freebsd-dev/sys/arm/include/cpu-v6.h

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/*-
* Copyright 2014 Svatopluk Kraus <onwahe@gmail.com>
* Copyright 2014 Michal Meloun <meloun@miracle.cz>
* 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.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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.
*
* $FreeBSD$
*/
#ifndef MACHINE_CPU_V6_H
#define MACHINE_CPU_V6_H
/* There are no user serviceable parts here, they may change without notice */
#ifndef _KERNEL
#error Only include this file in the kernel
#endif
#include <machine/atomic.h>
#include <machine/cpufunc.h>
#include <machine/cpuinfo.h>
#include <machine/sysreg.h>
#if __ARM_ARCH < 6
#error Only include this file for ARMv6
#endif
/*
* Some kernel modules (dtrace all for example) are compiled
* unconditionally with -DSMP. Although it looks like a bug,
* handle this case here and in #elif condition in ARM_SMP_UP macro.
*/
#if __ARM_ARCH <= 6 && defined(SMP) && !defined(KLD_MODULE)
#error SMP option is not supported on ARMv6
#endif
#if __ARM_ARCH <= 6 && defined(SMP_ON_UP)
#error SMP_ON_UP option is only supported on ARMv7+ CPUs
#endif
#if !defined(SMP) && defined(SMP_ON_UP)
#error SMP option must be defined for SMP_ON_UP option
#endif
#define CPU_ASID_KERNEL 0
#if defined(SMP_ON_UP)
#define ARM_SMP_UP(smp_code, up_code) \
do { \
if (cpuinfo.mp_ext != 0) { \
smp_code; \
} else { \
up_code; \
} \
} while (0)
#elif defined(SMP) && __ARM_ARCH > 6
#define ARM_SMP_UP(smp_code, up_code) \
do { \
smp_code; \
} while (0)
#else
#define ARM_SMP_UP(smp_code, up_code) \
do { \
up_code; \
} while (0)
#endif
void dcache_wbinv_poc_all(void); /* !!! NOT SMP coherent function !!! */
vm_offset_t dcache_wb_pou_checked(vm_offset_t, vm_size_t);
vm_offset_t icache_inv_pou_checked(vm_offset_t, vm_size_t);
#ifdef DEV_PMU
#include <sys/pcpu.h>
#define PMU_OVSR_C 0x80000000 /* Cycle Counter */
extern uint32_t ccnt_hi[MAXCPU];
extern int pmu_attched;
#endif /* DEV_PMU */
#define sev() __asm __volatile("sev" : : : "memory")
#define wfe() __asm __volatile("wfe" : : : "memory")
/*
* Macros to generate CP15 (system control processor) read/write functions.
*/
#define _FX(s...) #s
#define _RF0(fname, aname...) \
static __inline uint32_t \
fname(void) \
{ \
uint32_t reg; \
__asm __volatile("mrc\t" _FX(aname): "=r" (reg)); \
return(reg); \
}
#define _R64F0(fname, aname) \
static __inline uint64_t \
fname(void) \
{ \
uint64_t reg; \
__asm __volatile("mrrc\t" _FX(aname): "=r" (reg)); \
return(reg); \
}
#define _WF0(fname, aname...) \
static __inline void \
fname(void) \
{ \
__asm __volatile("mcr\t" _FX(aname)); \
}
#define _WF1(fname, aname...) \
static __inline void \
fname(uint32_t reg) \
{ \
__asm __volatile("mcr\t" _FX(aname):: "r" (reg)); \
}
#define _W64F1(fname, aname...) \
static __inline void \
fname(uint64_t reg) \
{ \
__asm __volatile("mcrr\t" _FX(aname):: "r" (reg)); \
}
/*
* Raw CP15 maintenance operations
* !!! not for external use !!!
*/
/* TLB */
_WF0(_CP15_TLBIALL, CP15_TLBIALL) /* Invalidate entire unified TLB */
#if __ARM_ARCH >= 7 && defined(SMP)
_WF0(_CP15_TLBIALLIS, CP15_TLBIALLIS) /* Invalidate entire unified TLB IS */
#endif
_WF1(_CP15_TLBIASID, CP15_TLBIASID(%0)) /* Invalidate unified TLB by ASID */
#if __ARM_ARCH >= 7 && defined(SMP)
_WF1(_CP15_TLBIASIDIS, CP15_TLBIASIDIS(%0)) /* Invalidate unified TLB by ASID IS */
#endif
_WF1(_CP15_TLBIMVAA, CP15_TLBIMVAA(%0)) /* Invalidate unified TLB by MVA, all ASID */
#if __ARM_ARCH >= 7 && defined(SMP)
_WF1(_CP15_TLBIMVAAIS, CP15_TLBIMVAAIS(%0)) /* Invalidate unified TLB by MVA, all ASID IS */
#endif
_WF1(_CP15_TLBIMVA, CP15_TLBIMVA(%0)) /* Invalidate unified TLB by MVA */
_WF1(_CP15_TTB_SET, CP15_TTBR0(%0))
/* Cache and Branch predictor */
_WF0(_CP15_BPIALL, CP15_BPIALL) /* Branch predictor invalidate all */
#if __ARM_ARCH >= 7 && defined(SMP)
_WF0(_CP15_BPIALLIS, CP15_BPIALLIS) /* Branch predictor invalidate all IS */
#endif
_WF1(_CP15_BPIMVA, CP15_BPIMVA(%0)) /* Branch predictor invalidate by MVA */
_WF1(_CP15_DCCIMVAC, CP15_DCCIMVAC(%0)) /* Data cache clean and invalidate by MVA PoC */
_WF1(_CP15_DCCISW, CP15_DCCISW(%0)) /* Data cache clean and invalidate by set/way */
_WF1(_CP15_DCCMVAC, CP15_DCCMVAC(%0)) /* Data cache clean by MVA PoC */
#if __ARM_ARCH >= 7
_WF1(_CP15_DCCMVAU, CP15_DCCMVAU(%0)) /* Data cache clean by MVA PoU */
#endif
_WF1(_CP15_DCCSW, CP15_DCCSW(%0)) /* Data cache clean by set/way */
_WF1(_CP15_DCIMVAC, CP15_DCIMVAC(%0)) /* Data cache invalidate by MVA PoC */
_WF1(_CP15_DCISW, CP15_DCISW(%0)) /* Data cache invalidate by set/way */
_WF0(_CP15_ICIALLU, CP15_ICIALLU) /* Instruction cache invalidate all PoU */
#if __ARM_ARCH >= 7 && defined(SMP)
_WF0(_CP15_ICIALLUIS, CP15_ICIALLUIS) /* Instruction cache invalidate all PoU IS */
#endif
_WF1(_CP15_ICIMVAU, CP15_ICIMVAU(%0)) /* Instruction cache invalidate */
/*
* Publicly accessible functions
*/
/* CP14 Debug Registers */
_RF0(cp14_dbgdidr_get, CP14_DBGDIDR(%0))
_RF0(cp14_dbgprsr_get, CP14_DBGPRSR(%0))
_RF0(cp14_dbgoslsr_get, CP14_DBGOSLSR(%0))
_RF0(cp14_dbgosdlr_get, CP14_DBGOSDLR(%0))
_RF0(cp14_dbgdscrint_get, CP14_DBGDSCRint(%0))
_WF1(cp14_dbgdscr_v6_set, CP14_DBGDSCRext_V6(%0))
_WF1(cp14_dbgdscr_v7_set, CP14_DBGDSCRext_V7(%0))
_WF1(cp14_dbgvcr_set, CP14_DBGVCR(%0))
_WF1(cp14_dbgoslar_set, CP14_DBGOSLAR(%0))
/* Various control registers */
_RF0(cp15_cpacr_get, CP15_CPACR(%0))
_WF1(cp15_cpacr_set, CP15_CPACR(%0))
_RF0(cp15_dfsr_get, CP15_DFSR(%0))
_RF0(cp15_ifsr_get, CP15_IFSR(%0))
_WF1(cp15_prrr_set, CP15_PRRR(%0))
_WF1(cp15_nmrr_set, CP15_NMRR(%0))
_RF0(cp15_ttbr_get, CP15_TTBR0(%0))
_RF0(cp15_dfar_get, CP15_DFAR(%0))
#if __ARM_ARCH >= 7
_RF0(cp15_ifar_get, CP15_IFAR(%0))
_RF0(cp15_l2ctlr_get, CP15_L2CTLR(%0))
#endif
_RF0(cp15_actlr_get, CP15_ACTLR(%0))
_WF1(cp15_actlr_set, CP15_ACTLR(%0))
_WF1(cp15_ats1cpr_set, CP15_ATS1CPR(%0))
_WF1(cp15_ats1cpw_set, CP15_ATS1CPW(%0))
_WF1(cp15_ats1cur_set, CP15_ATS1CUR(%0))
_WF1(cp15_ats1cuw_set, CP15_ATS1CUW(%0))
_RF0(cp15_par_get, CP15_PAR(%0))
_RF0(cp15_sctlr_get, CP15_SCTLR(%0))
/*CPU id registers */
_RF0(cp15_midr_get, CP15_MIDR(%0))
_RF0(cp15_ctr_get, CP15_CTR(%0))
_RF0(cp15_tcmtr_get, CP15_TCMTR(%0))
_RF0(cp15_tlbtr_get, CP15_TLBTR(%0))
_RF0(cp15_mpidr_get, CP15_MPIDR(%0))
_RF0(cp15_revidr_get, CP15_REVIDR(%0))
_RF0(cp15_ccsidr_get, CP15_CCSIDR(%0))
_RF0(cp15_clidr_get, CP15_CLIDR(%0))
_RF0(cp15_aidr_get, CP15_AIDR(%0))
_WF1(cp15_csselr_set, CP15_CSSELR(%0))
_RF0(cp15_id_pfr0_get, CP15_ID_PFR0(%0))
_RF0(cp15_id_pfr1_get, CP15_ID_PFR1(%0))
_RF0(cp15_id_dfr0_get, CP15_ID_DFR0(%0))
_RF0(cp15_id_afr0_get, CP15_ID_AFR0(%0))
_RF0(cp15_id_mmfr0_get, CP15_ID_MMFR0(%0))
_RF0(cp15_id_mmfr1_get, CP15_ID_MMFR1(%0))
_RF0(cp15_id_mmfr2_get, CP15_ID_MMFR2(%0))
_RF0(cp15_id_mmfr3_get, CP15_ID_MMFR3(%0))
_RF0(cp15_id_isar0_get, CP15_ID_ISAR0(%0))
_RF0(cp15_id_isar1_get, CP15_ID_ISAR1(%0))
_RF0(cp15_id_isar2_get, CP15_ID_ISAR2(%0))
_RF0(cp15_id_isar3_get, CP15_ID_ISAR3(%0))
_RF0(cp15_id_isar4_get, CP15_ID_ISAR4(%0))
_RF0(cp15_id_isar5_get, CP15_ID_ISAR5(%0))
_RF0(cp15_cbar_get, CP15_CBAR(%0))
/* Performance Monitor registers */
#if __ARM_ARCH == 6 && defined(CPU_ARM1176)
_RF0(cp15_pmuserenr_get, CP15_PMUSERENR(%0))
_WF1(cp15_pmuserenr_set, CP15_PMUSERENR(%0))
_RF0(cp15_pmcr_get, CP15_PMCR(%0))
_WF1(cp15_pmcr_set, CP15_PMCR(%0))
_RF0(cp15_pmccntr_get, CP15_PMCCNTR(%0))
_WF1(cp15_pmccntr_set, CP15_PMCCNTR(%0))
#elif __ARM_ARCH > 6
_RF0(cp15_pmcr_get, CP15_PMCR(%0))
_WF1(cp15_pmcr_set, CP15_PMCR(%0))
_RF0(cp15_pmcnten_get, CP15_PMCNTENSET(%0))
_WF1(cp15_pmcnten_set, CP15_PMCNTENSET(%0))
_WF1(cp15_pmcnten_clr, CP15_PMCNTENCLR(%0))
_RF0(cp15_pmovsr_get, CP15_PMOVSR(%0))
_WF1(cp15_pmovsr_set, CP15_PMOVSR(%0))
_WF1(cp15_pmswinc_set, CP15_PMSWINC(%0))
_RF0(cp15_pmselr_get, CP15_PMSELR(%0))
_WF1(cp15_pmselr_set, CP15_PMSELR(%0))
_RF0(cp15_pmccntr_get, CP15_PMCCNTR(%0))
_WF1(cp15_pmccntr_set, CP15_PMCCNTR(%0))
_RF0(cp15_pmxevtyper_get, CP15_PMXEVTYPER(%0))
_WF1(cp15_pmxevtyper_set, CP15_PMXEVTYPER(%0))
_RF0(cp15_pmxevcntr_get, CP15_PMXEVCNTRR(%0))
_WF1(cp15_pmxevcntr_set, CP15_PMXEVCNTRR(%0))
_RF0(cp15_pmuserenr_get, CP15_PMUSERENR(%0))
_WF1(cp15_pmuserenr_set, CP15_PMUSERENR(%0))
_RF0(cp15_pminten_get, CP15_PMINTENSET(%0))
_WF1(cp15_pminten_set, CP15_PMINTENSET(%0))
_WF1(cp15_pminten_clr, CP15_PMINTENCLR(%0))
#endif
_RF0(cp15_tpidrurw_get, CP15_TPIDRURW(%0))
_WF1(cp15_tpidrurw_set, CP15_TPIDRURW(%0))
_RF0(cp15_tpidruro_get, CP15_TPIDRURO(%0))
_WF1(cp15_tpidruro_set, CP15_TPIDRURO(%0))
_RF0(cp15_tpidrpwr_get, CP15_TPIDRPRW(%0))
_WF1(cp15_tpidrpwr_set, CP15_TPIDRPRW(%0))
/* Generic Timer registers - only use when you know the hardware is available */
_RF0(cp15_cntfrq_get, CP15_CNTFRQ(%0))
_WF1(cp15_cntfrq_set, CP15_CNTFRQ(%0))
_RF0(cp15_cntkctl_get, CP15_CNTKCTL(%0))
_WF1(cp15_cntkctl_set, CP15_CNTKCTL(%0))
_RF0(cp15_cntp_tval_get, CP15_CNTP_TVAL(%0))
_WF1(cp15_cntp_tval_set, CP15_CNTP_TVAL(%0))
_RF0(cp15_cntp_ctl_get, CP15_CNTP_CTL(%0))
_WF1(cp15_cntp_ctl_set, CP15_CNTP_CTL(%0))
_RF0(cp15_cntv_tval_get, CP15_CNTV_TVAL(%0))
_WF1(cp15_cntv_tval_set, CP15_CNTV_TVAL(%0))
_RF0(cp15_cntv_ctl_get, CP15_CNTV_CTL(%0))
_WF1(cp15_cntv_ctl_set, CP15_CNTV_CTL(%0))
_RF0(cp15_cnthctl_get, CP15_CNTHCTL(%0))
_WF1(cp15_cnthctl_set, CP15_CNTHCTL(%0))
_RF0(cp15_cnthp_tval_get, CP15_CNTHP_TVAL(%0))
_WF1(cp15_cnthp_tval_set, CP15_CNTHP_TVAL(%0))
_RF0(cp15_cnthp_ctl_get, CP15_CNTHP_CTL(%0))
_WF1(cp15_cnthp_ctl_set, CP15_CNTHP_CTL(%0))
_R64F0(cp15_cntpct_get, CP15_CNTPCT(%Q0, %R0))
_R64F0(cp15_cntvct_get, CP15_CNTVCT(%Q0, %R0))
_R64F0(cp15_cntp_cval_get, CP15_CNTP_CVAL(%Q0, %R0))
_W64F1(cp15_cntp_cval_set, CP15_CNTP_CVAL(%Q0, %R0))
_R64F0(cp15_cntv_cval_get, CP15_CNTV_CVAL(%Q0, %R0))
_W64F1(cp15_cntv_cval_set, CP15_CNTV_CVAL(%Q0, %R0))
_R64F0(cp15_cntvoff_get, CP15_CNTVOFF(%Q0, %R0))
_W64F1(cp15_cntvoff_set, CP15_CNTVOFF(%Q0, %R0))
_R64F0(cp15_cnthp_cval_get, CP15_CNTHP_CVAL(%Q0, %R0))
_W64F1(cp15_cnthp_cval_set, CP15_CNTHP_CVAL(%Q0, %R0))
#undef _FX
#undef _RF0
#undef _WF0
#undef _WF1
/*
* TLB maintenance operations.
*/
/* Local (i.e. not broadcasting ) operations. */
/* Flush all TLB entries (even global). */
static __inline void
tlb_flush_all_local(void)
{
dsb();
_CP15_TLBIALL();
dsb();
}
/* Flush all not global TLB entries. */
static __inline void
tlb_flush_all_ng_local(void)
{
dsb();
_CP15_TLBIASID(CPU_ASID_KERNEL);
dsb();
}
/* Flush single TLB entry (even global). */
static __inline void
tlb_flush_local(vm_offset_t va)
{
KASSERT((va & PAGE_MASK) == 0, ("%s: va %#x not aligned", __func__, va));
dsb();
_CP15_TLBIMVA(va | CPU_ASID_KERNEL);
dsb();
}
/* Flush range of TLB entries (even global). */
static __inline void
tlb_flush_range_local(vm_offset_t va, vm_size_t size)
{
vm_offset_t eva = va + size;
KASSERT((va & PAGE_MASK) == 0, ("%s: va %#x not aligned", __func__, va));
KASSERT((size & PAGE_MASK) == 0, ("%s: size %#x not aligned", __func__,
size));
dsb();
for (; va < eva; va += PAGE_SIZE)
_CP15_TLBIMVA(va | CPU_ASID_KERNEL);
dsb();
}
/* Broadcasting operations. */
#if __ARM_ARCH >= 7 && defined(SMP)
static __inline void
tlb_flush_all(void)
{
dsb();
ARM_SMP_UP(
_CP15_TLBIALLIS(),
_CP15_TLBIALL()
);
dsb();
}
static __inline void
tlb_flush_all_ng(void)
{
dsb();
ARM_SMP_UP(
_CP15_TLBIASIDIS(CPU_ASID_KERNEL),
_CP15_TLBIASID(CPU_ASID_KERNEL)
);
dsb();
}
static __inline void
tlb_flush(vm_offset_t va)
{
KASSERT((va & PAGE_MASK) == 0, ("%s: va %#x not aligned", __func__, va));
dsb();
ARM_SMP_UP(
_CP15_TLBIMVAAIS(va),
_CP15_TLBIMVA(va | CPU_ASID_KERNEL)
);
dsb();
}
static __inline void
tlb_flush_range(vm_offset_t va, vm_size_t size)
{
vm_offset_t eva = va + size;
KASSERT((va & PAGE_MASK) == 0, ("%s: va %#x not aligned", __func__, va));
KASSERT((size & PAGE_MASK) == 0, ("%s: size %#x not aligned", __func__,
size));
dsb();
ARM_SMP_UP(
{
for (; va < eva; va += PAGE_SIZE)
_CP15_TLBIMVAAIS(va);
},
{
for (; va < eva; va += PAGE_SIZE)
_CP15_TLBIMVA(va | CPU_ASID_KERNEL);
}
);
dsb();
}
#else /* __ARM_ARCH < 7 */
#define tlb_flush_all() tlb_flush_all_local()
#define tlb_flush_all_ng() tlb_flush_all_ng_local()
#define tlb_flush(va) tlb_flush_local(va)
#define tlb_flush_range(va, size) tlb_flush_range_local(va, size)
#endif /* __ARM_ARCH < 7 */
/*
* Cache maintenance operations.
*/
/* Sync I and D caches to PoU */
static __inline void
icache_sync(vm_offset_t va, vm_size_t size)
{
vm_offset_t eva = va + size;
dsb();
va &= ~cpuinfo.dcache_line_mask;
for ( ; va < eva; va += cpuinfo.dcache_line_size) {
#if __ARM_ARCH >= 7
_CP15_DCCMVAU(va);
#else
_CP15_DCCMVAC(va);
#endif
}
dsb();
ARM_SMP_UP(
_CP15_ICIALLUIS(),
_CP15_ICIALLU()
);
dsb();
isb();
}
/* Invalidate I cache */
static __inline void
icache_inv_all(void)
{
ARM_SMP_UP(
_CP15_ICIALLUIS(),
_CP15_ICIALLU()
);
dsb();
isb();
}
/* Invalidate branch predictor buffer */
static __inline void
bpb_inv_all(void)
{
ARM_SMP_UP(
_CP15_BPIALLIS(),
_CP15_BPIALL()
);
dsb();
isb();
}
/* Write back D-cache to PoU */
static __inline void
dcache_wb_pou(vm_offset_t va, vm_size_t size)
{
vm_offset_t eva = va + size;
dsb();
va &= ~cpuinfo.dcache_line_mask;
for ( ; va < eva; va += cpuinfo.dcache_line_size) {
#if __ARM_ARCH >= 7
_CP15_DCCMVAU(va);
#else
_CP15_DCCMVAC(va);
#endif
}
dsb();
}
/*
* Invalidate D-cache to PoC
*
* Caches are invalidated from outermost to innermost as fresh cachelines
* flow in this direction. In given range, if there was no dirty cacheline
* in any cache before, no stale cacheline should remain in them after this
* operation finishes.
*/
static __inline void
dcache_inv_poc(vm_offset_t va, vm_paddr_t pa, vm_size_t size)
{
vm_offset_t eva = va + size;
dsb();
/* invalidate L2 first */
cpu_l2cache_inv_range(pa, size);
/* then L1 */
va &= ~cpuinfo.dcache_line_mask;
for ( ; va < eva; va += cpuinfo.dcache_line_size) {
_CP15_DCIMVAC(va);
}
dsb();
}
/*
* Discard D-cache lines to PoC, prior to overwrite by DMA engine.
*
* Normal invalidation does L2 then L1 to ensure that stale data from L2 doesn't
* flow into L1 while invalidating. This routine is intended to be used only
* when invalidating a buffer before a DMA operation loads new data into memory.
* The concern in this case is that dirty lines are not evicted to main memory,
* overwriting the DMA data. For that reason, the L1 is done first to ensure
* that an evicted L1 line doesn't flow to L2 after the L2 has been cleaned.
*/
static __inline void
dcache_inv_poc_dma(vm_offset_t va, vm_paddr_t pa, vm_size_t size)
{
vm_offset_t eva = va + size;
/* invalidate L1 first */
dsb();
va &= ~cpuinfo.dcache_line_mask;
for ( ; va < eva; va += cpuinfo.dcache_line_size) {
_CP15_DCIMVAC(va);
}
dsb();
/* then L2 */
cpu_l2cache_inv_range(pa, size);
}
/*
* Write back D-cache to PoC
*
* Caches are written back from innermost to outermost as dirty cachelines
* flow in this direction. In given range, no dirty cacheline should remain
* in any cache after this operation finishes.
*/
static __inline void
dcache_wb_poc(vm_offset_t va, vm_paddr_t pa, vm_size_t size)
{
vm_offset_t eva = va + size;
dsb();
va &= ~cpuinfo.dcache_line_mask;
for ( ; va < eva; va += cpuinfo.dcache_line_size) {
_CP15_DCCMVAC(va);
}
dsb();
cpu_l2cache_wb_range(pa, size);
}
/* Write back and invalidate D-cache to PoC */
static __inline void
dcache_wbinv_poc(vm_offset_t sva, vm_paddr_t pa, vm_size_t size)
{
vm_offset_t va;
vm_offset_t eva = sva + size;
dsb();
/* write back L1 first */
va = sva & ~cpuinfo.dcache_line_mask;
for ( ; va < eva; va += cpuinfo.dcache_line_size) {
_CP15_DCCMVAC(va);
}
dsb();
/* then write back and invalidate L2 */
cpu_l2cache_wbinv_range(pa, size);
/* then invalidate L1 */
va = sva & ~cpuinfo.dcache_line_mask;
for ( ; va < eva; va += cpuinfo.dcache_line_size) {
_CP15_DCIMVAC(va);
}
dsb();
}
/* Set TTB0 register */
static __inline void
cp15_ttbr_set(uint32_t reg)
{
dsb();
_CP15_TTB_SET(reg);
dsb();
_CP15_BPIALL();
dsb();
isb();
tlb_flush_all_ng_local();
}
/*
* Functions for address checking:
*
* cp15_ats1cpr_check() ... check stage 1 privileged (PL1) read access
* cp15_ats1cpw_check() ... check stage 1 privileged (PL1) write access
* cp15_ats1cur_check() ... check stage 1 unprivileged (PL0) read access
* cp15_ats1cuw_check() ... check stage 1 unprivileged (PL0) write access
*
* They must be called while interrupts are disabled to get consistent result.
*/
static __inline int
cp15_ats1cpr_check(vm_offset_t addr)
{
cp15_ats1cpr_set(addr);
isb();
return (cp15_par_get() & 0x01 ? EFAULT : 0);
}
static __inline int
cp15_ats1cpw_check(vm_offset_t addr)
{
cp15_ats1cpw_set(addr);
isb();
return (cp15_par_get() & 0x01 ? EFAULT : 0);
}
static __inline int
cp15_ats1cur_check(vm_offset_t addr)
{
cp15_ats1cur_set(addr);
isb();
return (cp15_par_get() & 0x01 ? EFAULT : 0);
}
static __inline int
cp15_ats1cuw_check(vm_offset_t addr)
{
cp15_ats1cuw_set(addr);
isb();
return (cp15_par_get() & 0x01 ? EFAULT : 0);
}
#endif /* !MACHINE_CPU_V6_H */