/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright (C) 2001,2002,2003 Broadcom Corporation */ #include <asm/asm.h> #include <asm/regdef.h> #include <asm/mipsregs.h> #include <asm/stackframe.h> #include <asm/cacheops.h> #include <asm/sibyte/board.h> #define C0_ERRCTL $26 /* CP0: Error info */ #define C0_CERR_I $27 /* CP0: Icache error */ #define C0_CERR_D $27,1 /* CP0: Dcache error */ /* * Based on SiByte sample software cache-err/cerr.S * CVS revision 1.8. Only the 'unrecoverable' case * is changed. */ .set mips64 .set noreorder .set noat /* * sb1_cerr_vec: code to be copied to the Cache Error * Exception vector. The code must be pushed out to memory * (either by copying to Kseg0 and Kseg1 both, or by flushing * the L1 and L2) since it is fetched as 0xa0000100. * * NOTE: Be sure this handler is at most 28 instructions long * since the final 16 bytes of the exception vector memory * (0x170-0x17f) are used to preserve k0, k1, and ra. */ LEAF(except_vec2_sb1) /* * If this error is recoverable, we need to exit the handler * without having dirtied any registers. To do this, * save/restore k0 and k1 from low memory (Useg is direct * mapped while ERL=1). Note that we can't save to a * CPU-specific location without ruining a register in the * process. This means we are vulnerable to data corruption * whenever the handler is reentered by a second CPU. */ sd k0,0x170($0) sd k1,0x178($0) #ifdef CONFIG_SB1_CEX_ALWAYS_FATAL j handle_vec2_sb1 nop #else /* * M_ERRCTL_RECOVERABLE is bit 31, which makes it easy to tell * if we can fast-path out of here for a h/w-recovered error. */ mfc0 k1,C0_ERRCTL bgtz k1,attempt_recovery sll k0,k1,1 recovered_dcache: /* * Unlock CacheErr-D (which in turn unlocks CacheErr-DPA). * Ought to log the occurrence of this recovered dcache error. */ b recovered mtc0 $0,C0_CERR_D attempt_recovery: /* * k0 has C0_ERRCTL << 1, which puts 'DC' at bit 31. Any * Dcache errors we can recover from will take more extensive * processing. For now, they are considered "unrecoverable". * Note that 'DC' becoming set (outside of ERL mode) will * cause 'IC' to clear; so if there's an Icache error, we'll * only find out about it if we recover from this error and * continue executing. */ bltz k0,unrecoverable sll k0,1 /* * k0 has C0_ERRCTL << 2, which puts 'IC' at bit 31. If an * Icache error isn't indicated, I'm not sure why we got here. * Consider that case "unrecoverable" for now. */ bgez k0,unrecoverable attempt_icache_recovery: /* * External icache errors are due to uncorrectable ECC errors * in the L2 cache or Memory Controller and cannot be * recovered here. */ mfc0 k0,C0_CERR_I /* delay slot */ li k1,1 << 26 /* ICACHE_EXTERNAL */ and k1,k0 bnez k1,unrecoverable andi k0,0x1fe0 /* * Since the error is internal, the 'IDX' field from * CacheErr-I is valid and we can just invalidate all blocks * in that set. */ cache Index_Invalidate_I,(0<<13)(k0) cache Index_Invalidate_I,(1<<13)(k0) cache Index_Invalidate_I,(2<<13)(k0) cache Index_Invalidate_I,(3<<13)(k0) /* Ought to log this recovered icache error */ recovered: /* Restore the saved registers */ ld k0,0x170($0) ld k1,0x178($0) eret unrecoverable: /* Unrecoverable Icache or Dcache error; log it and/or fail */ j handle_vec2_sb1 nop #endif END(except_vec2_sb1) LEAF(handle_vec2_sb1) mfc0 k0,CP0_CONFIG li k1,~CONF_CM_CMASK and k0,k0,k1 ori k0,k0,CONF_CM_UNCACHED mtc0 k0,CP0_CONFIG SSNOP SSNOP SSNOP SSNOP bnezl $0, 1f 1: mfc0 k0, CP0_STATUS sll k0, k0, 3 # check CU0 (kernel?) bltz k0, 2f nop /* Get a valid Kseg0 stack pointer. Any task's stack pointer * will do, although if we ever want to resume execution we * better not have corrupted any state. */ get_saved_sp move sp, k1 2: j sb1_cache_error nop END(handle_vec2_sb1)