/* cache.c - d-cache support for AARCH64 CPUs */ /* * Copyright 2020-2021 NXP * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief d-cache manipulation * * This module contains functions for manipulation of the d-cache. */ #include #define CTR_EL0_DMINLINE_SHIFT 16 #define CTR_EL0_DMINLINE_MASK BIT_MASK(4) #define CTR_EL0_CWG_SHIFT 24 #define CTR_EL0_CWG_MASK BIT_MASK(4) /* clidr_el1 */ #define CLIDR_EL1_LOC_SHIFT 24 #define CLIDR_EL1_LOC_MASK BIT_MASK(3) #define CLIDR_EL1_CTYPE_SHIFT(level) ((level) * 3) #define CLIDR_EL1_CTYPE_MASK BIT_MASK(3) /* ccsidr_el1 */ #define CCSIDR_EL1_LN_SZ_SHIFT 0 #define CCSIDR_EL1_LN_SZ_MASK BIT_MASK(3) #define CCSIDR_EL1_WAYS_SHIFT 3 #define CCSIDR_EL1_WAYS_MASK BIT_MASK(10) #define CCSIDR_EL1_SETS_SHIFT 13 #define CCSIDR_EL1_SETS_MASK BIT_MASK(15) #define dc_ops(op, val) \ ({ \ __asm__ volatile ("dc " op ", %0" :: "r" (val) : "memory"); \ }) static size_t dcache_line_size; size_t arch_dcache_line_size_get(void) { uint64_t ctr_el0; uint32_t dminline; if (dcache_line_size) return dcache_line_size; ctr_el0 = read_sysreg(CTR_EL0); dminline = (ctr_el0 >> CTR_EL0_DMINLINE_SHIFT) & CTR_EL0_DMINLINE_MASK; dcache_line_size = 4 << dminline; return dcache_line_size; } /* * operation for data cache by virtual address to PoC * ops: K_CACHE_INVD: invalidate * K_CACHE_WB: clean * K_CACHE_WB_INVD: clean and invalidate */ int arch_dcache_range(void *addr, size_t size, int op) { size_t line_size; uintptr_t start_addr = (uintptr_t)addr; uintptr_t end_addr = start_addr + size; if (op != K_CACHE_INVD && op != K_CACHE_WB && op != K_CACHE_WB_INVD) return -ENOTSUP; line_size = arch_dcache_line_size_get(); /* * For the data cache invalidate operation, clean and invalidate * the partial cache lines at both ends of the given range to * prevent data corruption. * * For example (assume cache line size is 64 bytes): * There are 2 consecutive 32-byte buffers, which can be cached in * one line like below. * +------------------+------------------+ * Cache line: | buffer 0 (dirty) | buffer 1 | * +------------------+------------------+ * For the start address not aligned case, when invalidate the * buffer 1, the full cache line will be invalidated, if the buffer * 0 is dirty, its data will be lost. * The same logic applies to the not aligned end address. */ if (op == K_CACHE_INVD) { if (end_addr & (line_size - 1)) { end_addr &= ~(line_size - 1); dc_ops("civac", end_addr); } if (start_addr & (line_size - 1)) { start_addr &= ~(line_size - 1); if (start_addr == end_addr) goto done; dc_ops("civac", start_addr); start_addr += line_size; } } /* Align address to line size */ start_addr &= ~(line_size - 1); while (start_addr < end_addr) { if (op == K_CACHE_INVD) { dc_ops("ivac", start_addr); } else if (op == K_CACHE_WB) { dc_ops("cvac", start_addr); } else if (op == K_CACHE_WB_INVD) { dc_ops("civac", start_addr); } start_addr += line_size; } done: dsb(); return 0; } /* * operation for all data cache * ops: K_CACHE_INVD: invalidate * K_CACHE_WB: clean * K_CACHE_WB_INVD: clean and invalidate */ int arch_dcache_all(int op) { uint32_t clidr_el1, csselr_el1, ccsidr_el1; uint8_t loc, ctype, cache_level, line_size, way_pos; uint32_t max_ways, max_sets, dc_val, set, way; if (op != K_CACHE_INVD && op != K_CACHE_WB && op != K_CACHE_WB_INVD) return -ENOTSUP; /* Data barrier before start */ dsb(); clidr_el1 = read_clidr_el1(); loc = (clidr_el1 >> CLIDR_EL1_LOC_SHIFT) & CLIDR_EL1_LOC_MASK; if (!loc) return 0; for (cache_level = 0; cache_level < loc; cache_level++) { ctype = (clidr_el1 >> CLIDR_EL1_CTYPE_SHIFT(cache_level)) & CLIDR_EL1_CTYPE_MASK; /* No data cache, continue */ if (ctype < 2) continue; /* select cache level */ csselr_el1 = cache_level << 1; write_csselr_el1(csselr_el1); isb(); ccsidr_el1 = read_ccsidr_el1(); line_size = (ccsidr_el1 >> CCSIDR_EL1_LN_SZ_SHIFT & CCSIDR_EL1_LN_SZ_MASK) + 4; max_ways = (ccsidr_el1 >> CCSIDR_EL1_WAYS_SHIFT) & CCSIDR_EL1_WAYS_MASK; max_sets = (ccsidr_el1 >> CCSIDR_EL1_SETS_SHIFT) & CCSIDR_EL1_SETS_MASK; /* 32-log2(ways), bit position of way in DC operand */ way_pos = __builtin_clz(max_ways); for (set = 0; set <= max_sets; set++) { for (way = 0; way <= max_ways; way++) { /* way number, aligned to pos in DC operand */ dc_val = way << way_pos; /* cache level, aligned to pos in DC operand */ dc_val |= csselr_el1; /* set number, aligned to pos in DC operand */ dc_val |= set << line_size; if (op == K_CACHE_INVD) { dc_ops("isw", dc_val); } else if (op == K_CACHE_WB_INVD) { dc_ops("cisw", dc_val); } else if (op == K_CACHE_WB) { dc_ops("csw", dc_val); } } } } /* Restore csselr_el1 to level 0 */ write_csselr_el1(0); dsb(); isb(); return 0; }