arch/xtensa/lib/umulsidi3.S - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-or-later WITH GCC-exception-2.0 */
 #include <linux/linkage.h>
 #include <asm/asmmacro.h>
 #include <asm/core.h>

 #if XCHAL_HAVE_MUL16 || XCHAL_HAVE_MUL32 || XCHAL_HAVE_MAC16
 #define XCHAL_NO_MUL 0
 #else
 #define XCHAL_NO_MUL 1
 #endif

 ENTRY(__umulsidi3)

 #ifdef __XTENSA_CALL0_ABI__
 	abi_entry(32)
 	s32i	a12, sp, 16
 	s32i	a13, sp, 20
 	s32i	a14, sp, 24
 	s32i	a15, sp, 28
 #elif XCHAL_NO_MUL
 	/* This is not really a leaf function; allocate enough stack space
 	   to allow CALL12s to a helper function.  */
 	abi_entry(32)
 #else
 	abi_entry_default
 #endif

 #ifdef __XTENSA_EB__
 #define wh a2
 #define wl a3
 #else
 #define wh a3
 #define wl a2
 #endif /* __XTENSA_EB__ */

 	/* This code is taken from the mulsf3 routine in ieee754-sf.S.
 	   See more comments there.  */

 #if XCHAL_HAVE_MUL32_HIGH
 	mull	a6, a2, a3
 	muluh	wh, a2, a3
 	mov	wl, a6

 #else /* ! MUL32_HIGH */

 #if defined(__XTENSA_CALL0_ABI__) && XCHAL_NO_MUL
 	/* a0 and a8 will be clobbered by calling the multiply function
 	   but a8 is not used here and need not be saved.  */
 	s32i	a0, sp, 0
 #endif

 #if XCHAL_HAVE_MUL16 || XCHAL_HAVE_MUL32

 #define a2h a4
 #define a3h a5

 	/* Get the high halves of the inputs into registers.  */
 	srli	a2h, a2, 16
 	srli	a3h, a3, 16

 #define a2l a2
 #define a3l a3

 #if XCHAL_HAVE_MUL32 && !XCHAL_HAVE_MUL16
 	/* Clear the high halves of the inputs.  This does not matter
 	   for MUL16 because the high bits are ignored.  */
 	extui	a2, a2, 0, 16
 	extui	a3, a3, 0, 16
 #endif
 #endif /* MUL16 || MUL32 */


 #if XCHAL_HAVE_MUL16

 #define do_mul(dst, xreg, xhalf, yreg, yhalf) \
 	mul16u	dst, xreg ## xhalf, yreg ## yhalf

 #elif XCHAL_HAVE_MUL32

 #define do_mul(dst, xreg, xhalf, yreg, yhalf) \
 	mull	dst, xreg ## xhalf, yreg ## yhalf

 #elif XCHAL_HAVE_MAC16

 /* The preprocessor insists on inserting a space when concatenating after
    a period in the definition of do_mul below.  These macros are a workaround
    using underscores instead of periods when doing the concatenation.  */
 #define umul_aa_ll umul.aa.ll
 #define umul_aa_lh umul.aa.lh
 #define umul_aa_hl umul.aa.hl
 #define umul_aa_hh umul.aa.hh

 #define do_mul(dst, xreg, xhalf, yreg, yhalf) \
 	umul_aa_ ## xhalf ## yhalf	xreg, yreg; \
 	rsr	dst, ACCLO

 #else /* no multiply hardware */

 #define set_arg_l(dst, src) \
 	extui	dst, src, 0, 16
 #define set_arg_h(dst, src) \
 	srli	dst, src, 16

 #ifdef __XTENSA_CALL0_ABI__
 #define do_mul(dst, xreg, xhalf, yreg, yhalf) \
 	set_arg_ ## xhalf (a13, xreg); \
 	set_arg_ ## yhalf (a14, yreg); \
 	call0	.Lmul_mulsi3; \
 	mov	dst, a12
 #else
 #define do_mul(dst, xreg, xhalf, yreg, yhalf) \
 	set_arg_ ## xhalf (a14, xreg); \
 	set_arg_ ## yhalf (a15, yreg); \
 	call12	.Lmul_mulsi3; \
 	mov	dst, a14
 #endif /* __XTENSA_CALL0_ABI__ */

 #endif /* no multiply hardware */

 	/* Add pp1 and pp2 into a6 with carry-out in a9.  */
 	do_mul(a6, a2, l, a3, h)	/* pp 1 */
 	do_mul(a11, a2, h, a3, l)	/* pp 2 */
 	movi	a9, 0
 	add	a6, a6, a11
 	bgeu	a6, a11, 1f
 	addi	a9, a9, 1
 1:
 	/* Shift the high half of a9/a6 into position in a9.  Note that
 	   this value can be safely incremented without any carry-outs.  */
 	ssai	16
 	src	a9, a9, a6

 	/* Compute the low word into a6.  */
 	do_mul(a11, a2, l, a3, l)	/* pp 0 */
 	sll	a6, a6
 	add	a6, a6, a11
 	bgeu	a6, a11, 1f
 	addi	a9, a9, 1
 1:
 	/* Compute the high word into wh.  */
 	do_mul(wh, a2, h, a3, h)	/* pp 3 */
 	add	wh, wh, a9
 	mov	wl, a6

 #endif /* !MUL32_HIGH */

 #if defined(__XTENSA_CALL0_ABI__) && XCHAL_NO_MUL
 	/* Restore the original return address.  */
 	l32i	a0, sp, 0
 #endif
 #ifdef __XTENSA_CALL0_ABI__
 	l32i	a12, sp, 16
 	l32i	a13, sp, 20
 	l32i	a14, sp, 24
 	l32i	a15, sp, 28
 	abi_ret(32)
 #else
 	abi_ret_default
 #endif

 #if XCHAL_NO_MUL

 	.macro	do_addx2 dst, as, at, tmp
 #if XCHAL_HAVE_ADDX
 	addx2	\dst, \as, \at
 #else
 	slli	\tmp, \as, 1
 	add	\dst, \tmp, \at
 #endif
 	.endm

 	.macro	do_addx4 dst, as, at, tmp
 #if XCHAL_HAVE_ADDX
 	addx4	\dst, \as, \at
 #else
 	slli	\tmp, \as, 2
 	add	\dst, \tmp, \at
 #endif
 	.endm

 	.macro	do_addx8 dst, as, at, tmp
 #if XCHAL_HAVE_ADDX
 	addx8	\dst, \as, \at
 #else
 	slli	\tmp, \as, 3
 	add	\dst, \tmp, \at
 #endif
 	.endm

 	/* For Xtensa processors with no multiply hardware, this simplified
 	   version of _mulsi3 is used for multiplying 16-bit chunks of
 	   the floating-point mantissas.  When using CALL0, this function
 	   uses a custom ABI: the inputs are passed in a13 and a14, the
 	   result is returned in a12, and a8 and a15 are clobbered.  */
 	.align	4
 .Lmul_mulsi3:
 	abi_entry_default

 	.macro mul_mulsi3_body dst, src1, src2, tmp1, tmp2
 	movi	\dst, 0
 1:	add	\tmp1, \src2, \dst
 	extui	\tmp2, \src1, 0, 1
 	movnez	\dst, \tmp1, \tmp2

 	do_addx2 \tmp1, \src2, \dst, \tmp1
 	extui	\tmp2, \src1, 1, 1
 	movnez	\dst, \tmp1, \tmp2

 	do_addx4 \tmp1, \src2, \dst, \tmp1
 	extui	\tmp2, \src1, 2, 1
 	movnez	\dst, \tmp1, \tmp2

 	do_addx8 \tmp1, \src2, \dst, \tmp1
 	extui	\tmp2, \src1, 3, 1
 	movnez	\dst, \tmp1, \tmp2

 	srli	\src1, \src1, 4
 	slli	\src2, \src2, 4
 	bnez	\src1, 1b
 	.endm

 #ifdef __XTENSA_CALL0_ABI__
 	mul_mulsi3_body a12, a13, a14, a15, a8
 #else
 	/* The result will be written into a2, so save that argument in a4.  */
 	mov	a4, a2
 	mul_mulsi3_body a2, a4, a3, a5, a6
 #endif
 	abi_ret_default
 #endif /* XCHAL_NO_MUL */

 ENDPROC(__umulsidi3)
 EXPORT_SYMBOL(__umulsidi3)
	/* SPDX-License-Identifier: GPL-2.0-or-later WITH GCC-exception-2.0 */
	#include <linux/linkage.h>
	#include <asm/asmmacro.h>
	#include <asm/core.h>

	#if XCHAL_HAVE_MUL16 \|\| XCHAL_HAVE_MUL32 \|\| XCHAL_HAVE_MAC16
	#define XCHAL_NO_MUL 0
	#else
	#define XCHAL_NO_MUL 1
	#endif

	ENTRY(__umulsidi3)

	#ifdef __XTENSA_CALL0_ABI__
	abi_entry(32)
	s32i a12, sp, 16
	s32i a13, sp, 20
	s32i a14, sp, 24
	s32i a15, sp, 28
	#elif XCHAL_NO_MUL
	/* This is not really a leaf function; allocate enough stack space
	to allow CALL12s to a helper function. */
	abi_entry(32)
	#else
	abi_entry_default
	#endif

	#ifdef __XTENSA_EB__
	#define wh a2
	#define wl a3
	#else
	#define wh a3
	#define wl a2
	#endif /* __XTENSA_EB__ */

	/* This code is taken from the mulsf3 routine in ieee754-sf.S.
	See more comments there. */

	#if XCHAL_HAVE_MUL32_HIGH
	mull a6, a2, a3
	muluh wh, a2, a3
	mov wl, a6

	#else /* ! MUL32_HIGH */

	#if defined(__XTENSA_CALL0_ABI__) && XCHAL_NO_MUL
	/* a0 and a8 will be clobbered by calling the multiply function
	but a8 is not used here and need not be saved. */
	s32i a0, sp, 0
	#endif

	#if XCHAL_HAVE_MUL16 \|\| XCHAL_HAVE_MUL32

	#define a2h a4
	#define a3h a5

	/* Get the high halves of the inputs into registers. */
	srli a2h, a2, 16
	srli a3h, a3, 16

	#define a2l a2
	#define a3l a3

	#if XCHAL_HAVE_MUL32 && !XCHAL_HAVE_MUL16
	/* Clear the high halves of the inputs. This does not matter
	for MUL16 because the high bits are ignored. */
	extui a2, a2, 0, 16
	extui a3, a3, 0, 16
	#endif
	#endif /* MUL16 \|\| MUL32 */


	#if XCHAL_HAVE_MUL16

	#define do_mul(dst, xreg, xhalf, yreg, yhalf) \
	mul16u dst, xreg ## xhalf, yreg ## yhalf

	#elif XCHAL_HAVE_MUL32

	#define do_mul(dst, xreg, xhalf, yreg, yhalf) \
	mull dst, xreg ## xhalf, yreg ## yhalf

	#elif XCHAL_HAVE_MAC16

	/* The preprocessor insists on inserting a space when concatenating after
	a period in the definition of do_mul below. These macros are a workaround
	using underscores instead of periods when doing the concatenation. */
	#define umul_aa_ll umul.aa.ll
	#define umul_aa_lh umul.aa.lh
	#define umul_aa_hl umul.aa.hl
	#define umul_aa_hh umul.aa.hh

	#define do_mul(dst, xreg, xhalf, yreg, yhalf) \
	umul_aa_ ## xhalf ## yhalf xreg, yreg; \
	rsr dst, ACCLO

	#else /* no multiply hardware */

	#define set_arg_l(dst, src) \
	extui dst, src, 0, 16
	#define set_arg_h(dst, src) \
	srli dst, src, 16

	#ifdef __XTENSA_CALL0_ABI__
	#define do_mul(dst, xreg, xhalf, yreg, yhalf) \
	set_arg_ ## xhalf (a13, xreg); \
	set_arg_ ## yhalf (a14, yreg); \
	call0 .Lmul_mulsi3; \
	mov dst, a12
	#else
	#define do_mul(dst, xreg, xhalf, yreg, yhalf) \
	set_arg_ ## xhalf (a14, xreg); \
	set_arg_ ## yhalf (a15, yreg); \
	call12 .Lmul_mulsi3; \
	mov dst, a14
	#endif /* __XTENSA_CALL0_ABI__ */

	#endif /* no multiply hardware */

	/* Add pp1 and pp2 into a6 with carry-out in a9. */
	do_mul(a6, a2, l, a3, h) /* pp 1 */
	do_mul(a11, a2, h, a3, l) /* pp 2 */
	movi a9, 0
	add a6, a6, a11
	bgeu a6, a11, 1f
	addi a9, a9, 1
	1:
	/* Shift the high half of a9/a6 into position in a9. Note that
	this value can be safely incremented without any carry-outs. */
	ssai 16
	src a9, a9, a6

	/* Compute the low word into a6. */
	do_mul(a11, a2, l, a3, l) /* pp 0 */
	sll a6, a6
	add a6, a6, a11
	bgeu a6, a11, 1f
	addi a9, a9, 1
	1:
	/* Compute the high word into wh. */
	do_mul(wh, a2, h, a3, h) /* pp 3 */
	add wh, wh, a9
	mov wl, a6

	#endif /* !MUL32_HIGH */

	#if defined(__XTENSA_CALL0_ABI__) && XCHAL_NO_MUL
	/* Restore the original return address. */
	l32i a0, sp, 0
	#endif
	#ifdef __XTENSA_CALL0_ABI__
	l32i a12, sp, 16
	l32i a13, sp, 20
	l32i a14, sp, 24
	l32i a15, sp, 28
	abi_ret(32)
	#else
	abi_ret_default
	#endif

	#if XCHAL_NO_MUL

	.macro do_addx2 dst, as, at, tmp
	#if XCHAL_HAVE_ADDX
	addx2 \dst, \as, \at
	#else
	slli \tmp, \as, 1
	add \dst, \tmp, \at
	#endif
	.endm

	.macro do_addx4 dst, as, at, tmp
	#if XCHAL_HAVE_ADDX
	addx4 \dst, \as, \at
	#else
	slli \tmp, \as, 2
	add \dst, \tmp, \at
	#endif
	.endm

	.macro do_addx8 dst, as, at, tmp
	#if XCHAL_HAVE_ADDX
	addx8 \dst, \as, \at
	#else
	slli \tmp, \as, 3
	add \dst, \tmp, \at
	#endif
	.endm

	/* For Xtensa processors with no multiply hardware, this simplified
	version of _mulsi3 is used for multiplying 16-bit chunks of
	the floating-point mantissas. When using CALL0, this function
	uses a custom ABI: the inputs are passed in a13 and a14, the
	result is returned in a12, and a8 and a15 are clobbered. */
	.align 4
	.Lmul_mulsi3:
	abi_entry_default

	.macro mul_mulsi3_body dst, src1, src2, tmp1, tmp2
	movi \dst, 0
	1: add \tmp1, \src2, \dst
	extui \tmp2, \src1, 0, 1
	movnez \dst, \tmp1, \tmp2

	do_addx2 \tmp1, \src2, \dst, \tmp1
	extui \tmp2, \src1, 1, 1
	movnez \dst, \tmp1, \tmp2

	do_addx4 \tmp1, \src2, \dst, \tmp1
	extui \tmp2, \src1, 2, 1
	movnez \dst, \tmp1, \tmp2

	do_addx8 \tmp1, \src2, \dst, \tmp1
	extui \tmp2, \src1, 3, 1
	movnez \dst, \tmp1, \tmp2

	srli \src1, \src1, 4
	slli \src2, \src2, 4
	bnez \src1, 1b
	.endm

	#ifdef __XTENSA_CALL0_ABI__
	mul_mulsi3_body a12, a13, a14, a15, a8
	#else
	/* The result will be written into a2, so save that argument in a4. */
	mov a4, a2
	mul_mulsi3_body a2, a4, a3, a5, a6
	#endif
	abi_ret_default
	#endif /* XCHAL_NO_MUL */

	ENDPROC(__umulsidi3)
	EXPORT_SYMBOL(__umulsidi3)