arch/sh64/kernel/fpu.c - pub/scm/linux/kernel/git/wtarreau/linux-2.4 - Git at Google

 /*
  * This file is subject to the terms and conditions of the GNU General Public
  * License.  See the file "COPYING" in the main directory of this archive
  * for more details.
  *
  * arch/sh64/kernel/fpu.c
  *
  * Copyright (C) 2001  Manuela Cirronis, Paolo Alberelli
  *
  * Started from SH4 version:
  *   Copyright (C) 1999, 2000  Kaz Kojima & Niibe Yutaka
  *
  */

 #include <linux/sched.h>
 #include <linux/signal.h>
 #include <asm/processor.h>
 #include <asm/user.h>
 #include <asm/io.h>

 /*
  * Initially load the FPU with signalling NANS.  This bit pattern
  * has the property that no matter whether considered as single or as
  * double precision, it still represents a signalling NAN.
  */
 #define sNAN64		0xFFFFFFFFFFFFFFFFULL
 #define sNAN32		0xFFFFFFFFUL

 static union sh_fpu_union init_fpuregs = {
 	.hard = {
 	  .fp_regs = { [0 ... 63] = sNAN32 },
 	  .fpscr = FPSCR_INIT
 	}
 };
 #if 0
 static struct sh_fpu_hard_struct init_fpuregs = {
 	{ [0 ... 63] = sNAN32 },
 	FPSCR_INIT
 };
 #endif

 inline void fpsave(struct sh_fpu_hard_struct *fpregs)
 {
 	asm volatile("fst.p     %0, (0*8),"  __p(0)  "\n\t"
 		     "fst.p     %0, (1*8),"  __p(2)  "\n\t"
 		     "fst.p     %0, (2*8),"  __p(4)  "\n\t"
 		     "fst.p     %0, (3*8),"  __p(6)  "\n\t"
 		     "fst.p     %0, (4*8),"  __p(8)  "\n\t"
 		     "fst.p     %0, (5*8),"  __p(10) "\n\t"
 		     "fst.p     %0, (6*8),"  __p(12) "\n\t"
 		     "fst.p     %0, (7*8),"  __p(14) "\n\t"
 		     "fst.p     %0, (8*8),"  __p(16) "\n\t"
 		     "fst.p     %0, (9*8),"  __p(18) "\n\t"
 		     "fst.p     %0, (10*8)," __p(20) "\n\t"
 		     "fst.p     %0, (11*8)," __p(22) "\n\t"
 		     "fst.p     %0, (12*8)," __p(24) "\n\t"
 		     "fst.p     %0, (13*8)," __p(26) "\n\t"
 		     "fst.p     %0, (14*8)," __p(28) "\n\t"
 		     "fst.p     %0, (15*8)," __p(30) "\n\t"
 		     "fst.p     %0, (16*8)," __p(32) "\n\t"
 		     "fst.p     %0, (17*8)," __p(34) "\n\t"
 		     "fst.p     %0, (18*8)," __p(36) "\n\t"
 		     "fst.p     %0, (19*8)," __p(38) "\n\t"
 		     "fst.p     %0, (20*8)," __p(40) "\n\t"
 		     "fst.p     %0, (21*8)," __p(42) "\n\t"
 		     "fst.p     %0, (22*8)," __p(44) "\n\t"
 		     "fst.p     %0, (23*8)," __p(46) "\n\t"
 		     "fst.p     %0, (24*8)," __p(48) "\n\t"
 		     "fst.p     %0, (25*8)," __p(50) "\n\t"
 		     "fst.p     %0, (26*8)," __p(52) "\n\t"
 		     "fst.p     %0, (27*8)," __p(54) "\n\t"
 		     "fst.p     %0, (28*8)," __p(56) "\n\t"
 		     "fst.p     %0, (29*8)," __p(58) "\n\t"
 		     "fst.p     %0, (30*8)," __p(60) "\n\t"
 		     "fst.p     %0, (31*8)," __p(62) "\n\t"

 		     "_fgetscr  " __f(63) 	     "\n\t"
 		     "fst.s     %0, (32*8)," __f(63) "\n\t"
 		: /* no output */
 		: "r" (fpregs)
 		: "memory");
 }


 static inline void
 fpload(struct sh_fpu_hard_struct *fpregs)
 {
 	asm volatile("fld.p     %0, (0*8),"  __p(0)  "\n\t"
 		     "fld.p     %0, (1*8),"  __p(2)  "\n\t"
 		     "fld.p     %0, (2*8),"  __p(4)  "\n\t"
 		     "fld.p     %0, (3*8),"  __p(6)  "\n\t"
 		     "fld.p     %0, (4*8),"  __p(8)  "\n\t"
 		     "fld.p     %0, (5*8),"  __p(10) "\n\t"
 		     "fld.p     %0, (6*8),"  __p(12) "\n\t"
 		     "fld.p     %0, (7*8),"  __p(14) "\n\t"
 		     "fld.p     %0, (8*8),"  __p(16) "\n\t"
 		     "fld.p     %0, (9*8),"  __p(18) "\n\t"
 		     "fld.p     %0, (10*8)," __p(20) "\n\t"
 		     "fld.p     %0, (11*8)," __p(22) "\n\t"
 		     "fld.p     %0, (12*8)," __p(24) "\n\t"
 		     "fld.p     %0, (13*8)," __p(26) "\n\t"
 		     "fld.p     %0, (14*8)," __p(28) "\n\t"
 		     "fld.p     %0, (15*8)," __p(30) "\n\t"
 		     "fld.p     %0, (16*8)," __p(32) "\n\t"
 		     "fld.p     %0, (17*8)," __p(34) "\n\t"
 		     "fld.p     %0, (18*8)," __p(36) "\n\t"
 		     "fld.p     %0, (19*8)," __p(38) "\n\t"
 		     "fld.p     %0, (20*8)," __p(40) "\n\t"
 		     "fld.p     %0, (21*8)," __p(42) "\n\t"
 		     "fld.p     %0, (22*8)," __p(44) "\n\t"
 		     "fld.p     %0, (23*8)," __p(46) "\n\t"
 		     "fld.p     %0, (24*8)," __p(48) "\n\t"
 		     "fld.p     %0, (25*8)," __p(50) "\n\t"
 		     "fld.p     %0, (26*8)," __p(52) "\n\t"
 		     "fld.p     %0, (27*8)," __p(54) "\n\t"
 		     "fld.p     %0, (28*8)," __p(56) "\n\t"
 		     "fld.p     %0, (29*8)," __p(58) "\n\t"
 		     "fld.p     %0, (30*8)," __p(60) "\n\t"

 		     "fld.s     %0, (32*8)," __f(63) "\n\t"
 		     "_fputscr  " __f(63) 	     "\n\t"

 	     	     "fld.p     %0, (31*8)," __p(62) "\n\t"
 		: /* no output */
 		: "r" (fpregs) );
 }

 void fpinit(struct sh_fpu_hard_struct *fpregs)
 {
 	*fpregs = init_fpuregs.hard;
 }

 asmlinkage void
 do_fpu_error(unsigned long ex, struct pt_regs *regs)
 {
 	struct task_struct *tsk = current;

 	regs->pc += 4;

 	tsk->thread.trap_no = 11;
 	tsk->thread.error_code = 0;
 	force_sig(SIGFPE, tsk);
 }


 asmlinkage void
 do_fpu_state_restore(unsigned long ex, struct pt_regs *regs)
 {
 	void die(const char * str, struct pt_regs * regs, long err);

 #if 0
 printk("do_fpu_state_restore (pid %d, used_math %d, last_used_math pid %d)\n",
        current->pid, current->used_math,
        last_task_used_math ? last_task_used_math->pid : -1);
 #endif

 	if (! user_mode(regs))
 		die("FPU used in kernel", regs, ex);

 	regs->sr &= ~SR_FD;

 	if (last_task_used_math == current)
 		return;

 	grab_fpu();
 	if (last_task_used_math != NULL) {
 		/* Other processes fpu state, save away */
 		fpsave(&last_task_used_math->thread.fpu.hard);
         }
         last_task_used_math = current;
         if (current->used_math) {
                 fpload(&current->thread.fpu.hard);
         } else {
 		/* First time FPU user.  */
 		fpload(&init_fpuregs.hard);
                 current->used_math = 1;
         }
 	release_fpu();
 }
	/*
	* This file is subject to the terms and conditions of the GNU General Public
	* License. See the file "COPYING" in the main directory of this archive
	* for more details.
	*
	* arch/sh64/kernel/fpu.c
	*
	* Copyright (C) 2001 Manuela Cirronis, Paolo Alberelli
	*
	* Started from SH4 version:
	* Copyright (C) 1999, 2000 Kaz Kojima & Niibe Yutaka
	*
	*/

	#include <linux/sched.h>
	#include <linux/signal.h>
	#include <asm/processor.h>
	#include <asm/user.h>
	#include <asm/io.h>

	/*
	* Initially load the FPU with signalling NANS. This bit pattern
	* has the property that no matter whether considered as single or as
	* double precision, it still represents a signalling NAN.
	*/
	#define sNAN64 0xFFFFFFFFFFFFFFFFULL
	#define sNAN32 0xFFFFFFFFUL

	static union sh_fpu_union init_fpuregs = {
	.hard = {
	.fp_regs = { [0 ... 63] = sNAN32 },
	.fpscr = FPSCR_INIT
	}
	};
	#if 0
	static struct sh_fpu_hard_struct init_fpuregs = {
	{ [0 ... 63] = sNAN32 },
	FPSCR_INIT
	};
	#endif

	inline void fpsave(struct sh_fpu_hard_struct *fpregs)
	{
	asm volatile("fst.p %0, (0*8)," __p(0) "\n\t"
	"fst.p %0, (1*8)," __p(2) "\n\t"
	"fst.p %0, (2*8)," __p(4) "\n\t"
	"fst.p %0, (3*8)," __p(6) "\n\t"
	"fst.p %0, (4*8)," __p(8) "\n\t"
	"fst.p %0, (5*8)," __p(10) "\n\t"
	"fst.p %0, (6*8)," __p(12) "\n\t"
	"fst.p %0, (7*8)," __p(14) "\n\t"
	"fst.p %0, (8*8)," __p(16) "\n\t"
	"fst.p %0, (9*8)," __p(18) "\n\t"
	"fst.p %0, (10*8)," __p(20) "\n\t"
	"fst.p %0, (11*8)," __p(22) "\n\t"
	"fst.p %0, (12*8)," __p(24) "\n\t"
	"fst.p %0, (13*8)," __p(26) "\n\t"
	"fst.p %0, (14*8)," __p(28) "\n\t"
	"fst.p %0, (15*8)," __p(30) "\n\t"
	"fst.p %0, (16*8)," __p(32) "\n\t"
	"fst.p %0, (17*8)," __p(34) "\n\t"
	"fst.p %0, (18*8)," __p(36) "\n\t"
	"fst.p %0, (19*8)," __p(38) "\n\t"
	"fst.p %0, (20*8)," __p(40) "\n\t"
	"fst.p %0, (21*8)," __p(42) "\n\t"
	"fst.p %0, (22*8)," __p(44) "\n\t"
	"fst.p %0, (23*8)," __p(46) "\n\t"
	"fst.p %0, (24*8)," __p(48) "\n\t"
	"fst.p %0, (25*8)," __p(50) "\n\t"
	"fst.p %0, (26*8)," __p(52) "\n\t"
	"fst.p %0, (27*8)," __p(54) "\n\t"
	"fst.p %0, (28*8)," __p(56) "\n\t"
	"fst.p %0, (29*8)," __p(58) "\n\t"
	"fst.p %0, (30*8)," __p(60) "\n\t"
	"fst.p %0, (31*8)," __p(62) "\n\t"

	"_fgetscr " __f(63) "\n\t"
	"fst.s %0, (32*8)," __f(63) "\n\t"
	: /* no output */
	: "r" (fpregs)
	: "memory");
	}


	static inline void
	fpload(struct sh_fpu_hard_struct *fpregs)
	{
	asm volatile("fld.p %0, (0*8)," __p(0) "\n\t"
	"fld.p %0, (1*8)," __p(2) "\n\t"
	"fld.p %0, (2*8)," __p(4) "\n\t"
	"fld.p %0, (3*8)," __p(6) "\n\t"
	"fld.p %0, (4*8)," __p(8) "\n\t"
	"fld.p %0, (5*8)," __p(10) "\n\t"
	"fld.p %0, (6*8)," __p(12) "\n\t"
	"fld.p %0, (7*8)," __p(14) "\n\t"
	"fld.p %0, (8*8)," __p(16) "\n\t"
	"fld.p %0, (9*8)," __p(18) "\n\t"
	"fld.p %0, (10*8)," __p(20) "\n\t"
	"fld.p %0, (11*8)," __p(22) "\n\t"
	"fld.p %0, (12*8)," __p(24) "\n\t"
	"fld.p %0, (13*8)," __p(26) "\n\t"
	"fld.p %0, (14*8)," __p(28) "\n\t"
	"fld.p %0, (15*8)," __p(30) "\n\t"
	"fld.p %0, (16*8)," __p(32) "\n\t"
	"fld.p %0, (17*8)," __p(34) "\n\t"
	"fld.p %0, (18*8)," __p(36) "\n\t"
	"fld.p %0, (19*8)," __p(38) "\n\t"
	"fld.p %0, (20*8)," __p(40) "\n\t"
	"fld.p %0, (21*8)," __p(42) "\n\t"
	"fld.p %0, (22*8)," __p(44) "\n\t"
	"fld.p %0, (23*8)," __p(46) "\n\t"
	"fld.p %0, (24*8)," __p(48) "\n\t"
	"fld.p %0, (25*8)," __p(50) "\n\t"
	"fld.p %0, (26*8)," __p(52) "\n\t"
	"fld.p %0, (27*8)," __p(54) "\n\t"
	"fld.p %0, (28*8)," __p(56) "\n\t"
	"fld.p %0, (29*8)," __p(58) "\n\t"
	"fld.p %0, (30*8)," __p(60) "\n\t"

	"fld.s %0, (32*8)," __f(63) "\n\t"
	"_fputscr " __f(63) "\n\t"

	"fld.p %0, (31*8)," __p(62) "\n\t"
	: /* no output */
	: "r" (fpregs) );
	}

	void fpinit(struct sh_fpu_hard_struct *fpregs)
	{
	*fpregs = init_fpuregs.hard;
	}

	asmlinkage void
	do_fpu_error(unsigned long ex, struct pt_regs *regs)
	{
	struct task_struct *tsk = current;

	regs->pc += 4;

	tsk->thread.trap_no = 11;
	tsk->thread.error_code = 0;
	force_sig(SIGFPE, tsk);
	}


	asmlinkage void
	do_fpu_state_restore(unsigned long ex, struct pt_regs *regs)
	{
	void die(const char * str, struct pt_regs * regs, long err);

	#if 0
	printk("do_fpu_state_restore (pid %d, used_math %d, last_used_math pid %d)\n",
	current->pid, current->used_math,
	last_task_used_math ? last_task_used_math->pid : -1);
	#endif

	if (! user_mode(regs))
	die("FPU used in kernel", regs, ex);

	regs->sr &= ~SR_FD;

	if (last_task_used_math == current)
	return;

	grab_fpu();
	if (last_task_used_math != NULL) {
	/* Other processes fpu state, save away */
	fpsave(&last_task_used_math->thread.fpu.hard);
	}
	last_task_used_math = current;
	if (current->used_math) {
	fpload(&current->thread.fpu.hard);
	} else {
	/* First time FPU user. */
	fpload(&init_fpuregs.hard);
	current->used_math = 1;
	}
	release_fpu();
	}