/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * Assembly code support for the Cheetah module */ #include "assym.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef TRAPTRACE #include #endif /* TRAPTRACE */ /* BEGIN CSTYLED */ /* * Cheetah version to flush an Ecache line by index (aliased address) */ #define ECACHE_REFLUSH_LINE(ecache_size, alias_address, scr2) \ ldxa [alias_address]ASI_MEM, %g0 #define ECACHE_FLUSH_LINE(physaddr, ecache_size, scr1, scr2) \ xor physaddr, ecache_size, scr1; \ add ecache_size, ecache_size, scr2; \ sub scr2, 1, scr2; \ and scr1, scr2, scr1; \ ASM_LDX(scr2, ecache_flushaddr); \ add scr1, scr2, scr1; \ ECACHE_REFLUSH_LINE(ecache_size, scr1, scr2) /* END CSTYLED */ /* * Fast ECC error at TL>0 handler * We get here via trap 70 at TL>0->Software trap 0 at TL>0. We enter * this routine with %g1 and %g2 already saved in %tpc, %tnpc and %tstate. * For a complete description of the Fast ECC at TL>0 handling see the * comment block "Cheetah/Cheetah+ Fast ECC at TL>0 trap strategy" in * us3_common_asm.s */ .section ".text" .align 64 ENTRY_NP(fast_ecc_tl1_err) /* * This macro turns off the D$/I$ if they are on and saves their * original state in ch_err_tl1_tmp, saves all the %g registers in the * ch_err_tl1_data structure, updates the ch_err_tl1_flags and saves * the %tpc in ch_err_tl1_tpc. At the end of this macro, %g1 will * point to the ch_err_tl1_data structure and the original D$/I$ state * will be saved in ch_err_tl1_tmp. All %g registers except for %g1 * will be available. */ CH_ERR_TL1_FECC_ENTER; /* * Get the diagnostic logout data. %g4 must be initialized to * current CEEN state, %g5 must point to logout structure in * ch_err_tl1_data_t. %g3 will contain the nesting count upon * return. */ ldxa [%g0]ASI_ESTATE_ERR, %g4 and %g4, EN_REG_CEEN, %g4 add %g1, CH_ERR_TL1_LOGOUT, %g5 DO_TL1_CPU_LOGOUT(%g3, %g2, %g4, %g5, %g6, %g3, %g4) /* * If the logout nesting count is exceeded, we're probably * not making any progress, try to panic instead. */ cmp %g3, CLO_NESTING_MAX bge fecc_tl1_err nop /* * Save the current CEEN and NCEEN state in %g7 and turn them off * before flushing the Ecache. */ ldxa [%g0]ASI_ESTATE_ERR, %g7 andn %g7, EN_REG_CEEN | EN_REG_NCEEN, %g5 stxa %g5, [%g0]ASI_ESTATE_ERR membar #Sync /* * Flush the Ecache, using the largest possible cache size with the * smallest possible line size since we can't get the actual sizes * from the cpu_node due to DTLB misses. */ set CH_ECACHE_8M_SIZE, %g4 set CH_ECACHE_MIN_LSIZE, %g5 /* * Use a different flush address to avoid recursion if the error * exists in ecache_flushaddr. */ ASM_LDX(%g6, ecache_tl1_flushaddr) cmp %g6, -1 ! check if address is valid be %xcc, fecc_tl1_err nop CH_ECACHE_FLUSHALL(%g4, %g5, %g6) /* * Restore CEEN and NCEEN to the previous state. */ stxa %g7, [%g0]ASI_ESTATE_ERR membar #Sync /* * If we turned off the D$, then flush it and turn it back on. */ ldxa [%g1 + CH_ERR_TL1_TMP]%asi, %g3 andcc %g3, CH_ERR_TSTATE_DC_ON, %g0 bz %xcc, 3f nop /* * Flush the D$. */ ASM_LD(%g4, dcache_size) ASM_LD(%g5, dcache_linesize) CH_DCACHE_FLUSHALL(%g4, %g5, %g6) /* * Turn the D$ back on. */ ldxa [%g0]ASI_DCU, %g3 or %g3, DCU_DC, %g3 stxa %g3, [%g0]ASI_DCU membar #Sync 3: /* * If we turned off the I$, then flush it and turn it back on. */ ldxa [%g1 + CH_ERR_TL1_TMP]%asi, %g3 andcc %g3, CH_ERR_TSTATE_IC_ON, %g0 bz %xcc, 4f nop /* * Flush the I$. */ ASM_LD(%g4, icache_size) ASM_LD(%g5, icache_linesize) CH_ICACHE_FLUSHALL(%g4, %g5, %g6, %g3) /* * Turn the I$ back on. Changing DCU_IC requires flush. */ ldxa [%g0]ASI_DCU, %g3 or %g3, DCU_IC, %g3 stxa %g3, [%g0]ASI_DCU flush %g0 4: #ifdef TRAPTRACE /* * Get current trap trace entry physical pointer. */ CPU_INDEX(%g6, %g5) sll %g6, TRAPTR_SIZE_SHIFT, %g6 set trap_trace_ctl, %g5 add %g6, %g5, %g6 ld [%g6 + TRAPTR_LIMIT], %g5 tst %g5 be %icc, skip_traptrace nop ldx [%g6 + TRAPTR_PBASE], %g5 ld [%g6 + TRAPTR_OFFSET], %g4 add %g5, %g4, %g5 /* * Create trap trace entry. */ rd %asi, %g7 wr %g0, TRAPTR_ASI, %asi rd STICK, %g4 stxa %g4, [%g5 + TRAP_ENT_TICK]%asi rdpr %tl, %g4 stha %g4, [%g5 + TRAP_ENT_TL]%asi rdpr %tt, %g4 stha %g4, [%g5 + TRAP_ENT_TT]%asi rdpr %tpc, %g4 stna %g4, [%g5 + TRAP_ENT_TPC]%asi rdpr %tstate, %g4 stxa %g4, [%g5 + TRAP_ENT_TSTATE]%asi stna %sp, [%g5 + TRAP_ENT_SP]%asi stna %g0, [%g5 + TRAP_ENT_TR]%asi wr %g0, %g7, %asi ldxa [%g1 + CH_ERR_TL1_SDW_AFAR]%asi, %g3 ldxa [%g1 + CH_ERR_TL1_SDW_AFSR]%asi, %g4 wr %g0, TRAPTR_ASI, %asi stna %g3, [%g5 + TRAP_ENT_F1]%asi stna %g4, [%g5 + TRAP_ENT_F2]%asi wr %g0, %g7, %asi ldxa [%g1 + CH_ERR_TL1_AFAR]%asi, %g3 ldxa [%g1 + CH_ERR_TL1_AFSR]%asi, %g4 wr %g0, TRAPTR_ASI, %asi stna %g3, [%g5 + TRAP_ENT_F3]%asi stna %g4, [%g5 + TRAP_ENT_F4]%asi wr %g0, %g7, %asi /* * Advance trap trace pointer. */ ld [%g6 + TRAPTR_OFFSET], %g5 ld [%g6 + TRAPTR_LIMIT], %g4 st %g5, [%g6 + TRAPTR_LAST_OFFSET] add %g5, TRAP_ENT_SIZE, %g5 sub %g4, TRAP_ENT_SIZE, %g4 cmp %g5, %g4 movge %icc, 0, %g5 st %g5, [%g6 + TRAPTR_OFFSET] skip_traptrace: #endif /* TRAPTRACE */ /* * If nesting count is not zero, skip all the AFSR/AFAR * handling and just do the necessary cache-flushing. */ ldxa [%g1 + CH_ERR_TL1_NEST_CNT]%asi, %g2 brnz %g2, 6f nop /* * If a UCU followed by a WDU has occurred go ahead and panic * since a UE will occur (on the retry) before the UCU and WDU * messages are enqueued. */ ldxa [%g1 + CH_ERR_TL1_AFSR]%asi, %g3 set 1, %g4 sllx %g4, C_AFSR_UCU_SHIFT, %g4 btst %g4, %g3 ! UCU in original AFSR? bz %xcc, 6f nop ldxa [%g0]ASI_AFSR, %g4 ! current AFSR or %g3, %g4, %g3 ! %g3 = original + current AFSR set 1, %g4 sllx %g4, C_AFSR_WDU_SHIFT, %g4 btst %g4, %g3 ! WDU in original or current AFSR? bnz %xcc, fecc_tl1_err nop 6: /* * We fall into this macro if we've successfully logged the error in * the ch_err_tl1_data structure and want the PIL15 softint to pick * it up and log it. %g1 must point to the ch_err_tl1_data structure. * Restores the %g registers and issues retry. */ CH_ERR_TL1_EXIT; /* * Establish panic exit label. */ CH_ERR_TL1_PANIC_EXIT(fecc_tl1_err); SET_SIZE(fast_ecc_tl1_err) /* * scrubphys - Pass in the aligned physical memory address * that you want to scrub, along with the ecache set size. * * 1) Displacement flush the E$ line corresponding to %addr. * The first ldxa guarantees that the %addr is no longer in * M, O, or E (goes to I or S (if instruction fetch also happens). * 2) "Write" the data using a CAS %addr,%g0,%g0. * The casxa guarantees a transition from I to M or S to M. * 3) Displacement flush the E$ line corresponding to %addr. * The second ldxa pushes the M line out of the ecache, into the * writeback buffers, on the way to memory. * 4) The "membar #Sync" pushes the cache line out of the writeback * buffers onto the bus, on the way to dram finally. * * This is a modified version of the algorithm suggested by Gary Lauterbach. * In theory the CAS %addr,%g0,%g0 is supposed to mark the addr's cache line * as modified, but then we found out that for spitfire, if it misses in the * E$ it will probably install as an M, but if it hits in the E$, then it * will stay E, if the store doesn't happen. So the first displacement flush * should ensure that the CAS will miss in the E$. Arrgh. */ ENTRY(scrubphys) rdpr %pstate, %o4 andn %o4, PSTATE_IE | PSTATE_AM, %o5 wrpr %o5, %g0, %pstate ! clear IE, AM bits ECACHE_FLUSH_LINE(%o0, %o1, %o2, %o3) casxa [%o0]ASI_MEM, %g0, %g0 ECACHE_REFLUSH_LINE(%o1, %o2, %o3) wrpr %g0, %o4, %pstate ! restore earlier pstate register value retl membar #Sync ! move the data out of the load buffer SET_SIZE(scrubphys) /* * clearphys - Pass in the physical memory address of the checkblock * that you want to push out, cleared with a recognizable pattern, * from the ecache. * * To ensure that the ecc gets recalculated after the bad data is cleared, * we must write out enough data to fill the w$ line (64 bytes). So we read * in an entire ecache subblock's worth of data, and write it back out. * Then we overwrite the 16 bytes of bad data with the pattern. */ ENTRY(clearphys) /* turn off IE, AM bits */ rdpr %pstate, %o4 andn %o4, PSTATE_IE | PSTATE_AM, %o5 wrpr %o5, %g0, %pstate /* turn off NCEEN */ ldxa [%g0]ASI_ESTATE_ERR, %o5 andn %o5, EN_REG_NCEEN, %o3 stxa %o3, [%g0]ASI_ESTATE_ERR membar #Sync /* align address passed with 64 bytes subblock size */ mov CH_ECACHE_SUBBLK_SIZE, %o2 andn %o0, (CH_ECACHE_SUBBLK_SIZE - 1), %g1 /* move the good data into the W$ */ 1: subcc %o2, 8, %o2 ldxa [%g1 + %o2]ASI_MEM, %g2 bge 1b stxa %g2, [%g1 + %o2]ASI_MEM /* now overwrite the bad data */ setx 0xbadecc00badecc01, %g1, %g2 stxa %g2, [%o0]ASI_MEM mov 8, %g1 stxa %g2, [%o0 + %g1]ASI_MEM ECACHE_FLUSH_LINE(%o0, %o1, %o2, %o3) casxa [%o0]ASI_MEM, %g0, %g0 ECACHE_REFLUSH_LINE(%o1, %o2, %o3) /* clear the AFSR */ ldxa [%g0]ASI_AFSR, %o1 stxa %o1, [%g0]ASI_AFSR membar #Sync /* turn NCEEN back on */ stxa %o5, [%g0]ASI_ESTATE_ERR membar #Sync /* return and re-enable IE and AM */ retl wrpr %g0, %o4, %pstate SET_SIZE(clearphys) /* * Cheetah Ecache displacement flush the specified line from the E$ * * Register usage: * %o0 - 64 bit physical address for flushing * %o1 - Ecache set size */ ENTRY(ecache_flush_line) ECACHE_FLUSH_LINE(%o0, %o1, %o2, %o3) retl nop SET_SIZE(ecache_flush_line) /* * This routine will not be called in Cheetah systems. */ ENTRY(flush_ipb) retl nop SET_SIZE(flush_ipb)