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# commit 759cfef3ac4c07dba1ece0bbc1207e099348816d
# Author: Alan Modra <amodra@gmail.com>
# Date:   Sat Aug 17 18:47:22 2013 +0930
# 
#     PowerPC LE memcpy
#     http://sourceware.org/ml/libc-alpha/2013-08/msg00103.html
#     
#     LIttle-endian support for memcpy.  I spent some time cleaning up the
#     64-bit power7 memcpy, in order to avoid the extra alignment traps
#     power7 takes for little-endian.  It probably would have been better
#     to copy the linux kernel version of memcpy.
#     
#         * sysdeps/powerpc/powerpc32/power4/memcpy.S: Add little endian support.
#         * sysdeps/powerpc/powerpc32/power6/memcpy.S: Likewise.
#         * sysdeps/powerpc/powerpc32/power7/memcpy.S: Likewise.
#         * sysdeps/powerpc/powerpc32/power7/mempcpy.S: Likewise.
#         * sysdeps/powerpc/powerpc64/memcpy.S: Likewise.
#         * sysdeps/powerpc/powerpc64/power4/memcpy.S: Likewise.
#         * sysdeps/powerpc/powerpc64/power6/memcpy.S: Likewise.
#         * sysdeps/powerpc/powerpc64/power7/memcpy.S: Likewise.
#         * sysdeps/powerpc/powerpc64/power7/mempcpy.S: Likewise.  Make better
#         use of regs.  Use power7 mtocrf.  Tidy function tails.
# 
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power4/memcpy.S	2014-05-29 13:04:56.000000000 -0500
@@ -205,15 +205,28 @@
     blt   cr6,5f
     srwi  7,6,16
     bgt	  cr6,3f
+#ifdef __LITTLE_ENDIAN__
+    sth   7,0(3)
+#else
     sth   6,0(3)
+#endif
     b     7f
     .align  4
 3:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,24
+    stb   6,0(3)
+    sth   7,1(3)
+#else
     stb   7,0(3)
     sth   6,1(3)
+#endif
     b     7f
     .align  4
 5:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,8
+#endif
     stb   6,0(3)
 7:
     cmplwi	cr1,10,16
@@ -341,13 +354,23 @@
     bf      30,1f
 
     /* there are at least two words to copy, so copy them */
+#ifdef __LITTLE_ENDIAN__
+    srw   0,6,10
+    slw   8,7,9
+#else
     slw   0,6,10  /* shift 1st src word to left align it in R0 */
     srw   8,7,9   /* shift 2nd src word to right align it in R8 */
+#endif
     or    0,0,8   /* or them to get word to store */
     lwz   6,8(5)  /* load the 3rd src word */
     stw   0,0(4)  /* store the 1st dst word */
+#ifdef __LITTLE_ENDIAN__
+    srw   0,7,10
+    slw   8,6,9
+#else
     slw   0,7,10  /* now left align 2nd src word into R0 */
     srw   8,6,9   /* shift 3rd src word to right align it in R8 */
+#endif
     or    0,0,8   /* or them to get word to store */
     lwz   7,12(5)
     stw   0,4(4)  /* store the 2nd dst word */
@@ -355,8 +378,13 @@
     addi  5,5,16
     bf    31,4f
     /* there is a third word to copy, so copy it */
+#ifdef __LITTLE_ENDIAN__
+    srw   0,6,10
+    slw   8,7,9
+#else
     slw   0,6,10  /* shift 3rd src word to left align it in R0 */
     srw   8,7,9   /* shift 4th src word to right align it in R8 */
+#endif
     or    0,0,8   /* or them to get word to store */
     stw   0,0(4)  /* store 3rd dst word */
     mr    6,7
@@ -366,8 +394,13 @@
     b     4f
     .align 4
 1:
+#ifdef __LITTLE_ENDIAN__
+    srw     0,6,10
+    slw     8,7,9
+#else
     slw     0,6,10  /* shift 1st src word to left align it in R0 */
     srw     8,7,9   /* shift 2nd src word to right align it in R8 */
+#endif
     addi  5,5,8
     or    0,0,8   /* or them to get word to store */
     bf    31,4f
@@ -380,23 +413,43 @@
     .align  4
 4:
     /* copy 16 bytes at a time */
+#ifdef __LITTLE_ENDIAN__
+    srw   0,6,10
+    slw   8,7,9
+#else
     slw   0,6,10
     srw   8,7,9
+#endif
     or    0,0,8
     lwz   6,0(5)
     stw   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srw   0,7,10
+    slw   8,6,9
+#else
     slw   0,7,10
     srw   8,6,9
+#endif
     or    0,0,8
     lwz   7,4(5)
     stw   0,4(4)
+#ifdef __LITTLE_ENDIAN__
+    srw   0,6,10
+    slw   8,7,9
+#else
     slw   0,6,10
     srw   8,7,9
+#endif
     or    0,0,8
     lwz   6,8(5)
     stw   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srw   0,7,10
+    slw   8,6,9
+#else
     slw   0,7,10
     srw   8,6,9
+#endif
     or    0,0,8
     lwz   7,12(5)
     stw   0,12(4)
@@ -405,8 +458,13 @@
     bdnz+ 4b
 8:
     /* calculate and store the final word */
+#ifdef __LITTLE_ENDIAN__
+    srw   0,6,10
+    slw   8,7,9
+#else
     slw   0,6,10
     srw   8,7,9
+#endif
     or    0,0,8
     stw   0,0(4)
 3:
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power6/memcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power6/memcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power6/memcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power6/memcpy.S	2014-05-29 13:04:56.000000000 -0500
@@ -221,15 +221,28 @@
     blt   cr6,5f
     srwi  7,6,16
     bgt	  cr6,3f
+#ifdef __LITTLE_ENDIAN__
+    sth   7,0(3)
+#else
     sth   6,0(3)
+#endif
     b     7f
     .align  4
 3:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,24
+    stb   6,0(3)
+    sth   7,1(3)
+#else
     stb   7,0(3)
     sth   6,1(3)
+#endif
     b     7f
     .align  4
 5:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,8
+#endif
     stb   6,0(3)
 7:
     cmplwi	cr1,10,16
@@ -579,7 +592,11 @@
     lwz     6,-1(4)
     cmplwi  cr6,31,4
     srwi    8,31,5    /* calculate the 32 byte loop count */
+#ifdef __LITTLE_ENDIAN__
+    srwi    6,6,8
+#else
     slwi    6,6,8
+#endif
     clrlwi  31,31,27   /* The remaining bytes, < 32.  */
     blt     cr5,L(wdu1_32tail)
     mtctr   8
@@ -587,8 +604,12 @@
 
     lwz   8,3(4)
     lwz   7,4(4)
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,24,32
+#else
 /*  Equivalent to: srwi   8,8,32-8;  or    6,6,8 */
     rlwimi 6,8,8,(32-8),31
+#endif
     b      L(wdu1_loop32x)
     .align  4
 L(wdu1_loop32):
@@ -597,8 +618,12 @@
     lwz   7,4(4)
     stw   10,-8(3)
     stw   11,-4(3)
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,24,32
+#else
 /*  Equivalent to  srwi   8,8,32-8; or    6,6,8 */
     rlwimi 6,8,8,(32-8),31
+#endif
 L(wdu1_loop32x):
     lwz   10,8(4)
     lwz   11,12(4)
@@ -615,7 +640,11 @@
     stw   6,16(3)
     stw   7,20(3)
     addi  3,3,32
+#ifdef __LITTLE_ENDIAN__
+    srwi  6,8,8
+#else
     slwi  6,8,8
+#endif
     bdnz+ L(wdu1_loop32)
     stw   10,-8(3)
     stw   11,-4(3)
@@ -626,8 +655,12 @@
     blt     cr6,L(wdu_4tail)
     /* calculate and store the final word */
     lwz   8,3(4)
-/*  Equivalent to: srwi   8,8,32-9;  or    6,6,8  */
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,24,32
+#else
+/*  Equivalent to: srwi   8,8,32-8;  or    6,6,8  */
     rlwimi 6,8,8,(32-8),31
+#endif
     b     L(wdu_32tailx)
 
 L(wdu2_32):
@@ -635,7 +668,11 @@
     lwz     6,-2(4)
     cmplwi  cr6,31,4
     srwi    8,31,5    /* calculate the 32 byte loop count */
+#ifdef __LITTLE_ENDIAN__
+    srwi    6,6,16
+#else
     slwi    6,6,16
+#endif
     clrlwi  31,31,27   /* The remaining bytes, < 32.  */
     blt     cr5,L(wdu2_32tail)
     mtctr   8
@@ -643,8 +680,11 @@
 
     lwz   8,2(4)
     lwz   7,4(4)
-/*  Equivalent to: srwi   8,8,32-8;  or    6,6,8 */
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,16,32
+#else
     rlwimi 6,8,16,(32-16),31
+#endif
     b      L(wdu2_loop32x)
     .align  4
 L(wdu2_loop32):
@@ -653,8 +693,11 @@
     lwz   7,4(4)
     stw   10,-8(3)
     stw   11,-4(3)
-/*  Equivalent to  srwi   8,8,32-8; or    6,6,8 */
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,16,32
+#else
     rlwimi 6,8,16,(32-16),31
+#endif
 L(wdu2_loop32x):
     lwz   10,8(4)
     lwz   11,12(4)
@@ -672,7 +715,11 @@
     stw   6,16(3)
     stw   7,20(3)
     addi  3,3,32
+#ifdef __LITTLE_ENDIAN__
+    srwi  6,8,16
+#else
     slwi  6,8,16
+#endif
     bdnz+ L(wdu2_loop32)
     stw   10,-8(3)
     stw   11,-4(3)
@@ -683,8 +730,11 @@
     blt     cr6,L(wdu_4tail)
     /* calculate and store the final word */
     lwz   8,2(4)
-/*  Equivalent to: srwi   8,8,32-9;  or    6,6,8  */
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,16,32
+#else
     rlwimi 6,8,16,(32-16),31
+#endif
     b     L(wdu_32tailx)
 
 L(wdu3_32):
@@ -692,7 +742,11 @@
     lwz     6,-3(4)
     cmplwi  cr6,31,4
     srwi    8,31,5    /* calculate the 32 byte loop count */
+#ifdef __LITTLE_ENDIAN__
+    srwi    6,6,24
+#else
     slwi    6,6,24
+#endif
     clrlwi  31,31,27   /* The remaining bytes, < 32.  */
     blt     cr5,L(wdu3_32tail)
     mtctr   8
@@ -700,8 +754,11 @@
 
     lwz   8,1(4)
     lwz   7,4(4)
-/*  Equivalent to: srwi   8,8,32-8;  or    6,6,8 */
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,8,32
+#else
     rlwimi 6,8,24,(32-24),31
+#endif
     b      L(wdu3_loop32x)
     .align  4
 L(wdu3_loop32):
@@ -710,8 +767,11 @@
     lwz   7,4(4)
     stw   10,-8(3)
     stw   11,-4(3)
-/*  Equivalent to  srwi   8,8,32-8; or    6,6,8 */
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,8,32
+#else
     rlwimi 6,8,24,(32-24),31
+#endif
 L(wdu3_loop32x):
     lwz   10,8(4)
     lwz   11,12(4)
@@ -728,7 +788,11 @@
     stw   6,16(3)
     stw   7,20(3)
     addi  3,3,32
+#ifdef __LITTLE_ENDIAN__
+    srwi  6,8,24
+#else
     slwi  6,8,24
+#endif
     bdnz+ L(wdu3_loop32)
     stw   10,-8(3)
     stw   11,-4(3)
@@ -739,8 +803,11 @@
     blt     cr6,L(wdu_4tail)
     /* calculate and store the final word */
     lwz   8,1(4)
-/*  Equivalent to: srwi   8,8,32-9;  or    6,6,8  */
+#ifdef __LITTLE_ENDIAN__
+    rldimi 6,8,8,32
+#else
     rlwimi 6,8,24,(32-24),31
+#endif
     b     L(wdu_32tailx)
     .align  4
 L(wdu_32tailx):
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/memcpy.S	2014-05-29 13:04:56.000000000 -0500
@@ -385,7 +385,7 @@
 
 	beq    L(copy_GE_32_unaligned_cont)
 
-	/* SRC is not quadword aligned, get it aligned.  */
+	/* DST is not quadword aligned, get it aligned.  */
 
 	mtcrf   0x01,0
 	subf    31,0,5
@@ -437,13 +437,21 @@
 	mr      11,12
 	mtcrf   0x01,9
 	cmplwi  cr6,9,1
+#ifdef __LITTLE_ENDIAN__
+	lvsr    5,0,12
+#else
 	lvsl    5,0,12
+#endif
 	lvx     3,0,12
 	bf      31,L(setup_unaligned_loop)
 
 	/* Copy another 16 bytes to align to 32-bytes due to the loop .  */
 	lvx     4,12,6
+#ifdef __LITTLE_ENDIAN__
+	vperm   6,4,3,5
+#else
 	vperm   6,3,4,5
+#endif
 	addi    11,12,16
 	addi    10,3,16
 	stvx    6,0,3
@@ -463,11 +471,17 @@
 	vector instructions though.  */
 
 	lvx	4,11,6	      /* vr4 = r11+16.  */
-	vperm   6,3,4,5	      /* Merge the correctly-aligned portions
-			      of vr3/vr4 into vr6.  */
+#ifdef __LITTLE_ENDIAN__
+	vperm   6,4,3,5
+#else
+	vperm   6,3,4,5
+#endif
 	lvx	3,11,7	      /* vr3 = r11+32.  */
-	vperm   10,4,3,5      /* Merge the correctly-aligned portions
-			      of vr3/vr4 into vr10.  */
+#ifdef __LITTLE_ENDIAN__
+	vperm   10,3,4,5
+#else
+	vperm   10,4,3,5
+#endif
 	addi    11,11,32
 	stvx    6,0,10
 	stvx    10,10,6
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/mempcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/mempcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/mempcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/mempcpy.S	2014-05-29 13:04:56.000000000 -0500
@@ -327,7 +327,7 @@
 
 	beq	L(copy_GE_32_unaligned_cont)
 
-	/* SRC is not quadword aligned, get it aligned.  */
+	/* DST is not quadword aligned, get it aligned.  */
 
 	mtcrf	0x01,0
 	subf	31,0,5
@@ -379,13 +379,21 @@
 	mr	11,12
 	mtcrf	0x01,9
 	cmplwi	cr6,9,1
-	lvsl	5,0,12
+#ifdef __LITTLE_ENDIAN__
+	lvsr    5,0,12
+#else
+	lvsl    5,0,12
+#endif
 	lvx	3,0,12
 	bf	31,L(setup_unaligned_loop)
 
 	/* Copy another 16 bytes to align to 32-bytes due to the loop .  */
 	lvx	4,12,6
-	vperm	6,3,4,5
+#ifdef __LITTLE_ENDIAN__
+	vperm   6,4,3,5
+#else
+	vperm   6,3,4,5
+#endif
 	addi	11,12,16
 	addi	10,3,16
 	stvx	6,0,3
@@ -405,11 +413,17 @@
 	vector instructions though.  */
 
 	lvx	4,11,6	      /* vr4 = r11+16.  */
-	vperm	6,3,4,5	      /* Merge the correctly-aligned portions
-				 of vr3/vr4 into vr6.  */
+#ifdef __LITTLE_ENDIAN__
+	vperm   6,4,3,5
+#else
+	vperm   6,3,4,5
+#endif
 	lvx	3,11,7	      /* vr3 = r11+32.  */
-	vperm	10,4,3,5      /* Merge the correctly-aligned portions
-				 of vr3/vr4 into vr10.  */
+#ifdef __LITTLE_ENDIAN__
+	vperm   10,3,4,5
+#else
+	vperm   10,4,3,5
+#endif
 	addi	11,11,32
 	stvx	6,0,10
 	stvx	10,10,6
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/memcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/memcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/memcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/memcpy.S	2014-05-29 13:04:56.000000000 -0500
@@ -214,15 +214,28 @@
     blt   cr6,5f
     srdi  7,6,16
     bgt	  cr6,3f
+#ifdef __LITTLE_ENDIAN__
+    sth   7,0(3)
+#else
     sth   6,0(3)
+#endif
     b     7f
     .align  4
 3:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,24
+    stb   6,0(3)
+    sth   7,1(3)
+#else
     stb   7,0(3)
     sth   6,1(3)
+#endif
     b     7f
     .align  4
 5:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,8
+#endif
     stb   6,0(3)
 7:
     cmpldi	cr1,10,16
@@ -330,7 +343,11 @@
     ld    7,8(5)
     subfic  9,10,64
     beq   2f
+#ifdef __LITTLE_ENDIAN__
+    srd   0,6,10
+#else
     sld   0,6,10
+#endif
     cmpldi  11,1
     mr    6,7
     addi  4,4,-8
@@ -338,15 +355,25 @@
     b     1f
 2:  addi  5,5,8
     .align  4
+#ifdef __LITTLE_ENDIAN__
+0:  srd   0,6,10
+    sld   8,7,9
+#else
 0:  sld   0,6,10
     srd   8,7,9
+#endif
     cmpldi  11,2
     ld    6,8(5)
     or    0,0,8
     addi  11,11,-2
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srd   0,7,10
+1:  sld   8,6,9
+#else
     sld   0,7,10
 1:  srd   8,6,9
+#endif
     or    0,0,8
     beq   8f
     ld    7,16(5)
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power4/memcpy.S	2014-05-29 13:05:51.000000000 -0500
@@ -1,5 +1,5 @@
 /* Optimized memcpy implementation for PowerPC64.
-   Copyright (C) 2003, 2006, 2011 Free Software Foundation, Inc.
+   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
@@ -17,26 +17,24 @@
    <http://www.gnu.org/licenses/>.  */
 
 #include <sysdep.h>
-#include <bp-sym.h>
-#include <bp-asm.h>
 
 /* __ptr_t [r3] memcpy (__ptr_t dst [r3], __ptr_t src [r4], size_t len [r5]);
    Returns 'dst'.
 
-   Memcpy handles short copies (< 32-bytes) using a binary move blocks 
-   (no loops) of lwz/stw.  The tail (remaining 1-3) bytes is handled 
-   with the appropriate combination of byte and halfword load/stores. 
-   There is minimal effort to optimize the alignment of short moves.  
+   Memcpy handles short copies (< 32-bytes) using a binary move blocks
+   (no loops) of lwz/stw.  The tail (remaining 1-3) bytes is handled
+   with the appropriate combination of byte and halfword load/stores.
+   There is minimal effort to optimize the alignment of short moves.
    The 64-bit implementations of POWER3 and POWER4 do a reasonable job
-   of handling unligned load/stores that do not cross 32-byte boundries.
+   of handling unaligned load/stores that do not cross 32-byte boundaries.
 
    Longer moves (>= 32-bytes) justify the effort to get at least the
    destination doubleword (8-byte) aligned.  Further optimization is
-   posible when both source and destination are doubleword aligned.
+   possible when both source and destination are doubleword aligned.
    Each case has a optimized unrolled loop.   */
 
 	.machine power4
-EALIGN (BP_SYM (memcpy), 5, 0)
+EALIGN (memcpy, 5, 0)
 	CALL_MCOUNT 3
 
     cmpldi cr1,5,31
@@ -44,20 +42,20 @@
     std   3,-16(1)
     std   31,-8(1)
     cfi_offset(31,-8)
-    andi. 11,3,7	/* check alignement of dst.  */
+    andi. 11,3,7	/* check alignment of dst.  */
     clrldi 0,0,61	/* Number of bytes until the 1st doubleword of dst.  */
-    clrldi 10,4,61	/* check alignement of src.  */
+    clrldi 10,4,61	/* check alignment of src.  */
     cmpldi cr6,5,8
     ble-  cr1,.L2	/* If move < 32 bytes use short move code.  */
-    cmpld cr6,10,11     
+    cmpld cr6,10,11
     mr    12,4
     srdi  9,5,3		/* Number of full double words remaining.  */
     mtcrf 0x01,0
     mr    31,5
     beq   .L0
-  
+
     subf  31,0,5
-  /* Move 0-7 bytes as needed to get the destination doubleword alligned.  */
+  /* Move 0-7 bytes as needed to get the destination doubleword aligned.  */
 1:  bf    31,2f
     lbz   6,0(12)
     addi  12,12,1
@@ -74,17 +72,17 @@
     stw   6,0(3)
     addi  3,3,4
 0:
-    clrldi 10,12,61	/* check alignement of src again.  */     
+    clrldi 10,12,61	/* check alignment of src again.  */
     srdi  9,31,3	/* Number of full double words remaining.  */
-    
-  /* Copy doublewords from source to destination, assumpting the
+
+  /* Copy doublewords from source to destination, assuming the
      destination is aligned on a doubleword boundary.
 
      At this point we know there are at least 25 bytes left (32-7) to copy.
-     The next step is to determine if the source is also doubleword aligned. 
+     The next step is to determine if the source is also doubleword aligned.
      If not branch to the unaligned move code at .L6. which uses
      a load, shift, store strategy.
-     
+
      Otherwise source and destination are doubleword aligned, and we can
      the optimized doubleword copy loop.  */
 .L0:
@@ -97,14 +95,14 @@
      Use a unrolled loop to copy 4 doubleword (32-bytes) per iteration.
      If the copy is not an exact multiple of 32 bytes, 1-3
      doublewords are copied as needed to set up the main loop.  After
-     the main loop exits there may be a tail of 1-7 bytes. These byte are 
+     the main loop exits there may be a tail of 1-7 bytes. These byte are
      copied a word/halfword/byte at a time as needed to preserve alignment.  */
 
     srdi  8,31,5
     cmpldi	cr1,9,4
     cmpldi	cr6,11,0
     mr    11,12
-    
+
     bf    30,1f
     ld    6,0(12)
     ld    7,8(12)
@@ -115,7 +113,7 @@
     addi  10,3,16
     bf    31,4f
     ld    0,16(12)
-    std   0,16(3)    
+    std   0,16(3)
     blt   cr1,3f
     addi  11,12,24
     addi  10,3,24
@@ -129,7 +127,7 @@
     addi  11,12,8
     std   6,0(3)
     addi  10,3,8
-    
+
     .align  4
 4:
     ld    6,0(11)
@@ -144,7 +142,7 @@
     std   0,24(10)
     addi  10,10,32
     bdnz  4b
-3:  
+3:
 
     rldicr 0,31,0,60
     mtcrf 0x01,31
@@ -152,9 +150,9 @@
 .L9:
     add   3,3,0
     add   12,12,0
-    
+
 /*  At this point we have a tail of 0-7 bytes and we know that the
-    destiniation is double word aligned.  */
+    destination is double word aligned.  */
 4:  bf    29,2f
     lwz   6,0(12)
     addi  12,12,4
@@ -173,29 +171,29 @@
     ld 31,-8(1)
     ld 3,-16(1)
     blr
-       
-/* Copy up to 31 bytes.  This divided into two cases 0-8 bytes and 9-31 
-   bytes.  Each case is handled without loops, using binary (1,2,4,8) 
-   tests.  
-   
+
+/* Copy up to 31 bytes.  This divided into two cases 0-8 bytes and 9-31
+   bytes.  Each case is handled without loops, using binary (1,2,4,8)
+   tests.
+
    In the short (0-8 byte) case no attempt is made to force alignment
-   of either source or destination.  The hardware will handle the 
-   unaligned load/stores with small delays for crossing 32- 64-byte, and 
+   of either source or destination.  The hardware will handle the
+   unaligned load/stores with small delays for crossing 32- 64-byte, and
    4096-byte boundaries. Since these short moves are unlikely to be
-   unaligned or cross these boundaries, the overhead to force 
+   unaligned or cross these boundaries, the overhead to force
    alignment is not justified.
-   
+
    The longer (9-31 byte) move is more likely to cross 32- or 64-byte
    boundaries.  Since only loads are sensitive to the 32-/64-byte
-   boundaries it is more important to align the source then the 
+   boundaries it is more important to align the source then the
    destination.  If the source is not already word aligned, we first
-   move 1-3 bytes as needed.  Since we are only word aligned we don't 
-   use double word load/stores to insure that all loads are aligned. 
+   move 1-3 bytes as needed.  Since we are only word aligned we don't
+   use double word load/stores to insure that all loads are aligned.
    While the destination and stores may still be unaligned, this
    is only an issue for page (4096 byte boundary) crossing, which
    should be rare for these short moves.  The hardware handles this
-   case automatically with a small delay.  */ 
-   
+   case automatically with a small delay.  */
+
     .align  4
 .L2:
     mtcrf 0x01,5
@@ -216,15 +214,28 @@
     blt   cr6,5f
     srdi  7,6,16
     bgt	  cr6,3f
+#ifdef __LITTLE_ENDIAN__
+    sth   7,0(3)
+#else
     sth   6,0(3)
+#endif
     b     7f
     .align  4
 3:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,24
+    stb   6,0(3)
+    sth   7,1(3)
+#else
     stb   7,0(3)
     sth   6,1(3)
+#endif
     b     7f
     .align  4
 5:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,8
+#endif
     stb   6,0(3)
 7:
     cmpldi	cr1,10,16
@@ -258,11 +269,11 @@
     lwz   6,0(12)
     addi  12,12,4
     stw   6,0(3)
-    addi  3,3,4    
+    addi  3,3,4
 2:  /* Move 2-3 bytes.  */
     bf    30,1f
     lhz   6,0(12)
-    sth   6,0(3) 
+    sth   6,0(3)
     bf    31,0f
     lbz   7,2(12)
     stb   7,2(3)
@@ -283,8 +294,8 @@
     mr    12,4
     bne   cr6,4f
 /* Would have liked to use use ld/std here but the 630 processors are
-   slow for load/store doubles that are not at least word aligned.  
-   Unaligned Load/Store word execute with only a 1 cycle penaltity.  */
+   slow for load/store doubles that are not at least word aligned.
+   Unaligned Load/Store word execute with only a 1 cycle penalty.  */
     lwz   6,0(4)
     lwz   7,4(4)
     stw   6,0(3)
@@ -299,14 +310,14 @@
 6:
     bf    30,5f
     lhz   7,4(4)
-    sth   7,4(3) 
+    sth   7,4(3)
     bf    31,0f
     lbz   8,6(4)
     stb   8,6(3)
     ld 3,-16(1)
     blr
     .align  4
-5:  
+5:
     bf    31,0f
     lbz   6,4(4)
     stb   6,4(3)
@@ -336,13 +347,23 @@
     bf      30,1f
 
     /* there are at least two DWs to copy */
+#ifdef __LITTLE_ENDIAN__
+    srd     0,6,10
+    sld     8,7,9
+#else
     sld     0,6,10
     srd     8,7,9
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srd     0,7,10
+    sld     8,6,9
+#else
     sld     0,7,10
     srd     8,6,9
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -351,8 +372,13 @@
     blt     cr6,8f  /* if total DWs = 3, then bypass loop */
     bf      31,4f
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srd     0,6,10
+    sld     8,7,9
+#else
     sld     0,6,10
     srd     8,7,9
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -363,8 +389,13 @@
     b       4f
     .align 4
 1:
+#ifdef __LITTLE_ENDIAN__
+    srd     0,6,10
+    sld     8,7,9
+#else
     sld     0,6,10
     srd     8,7,9
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,4f
@@ -375,23 +406,44 @@
     addi    4,4,8
     .align 4
 /* copy 32 bytes at a time */
-4:  sld   0,6,10
+4:
+#ifdef __LITTLE_ENDIAN__
+    srd   0,6,10
+    sld   8,7,9
+#else
+    sld   0,6,10
     srd   8,7,9
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srd   0,7,10
+    sld   8,6,9
+#else
     sld   0,7,10
     srd   8,6,9
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srd   0,6,10
+    sld   8,7,9
+#else
     sld   0,6,10
     srd   8,7,9
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srd   0,7,10
+    sld   8,6,9
+#else
     sld   0,7,10
     srd   8,6,9
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -401,9 +453,14 @@
     .align 4
 8:
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srd   0,6,10
+    sld   8,7,9
+#else
     sld   0,6,10
     srd   8,7,9
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
 3:
     rldicr 0,31,0,60
@@ -413,5 +470,5 @@
     ld 31,-8(1)
     ld 3,-16(1)
     blr
-END_GEN_TB (BP_SYM (memcpy),TB_TOCLESS)
+END_GEN_TB (memcpy,TB_TOCLESS)
 libc_hidden_builtin_def (memcpy)
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power6/memcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power6/memcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power6/memcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power6/memcpy.S	2014-05-29 13:05:27.000000000 -0500
@@ -1,5 +1,5 @@
 /* Optimized memcpy implementation for PowerPC64.
-   Copyright (C) 2003, 2006, 2007, 2011 Free Software Foundation, Inc.
+   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
@@ -17,52 +17,50 @@
    <http://www.gnu.org/licenses/>.  */
 
 #include <sysdep.h>
-#include <bp-sym.h>
-#include <bp-asm.h>
 
 /* __ptr_t [r3] memcpy (__ptr_t dst [r3], __ptr_t src [r4], size_t len [r5]);
    Returns 'dst'.
 
-   Memcpy handles short copies (< 32-bytes) using a binary move blocks 
-   (no loops) of lwz/stw.  The tail (remaining 1-3) bytes is handled 
-   with the appropriate combination of byte and halfword load/stores. 
-   There is minimal effort to optimize the alignment of short moves.  
+   Memcpy handles short copies (< 32-bytes) using a binary move blocks
+   (no loops) of lwz/stw.  The tail (remaining 1-3) bytes is handled
+   with the appropriate combination of byte and halfword load/stores.
+   There is minimal effort to optimize the alignment of short moves.
    The 64-bit implementations of POWER3 and POWER4 do a reasonable job
-   of handling unligned load/stores that do not cross 32-byte boundries.
+   of handling unaligned load/stores that do not cross 32-byte boundaries.
 
    Longer moves (>= 32-bytes) justify the effort to get at least the
    destination doubleword (8-byte) aligned.  Further optimization is
-   posible when both source and destination are doubleword aligned.
-   Each case has a optimized unrolled loop.  
-     
-   For POWER6 unaligned loads will take a 20+ cycle hicup for any
+   possible when both source and destination are doubleword aligned.
+   Each case has a optimized unrolled loop.
+
+   For POWER6 unaligned loads will take a 20+ cycle hiccup for any
    L1 cache miss that crosses a 32- or 128-byte boundary.  Store
-   is more forgiving and does not take a hicup until page or 
-   segment boundaries.  So we require doubleword alignment for 
+   is more forgiving and does not take a hiccup until page or
+   segment boundaries.  So we require doubleword alignment for
    the source but may take a risk and only require word alignment
    for the destination.  */
 
 	.machine	"power6"
-EALIGN (BP_SYM (memcpy), 7, 0)
+EALIGN (memcpy, 7, 0)
 	CALL_MCOUNT 3
 
     cmpldi cr1,5,31
     neg   0,3
     std   3,-16(1)
     std   31,-8(1)
-    andi. 11,3,7	/* check alignement of dst.  */
+    andi. 11,3,7	/* check alignment of dst.  */
     clrldi 0,0,61	/* Number of bytes until the 1st doubleword of dst.  */
-    clrldi 10,4,61	/* check alignement of src.  */
+    clrldi 10,4,61	/* check alignment of src.  */
     cmpldi cr6,5,8
     ble-  cr1,.L2	/* If move < 32 bytes use short move code.  */
     mtcrf 0x01,0
-    cmpld cr6,10,11  
+    cmpld cr6,10,11
     srdi  9,5,3		/* Number of full double words remaining.  */
     beq   .L0
-  
+
     subf  5,0,5
-  /* Move 0-7 bytes as needed to get the destination doubleword alligned.
-     Duplicate some code to maximize fall-throught and minimize agen delays.  */
+  /* Move 0-7 bytes as needed to get the destination doubleword aligned.
+     Duplicate some code to maximize fall-through and minimize agen delays.  */
 1:  bf    31,2f
     lbz   6,0(4)
     stb   6,0(3)
@@ -78,7 +76,7 @@
     lwz   6,1(4)
     stw   6,1(3)
     b     0f
-    
+
 2:  bf    30,4f
     lhz   6,0(4)
     sth   6,0(3)
@@ -86,26 +84,26 @@
     lwz   6,2(4)
     stw   6,2(3)
     b     0f
-    
+
 4:  bf    29,0f
     lwz   6,0(4)
     stw   6,0(3)
-0: 
+0:
 /* Add the number of bytes until the 1st doubleword of dst to src and dst.  */
     add   4,4,0
     add   3,3,0
-    
-    clrldi 10,4,61	/* check alignement of src again.  */     
+
+    clrldi 10,4,61	/* check alignment of src again.  */
     srdi  9,5,3	/* Number of full double words remaining.  */
-    
-  /* Copy doublewords from source to destination, assumpting the
+
+  /* Copy doublewords from source to destination, assuming the
      destination is aligned on a doubleword boundary.
 
      At this point we know there are at least 25 bytes left (32-7) to copy.
-     The next step is to determine if the source is also doubleword aligned. 
+     The next step is to determine if the source is also doubleword aligned.
      If not branch to the unaligned move code at .L6. which uses
      a load, shift, store strategy.
-     
+
      Otherwise source and destination are doubleword aligned, and we can
      the optimized doubleword copy loop.  */
     .align  4
@@ -123,14 +121,14 @@
      the main loop exits there may be a tail of 1-7 bytes. These byte
      are copied a word/halfword/byte at a time as needed to preserve
      alignment.
-     
+
      For POWER6 the L1 is store-through and the L2 is store-in.  The
      L2 is clocked at half CPU clock so we can store 16 bytes every
      other cycle.  POWER6 also has a load/store bypass so we can do
-     load, load, store, store every 2 cycles.  
-     
+     load, load, store, store every 2 cycles.
+
      The following code is sensitive to cache line alignment.  Do not
-     make any change with out first making sure thay don't result in
+     make any change with out first making sure they don't result in
      splitting ld/std pairs across a cache line.  */
 
     mtcrf 0x02,5
@@ -273,7 +271,7 @@
     std   8,16+96(10)
     std   0,24+96(10)
     ble   cr5,L(das_loop_e)
-    
+
     mtctr   12
     .align  4
 L(das_loop2):
@@ -326,10 +324,10 @@
     .align  4
 L(das_tail):
     beq   cr1,0f
-    
+
 L(das_tail2):
 /*  At this point we have a tail of 0-7 bytes and we know that the
-    destiniation is double word aligned.  */
+    destination is double word aligned.  */
 4:  bf    29,2f
     lwz   6,0(4)
     stw   6,0(3)
@@ -344,7 +342,7 @@
     lbz   6,4(4)
     stb   6,4(3)
     b     0f
-  
+
 2:  bf    30,1f
     lhz   6,0(4)
     sth   6,0(3)
@@ -352,7 +350,7 @@
     lbz   6,2(4)
     stb   6,2(3)
     b     0f
-    
+
 1:  bf    31,0f
     lbz   6,0(4)
     stb   6,0(3)
@@ -361,7 +359,7 @@
     ld 3,-16(1)
     blr
 
-/* Copy up to 31 bytes.  This divided into two cases 0-8 bytes and 9-31 
+/* Copy up to 31 bytes.  This divided into two cases 0-8 bytes and 9-31
    bytes.  Each case is handled without loops, using binary (1,2,4,8)
    tests.
 
@@ -402,15 +400,28 @@
     blt   cr6,5f
     srdi  7,6,16
     bgt	  cr6,3f
+#ifdef __LITTLE_ENDIAN__
+    sth   7,0(3)
+#else
     sth   6,0(3)
+#endif
     b     7f
     .align  4
 3:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,24
+    stb   6,0(3)
+    sth   7,1(3)
+#else
     stb   7,0(3)
     sth   6,1(3)
+#endif
     b     7f
     .align  4
 5:
+#ifdef __LITTLE_ENDIAN__
+    rotlwi 6,6,8
+#endif
     stb   6,0(3)
 7:
     cmpldi	cr1,10,16
@@ -421,7 +432,7 @@
 /* At least 6 bytes left and the source is word aligned.  This allows
    some speculative loads up front.  */
 /* We need to special case the fall-through because the biggest delays
-   are due to address computation not being ready in time for the 
+   are due to address computation not being ready in time for the
    AGEN.  */
     lwz   6,0(12)
     lwz   7,4(12)
@@ -452,7 +463,7 @@
     ld    3,-16(1)
     blr
     .align  4
-L(dus_tail16p8):  /* less then 8 bytes left.  */
+L(dus_tail16p8):  /* less than 8 bytes left.  */
     beq   cr1,L(dus_tailX) /* exactly 16 bytes, early exit.  */
     cmpldi	cr1,10,20
     bf    29,L(dus_tail16p2)
@@ -466,7 +477,7 @@
     ld    3,-16(1)
     blr
     .align  4
-L(dus_tail16p4):  /* less then 4 bytes left.  */
+L(dus_tail16p4):  /* less than 4 bytes left.  */
     addi  12,12,24
     addi  3,3,24
     bgt   cr0,L(dus_tail2)
@@ -474,7 +485,7 @@
     ld    3,-16(1)
     blr
     .align  4
-L(dus_tail16p2):  /* 16 bytes moved, less then 4 bytes left.  */
+L(dus_tail16p2):  /* 16 bytes moved, less than 4 bytes left.  */
     addi  12,12,16
     addi  3,3,16
     b     L(dus_tail2)
@@ -499,7 +510,7 @@
     ld    3,-16(1)
     blr
     .align  4
-L(dus_tail8p4):  /* less then 4 bytes left.  */
+L(dus_tail8p4):  /* less than 4 bytes left.  */
     addi  12,12,8
     addi  3,3,8
     bgt   cr1,L(dus_tail2)
@@ -510,14 +521,14 @@
     .align  4
 L(dus_tail4):  /* Move 4 bytes.  */
 /*  r6 already loaded speculatively.  If we are here we know there is
-    more then 4 bytes left.  So there is no need to test.  */
+    more than 4 bytes left.  So there is no need to test.  */
     addi  12,12,4
     stw   6,0(3)
     addi  3,3,4
 L(dus_tail2):  /* Move 2-3 bytes.  */
     bf    30,L(dus_tail1)
     lhz   6,0(12)
-    sth   6,0(3) 
+    sth   6,0(3)
     bf    31,L(dus_tailX)
     lbz   7,2(12)
     stb   7,2(3)
@@ -537,7 +548,7 @@
 .LE8:
     mr    12,4
     bne   cr6,L(dus_4)
-/* Exactly 8 bytes.  We may cross a 32-/128-byte boundry and take a ~20
+/* Exactly 8 bytes.  We may cross a 32-/128-byte boundary and take a ~20
    cycle delay.  This case should be rare and any attempt to avoid this
    would take most of 20 cycles any way.  */
     ld   6,0(4)
@@ -552,7 +563,7 @@
     stw   6,0(3)
     bf    30,L(dus_5)
     lhz   7,4(4)
-    sth   7,4(3) 
+    sth   7,4(3)
     bf    31,L(dus_0)
     lbz   8,6(4)
     stb   8,6(3)
@@ -590,20 +601,31 @@
     bge     cr0, L(du4_do)
     blt     cr5, L(du1_do)
     beq     cr5, L(du2_do)
-    b       L(du3_do) 
-       
+    b       L(du3_do)
+
     .align 4
 L(du1_do):
     bf      30,L(du1_1dw)
 
     /* there are at least two DWs to copy */
+    /* FIXME: can combine last shift and "or" into "rldimi" */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 8
+    sldi     8,7, 64-8
+#else
     sldi     0,6, 8
     srdi     8,7, 64-8
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,7, 8
+    sldi     8,6, 64-8
+#else
     sldi     0,7, 8
     srdi     8,6, 64-8
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -612,8 +634,13 @@
     blt     cr6,L(du1_fini)  /* if total DWs = 3, then bypass loop */
     bf      31,L(du1_loop)
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 8
+    sldi     8,7, 64-8
+#else
     sldi     0,6, 8
     srdi     8,7, 64-8
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -624,8 +651,13 @@
     b       L(du1_loop)
     .align 4
 L(du1_1dw):
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 8
+    sldi     8,7, 64-8
+#else
     sldi     0,6, 8
     srdi     8,7, 64-8
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,L(du1_loop)
@@ -637,23 +669,43 @@
     .align 4
 /* copy 32 bytes at a time */
 L(du1_loop):
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 8
+    sldi   8,7, 64-8
+#else
     sldi   0,6, 8
     srdi   8,7, 64-8
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 8
+    sldi   8,6, 64-8
+#else
     sldi   0,7, 8
     srdi   8,6, 64-8
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 8
+    sldi   8,7, 64-8
+#else
     sldi   0,6, 8
     srdi   8,7, 64-8
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 8
+    sldi   8,6, 64-8
+#else
     sldi   0,7, 8
     srdi   8,6, 64-8
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -663,9 +715,14 @@
     .align 4
 L(du1_fini):
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 8
+    sldi   8,7, 64-8
+#else
     sldi   0,6, 8
     srdi   8,7, 64-8
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
     b     L(du_done)
 
@@ -674,13 +731,23 @@
     bf      30,L(du2_1dw)
 
     /* there are at least two DWs to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 16
+    sldi     8,7, 64-16
+#else
     sldi     0,6, 16
     srdi     8,7, 64-16
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,7, 16
+    sldi     8,6, 64-16
+#else
     sldi     0,7, 16
     srdi     8,6, 64-16
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -689,8 +756,13 @@
     blt     cr6,L(du2_fini)  /* if total DWs = 3, then bypass loop */
     bf      31,L(du2_loop)
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 16
+    sldi     8,7, 64-16
+#else
     sldi     0,6, 16
     srdi     8,7, 64-16
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -701,8 +773,13 @@
     b       L(du2_loop)
     .align 4
 L(du2_1dw):
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 16
+    sldi     8,7, 64-16
+#else
     sldi     0,6, 16
     srdi     8,7, 64-16
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,L(du2_loop)
@@ -714,23 +791,43 @@
     .align 4
 /* copy 32 bytes at a time */
 L(du2_loop):
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 16
+    sldi   8,7, 64-16
+#else
     sldi   0,6, 16
     srdi   8,7, 64-16
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 16
+    sldi   8,6, 64-16
+#else
     sldi   0,7, 16
     srdi   8,6, 64-16
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 16
+    sldi   8,7, 64-16
+#else
     sldi   0,6, 16
     srdi   8,7, 64-16
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 16
+    sldi   8,6, 64-16
+#else
     sldi   0,7, 16
     srdi   8,6, 64-16
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -740,9 +837,14 @@
     .align 4
 L(du2_fini):
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 16
+    sldi   8,7, 64-16
+#else
     sldi   0,6, 16
     srdi   8,7, 64-16
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
     b     L(du_done)
 
@@ -751,13 +853,23 @@
     bf      30,L(du3_1dw)
 
     /* there are at least two DWs to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 24
+    sldi     8,7, 64-24
+#else
     sldi     0,6, 24
     srdi     8,7, 64-24
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,7, 24
+    sldi     8,6, 64-24
+#else
     sldi     0,7, 24
     srdi     8,6, 64-24
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -766,8 +878,13 @@
     blt     cr6,L(du3_fini)  /* if total DWs = 3, then bypass loop */
     bf      31,L(du3_loop)
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 24
+    sldi     8,7, 64-24
+#else
     sldi     0,6, 24
     srdi     8,7, 64-24
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -778,8 +895,13 @@
     b       L(du3_loop)
     .align 4
 L(du3_1dw):
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 24
+    sldi     8,7, 64-24
+#else
     sldi     0,6, 24
     srdi     8,7, 64-24
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,L(du3_loop)
@@ -791,23 +913,43 @@
     .align 4
 /* copy 32 bytes at a time */
 L(du3_loop):
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 24
+    sldi   8,7, 64-24
+#else
     sldi   0,6, 24
     srdi   8,7, 64-24
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 24
+    sldi   8,6, 64-24
+#else
     sldi   0,7, 24
     srdi   8,6, 64-24
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 24
+    sldi   8,7, 64-24
+#else
     sldi   0,6, 24
     srdi   8,7, 64-24
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 24
+    sldi   8,6, 64-24
+#else
     sldi   0,7, 24
     srdi   8,6, 64-24
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -817,9 +959,14 @@
     .align 4
 L(du3_fini):
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 24
+    sldi   8,7, 64-24
+#else
     sldi   0,6, 24
     srdi   8,7, 64-24
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
     b     L(du_done)
 
@@ -834,13 +981,23 @@
     bf      30,L(du4_1dw)
 
     /* there are at least two DWs to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 32
+    sldi     8,7, 64-32
+#else
     sldi     0,6, 32
     srdi     8,7, 64-32
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,7, 32
+    sldi     8,6, 64-32
+#else
     sldi     0,7, 32
     srdi     8,6, 64-32
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -849,8 +1006,13 @@
     blt     cr6,L(du4_fini)  /* if total DWs = 3, then bypass loop */
     bf      31,L(du4_loop)
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 32
+    sldi     8,7, 64-32
+#else
     sldi     0,6, 32
     srdi     8,7, 64-32
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -861,8 +1023,13 @@
     b       L(du4_loop)
     .align 4
 L(du4_1dw):
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 32
+    sldi     8,7, 64-32
+#else
     sldi     0,6, 32
     srdi     8,7, 64-32
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,L(du4_loop)
@@ -874,23 +1041,43 @@
     .align 4
 /* copy 32 bytes at a time */
 L(du4_loop):
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 32
+    sldi   8,7, 64-32
+#else
     sldi   0,6, 32
     srdi   8,7, 64-32
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 32
+    sldi   8,6, 64-32
+#else
     sldi   0,7, 32
     srdi   8,6, 64-32
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 32
+    sldi   8,7, 64-32
+#else
     sldi   0,6, 32
     srdi   8,7, 64-32
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 32
+    sldi   8,6, 64-32
+#else
     sldi   0,7, 32
     srdi   8,6, 64-32
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -900,9 +1087,14 @@
     .align 4
 L(du4_fini):
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 32
+    sldi   8,7, 64-32
+#else
     sldi   0,6, 32
     srdi   8,7, 64-32
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
     b     L(du_done)
 
@@ -911,13 +1103,23 @@
     bf      30,L(du5_1dw)
 
     /* there are at least two DWs to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 40
+    sldi     8,7, 64-40
+#else
     sldi     0,6, 40
     srdi     8,7, 64-40
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,7, 40
+    sldi     8,6, 64-40
+#else
     sldi     0,7, 40
     srdi     8,6, 64-40
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -926,8 +1128,13 @@
     blt     cr6,L(du5_fini)  /* if total DWs = 3, then bypass loop */
     bf      31,L(du5_loop)
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 40
+    sldi     8,7, 64-40
+#else
     sldi     0,6, 40
     srdi     8,7, 64-40
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -938,8 +1145,13 @@
     b       L(du5_loop)
     .align 4
 L(du5_1dw):
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 40
+    sldi     8,7, 64-40
+#else
     sldi     0,6, 40
     srdi     8,7, 64-40
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,L(du5_loop)
@@ -951,23 +1163,43 @@
     .align 4
 /* copy 32 bytes at a time */
 L(du5_loop):
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 40
+    sldi   8,7, 64-40
+#else
     sldi   0,6, 40
     srdi   8,7, 64-40
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 40
+    sldi   8,6, 64-40
+#else
     sldi   0,7, 40
     srdi   8,6, 64-40
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 40
+    sldi   8,7, 64-40
+#else
     sldi   0,6, 40
     srdi   8,7, 64-40
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 40
+    sldi   8,6, 64-40
+#else
     sldi   0,7, 40
     srdi   8,6, 64-40
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -977,9 +1209,14 @@
     .align 4
 L(du5_fini):
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 40
+    sldi   8,7, 64-40
+#else
     sldi   0,6, 40
     srdi   8,7, 64-40
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
     b     L(du_done)
 
@@ -988,13 +1225,23 @@
     bf      30,L(du6_1dw)
 
     /* there are at least two DWs to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 48
+    sldi     8,7, 64-48
+#else
     sldi     0,6, 48
     srdi     8,7, 64-48
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,7, 48
+    sldi     8,6, 64-48
+#else
     sldi     0,7, 48
     srdi     8,6, 64-48
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -1003,8 +1250,13 @@
     blt     cr6,L(du6_fini)  /* if total DWs = 3, then bypass loop */
     bf      31,L(du6_loop)
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 48
+    sldi     8,7, 64-48
+#else
     sldi     0,6, 48
     srdi     8,7, 64-48
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -1015,8 +1267,13 @@
     b       L(du6_loop)
     .align 4
 L(du6_1dw):
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 48
+    sldi     8,7, 64-48
+#else
     sldi     0,6, 48
     srdi     8,7, 64-48
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,L(du6_loop)
@@ -1028,23 +1285,43 @@
     .align 4
 /* copy 32 bytes at a time */
 L(du6_loop):
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 48
+    sldi   8,7, 64-48
+#else
     sldi   0,6, 48
     srdi   8,7, 64-48
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 48
+    sldi   8,6, 64-48
+#else
     sldi   0,7, 48
     srdi   8,6, 64-48
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 48
+    sldi   8,7, 64-48
+#else
     sldi   0,6, 48
     srdi   8,7, 64-48
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 48
+    sldi   8,6, 64-48
+#else
     sldi   0,7, 48
     srdi   8,6, 64-48
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -1054,9 +1331,14 @@
     .align 4
 L(du6_fini):
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 48
+    sldi   8,7, 64-48
+#else
     sldi   0,6, 48
     srdi   8,7, 64-48
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
     b     L(du_done)
 
@@ -1065,13 +1347,23 @@
     bf      30,L(du7_1dw)
 
     /* there are at least two DWs to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 56
+    sldi     8,7, 64-56
+#else
     sldi     0,6, 56
     srdi     8,7, 64-56
+#endif
     or      0,0,8
     ld      6,16(5)
     std     0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,7, 56
+    sldi     8,6, 64-56
+#else
     sldi     0,7, 56
     srdi     8,6, 64-56
+#endif
     or      0,0,8
     ld      7,24(5)
     std     0,8(4)
@@ -1080,8 +1372,13 @@
     blt     cr6,L(du7_fini)  /* if total DWs = 3, then bypass loop */
     bf      31,L(du7_loop)
     /* there is a third DW to copy */
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 56
+    sldi     8,7, 64-56
+#else
     sldi     0,6, 56
     srdi     8,7, 64-56
+#endif
     or      0,0,8
     std     0,0(4)
     mr      6,7
@@ -1092,8 +1389,13 @@
     b       L(du7_loop)
     .align 4
 L(du7_1dw):
+#ifdef __LITTLE_ENDIAN__
+    srdi     0,6, 56
+    sldi     8,7, 64-56
+#else
     sldi     0,6, 56
     srdi     8,7, 64-56
+#endif
     addi    5,5,16
     or      0,0,8
     bf      31,L(du7_loop)
@@ -1105,23 +1407,43 @@
     .align 4
 /* copy 32 bytes at a time */
 L(du7_loop):
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 56
+    sldi   8,7, 64-56
+#else
     sldi   0,6, 56
     srdi   8,7, 64-56
+#endif
     or    0,0,8
     ld    6,0(5)
     std   0,0(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 56
+    sldi   8,6, 64-56
+#else
     sldi   0,7, 56
     srdi   8,6, 64-56
+#endif
     or    0,0,8
     ld    7,8(5)
     std   0,8(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 56
+    sldi   8,7, 64-56
+#else
     sldi   0,6, 56
     srdi   8,7, 64-56
+#endif
     or    0,0,8
     ld    6,16(5)
     std   0,16(4)
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,7, 56
+    sldi   8,6, 64-56
+#else
     sldi   0,7, 56
     srdi   8,6, 64-56
+#endif
     or    0,0,8
     ld    7,24(5)
     std   0,24(4)
@@ -1131,12 +1453,17 @@
     .align 4
 L(du7_fini):
     /* calculate and store the final DW */
+#ifdef __LITTLE_ENDIAN__
+    srdi   0,6, 56
+    sldi   8,7, 64-56
+#else
     sldi   0,6, 56
     srdi   8,7, 64-56
-    or    0,0,8  
+#endif
+    or    0,0,8
     std   0,0(4)
     b     L(du_done)
-    
+
     .align 4
 L(du_done):
     rldicr 0,31,0,60
@@ -1144,9 +1471,9 @@
     beq   cr1,0f	/* If the tail is 0 bytes we are done!  */
 
     add   3,3,0
-    add   12,12,0    
+    add   12,12,0
 /*  At this point we have a tail of 0-7 bytes and we know that the
-    destiniation is double word aligned.  */
+    destination is double word aligned.  */
 4:  bf    29,2f
     lwz   6,0(12)
     addi  12,12,4
@@ -1165,5 +1492,5 @@
     ld 31,-8(1)
     ld 3,-16(1)
     blr
-END_GEN_TB (BP_SYM (memcpy),TB_TOCLESS)
+END_GEN_TB (memcpy,TB_TOCLESS)
 libc_hidden_builtin_def (memcpy)
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/memcpy.S	2014-05-29 13:05:40.000000000 -0500
@@ -1,5 +1,5 @@
 /* Optimized memcpy implementation for PowerPC64/POWER7.
-   Copyright (C) 2010, 2011 Free Software Foundation, Inc.
+   Copyright (C) 2010-2014 Free Software Foundation, Inc.
    Contributed by Luis Machado <luisgpm@br.ibm.com>.
    This file is part of the GNU C Library.
 
@@ -18,425 +18,366 @@
    <http://www.gnu.org/licenses/>.  */
 
 #include <sysdep.h>
-#include <bp-sym.h>
-#include <bp-asm.h>
 
 
 /* __ptr_t [r3] memcpy (__ptr_t dst [r3], __ptr_t src [r4], size_t len [r5]);
    Returns 'dst'.  */
 
+#define dst 11		/* Use r11 so r3 kept unchanged.  */
+#define src 4
+#define cnt 5
+
 	.machine power7
-EALIGN (BP_SYM (memcpy), 5, 0)
+EALIGN (memcpy, 5, 0)
 	CALL_MCOUNT 3
 
-	cmpldi  cr1,5,31
+	cmpldi	cr1,cnt,31
 	neg	0,3
-	std	3,-16(1)
-	std	31,-8(1)
-	cfi_offset(31,-8)
 	ble	cr1, L(copy_LT_32)  /* If move < 32 bytes use short move
 				    code.  */
 
-	andi.   11,3,7	      /* Check alignment of DST.  */
-
+#ifdef __LITTLE_ENDIAN__
+/* In little-endian mode, power7 takes an alignment trap on any lxvd2x
+   or stxvd2x crossing a 32-byte boundary, so ensure the aligned_copy
+   loop is only used for quadword aligned copies.  */
+	andi.	10,3,15
+	clrldi	11,4,60
+#else
+	andi.	10,3,7		/* Check alignment of DST.  */
+	clrldi	11,4,61		/* Check alignment of SRC.  */
+#endif
+	cmpld	cr6,10,11	/* SRC and DST alignments match?  */
 
-	clrldi  10,4,61       /* Check alignment of SRC.  */
-	cmpld   cr6,10,11     /* SRC and DST alignments match?  */
-	mr	12,4
-	mr	31,5
+	mr	dst,3
 	bne	cr6,L(copy_GE_32_unaligned)
+	beq	L(aligned_copy)
 
-	srdi    9,5,3	      /* Number of full quadwords remaining.  */
-
-	beq    L(copy_GE_32_aligned_cont)
-
-	clrldi  0,0,61
-	mtcrf   0x01,0
-	subf    31,0,5
-
-	/* Get the SRC aligned to 8 bytes.  */
-
-1:	bf	31,2f
-	lbz	6,0(12)
-	addi    12,12,1
-	stb	6,0(3)
-	addi    3,3,1
-2:	bf      30,4f
-	lhz     6,0(12)
-	addi    12,12,2
-	sth     6,0(3)
-	addi    3,3,2
-4:	bf      29,0f
-	lwz     6,0(12)
-	addi    12,12,4
-	stw     6,0(3)
-	addi    3,3,4
-0:
-	clrldi  10,12,61      /* Check alignment of SRC again.  */
-	srdi    9,31,3	      /* Number of full doublewords remaining.  */
-
-L(copy_GE_32_aligned_cont):
-
-	clrldi  11,31,61
-	mtcrf   0x01,9
-
-	srdi    8,31,5
-	cmpldi  cr1,9,4
-	cmpldi  cr6,11,0
-	mr	11,12
+	mtocrf	0x01,0
+#ifdef __LITTLE_ENDIAN__
+	clrldi	0,0,60
+#else
+	clrldi	0,0,61
+#endif
 
-	/* Copy 1~3 doublewords so the main loop starts
-	at a multiple of 32 bytes.  */
-
-	bf	30,1f
-	ld      6,0(12)
-	ld      7,8(12)
-	addi    11,12,16
-	mtctr   8
-	std     6,0(3)
-	std     7,8(3)
-	addi    10,3,16
-	bf      31,4f
-	ld      0,16(12)
-	std     0,16(3)
-	blt     cr1,3f
-	addi    11,12,24
-	addi    10,3,24
-	b       4f
-
-	.align  4
-1:	/* Copy 1 doubleword and set the counter.  */
-	mr	10,3
-	mtctr   8
-	bf      31,4f
-	ld      6,0(12)
-	addi    11,12,8
-	std     6,0(3)
-	addi    10,3,8
+/* Get the DST and SRC aligned to 8 bytes (16 for little-endian).  */
+1:
+	bf	31,2f
+	lbz	6,0(src)
+	addi	src,src,1
+	stb	6,0(dst)
+	addi	dst,dst,1
+2:
+	bf	30,4f
+	lhz	6,0(src)
+	addi	src,src,2
+	sth	6,0(dst)
+	addi	dst,dst,2
+4:
+	bf	29,8f
+	lwz	6,0(src)
+	addi	src,src,4
+	stw	6,0(dst)
+	addi	dst,dst,4
+8:
+#ifdef __LITTLE_ENDIAN__
+	bf	28,16f
+	ld	6,0(src)
+	addi	src,src,8
+	std	6,0(dst)
+	addi	dst,dst,8
+16:
+#endif
+	subf	cnt,0,cnt
 
+/* Main aligned copy loop. Copies 128 bytes at a time. */
 L(aligned_copy):
-	/* Main aligned copy loop. Copies up to 128-bytes at a time. */
-	.align  4
-4:
-	/* check for any 32-byte or 64-byte lumps that are outside of a
-	   nice 128-byte range.  R8 contains the number of 32-byte
-	   lumps, so drop this into the CR, and use the SO/EQ bits to help
-	   handle the 32- or 64- byte lumps.  Then handle the rest with an
-	   unrolled 128-bytes-at-a-time copy loop. */
-	mtocrf	1,8
-	li	6,16	# 16() index
-	li	7,32	# 32() index
-	li	8,48	# 48() index
-
-L(aligned_32byte):
-	/* if the SO bit (indicating a 32-byte lump) is not set, move along. */
-	bns	cr7,L(aligned_64byte)
-	lxvd2x	6,0,11
-	lxvd2x	7,11,6
-	addi	11,11,32
-	stxvd2x	6,0,10
-	stxvd2x	7,10,6
-	addi	10,10,32
-
-L(aligned_64byte):
-	/* if the EQ bit (indicating a 64-byte lump) is not set, move along. */
-	bne	cr7,L(aligned_128setup)
-	lxvd2x	6,0,11
-	lxvd2x	7,11,6
-	lxvd2x	8,11,7
-	lxvd2x	9,11,8
-	addi	11,11,64
-	stxvd2x	6,0,10
-	stxvd2x	7,10,6
-	stxvd2x	8,10,7
-	stxvd2x	9,10,8
-	addi	10,10,64
-
-L(aligned_128setup):
-	/* Set up for the 128-byte at a time copy loop.  */
-	srdi	8,31,7
-	cmpdi	8,0	# Any 4x lumps left?
-	beq	3f	# if not, move along.
-	lxvd2x	6,0,11
-	lxvd2x	7,11,6
-	mtctr	8	# otherwise, load the ctr and begin.
-	li	8,48	# 48() index
+	li	6,16
+	li	7,32
+	li	8,48
+	mtocrf	0x02,cnt
+	srdi	12,cnt,7
+	cmpdi	12,0
+	beq	L(aligned_tail)
+	lxvd2x	6,0,src
+	lxvd2x	7,src,6
+	mtctr	12
 	b	L(aligned_128loop)
 
+	.align  4
 L(aligned_128head):
 	/* for the 2nd + iteration of this loop. */
-	lxvd2x	6,0,11
-	lxvd2x	7,11,6
+	lxvd2x	6,0,src
+	lxvd2x	7,src,6
 L(aligned_128loop):
-	lxvd2x	8,11,7
-	lxvd2x	9,11,8
-	stxvd2x	6,0,10
-	addi	11,11,64
-	stxvd2x	7,10,6
-	stxvd2x	8,10,7
-	stxvd2x	9,10,8
-	lxvd2x	6,0,11
-	lxvd2x	7,11,6
-	addi	10,10,64
-	lxvd2x	8,11,7
-	lxvd2x	9,11,8
-	addi	11,11,64
-	stxvd2x	6,0,10
-	stxvd2x	7,10,6
-	stxvd2x	8,10,7
-	stxvd2x	9,10,8
-	addi	10,10,64
+	lxvd2x	8,src,7
+	lxvd2x	9,src,8
+	stxvd2x	6,0,dst
+	addi	src,src,64
+	stxvd2x	7,dst,6
+	stxvd2x	8,dst,7
+	stxvd2x	9,dst,8
+	lxvd2x	6,0,src
+	lxvd2x	7,src,6
+	addi	dst,dst,64
+	lxvd2x	8,src,7
+	lxvd2x	9,src,8
+	addi	src,src,64
+	stxvd2x	6,0,dst
+	stxvd2x	7,dst,6
+	stxvd2x	8,dst,7
+	stxvd2x	9,dst,8
+	addi	dst,dst,64
 	bdnz	L(aligned_128head)
 
-3:
-	/* Check for tail bytes.  */
-	rldicr  0,31,0,60
-	mtcrf   0x01,31
-	beq	cr6,0f
-
-.L9:
-	add	3,3,0
-	add	12,12,0
-
-	/*  At this point we have a tail of 0-7 bytes and we know that the
-	destination is doubleword-aligned.  */
-4:	/* Copy 4 bytes.  */
-	bf	29,2f
-
-	lwz     6,0(12)
-	addi    12,12,4
-	stw     6,0(3)
-	addi    3,3,4
-2:	/* Copy 2 bytes.  */
-	bf	30,1f
-
-	lhz     6,0(12)
-	addi    12,12,2
-	sth     6,0(3)
-	addi    3,3,2
-1:	/* Copy 1 byte.  */
-	bf	31,0f
-
-	lbz	6,0(12)
-	stb	6,0(3)
-0:	/* Return original DST pointer.  */
-	ld	31,-8(1)
-	ld	3,-16(1)
+L(aligned_tail):
+	mtocrf	0x01,cnt
+	bf	25,32f
+	lxvd2x	6,0,src
+	lxvd2x	7,src,6
+	lxvd2x	8,src,7
+	lxvd2x	9,src,8
+	addi	src,src,64
+	stxvd2x	6,0,dst
+	stxvd2x	7,dst,6
+	stxvd2x	8,dst,7
+	stxvd2x	9,dst,8
+	addi	dst,dst,64
+32:
+	bf	26,16f
+	lxvd2x	6,0,src
+	lxvd2x	7,src,6
+	addi	src,src,32
+	stxvd2x	6,0,dst
+	stxvd2x	7,dst,6
+	addi	dst,dst,32
+16:
+	bf	27,8f
+	lxvd2x	6,0,src
+	addi	src,src,16
+	stxvd2x	6,0,dst
+	addi	dst,dst,16
+8:
+	bf	28,4f
+	ld	6,0(src)
+	addi	src,src,8
+	std     6,0(dst)
+	addi	dst,dst,8
+4:	/* Copies 4~7 bytes.  */
+	bf	29,L(tail2)
+	lwz	6,0(src)
+	stw     6,0(dst)
+	bf      30,L(tail5)
+	lhz     7,4(src)
+	sth     7,4(dst)
+	bflr	31
+	lbz     8,6(src)
+	stb     8,6(dst)
+	/* Return original DST pointer.  */
 	blr
 
-	/* Handle copies of 0~31 bytes.  */
-	.align  4
+
+/* Handle copies of 0~31 bytes.  */
+	.align	4
 L(copy_LT_32):
-	cmpldi  cr6,5,8
-	mr	12,4
-	mtcrf   0x01,5
+	mr	dst,3
+	cmpldi	cr6,cnt,8
+	mtocrf	0x01,cnt
 	ble	cr6,L(copy_LE_8)
 
 	/* At least 9 bytes to go.  */
 	neg	8,4
-	clrrdi  11,4,2
-	andi.   0,8,3
-	cmpldi  cr1,5,16
-	mr	10,5
+	andi.	0,8,3
+	cmpldi	cr1,cnt,16
 	beq	L(copy_LT_32_aligned)
 
-	/* Force 4-bytes alignment for SRC.  */
-	mtocrf  0x01,0
-	subf    10,0,5
-2:	bf	30,1f
-
-	lhz	6,0(12)
-	addi    12,12,2
-	sth	6,0(3)
-	addi    3,3,2
-1:	bf	31,L(end_4bytes_alignment)
-
-	lbz	6,0(12)
-	addi    12,12,1
-	stb	6,0(3)
-	addi    3,3,1
+	/* Force 4-byte alignment for SRC.  */
+	mtocrf	0x01,0
+	subf	cnt,0,cnt
+2:
+	bf	30,1f
+	lhz	6,0(src)
+	addi	src,src,2
+	sth	6,0(dst)
+	addi	dst,dst,2
+1:
+	bf	31,L(end_4bytes_alignment)
+	lbz	6,0(src)
+	addi	src,src,1
+	stb	6,0(dst)
+	addi	dst,dst,1
 
-	.align  4
+	.align	4
 L(end_4bytes_alignment):
-	cmpldi  cr1,10,16
-	mtcrf   0x01,10
+	cmpldi	cr1,cnt,16
+	mtocrf	0x01,cnt
 
 L(copy_LT_32_aligned):
 	/* At least 6 bytes to go, and SRC is word-aligned.  */
 	blt	cr1,8f
 
 	/* Copy 16 bytes.  */
-	lwz	6,0(12)
-	lwz     7,4(12)
-	stw     6,0(3)
-	lwz     8,8(12)
-	stw     7,4(3)
-	lwz     6,12(12)
-	addi    12,12,16
-	stw     8,8(3)
-	stw     6,12(3)
-	addi    3,3,16
+	lwz	6,0(src)
+	lwz	7,4(src)
+	stw	6,0(dst)
+	lwz	8,8(src)
+	stw	7,4(dst)
+	lwz	6,12(src)
+	addi	src,src,16
+	stw	8,8(dst)
+	stw	6,12(dst)
+	addi	dst,dst,16
 8:	/* Copy 8 bytes.  */
-	bf	28,4f
+	bf	28,L(tail4)
+	lwz	6,0(src)
+	lwz	7,4(src)
+	addi	src,src,8
+	stw	6,0(dst)
+	stw	7,4(dst)
+	addi	dst,dst,8
+
+	.align	4
+/* Copies 4~7 bytes.  */
+L(tail4):
+	bf	29,L(tail2)
+	lwz	6,0(src)
+	stw	6,0(dst)
+	bf	30,L(tail5)
+	lhz	7,4(src)
+	sth	7,4(dst)
+	bflr	31
+	lbz	8,6(src)
+	stb	8,6(dst)
+	/* Return original DST pointer.  */
+	blr
 
-	lwz     6,0(12)
-	lwz     7,4(12)
-	addi    12,12,8
-	stw     6,0(3)
-	stw     7,4(3)
-	addi    3,3,8
-4:	/* Copy 4 bytes.  */
-	bf	29,2f
-
-	lwz     6,0(12)
-	addi    12,12,4
-	stw     6,0(3)
-	addi    3,3,4
-2:	/* Copy 2-3 bytes.  */
+	.align	4
+/* Copies 2~3 bytes.  */
+L(tail2):
 	bf	30,1f
-
-	lhz     6,0(12)
-	sth     6,0(3)
-	bf      31,0f
-	lbz     7,2(12)
-	stb     7,2(3)
-	ld	3,-16(1)
+	lhz	6,0(src)
+	sth	6,0(dst)
+	bflr	31
+	lbz	7,2(src)
+	stb	7,2(dst)
 	blr
 
-	.align  4
-1:	/* Copy 1 byte.  */
-	bf	31,0f
+	.align	4
+L(tail5):
+	bflr	31
+	lbz	6,4(src)
+	stb	6,4(dst)
+	blr
 
-	lbz	6,0(12)
-	stb	6,0(3)
-0:	/* Return original DST pointer.  */
-	ld	3,-16(1)
+	.align	4
+1:
+	bflr	31
+	lbz	6,0(src)
+	stb	6,0(dst)
+	/* Return original DST pointer.  */
 	blr
 
-	/* Handles copies of 0~8 bytes.  */
-	.align  4
+
+/* Handles copies of 0~8 bytes.  */
+	.align	4
 L(copy_LE_8):
-	bne	cr6,4f
+	bne	cr6,L(tail4)
 
 	/* Though we could've used ld/std here, they are still
 	slow for unaligned cases.  */
 
-	lwz	6,0(4)
-	lwz     7,4(4)
-	stw     6,0(3)
-	stw     7,4(3)
-	ld      3,-16(1)      /* Return original DST pointers.  */
+	lwz	6,0(src)
+	lwz	7,4(src)
+	stw	6,0(dst)
+	stw	7,4(dst)
 	blr
 
-	.align  4
-4:	/* Copies 4~7 bytes.  */
-	bf	29,2b
 
-	lwz	6,0(4)
-	stw     6,0(3)
-	bf      30,5f
-	lhz     7,4(4)
-	sth     7,4(3)
-	bf      31,0f
-	lbz     8,6(4)
-	stb     8,6(3)
-	ld	3,-16(1)
-	blr
-
-	.align  4
-5:	/* Copy 1 byte.  */
-	bf	31,0f
-
-	lbz	6,4(4)
-	stb	6,4(3)
-
-0:	/* Return original DST pointer.  */
-	ld	3,-16(1)
-	blr
-
-	/* Handle copies of 32+ bytes where DST is aligned (to quadword) but
-	SRC is not.  Use aligned quadword loads from SRC, shifted to realign
-	the data, allowing for aligned DST stores.  */
-	.align  4
+/* Handle copies of 32+ bytes where DST is aligned (to quadword) but
+   SRC is not.	Use aligned quadword loads from SRC, shifted to realign
+   the data, allowing for aligned DST stores.  */
+	.align	4
 L(copy_GE_32_unaligned):
-	clrldi  0,0,60	      /* Number of bytes until the 1st
-			      quadword.  */
-	andi.   11,3,15       /* Check alignment of DST (against
-			      quadwords).  */
-	srdi    9,5,4	      /* Number of full quadwords remaining.  */
+	clrldi	0,0,60	      /* Number of bytes until the 1st dst quadword.  */
+#ifndef __LITTLE_ENDIAN__
+	andi.	10,3,15	      /* Check alignment of DST (against quadwords).  */
+#endif
+	srdi	9,cnt,4	      /* Number of full quadwords remaining.  */
 
 	beq	L(copy_GE_32_unaligned_cont)
 
-	/* SRC is not quadword aligned, get it aligned.  */
+	/* DST is not quadword aligned, get it aligned.  */
 
-	mtcrf   0x01,0
-	subf    31,0,5
+	mtocrf	0x01,0
+	subf	cnt,0,cnt
 
 	/* Vector instructions work best when proper alignment (16-bytes)
 	is present.  Move 0~15 bytes as needed to get DST quadword-aligned.  */
-1:	/* Copy 1 byte.  */
+1:
 	bf	31,2f
-
-	lbz	6,0(12)
-	addi    12,12,1
-	stb	6,0(3)
-	addi    3,3,1
-2:	/* Copy 2 bytes.  */
+	lbz	6,0(src)
+	addi	src,src,1
+	stb	6,0(dst)
+	addi	dst,dst,1
+2:
 	bf	30,4f
-
-	lhz     6,0(12)
-	addi    12,12,2
-	sth     6,0(3)
-	addi    3,3,2
-4:	/* Copy 4 bytes.  */
+	lhz	6,0(src)
+	addi	src,src,2
+	sth	6,0(dst)
+	addi	dst,dst,2
+4:
 	bf	29,8f
-
-	lwz     6,0(12)
-	addi    12,12,4
-	stw     6,0(3)
-	addi    3,3,4
-8:	/* Copy 8 bytes.  */
+	lwz	6,0(src)
+	addi	src,src,4
+	stw	6,0(dst)
+	addi	dst,dst,4
+8:
 	bf	28,0f
-
-	ld	6,0(12)
-	addi    12,12,8
-	std	6,0(3)
-	addi    3,3,8
+	ld	6,0(src)
+	addi	src,src,8
+	std	6,0(dst)
+	addi	dst,dst,8
 0:
-	clrldi  10,12,60      /* Check alignment of SRC.  */
-	srdi    9,31,4	      /* Number of full quadwords remaining.  */
+	srdi	9,cnt,4	      /* Number of full quadwords remaining.  */
 
 	/* The proper alignment is present, it is OK to copy the bytes now.  */
 L(copy_GE_32_unaligned_cont):
 
 	/* Setup two indexes to speed up the indexed vector operations.  */
-	clrldi  11,31,60
-	li      6,16	      /* Index for 16-bytes offsets.  */
+	clrldi	10,cnt,60
+	li	6,16	      /* Index for 16-bytes offsets.  */
 	li	7,32	      /* Index for 32-bytes offsets.  */
-	cmpldi  cr1,11,0
-	srdi    8,31,5	      /* Setup the loop counter.  */
-	mr      10,3
-	mr      11,12
-	mtcrf   0x01,9
-	cmpldi  cr6,9,1
-	lvsl    5,0,12
-	lvx     3,0,12
-	bf      31,L(setup_unaligned_loop)
-
-	/* Copy another 16 bytes to align to 32-bytes due to the loop .  */
-	lvx     4,12,6
-	vperm   6,3,4,5
-	addi    11,12,16
-	addi    10,3,16
-	stvx    6,0,3
+	cmpldi	cr1,10,0
+	srdi	8,cnt,5	      /* Setup the loop counter.  */
+	mtocrf	0x01,9
+	cmpldi	cr6,9,1
+#ifdef __LITTLE_ENDIAN__
+	lvsr	5,0,src
+#else
+	lvsl	5,0,src
+#endif
+	lvx	3,0,src
+	li	0,0
+	bf	31,L(setup_unaligned_loop)
+
+	/* Copy another 16 bytes to align to 32-bytes due to the loop.  */
+	lvx	4,src,6
+#ifdef __LITTLE_ENDIAN__
+	vperm	6,4,3,5
+#else
+	vperm	6,3,4,5
+#endif
+	addi	src,src,16
+	stvx	6,0,dst
+	addi	dst,dst,16
 	vor	3,4,4
+	clrrdi	0,src,60
 
 L(setup_unaligned_loop):
-	mtctr   8
-	ble     cr6,L(end_unaligned_loop)
+	mtctr	8
+	ble	cr6,L(end_unaligned_loop)
 
 	/* Copy 32 bytes at a time using vector instructions.  */
-	.align  4
+	.align	4
 L(unaligned_loop):
 
 	/* Note: vr6/vr10 may contain data that was already copied,
@@ -444,63 +385,56 @@
 	some portions again. This is faster than having unaligned
 	vector instructions though.  */
 
-	lvx	4,11,6	      /* vr4 = r11+16.  */
-	vperm   6,3,4,5	      /* Merge the correctly-aligned portions
-			      of vr3/vr4 into vr6.  */
-	lvx	3,11,7	      /* vr3 = r11+32.  */
-	vperm   10,4,3,5      /* Merge the correctly-aligned portions
-			      of vr3/vr4 into vr10.  */
-	addi    11,11,32
-	stvx    6,0,10
-	stvx    10,10,6
-	addi    10,10,32
-
+	lvx	4,src,6
+#ifdef __LITTLE_ENDIAN__
+	vperm	6,4,3,5
+#else
+	vperm	6,3,4,5
+#endif
+	lvx	3,src,7
+#ifdef __LITTLE_ENDIAN__
+	vperm	10,3,4,5
+#else
+	vperm	10,4,3,5
+#endif
+	addi	src,src,32
+	stvx	6,0,dst
+	stvx	10,dst,6
+	addi	dst,dst,32
 	bdnz	L(unaligned_loop)
 
-	.align  4
+	clrrdi	0,src,60
+
+	.align	4
 L(end_unaligned_loop):
 
 	/* Check for tail bytes.  */
-	rldicr  0,31,0,59
-	mtcrf   0x01,31
-	beq	cr1,0f
+	mtocrf	0x01,cnt
+	beqlr	cr1
 
-	add	3,3,0
-	add	12,12,0
+	add	src,src,0
 
 	/*  We have 1~15 tail bytes to copy, and DST is quadword aligned.  */
-8:	/* Copy 8 bytes.  */
+	/* Copy 8 bytes.  */
 	bf	28,4f
-
-	lwz	6,0(12)
-	lwz	7,4(12)
-	addi    12,12,8
-	stw	6,0(3)
-	stw	7,4(3)
-	addi    3,3,8
-4:	/* Copy 4 bytes.  */
-	bf	29,2f
-
-	lwz	6,0(12)
-	addi    12,12,4
-	stw	6,0(3)
-	addi    3,3,4
-2:	/* Copy 2~3 bytes.  */
-	bf	30,1f
-
-	lhz	6,0(12)
-	addi    12,12,2
-	sth	6,0(3)
-	addi    3,3,2
-1:	/* Copy 1 byte.  */
-	bf	31,0f
-
-	lbz	6,0(12)
-	stb	6,0(3)
-0:	/* Return original DST pointer.  */
-	ld	31,-8(1)
-	ld	3,-16(1)
+	lwz	6,0(src)
+	lwz	7,4(src)
+	addi	src,src,8
+	stw	6,0(dst)
+	stw	7,4(dst)
+	addi	dst,dst,8
+4:	/* Copy 4~7 bytes.  */
+	bf	29,L(tail2)
+	lwz	6,0(src)
+	stw	6,0(dst)
+	bf	30,L(tail5)
+	lhz	7,4(src)
+	sth	7,4(dst)
+	bflr	31
+	lbz	8,6(src)
+	stb	8,6(dst)
+	/* Return original DST pointer.  */
 	blr
 
-END_GEN_TB (BP_SYM (memcpy),TB_TOCLESS)
+END_GEN_TB (memcpy,TB_TOCLESS)
 libc_hidden_builtin_def (memcpy)
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/mempcpy.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/mempcpy.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/mempcpy.S	2014-05-29 13:04:56.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/mempcpy.S	2014-05-29 13:04:56.000000000 -0500
@@ -367,13 +367,21 @@
 	mr	11,12
 	mtcrf	0x01,9
 	cmpldi	cr6,9,1
-	lvsl	5,0,12
+#ifdef __LITTLE_ENDIAN__
+	lvsr    5,0,12
+#else
+	lvsl    5,0,12
+#endif
 	lvx	3,0,12
 	bf	31,L(setup_unaligned_loop)
 
 	/* Copy another 16 bytes to align to 32-bytes due to the loop .  */
 	lvx	4,12,6
-	vperm	6,3,4,5
+#ifdef __LITTLE_ENDIAN__
+	vperm   6,4,3,5
+#else
+	vperm   6,3,4,5
+#endif
 	addi	11,12,16
 	addi	10,3,16
 	stvx	6,0,3
@@ -393,11 +401,17 @@
 	vector instructions though.  */
 
 	lvx	4,11,6	      /* vr4 = r11+16.  */
-	vperm	6,3,4,5	      /* Merge the correctly-aligned portions
-				 of vr3/vr4 into vr6.  */
+#ifdef __LITTLE_ENDIAN__
+	vperm   6,4,3,5
+#else
+	vperm   6,3,4,5
+#endif
 	lvx	3,11,7	      /* vr3 = r11+32.  */
-	vperm	10,4,3,5      /* Merge the correctly-aligned portions
-				 of vr3/vr4 into vr10.  */
+#ifdef __LITTLE_ENDIAN__
+	vperm   10,3,4,5
+#else
+	vperm   10,4,3,5
+#endif
 	addi	11,11,32
 	stvx	6,0,10
 	stvx	10,10,6