/*- * Copyright (C) 2006-2009 Semihalf, Rafal Jaworowski * Copyright (C) 2006 Semihalf, Marian Balakowicz * Copyright (C) 2006 Juniper Networks, Inc. * 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. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 THE AUTHOR 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. * * $FreeBSD: head/sys/powerpc/booke/trap_subr.S 295520 2016-02-11 13:15:37Z jhibbits $ */ /*- * 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. * * from: $NetBSD: trap_subr.S,v 1.20 2002/04/22 23:20:08 kleink Exp $ */ /* * NOTICE: This is not a standalone file. to use it, #include it in * your port's locore.S, like so: * * #include */ /* * SPRG usage notes * * SPRG0 - pcpu pointer * SPRG1 - all interrupts except TLB miss, critical, machine check * SPRG2 - critical * SPRG3 - machine check * SPRG4-6 - scratch * */ /* Get the per-CPU data structure */ #define GET_CPUINFO(r) mfsprg0 r #define RES_GRANULE 32 #define RES_LOCK 0 /* offset to the 'lock' word */ #define RES_RECURSE 4 /* offset to the 'recurse' word */ /* * Standard interrupt prolog * * sprg_sp - SPRG{1-3} reg used to temporarily store the SP * savearea - temp save area (pc_{tempsave, disisave, critsave, mchksave}) * isrr0-1 - save restore registers with CPU state at interrupt time (may be * SRR0-1, CSRR0-1, MCSRR0-1 * * 1. saves in the given savearea: * - R30-31 * - DEAR, ESR * - xSRR0-1 * * 2. saves CR -> R30 * * 3. switches to kstack if needed * * 4. notes: * - R31 can be used as scratch register until a new frame is layed on * the stack with FRAME_SETUP * * - potential TLB miss: NO. Saveareas are always acessible via TLB1 * permanent entries, and within this prolog we do not dereference any * locations potentially not in the TLB */ #define STANDARD_PROLOG(sprg_sp, savearea, isrr0, isrr1) \ mtspr sprg_sp, %r1; /* Save SP */ \ GET_CPUINFO(%r1); /* Per-cpu structure */ \ stw %r30, (savearea+CPUSAVE_R30)(%r1); \ stw %r31, (savearea+CPUSAVE_R31)(%r1); \ mfdear %r30; \ mfesr %r31; \ stw %r30, (savearea+CPUSAVE_BOOKE_DEAR)(%r1); \ stw %r31, (savearea+CPUSAVE_BOOKE_ESR)(%r1); \ mfspr %r30, isrr0; \ mfspr %r31, isrr1; /* MSR at interrupt time */ \ stw %r30, (savearea+CPUSAVE_SRR0)(%r1); \ stw %r31, (savearea+CPUSAVE_SRR1)(%r1); \ isync; \ mfspr %r1, sprg_sp; /* Restore SP */ \ mfcr %r30; /* Save CR */ \ /* switch to per-thread kstack if intr taken in user mode */ \ mtcr %r31; /* MSR at interrupt time */ \ bf 17, 1f; \ GET_CPUINFO(%r1); /* Per-cpu structure */ \ lwz %r1, PC_CURPCB(%r1); /* Per-thread kernel stack */ \ 1: #define STANDARD_CRIT_PROLOG(sprg_sp, savearea, isrr0, isrr1) \ mtspr sprg_sp, %r1; /* Save SP */ \ GET_CPUINFO(%r1); /* Per-cpu structure */ \ stw %r30, (savearea+CPUSAVE_R30)(%r1); \ stw %r31, (savearea+CPUSAVE_R31)(%r1); \ mfdear %r30; \ mfesr %r31; \ stw %r30, (savearea+CPUSAVE_BOOKE_DEAR)(%r1); \ stw %r31, (savearea+CPUSAVE_BOOKE_ESR)(%r1); \ mfspr %r30, isrr0; \ mfspr %r31, isrr1; /* MSR at interrupt time */ \ stw %r30, (savearea+CPUSAVE_SRR0)(%r1); \ stw %r31, (savearea+CPUSAVE_SRR1)(%r1); \ mfspr %r30, SPR_SRR0; \ mfspr %r31, SPR_SRR1; /* MSR at interrupt time */ \ stw %r30, (savearea+CPUSAVE_SRR0+8)(%r1); \ stw %r31, (savearea+CPUSAVE_SRR1+8)(%r1); \ isync; \ mfspr %r1, sprg_sp; /* Restore SP */ \ mfcr %r30; /* Save CR */ \ /* switch to per-thread kstack if intr taken in user mode */ \ mtcr %r31; /* MSR at interrupt time */ \ bf 17, 1f; \ GET_CPUINFO(%r1); /* Per-cpu structure */ \ lwz %r1, PC_CURPCB(%r1); /* Per-thread kernel stack */ \ 1: /* * FRAME_SETUP assumes: * SPRG{1-3} SP at the time interrupt occured * savearea r30-r31, DEAR, ESR, xSRR0-1 * r30 CR * r31 scratch * r1 kernel stack * * sprg_sp - SPRG reg containing SP at the time interrupt occured * savearea - temp save * exc - exception number (EXC_xxx) * * 1. sets a new frame * 2. saves in the frame: * - R0, R1 (SP at the time of interrupt), R2, LR, CR * - R3-31 (R30-31 first restored from savearea) * - XER, CTR, DEAR, ESR (from savearea), xSRR0-1 * * Notes: * - potential TLB miss: YES, since we make dereferences to kstack, which * can happen not covered (we can have up to two DTLB misses if fortunate * enough i.e. when kstack crosses page boundary and both pages are * untranslated) */ #define FRAME_SETUP(sprg_sp, savearea, exc) \ mfspr %r31, sprg_sp; /* get saved SP */ \ /* establish a new stack frame and put everything on it */ \ stwu %r31, -FRAMELEN(%r1); \ 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 " " */ \ mflr %r31; \ stw %r31, FRAME_LR+8(%r1); /* save LR " " */ \ stw %r30, FRAME_CR+8(%r1); /* save CR " " */ \ GET_CPUINFO(%r2); \ lwz %r30, (savearea+CPUSAVE_R30)(%r2); /* get saved r30 */ \ lwz %r31, (savearea+CPUSAVE_R31)(%r2); /* get saved r31 */ \ /* save R3-31 */ \ stmw %r3, FRAME_3+8(%r1) ; \ /* save DEAR, ESR */ \ lwz %r28, (savearea+CPUSAVE_BOOKE_DEAR)(%r2); \ lwz %r29, (savearea+CPUSAVE_BOOKE_ESR)(%r2); \ stw %r28, FRAME_BOOKE_DEAR+8(%r1); \ stw %r29, FRAME_BOOKE_ESR+8(%r1); \ /* save XER, CTR, exc number */ \ mfxer %r3; \ mfctr %r4; \ stw %r3, FRAME_XER+8(%r1); \ stw %r4, FRAME_CTR+8(%r1); \ li %r5, exc; \ stw %r5, FRAME_EXC+8(%r1); \ /* save DBCR0 */ \ mfspr %r3, SPR_DBCR0; \ stw %r3, FRAME_BOOKE_DBCR0+8(%r1); \ /* save xSSR0-1 */ \ lwz %r30, (savearea+CPUSAVE_SRR0)(%r2); \ lwz %r31, (savearea+CPUSAVE_SRR1)(%r2); \ stw %r30, FRAME_SRR0+8(%r1); \ stw %r31, FRAME_SRR1+8(%r1); \ lwz %r2,PC_CURTHREAD(%r2) /* set curthread pointer */ /* * * isrr0-1 - save restore registers to restore CPU state to (may be * SRR0-1, CSRR0-1, MCSRR0-1 * * Notes: * - potential TLB miss: YES. The deref'd kstack may be not covered */ #define FRAME_LEAVE(isrr0, isrr1) \ /* restore CTR, XER, LR, CR */ \ lwz %r4, FRAME_CTR+8(%r1); \ lwz %r5, FRAME_XER+8(%r1); \ lwz %r6, FRAME_LR+8(%r1); \ lwz %r7, FRAME_CR+8(%r1); \ mtctr %r4; \ mtxer %r5; \ mtlr %r6; \ mtcr %r7; \ /* restore DBCR0 */ \ lwz %r4, FRAME_BOOKE_DBCR0+8(%r1); \ mtspr SPR_DBCR0, %r4; \ /* restore xSRR0-1 */ \ lwz %r30, FRAME_SRR0+8(%r1); \ lwz %r31, FRAME_SRR1+8(%r1); \ mtspr isrr0, %r30; \ mtspr isrr1, %r31; \ /* restore R2-31, SP */ \ lmw %r2, FRAME_2+8(%r1) ; \ lwz %r0, FRAME_0+8(%r1); \ lwz %r1, FRAME_1+8(%r1); \ isync /* * TLB miss prolog * * saves LR, CR, SRR0-1, R20-31 in the TLBSAVE area * * Notes: * - potential TLB miss: NO. It is crucial that we do not generate a TLB * miss within the TLB prolog itself! * - TLBSAVE is always translated */ #define TLB_PROLOG \ mtsprg4 %r1; /* Save SP */ \ mtsprg5 %r28; \ mtsprg6 %r29; \ /* calculate TLB nesting level and TLBSAVE instance address */ \ GET_CPUINFO(%r1); /* Per-cpu structure */ \ lwz %r28, PC_BOOKE_TLB_LEVEL(%r1); \ rlwinm %r29, %r28, 6, 23, 25; /* 4 x TLBSAVE_LEN */ \ addi %r28, %r28, 1; \ stw %r28, PC_BOOKE_TLB_LEVEL(%r1); \ addi %r29, %r29, PC_BOOKE_TLBSAVE@l; \ add %r1, %r1, %r29; /* current TLBSAVE ptr */ \ \ /* save R20-31 */ \ mfsprg5 %r28; \ mfsprg6 %r29; \ stmw %r20, (TLBSAVE_BOOKE_R20)(%r1); \ /* save LR, CR */ \ mflr %r30; \ mfcr %r31; \ stw %r30, (TLBSAVE_BOOKE_LR)(%r1); \ stw %r31, (TLBSAVE_BOOKE_CR)(%r1); \ /* save SRR0-1 */ \ mfsrr0 %r30; /* execution addr at interrupt time */ \ mfsrr1 %r31; /* MSR at interrupt time*/ \ stw %r30, (TLBSAVE_BOOKE_SRR0)(%r1); /* save SRR0 */ \ stw %r31, (TLBSAVE_BOOKE_SRR1)(%r1); /* save SRR1 */ \ isync; \ mfsprg4 %r1 /* * restores LR, CR, SRR0-1, R20-31 from the TLBSAVE area * * same notes as for the TLB_PROLOG */ #define TLB_RESTORE \ mtsprg4 %r1; /* Save SP */ \ GET_CPUINFO(%r1); /* Per-cpu structure */ \ /* calculate TLB nesting level and TLBSAVE instance addr */ \ lwz %r28, PC_BOOKE_TLB_LEVEL(%r1); \ subi %r28, %r28, 1; \ stw %r28, PC_BOOKE_TLB_LEVEL(%r1); \ rlwinm %r29, %r28, 6, 23, 25; /* 4 x TLBSAVE_LEN */ \ addi %r29, %r29, PC_BOOKE_TLBSAVE@l; \ add %r1, %r1, %r29; \ \ /* restore LR, CR */ \ lwz %r30, (TLBSAVE_BOOKE_LR)(%r1); \ lwz %r31, (TLBSAVE_BOOKE_CR)(%r1); \ mtlr %r30; \ mtcr %r31; \ /* restore SRR0-1 */ \ lwz %r30, (TLBSAVE_BOOKE_SRR0)(%r1); \ lwz %r31, (TLBSAVE_BOOKE_SRR1)(%r1); \ mtsrr0 %r30; \ mtsrr1 %r31; \ /* restore R20-31 */ \ lmw %r20, (TLBSAVE_BOOKE_R20)(%r1); \ mfsprg4 %r1 #ifdef SMP #define TLB_LOCK \ GET_CPUINFO(%r20); \ lwz %r21, PC_CURTHREAD(%r20); \ lwz %r22, PC_BOOKE_TLB_LOCK(%r20); \ \ 1: lwarx %r23, 0, %r22; \ cmpwi %r23, TLB_UNLOCKED; \ beq 2f; \ \ /* check if this is recursion */ \ cmplw cr0, %r21, %r23; \ bne- 1b; \ \ 2: /* try to acquire lock */ \ stwcx. %r21, 0, %r22; \ bne- 1b; \ \ /* got it, update recursion counter */ \ lwz %r21, RES_RECURSE(%r22); \ addi %r21, %r21, 1; \ stw %r21, RES_RECURSE(%r22); \ isync; \ msync #define TLB_UNLOCK \ GET_CPUINFO(%r20); \ lwz %r21, PC_CURTHREAD(%r20); \ lwz %r22, PC_BOOKE_TLB_LOCK(%r20); \ \ /* update recursion counter */ \ lwz %r23, RES_RECURSE(%r22); \ subi %r23, %r23, 1; \ stw %r23, RES_RECURSE(%r22); \ \ cmpwi %r23, 0; \ bne 1f; \ isync; \ msync; \ \ /* release the lock */ \ li %r23, TLB_UNLOCKED; \ stw %r23, 0(%r22); \ 1: isync; \ msync #else #define TLB_LOCK #define TLB_UNLOCK #endif /* SMP */ #define INTERRUPT(label) \ .globl label; \ .align 5; \ CNAME(label): /* * Interrupt handling routines in BookE can be flexibly placed and do not have * to live in pre-defined vectors location. Note they need to be TLB-mapped at * all times in order to be able to handle exceptions. We thus arrange for * them to be part of kernel text which is always TLB-accessible. * * The interrupt handling routines have to be 16 bytes aligned: we align them * to 32 bytes (cache line length) which supposedly performs better. * */ .text .globl CNAME(interrupt_vector_base) .align 5 interrupt_vector_base: /***************************************************************************** * Catch-all handler to handle uninstalled IVORs ****************************************************************************/ INTERRUPT(int_unknown) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_RSVD) b trap_common /***************************************************************************** * Critical input interrupt ****************************************************************************/ INTERRUPT(int_critical_input) STANDARD_CRIT_PROLOG(SPR_SPRG2, PC_BOOKE_CRITSAVE, SPR_CSRR0, SPR_CSRR1) FRAME_SETUP(SPR_SPRG2, PC_BOOKE_CRITSAVE, EXC_CRIT) addi %r3, %r1, 8 bl CNAME(powerpc_interrupt) FRAME_LEAVE(SPR_CSRR0, SPR_CSRR1) rfci /***************************************************************************** * Machine check interrupt ****************************************************************************/ INTERRUPT(int_machine_check) STANDARD_PROLOG(SPR_SPRG3, PC_BOOKE_MCHKSAVE, SPR_MCSRR0, SPR_MCSRR1) FRAME_SETUP(SPR_SPRG3, PC_BOOKE_MCHKSAVE, EXC_MCHK) addi %r3, %r1, 8 bl CNAME(powerpc_interrupt) FRAME_LEAVE(SPR_MCSRR0, SPR_MCSRR1) rfmci /***************************************************************************** * Data storage interrupt ****************************************************************************/ INTERRUPT(int_data_storage) STANDARD_PROLOG(SPR_SPRG1, PC_DISISAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_DISISAVE, EXC_DSI) b trap_common /***************************************************************************** * Instruction storage interrupt ****************************************************************************/ INTERRUPT(int_instr_storage) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_ISI) b trap_common /***************************************************************************** * External input interrupt ****************************************************************************/ INTERRUPT(int_external_input) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_EXI) addi %r3, %r1, 8 bl CNAME(powerpc_interrupt) b clear_we INTERRUPT(int_alignment) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_ALI) b trap_common INTERRUPT(int_program) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_PGM) b trap_common INTERRUPT(int_fpu) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_FPU) b trap_common /***************************************************************************** * System call ****************************************************************************/ INTERRUPT(int_syscall) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_SC) b trap_common /***************************************************************************** * Decrementer interrupt ****************************************************************************/ INTERRUPT(int_decrementer) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_DECR) addi %r3, %r1, 8 bl CNAME(powerpc_interrupt) b clear_we /***************************************************************************** * Fixed interval timer ****************************************************************************/ INTERRUPT(int_fixed_interval_timer) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_FIT) b trap_common /***************************************************************************** * Watchdog interrupt ****************************************************************************/ INTERRUPT(int_watchdog) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_WDOG) b trap_common /***************************************************************************** * Altivec Unavailable interrupt ****************************************************************************/ INTERRUPT(int_vec) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_VEC) b trap_common /***************************************************************************** * Watchdog interrupt ****************************************************************************/ INTERRUPT(int_vecast) STANDARD_PROLOG(SPR_SPRG1, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG1, PC_TEMPSAVE, EXC_VECAST_E) b trap_common #ifdef HWPMC_HOOKS /***************************************************************************** * PMC Interrupt ****************************************************************************/ INTERRUPT(int_performance_counter) STANDARD_PROLOG(SPR_SPRG3, PC_TEMPSAVE, SPR_SRR0, SPR_SRR1) FRAME_SETUP(SPR_SPRG3, PC_TEMPSAVE, EXC_PERF) addi %r3, %r1, 8 bl CNAME(powerpc_interrupt) b trapexit #endif /***************************************************************************** * Data TLB miss interrupt * * There can be nested TLB misses - while handling a TLB miss we reference * data structures that may be not covered by translations. We support up to * TLB_NESTED_MAX-1 nested misses. * * Registers use: * r31 - dear * r30 - unused * r29 - saved mas0 * r28 - saved mas1 * r27 - saved mas2 * r26 - pmap address * r25 - pte address * * r20:r23 - scratch registers ****************************************************************************/ INTERRUPT(int_data_tlb_error) TLB_PROLOG TLB_LOCK mfdear %r31 /* * Save MAS0-MAS2 registers. There might be another tlb miss during * pte lookup overwriting current contents (which was hw filled). */ mfspr %r29, SPR_MAS0 mfspr %r28, SPR_MAS1 mfspr %r27, SPR_MAS2 /* Check faulting address. */ lis %r21, VM_MAXUSER_ADDRESS@h ori %r21, %r21, VM_MAXUSER_ADDRESS@l cmplw cr0, %r31, %r21 blt search_user_pmap /* If it's kernel address, allow only supervisor mode misses. */ mfsrr1 %r21 mtcr %r21 bt 17, search_failed /* check MSR[PR] */ search_kernel_pmap: /* Load r26 with kernel_pmap address */ bl 1f .long kernel_pmap_store-. 1: mflr %r21 lwz %r26, 0(%r21) add %r26, %r21, %r26 /* kernel_pmap_store in r26 */ /* Force kernel tid, set TID to 0 in MAS1. */ li %r21, 0 rlwimi %r28, %r21, 0, 8, 15 /* clear TID bits */ tlb_miss_handle: /* This may result in nested tlb miss. */ bl pte_lookup /* returns PTE address in R25 */ cmpwi %r25, 0 /* pte found? */ beq search_failed /* Finish up, write TLB entry. */ bl tlb_fill_entry tlb_miss_return: TLB_UNLOCK TLB_RESTORE rfi search_user_pmap: /* Load r26 with current user space process pmap */ GET_CPUINFO(%r26) lwz %r26, PC_CURPMAP(%r26) b tlb_miss_handle search_failed: /* * Whenever we don't find a TLB mapping in PT, set a TLB0 entry with * the faulting virtual address anyway, but put a fake RPN and no * access rights. This should cause a following {D,I}SI exception. */ lis %r23, 0xffff0000@h /* revoke all permissions */ /* Load MAS registers. */ mtspr SPR_MAS0, %r29 isync mtspr SPR_MAS1, %r28 isync mtspr SPR_MAS2, %r27 isync mtspr SPR_MAS3, %r23 isync bl zero_mas7 bl zero_mas8 tlbwe msync isync b tlb_miss_return /***************************************************************************** * * Return pte address that corresponds to given pmap/va. If there is no valid * entry return 0. * * input: r26 - pmap * input: r31 - dear * output: r25 - pte address * * scratch regs used: r21 * ****************************************************************************/ pte_lookup: cmpwi %r26, 0 beq 1f /* fail quickly if pmap is invalid */ srwi %r21, %r31, PDIR_SHIFT /* pdir offset */ slwi %r21, %r21, PDIR_ENTRY_SHIFT /* multiply by pdir entry size */ addi %r25, %r26, PM_PDIR /* pmap pm_dir[] address */ add %r25, %r25, %r21 /* offset within pm_pdir[] table */ /* * Get ptbl address, i.e. pmap->pm_pdir[pdir_idx] * This load may cause a Data TLB miss for non-kernel pmap! */ lwz %r25, 0(%r25) cmpwi %r25, 0 beq 2f lis %r21, PTBL_MASK@h ori %r21, %r21, PTBL_MASK@l and %r21, %r21, %r31 /* ptbl offset, multiply by ptbl entry size */ srwi %r21, %r21, (PTBL_SHIFT - PTBL_ENTRY_SHIFT) add %r25, %r25, %r21 /* address of pte entry */ /* * Get pte->flags * This load may cause a Data TLB miss for non-kernel pmap! */ lwz %r21, PTE_FLAGS(%r25) andi. %r21, %r21, PTE_VALID@l bne 2f 1: li %r25, 0 2: blr /***************************************************************************** * * Load MAS1-MAS3 registers with data, write TLB entry * * input: * r29 - mas0 * r28 - mas1 * r27 - mas2 * r25 - pte * * output: none * * scratch regs: r21-r23 * ****************************************************************************/ tlb_fill_entry: /* * Update PTE flags: we have to do it atomically, as pmap_protect() * running on other CPUs could attempt to update the flags at the same * time. */ li %r23, PTE_FLAGS 1: lwarx %r21, %r23, %r25 /* get pte->flags */ oris %r21, %r21, PTE_REFERENCED@h /* set referenced bit */ andi. %r22, %r21, (PTE_SW | PTE_UW)@l /* check if writable */ beq 2f ori %r21, %r21, PTE_MODIFIED@l /* set modified bit */ 2: stwcx. %r21, %r23, %r25 /* write it back */ bne- 1b /* Update MAS2. */ rlwimi %r27, %r21, 13, 27, 30 /* insert WIMG bits from pte */ /* Setup MAS3 value in r23. */ lwz %r23, PTE_RPN(%r25) /* get pte->rpn */ rlwinm %r22, %r23, 20, 0, 11 /* extract MAS3 portion of RPN */ rlwimi %r22, %r21, 30, 26, 31 /* insert protection bits from pte */ rlwimi %r22, %r21, 20, 12, 19 /* insert lower 8 RPN bits to MAS3 */ rlwinm %r23, %r23, 20, 24, 31 /* MAS7 portion of RPN */ /* Load MAS registers. */ mtspr SPR_MAS0, %r29 isync mtspr SPR_MAS1, %r28 isync mtspr SPR_MAS2, %r27 isync mtspr SPR_MAS3, %r22 isync mtspr SPR_MAS7, %r23 isync mflr %r21 bl zero_mas8 mtlr %r21 tlbwe isync msync blr /***************************************************************************** * Instruction TLB miss interrupt * * Same notes as for the Data TLB miss ****************************************************************************/ INTERRUPT(int_inst_tlb_error) TLB_PROLOG TLB_LOCK mfsrr0 %r31 /* faulting address */ /* * Save MAS0-MAS2 registers. There might be another tlb miss during pte * lookup overwriting current contents (which was hw filled). */ mfspr %r29, SPR_MAS0 mfspr %r28, SPR_MAS1 mfspr %r27, SPR_MAS2 mfsrr1 %r21 mtcr %r21 /* check MSR[PR] */ bt 17, search_user_pmap b search_kernel_pmap .globl interrupt_vector_top interrupt_vector_top: /***************************************************************************** * Debug interrupt ****************************************************************************/ INTERRUPT(int_debug) STANDARD_CRIT_PROLOG(SPR_SPRG2, PC_BOOKE_CRITSAVE, SPR_CSRR0, SPR_CSRR1) FRAME_SETUP(SPR_SPRG2, PC_BOOKE_CRITSAVE, EXC_DEBUG) GET_CPUINFO(%r3) lwz %r3, (PC_BOOKE_CRITSAVE+CPUSAVE_SRR0)(%r3) bl 0f .long interrupt_vector_base-. .long interrupt_vector_top-. 0: mflr %r5 lwz %r4,0(%r5) /* interrupt_vector_base in r4 */ add %r4,%r4,%r5 cmplw cr0, %r3, %r4 blt 1f lwz %r4,4(%r5) /* interrupt_vector_top in r4 */ add %r4,%r4,%r5 addi %r4,%r4,4 cmplw cr0, %r3, %r4 bge 1f /* Disable single-stepping for the interrupt handlers. */ lwz %r3, FRAME_SRR1+8(%r1); rlwinm %r3, %r3, 0, 23, 21 stw %r3, FRAME_SRR1+8(%r1); /* Restore srr0 and srr1 as they could have been clobbered. */ GET_CPUINFO(%r4) lwz %r3, (PC_BOOKE_CRITSAVE+CPUSAVE_SRR0+8)(%r4); mtspr SPR_SRR0, %r3 lwz %r4, (PC_BOOKE_CRITSAVE+CPUSAVE_SRR1+8)(%r4); mtspr SPR_SRR1, %r4 b 9f 1: addi %r3, %r1, 8 bl CNAME(trap) /* * Handle ASTs, needed for proper support of single-stepping. * We actually need to return to the process with an rfi. */ b trapexit 9: FRAME_LEAVE(SPR_CSRR0, SPR_CSRR1) rfci /***************************************************************************** * Common trap code ****************************************************************************/ trap_common: /* Call C trap dispatcher */ addi %r3, %r1, 8 bl CNAME(trap) .globl CNAME(trapexit) /* exported for db_backtrace use */ CNAME(trapexit): /* disable interrupts */ wrteei 0 /* Test AST pending - makes sense for user process only */ lwz %r5, FRAME_SRR1+8(%r1) mtcr %r5 bf 17, 1f GET_CPUINFO(%r3) lwz %r4, PC_CURTHREAD(%r3) lwz %r4, TD_FLAGS(%r4) lis %r5, (TDF_ASTPENDING | TDF_NEEDRESCHED)@h ori %r5, %r5, (TDF_ASTPENDING | TDF_NEEDRESCHED)@l and. %r4, %r4, %r5 beq 1f /* re-enable interrupts before calling ast() */ wrteei 1 addi %r3, %r1, 8 bl CNAME(ast) .globl CNAME(asttrapexit) /* db_backtrace code sentinel #2 */ CNAME(asttrapexit): b trapexit /* test ast ret value ? */ 1: FRAME_LEAVE(SPR_SRR0, SPR_SRR1) rfi #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 %r30, (PC_DBSAVE+CPUSAVE_R30)(%r3) stw %r31, (PC_DBSAVE+CPUSAVE_R31)(%r3) mflr %r31 mtsrr0 %r31 mfdear %r30 mfesr %r31 stw %r30, (PC_DBSAVE+CPUSAVE_BOOKE_DEAR)(%r3) stw %r31, (PC_DBSAVE+CPUSAVE_BOOKE_ESR)(%r3) mfsrr0 %r30 mfsrr1 %r31 stw %r30, (PC_DBSAVE+CPUSAVE_SRR0)(%r3) stw %r31, (PC_DBSAVE+CPUSAVE_SRR1)(%r3) isync mfcr %r30 /* * Now the kdb trap catching code. */ dbtrap: FRAME_SETUP(SPR_SPRG1, PC_DBSAVE, EXC_DEBUG) /* 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: */ b trap_common dbleave: FRAME_LEAVE(SPR_SRR0, SPR_SRR1) rfi #endif /* KDB */ clear_we: lwz %r3, (FRAME_SRR1+8)(%r1) rlwinm %r3, %r3, 0, 14, 12 stw %r3, (FRAME_SRR1+8)(%r1) b trapexit #ifdef SMP ENTRY(tlb_lock) GET_CPUINFO(%r5) lwz %r5, PC_CURTHREAD(%r5) 1: lwarx %r4, 0, %r3 cmpwi %r4, TLB_UNLOCKED bne 1b stwcx. %r5, 0, %r3 bne- 1b isync msync blr ENTRY(tlb_unlock) isync msync li %r4, TLB_UNLOCKED stw %r4, 0(%r3) isync msync blr /* * TLB miss spin locks. For each CPU we have a reservation granule (32 bytes); * only a single word from this granule will actually be used as a spin lock * for mutual exclusion between TLB miss handler and pmap layer that * manipulates page table contents. */ .data .align 5 GLOBAL(tlb0_miss_locks) .space RES_GRANULE * MAXCPU #endif