arch/arm/include/asm/div64.h - linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0 */
 #ifndef __ASM_ARM_DIV64
 #define __ASM_ARM_DIV64

 #include <linux/types.h>
 #include <asm/compiler.h>

 /*
  * The semantics of __div64_32() are:
  *
  * uint32_t __div64_32(uint64_t *n, uint32_t base)
  * {
  * 	uint32_t remainder = *n % base;
  * 	*n = *n / base;
  * 	return remainder;
  * }
  *
  * In other words, a 64-bit dividend with a 32-bit divisor producing
  * a 64-bit result and a 32-bit remainder.  To accomplish this optimally
  * we override the generic version in lib/div64.c to call our __do_div64
  * assembly implementation with completely non standard calling convention
  * for arguments and results (beware).
  */
 static inline uint32_t __div64_32(uint64_t *n, uint32_t base)
 {
 	register unsigned int __base      asm("r4") = base;
 	register unsigned long long __n   asm("r0") = *n;
 	register unsigned long long __res asm("r2");
 	unsigned int __rem;
 	asm(	__asmeq("%0", "r0")
 		__asmeq("%1", "r2")
 		__asmeq("%2", "r4")
 		"bl	__do_div64"
 		: "+r" (__n), "=r" (__res)
 		: "r" (__base)
 		: "ip", "lr", "cc");
 	__rem = __n >> 32;
 	*n = __res;
 	return __rem;
 }
 #define __div64_32 __div64_32

 #if !defined(CONFIG_AEABI)

 /*
  * In OABI configurations, some uses of the do_div function
  * cause gcc to run out of registers. To work around that,
  * we can force the use of the out-of-line version for
  * configurations that build a OABI kernel.
  */
 #define do_div(n, base) __div64_32(&(n), base)

 #else

 static inline uint64_t __arch_xprod_64(uint64_t m, uint64_t n, bool bias)
 {
 	unsigned long long res;
 	register unsigned int tmp asm("ip") = 0;

 	if (!bias) {
 		asm (	"umull	%Q0, %R0, %Q1, %Q2\n\t"
 			"mov	%Q0, #0"
 			: "=&r" (res)
 			: "r" (m), "r" (n)
 			: "cc");
 	} else if (!(m & ((1ULL << 63) | (1ULL << 31)))) {
 		res = m;
 		asm (	"umlal	%Q0, %R0, %Q1, %Q2\n\t"
 			"mov	%Q0, #0"
 			: "+&r" (res)
 			: "r" (m), "r" (n)
 			: "cc");
 	} else {
 		asm (	"umull	%Q0, %R0, %Q2, %Q3\n\t"
 			"cmn	%Q0, %Q2\n\t"
 			"adcs	%R0, %R0, %R2\n\t"
 			"adc	%Q0, %1, #0"
 			: "=&r" (res), "+&r" (tmp)
 			: "r" (m), "r" (n)
 			: "cc");
 	}

 	if (!(m & ((1ULL << 63) | (1ULL << 31)))) {
 		asm (	"umlal	%R0, %Q0, %R1, %Q2\n\t"
 			"umlal	%R0, %Q0, %Q1, %R2\n\t"
 			"mov	%R0, #0\n\t"
 			"umlal	%Q0, %R0, %R1, %R2"
 			: "+&r" (res)
 			: "r" (m), "r" (n)
 			: "cc");
 	} else {
 		asm (	"umlal	%R0, %Q0, %R2, %Q3\n\t"
 			"umlal	%R0, %1, %Q2, %R3\n\t"
 			"mov	%R0, #0\n\t"
 			"adds	%Q0, %1, %Q0\n\t"
 			"adc	%R0, %R0, #0\n\t"
 			"umlal	%Q0, %R0, %R2, %R3"
 			: "+&r" (res), "+&r" (tmp)
 			: "r" (m), "r" (n)
 			: "cc");
 	}

 	return res;
 }
 #define __arch_xprod_64 __arch_xprod_64

 #include <asm-generic/div64.h>

 #endif

 #endif
	/* SPDX-License-Identifier: GPL-2.0 */
	#ifndef __ASM_ARM_DIV64
	#define __ASM_ARM_DIV64

	#include <linux/types.h>
	#include <asm/compiler.h>

	/*
	* The semantics of __div64_32() are:
	*
	* uint32_t __div64_32(uint64_t *n, uint32_t base)
	* {
	* uint32_t remainder = *n % base;
	* n = n / base;
	* return remainder;
	* }
	*
	* In other words, a 64-bit dividend with a 32-bit divisor producing
	* a 64-bit result and a 32-bit remainder. To accomplish this optimally
	* we override the generic version in lib/div64.c to call our __do_div64
	* assembly implementation with completely non standard calling convention
	* for arguments and results (beware).
	*/
	static inline uint32_t __div64_32(uint64_t *n, uint32_t base)
	{
	register unsigned int __base asm("r4") = base;
	register unsigned long long __n asm("r0") = *n;
	register unsigned long long __res asm("r2");
	unsigned int __rem;
	asm( __asmeq("%0", "r0")
	__asmeq("%1", "r2")
	__asmeq("%2", "r4")
	"bl __do_div64"
	: "+r" (__n), "=r" (__res)
	: "r" (__base)
	: "ip", "lr", "cc");
	__rem = __n >> 32;
	*n = __res;
	return __rem;
	}
	#define __div64_32 __div64_32

	#if !defined(CONFIG_AEABI)

	/*
	* In OABI configurations, some uses of the do_div function
	* cause gcc to run out of registers. To work around that,
	* we can force the use of the out-of-line version for
	* configurations that build a OABI kernel.
	*/
	#define do_div(n, base) __div64_32(&(n), base)

	#else

	static inline uint64_t __arch_xprod_64(uint64_t m, uint64_t n, bool bias)
	{
	unsigned long long res;
	register unsigned int tmp asm("ip") = 0;

	if (!bias) {
	asm ( "umull %Q0, %R0, %Q1, %Q2\n\t"
	"mov %Q0, #0"
	: "=&r" (res)
	: "r" (m), "r" (n)
	: "cc");
	} else if (!(m & ((1ULL << 63) \| (1ULL << 31)))) {
	res = m;
	asm ( "umlal %Q0, %R0, %Q1, %Q2\n\t"
	"mov %Q0, #0"
	: "+&r" (res)
	: "r" (m), "r" (n)
	: "cc");
	} else {
	asm ( "umull %Q0, %R0, %Q2, %Q3\n\t"
	"cmn %Q0, %Q2\n\t"
	"adcs %R0, %R0, %R2\n\t"
	"adc %Q0, %1, #0"
	: "=&r" (res), "+&r" (tmp)
	: "r" (m), "r" (n)
	: "cc");
	}

	if (!(m & ((1ULL << 63) \| (1ULL << 31)))) {
	asm ( "umlal %R0, %Q0, %R1, %Q2\n\t"
	"umlal %R0, %Q0, %Q1, %R2\n\t"
	"mov %R0, #0\n\t"
	"umlal %Q0, %R0, %R1, %R2"
	: "+&r" (res)
	: "r" (m), "r" (n)
	: "cc");
	} else {
	asm ( "umlal %R0, %Q0, %R2, %Q3\n\t"
	"umlal %R0, %1, %Q2, %R3\n\t"
	"mov %R0, #0\n\t"
	"adds %Q0, %1, %Q0\n\t"
	"adc %R0, %R0, #0\n\t"
	"umlal %Q0, %R0, %R2, %R3"
	: "+&r" (res), "+&r" (tmp)
	: "r" (m), "r" (n)
	: "cc");
	}

	return res;
	}
	#define __arch_xprod_64 __arch_xprod_64

	#include <asm-generic/div64.h>

	#endif

	#endif