/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * General machine architecture & implementation specific * assembly language routines. */ #if defined(lint) #include #include #else /* lint */ #include "assym.h" #endif /* lint */ #include #include #include #include #include #include #include #if defined(lint) /* ARGSUSED */ void set_mmfsa_scratchpad(caddr_t vaddr) { } #else /* lint */ ENTRY(set_mmfsa_scratchpad) stxa %o0, [%g0]ASI_SCRATCHPAD retl nop SET_SIZE(set_mmfsa_scratchpad) #endif /* lint */ #if defined(lint) caddr_t get_mmfsa_scratchpad() { return (0); } #else /* lint */ ENTRY(get_mmfsa_scratchpad) ldxa [%g0]ASI_SCRATCHPAD, %o0 retl nop SET_SIZE(get_mmfsa_scratchpad) #endif /* lint */ #if defined(lint) /* ARGSUSED */ void cpu_intrq_unregister_powerdown(uint64_t doneflag_va) {} #else /* lint */ /* * Called from a x-trap at tl1 must use %g1 as arg * and save/restore %o0-%o5 after hypervisor calls */ ENTRY(cpu_intrq_unregister_powerdown) CPU_ADDR(%g2, %g3) add %g2, CPU_MCPU, %g2 /* * Save %o regs */ mov %o0, %g3 mov %o1, %g4 mov %o2, %g5 mov %o5, %g6 ldx [%g2 + MCPU_CPU_Q_BASE], %o1 mov INTR_CPU_Q, %o0 call hv_cpu_qconf mov %g0, %o2 ldx [%g2 + MCPU_DEV_Q_BASE], %o1 mov INTR_DEV_Q, %o0 call hv_cpu_qconf mov %g0, %o2 ldx [%g2 + MCPU_RQ_BASE], %o1 mov CPU_RQ, %o0 call hv_cpu_qconf mov %g0, %o2 ldx [%g2 + MCPU_NRQ_BASE], %o1 mov CPU_NRQ, %o0 call hv_cpu_qconf mov %g0, %o2 /* * set done flag to 0 */ stub %g0, [%g1] /* * Restore %o regs */ mov %g3, %o0 mov %g4, %o1 mov %g5, %o2 mov %g6, %o5 /* * This CPU is on its way out. Spin here * until the DR unconfigure code stops it. * Returning would put it back in the OS * where it might grab resources like locks, * causing some nastiness to occur. */ 0: ba,a 0b SET_SIZE(cpu_intrq_unregister_powerdown) #endif /* lint */ #if defined(lint) /* ARGSUSED */ int getprocessorid(void) { return (0); } #else /* lint */ /* * Get the processor ID. * === MID reg as specified in 15dec89 sun4u spec, sec 5.4.3 */ ENTRY(getprocessorid) CPU_INDEX(%o0, %o1) retl nop SET_SIZE(getprocessorid) #endif /* lint */ #if defined(lint) || defined(__lint) /* ARGSUSED */ hrtime_t tick2ns(hrtime_t tick, uint_t cpuid) { return 0; } #else /* lint */ ENTRY_NP(tick2ns) sethi %hi(cpunodes), %o4 or %o4, %lo(cpunodes), %o4 ! %o4 = &cpunodes ! Register usage: ! ! o0 = timestamp ! o2 = byte offset into cpunodes for tick_nsec_scale of this CPU ! o4 = &cpunodes ! mulx %o1, CPU_NODE_SIZE, %o2 ! %o2 = byte offset into cpunodes add %o2, TICK_NSEC_SCALE, %o2 ld [%o4 + %o2], %o2 ! %o2 = cpunodes[cpuid].tick_nsec_scale NATIVE_TIME_TO_NSEC_SCALE(%o0, %o2, %o3, TICK_NSEC_SHIFT) retl nop SET_SIZE(tick2ns) #endif /* lint */ #if defined(lint) /* ARGSUSED */ void set_cmp_error_steering(void) {} #else /* lint */ ENTRY(set_cmp_error_steering) retl nop SET_SIZE(set_cmp_error_steering) #endif /* lint */ #if defined(lint) /* ARGSUSED */ uint64_t ultra_getver(void) { return (0); } #else /* lint */ ENTRY(ultra_getver) retl mov -1, %o0 ! XXXQ no version available SET_SIZE(ultra_getver) #endif /* lint */ #if defined(lint) int fpras_chkfn_type1(void) { return 0; } #else /* lint */ /* * Check instructions using just the AX pipelines, designed by * C.B. Liaw of PNP. * * This function must match a struct fpras_chkfn and must be * block aligned. A zero return means all was well. These * instructions are chosen to be sensitive to bit corruptions * on the fpras rewrite, so if a bit corruption still produces * a valid instruction we should still get an incorrect result * here. This function is never called directly - it is copied * into per-cpu and per-operation buffers; it must therefore * be absolutely position independent. If an illegal instruction * is encountered then the trap handler trampolines to the final * three instructions of this function. * * We want two instructions that are complements of one another, * and which can perform a calculation with a known result. * * SETHI: * * | 0 0 | rd | 1 0 0 | imm22 | * 31 30 29 25 24 22 21 0 * * ADDCCC with two source registers: * * | 1 0 | rd | 0 1 1 0 0 0 | rs1 | 0 | - | rs2 | * 31 30 29 25 24 19 18 14 13 12 5 4 0 * * We can choose rd and imm2 of the SETHI and rd, rs1 and rs2 of * the ADDCCC to obtain instructions that are complements in all but * bit 30. * * Registers are numbered as follows: * * r[31] %i7 * r[30] %i6 * r[29] %i5 * r[28] %i4 * r[27] %i3 * r[26] %i2 * r[25] %i1 * r[24] %i0 * r[23] %l7 * r[22] %l6 * r[21] %l5 * r[20] %l4 * r[19] %l3 * r[18] %l2 * r[17] %l1 * r[16] %l0 * r[15] %o7 * r[14] %o6 * r[13] %o5 * r[12] %o4 * r[11] %o3 * r[10] %o2 * r[9] %o1 * r[8] %o0 * r[7] %g7 * r[6] %g6 * r[5] %g5 * r[4] %g4 * r[3] %g3 * r[2] %g2 * r[1] %g1 * r[0] %g0 * * For register r[n], register r[31-n] is the complement. We must * avoid use of %i6/%i7 and %o6/%o7 as well as %g7. Clearly we need * to use a local or input register as one half of the pair, which * requires us to obtain our own register window or take steps * to preserve any local or input we choose to use. We choose * %o1 as rd for the SETHI, so rd of the ADDCCC must be %l6. * We'll use %o1 as rs1 and %l6 as rs2 of the ADDCCC, which then * requires that imm22 be 0b111 10110 1 11111111 01001 or 0x3dbfe9, * or %hi(0xf6ffa400). This determines the value of the constant * CBV2 below. * * The constant CBV1 is chosen such that an initial subcc %g0, CBV1 * will set the carry bit and every addccc thereafter will continue * to generate a carry. Other values are possible for CBV1 - this * is just one that works this way. * * Finally CBV3 is the expected answer when we perform our repeated * calculations on CBV1 and CBV2 - it is not otherwise specially * derived. If this result is not obtained then a corruption has * occured during the FPRAS_REWRITE of one of the two blocks of * 16 instructions. A corruption could also result in an illegal * instruction or other unexpected trap - we catch illegal * instruction traps in the PC range and trampoline to the * last instructions of the function to return a failure indication. * */ #define CBV1 0xc11 #define CBV2 0xf6ffa400 #define CBV3 0x66f9d800 #define CBR1 %o1 #define CBR2 %l6 #define CBO2 %o2 #define SETHI_CBV2_CBR1 sethi %hi(CBV2), CBR1 #define ADDCCC_CBR1_CBR2_CBR2 addccc CBR1, CBR2, CBR2 .align 64 ENTRY_NP(fpras_chkfn_type1) mov CBR2, CBO2 ! 1, preserve CBR2 of (callers) window mov FPRAS_OK, %o0 ! 2, default return value ba,pt %icc, 1f ! 3 subcc %g0, CBV1, CBR2 ! 4 ! 5 - 16 .align 64 1: SETHI_CBV2_CBR1 ! 1 ADDCCC_CBR1_CBR2_CBR2 ! 2 SETHI_CBV2_CBR1 ! 3 ADDCCC_CBR1_CBR2_CBR2 ! 4 SETHI_CBV2_CBR1 ! 5 ADDCCC_CBR1_CBR2_CBR2 ! 6 SETHI_CBV2_CBR1 ! 7 ADDCCC_CBR1_CBR2_CBR2 ! 8 SETHI_CBV2_CBR1 ! 9 ADDCCC_CBR1_CBR2_CBR2 ! 10 SETHI_CBV2_CBR1 ! 11 ADDCCC_CBR1_CBR2_CBR2 ! 12 SETHI_CBV2_CBR1 ! 13 ADDCCC_CBR1_CBR2_CBR2 ! 14 SETHI_CBV2_CBR1 ! 15 ADDCCC_CBR1_CBR2_CBR2 ! 16 ADDCCC_CBR1_CBR2_CBR2 ! 1 SETHI_CBV2_CBR1 ! 2 ADDCCC_CBR1_CBR2_CBR2 ! 3 SETHI_CBV2_CBR1 ! 4 ADDCCC_CBR1_CBR2_CBR2 ! 5 SETHI_CBV2_CBR1 ! 6 ADDCCC_CBR1_CBR2_CBR2 ! 7 SETHI_CBV2_CBR1 ! 8 ADDCCC_CBR1_CBR2_CBR2 ! 9 SETHI_CBV2_CBR1 ! 10 ADDCCC_CBR1_CBR2_CBR2 ! 11 SETHI_CBV2_CBR1 ! 12 ADDCCC_CBR1_CBR2_CBR2 ! 13 SETHI_CBV2_CBR1 ! 14 ADDCCC_CBR1_CBR2_CBR2 ! 15 SETHI_CBV2_CBR1 ! 16 addc CBR1, CBR2, CBR2 ! 1 sethi %hi(CBV3), CBR1 ! 2 cmp CBR1, CBR2 ! 3 movnz %icc, FPRAS_BADCALC, %o0! 4, how detected retl ! 5 mov CBO2, CBR2 ! 6, restore borrowed register .skip 4*(13-7+1) ! 7 - 13 ! ! illegal instr'n trap comes here ! mov CBO2, CBR2 ! 14, restore borrowed register retl ! 15 mov FPRAS_BADTRAP, %o0 ! 16, how detected SET_SIZE(fpras_chkfn_type1) #endif /* lint */