powerpc/ibm4xx/trap_subr.S

1.7    matt /*	$NetBSD: trap_subr.S,v 1.7 2003/02/02 20:43:23 matt Exp $	*/
1.1  simonb
1.1  simonb /*
1.1  simonb  * Copyright 2001 Wasabi Systems, Inc.
1.1  simonb  * All rights reserved.
1.1  simonb  *
1.1  simonb  * Written by Eduardo Horvath and Simon Burge for Wasabi Systems, Inc.
1.1  simonb  *
1.1  simonb  * Redistribution and use in source and binary forms, with or without
1.1  simonb  * modification, are permitted provided that the following conditions
1.1  simonb  * are met:
1.1  simonb  * 1. Redistributions of source code must retain the above copyright
1.1  simonb  *    notice, this list of conditions and the following disclaimer.
1.1  simonb  * 2. Redistributions in binary form must reproduce the above copyright
1.1  simonb  *    notice, this list of conditions and the following disclaimer in the
1.1  simonb  *    documentation and/or other materials provided with the distribution.
1.1  simonb  * 3. All advertising materials mentioning features or use of this software
1.1  simonb  *    must display the following acknowledgement:
1.1  simonb  *      This product includes software developed for the NetBSD Project by
1.1  simonb  *      Wasabi Systems, Inc.
1.1  simonb  * 4. The name of Wasabi Systems, Inc. may not be used to endorse
1.1  simonb  *    or promote products derived from this software without specific prior
1.1  simonb  *    written permission.
1.1  simonb  *
1.1  simonb  * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
1.1  simonb  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  simonb  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  simonb  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
1.1  simonb  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  simonb  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  simonb  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  simonb  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  simonb  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  simonb  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  simonb  * POSSIBILITY OF SUCH DAMAGE.
1.1  simonb  */
1.1  simonb
1.1  simonb /*
1.1  simonb  * Copyright (C) 1995, 1996 Wolfgang Solfrank.
1.1  simonb  * Copyright (C) 1995, 1996 TooLs GmbH.
1.1  simonb  * All rights reserved.
1.1  simonb  *
1.1  simonb  * Redistribution and use in source and binary forms, with or without
1.1  simonb  * modification, are permitted provided that the following conditions
1.1  simonb  * are met:
1.1  simonb  * 1. Redistributions of source code must retain the above copyright
1.1  simonb  *    notice, this list of conditions and the following disclaimer.
1.1  simonb  * 2. Redistributions in binary form must reproduce the above copyright
1.1  simonb  *    notice, this list of conditions and the following disclaimer in the
1.1  simonb  *    documentation and/or other materials provided with the distribution.
1.1  simonb  * 3. All advertising materials mentioning features or use of this software
1.1  simonb  *    must display the following acknowledgement:
1.1  simonb  *	This product includes software developed by TooLs GmbH.
1.1  simonb  * 4. The name of TooLs GmbH may not be used to endorse or promote products
1.1  simonb  *    derived from this software without specific prior written permission.
1.1  simonb  *
1.1  simonb  * THIS SOFTWARE IS PROVIDED BY TOOLS GMBH ``AS IS'' AND ANY EXPRESS OR
1.1  simonb  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1  simonb  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1  simonb  * IN NO EVENT SHALL TOOLS GMBH BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
1.1  simonb  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
1.1  simonb  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
1.1  simonb  * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
1.1  simonb  * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
1.1  simonb  * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
1.1  simonb  * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  simonb  */
1.1  simonb
1.1  simonb /*
1.1  simonb  * NOTICE: This is not a standalone file.  to use it, #include it in
1.1  simonb  * your port's locore.S, like so:
1.1  simonb  *
1.5     chs  *	#include <powerpc/ibm4xx/trap_subr.S>
1.1  simonb  */
1.1  simonb
1.1  simonb /*
1.1  simonb  * Data used during primary/secondary traps/interrupts
1.1  simonb  */
1.1  simonb #define	tempsave	0x2e0	/* primary save area for trap handling */
1.1  simonb #define	disisave	0x3e0	/* primary save area for dsi/isi traps */
1.1  simonb #define	exitsave	0x4e0	/* use this so trap return does not conflict */
1.1  simonb /*
1.1  simonb  * XXX Interrupt and spill stacks need to be per-CPU.
1.1  simonb  */
1.1  simonb
1.4  simonb #define	GET_PCB(rX)	\
1.1  simonb 	GET_CPUINFO(rX);	\
1.1  simonb 	lwz	rX,CI_CURPCB(rX)
1.1  simonb
1.1  simonb #define	STANDARD_PROLOG(savearea)	\
1.1  simonb 	mtsprg	1,1;			/* save SP */ 		\
1.1  simonb 	stmw	28,savearea(0);		/* free r28-r31 */	\
1.1  simonb 	mflr	28;			/* save LR */		\
1.1  simonb 	mfcr	29;			/* save CR */		\
1.1  simonb 	mfsrr1	31; /* Test whether we already had PR set */	\
1.1  simonb 	mtcr	31;						\
1.1  simonb 	bc	4,17,1f;	/* branch if PSL_PR is clear */	\
1.1  simonb 	GET_PCB(1);						\
1.1  simonb 	addi	1,1,USPACE;	/* stack is top of user struct */ \
1.1  simonb 1:
1.4  simonb
1.1  simonb #define	CRITICAL_PROLOG(savearea)	\
1.1  simonb 	mtsprg	1,1;			/* save SP */ 		\
1.1  simonb 	stmw	28,savearea(0);		/* free r28-r31 */	\
1.1  simonb 	mflr	28;			/* save LR */		\
1.1  simonb 	mfcr	29;			/* save CR */		\
1.1  simonb 	mfsrr2	30; /* Fake a standard trap */			\
1.1  simonb 	mtsrr0	30;						\
1.1  simonb 	mfsrr3	31; /* Test whether we already had PR set */	\
1.1  simonb 	mtsrr1	31;						\
1.1  simonb 	mtcr	31;						\
1.1  simonb 	bc	4,17,1f;	/* branch if PSL_PR is clear */	\
1.1  simonb 	GET_PCB(1);						\
1.1  simonb 	addi	1,1,USPACE;	/* stack is top of user struct */ \
1.1  simonb 1:
1.1  simonb
1.1  simonb
1.4  simonb /* Standard handler saves r1,r28-31,LR,CR, sets up the stack and calls s_trap */
1.1  simonb #define STANDARD_EXC_HANDLER(name)\
1.1  simonb 	.globl	_C_LABEL(name ## trap),_C_LABEL(name ## size) ;	\
1.1  simonb _C_LABEL(name ## trap):						\
1.1  simonb 	STANDARD_PROLOG(tempsave);				\
1.1  simonb 	bla	s_trap  ;					\
1.1  simonb _C_LABEL(name ## size) = .-_C_LABEL(name ## trap)
1.1  simonb
1.4  simonb /* Access exceptions also need DEAR and ESR saved */
1.1  simonb #define ACCESS_EXC_HANDLER(name)\
1.1  simonb 	.globl	_C_LABEL(name ## trap),_C_LABEL(name ## size) ;	\
1.1  simonb _C_LABEL(name ## trap):						\
1.1  simonb 	STANDARD_PROLOG(tempsave);				\
1.1  simonb 	mfdear	30;						\
1.1  simonb 	mfesr	31;						\
1.1  simonb 	stmw	30,16+tempsave(0);				\
1.1  simonb 	bla	s_trap  ;					\
1.1  simonb _C_LABEL(name ## size) = .-_C_LABEL(name ## trap)
1.1  simonb
1.1  simonb /* Maybe this should call ddb.... */
1.1  simonb #define CRITICAL_EXC_HANDLER(name)\
1.1  simonb 	.globl	_C_LABEL(name ## trap),_C_LABEL(name ## size) ;	\
1.1  simonb _C_LABEL(name ## trap):						\
1.1  simonb 	CRITICAL_PROLOG(tempsave);				\
1.1  simonb 	bla	s_trap  ;					\
1.1  simonb _C_LABEL(name ## size) = .-_C_LABEL(name ## trap)
1.4  simonb
1.1  simonb /*
1.1  simonb  * This code gets copied to all the trap vectors
1.4  simonb  * (except ISI/DSI, ALI, the interrupts, and possibly the debugging
1.1  simonb  * traps when using IPKDB).
1.1  simonb  */
1.1  simonb 	.text
1.1  simonb 	STANDARD_EXC_HANDLER(default)
1.1  simonb 	ACCESS_EXC_HANDLER(ali)
1.1  simonb 	ACCESS_EXC_HANDLER(dsi)
1.1  simonb 	ACCESS_EXC_HANDLER(isi)
1.1  simonb 	STANDARD_EXC_HANDLER(debug)
1.3     eeh 	CRITICAL_EXC_HANDLER(mchk)
1.1  simonb
1.1  simonb /*
1.1  simonb  * This one for the external interrupt handler.
1.1  simonb  */
1.1  simonb 	.globl	_C_LABEL(extint),_C_LABEL(extsize)
1.1  simonb _C_LABEL(extint):
1.1  simonb 	mtsprg	1,1			/* save SP */
1.1  simonb 	stmw	28,tempsave(0)		/* free r28-r31 */
1.1  simonb 	mflr	28			/* save LR */
1.1  simonb 	mfcr	29			/* save CR */
1.1  simonb 	mfxer	30			/* save XER */
1.7    matt 	GET_CPUINFO(1)
1.7    matt 	lwz	31,CI_INTRDEPTH(1)	/* were we already running on intstk? */
1.1  simonb 	addic.	31,31,1
1.7    matt 	stw	31,CI_INTRDEPTH(1)
1.7    matt 	lwz	1,CI_INTSTK(1)		/* get intstk */
1.1  simonb 	beq	1f
1.1  simonb 	mfsprg	1,1			/* yes, get old SP */
1.1  simonb 1:
1.1  simonb 	ba	extintr
1.1  simonb _C_LABEL(extsize) = .-_C_LABEL(extint)
1.1  simonb
1.4  simonb
1.1  simonb #ifdef DDB
1.1  simonb #define	ddbsave	0xde0		/* primary save area for DDB */
1.1  simonb /*
1.1  simonb  * In case of DDB we want a separate trap catcher for it
1.1  simonb  */
1.1  simonb 	.local	ddbstk
1.1  simonb 	.comm	ddbstk,INTSTK,8		/* ddb stack */
1.1  simonb
1.1  simonb 	.globl	_C_LABEL(ddblow),_C_LABEL(ddbsize)
1.1  simonb _C_LABEL(ddblow):
1.1  simonb 	mtsprg	1,1			/* save SP */
1.1  simonb 	stmw	28,ddbsave(0)		/* free r28-r31 */
1.1  simonb 	mflr	28			/* save LR */
1.1  simonb 	mfcr	29			/* save CR */
1.1  simonb 	lis	1,ddbstk+INTSTK@ha	/* get new SP */
1.1  simonb 	addi	1,1,ddbstk+INTSTK@l
1.1  simonb 	bla	ddbtrap
1.1  simonb _C_LABEL(ddbsize) = .-_C_LABEL(ddblow)
1.1  simonb #endif	/* DDB */
1.1  simonb
1.1  simonb #ifdef IPKDB
1.1  simonb #define	ipkdbsave	0xde0		/* primary save area for IPKDB */
1.1  simonb /*
1.1  simonb  * In case of IPKDB we want a separate trap catcher for it
1.1  simonb  */
1.1  simonb
1.1  simonb 	.local	ipkdbstk
1.1  simonb 	.comm	ipkdbstk,INTSTK,8		/* ipkdb stack */
1.1  simonb
1.1  simonb 	.globl	_C_LABEL(ipkdblow),_C_LABEL(ipkdbsize)
1.1  simonb _C_LABEL(ipkdblow):
1.1  simonb 	mtsprg	1,1			/* save SP */
1.1  simonb 	stmw	28,ipkdbsave(0)		/* free r28-r31 */
1.1  simonb 	mflr	28			/* save LR */
1.1  simonb 	mfcr	29			/* save CR */
1.1  simonb 	lis	1,ipkdbstk+INTSTK@ha	/* get new SP */
1.1  simonb 	addi	1,1,ipkdbstk+INTSTK@l
1.1  simonb 	bla	ipkdbtrap
1.1  simonb _C_LABEL(ipkdbsize) = .-_C_LABEL(ipkdblow)
1.1  simonb #endif	/* IPKDB */
1.1  simonb
1.1  simonb #ifdef DEBUG
1.1  simonb #define TRAP_IF_ZERO(r)	tweqi	r,0
1.1  simonb #else
1.1  simonb #define TRAP_IF_ZERO(r)
1.1  simonb #endif
1.4  simonb
1.1  simonb /*
1.1  simonb  * FRAME_SETUP assumes:
1.1  simonb  *	SPRG1		SP (1)
1.1  simonb  *	savearea	r28-r31,DEAR,ESR (DEAR & ESR only for DSI traps)
1.1  simonb  *	28		LR
1.1  simonb  *	29		CR
1.1  simonb  *	1		kernel stack
1.1  simonb  *	LR		trap type
1.1  simonb  *	SRR0/1		as at start of trap
1.1  simonb  */
1.1  simonb #define	FRAME_SETUP(savearea)						\
1.1  simonb /* Have to enable translation to allow access of kernel stack: */	\
1.1  simonb 	mfsrr0	30;							\
1.1  simonb 	mfsrr1	31;							\
1.1  simonb 	stmw	30,savearea+24(0);					\
1.1  simonb 	mfpid	30;							\
1.1  simonb 	li	31,KERNEL_PID;						\
1.1  simonb 	mtpid	31;							\
1.1  simonb 	mfmsr	31;							\
1.1  simonb 	ori	31,31,(PSL_DR|PSL_IR)@l;				\
1.1  simonb 	mtmsr	31;							\
1.1  simonb 	isync;								\
1.1  simonb 	mfsprg	31,1;							\
1.1  simonb 	stwu	31,-FRAMELEN(1);					\
1.1  simonb 	stw	30,FRAME_PID+8(1);					\
1.1  simonb 	stw	0,FRAME_0+8(1);						\
1.1  simonb 	stw	31,FRAME_1+8(1);					\
1.1  simonb 	stw	28,FRAME_LR+8(1);					\
1.1  simonb 	stw	29,FRAME_CR+8(1);					\
1.1  simonb 	lmw	28,savearea(0);						\
1.1  simonb 	stmw	2,FRAME_2+8(1);						\
1.1  simonb 	lmw	28,savearea+16(0);					\
1.1  simonb 	mfxer	3;							\
1.1  simonb 	mfctr	4;							\
1.1  simonb 	mflr	5;							\
1.1  simonb 	andi.	5,5,0xff00;						\
1.1  simonb 	stw	3,FRAME_XER+8(1);					\
1.1  simonb 	stw	4,FRAME_CTR+8(1);					\
1.1  simonb 	stw	5,FRAME_EXC+8(1);					\
1.1  simonb 	stw	28,FRAME_DEAR+8(1);					\
1.1  simonb 	stw	29,FRAME_ESR+8(1);					\
1.1  simonb 	stw	30,FRAME_SRR0+8(1);					\
1.1  simonb 	stw	31,FRAME_SRR1+8(1)
1.1  simonb
1.1  simonb #define	FRAME_LEAVE(savearea)						\
1.1  simonb /* Now restore regs: */							\
1.1  simonb 	lwz	3,FRAME_PID+8(1);					\
1.1  simonb 	lwz	4,FRAME_SRR1+8(1);					\
1.1  simonb 	bl	_C_LABEL(ctx_setup);					\
1.1  simonb 	TRAP_IF_ZERO(r3);						\
1.1  simonb 	stw	3,FRAME_PID+8(1);					\
1.1  simonb 	lmw	26,FRAME_LR+8(1);					\
1.1  simonb 	mtlr	26;							\
1.1  simonb 	mtcr	27;							\
1.1  simonb 	mtxer	28;							\
1.1  simonb 	mtctr	29;							\
1.1  simonb 	mtsrr0	30;							\
1.1  simonb 	mtsrr1	31;							\
1.1  simonb 	lmw	2,FRAME_2+8(1);						\
1.1  simonb 	lwz	0,FRAME_0+8(1);						\
1.1  simonb 	stmw	29,savearea(0);						\
1.1  simonb 	lwz	30,FRAME_PID+8(1);					\
1.1  simonb 	lwz	1,FRAME_1+8(1);						\
1.1  simonb 	mfmsr	31;							\
1.1  simonb 	li	29,(PSL_DR|PSL_IR)@l;					\
1.1  simonb 	andc	31,31,29;						\
1.1  simonb 	mfcr	29;							\
1.1  simonb 	mtcr	29;							\
1.1  simonb 	mtmsr	31;							\
1.1  simonb 	isync;								\
1.1  simonb 	TRAP_IF_ZERO(r30);						\
1.1  simonb 	mtpid	30;							\
1.1  simonb 	lmw	29,savearea(0)
1.1  simonb
1.1  simonb realtrap:	/* entry point after IPKDB is done with exception */
1.1  simonb 	/* Test whether we already had PR set */
1.4  simonb 	mfsrr1	1
1.4  simonb 	mtcr	1
1.4  simonb 	mfsprg	1,1			/* restore SP (might have been
1.4  simonb 					   overwritten) */
1.4  simonb 	bc	4,17,s_trap		/* branch if PSL_PR is false */
1.7    matt 	GET_PCB(1)
1.4  simonb 	addi	1,1,USPACE		/* stack is top of user struct */
1.1  simonb /*
1.1  simonb  * Now the common trap catching code.
1.1  simonb  */
1.1  simonb s_trap:
1.1  simonb 	FRAME_SETUP(tempsave)
1.1  simonb /* Now we can recover interrupts again: */
1.1  simonb trapagain:
1.1  simonb 	wrteei	1			/* Enable interrupts */
1.1  simonb /* Call C trap code: */
1.1  simonb 	addi	3,1,8
1.1  simonb 	bl	_C_LABEL(trap)
1.2  simonb 	.globl	_C_LABEL(trapexit)
1.2  simonb _C_LABEL(trapexit):
1.1  simonb 	/* Disable interrupts: */
1.1  simonb 	wrteei	0
1.1  simonb 	/* Test AST pending: */
1.1  simonb 	lwz	5,FRAME_SRR1+8(1)
1.1  simonb 	mtcr	5
1.1  simonb 	bc	4,17,1f			/* branch if PSL_PR is false */
1.1  simonb 	GET_CPUINFO(3)
1.1  simonb 	lwz	4,CI_ASTPENDING(3)
1.1  simonb 	andi.	4,4,1
1.1  simonb 	beq	1f
1.1  simonb 	li	6,EXC_AST
1.1  simonb 	stw	6,FRAME_EXC+8(1)
1.1  simonb 	b	trapagain
1.1  simonb 1:
1.1  simonb 	FRAME_LEAVE(exitsave)
1.1  simonb 	rfi
1.1  simonb 	ba	.	/* Protect against prefetch */
1.5     chs
1.5     chs
1.5     chs
1.5     chs 	.globl	_C_LABEL(sctrap),_C_LABEL(scsize)
1.5     chs _C_LABEL(sctrap):
1.5     chs 	STANDARD_PROLOG(tempsave);
1.5     chs 	bla	s_sctrap
1.5     chs _C_LABEL(scsize) = .-_C_LABEL(sctrap)
1.5     chs
1.5     chs s_sctrap:
1.5     chs 	FRAME_SETUP(tempsave)
1.5     chs /* Now we can recover interrupts again: */
1.5     chs 	wrteei	1			/* Enable interrupts */
1.5     chs /* Call the appropriate syscall handler: */
1.5     chs 	addi	3,1,8
1.7    matt 	GET_CPUINFO(4)
1.7    matt 	lwz	4,CI_CURLWP(4)
1.7    matt 	lwz	4,L_PROC(4)
1.7    matt 	lwz	4,P_MD_SYSCALL(4)
1.5     chs 	mtctr	4
1.5     chs 	bctrl
1.5     chs /* Disable interrupts: */
1.5     chs 	wrteei	0
1.5     chs /* Test AST pending: */
1.5     chs 	lwz	5,FRAME_SRR1+8(1)
1.5     chs 	mtcr	5
1.5     chs 	bc	4,17,1f			/* branch if PSL_PR is false */
1.5     chs 	GET_CPUINFO(3)
1.5     chs 	lwz	4,CI_ASTPENDING(3)
1.5     chs 	andi.	4,4,1
1.5     chs 	beq	1f
1.5     chs 	li	6,EXC_AST
1.5     chs 	stw	6,FRAME_EXC+8(1)
1.5     chs 	b	trapagain
1.5     chs 1:
1.5     chs 	FRAME_LEAVE(exitsave)
1.5     chs 	rfi
1.5     chs 	ba	.	/* Protect against prefetch */
1.5     chs
1.5     chs
1.1  simonb /*
1.1  simonb  * External interrupt second level handler
1.1  simonb  */
1.4  simonb
1.1  simonb #define	INTRENTER							\
1.1  simonb /* Save non-volatile registers: */					\
1.7    matt 	stwu	1,-IFRAMELEN(1);	/* temporarily */		\
1.7    matt 	stw	0,IFRAME_R0(1);						\
1.1  simonb 	mfsprg	0,1;			/* get original SP */		\
1.7    matt 	stw	0,IFRAME_R1(1);		/* and store it */		\
1.7    matt 	stw	3,IFRAME_R3(1);						\
1.7    matt 	stw	4,IFRAME_R4(1);						\
1.7    matt 	stw	5,IFRAME_R5(1);						\
1.7    matt 	stw	6,IFRAME_R6(1);						\
1.7    matt 	stw	7,IFRAME_R7(1);						\
1.7    matt 	stw	8,IFRAME_R8(1);						\
1.7    matt 	stw	9,IFRAME_R9(1);						\
1.7    matt 	stw	10,IFRAME_R10(1);					\
1.7    matt 	stw	11,IFRAME_R11(1);					\
1.7    matt 	stw	12,IFRAME_R12(1);					\
1.7    matt 	stw	28,IFRAME_LR(1);	/* saved LR */			\
1.7    matt 	stw	29,IFRAME_CR(1);	/* saved CR */			\
1.7    matt 	stw	30,IFRAME_XER(1);	/* saved XER */			\
1.1  simonb 	lmw	28,tempsave(0);		/* restore r28-r31 */		\
1.1  simonb 	mfctr	6;							\
1.7    matt 	GET_CPUINFO(5);							\
1.7    matt 	lwz	5,CI_INTRDEPTH(5);					\
1.1  simonb 	mfsrr0	4;							\
1.1  simonb 	mfsrr1	3;							\
1.7    matt 	stw	6,IFRAME_CTR(1);					\
1.7    matt 	stw	5,IFRAME_INTR_DEPTH(1);					\
1.7    matt 	stw	4,IFRAME_SRR0(1);					\
1.7    matt 	stw	3,IFRAME_SRR1(1);					\
1.1  simonb 	mfpid	0;			/* get currect PID register */  \
1.7    matt 	stw	0,IFRAME_PID(1);					\
1.7    matt 	li	0,KERNEL_PID;						\
1.1  simonb 	mtpid	0;							\
1.1  simonb /* interrupts are recoverable here, and enable translation */		\
1.1  simonb 	mfmsr	5;							\
1.1  simonb 	ori	5,5,(PSL_IR|PSL_DR);					\
1.1  simonb 	mtmsr	5;							\
1.1  simonb 	isync
1.1  simonb
1.1  simonb 	.globl	_C_LABEL(extint_call)
1.1  simonb extintr:
1.1  simonb 	INTRENTER
1.1  simonb _C_LABEL(extint_call):
1.1  simonb 	bl	_C_LABEL(extint_call)	/* to be filled in later */
1.1  simonb
1.1  simonb intr_exit:
1.1  simonb /* Disable interrupts (should already be disabled) and MMU here: */
1.1  simonb 	wrteei	0
1.1  simonb 	isync
1.7    matt 	lwz	3,IFRAME_PID(1)
1.7    matt 	lwz	4,IFRAME_SRR1(1)	/* Load srr1 */
1.1  simonb 	bl	_C_LABEL(ctx_setup)	/* Get proper ctx */
1.1  simonb 	mfmsr	5
1.1  simonb 	lis	4,(PSL_EE|PSL_DR|PSL_IR)@h
1.1  simonb 	ori	4,4,(PSL_EE|PSL_DR|PSL_IR)@l
1.1  simonb 	andc	5,5,4
1.1  simonb 	mtmsr	5
1.1  simonb 	isync
1.1  simonb 	mtpid	3			/* Load CTX */
1.4  simonb
1.1  simonb /* restore possibly overwritten registers: */
1.7    matt 	lwz	12,IFRAME_R12(1)
1.7    matt 	lwz	11,IFRAME_R11(1)
1.7    matt 	lwz	10,IFRAME_R10(1)
1.7    matt 	lwz	9,IFRAME_R9(1)
1.7    matt 	lwz	8,IFRAME_R8(1)
1.7    matt 	lwz	7,IFRAME_R7(1)
1.7    matt 	lwz	6,IFRAME_SRR1(1)
1.7    matt 	lwz	5,IFRAME_SRR0(1)
1.7    matt 	lwz	4,IFRAME_CTR(1)
1.7    matt 	lwz	3,IFRAME_XER(1)
1.1  simonb 	mtsrr1	6
1.1  simonb 	mtsrr0	5
1.1  simonb 	mtctr	4
1.1  simonb 	mtxer	3
1.1  simonb /* Returning to user mode? */
1.7    matt 	GET_CPUINFO(5)
1.7    matt 	lwz	4,CI_INTRDEPTH(5)
1.7    matt 	addi	4,4,-1			/* adjust reentrancy count */
1.7    matt 	stw	4,CI_INTRDEPTH(5)
1.1  simonb 	mtcr	6			/* saved SRR1 */
1.1  simonb 	bc	4,17,1f			/* branch if PSL_PR is false */
1.1  simonb
1.7    matt 	lwz	4,CI_ASTPENDING(5)	 /* Test AST pending */
1.1  simonb 	andi.	4,4,1
1.1  simonb 	beq	1f
1.1  simonb /* Setup for entry to realtrap: */
1.1  simonb 	lwz	3,0(1)			/* get saved SP */
1.1  simonb 	mtsprg	1,3
1.1  simonb 	li	6,EXC_AST
1.1  simonb 	stmw	28,tempsave(0)		/* establish tempsave again */
1.1  simonb 	mtlr	6
1.7    matt 	lwz	28,IFRAME_LR(1)		/* saved LR */
1.7    matt 	lwz	29,IFRAME_CR(1)		/* saved CR */
1.7    matt 	lwz	6,IFRAME_R6(1)
1.7    matt 	lwz	5,IFRAME_R5(1)
1.7    matt 	lwz	4,IFRAME_R4(1)
1.7    matt 	lwz	3,IFRAME_R3(1)
1.7    matt 	lwz	0,IFRAME_R0(1)
1.1  simonb 	b	realtrap
1.1  simonb 1:
1.1  simonb /* Here is the normal exit of extintr: */
1.7    matt 	lwz	5,IFRAME_CR(1)
1.7    matt 	lwz	6,IFRAME_LR(1)
1.1  simonb 	mtcr	5
1.1  simonb 	mtlr	6
1.7    matt 	lwz	6,IFRAME_R6(1)
1.7    matt 	lwz	5,IFRAME_R5(1)
1.7    matt 	lwz	4,IFRAME_R4(1)
1.7    matt 	lwz	3,IFRAME_R3(1)
1.7    matt 	lwz	0,IFRAME_R0(1)
1.7    matt 	lwz	1,IFRAME_R1(1)
1.1  simonb 	rfi
1.1  simonb 	ba	.	/* Protect against prefetch */
1.4  simonb
1.1  simonb /*
1.1  simonb  * PIT interrupt handler.
1.1  simonb  */
1.1  simonb 	.align	5
1.1  simonb _C_LABEL(pitint):
1.1  simonb 	mtsprg	1,1			/* save SP */
1.1  simonb 	stmw	28,tempsave(0)		/* free r28-r31 */
1.1  simonb 	mflr	28			/* save LR */
1.1  simonb 	mfcr	29			/* save CR */
1.1  simonb 	mfxer	30			/* save XER */
1.7    matt 	GET_CPUINFO(1)
1.7    matt 	lwz	31,CI_INTRDEPTH(1)	/* were we already running on intstk? */
1.1  simonb 	addic.	31,31,1
1.7    matt 	stw	31,CI_INTRDEPTH(1)
1.7    matt 	lwz	1,CI_INTSTK(1)		/* get intstk */
1.1  simonb 	beq	1f
1.1  simonb 	mfsprg	1,1			/* yes, get old SP */
1.1  simonb 1:
1.1  simonb 	INTRENTER
1.1  simonb 	addi	3,1,8			/* intr frame */
1.1  simonb 	bl	_C_LABEL(decr_intr)
1.1  simonb 	b	intr_exit
1.1  simonb
1.1  simonb /*
1.1  simonb  * FIT interrupt handler.
1.1  simonb  */
1.1  simonb 	.align	5
1.1  simonb fitint:
1.1  simonb 	mtsprg	1,1			/* save SP */
1.1  simonb 	stmw	28,tempsave(0)		/* free r28-r31 */
1.1  simonb 	mflr	28			/* save LR */
1.1  simonb 	mfcr	29			/* save CR */
1.1  simonb 	mfxer	30			/* save XER */
1.7    matt 	GET_CPUINFO(1)
1.7    matt 	lwz	31,CI_INTRDEPTH(1)	/* were we already running on intstk? */
1.1  simonb 	addic.	31,31,1
1.7    matt 	stw	31,CI_INTRDEPTH(1)
1.7    matt 	lwz	1,CI_INTSTK(1)		/* get intstk */
1.1  simonb 	beq	1f
1.1  simonb 	mfsprg	1,1			/* yes, get old SP */
1.1  simonb 1:
1.1  simonb 	INTRENTER
1.1  simonb 	addi	3,1,8			/* intr frame */
1.1  simonb 	bl	_C_LABEL(stat_intr)
1.1  simonb 	b	intr_exit
1.1  simonb
1.1  simonb #ifdef DDB
1.1  simonb /*
1.1  simonb  * Deliberate entry to ddbtrap
1.1  simonb  */
1.1  simonb 	.globl	_C_LABEL(ddb_trap)
1.1  simonb _C_LABEL(ddb_trap):
1.1  simonb 	mtsprg	1,1
1.1  simonb 	mfmsr	3
1.1  simonb 	mtsrr1	3
1.1  simonb 	wrteei	0			/* disable interrupts */
1.1  simonb 	isync
1.1  simonb 	stmw	28,ddbsave(0)
1.1  simonb 	mflr	28
1.1  simonb 	li	29,EXC_BPT
1.1  simonb 	mtlr	29
1.1  simonb 	mfcr	29
1.1  simonb 	mtsrr0	28
1.1  simonb
1.1  simonb /*
1.1  simonb  * Now the ddb trap catching code.
1.1  simonb  */
1.1  simonb ddbtrap:
1.1  simonb 	FRAME_SETUP(ddbsave)
1.1  simonb /* Call C trap code: */
1.1  simonb 	addi	3,1,8
1.1  simonb 	bl	_C_LABEL(ddb_trap_glue)
1.1  simonb 	or.	3,3,3
1.1  simonb 	bne	ddbleave
1.1  simonb /* This wasn't for DDB, so switch to real trap: */
1.1  simonb 	lwz	3,FRAME_EXC+8(1)	/* save exception */
1.1  simonb 	stw	3,ddbsave+12(0)
1.1  simonb 	FRAME_LEAVE(ddbsave)
1.1  simonb 	mtsprg	1,1			/* prepare for entrance to realtrap */
1.1  simonb 	stmw	28,tempsave(0)
1.1  simonb 	mflr	28
1.1  simonb 	mfcr	29
1.1  simonb 	lwz	31,ddbsave+12(0)
1.1  simonb 	mtlr	31
1.1  simonb 	b	realtrap
1.1  simonb ddbleave:
1.1  simonb 	FRAME_LEAVE(ddbsave)
1.1  simonb 	rfi
1.1  simonb 	ba	.	/* Protect against prefetch */
1.1  simonb #endif /* DDB */
1.1  simonb
1.1  simonb #ifdef IPKDB
1.1  simonb /*
1.1  simonb  * Deliberate entry to ipkdbtrap
1.1  simonb  */
1.1  simonb 	.globl	_C_LABEL(ipkdb_trap)
1.1  simonb _C_LABEL(ipkdb_trap):
1.1  simonb 	mtsprg	1,1
1.1  simonb 	mfmsr	3
1.1  simonb 	mtsrr1	3
1.1  simonb 	wrteei	0			/* disable interrupts */
1.1  simonb 	isync
1.1  simonb 	stmw	28,ipkdbsave(0)
1.1  simonb 	mflr	28
1.1  simonb 	li	29,EXC_BPT
1.1  simonb 	mtlr	29
1.1  simonb 	mfcr	29
1.1  simonb 	mtsrr0	28
1.1  simonb
1.1  simonb /*
1.1  simonb  * Now the ipkdb trap catching code.
1.1  simonb  */
1.1  simonb ipkdbtrap:
1.1  simonb 	FRAME_SETUP(ipkdbsave)
1.1  simonb /* Call C trap code: */
1.1  simonb 	addi	3,1,8
1.1  simonb 	bl	_C_LABEL(ipkdb_trap_glue)
1.1  simonb 	or.	3,3,3
1.1  simonb 	bne	ipkdbleave
1.1  simonb /* This wasn't for IPKDB, so switch to real trap: */
1.1  simonb 	lwz	3,FRAME_EXC+8(1)	/* save exception */
1.1  simonb 	stw	3,ipkdbsave+8(0)
1.1  simonb 	FRAME_LEAVE(ipkdbsave)
1.1  simonb 	mtsprg	1,1			/* prepare for entrance to realtrap */
1.1  simonb 	stmw	28,tempsave(0)
1.1  simonb 	mflr	28
1.1  simonb 	mfcr	29
1.1  simonb 	lwz	31,ipkdbsave+8(0)
1.1  simonb 	mtlr	31
1.1  simonb 	b	realtrap
1.1  simonb ipkdbleave:
1.1  simonb 	FRAME_LEAVE(ipkdbsave)
1.1  simonb 	rfi
1.1  simonb 	ba	.	/* Protect against prefetch */
1.1  simonb
1.1  simonb ipkdbfault:
1.1  simonb 	ba	_ipkdbfault
1.1  simonb _ipkdbfault:
1.1  simonb 	mfsrr0	3
1.1  simonb 	addi	3,3,4
1.1  simonb 	mtsrr0	3
1.1  simonb 	li	3,-1
1.1  simonb 	rfi
1.1  simonb 	ba	.	/* Protect against prefetch */
1.1  simonb
1.1  simonb /*
1.1  simonb  * int ipkdbfbyte(unsigned char *p)
1.1  simonb  */
1.1  simonb 	.globl	_C_LABEL(ipkdbfbyte)
1.1  simonb _C_LABEL(ipkdbfbyte):
1.1  simonb 	li	9,EXC_DSI		/* establish new fault routine */
1.1  simonb 	lwz	5,0(9)
1.1  simonb 	lis	6,ipkdbfault@ha
1.1  simonb 	lwz	6,ipkdbfault@l(6)
1.1  simonb 	stw	6,0(9)
1.1  simonb #ifdef	IPKDBUSERHACK
1.1  simonb #ifndef PPC_IBM4XX
1.1  simonb 	lis	8,_C_LABEL(ipkdbsr)@ha
1.1  simonb 	lwz	8,_C_LABEL(ipkdbsr)@l(8)
1.1  simonb 	mtsr	USER_SR,8
1.1  simonb 	isync
1.4  simonb #endif
1.1  simonb #endif
1.1  simonb 	dcbst	0,9			/* flush data... */
1.1  simonb 	sync
1.1  simonb 	icbi	0,9			/* and instruction caches */
1.1  simonb 	lbz	3,0(3)			/* fetch data */
1.1  simonb 	stw	5,0(9)			/* restore previous fault handler */
1.1  simonb 	dcbst	0,9			/* and flush data... */
1.1  simonb 	sync
1.1  simonb 	icbi	0,9			/* and instruction caches */
1.1  simonb 	blr
1.1  simonb
1.1  simonb /*
1.1  simonb  * int ipkdbsbyte(unsigned char *p, int c)
1.1  simonb  */
1.1  simonb 	.globl	_C_LABEL(ipkdbsbyte)
1.1  simonb _C_LABEL(ipkdbsbyte):
1.1  simonb 	li	9,EXC_DSI		/* establish new fault routine */
1.1  simonb 	lwz	5,0(9)
1.1  simonb 	lis	6,ipkdbfault@ha
1.1  simonb 	lwz	6,ipkdbfault@l(6)
1.1  simonb 	stw	6,0(9)
1.1  simonb #ifdef	IPKDBUSERHACK
1.1  simonb #ifndef PPC_IBM4XX
1.1  simonb 	lis	8,_C_LABEL(ipkdbsr)@ha
1.1  simonb 	lwz	8,_C_LABEL(ipkdbsr)@l(8)
1.1  simonb 	mtsr	USER_SR,8
1.1  simonb 	isync
1.4  simonb #endif
1.1  simonb #endif
1.1  simonb 	dcbst	0,9			/* flush data... */
1.1  simonb 	sync
1.1  simonb 	icbi	0,9			/* and instruction caches */
1.1  simonb 	mr	6,3
1.1  simonb 	xor	3,3,3
1.1  simonb 	stb	4,0(6)
1.1  simonb 	dcbst	0,6			/* Now do appropriate flushes
1.1  simonb 					   to data... */
1.1  simonb 	sync
1.1  simonb 	icbi	0,6			/* and instruction caches */
1.1  simonb 	stw	5,0(9)			/* restore previous fault handler */
1.1  simonb 	dcbst	0,9			/* and flush data... */
1.1  simonb 	sync
1.4  simonb 	icbi	0,9			/* and instruction caches */
1.1  simonb 	blr
1.1  simonb #endif	/* IPKDB */