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/* SPDX-License-Identifier: GPL-2.0-only */
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/*
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 * Copyright (C) 2012 ARM Ltd.
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 */
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#ifndef __ASM_CACHE_H
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#define __ASM_CACHE_H
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#define L1_CACHE_SHIFT		(6)
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#define L1_CACHE_BYTES		(1 << L1_CACHE_SHIFT)
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#define CLIDR_LOUU_SHIFT	27
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#define CLIDR_LOC_SHIFT		24
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#define CLIDR_LOUIS_SHIFT	21
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#define CLIDR_LOUU(clidr)	(((clidr) >> CLIDR_LOUU_SHIFT) & 0x7)
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#define CLIDR_LOC(clidr)	(((clidr) >> CLIDR_LOC_SHIFT) & 0x7)
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#define CLIDR_LOUIS(clidr)	(((clidr) >> CLIDR_LOUIS_SHIFT) & 0x7)
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/* Ctypen, bits[3(n - 1) + 2 : 3(n - 1)], for n = 1 to 7 */
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#define CLIDR_CTYPE_SHIFT(level)	(3 * (level - 1))
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#define CLIDR_CTYPE_MASK(level)		(7 << CLIDR_CTYPE_SHIFT(level))
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#define CLIDR_CTYPE(clidr, level)	\
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	(((clidr) & CLIDR_CTYPE_MASK(level)) >> CLIDR_CTYPE_SHIFT(level))
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/* Ttypen, bits [2(n - 1) + 34 : 2(n - 1) + 33], for n = 1 to 7 */
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#define CLIDR_TTYPE_SHIFT(level)	(2 * ((level) - 1) + CLIDR_EL1_Ttypen_SHIFT)
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/*
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 * Memory returned by kmalloc() may be used for DMA, so we must make
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 * sure that all such allocations are cache aligned. Otherwise,
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 * unrelated code may cause parts of the buffer to be read into the
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 * cache before the transfer is done, causing old data to be seen by
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 * the CPU.
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 */
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#define ARCH_DMA_MINALIGN	(128)
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#define ARCH_KMALLOC_MINALIGN	(8)
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#if !defined(__ASSEMBLY__) && !defined(BUILD_VDSO)
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#include <linux/bitops.h>
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#include <linux/kasan-enabled.h>
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#include <asm/cputype.h>
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#include <asm/mte-def.h>
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#include <asm/sysreg.h>
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#ifdef CONFIG_KASAN_SW_TAGS
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#define ARCH_SLAB_MINALIGN	(1ULL << KASAN_SHADOW_SCALE_SHIFT)
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#elif defined(CONFIG_KASAN_HW_TAGS)
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static inline unsigned int arch_slab_minalign(void)
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{
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	return kasan_hw_tags_enabled() ? MTE_GRANULE_SIZE :
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					 __alignof__(unsigned long long);
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}
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#define arch_slab_minalign() arch_slab_minalign()
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#endif
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#define CTR_L1IP(ctr)		SYS_FIELD_GET(CTR_EL0, L1Ip, ctr)
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#define ICACHEF_ALIASING	0
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extern unsigned long __icache_flags;
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/*
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 * Whilst the D-side always behaves as PIPT on AArch64, aliasing is
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 * permitted in the I-cache.
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 */
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static inline int icache_is_aliasing(void)
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{
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	return test_bit(ICACHEF_ALIASING, &__icache_flags);
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}
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static inline u32 cache_type_cwg(void)
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{
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	return SYS_FIELD_GET(CTR_EL0, CWG, read_cpuid_cachetype());
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}
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#define __read_mostly __section(".data..read_mostly")
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static inline int cache_line_size_of_cpu(void)
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{
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	u32 cwg = cache_type_cwg();
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	return cwg ? 4 << cwg : ARCH_DMA_MINALIGN;
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}
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int cache_line_size(void);
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#define dma_get_cache_alignment	cache_line_size
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/* Compress a u64 MPIDR value into 32 bits. */
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static inline u64 arch_compact_of_hwid(u64 id)
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{
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	u64 aff3 = MPIDR_AFFINITY_LEVEL(id, 3);
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	/*
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	 * These bits are expected to be RES0. If not, return a value with
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	 * the upper 32 bits set to force the caller to give up on 32 bit
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	 * cache ids.
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	 */
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	if (FIELD_GET(GENMASK_ULL(63, 40), id))
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		return id;
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	return (aff3 << 24) | FIELD_GET(GENMASK_ULL(23, 0), id);
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}
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#define arch_compact_of_hwid	arch_compact_of_hwid
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/*
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 * Read the effective value of CTR_EL0.
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 *
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 * According to ARM ARM for ARMv8-A (ARM DDI 0487C.a),
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 * section D10.2.33 "CTR_EL0, Cache Type Register" :
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 *
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 * CTR_EL0.IDC reports the data cache clean requirements for
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 * instruction to data coherence.
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 *
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 *  0 - dcache clean to PoU is required unless :
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 *     (CLIDR_EL1.LoC == 0) || (CLIDR_EL1.LoUIS == 0 && CLIDR_EL1.LoUU == 0)
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 *  1 - dcache clean to PoU is not required for i-to-d coherence.
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 *
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 * This routine provides the CTR_EL0 with the IDC field updated to the
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 * effective state.
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 */
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static inline u32 __attribute_const__ read_cpuid_effective_cachetype(void)
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{
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	u32 ctr = read_cpuid_cachetype();
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	if (!(ctr & BIT(CTR_EL0_IDC_SHIFT))) {
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		u64 clidr = read_sysreg(clidr_el1);
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		if (CLIDR_LOC(clidr) == 0 ||
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		    (CLIDR_LOUIS(clidr) == 0 && CLIDR_LOUU(clidr) == 0))
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			ctr |= BIT(CTR_EL0_IDC_SHIFT);
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	}
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	return ctr;
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}
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#endif /* !defined(__ASSEMBLY__) && !defined(BUILD_VDSO) */
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#endif
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