/* $FreeBSD$ */ /* $NetBSD: trap_subr.S,v 1.20 2002/04/22 23:20:08 kleink Exp $ */ /*- * Copyright (C) 1995, 1996 Wolfgang Solfrank. * Copyright (C) 1995, 1996 TooLs GmbH. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by TooLs GmbH. * 4. The name of TooLs GmbH may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY TOOLS GMBH ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL TOOLS GMBH BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * NOTICE: This is not a standalone file. to use it, #include it in * your port's locore.S, like so: * * #include */ /* * Save/restore segment registers */ #define RESTORE_SRS(pmap,sr) mtsr 0,sr; \ lwz sr,1*4(pmap); mtsr 1,sr; \ lwz sr,2*4(pmap); mtsr 2,sr; \ lwz sr,3*4(pmap); mtsr 3,sr; \ lwz sr,4*4(pmap); mtsr 4,sr; \ lwz sr,5*4(pmap); mtsr 5,sr; \ lwz sr,6*4(pmap); mtsr 6,sr; \ lwz sr,7*4(pmap); mtsr 7,sr; \ lwz sr,8*4(pmap); mtsr 8,sr; \ lwz sr,9*4(pmap); mtsr 9,sr; \ lwz sr,10*4(pmap); mtsr 10,sr; \ lwz sr,11*4(pmap); mtsr 11,sr; \ lwz sr,12*4(pmap); mtsr 12,sr; \ lwz sr,13*4(pmap); mtsr 13,sr; \ lwz sr,14*4(pmap); mtsr 14,sr; \ lwz sr,15*4(pmap); mtsr 15,sr; isync; /* * User SRs are loaded through a pointer to the current pmap. */ #define RESTORE_USER_SRS(pmap,sr) \ GET_CPUINFO(pmap); \ lwz pmap,PC_CURPMAP(pmap); \ lwzu sr,PM_SR(pmap); \ RESTORE_SRS(pmap,sr) /* * Kernel SRs are loaded directly from kernel_pmap_ */ #define RESTORE_KERN_SRS(pmap,sr) \ lis pmap,CNAME(kernel_pmap_store)@ha; \ lwzu sr,CNAME(kernel_pmap_store)+PM_SR@l(pmap); \ RESTORE_SRS(pmap,sr) /* * FRAME_SETUP assumes: * SPRG1 SP (1) * SPRG3 trap type * savearea r28-r31,DAR,DSISR (DAR & DSISR only for DSI traps) * r28 LR * r29 CR * r30 scratch * r31 scratch * r1 kernel stack * SRR0/1 as at start of trap */ #define FRAME_SETUP(savearea) \ /* Have to enable translation to allow access of kernel stack: */ \ GET_CPUINFO(%r31); \ mfsrr0 %r30; \ stw %r30,(savearea+CPUSAVE_SRR0)(%r31); /* save SRR0 */ \ mfsrr1 %r30; \ stw %r30,(savearea+CPUSAVE_SRR1)(%r31); /* save SRR1 */ \ mfmsr %r30; \ ori %r30,%r30,(PSL_DR|PSL_IR|PSL_RI)@l; /* relocation on */ \ mtmsr %r30; /* stack can now be accessed */ \ isync; \ mfsprg1 %r31; /* get saved SP */ \ stwu %r31,-FRAMELEN(%r1); /* save it in the callframe */ \ stw %r0, FRAME_0+8(%r1); /* save r0 in the trapframe */ \ stw %r31,FRAME_1+8(%r1); /* save SP " " */ \ stw %r2, FRAME_2+8(%r1); /* save r2 " " */ \ stw %r28,FRAME_LR+8(%r1); /* save LR " " */ \ stw %r29,FRAME_CR+8(%r1); /* save CR " " */ \ GET_CPUINFO(%r2); \ lwz %r28,(savearea+CPUSAVE_R28)(%r2); /* get saved r28 */ \ lwz %r29,(savearea+CPUSAVE_R29)(%r2); /* get saved r29 */ \ lwz %r30,(savearea+CPUSAVE_R30)(%r2); /* get saved r30 */ \ lwz %r31,(savearea+CPUSAVE_R31)(%r2); /* get saved r31 */ \ stw %r3, FRAME_3+8(%r1); /* save r3-r31 */ \ stw %r4, FRAME_4+8(%r1); \ stw %r5, FRAME_5+8(%r1); \ stw %r6, FRAME_6+8(%r1); \ stw %r7, FRAME_7+8(%r1); \ stw %r8, FRAME_8+8(%r1); \ stw %r9, FRAME_9+8(%r1); \ stw %r10, FRAME_10+8(%r1); \ stw %r11, FRAME_11+8(%r1); \ stw %r12, FRAME_12+8(%r1); \ stw %r13, FRAME_13+8(%r1); \ stw %r14, FRAME_14+8(%r1); \ stw %r15, FRAME_15+8(%r1); \ stw %r16, FRAME_16+8(%r1); \ stw %r17, FRAME_17+8(%r1); \ stw %r18, FRAME_18+8(%r1); \ stw %r19, FRAME_19+8(%r1); \ stw %r20, FRAME_20+8(%r1); \ stw %r21, FRAME_21+8(%r1); \ stw %r22, FRAME_22+8(%r1); \ stw %r23, FRAME_23+8(%r1); \ stw %r24, FRAME_24+8(%r1); \ stw %r25, FRAME_25+8(%r1); \ stw %r26, FRAME_26+8(%r1); \ stw %r27, FRAME_27+8(%r1); \ stw %r28, FRAME_28+8(%r1); \ stw %r29, FRAME_29+8(%r1); \ stw %r30, FRAME_30+8(%r1); \ stw %r31, FRAME_31+8(%r1); \ lwz %r28,(savearea+CPUSAVE_AIM_DAR)(%r2); /* saved DAR */ \ lwz %r29,(savearea+CPUSAVE_AIM_DSISR)(%r2);/* saved DSISR */\ lwz %r30,(savearea+CPUSAVE_SRR0)(%r2); /* saved SRR0 */ \ lwz %r31,(savearea+CPUSAVE_SRR1)(%r2); /* saved SRR1 */ \ mfxer %r3; \ mfctr %r4; \ mfsprg3 %r5; \ stw %r3, FRAME_XER+8(1); /* save xer/ctr/exc */ \ stw %r4, FRAME_CTR+8(1); \ stw %r5, FRAME_EXC+8(1); \ stw %r28,FRAME_AIM_DAR+8(1); \ stw %r29,FRAME_AIM_DSISR+8(1); /* save dsisr/srr0/srr1 */ \ stw %r30,FRAME_SRR0+8(1); \ stw %r31,FRAME_SRR1+8(1) #define FRAME_LEAVE(savearea) \ /* Now restore regs: */ \ lwz %r2,FRAME_SRR0+8(%r1); \ lwz %r3,FRAME_SRR1+8(%r1); \ lwz %r4,FRAME_CTR+8(%r1); \ lwz %r5,FRAME_XER+8(%r1); \ lwz %r6,FRAME_LR+8(%r1); \ GET_CPUINFO(%r7); \ stw %r2,(savearea+CPUSAVE_SRR0)(%r7); /* save SRR0 */ \ stw %r3,(savearea+CPUSAVE_SRR1)(%r7); /* save SRR1 */ \ lwz %r7,FRAME_CR+8(%r1); \ mtctr %r4; \ mtxer %r5; \ mtlr %r6; \ mtsprg1 %r7; /* save cr */ \ lwz %r31,FRAME_31+8(%r1); /* restore r0-31 */ \ lwz %r30,FRAME_30+8(%r1); \ lwz %r29,FRAME_29+8(%r1); \ lwz %r28,FRAME_28+8(%r1); \ lwz %r27,FRAME_27+8(%r1); \ lwz %r26,FRAME_26+8(%r1); \ lwz %r25,FRAME_25+8(%r1); \ lwz %r24,FRAME_24+8(%r1); \ lwz %r23,FRAME_23+8(%r1); \ lwz %r22,FRAME_22+8(%r1); \ lwz %r21,FRAME_21+8(%r1); \ lwz %r20,FRAME_20+8(%r1); \ lwz %r19,FRAME_19+8(%r1); \ lwz %r18,FRAME_18+8(%r1); \ lwz %r17,FRAME_17+8(%r1); \ lwz %r16,FRAME_16+8(%r1); \ lwz %r15,FRAME_15+8(%r1); \ lwz %r14,FRAME_14+8(%r1); \ lwz %r13,FRAME_13+8(%r1); \ lwz %r12,FRAME_12+8(%r1); \ lwz %r11,FRAME_11+8(%r1); \ lwz %r10,FRAME_10+8(%r1); \ lwz %r9, FRAME_9+8(%r1); \ lwz %r8, FRAME_8+8(%r1); \ lwz %r7, FRAME_7+8(%r1); \ lwz %r6, FRAME_6+8(%r1); \ lwz %r5, FRAME_5+8(%r1); \ lwz %r4, FRAME_4+8(%r1); \ lwz %r3, FRAME_3+8(%r1); \ lwz %r2, FRAME_2+8(%r1); \ lwz %r0, FRAME_0+8(%r1); \ lwz %r1, FRAME_1+8(%r1); \ /* Can't touch %r1 from here on */ \ mtsprg2 %r2; /* save r2 & r3 */ \ mtsprg3 %r3; \ /* Disable translation, machine check and recoverability: */ \ mfmsr %r2; \ andi. %r2,%r2,~(PSL_DR|PSL_IR|PSL_EE|PSL_ME|PSL_RI)@l; \ mtmsr %r2; \ isync; \ /* Decide whether we return to user mode: */ \ GET_CPUINFO(%r2); \ lwz %r3,(savearea+CPUSAVE_SRR1)(%r2); \ mtcr %r3; \ bf 17,1f; /* branch if PSL_PR is false */ \ /* Restore user SRs */ \ RESTORE_USER_SRS(%r2,%r3); \ 1: mfsprg1 %r2; /* restore cr */ \ mtcr %r2; \ GET_CPUINFO(%r2); \ lwz %r3,(savearea+CPUSAVE_SRR0)(%r2); /* restore srr0 */ \ mtsrr0 %r3; \ lwz %r3,(savearea+CPUSAVE_SRR1)(%r2); /* restore srr1 */ \ \ /* Make sure HV bit of MSR propagated to SRR1 */ \ mfmsr %r2; \ or %r3,%r2,%r3; \ \ mtsrr1 %r3; \ mfsprg2 %r2; /* restore r2 & r3 */ \ mfsprg3 %r3 /* * The next two routines are 64-bit glue code. The first is used to test if * we are on a 64-bit system. By copying it to the illegal instruction * handler, we can test for 64-bit mode by trying to execute a 64-bit * instruction and seeing what happens. The second gets copied in front * of all the other handlers to restore 32-bit bridge mode when traps * are taken. */ /* 64-bit test code. Sets SPRG2 to 0 if an illegal instruction is executed */ .globl CNAME(testppc64),CNAME(testppc64size) CNAME(testppc64): mtsprg1 %r31 mfsrr0 %r31 addi %r31, %r31, 4 mtsrr0 %r31 li %r31, 0 mtsprg2 %r31 mfsprg1 %r31 rfi CNAME(testppc64size) = .-CNAME(testppc64) /* 64-bit bridge mode restore snippet. Gets copied in front of everything else * on 64-bit systems. */ .globl CNAME(restorebridge),CNAME(restorebridgesize) CNAME(restorebridge): mtsprg1 %r31 mfmsr %r31 clrldi %r31,%r31,1 mtmsrd %r31 mfsprg1 %r31 isync CNAME(restorebridgesize) = .-CNAME(restorebridge) #ifdef SMP /* * Processor reset exception handler. These are typically * the first instructions the processor executes after a * software reset. */ .globl CNAME(rstcode), CNAME(rstsize) CNAME(rstcode): bl 1f .space 124 1: mflr %r1 addi %r1,%r1,(124-16)@l lis %r3,1@l bla CNAME(pmap_cpu_bootstrap) bla CNAME(cpudep_ap_bootstrap) mr %r1,%r3 bla CNAME(machdep_ap_bootstrap) /* Should not be reached */ 9: b 9b CNAME(rstsize) = . - CNAME(rstcode) #endif /* * This code gets copied to all the trap vectors * (except ISI/DSI, ALI, and the interrupts) */ .globl CNAME(trapcode),CNAME(trapsize) CNAME(trapcode): mtsprg1 %r1 /* save SP */ mflr %r1 /* Save the old LR in r1 */ mtsprg2 %r1 /* And then in SPRG2 */ li %r1, 0x20 /* How to get the vector from LR */ bla generictrap /* LR & SPRG3 is exception # */ CNAME(trapsize) = .-CNAME(trapcode) /* * 64-bit version of trapcode. Identical, except it calls generictrap64. */ .globl CNAME(trapcode64) CNAME(trapcode64): mtsprg1 %r1 /* save SP */ mflr %r1 /* Save the old LR in r1 */ mtsprg2 %r1 /* And then in SPRG2 */ li %r1, 0x20 /* How to get the vector from LR */ bla generictrap64 /* LR & SPRG3 is exception # */ /* * For ALI: has to save DSISR and DAR */ .globl CNAME(alitrap),CNAME(alisize) CNAME(alitrap): mtsprg1 %r1 /* save SP */ GET_CPUINFO(%r1) stw %r28,(PC_TEMPSAVE+CPUSAVE_R28)(%r1) /* free r28-r31 */ stw %r29,(PC_TEMPSAVE+CPUSAVE_R29)(%r1) stw %r30,(PC_TEMPSAVE+CPUSAVE_R30)(%r1) stw %r31,(PC_TEMPSAVE+CPUSAVE_R31)(%r1) mfdar %r30 mfdsisr %r31 stw %r30,(PC_TEMPSAVE+CPUSAVE_AIM_DAR)(%r1) stw %r31,(PC_TEMPSAVE+CPUSAVE_AIM_DSISR)(%r1) mfsprg1 %r1 /* restore SP, in case of branch */ mflr %r28 /* save LR */ mfcr %r29 /* save CR */ /* Put our exception vector in SPRG3 */ li %r31, EXC_ALI mtsprg3 %r31 /* Test whether we already had PR set */ mfsrr1 %r31 mtcr %r31 bla s_trap CNAME(alisize) = .-CNAME(alitrap) /* * Similar to the above for DSI * Has to handle BAT spills * and standard pagetable spills */ .globl CNAME(dsitrap),CNAME(dsisize) CNAME(dsitrap): mtsprg1 %r1 /* save SP */ GET_CPUINFO(%r1) stw %r28,(PC_DISISAVE+CPUSAVE_R28)(%r1) /* free r28-r31 */ stw %r29,(PC_DISISAVE+CPUSAVE_R29)(%r1) stw %r30,(PC_DISISAVE+CPUSAVE_R30)(%r1) stw %r31,(PC_DISISAVE+CPUSAVE_R31)(%r1) mfsprg1 %r1 /* restore SP */ mfcr %r29 /* save CR */ mfxer %r30 /* save XER */ mtsprg2 %r30 /* in SPRG2 */ mfsrr1 %r31 /* test kernel mode */ mtcr %r31 bt 17,1f /* branch if PSL_PR is set */ mfdar %r31 /* get fault address */ rlwinm %r31,%r31,7,25,28 /* get segment * 8 */ /* get batu */ addis %r31,%r31,CNAME(battable)@ha lwz %r30,CNAME(battable)@l(31) mtcr %r30 bf 30,1f /* branch if supervisor valid is false */ /* get batl */ lwz %r31,CNAME(battable)+4@l(31) /* We randomly use the highest two bat registers here */ mftb %r28 andi. %r28,%r28,1 bne 2f mtdbatu 2,%r30 mtdbatl 2,%r31 b 3f 2: mtdbatu 3,%r30 mtdbatl 3,%r31 3: mfsprg2 %r30 /* restore XER */ mtxer %r30 mtcr %r29 /* restore CR */ mtsprg1 %r1 GET_CPUINFO(%r1) lwz %r28,(PC_DISISAVE+CPUSAVE_R28)(%r1) /* restore r28-r31 */ lwz %r29,(PC_DISISAVE+CPUSAVE_R29)(%r1) lwz %r30,(PC_DISISAVE+CPUSAVE_R30)(%r1) lwz %r31,(PC_DISISAVE+CPUSAVE_R31)(%r1) mfsprg1 %r1 rfi /* return to trapped code */ 1: mflr %r28 /* save LR (SP already saved) */ bla disitrap CNAME(dsisize) = .-CNAME(dsitrap) /* * Preamble code for DSI/ISI traps */ disitrap: /* Write the trap vector to SPRG3 by computing LR & 0xff00 */ mflr %r1 andi. %r1,%r1,0xff00 mtsprg3 %r1 GET_CPUINFO(%r1) lwz %r30,(PC_DISISAVE+CPUSAVE_R28)(%r1) stw %r30,(PC_TEMPSAVE+CPUSAVE_R28)(%r1) lwz %r31,(PC_DISISAVE+CPUSAVE_R29)(%r1) stw %r31,(PC_TEMPSAVE+CPUSAVE_R29)(%r1) lwz %r30,(PC_DISISAVE+CPUSAVE_R30)(%r1) stw %r30,(PC_TEMPSAVE+CPUSAVE_R30)(%r1) lwz %r31,(PC_DISISAVE+CPUSAVE_R31)(%r1) stw %r31,(PC_TEMPSAVE+CPUSAVE_R31)(%r1) mfdar %r30 mfdsisr %r31 stw %r30,(PC_TEMPSAVE+CPUSAVE_AIM_DAR)(%r1) stw %r31,(PC_TEMPSAVE+CPUSAVE_AIM_DSISR)(%r1) #ifdef KDB /* Try and detect a kernel stack overflow */ mfsrr1 %r31 mtcr %r31 bt 17,realtrap /* branch is user mode */ mfsprg1 %r31 /* get old SP */ sub. %r30,%r31,%r30 /* SP - DAR */ bge 1f neg %r30,%r30 /* modulo value */ 1: cmplwi %cr0,%r30,4096 /* is DAR within a page of SP? */ bge %cr0,realtrap /* no, too far away. */ /* Now convert this DSI into a DDB trap. */ GET_CPUINFO(%r1) lwz %r30,(PC_TEMPSAVE+CPUSAVE_AIM_DAR)(%r1) /* get DAR */ stw %r30,(PC_DBSAVE +CPUSAVE_AIM_DAR)(%r1) /* save DAR */ lwz %r30,(PC_TEMPSAVE+CPUSAVE_AIM_DSISR)(%r1) /* get DSISR */ lwz %r30,(PC_DBSAVE +CPUSAVE_AIM_DSISR)(%r1) /* save DSISR */ lwz %r30,(PC_DISISAVE+CPUSAVE_R28)(%r1) /* get r28 */ stw %r30,(PC_DBSAVE +CPUSAVE_R28)(%r1) /* save r28 */ lwz %r31,(PC_DISISAVE+CPUSAVE_R29)(%r1) /* get r29 */ stw %r31,(PC_DBSAVE +CPUSAVE_R29)(%r1) /* save r29 */ lwz %r30,(PC_DISISAVE+CPUSAVE_R30)(%r1) /* get r30 */ stw %r30,(PC_DBSAVE +CPUSAVE_R30)(%r1) /* save r30 */ lwz %r31,(PC_DISISAVE+CPUSAVE_R31)(%r1) /* get r31 */ stw %r31,(PC_DBSAVE +CPUSAVE_R31)(%r1) /* save r31 */ b dbtrap #endif /* XXX need stack probe here */ realtrap: /* Test whether we already had PR set */ mfsrr1 %r1 mtcr %r1 mfsprg1 %r1 /* restore SP (might have been overwritten) */ bf 17,k_trap /* branch if PSL_PR is false */ GET_CPUINFO(%r1) lwz %r1,PC_CURPCB(%r1) RESTORE_KERN_SRS(%r30,%r31) /* enable kernel mapping */ ba s_trap /* * generictrap does some standard setup for trap handling to minimize * the code that need be installed in the actual vectors. It expects * the following conditions. * * R1 - Trap vector = LR & (0xff00 | R1) * SPRG1 - Original R1 contents * SPRG2 - Original LR */ generictrap64: mtsprg3 %r31 mfmsr %r31 clrldi %r31,%r31,1 mtmsrd %r31 mfsprg3 %r31 isync generictrap: /* Save R1 for computing the exception vector */ mtsprg3 %r1 /* Save interesting registers */ GET_CPUINFO(%r1) stw %r28,(PC_TEMPSAVE+CPUSAVE_R28)(%r1) /* free r28-r31 */ stw %r29,(PC_TEMPSAVE+CPUSAVE_R29)(%r1) stw %r30,(PC_TEMPSAVE+CPUSAVE_R30)(%r1) stw %r31,(PC_TEMPSAVE+CPUSAVE_R31)(%r1) mfsprg1 %r1 /* restore SP, in case of branch */ mfsprg2 %r28 /* save LR */ mfcr %r29 /* save CR */ /* Compute the exception vector from the link register */ mfsprg3 %r31 ori %r31,%r31,0xff00 mflr %r30 and %r30,%r30,%r31 mtsprg3 %r30 /* Test whether we already had PR set */ mfsrr1 %r31 mtcr %r31 s_trap: bf 17,k_trap /* branch if PSL_PR is false */ GET_CPUINFO(%r1) u_trap: lwz %r1,PC_CURPCB(%r1) RESTORE_KERN_SRS(%r30,%r31) /* enable kernel mapping */ /* * Now the common trap catching code. */ k_trap: FRAME_SETUP(PC_TEMPSAVE) /* Call C interrupt dispatcher: */ trapagain: addi %r3,%r1,8 bl CNAME(powerpc_interrupt) .globl CNAME(trapexit) /* backtrace code sentinel */ CNAME(trapexit): /* Disable interrupts: */ mfmsr %r3 andi. %r3,%r3,~PSL_EE@l mtmsr %r3 /* Test AST pending: */ lwz %r5,FRAME_SRR1+8(%r1) mtcr %r5 bf 17,1f /* branch if PSL_PR is false */ GET_CPUINFO(%r3) /* get per-CPU pointer */ lwz %r4, PC_CURTHREAD(%r3) /* deref to get curthread */ lwz %r4, TD_FLAGS(%r4) /* get thread flags value */ lis %r5, (TDF_ASTPENDING|TDF_NEEDRESCHED)@h ori %r5,%r5, (TDF_ASTPENDING|TDF_NEEDRESCHED)@l and. %r4,%r4,%r5 beq 1f mfmsr %r3 /* re-enable interrupts */ ori %r3,%r3,PSL_EE@l mtmsr %r3 isync addi %r3,%r1,8 bl CNAME(ast) .globl CNAME(asttrapexit) /* backtrace code sentinel #2 */ CNAME(asttrapexit): b trapexit /* test ast ret value ? */ 1: FRAME_LEAVE(PC_TEMPSAVE) .globl CNAME(rfi_patch1) /* replace rfi with rfid on ppc64 */ CNAME(rfi_patch1): rfi .globl CNAME(rfid_patch) CNAME(rfid_patch): rfid #if defined(KDB) /* * Deliberate entry to dbtrap */ .globl CNAME(breakpoint) CNAME(breakpoint): mtsprg1 %r1 mfmsr %r3 mtsrr1 %r3 andi. %r3,%r3,~(PSL_EE|PSL_ME)@l mtmsr %r3 /* disable interrupts */ isync GET_CPUINFO(%r3) stw %r28,(PC_DBSAVE+CPUSAVE_R28)(%r3) stw %r29,(PC_DBSAVE+CPUSAVE_R29)(%r3) stw %r30,(PC_DBSAVE+CPUSAVE_R30)(%r3) stw %r31,(PC_DBSAVE+CPUSAVE_R31)(%r3) mflr %r28 li %r29,EXC_BPT mtlr %r29 mfcr %r29 mtsrr0 %r28 /* * Now the kdb trap catching code. */ dbtrap: /* Write the trap vector to SPRG3 by computing LR & 0xff00 */ mflr %r1 andi. %r1,%r1,0xff00 mtsprg3 %r1 lis %r1,(tmpstk+TMPSTKSZ-16)@ha /* get new SP */ addi %r1,%r1,(tmpstk+TMPSTKSZ-16)@l FRAME_SETUP(PC_DBSAVE) /* Call C trap code: */ addi %r3,%r1,8 bl CNAME(db_trap_glue) or. %r3,%r3,%r3 bne dbleave /* This wasn't for KDB, so switch to real trap: */ lwz %r3,FRAME_EXC+8(%r1) /* save exception */ GET_CPUINFO(%r4) stw %r3,(PC_DBSAVE+CPUSAVE_R31)(%r4) FRAME_LEAVE(PC_DBSAVE) mtsprg1 %r1 /* prepare for entrance to realtrap */ GET_CPUINFO(%r1) stw %r28,(PC_TEMPSAVE+CPUSAVE_R28)(%r1) stw %r29,(PC_TEMPSAVE+CPUSAVE_R29)(%r1) stw %r30,(PC_TEMPSAVE+CPUSAVE_R30)(%r1) stw %r31,(PC_TEMPSAVE+CPUSAVE_R31)(%r1) mflr %r28 mfcr %r29 lwz %r31,(PC_DBSAVE+CPUSAVE_R31)(%r1) mtsprg3 %r31 /* SPRG3 was clobbered by FRAME_LEAVE */ mfsprg1 %r1 b realtrap dbleave: FRAME_LEAVE(PC_DBSAVE) .globl CNAME(rfi_patch2) /* replace rfi with rfid on ppc64 */ CNAME(rfi_patch2): rfi /* * In case of KDB we want a separate trap catcher for it */ .globl CNAME(dblow),CNAME(dbsize) CNAME(dblow): mtsprg1 %r1 /* save SP */ mtsprg2 %r29 /* save r29 */ mfcr %r29 /* save CR in r29 */ mfsrr1 %r1 mtcr %r1 bf 17,1f /* branch if privileged */ /* Unprivileged case */ mtcr %r29 /* put the condition register back */ mfsprg2 %r29 /* ... and r29 */ mflr %r1 /* save LR */ mtsprg2 %r1 /* And then in SPRG2 */ li %r1, 0 /* How to get the vector from LR */ bla generictrap /* and we look like a generic trap */ 1: /* Privileged, so drop to KDB */ GET_CPUINFO(%r1) stw %r28,(PC_DBSAVE+CPUSAVE_R28)(%r1) /* free r28 */ mfsprg2 %r28 /* r29 holds cr... */ stw %r28,(PC_DBSAVE+CPUSAVE_R29)(%r1) /* free r29 */ stw %r30,(PC_DBSAVE+CPUSAVE_R30)(%r1) /* free r30 */ stw %r31,(PC_DBSAVE+CPUSAVE_R31)(%r1) /* free r31 */ mflr %r28 /* save LR */ bla dbtrap CNAME(dbsize) = .-CNAME(dblow) #endif /* KDB */