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authorUlrich Drepper <drepper@redhat.com>2002-10-03 09:15:22 +0000
committerUlrich Drepper <drepper@redhat.com>2002-10-03 09:15:22 +0000
commit451c8c22c68df72324fb61b462e24e4778c5fe23 (patch)
tree105aa352f7f566519db1507287ae7f0ede98e346
parentf8b0689f8075b766ba1af5a478ac19a695e43bce (diff)
downloadglibc-cvs/glibc-2-3.tar.gz
glibc-cvs/glibc-2-3.tar.xz
glibc-cvs/glibc-2-3.zip
2002-10-03  Richard Henderson  <rth@redhat.com>

	* sysdeps/alpha/stxncpy.S: Don't access memory beyond the source
	buffer.
	* sysdeps/alpha/alphaev6/stxncpy.S: Likewise.

2002-10-02  Andreas Jaeger  <aj@suse.de>
	    Guido Guenther  <agx@sigxcpu.org>

	* sysdeps/mips/fpu/fraiseexcpt.c: Add internal definition.
	* sysdeps/mips/fpu/fesetenv.c: Likewise.
-rw-r--r--ChangeLog12
-rw-r--r--sysdeps/alpha/alphaev6/stxncpy.S85
-rw-r--r--sysdeps/alpha/stxncpy.S72
3 files changed, 97 insertions, 72 deletions
diff --git a/ChangeLog b/ChangeLog
index 6c63f24076..241861369e 100644
--- a/ChangeLog
+++ b/ChangeLog
@@ -1,3 +1,15 @@
+2002-10-03  Richard Henderson  <rth@redhat.com>
+
+	* sysdeps/alpha/stxncpy.S: Don't access memory beyond the source
+	buffer.
+	* sysdeps/alpha/alphaev6/stxncpy.S: Likewise.
+
+2002-10-02  Andreas Jaeger  <aj@suse.de>
+	    Guido Guenther  <agx@sigxcpu.org>
+
+	* sysdeps/mips/fpu/fraiseexcpt.c: Add internal definition.
+	* sysdeps/mips/fpu/fesetenv.c: Likewise.
+
 2002-10-03  Jakub Jelinek  <jakub@redhat.com>
 
 	* sysdeps/unix/sysv/linux/net/route.h: Include bits/wordsize.h.
diff --git a/sysdeps/alpha/alphaev6/stxncpy.S b/sysdeps/alpha/alphaev6/stxncpy.S
index 21e94ba7e2..f39c23a886 100644
--- a/sysdeps/alpha/alphaev6/stxncpy.S
+++ b/sysdeps/alpha/alphaev6/stxncpy.S
@@ -1,4 +1,4 @@
-/* Copyright (C) 2000 Free Software Foundation, Inc.
+/* Copyright (C) 2000, 2002 Free Software Foundation, Inc.
    Contributed by Richard Henderson (rth@tamu.edu)
    EV6 optimized by Rick Gorton <rick.gorton@alpha-processor.com>.
    This file is part of the GNU C Library.
@@ -210,35 +210,30 @@ $u_head:
 
 	cmpbge	zero, t6, t7	# E :
 	beq	a2, $u_eocfin	# U :
-	nop
+	lda	t6, -1		# E :
 	nop
 
 	bne	t7, $u_final	# U :
-	lda	t6, -1		# E : mask out the bits we have
-	mskql	t6, a1, t6	# U :   already seen (stall)
+	mskql	t6, a1, t6	# U : mask out bits already seen
 	stq_u	t0, 0(a0)	# L : store first output word
+	or      t6, t2, t2	# E :
 
-	or      t6, t2, t2		# E :
-	cmpbge	zero, t2, t7		# E : find nulls in second partial (stall)
-	addq	a0, 8, a0		# E :
-	subq	a2, 1, a2		# E :
-
+	cmpbge	zero, t2, t7	# E : find nulls in second partial
+	addq	a0, 8, a0	# E :
+	subq	a2, 1, a2	# E :
 	bne	t7, $u_late_head_exit	# U :
+
 	/* Finally, we've got all the stupid leading edge cases taken care
 	   of and we can set up to enter the main loop.  */
 	extql	t2, a1, t1	# U : position hi-bits of lo word
+	beq	a2, $u_eoc	# U :
 	ldq_u	t2, 8(a1)	# L : read next high-order source word
 	addq	a1, 8, a1	# E :
 
-	cmpbge	zero, t2, t7	# E : (stall)
-	beq	a2, $u_eoc	# U :
-	nop
-	nop
-
-	bne	t7, $u_eos	# e1    :
-	nop
-	nop
-	nop
+	extqh	t2, a1, t0	# U : position lo-bits of hi word (stall)
+	cmpbge	zero, t2, t7	# E :
+	nop			
+	bne	t7, $u_eos	# U :
 
 	/* Unaligned copy main loop.  In order to avoid reading too much,
 	   the loop is structured to detect zeros in aligned source words.
@@ -248,6 +243,7 @@ $u_head:
 	   to run as fast as possible.
 
 	   On entry to this basic block:
+	   t0 == the shifted low-order bits from the current source word
 	   t1 == the shifted high-order bits from the previous source word
 	   t2 == the unshifted current source word
 
@@ -255,25 +251,20 @@ $u_head:
 
 	.align 4
 $u_loop:
-	extqh	t2, a1, t0	# U : extract high bits for current word
-	addq	a1, 8, a1	# E :
-	extql	t2, a1, t3	# U : extract low bits for next time
+	or	t0, t1, t0	# E : current dst word now complete
+	subq	a2, 1, a2	# E : decrement word count
+	extql	t2, a1, t1	# U : extract high bits for next time
 	addq	a0, 8, a0	# E :
 
-	or	t0, t1, t0	# E : current dst word now complete
-	ldq_u	t2, 0(a1)	# U : Latency=3 load high word for next time
-	stq_u	t0, -8(a0)	# U : save the current word (stall)
-	mov	t3, t1		# E :
+	stq_u	t0, -8(a0)	# L : save the current word
+	beq	a2, $u_eoc	# U :
+	ldq_u	t2, 8(a1)	# L : Latency=3 load high word for next time
+	addq	a1, 8, a1	# E :
 
-	subq	a2, 1, a2	# E :
-	cmpbge	zero, t2, t7	# E : test new word for eos (2 cycle stall for data)
-	beq	a2, $u_eoc	# U : (stall)
+	extqh	t2, a1, t0	# U : extract low bits (2 cycle stall)
+	cmpbge	zero, t2, t7	# E : test new word for eos
 	nop
-
 	beq	t7, $u_loop	# U :
-	nop
-	nop
-	nop
 
 	/* We've found a zero somewhere in the source word we just read.
 	   If it resides in the lower half, we have one (probably partial)
@@ -281,11 +272,12 @@ $u_loop:
 	   have one full and one partial word left to write out.
 
 	   On entry to this basic block:
+	   t0 == the shifted low-order bits from the current source word
 	   t1 == the shifted high-order bits from the previous source word
 	   t2 == the unshifted current source word.  */
 $u_eos:
-	extqh	t2, a1, t0	# U :
-	or	t0, t1, t0	# E : first (partial) source word complete (stall)
+	or	t0, t1, t0	# E : first (partial) source word complete
+	nop
 	cmpbge	zero, t0, t7	# E : is the null in this first bit? (stall)
 	bne	t7, $u_final	# U : (stall)
 
@@ -323,17 +315,26 @@ $u_final:
 1:	stq_u	t0, 0(a0)	# L :
 	ret	(t9)		# L0 : Latency=3
 
-$u_eoc:				# end-of-count
-	extqh	t2, a1, t0	# U :
-	or	t0, t1, t0	# E : (stall)
-	cmpbge	zero, t0, t7	# E : (stall)
+        /* Got to end-of-count before end of string.  
+           On entry to this basic block:
+           t1 == the shifted high-order bits from the previous source word  */
+$u_eoc:
+	and	a1, 7, t6	# E :
+	sll	t10, t6, t6	# U : (stall)
+	and	t6, 0xff, t6	# E : (stall)
+	bne	t6, 1f		# U : (stall)
+
+	ldq_u	t2, 8(a1)	# L : load final src word
 	nop
+	extqh	t2, a1, t0	# U : extract low bits for last word (stall)	
+	or	t1, t0, t1	# E : (stall)
+
+1:	cmpbge	zero, t1, t7	# E :
+	mov	t1, t0
 
 $u_eocfin:			# end-of-count, final word
 	or	t10, t7, t7	# E :
 	br	$u_final	# L0 : Latency=3
-	nop
-	nop
 
 	/* Unaligned copy entry point.  */
 	.align 4
@@ -354,9 +355,7 @@ $unaligned:
 	mskql	t6, a0, t6	# U :
 	nop
 	nop
-	nop
-1:
-	subq	a1, t4, a1	# E : sub dest misalignment from src addr
+1:	subq	a1, t4, a1	# E : sub dest misalignment from src addr
 
 	/* If source misalignment is larger than dest misalignment, we need
 	   extra startup checks to avoid SEGV.  */
diff --git a/sysdeps/alpha/stxncpy.S b/sysdeps/alpha/stxncpy.S
index 9330f6d3e6..73bcd36e47 100644
--- a/sysdeps/alpha/stxncpy.S
+++ b/sysdeps/alpha/stxncpy.S
@@ -1,4 +1,4 @@
-/* Copyright (C) 1996, 1997 Free Software Foundation, Inc.
+/* Copyright (C) 1996, 1997, 2002 Free Software Foundation, Inc.
    Contributed by Richard Henderson (rth@tamu.edu)
    This file is part of the GNU C Library.
 
@@ -183,10 +183,11 @@ $u_head:
 	or	t0, t6, t6	# e1    : mask original data for zero test
 	cmpbge	zero, t6, t7	# e0    :
 	beq	a2, $u_eocfin	# .. e1 :
-	bne	t7, $u_final	# e1    :
+	lda	t6, -1		# e0    : 
+	bne	t7, $u_final	# .. e1 :
 
-	lda	t6, -1			# e1    : mask out the bits we have
-	mskql	t6, a1, t6		# e0    :   already seen
+	mskql	t6, a1, t6		# e0    : mask out bits already seen
+	nop				# .. e1 :
 	stq_u	t0, 0(a0)		# e0    : store first output word
 	or      t6, t2, t2		# .. e1 :
 	cmpbge	zero, t2, t7		# e0    : find nulls in second partial
@@ -198,11 +199,13 @@ $u_head:
 	   of and we can set up to enter the main loop.  */
 
 	extql	t2, a1, t1	# e0    : position hi-bits of lo word
-	ldq_u	t2, 8(a1)	# .. e1 : read next high-order source word
-	addq	a1, 8, a1	# e0    :
-	cmpbge	zero, t2, t7	# e1 (stall)
-	beq	a2, $u_eoc	# e1    :
-	bne	t7, $u_eos	# e1    :
+	beq	a2, $u_eoc	# .. e1 :
+	ldq_u	t2, 8(a1)	# e0    : read next high-order source word
+	addq	a1, 8, a1	# .. e1 :
+	extqh	t2, a1, t0	# e0    : position lo-bits of hi word
+	cmpbge	zero, t2, t7	# .. e1 : test new word for eos
+	nop			# e0    :
+	bne	t7, $u_eos	# .. e1 :
 
 	/* Unaligned copy main loop.  In order to avoid reading too much,
 	   the loop is structured to detect zeros in aligned source words.
@@ -212,6 +215,7 @@ $u_head:
 	   to run as fast as possible.
 
 	   On entry to this basic block:
+	   t0 == the shifted low-order bits from the current source word
 	   t1 == the shifted high-order bits from the previous source word
 	   t2 == the unshifted current source word
 
@@ -219,18 +223,18 @@ $u_head:
 
 	.align 3
 $u_loop:
-	extqh	t2, a1, t0	# e0    : extract high bits for current word
-	addq	a1, 8, a1	# .. e1 :
-	extql	t2, a1, t3	# e0    : extract low bits for next time
-	addq	a0, 8, a0	# .. e1 :
 	or	t0, t1, t0	# e0    : current dst word now complete
-	ldq_u	t2, 0(a1)	# .. e1 : load high word for next time
-	stq_u	t0, -8(a0)	# e0    : save the current word
-	mov	t3, t1		# .. e1 :
-	subq	a2, 1, a2	# e0    :
+	subq	a2, 1, a2	# .. e1 : decrement word count
+	stq_u	t0, 0(a0)	# e0    : save the current word
+	addq	a0, 8, a0	# .. e1 :
+	extql	t2, a1, t1	# e0    : extract high bits for next time
+	beq	a2, $u_eoc	# .. e1 :
+	ldq_u	t2, 8(a1)	# e0    : load high word for next time
+	addq	a1, 8, a1	# .. e1 :
+	nop			# e0    :
 	cmpbge	zero, t2, t7	# .. e1 : test new word for eos
-	beq	a2, $u_eoc	# e1    :
-	beq	t7, $u_loop	# e1    :
+	extqh	t2, a1, t0	# e0    : extract low bits for current word
+	beq	t7, $u_loop	# .. e1 :
 
 	/* We've found a zero somewhere in the source word we just read.
 	   If it resides in the lower half, we have one (probably partial)
@@ -238,25 +242,23 @@ $u_loop:
 	   have one full and one partial word left to write out.
 
 	   On entry to this basic block:
+	   t0 == the shifted low-order bits from the current source word
 	   t1 == the shifted high-order bits from the previous source word
 	   t2 == the unshifted current source word.  */
 $u_eos:
-	extqh	t2, a1, t0	# e0    :
-	or	t0, t1, t0	# e1    : first (partial) source word complete
-
+	or	t0, t1, t0	# e0    : first (partial) source word complete
 	cmpbge	zero, t0, t7	# e0    : is the null in this first bit?
 	bne	t7, $u_final	# .. e1 (zdb)
 
 	stq_u	t0, 0(a0)	# e0    : the null was in the high-order bits
 	addq	a0, 8, a0	# .. e1 :
-	subq	a2, 1, a2	# e1    :
+	subq	a2, 1, a2	# e0    :
 
 $u_late_head_exit:
-	extql	t2, a1, t0	# .. e0 :
+	extql	t2, a1, t0	# e0    :
 	cmpbge	zero, t0, t7	# e0    :
 	or	t7, t10, t6	# e1    :
 	cmoveq	a2, t6, t7	# e0    :
-	nop			# .. e1 :
 
 	/* Take care of a final (probably partial) result word.
 	   On entry to this basic block:
@@ -279,10 +281,22 @@ $u_final:
 1:	stq_u	t0, 0(a0)	# e0    :
 	ret	(t9)		# .. e1 :
 
-$u_eoc:				# end-of-count
-	extqh	t2, a1, t0
-	or	t0, t1, t0
-	cmpbge	zero, t0, t7
+	/* Got to end-of-count before end of string.  
+	   On entry to this basic block:
+	   t1 == the shifted high-order bits from the previous source word  */
+$u_eoc:
+	and	a1, 7, t6	# e1    :
+	sll	t10, t6, t6	# e0    :
+	and	t6, 0xff, t6	# e0	:
+	bne	t6, 1f		# e1    : avoid src word load if we can
+
+	ldq_u	t2, 8(a1)	# e0    : load final src word
+	nop			# .. e1 :
+	extqh	t2, a1, t0	# e0    : extract high bits for last word
+	or	t1, t0, t1	# e1    :
+
+1:	cmpbge	zero, t1, t7
+	mov	t1, t0
 
 $u_eocfin:			# end-of-count, final word
 	or	t10, t7, t7