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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* arch/arm/include/asm/arch_gicv3.h
*
* Copyright (C) 2015 ARM Ltd.
*/
#ifndef __ASM_ARCH_GICV3_H
#define __ASM_ARCH_GICV3_H
#ifndef __ASSEMBLY__
#include <linux/io.h>
#include <linux/io-64-nonatomic-lo-hi.h>
#include <asm/barrier.h>
#include <asm/cacheflush.h>
#include <asm/cp15.h>
#define ICC_EOIR1 __ACCESS_CP15(c12, 0, c12, 1)
#define ICC_DIR __ACCESS_CP15(c12, 0, c11, 1)
#define ICC_IAR1 __ACCESS_CP15(c12, 0, c12, 0)
#define ICC_SGI1R __ACCESS_CP15_64(0, c12)
#define ICC_PMR __ACCESS_CP15(c4, 0, c6, 0)
#define ICC_CTLR __ACCESS_CP15(c12, 0, c12, 4)
#define ICC_SRE __ACCESS_CP15(c12, 0, c12, 5)
#define ICC_IGRPEN1 __ACCESS_CP15(c12, 0, c12, 7)
#define ICC_BPR1 __ACCESS_CP15(c12, 0, c12, 3)
#define ICC_RPR __ACCESS_CP15(c12, 0, c11, 3)
#define __ICC_AP0Rx(x) __ACCESS_CP15(c12, 0, c8, 4 | x)
#define ICC_AP0R0 __ICC_AP0Rx(0)
#define ICC_AP0R1 __ICC_AP0Rx(1)
#define ICC_AP0R2 __ICC_AP0Rx(2)
#define ICC_AP0R3 __ICC_AP0Rx(3)
#define __ICC_AP1Rx(x) __ACCESS_CP15(c12, 0, c9, x)
#define ICC_AP1R0 __ICC_AP1Rx(0)
#define ICC_AP1R1 __ICC_AP1Rx(1)
#define ICC_AP1R2 __ICC_AP1Rx(2)
#define ICC_AP1R3 __ICC_AP1Rx(3)
#define CPUIF_MAP(a32, a64) \
static inline void write_ ## a64(u32 val) \
{ \
write_sysreg(val, a32); \
} \
static inline u32 read_ ## a64(void) \
{ \
return read_sysreg(a32); \
} \
CPUIF_MAP(ICC_EOIR1, ICC_EOIR1_EL1)
CPUIF_MAP(ICC_PMR, ICC_PMR_EL1)
CPUIF_MAP(ICC_AP0R0, ICC_AP0R0_EL1)
CPUIF_MAP(ICC_AP0R1, ICC_AP0R1_EL1)
CPUIF_MAP(ICC_AP0R2, ICC_AP0R2_EL1)
CPUIF_MAP(ICC_AP0R3, ICC_AP0R3_EL1)
CPUIF_MAP(ICC_AP1R0, ICC_AP1R0_EL1)
CPUIF_MAP(ICC_AP1R1, ICC_AP1R1_EL1)
CPUIF_MAP(ICC_AP1R2, ICC_AP1R2_EL1)
CPUIF_MAP(ICC_AP1R3, ICC_AP1R3_EL1)
#define read_gicreg(r) read_##r()
#define write_gicreg(v, r) write_##r(v)
/* Low-level accessors */
static inline void gic_write_dir(u32 val)
{
write_sysreg(val, ICC_DIR);
isb();
}
static inline u32 gic_read_iar(void)
{
u32 irqstat = read_sysreg(ICC_IAR1);
dsb(sy);
return irqstat;
}
static inline void gic_write_ctlr(u32 val)
{
write_sysreg(val, ICC_CTLR);
isb();
}
static inline u32 gic_read_ctlr(void)
{
return read_sysreg(ICC_CTLR);
}
static inline void gic_write_grpen1(u32 val)
{
write_sysreg(val, ICC_IGRPEN1);
isb();
}
static inline void gic_write_sgi1r(u64 val)
{
write_sysreg(val, ICC_SGI1R);
}
static inline u32 gic_read_sre(void)
{
return read_sysreg(ICC_SRE);
}
static inline void gic_write_sre(u32 val)
{
write_sysreg(val, ICC_SRE);
isb();
}
static inline void gic_write_bpr1(u32 val)
{
write_sysreg(val, ICC_BPR1);
}
static inline u32 gic_read_pmr(void)
{
return read_sysreg(ICC_PMR);
}
static inline void gic_write_pmr(u32 val)
{
write_sysreg(val, ICC_PMR);
}
static inline u32 gic_read_rpr(void)
{
return read_sysreg(ICC_RPR);
}
/*
* Even in 32bit systems that use LPAE, there is no guarantee that the I/O
* interface provides true 64bit atomic accesses, so using strd/ldrd doesn't
* make much sense.
* Moreover, 64bit I/O emulation is extremely difficult to implement on
* AArch32, since the syndrome register doesn't provide any information for
* them.
* Consequently, the following IO helpers use 32bit accesses.
*/
static inline void __gic_writeq_nonatomic(u64 val, volatile void __iomem *addr)
{
writel_relaxed((u32)val, addr);
writel_relaxed((u32)(val >> 32), addr + 4);
}
static inline u64 __gic_readq_nonatomic(const volatile void __iomem *addr)
{
u64 val;
val = readl_relaxed(addr);
val |= (u64)readl_relaxed(addr + 4) << 32;
return val;
}
#define gic_flush_dcache_to_poc(a,l) __cpuc_flush_dcache_area((a), (l))
/*
* GICD_IROUTERn, contain the affinity values associated to each interrupt.
* The upper-word (aff3) will always be 0, so there is no need for a lock.
*/
#define gic_write_irouter(v, c) __gic_writeq_nonatomic(v, c)
/*
* GICR_TYPER is an ID register and doesn't need atomicity.
*/
#define gic_read_typer(c) __gic_readq_nonatomic(c)
/*
* GITS_BASER - hi and lo bits may be accessed independently.
*/
#define gits_read_baser(c) __gic_readq_nonatomic(c)
#define gits_write_baser(v, c) __gic_writeq_nonatomic(v, c)
/*
* GICR_PENDBASER and GICR_PROPBASE are changed with LPIs disabled, so they
* won't be being used during any updates and can be changed non-atomically
*/
#define gicr_read_propbaser(c) __gic_readq_nonatomic(c)
#define gicr_write_propbaser(v, c) __gic_writeq_nonatomic(v, c)
#define gicr_read_pendbaser(c) __gic_readq_nonatomic(c)
#define gicr_write_pendbaser(v, c) __gic_writeq_nonatomic(v, c)
/*
* GICR_xLPIR - only the lower bits are significant
*/
#define gic_read_lpir(c) readl_relaxed(c)
#define gic_write_lpir(v, c) writel_relaxed(lower_32_bits(v), c)
/*
* GITS_TYPER is an ID register and doesn't need atomicity.
*/
#define gits_read_typer(c) __gic_readq_nonatomic(c)
/*
* GITS_CBASER - hi and lo bits may be accessed independently.
*/
#define gits_read_cbaser(c) __gic_readq_nonatomic(c)
#define gits_write_cbaser(v, c) __gic_writeq_nonatomic(v, c)
/*
* GITS_CWRITER - hi and lo bits may be accessed independently.
*/
#define gits_write_cwriter(v, c) __gic_writeq_nonatomic(v, c)
/*
* GICR_VPROPBASER - hi and lo bits may be accessed independently.
*/
#define gicr_read_vpropbaser(c) __gic_readq_nonatomic(c)
#define gicr_write_vpropbaser(v, c) __gic_writeq_nonatomic(v, c)
/*
* GICR_VPENDBASER - the Valid bit must be cleared before changing
* anything else.
*/
static inline void gicr_write_vpendbaser(u64 val, void __iomem *addr)
{
u32 tmp;
tmp = readl_relaxed(addr + 4);
if (tmp & (GICR_VPENDBASER_Valid >> 32)) {
tmp &= ~(GICR_VPENDBASER_Valid >> 32);
writel_relaxed(tmp, addr + 4);
}
/*
* Use the fact that __gic_writeq_nonatomic writes the second
* half of the 64bit quantity after the first.
*/
__gic_writeq_nonatomic(val, addr);
}
#define gicr_read_vpendbaser(c) __gic_readq_nonatomic(c)
static inline bool gic_prio_masking_enabled(void)
{
return false;
}
static inline void gic_pmr_mask_irqs(void)
{
/* Should not get called. */
WARN_ON_ONCE(true);
}
static inline void gic_arch_enable_irqs(void)
{
/* Should not get called. */
WARN_ON_ONCE(true);
}
#endif /* !__ASSEMBLY__ */
#endif /* !__ASM_ARCH_GICV3_H */