+	sld	rWORD6_SHIFT, rWORD8, rSHL
 L(duP2e):
-	ld	rWORD7,8(rSTR1)
-	ld	rWORD8,8(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	srd	rG,rWORD8,rSHR
-	sld	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	blt	cr7,L(duP2x)
-	ld	rWORD1,16(rSTR1)
-	ld	rWORD2,16(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
-	bne	cr6,L(duLcr6)
-	srd	rA,rWORD2,rSHR
-	sld	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
-	ld	rWORD3,24(rSTR1)
-	ld	rWORD4,24(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
-	bne	cr5,L(duLcr5)
-	srd	rC,rWORD4,rSHR
-	sld	rF,rWORD4,rSHL
-	or	rWORD4,rC,rD
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	cmpld	cr1,rWORD3,rWORD4
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD7, 8(rSTR1)
+	ld	rWORD8, 8(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	blt	cr7, L(duP2x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 16(rSTR1)
+	ld	rWORD2, 16(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+	bne	cr6, L(duLcr6)
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 24(rSTR1)
+	ld	rWORD4, 24(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+	bne	cr5, L(duLcr5)
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+	cmpld	cr1, rWORD3, rWORD4
 	b	L(duLoop2)
 	.align	4
 L(duP2x):
-	cmpld	cr5,rWORD7,rWORD8
-	addi	rSTR1,rSTR1,8
-	addi	rSTR2,rSTR2,8
-	bne	cr6,L(duLcr6)
-	sldi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmpld	cr7,rN,rSHR
+	cmpld	cr5, rWORD7, rWORD8
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#endif
+	bne	cr6, L(duLcr6)
+	sldi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	ld	rWORD2,8(rSTR2)
-	srd	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD2, 8(rSTR2)
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
 
 /* Remainder is 24 */
 	.align	4
 L(duP3):
-	srd	rC,rWORD8,rSHR
-	ld	rWORD3,0(rSTR1)
-	sld	rF,rWORD8,rSHL
-	or	rWORD4,rC,rH
+	srd	r12, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
+	ld	rWORD3, 0(rSTR1)
+#endif
+	sld	rWORD4_SHIFT, rWORD8, rSHL
+	or	rWORD4, r12, rWORD6_SHIFT
 L(duP3e):
-	ld	rWORD5,8(rSTR1)
-	ld	rWORD6,8(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	srd	rE,rWORD6,rSHR
-	sld	rH,rWORD6,rSHL
-	or	rWORD6,rE,rF
-	ld	rWORD7,16(rSTR1)
-	ld	rWORD8,16(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	bne	cr1,L(duLcr1)
-	srd	rG,rWORD8,rSHR
-	sld	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	blt	cr7,L(duP3x)
-	ld	rWORD1,24(rSTR1)
-	ld	rWORD2,24(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
-	bne	cr6,L(duLcr6)
-	srd	rA,rWORD2,rSHR
-	sld	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
-	addi	rSTR1,rSTR1,16
-	addi	rSTR2,rSTR2,16
-	cmpld	cr0,rWORD1,rWORD2
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 8(rSTR1)
+	ld	rWORD6, 8(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD7, 16(rSTR1)
+	ld	rWORD8, 16(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	bne	cr1, L(duLcr1)
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	blt	cr7, L(duP3x)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 24(rSTR1)
+	ld	rWORD2, 24(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+	bne	cr6, L(duLcr6)
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 16
+	addi	rSTR2, rSTR2, 16
+#endif
+	cmpld	cr7, rWORD1, rWORD2
 	b	L(duLoop1)
 	.align	4
 L(duP3x):
-	addi	rSTR1,rSTR1,16
-	addi	rSTR2,rSTR2,16
-	bne	cr1,L(duLcr1)
-	cmpld	cr5,rWORD7,rWORD8
-	bne	cr6,L(duLcr6)
-	sldi.	rN,rN,3
-	bne	cr5,L(duLcr5)
-	cmpld	cr7,rN,rSHR
+#ifndef __LITTLE_ENDIAN__
+	addi	rSTR1, rSTR1, 16
+	addi	rSTR2, rSTR2, 16
+#endif
+#if 0
+/* Huh?  We've already branched on cr1!  */
+	bne	cr1, L(duLcr1)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+	bne	cr6, L(duLcr6)
+	sldi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
+	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	ld	rWORD2,8(rSTR2)
-	srd	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD2, 8(rSTR2)
+#endif
+	srd	r0, rWORD2, rSHR
 	b	L(dutrim)
 
 /* Count is a multiple of 32, remainder is 0 */
 	.align	4
 L(duP4):
-	mtctr	rTMP
-	srd	rA,rWORD8,rSHR
-	ld	rWORD1,0(rSTR1)
-	sld	rD,rWORD8,rSHL
-	or	rWORD2,rA,rH
+	mtctr	r0
+	srd	r0, rWORD8, rSHR
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	addi	rSTR1, rSTR1, 8
+#else
+	ld	rWORD1, 0(rSTR1)
+#endif
+	sld	rWORD2_SHIFT, rWORD8, rSHL
+	or	rWORD2, r0, rWORD6_SHIFT
 L(duP4e):
-	ld	rWORD3,8(rSTR1)
-	ld	rWORD4,8(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
-	srd	rC,rWORD4,rSHR
-	sld	rF,rWORD4,rSHL
-	or	rWORD4,rC,rD
-	ld	rWORD5,16(rSTR1)
-	ld	rWORD6,16(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	bne	cr0,L(duLcr0)
-	srd	rE,rWORD6,rSHR
-	sld	rH,rWORD6,rSHL
-	or	rWORD6,rE,rF
-	ldu	rWORD7,24(rSTR1)
-	ldu	rWORD8,24(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	bne	cr1,L(duLcr1)
-	srd	rG,rWORD8,rSHR
-	sld	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
-	cmpld	cr5,rWORD7,rWORD8
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 8(rSTR1)
+	ld	rWORD4, 8(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 16(rSTR1)
+	ld	rWORD6, 16(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+	bne	cr7, L(duLcr7)
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ldu	rWORD7, 24(rSTR1)
+	ldu	rWORD8, 24(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	bne	cr1, L(duLcr1)
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
+	cmpld	cr5, rWORD7, rWORD8
 	bdz	L(du24)		/* Adjust CTR as we start with +4 */
 /* This is the primary loop */
 	.align	4
 L(duLoop):
-	ld	rWORD1,8(rSTR1)
-	ld	rWORD2,8(rSTR2)
-	cmpld	cr1,rWORD3,rWORD4
-	bne	cr6,L(duLcr6)
-	srd	rA,rWORD2,rSHR
-	sld	rD,rWORD2,rSHL
-	or	rWORD2,rA,rB
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD1, 8(rSTR1)
+	ld	rWORD2, 8(rSTR2)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+	bne	cr6, L(duLcr6)
+	srd	r0, rWORD2, rSHR
+	sld	rWORD2_SHIFT, rWORD2, rSHL
+	or	rWORD2, r0, rWORD8_SHIFT
 L(duLoop1):
-	ld	rWORD3,16(rSTR1)
-	ld	rWORD4,16(rSTR2)
-	cmpld	cr6,rWORD5,rWORD6
-	bne	cr5,L(duLcr5)
-	srd	rC,rWORD4,rSHR
-	sld	rF,rWORD4,rSHL
-	or	rWORD4,rC,rD
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD3, 0, rSTR1
+	ldbrx	rWORD4, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD3, 16(rSTR1)
+	ld	rWORD4, 16(rSTR2)
+#endif
+	cmpld	cr6, rWORD5, rWORD6
+	bne	cr5, L(duLcr5)
+	srd	r12, rWORD4, rSHR
+	sld	rWORD4_SHIFT, rWORD4, rSHL
+	or	rWORD4, r12, rWORD2_SHIFT
 L(duLoop2):
-	ld	rWORD5,24(rSTR1)
-	ld	rWORD6,24(rSTR2)
-	cmpld	cr5,rWORD7,rWORD8
-	bne	cr0,L(duLcr0)
-	srd	rE,rWORD6,rSHR
-	sld	rH,rWORD6,rSHL
-	or	rWORD6,rE,rF
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD5, 0, rSTR1
+	ldbrx	rWORD6, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD5, 24(rSTR1)
+	ld	rWORD6, 24(rSTR2)
+#endif
+	cmpld	cr5, rWORD7, rWORD8
+	bne	cr7, L(duLcr7)
+	srd	r0, rWORD6, rSHR
+	sld	rWORD6_SHIFT, rWORD6, rSHL
+	or	rWORD6, r0, rWORD4_SHIFT
 L(duLoop3):
-	ldu	rWORD7,32(rSTR1)
-	ldu	rWORD8,32(rSTR2)
-	cmpld	cr0,rWORD1,rWORD2
-	bne-	cr1,L(duLcr1)
-	srd	rG,rWORD8,rSHR
-	sld	rB,rWORD8,rSHL
-	or	rWORD8,rG,rH
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD7, 0, rSTR1
+	ldbrx	rWORD8, 0, rSTR2
+	addi	rSTR1, rSTR1, 8
+	addi	rSTR2, rSTR2, 8
+#else
+	ldu	rWORD7, 32(rSTR1)
+	ldu	rWORD8, 32(rSTR2)
+#endif
+	cmpld	cr7, rWORD1, rWORD2
+	bne	cr1, L(duLcr1)
+	srd	r12, rWORD8, rSHR
+	sld	rWORD8_SHIFT, rWORD8, rSHL
+	or	rWORD8, r12, rWORD6_SHIFT
 	bdnz	L(duLoop)
 
 L(duL4):
-	bne	cr1,L(duLcr1)
-	cmpld	cr1,rWORD3,rWORD4
-	bne	cr6,L(duLcr6)
-	cmpld	cr6,rWORD5,rWORD6
-	bne	cr5,L(duLcr5)
-	cmpld	cr5,rWORD7,rWORD8
+#if 0
+/* Huh?  We've already branched on cr1!  */
+	bne	cr1, L(duLcr1)
+#endif
+	cmpld	cr1, rWORD3, rWORD4
+	bne	cr6, L(duLcr6)
+	cmpld	cr6, rWORD5, rWORD6
+	bne	cr5, L(duLcr5)
+	cmpld	cr5, rWORD7, rWORD8
 L(du44):
-	bne	cr0,L(duLcr0)
+	bne	cr7, L(duLcr7)
 L(du34):
-	bne	cr1,L(duLcr1)
+	bne	cr1, L(duLcr1)
 L(du24):
-	bne	cr6,L(duLcr6)
+	bne	cr6, L(duLcr6)
 L(du14):
-	sldi.	rN,rN,3
-	bne	cr5,L(duLcr5)
+	sldi.	rN, rN, 3
+	bne	cr5, L(duLcr5)
 /* At this point we have a remainder of 1 to 7 bytes to compare.  We use
-   shift right double to elliminate bits beyond the compare length.
-   This allows the use of double word subtract to compute the final
-   result.
+   shift right double to eliminate bits beyond the compare length.
 
    However it may not be safe to load rWORD2 which may be beyond the
    string length. So we compare the bit length of the remainder to
    the right shift count (rSHR). If the bit count is less than or equal
    we do not need to load rWORD2 (all significant bits are already in
-   rB).  */
-	cmpld	cr7,rN,rSHR
+   rWORD8_SHIFT).  */
+	cmpld	cr7, rN, rSHR
 	beq	L(duZeroReturn)
-	li	rA,0
-	ble	cr7,L(dutrim)
-	ld	rWORD2,8(rSTR2)
-	srd	rA,rWORD2,rSHR
+	li	r0, 0
+	ble	cr7, L(dutrim)
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD2, 0, rSTR2
+	addi	rSTR2, rSTR2, 8
+#else
+	ld	rWORD2, 8(rSTR2)
+#endif
+	srd	r0, rWORD2, rSHR
 	.align	4
 L(dutrim):
-	ld	rWORD1,8(rSTR1)
-	ld	rWORD8,-8(r1)
-	subfic	rN,rN,64	/* Shift count is 64 - (rN * 8).  */
-	or	rWORD2,rA,rB
-	ld	rWORD7,-16(r1)
-	ld	r29,-24(r1)
-	srd	rWORD1,rWORD1,rN
-	srd	rWORD2,rWORD2,rN
-	ld	r28,-32(r1)
-	ld	r27,-40(r1)
-	li	rRTN,0
-	cmpld	cr0,rWORD1,rWORD2
-	ld	r26,-48(r1)
-	ld	r25,-56(r1)
-	beq	cr0,L(dureturn24)
-	li	rRTN,1
-	ld	r24,-64(r1)
-	bgtlr	cr0
-	li	rRTN,-1
-	blr
-	.align	4
-L(duLcr0):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN,1
-	bgt	cr0,L(dureturn29)
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
-	li	rRTN,-1
+#ifdef __LITTLE_ENDIAN__
+	ldbrx	rWORD1, 0, rSTR1
+#else
+	ld	rWORD1, 8(rSTR1)
+#endif
+	ld	rWORD8, -8(r1)
+	subfic	rN, rN, 64	/* Shift count is 64 - (rN * 8).  */
+	or	rWORD2, r0, rWORD8_SHIFT
+	ld	rWORD7, -16(r1)
+	ld	rSHL, -24(r1)
+	srd	rWORD1, rWORD1, rN
+	srd	rWORD2, rWORD2, rN
+	ld	rSHR, -32(r1)
+	ld	rWORD8_SHIFT, -40(r1)
+	li	rRTN, 0
+	cmpld	cr7, rWORD1, rWORD2
+	ld	rWORD2_SHIFT, -48(r1)
+	ld	rWORD4_SHIFT, -56(r1)
+	beq	cr7, L(dureturn24)
+	li	rRTN, 1
+	ld	rWORD6_SHIFT, -64(r1)
+	bgtlr	cr7
+	li	rRTN, -1
+	blr
+	.align	4
+L(duLcr7):
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+	li	rRTN, 1
+	bgt	cr7, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	4
 L(duLcr1):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN,1
-	bgt	cr1,L(dureturn29)
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
-	li	rRTN,-1
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+	li	rRTN, 1
+	bgt	cr1, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	4
 L(duLcr6):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN,1
-	bgt	cr6,L(dureturn29)
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
-	li	rRTN,-1
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+	li	rRTN, 1
+	bgt	cr6, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	4
 L(duLcr5):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
-	li	rRTN,1
-	bgt	cr5,L(dureturn29)
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
-	li	rRTN,-1
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
+	li	rRTN, 1
+	bgt	cr5, L(dureturn29)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
+	li	rRTN, -1
 	b	L(dureturn27)
 	.align	3
 L(duZeroReturn):
-	li	rRTN,0
+	li	rRTN, 0
 	.align	4
 L(dureturn):
-	ld	rWORD8,-8(r1)
-	ld	rWORD7,-16(r1)
+	ld	rWORD8, -8(r1)
+	ld	rWORD7, -16(r1)
 L(dureturn29):
-	ld	r29,-24(r1)
-	ld	r28,-32(r1)
+	ld	rSHL, -24(r1)
+	ld	rSHR, -32(r1)
 L(dureturn27):
-	ld	r27,-40(r1)
+	ld	rWORD8_SHIFT, -40(r1)
 L(dureturn26):
-	ld	r26,-48(r1)
+	ld	rWORD2_SHIFT, -48(r1)
 L(dureturn25):
-	ld	r25,-56(r1)
+	ld	rWORD4_SHIFT, -56(r1)
 L(dureturn24):
-	ld	r24,-64(r1)
+	ld	rWORD6_SHIFT, -64(r1)
 	blr
 L(duzeroLength):
-	li	rRTN,0
+	li	rRTN, 0
 	blr
 
-END (BP_SYM (memcmp))
+END (memcmp)
 libc_hidden_builtin_def (memcmp)
-weak_alias (memcmp,bcmp)
+weak_alias (memcmp, bcmp)