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|
/*
* PowerPC emulation special registers manipulation helpers for qemu.
*
* Copyright (c) 2003-2007 Jocelyn Mayer
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include "qemu/osdep.h"
#include "cpu.h"
#include "qemu/main-loop.h"
#include "exec/exec-all.h"
#include "sysemu/kvm.h"
#include "helper_regs.h"
#include "power8-pmu.h"
#include "cpu-models.h"
#include "spr_common.h"
/* Swap temporary saved registers with GPRs */
void hreg_swap_gpr_tgpr(CPUPPCState *env)
{
target_ulong tmp;
tmp = env->gpr[0];
env->gpr[0] = env->tgpr[0];
env->tgpr[0] = tmp;
tmp = env->gpr[1];
env->gpr[1] = env->tgpr[1];
env->tgpr[1] = tmp;
tmp = env->gpr[2];
env->gpr[2] = env->tgpr[2];
env->tgpr[2] = tmp;
tmp = env->gpr[3];
env->gpr[3] = env->tgpr[3];
env->tgpr[3] = tmp;
}
static uint32_t hreg_compute_hflags_value(CPUPPCState *env)
{
target_ulong msr = env->msr;
uint32_t ppc_flags = env->flags;
uint32_t hflags = 0;
uint32_t msr_mask;
/* Some bits come straight across from MSR. */
QEMU_BUILD_BUG_ON(MSR_LE != HFLAGS_LE);
QEMU_BUILD_BUG_ON(MSR_PR != HFLAGS_PR);
QEMU_BUILD_BUG_ON(MSR_DR != HFLAGS_DR);
QEMU_BUILD_BUG_ON(MSR_FP != HFLAGS_FP);
msr_mask = ((1 << MSR_LE) | (1 << MSR_PR) |
(1 << MSR_DR) | (1 << MSR_FP));
if (ppc_flags & POWERPC_FLAG_DE) {
target_ulong dbcr0 = env->spr[SPR_BOOKE_DBCR0];
if ((dbcr0 & DBCR0_ICMP) && msr_de) {
hflags |= 1 << HFLAGS_SE;
}
if ((dbcr0 & DBCR0_BRT) && msr_de) {
hflags |= 1 << HFLAGS_BE;
}
} else {
if (ppc_flags & POWERPC_FLAG_BE) {
QEMU_BUILD_BUG_ON(MSR_BE != HFLAGS_BE);
msr_mask |= 1 << MSR_BE;
}
if (ppc_flags & POWERPC_FLAG_SE) {
QEMU_BUILD_BUG_ON(MSR_SE != HFLAGS_SE);
msr_mask |= 1 << MSR_SE;
}
}
if (msr_is_64bit(env, msr)) {
hflags |= 1 << HFLAGS_64;
}
if ((ppc_flags & POWERPC_FLAG_SPE) && (msr & (1 << MSR_SPE))) {
hflags |= 1 << HFLAGS_SPE;
}
if (ppc_flags & POWERPC_FLAG_VRE) {
QEMU_BUILD_BUG_ON(MSR_VR != HFLAGS_VR);
msr_mask |= 1 << MSR_VR;
}
if (ppc_flags & POWERPC_FLAG_VSX) {
QEMU_BUILD_BUG_ON(MSR_VSX != HFLAGS_VSX);
msr_mask |= 1 << MSR_VSX;
}
if ((ppc_flags & POWERPC_FLAG_TM) && (msr & (1ull << MSR_TM))) {
hflags |= 1 << HFLAGS_TM;
}
if (env->spr[SPR_LPCR] & LPCR_GTSE) {
hflags |= 1 << HFLAGS_GTSE;
}
if (env->spr[SPR_LPCR] & LPCR_HR) {
hflags |= 1 << HFLAGS_HR;
}
if (env->spr[SPR_POWER_MMCR0] & MMCR0_PMCC0) {
hflags |= 1 << HFLAGS_PMCC0;
}
if (env->spr[SPR_POWER_MMCR0] & MMCR0_PMCC1) {
hflags |= 1 << HFLAGS_PMCC1;
}
#ifndef CONFIG_USER_ONLY
if (!env->has_hv_mode || (msr & (1ull << MSR_HV))) {
hflags |= 1 << HFLAGS_HV;
}
#if defined(TARGET_PPC64)
if (env->pmc_ins_cnt) {
hflags |= 1 << HFLAGS_INSN_CNT;
}
#endif
/*
* This is our encoding for server processors. The architecture
* specifies that there is no such thing as userspace with
* translation off, however it appears that MacOS does it and some
* 32-bit CPUs support it. Weird...
*
* 0 = Guest User space virtual mode
* 1 = Guest Kernel space virtual mode
* 2 = Guest User space real mode
* 3 = Guest Kernel space real mode
* 4 = HV User space virtual mode
* 5 = HV Kernel space virtual mode
* 6 = HV User space real mode
* 7 = HV Kernel space real mode
*
* For BookE, we need 8 MMU modes as follow:
*
* 0 = AS 0 HV User space
* 1 = AS 0 HV Kernel space
* 2 = AS 1 HV User space
* 3 = AS 1 HV Kernel space
* 4 = AS 0 Guest User space
* 5 = AS 0 Guest Kernel space
* 6 = AS 1 Guest User space
* 7 = AS 1 Guest Kernel space
*/
unsigned immu_idx, dmmu_idx;
dmmu_idx = msr & (1 << MSR_PR) ? 0 : 1;
if (env->mmu_model == POWERPC_MMU_BOOKE ||
env->mmu_model == POWERPC_MMU_BOOKE206) {
dmmu_idx |= msr & (1 << MSR_GS) ? 4 : 0;
immu_idx = dmmu_idx;
immu_idx |= msr & (1 << MSR_IS) ? 2 : 0;
dmmu_idx |= msr & (1 << MSR_DS) ? 2 : 0;
} else {
dmmu_idx |= msr & (1ull << MSR_HV) ? 4 : 0;
immu_idx = dmmu_idx;
immu_idx |= msr & (1 << MSR_IR) ? 0 : 2;
dmmu_idx |= msr & (1 << MSR_DR) ? 0 : 2;
}
hflags |= immu_idx << HFLAGS_IMMU_IDX;
hflags |= dmmu_idx << HFLAGS_DMMU_IDX;
#endif
return hflags | (msr & msr_mask);
}
void hreg_compute_hflags(CPUPPCState *env)
{
env->hflags = hreg_compute_hflags_value(env);
}
#ifdef CONFIG_DEBUG_TCG
void cpu_get_tb_cpu_state(CPUPPCState *env, target_ulong *pc,
target_ulong *cs_base, uint32_t *flags)
{
uint32_t hflags_current = env->hflags;
uint32_t hflags_rebuilt;
*pc = env->nip;
*cs_base = 0;
*flags = hflags_current;
hflags_rebuilt = hreg_compute_hflags_value(env);
if (unlikely(hflags_current != hflags_rebuilt)) {
cpu_abort(env_cpu(env),
"TCG hflags mismatch (current:0x%08x rebuilt:0x%08x)\n",
hflags_current, hflags_rebuilt);
}
}
#endif
void cpu_interrupt_exittb(CPUState *cs)
{
/*
* We don't need to worry about translation blocks
* when running with KVM.
*/
if (kvm_enabled()) {
return;
}
if (!qemu_mutex_iothread_locked()) {
qemu_mutex_lock_iothread();
cpu_interrupt(cs, CPU_INTERRUPT_EXITTB);
qemu_mutex_unlock_iothread();
} else {
cpu_interrupt(cs, CPU_INTERRUPT_EXITTB);
}
}
int hreg_store_msr(CPUPPCState *env, target_ulong value, int alter_hv)
{
int excp;
#if !defined(CONFIG_USER_ONLY)
CPUState *cs = env_cpu(env);
#endif
excp = 0;
value &= env->msr_mask;
#if !defined(CONFIG_USER_ONLY)
/* Neither mtmsr nor guest state can alter HV */
if (!alter_hv || !(env->msr & MSR_HVB)) {
value &= ~MSR_HVB;
value |= env->msr & MSR_HVB;
}
if (((value >> MSR_IR) & 1) != msr_ir ||
((value >> MSR_DR) & 1) != msr_dr) {
cpu_interrupt_exittb(cs);
}
if ((env->mmu_model == POWERPC_MMU_BOOKE ||
env->mmu_model == POWERPC_MMU_BOOKE206) &&
((value >> MSR_GS) & 1) != msr_gs) {
cpu_interrupt_exittb(cs);
}
if (unlikely((env->flags & POWERPC_FLAG_TGPR) &&
((value ^ env->msr) & (1 << MSR_TGPR)))) {
/* Swap temporary saved registers with GPRs */
hreg_swap_gpr_tgpr(env);
}
if (unlikely((value >> MSR_EP) & 1) != msr_ep) {
env->excp_prefix = ((value >> MSR_EP) & 1) * 0xFFF00000;
}
/*
* If PR=1 then EE, IR and DR must be 1
*
* Note: We only enforce this on 64-bit server processors.
* It appears that:
* - 32-bit implementations supports PR=1 and EE/DR/IR=0 and MacOS
* exploits it.
* - 64-bit embedded implementations do not need any operation to be
* performed when PR is set.
*/
if (is_book3s_arch2x(env) && ((value >> MSR_PR) & 1)) {
value |= (1 << MSR_EE) | (1 << MSR_DR) | (1 << MSR_IR);
}
#endif
env->msr = value;
hreg_compute_hflags(env);
#if !defined(CONFIG_USER_ONLY)
if (unlikely(FIELD_EX64(env->msr, MSR, POW))) {
if (!env->pending_interrupts && (*env->check_pow)(env)) {
cs->halted = 1;
excp = EXCP_HALTED;
}
}
#endif
return excp;
}
#ifdef CONFIG_SOFTMMU
void store_40x_sler(CPUPPCState *env, uint32_t val)
{
/* XXX: TO BE FIXED */
if (val != 0x00000000) {
cpu_abort(env_cpu(env),
"Little-endian regions are not supported by now\n");
}
env->spr[SPR_405_SLER] = val;
}
#endif /* CONFIG_SOFTMMU */
#ifndef CONFIG_USER_ONLY
void check_tlb_flush(CPUPPCState *env, bool global)
{
CPUState *cs = env_cpu(env);
/* Handle global flushes first */
if (global && (env->tlb_need_flush & TLB_NEED_GLOBAL_FLUSH)) {
env->tlb_need_flush &= ~TLB_NEED_GLOBAL_FLUSH;
env->tlb_need_flush &= ~TLB_NEED_LOCAL_FLUSH;
tlb_flush_all_cpus_synced(cs);
return;
}
/* Then handle local ones */
if (env->tlb_need_flush & TLB_NEED_LOCAL_FLUSH) {
env->tlb_need_flush &= ~TLB_NEED_LOCAL_FLUSH;
tlb_flush(cs);
}
}
#endif
/**
* _spr_register
*
* Register an SPR with all the callbacks required for tcg,
* and the ID number for KVM.
*
* The reason for the conditional compilation is that the tcg functions
* may be compiled out, and the system kvm header may not be available
* for supplying the ID numbers. This is ugly, but the best we can do.
*/
void _spr_register(CPUPPCState *env, int num, const char *name,
USR_ARG(spr_callback *uea_read)
USR_ARG(spr_callback *uea_write)
SYS_ARG(spr_callback *oea_read)
SYS_ARG(spr_callback *oea_write)
SYS_ARG(spr_callback *hea_read)
SYS_ARG(spr_callback *hea_write)
KVM_ARG(uint64_t one_reg_id)
target_ulong initial_value)
{
ppc_spr_t *spr = &env->spr_cb[num];
/* No SPR should be registered twice. */
assert(spr->name == NULL);
assert(name != NULL);
spr->name = name;
spr->default_value = initial_value;
env->spr[num] = initial_value;
#ifdef CONFIG_TCG
spr->uea_read = uea_read;
spr->uea_write = uea_write;
# ifndef CONFIG_USER_ONLY
spr->oea_read = oea_read;
spr->oea_write = oea_write;
spr->hea_read = hea_read;
spr->hea_write = hea_write;
# endif
#endif
#ifdef CONFIG_KVM
spr->one_reg_id = one_reg_id;
#endif
}
/* Generic PowerPC SPRs */
void register_generic_sprs(PowerPCCPU *cpu)
{
PowerPCCPUClass *pcc = POWERPC_CPU_GET_CLASS(cpu);
CPUPPCState *env = &cpu->env;
/* Integer processing */
spr_register(env, SPR_XER, "XER",
&spr_read_xer, &spr_write_xer,
&spr_read_xer, &spr_write_xer,
0x00000000);
/* Branch control */
spr_register(env, SPR_LR, "LR",
&spr_read_lr, &spr_write_lr,
&spr_read_lr, &spr_write_lr,
0x00000000);
spr_register(env, SPR_CTR, "CTR",
&spr_read_ctr, &spr_write_ctr,
&spr_read_ctr, &spr_write_ctr,
0x00000000);
/* Interrupt processing */
spr_register(env, SPR_SRR0, "SRR0",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
0x00000000);
spr_register(env, SPR_SRR1, "SRR1",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
0x00000000);
/* Processor control */
spr_register(env, SPR_SPRG0, "SPRG0",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
0x00000000);
spr_register(env, SPR_SPRG1, "SPRG1",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
0x00000000);
spr_register(env, SPR_SPRG2, "SPRG2",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
0x00000000);
spr_register(env, SPR_SPRG3, "SPRG3",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
0x00000000);
spr_register(env, SPR_PVR, "PVR",
/* Linux permits userspace to read PVR */
#if defined(CONFIG_LINUX_USER)
&spr_read_generic,
#else
SPR_NOACCESS,
#endif
SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
pcc->pvr);
/* Register SVR if it's defined to anything else than POWERPC_SVR_NONE */
if (pcc->svr != POWERPC_SVR_NONE) {
if (pcc->svr & POWERPC_SVR_E500) {
spr_register(env, SPR_E500_SVR, "SVR",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
pcc->svr & ~POWERPC_SVR_E500);
} else {
spr_register(env, SPR_SVR, "SVR",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
pcc->svr);
}
}
/* Time base */
spr_register(env, SPR_VTBL, "TBL",
&spr_read_tbl, SPR_NOACCESS,
&spr_read_tbl, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_TBL, "TBL",
&spr_read_tbl, SPR_NOACCESS,
&spr_read_tbl, &spr_write_tbl,
0x00000000);
spr_register(env, SPR_VTBU, "TBU",
&spr_read_tbu, SPR_NOACCESS,
&spr_read_tbu, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_TBU, "TBU",
&spr_read_tbu, SPR_NOACCESS,
&spr_read_tbu, &spr_write_tbu,
0x00000000);
}
void register_non_embedded_sprs(CPUPPCState *env)
{
/* Exception processing */
spr_register_kvm(env, SPR_DSISR, "DSISR",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
KVM_REG_PPC_DSISR, 0x00000000);
spr_register_kvm(env, SPR_DAR, "DAR",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
KVM_REG_PPC_DAR, 0x00000000);
/* Timer */
spr_register(env, SPR_DECR, "DECR",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_decr, &spr_write_decr,
0x00000000);
}
/* Storage Description Register 1 */
void register_sdr1_sprs(CPUPPCState *env)
{
#ifndef CONFIG_USER_ONLY
if (env->has_hv_mode) {
/*
* SDR1 is a hypervisor resource on CPUs which have a
* hypervisor mode
*/
spr_register_hv(env, SPR_SDR1, "SDR1",
SPR_NOACCESS, SPR_NOACCESS,
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_sdr1,
0x00000000);
} else {
spr_register(env, SPR_SDR1, "SDR1",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_sdr1,
0x00000000);
}
#endif
}
/* BATs 0-3 */
void register_low_BATs(CPUPPCState *env)
{
#if !defined(CONFIG_USER_ONLY)
spr_register(env, SPR_IBAT0U, "IBAT0U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatu,
0x00000000);
spr_register(env, SPR_IBAT0L, "IBAT0L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatl,
0x00000000);
spr_register(env, SPR_IBAT1U, "IBAT1U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatu,
0x00000000);
spr_register(env, SPR_IBAT1L, "IBAT1L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatl,
0x00000000);
spr_register(env, SPR_IBAT2U, "IBAT2U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatu,
0x00000000);
spr_register(env, SPR_IBAT2L, "IBAT2L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatl,
0x00000000);
spr_register(env, SPR_IBAT3U, "IBAT3U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatu,
0x00000000);
spr_register(env, SPR_IBAT3L, "IBAT3L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat, &spr_write_ibatl,
0x00000000);
spr_register(env, SPR_DBAT0U, "DBAT0U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatu,
0x00000000);
spr_register(env, SPR_DBAT0L, "DBAT0L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatl,
0x00000000);
spr_register(env, SPR_DBAT1U, "DBAT1U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatu,
0x00000000);
spr_register(env, SPR_DBAT1L, "DBAT1L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatl,
0x00000000);
spr_register(env, SPR_DBAT2U, "DBAT2U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatu,
0x00000000);
spr_register(env, SPR_DBAT2L, "DBAT2L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatl,
0x00000000);
spr_register(env, SPR_DBAT3U, "DBAT3U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatu,
0x00000000);
spr_register(env, SPR_DBAT3L, "DBAT3L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat, &spr_write_dbatl,
0x00000000);
env->nb_BATs += 4;
#endif
}
/* BATs 4-7 */
void register_high_BATs(CPUPPCState *env)
{
#if !defined(CONFIG_USER_ONLY)
spr_register(env, SPR_IBAT4U, "IBAT4U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatu_h,
0x00000000);
spr_register(env, SPR_IBAT4L, "IBAT4L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatl_h,
0x00000000);
spr_register(env, SPR_IBAT5U, "IBAT5U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatu_h,
0x00000000);
spr_register(env, SPR_IBAT5L, "IBAT5L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatl_h,
0x00000000);
spr_register(env, SPR_IBAT6U, "IBAT6U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatu_h,
0x00000000);
spr_register(env, SPR_IBAT6L, "IBAT6L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatl_h,
0x00000000);
spr_register(env, SPR_IBAT7U, "IBAT7U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatu_h,
0x00000000);
spr_register(env, SPR_IBAT7L, "IBAT7L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_ibat_h, &spr_write_ibatl_h,
0x00000000);
spr_register(env, SPR_DBAT4U, "DBAT4U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatu_h,
0x00000000);
spr_register(env, SPR_DBAT4L, "DBAT4L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatl_h,
0x00000000);
spr_register(env, SPR_DBAT5U, "DBAT5U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatu_h,
0x00000000);
spr_register(env, SPR_DBAT5L, "DBAT5L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatl_h,
0x00000000);
spr_register(env, SPR_DBAT6U, "DBAT6U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatu_h,
0x00000000);
spr_register(env, SPR_DBAT6L, "DBAT6L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatl_h,
0x00000000);
spr_register(env, SPR_DBAT7U, "DBAT7U",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatu_h,
0x00000000);
spr_register(env, SPR_DBAT7L, "DBAT7L",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_dbat_h, &spr_write_dbatl_h,
0x00000000);
env->nb_BATs += 4;
#endif
}
/* Softare table search registers */
void register_6xx_7xx_soft_tlb(CPUPPCState *env, int nb_tlbs, int nb_ways)
{
#if !defined(CONFIG_USER_ONLY)
env->nb_tlb = nb_tlbs;
env->nb_ways = nb_ways;
env->id_tlbs = 1;
env->tlb_type = TLB_6XX;
spr_register(env, SPR_DMISS, "DMISS",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_DCMP, "DCMP",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_HASH1, "HASH1",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_HASH2, "HASH2",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_IMISS, "IMISS",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_ICMP, "ICMP",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_RPA, "RPA",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_generic, &spr_write_generic,
0x00000000);
#endif
}
void register_thrm_sprs(CPUPPCState *env)
{
/* Thermal management */
spr_register(env, SPR_THRM1, "THRM1",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_thrm, &spr_write_generic,
0x00000000);
spr_register(env, SPR_THRM2, "THRM2",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_thrm, &spr_write_generic,
0x00000000);
spr_register(env, SPR_THRM3, "THRM3",
SPR_NOACCESS, SPR_NOACCESS,
&spr_read_thrm, &spr_write_generic,
0x00000000);
}
void register_usprgh_sprs(CPUPPCState *env)
{
spr_register(env, SPR_USPRG4, "USPRG4",
&spr_read_ureg, SPR_NOACCESS,
&spr_read_ureg, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_USPRG5, "USPRG5",
&spr_read_ureg, SPR_NOACCESS,
&spr_read_ureg, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_USPRG6, "USPRG6",
&spr_read_ureg, SPR_NOACCESS,
&spr_read_ureg, SPR_NOACCESS,
0x00000000);
spr_register(env, SPR_USPRG7, "USPRG7",
&spr_read_ureg, SPR_NOACCESS,
&spr_read_ureg, SPR_NOACCESS,
0x00000000);
}
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