[apple/libc.git] / i386 / string / memset_pattern_sse2.s

/*
 * Copyright (c) 2005-2006 Apple Computer, Inc. All rights reserved.
 *
 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
 * 
 * This file contains Original Code and/or Modifications of Original Code
 * as defined in and that are subject to the Apple Public Source License
 * Version 2.0 (the 'License'). You may not use this file except in
 * compliance with the License. The rights granted to you under the License
 * may not be used to create, or enable the creation or redistribution of,
 * unlawful or unlicensed copies of an Apple operating system, or to
 * circumvent, violate, or enable the circumvention or violation of, any
 * terms of an Apple operating system software license agreement.
 * 
 * Please obtain a copy of the License at
 * http://www.opensource.apple.com/apsl/ and read it before using this file.
 * 
 * The Original Code and all software distributed under the License are
 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
 * Please see the License for the specific language governing rights and
 * limitations under the License.
 * 
 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
 */

#include <machine/cpu_capabilities.h>
#include <platfunc.h>

/* The common path for nonzero memset and the memset_pattern routines,
 * tuned for Pentium-M class processors with SSE2 and 64-byte cache lines.
 * This is used by the following functions:
 *
 *	void *memset(void *b, int c, size_t len);                   // when c!=0
 *	void memset_pattern4(void *b, const void *c4, size_t len);
 *	void memset_pattern8(void *b, const void *c8, size_t len);
 *	void memset_pattern16(void *b, const void *c16, size_t len);
 *
 * Note bzero() and memset() of 0 are handled separately.
 */

#define	kShort		63
#define	kVeryLong	(1024*1024)

// Initial entry from Libc with parameters passed in registers.  Although we
// correctly handle misaligned ptrs and short operands, they are inefficient.
// Therefore our caller should filter out short operands and exploit local
// knowledge (ie, original pattern length) to align the ptr if possible.
// When called, we expect:
//	%edi = ptr to memory to set (not necessarily aligned)
//	%edx = length (may be short or even 0)
//	%xmm0 = the pattern to store
// Return conditions:
//	%eax, %edi, %esi, %ecx, and %edx all trashed

	.align 5
	.private_extern _memset_pattern
_memset_pattern:
	cmpl    $(kShort),%edx		// long enough to bother aligning?
	ja	LNotShort		// yes
	jmp	LShort			// no

// Here for short operands or the end of long ones.
//      %edx = length
//      %edi = ptr (may not be not aligned)
//      %xmm0 = pattern

LUnalignedStore16:
	movdqu	%xmm0,(%edi)		// stuff in another 16 bytes
	subl	$16,%edx
	addl	$16,%edi
LShort:	
	cmpl	$16,%edx		// room for another vector?
	jge	LUnalignedStore16	// yes
LLessThan16:				// here at end of copy with < 16 bytes remaining
	test	$8,%dl			// 8-byte store required?
	jz	2f			// no
	movq	%xmm0,(%edi)		// pack in 8 low bytes
	psrldq	$8,%xmm0		// then shift vector down 8 bytes
	addl	$8,%edi
2:
	test	$4,%dl			// 4-byte store required?
	jz	3f			// no
	movd	%xmm0,(%edi)		// pack in 4 low bytes
	psrldq	$4,%xmm0		// then shift vector down 4 bytes
	addl	$4,%edi
3:
	andl	$3,%edx			// more to go?
	jz	5f			// no
	movd	%xmm0,%eax		// move remainders out into %eax
4:					// loop on up to three bytes
	movb	%al,(%edi)		// pack in next byte
	shrl	$8,%eax			// shift next byte into position
	inc	%edi
	dec	%edx
	jnz	4b
5:	ret

// Long enough to justify aligning ptr.  Note that we have to rotate the
// pattern to account for any alignment.  We do this by doing two unaligned
// stores, and then an aligned load from the middle of the two stores.
// This will stall on store forwarding alignment mismatch, and the unaligned
// stores can be pretty slow too, but the alternatives aren't any better.
// Fortunately, in most cases our caller has already aligned the ptr.
//      %edx = length (> kShort)
//      %edi = ptr (may not be aligned)
//      %xmm0 = pattern

LNotShort:
	movl    %edi,%ecx		// copy dest ptr
	negl    %ecx
	andl    $15,%ecx                // mask down to #bytes to 16-byte align
	jz	LAligned		// skip if already aligned
	movdqu	%xmm0,(%edi)		// store 16 unaligned bytes
	movdqu	%xmm0,16(%edi)		// and 16 more, to be sure we have an aligned chunk
	addl	%ecx,%edi		// now point to the aligned chunk
	subl	%ecx,%edx		// adjust remaining count
	movdqa	(%edi),%xmm0		// get the rotated pattern (probably stalling)
	addl	$16,%edi		// skip past the aligned chunk
	subl	$16,%edx

// Set up for 64-byte loops.
//      %edx = length remaining
//      %edi = ptr (aligned)
//      %xmm0 = rotated pattern

LAligned:
	movl	%edx,%ecx		// copy length remaining
	andl    $63,%edx                // mask down to residual length (0..63)
	andl    $-64,%ecx               // %ecx <- #bytes we will zero in by-64 loop
	jz	LNoMoreChunks		// no 64-byte chunks
	addl    %ecx,%edi               // increment ptr by length to move
	cmpl	$(kVeryLong),%ecx	// long enough to justify non-temporal stores?
	jge	LVeryLong		// yes
	negl    %ecx			// negate length to move
	jmp	1f

// Loop over 64-byte chunks, storing into cache.

	.align	4,0x90			// keep inner loops 16-byte aligned
1:
	movdqa  %xmm0,(%edi,%ecx)
	movdqa  %xmm0,16(%edi,%ecx)
	movdqa  %xmm0,32(%edi,%ecx)
	movdqa  %xmm0,48(%edi,%ecx)
	addl    $64,%ecx
	jne     1b

	jmp	LNoMoreChunks

// Very long operands: use non-temporal stores to bypass cache.

LVeryLong:
	negl    %ecx			// negate length to move
	jmp	1f

	.align	4,0x90			// keep inner loops 16-byte aligned
1:
	movntdq %xmm0,(%edi,%ecx)
	movntdq %xmm0,16(%edi,%ecx)
	movntdq %xmm0,32(%edi,%ecx)
	movntdq %xmm0,48(%edi,%ecx)
	addl    $64,%ecx
	jne     1b

	sfence                          // required by non-temporal stores
	jmp	LNoMoreChunks

// Handle leftovers: loop by 16.
//      %edx = length remaining (<64)
//      %edi = ptr (aligned)
//      %xmm0 = rotated pattern

LLoopBy16:
	movdqa	%xmm0,(%edi)		// pack in 16 more bytes
	subl	$16,%edx		// decrement count
	addl	$16,%edi		// increment ptr
LNoMoreChunks:
	cmpl	$16,%edx		// more to go?
	jge	LLoopBy16		// yes
	jmp	LLessThan16		// handle up to 15 remaining bytes
Commit	Line	Data
1f2f436a A	1	/*
	2	* Copyright (c) 2005-2006 Apple Computer, Inc. All rights reserved.
	3	*
	4	* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
	5	*
	6	* This file contains Original Code and/or Modifications of Original Code
	7	* as defined in and that are subject to the Apple Public Source License
	8	* Version 2.0 (the 'License'). You may not use this file except in
	9	* compliance with the License. The rights granted to you under the License
	10	* may not be used to create, or enable the creation or redistribution of,
	11	* unlawful or unlicensed copies of an Apple operating system, or to
	12	* circumvent, violate, or enable the circumvention or violation of, any
	13	* terms of an Apple operating system software license agreement.
	14	*
	15	* Please obtain a copy of the License at
	16	* http://www.opensource.apple.com/apsl/ and read it before using this file.
	17	*
	18	* The Original Code and all software distributed under the License are
	19	* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
	20	* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
	21	* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
	22	* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
	23	* Please see the License for the specific language governing rights and
	24	* limitations under the License.
	25	*
	26	* @APPLE_OSREFERENCE_LICENSE_HEADER_END@
	27	*/
	28
	29	#include <machine/cpu_capabilities.h>
	30	#include <platfunc.h>
	31
	32	/* The common path for nonzero memset and the memset_pattern routines,
	33	* tuned for Pentium-M class processors with SSE2 and 64-byte cache lines.
	34	* This is used by the following functions:
	35	*
	36	* void memset(void b, int c, size_t len); // when c!=0
	37	* void memset_pattern4(void b, const void c4, size_t len);
	38	* void memset_pattern8(void b, const void c8, size_t len);
	39	* void memset_pattern16(void b, const void c16, size_t len);
	40	*
	41	* Note bzero() and memset() of 0 are handled separately.
	42	*/
	43
	44	#define kShort 63
	45	#define kVeryLong (1024*1024)
	46
	47	// Initial entry from Libc with parameters passed in registers. Although we
	48	// correctly handle misaligned ptrs and short operands, they are inefficient.
	49	// Therefore our caller should filter out short operands and exploit local
	50	// knowledge (ie, original pattern length) to align the ptr if possible.
	51	// When called, we expect:
	52	// %edi = ptr to memory to set (not necessarily aligned)
	53	// %edx = length (may be short or even 0)
	54	// %xmm0 = the pattern to store
	55	// Return conditions:
	56	// %eax, %edi, %esi, %ecx, and %edx all trashed
	57
	58	.align 5
	59	.private_extern _memset_pattern
	60	_memset_pattern:
	61	cmpl $(kShort),%edx // long enough to bother aligning?
	62	ja LNotShort // yes
	63	jmp LShort // no
	64
65	// Here for short operands or the end of long ones.
66	// %edx = length
67	// %edi = ptr (may not be not aligned)
68	// %xmm0 = pattern
69
70	LUnalignedStore16:
71	movdqu %xmm0,(%edi) // stuff in another 16 bytes
72	subl $16,%edx
73	addl $16,%edi
74	LShort:
75	cmpl $16,%edx // room for another vector?
76	jge LUnalignedStore16 // yes
77	LLessThan16: // here at end of copy with < 16 bytes remaining
78	test $8,%dl // 8-byte store required?
79	jz 2f // no
80	movq %xmm0,(%edi) // pack in 8 low bytes
81	psrldq $8,%xmm0 // then shift vector down 8 bytes
82	addl $8,%edi
83	2:
84	test $4,%dl // 4-byte store required?
85	jz 3f // no
86	movd %xmm0,(%edi) // pack in 4 low bytes
87	psrldq $4,%xmm0 // then shift vector down 4 bytes
88	addl $4,%edi
89	3:
90	andl $3,%edx // more to go?
91	jz 5f // no
92	movd %xmm0,%eax // move remainders out into %eax
93	4: // loop on up to three bytes
94	movb %al,(%edi) // pack in next byte
95	shrl $8,%eax // shift next byte into position
96	inc %edi
97	dec %edx
98	jnz 4b
99	5: ret
100
101	// Long enough to justify aligning ptr. Note that we have to rotate the
102	// pattern to account for any alignment. We do this by doing two unaligned
103	// stores, and then an aligned load from the middle of the two stores.
104	// This will stall on store forwarding alignment mismatch, and the unaligned
105	// stores can be pretty slow too, but the alternatives aren't any better.
106	// Fortunately, in most cases our caller has already aligned the ptr.
107	// %edx = length (> kShort)
108	// %edi = ptr (may not be aligned)
109	// %xmm0 = pattern
110
111	LNotShort:
112	movl %edi,%ecx // copy dest ptr
113	negl %ecx
114	andl $15,%ecx // mask down to #bytes to 16-byte align
115	jz LAligned // skip if already aligned
116	movdqu %xmm0,(%edi) // store 16 unaligned bytes
117	movdqu %xmm0,16(%edi) // and 16 more, to be sure we have an aligned chunk
118	addl %ecx,%edi // now point to the aligned chunk
119	subl %ecx,%edx // adjust remaining count
120	movdqa (%edi),%xmm0 // get the rotated pattern (probably stalling)
121	addl $16,%edi // skip past the aligned chunk
122	subl $16,%edx
123
124	// Set up for 64-byte loops.
125	// %edx = length remaining
126	// %edi = ptr (aligned)
127	// %xmm0 = rotated pattern
128
129	LAligned:
130	movl %edx,%ecx // copy length remaining
131	andl $63,%edx // mask down to residual length (0..63)
132	andl $-64,%ecx // %ecx <- #bytes we will zero in by-64 loop
133	jz LNoMoreChunks // no 64-byte chunks
134	addl %ecx,%edi // increment ptr by length to move
135	cmpl $(kVeryLong),%ecx // long enough to justify non-temporal stores?
136	jge LVeryLong // yes
137	negl %ecx // negate length to move
138	jmp 1f
139
140	// Loop over 64-byte chunks, storing into cache.
141
142	.align 4,0x90 // keep inner loops 16-byte aligned
143	1:
144	movdqa %xmm0,(%edi,%ecx)
145	movdqa %xmm0,16(%edi,%ecx)
146	movdqa %xmm0,32(%edi,%ecx)
147	movdqa %xmm0,48(%edi,%ecx)
148	addl $64,%ecx
149	jne 1b
150
151	jmp LNoMoreChunks
152
153	// Very long operands: use non-temporal stores to bypass cache.
154
155	LVeryLong:
156	negl %ecx // negate length to move
157	jmp 1f
158
159	.align 4,0x90 // keep inner loops 16-byte aligned
160	1:
161	movntdq %xmm0,(%edi,%ecx)
162	movntdq %xmm0,16(%edi,%ecx)
163	movntdq %xmm0,32(%edi,%ecx)
164	movntdq %xmm0,48(%edi,%ecx)
165	addl $64,%ecx
166	jne 1b
167
168	sfence // required by non-temporal stores
169	jmp LNoMoreChunks
170
171	// Handle leftovers: loop by 16.
172	// %edx = length remaining (<64)
173	// %edi = ptr (aligned)
174	// %xmm0 = rotated pattern
175
176	LLoopBy16:
177	movdqa %xmm0,(%edi) // pack in 16 more bytes
178	subl $16,%edx // decrement count
179	addl $16,%edi // increment ptr
180	LNoMoreChunks:
181	cmpl $16,%edx // more to go?
182	jge LLoopBy16 // yes
183	jmp LLessThan16 // handle up to 15 remaining bytes