1/* SPDX-License-Identifier: GPL-2.0 */
  2#ifndef __ASM_ARM_DIV64
  3#define __ASM_ARM_DIV64
  4
  5#include <linux/types.h>
  6#include <asm/compiler.h>
  7
  8/*
  9 * The semantics of __div64_32() are:
 10 *
 11 * uint32_t __div64_32(uint64_t *n, uint32_t base)
 12 * {
 13 * 	uint32_t remainder = *n % base;
 14 * 	*n = *n / base;
 15 * 	return remainder;
 16 * }
 17 *
 18 * In other words, a 64-bit dividend with a 32-bit divisor producing
 19 * a 64-bit result and a 32-bit remainder.  To accomplish this optimally
 20 * we override the generic version in lib/div64.c to call our __do_div64
 21 * assembly implementation with completely non standard calling convention
 22 * for arguments and results (beware).
 23 */
 24
 25#ifdef __ARMEB__
 26#define __xh "r0"
 27#define __xl "r1"
 28#else
 29#define __xl "r0"
 30#define __xh "r1"
 31#endif
 32
 33static inline uint32_t __div64_32(uint64_t *n, uint32_t base)
 34{
 35	register unsigned int __base      asm("r4") = base;
 36	register unsigned long long __n   asm("r0") = *n;
 37	register unsigned long long __res asm("r2");
 38	register unsigned int __rem       asm(__xh);
 39	asm(	__asmeq("%0", __xh)
 40		__asmeq("%1", "r2")
 41		__asmeq("%2", "r0")
 42		__asmeq("%3", "r4")
 43		"bl	__do_div64"
 44		: "=r" (__rem), "=r" (__res)
 45		: "r" (__n), "r" (__base)
 46		: "ip", "lr", "cc");
 
 47	*n = __res;
 48	return __rem;
 49}
 50#define __div64_32 __div64_32
 51
 52#if !defined(CONFIG_AEABI)
 53
 54/*
 55 * In OABI configurations, some uses of the do_div function
 56 * cause gcc to run out of registers. To work around that,
 57 * we can force the use of the out-of-line version for
 58 * configurations that build a OABI kernel.
 59 */
 60#define do_div(n, base) __div64_32(&(n), base)
 61
 62#else
 63
 64/*
 65 * gcc versions earlier than 4.0 are simply too problematic for the
 66 * __div64_const32() code in asm-generic/div64.h. First there is
 67 * gcc PR 15089 that tend to trig on more complex constructs, spurious
 68 * .global __udivsi3 are inserted even if none of those symbols are
 69 * referenced in the generated code, and those gcc versions are not able
 70 * to do constant propagation on long long values anyway.
 71 */
 72
 73#define __div64_const32_is_OK (__GNUC__ >= 4)
 74
 75static inline uint64_t __arch_xprod_64(uint64_t m, uint64_t n, bool bias)
 76{
 77	unsigned long long res;
 78	register unsigned int tmp asm("ip") = 0;
 79
 80	if (!bias) {
 81		asm (	"umull	%Q0, %R0, %Q1, %Q2\n\t"
 82			"mov	%Q0, #0"
 83			: "=&r" (res)
 84			: "r" (m), "r" (n)
 85			: "cc");
 86	} else if (!(m & ((1ULL << 63) | (1ULL << 31)))) {
 87		res = m;
 88		asm (	"umlal	%Q0, %R0, %Q1, %Q2\n\t"
 89			"mov	%Q0, #0"
 90			: "+&r" (res)
 91			: "r" (m), "r" (n)
 92			: "cc");
 93	} else {
 94		asm (	"umull	%Q0, %R0, %Q2, %Q3\n\t"
 95			"cmn	%Q0, %Q2\n\t"
 96			"adcs	%R0, %R0, %R2\n\t"
 97			"adc	%Q0, %1, #0"
 98			: "=&r" (res), "+&r" (tmp)
 99			: "r" (m), "r" (n)
100			: "cc");
101	}
102
103	if (!(m & ((1ULL << 63) | (1ULL << 31)))) {
104		asm (	"umlal	%R0, %Q0, %R1, %Q2\n\t"
105			"umlal	%R0, %Q0, %Q1, %R2\n\t"
106			"mov	%R0, #0\n\t"
107			"umlal	%Q0, %R0, %R1, %R2"
108			: "+&r" (res)
109			: "r" (m), "r" (n)
110			: "cc");
111	} else {
112		asm (	"umlal	%R0, %Q0, %R2, %Q3\n\t"
113			"umlal	%R0, %1, %Q2, %R3\n\t"
114			"mov	%R0, #0\n\t"
115			"adds	%Q0, %1, %Q0\n\t"
116			"adc	%R0, %R0, #0\n\t"
117			"umlal	%Q0, %R0, %R2, %R3"
118			: "+&r" (res), "+&r" (tmp)
119			: "r" (m), "r" (n)
120			: "cc");
121	}
122
123	return res;
124}
125#define __arch_xprod_64 __arch_xprod_64
126
127#include <asm-generic/div64.h>
128
129#endif
130
131#endif

  1/* SPDX-License-Identifier: GPL-2.0 */
  2#ifndef __ASM_ARM_DIV64
  3#define __ASM_ARM_DIV64
  4
  5#include <linux/types.h>
  6#include <asm/compiler.h>
  7
  8/*
  9 * The semantics of __div64_32() are:
 10 *
 11 * uint32_t __div64_32(uint64_t *n, uint32_t base)
 12 * {
 13 * 	uint32_t remainder = *n % base;
 14 * 	*n = *n / base;
 15 * 	return remainder;
 16 * }
 17 *
 18 * In other words, a 64-bit dividend with a 32-bit divisor producing
 19 * a 64-bit result and a 32-bit remainder.  To accomplish this optimally
 20 * we override the generic version in lib/div64.c to call our __do_div64
 21 * assembly implementation with completely non standard calling convention
 22 * for arguments and results (beware).
 23 */
 
 
 
 
 
 
 
 
 
 24static inline uint32_t __div64_32(uint64_t *n, uint32_t base)
 25{
 26	register unsigned int __base      asm("r4") = base;
 27	register unsigned long long __n   asm("r0") = *n;
 28	register unsigned long long __res asm("r2");
 29	unsigned int __rem;
 30	asm(	__asmeq("%0", "r0")
 31		__asmeq("%1", "r2")
 32		__asmeq("%2", "r4")
 
 33		"bl	__do_div64"
 34		: "+r" (__n), "=r" (__res)
 35		: "r" (__base)
 36		: "ip", "lr", "cc");
 37	__rem = __n >> 32;
 38	*n = __res;
 39	return __rem;
 40}
 41#define __div64_32 __div64_32
 42
 43#if !defined(CONFIG_AEABI)
 44
 45/*
 46 * In OABI configurations, some uses of the do_div function
 47 * cause gcc to run out of registers. To work around that,
 48 * we can force the use of the out-of-line version for
 49 * configurations that build a OABI kernel.
 50 */
 51#define do_div(n, base) __div64_32(&(n), base)
 52
 53#else
 
 
 
 
 
 
 
 
 
 
 
 54
 55static inline uint64_t __arch_xprod_64(uint64_t m, uint64_t n, bool bias)
 56{
 57	unsigned long long res;
 58	register unsigned int tmp asm("ip") = 0;
 59
 60	if (!bias) {
 61		asm (	"umull	%Q0, %R0, %Q1, %Q2\n\t"
 62			"mov	%Q0, #0"
 63			: "=&r" (res)
 64			: "r" (m), "r" (n)
 65			: "cc");
 66	} else if (!(m & ((1ULL << 63) | (1ULL << 31)))) {
 67		res = m;
 68		asm (	"umlal	%Q0, %R0, %Q1, %Q2\n\t"
 69			"mov	%Q0, #0"
 70			: "+&r" (res)
 71			: "r" (m), "r" (n)
 72			: "cc");
 73	} else {
 74		asm (	"umull	%Q0, %R0, %Q2, %Q3\n\t"
 75			"cmn	%Q0, %Q2\n\t"
 76			"adcs	%R0, %R0, %R2\n\t"
 77			"adc	%Q0, %1, #0"
 78			: "=&r" (res), "+&r" (tmp)
 79			: "r" (m), "r" (n)
 80			: "cc");
 81	}
 82
 83	if (!(m & ((1ULL << 63) | (1ULL << 31)))) {
 84		asm (	"umlal	%R0, %Q0, %R1, %Q2\n\t"
 85			"umlal	%R0, %Q0, %Q1, %R2\n\t"
 86			"mov	%R0, #0\n\t"
 87			"umlal	%Q0, %R0, %R1, %R2"
 88			: "+&r" (res)
 89			: "r" (m), "r" (n)
 90			: "cc");
 91	} else {
 92		asm (	"umlal	%R0, %Q0, %R2, %Q3\n\t"
 93			"umlal	%R0, %1, %Q2, %R3\n\t"
 94			"mov	%R0, #0\n\t"
 95			"adds	%Q0, %1, %Q0\n\t"
 96			"adc	%R0, %R0, #0\n\t"
 97			"umlal	%Q0, %R0, %R2, %R3"
 98			: "+&r" (res), "+&r" (tmp)
 99			: "r" (m), "r" (n)
100			: "cc");
101	}
102
103	return res;
104}
105#define __arch_xprod_64 __arch_xprod_64
106
107#include <asm-generic/div64.h>
108
109#endif
110
111#endif