1da54941fSRichard Henderson /* 2da54941fSRichard Henderson * ARM v8.5-MemTag Operations 3da54941fSRichard Henderson * 4da54941fSRichard Henderson * Copyright (c) 2020 Linaro, Ltd. 5da54941fSRichard Henderson * 6da54941fSRichard Henderson * This library is free software; you can redistribute it and/or 7da54941fSRichard Henderson * modify it under the terms of the GNU Lesser General Public 8da54941fSRichard Henderson * License as published by the Free Software Foundation; either 9da54941fSRichard Henderson * version 2.1 of the License, or (at your option) any later version. 10da54941fSRichard Henderson * 11da54941fSRichard Henderson * This library is distributed in the hope that it will be useful, 12da54941fSRichard Henderson * but WITHOUT ANY WARRANTY; without even the implied warranty of 13da54941fSRichard Henderson * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 14da54941fSRichard Henderson * Lesser General Public License for more details. 15da54941fSRichard Henderson * 16da54941fSRichard Henderson * You should have received a copy of the GNU Lesser General Public 17da54941fSRichard Henderson * License along with this library; if not, see <http://www.gnu.org/licenses/>. 18da54941fSRichard Henderson */ 19da54941fSRichard Henderson 20da54941fSRichard Henderson #include "qemu/osdep.h" 21cd617484SPhilippe Mathieu-Daudé #include "qemu/log.h" 22da54941fSRichard Henderson #include "cpu.h" 23da54941fSRichard Henderson #include "internals.h" 24da54941fSRichard Henderson #include "exec/exec-all.h" 25e4d5bf4fSRichard Henderson #include "exec/ram_addr.h" 26da54941fSRichard Henderson #include "exec/cpu_ldst.h" 27da54941fSRichard Henderson #include "exec/helper-proto.h" 28*6eece7f5SPhilippe Mathieu-Daudé #include "hw/core/tcg-cpu-ops.h" 29d4f6dda1SRichard Henderson #include "qapi/error.h" 30d4f6dda1SRichard Henderson #include "qemu/guest-random.h" 31da54941fSRichard Henderson 32da54941fSRichard Henderson 33da54941fSRichard Henderson static int choose_nonexcluded_tag(int tag, int offset, uint16_t exclude) 34da54941fSRichard Henderson { 35da54941fSRichard Henderson if (exclude == 0xffff) { 36da54941fSRichard Henderson return 0; 37da54941fSRichard Henderson } 38da54941fSRichard Henderson if (offset == 0) { 39da54941fSRichard Henderson while (exclude & (1 << tag)) { 40da54941fSRichard Henderson tag = (tag + 1) & 15; 41da54941fSRichard Henderson } 42da54941fSRichard Henderson } else { 43da54941fSRichard Henderson do { 44da54941fSRichard Henderson do { 45da54941fSRichard Henderson tag = (tag + 1) & 15; 46da54941fSRichard Henderson } while (exclude & (1 << tag)); 47da54941fSRichard Henderson } while (--offset > 0); 48da54941fSRichard Henderson } 49da54941fSRichard Henderson return tag; 50da54941fSRichard Henderson } 51da54941fSRichard Henderson 52c15294c1SRichard Henderson /** 53c15294c1SRichard Henderson * allocation_tag_mem: 54c15294c1SRichard Henderson * @env: the cpu environment 55c15294c1SRichard Henderson * @ptr_mmu_idx: the addressing regime to use for the virtual address 56c15294c1SRichard Henderson * @ptr: the virtual address for which to look up tag memory 57c15294c1SRichard Henderson * @ptr_access: the access to use for the virtual address 58c15294c1SRichard Henderson * @ptr_size: the number of bytes in the normal memory access 59c15294c1SRichard Henderson * @tag_access: the access to use for the tag memory 60c15294c1SRichard Henderson * @tag_size: the number of bytes in the tag memory access 61c15294c1SRichard Henderson * @ra: the return address for exception handling 62c15294c1SRichard Henderson * 63c15294c1SRichard Henderson * Our tag memory is formatted as a sequence of little-endian nibbles. 64c15294c1SRichard Henderson * That is, the byte at (addr >> (LOG2_TAG_GRANULE + 1)) contains two 65c15294c1SRichard Henderson * tags, with the tag at [3:0] for the lower addr and the tag at [7:4] 66c15294c1SRichard Henderson * for the higher addr. 67c15294c1SRichard Henderson * 68c15294c1SRichard Henderson * Here, resolve the physical address from the virtual address, and return 69c15294c1SRichard Henderson * a pointer to the corresponding tag byte. Exit with exception if the 70c15294c1SRichard Henderson * virtual address is not accessible for @ptr_access. 71c15294c1SRichard Henderson * 72c15294c1SRichard Henderson * The @ptr_size and @tag_size values may not have an obvious relation 73c15294c1SRichard Henderson * due to the alignment of @ptr, and the number of tag checks required. 74c15294c1SRichard Henderson * 75c15294c1SRichard Henderson * If there is no tag storage corresponding to @ptr, return NULL. 76c15294c1SRichard Henderson */ 77c15294c1SRichard Henderson static uint8_t *allocation_tag_mem(CPUARMState *env, int ptr_mmu_idx, 78c15294c1SRichard Henderson uint64_t ptr, MMUAccessType ptr_access, 79c15294c1SRichard Henderson int ptr_size, MMUAccessType tag_access, 80c15294c1SRichard Henderson int tag_size, uintptr_t ra) 81c15294c1SRichard Henderson { 82e4d5bf4fSRichard Henderson #ifdef CONFIG_USER_ONLY 83a11d3830SRichard Henderson uint64_t clean_ptr = useronly_clean_ptr(ptr); 84a11d3830SRichard Henderson int flags = page_get_flags(clean_ptr); 85a11d3830SRichard Henderson uint8_t *tags; 86a11d3830SRichard Henderson uintptr_t index; 87a11d3830SRichard Henderson 88ff38bca7SRichard Henderson if (!(flags & (ptr_access == MMU_DATA_STORE ? PAGE_WRITE_ORG : PAGE_READ))) { 895e98763cSRichard Henderson cpu_loop_exit_sigsegv(env_cpu(env), ptr, ptr_access, 905e98763cSRichard Henderson !(flags & PAGE_VALID), ra); 91a11d3830SRichard Henderson } 92a11d3830SRichard Henderson 93a11d3830SRichard Henderson /* Require both MAP_ANON and PROT_MTE for the page. */ 94a11d3830SRichard Henderson if (!(flags & PAGE_ANON) || !(flags & PAGE_MTE)) { 95c15294c1SRichard Henderson return NULL; 96a11d3830SRichard Henderson } 97a11d3830SRichard Henderson 98a11d3830SRichard Henderson tags = page_get_target_data(clean_ptr); 99a11d3830SRichard Henderson 100a11d3830SRichard Henderson index = extract32(ptr, LOG2_TAG_GRANULE + 1, 101a11d3830SRichard Henderson TARGET_PAGE_BITS - LOG2_TAG_GRANULE - 1); 102a11d3830SRichard Henderson return tags + index; 103e4d5bf4fSRichard Henderson #else 10425d3ec58SRichard Henderson CPUTLBEntryFull *full; 105b8967ddfSRichard Henderson MemTxAttrs attrs; 106e4d5bf4fSRichard Henderson int in_page, flags; 107e4d5bf4fSRichard Henderson hwaddr ptr_paddr, tag_paddr, xlat; 108e4d5bf4fSRichard Henderson MemoryRegion *mr; 109e4d5bf4fSRichard Henderson ARMASIdx tag_asi; 110e4d5bf4fSRichard Henderson AddressSpace *tag_as; 111e4d5bf4fSRichard Henderson void *host; 112e4d5bf4fSRichard Henderson 113e4d5bf4fSRichard Henderson /* 114e4d5bf4fSRichard Henderson * Probe the first byte of the virtual address. This raises an 115e4d5bf4fSRichard Henderson * exception for inaccessible pages, and resolves the virtual address 116e4d5bf4fSRichard Henderson * into the softmmu tlb. 117e4d5bf4fSRichard Henderson * 118d304d280SRichard Henderson * When RA == 0, this is for mte_probe. The page is expected to be 119e4d5bf4fSRichard Henderson * valid. Indicate to probe_access_flags no-fault, then assert that 120e4d5bf4fSRichard Henderson * we received a valid page. 121e4d5bf4fSRichard Henderson */ 122d507e6c5SRichard Henderson flags = probe_access_full(env, ptr, 0, ptr_access, ptr_mmu_idx, 123b8967ddfSRichard Henderson ra == 0, &host, &full, ra); 124e4d5bf4fSRichard Henderson assert(!(flags & TLB_INVALID_MASK)); 125e4d5bf4fSRichard Henderson 126e4d5bf4fSRichard Henderson /* If the virtual page MemAttr != Tagged, access unchecked. */ 127b8967ddfSRichard Henderson if (full->pte_attrs != 0xf0) { 128e4d5bf4fSRichard Henderson return NULL; 129e4d5bf4fSRichard Henderson } 130e4d5bf4fSRichard Henderson 131e4d5bf4fSRichard Henderson /* 132e4d5bf4fSRichard Henderson * If not backed by host ram, there is no tag storage: access unchecked. 133e4d5bf4fSRichard Henderson * This is probably a guest os bug though, so log it. 134e4d5bf4fSRichard Henderson */ 135e4d5bf4fSRichard Henderson if (unlikely(flags & TLB_MMIO)) { 136e4d5bf4fSRichard Henderson qemu_log_mask(LOG_GUEST_ERROR, 137e4d5bf4fSRichard Henderson "Page @ 0x%" PRIx64 " indicates Tagged Normal memory " 138e4d5bf4fSRichard Henderson "but is not backed by host ram\n", ptr); 139e4d5bf4fSRichard Henderson return NULL; 140e4d5bf4fSRichard Henderson } 141e4d5bf4fSRichard Henderson 142e4d5bf4fSRichard Henderson /* 143b8967ddfSRichard Henderson * Remember these values across the second lookup below, 144b8967ddfSRichard Henderson * which may invalidate this pointer via tlb resize. 145b8967ddfSRichard Henderson */ 14628fb921fSRichard Henderson ptr_paddr = full->phys_addr | (ptr & ~TARGET_PAGE_MASK); 147b8967ddfSRichard Henderson attrs = full->attrs; 148b8967ddfSRichard Henderson full = NULL; 149b8967ddfSRichard Henderson 150b8967ddfSRichard Henderson /* 151e4d5bf4fSRichard Henderson * The Normal memory access can extend to the next page. E.g. a single 152e4d5bf4fSRichard Henderson * 8-byte access to the last byte of a page will check only the last 153e4d5bf4fSRichard Henderson * tag on the first page. 154e4d5bf4fSRichard Henderson * Any page access exception has priority over tag check exception. 155e4d5bf4fSRichard Henderson */ 156e4d5bf4fSRichard Henderson in_page = -(ptr | TARGET_PAGE_MASK); 157e4d5bf4fSRichard Henderson if (unlikely(ptr_size > in_page)) { 158d507e6c5SRichard Henderson flags |= probe_access_full(env, ptr + in_page, 0, ptr_access, 159b8967ddfSRichard Henderson ptr_mmu_idx, ra == 0, &host, &full, ra); 160e4d5bf4fSRichard Henderson assert(!(flags & TLB_INVALID_MASK)); 161e4d5bf4fSRichard Henderson } 162e4d5bf4fSRichard Henderson 163e4d5bf4fSRichard Henderson /* Any debug exception has priority over a tag check exception. */ 164e4d5bf4fSRichard Henderson if (unlikely(flags & TLB_WATCHPOINT)) { 165e4d5bf4fSRichard Henderson int wp = ptr_access == MMU_DATA_LOAD ? BP_MEM_READ : BP_MEM_WRITE; 166e4d5bf4fSRichard Henderson assert(ra != 0); 167b8967ddfSRichard Henderson cpu_check_watchpoint(env_cpu(env), ptr, ptr_size, attrs, wp, ra); 168e4d5bf4fSRichard Henderson } 169e4d5bf4fSRichard Henderson 170e4d5bf4fSRichard Henderson /* Convert to the physical address in tag space. */ 171e4d5bf4fSRichard Henderson tag_paddr = ptr_paddr >> (LOG2_TAG_GRANULE + 1); 172e4d5bf4fSRichard Henderson 173e4d5bf4fSRichard Henderson /* Look up the address in tag space. */ 174b8967ddfSRichard Henderson tag_asi = attrs.secure ? ARMASIdx_TagS : ARMASIdx_TagNS; 175e4d5bf4fSRichard Henderson tag_as = cpu_get_address_space(env_cpu(env), tag_asi); 176e4d5bf4fSRichard Henderson mr = address_space_translate(tag_as, tag_paddr, &xlat, NULL, 177b8967ddfSRichard Henderson tag_access == MMU_DATA_STORE, attrs); 178e4d5bf4fSRichard Henderson 179e4d5bf4fSRichard Henderson /* 180e4d5bf4fSRichard Henderson * Note that @mr will never be NULL. If there is nothing in the address 181e4d5bf4fSRichard Henderson * space at @tag_paddr, the translation will return the unallocated memory 182e4d5bf4fSRichard Henderson * region. For our purposes, the result must be ram. 183e4d5bf4fSRichard Henderson */ 184e4d5bf4fSRichard Henderson if (unlikely(!memory_region_is_ram(mr))) { 185e4d5bf4fSRichard Henderson /* ??? Failure is a board configuration error. */ 186e4d5bf4fSRichard Henderson qemu_log_mask(LOG_UNIMP, 187e4d5bf4fSRichard Henderson "Tag Memory @ 0x%" HWADDR_PRIx " not found for " 188e4d5bf4fSRichard Henderson "Normal Memory @ 0x%" HWADDR_PRIx "\n", 189e4d5bf4fSRichard Henderson tag_paddr, ptr_paddr); 190e4d5bf4fSRichard Henderson return NULL; 191e4d5bf4fSRichard Henderson } 192e4d5bf4fSRichard Henderson 193e4d5bf4fSRichard Henderson /* 194e4d5bf4fSRichard Henderson * Ensure the tag memory is dirty on write, for migration. 195e4d5bf4fSRichard Henderson * Tag memory can never contain code or display memory (vga). 196e4d5bf4fSRichard Henderson */ 197e4d5bf4fSRichard Henderson if (tag_access == MMU_DATA_STORE) { 198e4d5bf4fSRichard Henderson ram_addr_t tag_ra = memory_region_get_ram_addr(mr) + xlat; 199e4d5bf4fSRichard Henderson cpu_physical_memory_set_dirty_flag(tag_ra, DIRTY_MEMORY_MIGRATION); 200e4d5bf4fSRichard Henderson } 201e4d5bf4fSRichard Henderson 202e4d5bf4fSRichard Henderson return memory_region_get_ram_ptr(mr) + xlat; 203e4d5bf4fSRichard Henderson #endif 204c15294c1SRichard Henderson } 205c15294c1SRichard Henderson 206da54941fSRichard Henderson uint64_t HELPER(irg)(CPUARMState *env, uint64_t rn, uint64_t rm) 207da54941fSRichard Henderson { 208da54941fSRichard Henderson uint16_t exclude = extract32(rm | env->cp15.gcr_el1, 0, 16); 209d4f6dda1SRichard Henderson int rrnd = extract32(env->cp15.gcr_el1, 16, 1); 210da54941fSRichard Henderson int start = extract32(env->cp15.rgsr_el1, 0, 4); 211da54941fSRichard Henderson int seed = extract32(env->cp15.rgsr_el1, 8, 16); 212d4f6dda1SRichard Henderson int offset, i, rtag; 213d4f6dda1SRichard Henderson 214d4f6dda1SRichard Henderson /* 215d4f6dda1SRichard Henderson * Our IMPDEF choice for GCR_EL1.RRND==1 is to continue to use the 216d4f6dda1SRichard Henderson * deterministic algorithm. Except that with RRND==1 the kernel is 217d4f6dda1SRichard Henderson * not required to have set RGSR_EL1.SEED != 0, which is required for 218d4f6dda1SRichard Henderson * the deterministic algorithm to function. So we force a non-zero 219d4f6dda1SRichard Henderson * SEED for that case. 220d4f6dda1SRichard Henderson */ 221d4f6dda1SRichard Henderson if (unlikely(seed == 0) && rrnd) { 222d4f6dda1SRichard Henderson do { 223d4f6dda1SRichard Henderson Error *err = NULL; 224d4f6dda1SRichard Henderson uint16_t two; 225d4f6dda1SRichard Henderson 226d4f6dda1SRichard Henderson if (qemu_guest_getrandom(&two, sizeof(two), &err) < 0) { 227d4f6dda1SRichard Henderson /* 228d4f6dda1SRichard Henderson * Failed, for unknown reasons in the crypto subsystem. 229d4f6dda1SRichard Henderson * Best we can do is log the reason and use a constant seed. 230d4f6dda1SRichard Henderson */ 231d4f6dda1SRichard Henderson qemu_log_mask(LOG_UNIMP, "IRG: Crypto failure: %s\n", 232d4f6dda1SRichard Henderson error_get_pretty(err)); 233d4f6dda1SRichard Henderson error_free(err); 234d4f6dda1SRichard Henderson two = 1; 235d4f6dda1SRichard Henderson } 236d4f6dda1SRichard Henderson seed = two; 237d4f6dda1SRichard Henderson } while (seed == 0); 238d4f6dda1SRichard Henderson } 239da54941fSRichard Henderson 240da54941fSRichard Henderson /* RandomTag */ 241da54941fSRichard Henderson for (i = offset = 0; i < 4; ++i) { 242da54941fSRichard Henderson /* NextRandomTagBit */ 243da54941fSRichard Henderson int top = (extract32(seed, 5, 1) ^ extract32(seed, 3, 1) ^ 244da54941fSRichard Henderson extract32(seed, 2, 1) ^ extract32(seed, 0, 1)); 245da54941fSRichard Henderson seed = (top << 15) | (seed >> 1); 246da54941fSRichard Henderson offset |= top << i; 247da54941fSRichard Henderson } 248da54941fSRichard Henderson rtag = choose_nonexcluded_tag(start, offset, exclude); 249da54941fSRichard Henderson env->cp15.rgsr_el1 = rtag | (seed << 8); 250da54941fSRichard Henderson 251da54941fSRichard Henderson return address_with_allocation_tag(rn, rtag); 252da54941fSRichard Henderson } 253efbc78adSRichard Henderson 254efbc78adSRichard Henderson uint64_t HELPER(addsubg)(CPUARMState *env, uint64_t ptr, 255efbc78adSRichard Henderson int32_t offset, uint32_t tag_offset) 256efbc78adSRichard Henderson { 257efbc78adSRichard Henderson int start_tag = allocation_tag_from_addr(ptr); 258efbc78adSRichard Henderson uint16_t exclude = extract32(env->cp15.gcr_el1, 0, 16); 259efbc78adSRichard Henderson int rtag = choose_nonexcluded_tag(start_tag, tag_offset, exclude); 260efbc78adSRichard Henderson 261efbc78adSRichard Henderson return address_with_allocation_tag(ptr + offset, rtag); 262efbc78adSRichard Henderson } 263c15294c1SRichard Henderson 264c15294c1SRichard Henderson static int load_tag1(uint64_t ptr, uint8_t *mem) 265c15294c1SRichard Henderson { 266c15294c1SRichard Henderson int ofs = extract32(ptr, LOG2_TAG_GRANULE, 1) * 4; 267c15294c1SRichard Henderson return extract32(*mem, ofs, 4); 268c15294c1SRichard Henderson } 269c15294c1SRichard Henderson 270c15294c1SRichard Henderson uint64_t HELPER(ldg)(CPUARMState *env, uint64_t ptr, uint64_t xt) 271c15294c1SRichard Henderson { 272c15294c1SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 273c15294c1SRichard Henderson uint8_t *mem; 274c15294c1SRichard Henderson int rtag = 0; 275c15294c1SRichard Henderson 276c15294c1SRichard Henderson /* Trap if accessing an invalid page. */ 277c15294c1SRichard Henderson mem = allocation_tag_mem(env, mmu_idx, ptr, MMU_DATA_LOAD, 1, 278c15294c1SRichard Henderson MMU_DATA_LOAD, 1, GETPC()); 279c15294c1SRichard Henderson 280c15294c1SRichard Henderson /* Load if page supports tags. */ 281c15294c1SRichard Henderson if (mem) { 282c15294c1SRichard Henderson rtag = load_tag1(ptr, mem); 283c15294c1SRichard Henderson } 284c15294c1SRichard Henderson 285c15294c1SRichard Henderson return address_with_allocation_tag(xt, rtag); 286c15294c1SRichard Henderson } 287c15294c1SRichard Henderson 288c15294c1SRichard Henderson static void check_tag_aligned(CPUARMState *env, uint64_t ptr, uintptr_t ra) 289c15294c1SRichard Henderson { 290c15294c1SRichard Henderson if (unlikely(!QEMU_IS_ALIGNED(ptr, TAG_GRANULE))) { 291c15294c1SRichard Henderson arm_cpu_do_unaligned_access(env_cpu(env), ptr, MMU_DATA_STORE, 292c15294c1SRichard Henderson cpu_mmu_index(env, false), ra); 293c15294c1SRichard Henderson g_assert_not_reached(); 294c15294c1SRichard Henderson } 295c15294c1SRichard Henderson } 296c15294c1SRichard Henderson 297c15294c1SRichard Henderson /* For use in a non-parallel context, store to the given nibble. */ 298c15294c1SRichard Henderson static void store_tag1(uint64_t ptr, uint8_t *mem, int tag) 299c15294c1SRichard Henderson { 300c15294c1SRichard Henderson int ofs = extract32(ptr, LOG2_TAG_GRANULE, 1) * 4; 301c15294c1SRichard Henderson *mem = deposit32(*mem, ofs, 4, tag); 302c15294c1SRichard Henderson } 303c15294c1SRichard Henderson 304c15294c1SRichard Henderson /* For use in a parallel context, atomically store to the given nibble. */ 305c15294c1SRichard Henderson static void store_tag1_parallel(uint64_t ptr, uint8_t *mem, int tag) 306c15294c1SRichard Henderson { 307c15294c1SRichard Henderson int ofs = extract32(ptr, LOG2_TAG_GRANULE, 1) * 4; 308d73415a3SStefan Hajnoczi uint8_t old = qatomic_read(mem); 309c15294c1SRichard Henderson 310c15294c1SRichard Henderson while (1) { 311c15294c1SRichard Henderson uint8_t new = deposit32(old, ofs, 4, tag); 312d73415a3SStefan Hajnoczi uint8_t cmp = qatomic_cmpxchg(mem, old, new); 313c15294c1SRichard Henderson if (likely(cmp == old)) { 314c15294c1SRichard Henderson return; 315c15294c1SRichard Henderson } 316c15294c1SRichard Henderson old = cmp; 317c15294c1SRichard Henderson } 318c15294c1SRichard Henderson } 319c15294c1SRichard Henderson 320c15294c1SRichard Henderson typedef void stg_store1(uint64_t, uint8_t *, int); 321c15294c1SRichard Henderson 322c15294c1SRichard Henderson static inline void do_stg(CPUARMState *env, uint64_t ptr, uint64_t xt, 323c15294c1SRichard Henderson uintptr_t ra, stg_store1 store1) 324c15294c1SRichard Henderson { 325c15294c1SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 326c15294c1SRichard Henderson uint8_t *mem; 327c15294c1SRichard Henderson 328c15294c1SRichard Henderson check_tag_aligned(env, ptr, ra); 329c15294c1SRichard Henderson 330c15294c1SRichard Henderson /* Trap if accessing an invalid page. */ 331c15294c1SRichard Henderson mem = allocation_tag_mem(env, mmu_idx, ptr, MMU_DATA_STORE, TAG_GRANULE, 332c15294c1SRichard Henderson MMU_DATA_STORE, 1, ra); 333c15294c1SRichard Henderson 334c15294c1SRichard Henderson /* Store if page supports tags. */ 335c15294c1SRichard Henderson if (mem) { 336c15294c1SRichard Henderson store1(ptr, mem, allocation_tag_from_addr(xt)); 337c15294c1SRichard Henderson } 338c15294c1SRichard Henderson } 339c15294c1SRichard Henderson 340c15294c1SRichard Henderson void HELPER(stg)(CPUARMState *env, uint64_t ptr, uint64_t xt) 341c15294c1SRichard Henderson { 342c15294c1SRichard Henderson do_stg(env, ptr, xt, GETPC(), store_tag1); 343c15294c1SRichard Henderson } 344c15294c1SRichard Henderson 345c15294c1SRichard Henderson void HELPER(stg_parallel)(CPUARMState *env, uint64_t ptr, uint64_t xt) 346c15294c1SRichard Henderson { 347c15294c1SRichard Henderson do_stg(env, ptr, xt, GETPC(), store_tag1_parallel); 348c15294c1SRichard Henderson } 349c15294c1SRichard Henderson 350c15294c1SRichard Henderson void HELPER(stg_stub)(CPUARMState *env, uint64_t ptr) 351c15294c1SRichard Henderson { 352c15294c1SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 353c15294c1SRichard Henderson uintptr_t ra = GETPC(); 354c15294c1SRichard Henderson 355c15294c1SRichard Henderson check_tag_aligned(env, ptr, ra); 356c15294c1SRichard Henderson probe_write(env, ptr, TAG_GRANULE, mmu_idx, ra); 357c15294c1SRichard Henderson } 358c15294c1SRichard Henderson 359c15294c1SRichard Henderson static inline void do_st2g(CPUARMState *env, uint64_t ptr, uint64_t xt, 360c15294c1SRichard Henderson uintptr_t ra, stg_store1 store1) 361c15294c1SRichard Henderson { 362c15294c1SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 363c15294c1SRichard Henderson int tag = allocation_tag_from_addr(xt); 364c15294c1SRichard Henderson uint8_t *mem1, *mem2; 365c15294c1SRichard Henderson 366c15294c1SRichard Henderson check_tag_aligned(env, ptr, ra); 367c15294c1SRichard Henderson 368c15294c1SRichard Henderson /* 369c15294c1SRichard Henderson * Trap if accessing an invalid page(s). 370c15294c1SRichard Henderson * This takes priority over !allocation_tag_access_enabled. 371c15294c1SRichard Henderson */ 372c15294c1SRichard Henderson if (ptr & TAG_GRANULE) { 373c15294c1SRichard Henderson /* Two stores unaligned mod TAG_GRANULE*2 -- modify two bytes. */ 374c15294c1SRichard Henderson mem1 = allocation_tag_mem(env, mmu_idx, ptr, MMU_DATA_STORE, 375c15294c1SRichard Henderson TAG_GRANULE, MMU_DATA_STORE, 1, ra); 376c15294c1SRichard Henderson mem2 = allocation_tag_mem(env, mmu_idx, ptr + TAG_GRANULE, 377c15294c1SRichard Henderson MMU_DATA_STORE, TAG_GRANULE, 378c15294c1SRichard Henderson MMU_DATA_STORE, 1, ra); 379c15294c1SRichard Henderson 380c15294c1SRichard Henderson /* Store if page(s) support tags. */ 381c15294c1SRichard Henderson if (mem1) { 382c15294c1SRichard Henderson store1(TAG_GRANULE, mem1, tag); 383c15294c1SRichard Henderson } 384c15294c1SRichard Henderson if (mem2) { 385c15294c1SRichard Henderson store1(0, mem2, tag); 386c15294c1SRichard Henderson } 387c15294c1SRichard Henderson } else { 388c15294c1SRichard Henderson /* Two stores aligned mod TAG_GRANULE*2 -- modify one byte. */ 389c15294c1SRichard Henderson mem1 = allocation_tag_mem(env, mmu_idx, ptr, MMU_DATA_STORE, 390c15294c1SRichard Henderson 2 * TAG_GRANULE, MMU_DATA_STORE, 1, ra); 391c15294c1SRichard Henderson if (mem1) { 392c15294c1SRichard Henderson tag |= tag << 4; 393d73415a3SStefan Hajnoczi qatomic_set(mem1, tag); 394c15294c1SRichard Henderson } 395c15294c1SRichard Henderson } 396c15294c1SRichard Henderson } 397c15294c1SRichard Henderson 398c15294c1SRichard Henderson void HELPER(st2g)(CPUARMState *env, uint64_t ptr, uint64_t xt) 399c15294c1SRichard Henderson { 400c15294c1SRichard Henderson do_st2g(env, ptr, xt, GETPC(), store_tag1); 401c15294c1SRichard Henderson } 402c15294c1SRichard Henderson 403c15294c1SRichard Henderson void HELPER(st2g_parallel)(CPUARMState *env, uint64_t ptr, uint64_t xt) 404c15294c1SRichard Henderson { 405c15294c1SRichard Henderson do_st2g(env, ptr, xt, GETPC(), store_tag1_parallel); 406c15294c1SRichard Henderson } 407c15294c1SRichard Henderson 408c15294c1SRichard Henderson void HELPER(st2g_stub)(CPUARMState *env, uint64_t ptr) 409c15294c1SRichard Henderson { 410c15294c1SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 411c15294c1SRichard Henderson uintptr_t ra = GETPC(); 412c15294c1SRichard Henderson int in_page = -(ptr | TARGET_PAGE_MASK); 413c15294c1SRichard Henderson 414c15294c1SRichard Henderson check_tag_aligned(env, ptr, ra); 415c15294c1SRichard Henderson 416c15294c1SRichard Henderson if (likely(in_page >= 2 * TAG_GRANULE)) { 417c15294c1SRichard Henderson probe_write(env, ptr, 2 * TAG_GRANULE, mmu_idx, ra); 418c15294c1SRichard Henderson } else { 419c15294c1SRichard Henderson probe_write(env, ptr, TAG_GRANULE, mmu_idx, ra); 420c15294c1SRichard Henderson probe_write(env, ptr + TAG_GRANULE, TAG_GRANULE, mmu_idx, ra); 421c15294c1SRichard Henderson } 422c15294c1SRichard Henderson } 4235f716a82SRichard Henderson 4245f716a82SRichard Henderson #define LDGM_STGM_SIZE (4 << GMID_EL1_BS) 4255f716a82SRichard Henderson 4265f716a82SRichard Henderson uint64_t HELPER(ldgm)(CPUARMState *env, uint64_t ptr) 4275f716a82SRichard Henderson { 4285f716a82SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 4295f716a82SRichard Henderson uintptr_t ra = GETPC(); 4305f716a82SRichard Henderson void *tag_mem; 4315f716a82SRichard Henderson 4325f716a82SRichard Henderson ptr = QEMU_ALIGN_DOWN(ptr, LDGM_STGM_SIZE); 4335f716a82SRichard Henderson 4345f716a82SRichard Henderson /* Trap if accessing an invalid page. */ 4355f716a82SRichard Henderson tag_mem = allocation_tag_mem(env, mmu_idx, ptr, MMU_DATA_LOAD, 4365f716a82SRichard Henderson LDGM_STGM_SIZE, MMU_DATA_LOAD, 4375f716a82SRichard Henderson LDGM_STGM_SIZE / (2 * TAG_GRANULE), ra); 4385f716a82SRichard Henderson 4395f716a82SRichard Henderson /* The tag is squashed to zero if the page does not support tags. */ 4405f716a82SRichard Henderson if (!tag_mem) { 4415f716a82SRichard Henderson return 0; 4425f716a82SRichard Henderson } 4435f716a82SRichard Henderson 4445f716a82SRichard Henderson QEMU_BUILD_BUG_ON(GMID_EL1_BS != 6); 4455f716a82SRichard Henderson /* 4465f716a82SRichard Henderson * We are loading 64-bits worth of tags. The ordering of elements 4475f716a82SRichard Henderson * within the word corresponds to a 64-bit little-endian operation. 4485f716a82SRichard Henderson */ 4495f716a82SRichard Henderson return ldq_le_p(tag_mem); 4505f716a82SRichard Henderson } 4515f716a82SRichard Henderson 4525f716a82SRichard Henderson void HELPER(stgm)(CPUARMState *env, uint64_t ptr, uint64_t val) 4535f716a82SRichard Henderson { 4545f716a82SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 4555f716a82SRichard Henderson uintptr_t ra = GETPC(); 4565f716a82SRichard Henderson void *tag_mem; 4575f716a82SRichard Henderson 4585f716a82SRichard Henderson ptr = QEMU_ALIGN_DOWN(ptr, LDGM_STGM_SIZE); 4595f716a82SRichard Henderson 4605f716a82SRichard Henderson /* Trap if accessing an invalid page. */ 4615f716a82SRichard Henderson tag_mem = allocation_tag_mem(env, mmu_idx, ptr, MMU_DATA_STORE, 4625f716a82SRichard Henderson LDGM_STGM_SIZE, MMU_DATA_LOAD, 4635f716a82SRichard Henderson LDGM_STGM_SIZE / (2 * TAG_GRANULE), ra); 4645f716a82SRichard Henderson 4655f716a82SRichard Henderson /* 4665f716a82SRichard Henderson * Tag store only happens if the page support tags, 4675f716a82SRichard Henderson * and if the OS has enabled access to the tags. 4685f716a82SRichard Henderson */ 4695f716a82SRichard Henderson if (!tag_mem) { 4705f716a82SRichard Henderson return; 4715f716a82SRichard Henderson } 4725f716a82SRichard Henderson 4735f716a82SRichard Henderson QEMU_BUILD_BUG_ON(GMID_EL1_BS != 6); 4745f716a82SRichard Henderson /* 4755f716a82SRichard Henderson * We are storing 64-bits worth of tags. The ordering of elements 4765f716a82SRichard Henderson * within the word corresponds to a 64-bit little-endian operation. 4775f716a82SRichard Henderson */ 4785f716a82SRichard Henderson stq_le_p(tag_mem, val); 4795f716a82SRichard Henderson } 4805f716a82SRichard Henderson 4815f716a82SRichard Henderson void HELPER(stzgm_tags)(CPUARMState *env, uint64_t ptr, uint64_t val) 4825f716a82SRichard Henderson { 4835f716a82SRichard Henderson uintptr_t ra = GETPC(); 4845f716a82SRichard Henderson int mmu_idx = cpu_mmu_index(env, false); 4855f716a82SRichard Henderson int log2_dcz_bytes, log2_tag_bytes; 4865f716a82SRichard Henderson intptr_t dcz_bytes, tag_bytes; 4875f716a82SRichard Henderson uint8_t *mem; 4885f716a82SRichard Henderson 4895f716a82SRichard Henderson /* 4905f716a82SRichard Henderson * In arm_cpu_realizefn, we assert that dcz > LOG2_TAG_GRANULE+1, 4915f716a82SRichard Henderson * i.e. 32 bytes, which is an unreasonably small dcz anyway, 4925f716a82SRichard Henderson * to make sure that we can access one complete tag byte here. 4935f716a82SRichard Henderson */ 4945f716a82SRichard Henderson log2_dcz_bytes = env_archcpu(env)->dcz_blocksize + 2; 4955f716a82SRichard Henderson log2_tag_bytes = log2_dcz_bytes - (LOG2_TAG_GRANULE + 1); 4965f716a82SRichard Henderson dcz_bytes = (intptr_t)1 << log2_dcz_bytes; 4975f716a82SRichard Henderson tag_bytes = (intptr_t)1 << log2_tag_bytes; 4985f716a82SRichard Henderson ptr &= -dcz_bytes; 4995f716a82SRichard Henderson 5005f716a82SRichard Henderson mem = allocation_tag_mem(env, mmu_idx, ptr, MMU_DATA_STORE, dcz_bytes, 5015f716a82SRichard Henderson MMU_DATA_STORE, tag_bytes, ra); 5025f716a82SRichard Henderson if (mem) { 5035f716a82SRichard Henderson int tag_pair = (val & 0xf) * 0x11; 5045f716a82SRichard Henderson memset(mem, tag_pair, tag_bytes); 5055f716a82SRichard Henderson } 5065f716a82SRichard Henderson } 5070a405be2SRichard Henderson 50886f0d4c7SPeter Collingbourne static void mte_sync_check_fail(CPUARMState *env, uint32_t desc, 50986f0d4c7SPeter Collingbourne uint64_t dirty_ptr, uintptr_t ra) 51086f0d4c7SPeter Collingbourne { 51186f0d4c7SPeter Collingbourne int is_write, syn; 51286f0d4c7SPeter Collingbourne 51386f0d4c7SPeter Collingbourne env->exception.vaddress = dirty_ptr; 51486f0d4c7SPeter Collingbourne 51586f0d4c7SPeter Collingbourne is_write = FIELD_EX32(desc, MTEDESC, WRITE); 51686f0d4c7SPeter Collingbourne syn = syn_data_abort_no_iss(arm_current_el(env) != 0, 0, 0, 0, 0, is_write, 51786f0d4c7SPeter Collingbourne 0x11); 51886f0d4c7SPeter Collingbourne raise_exception_ra(env, EXCP_DATA_ABORT, syn, exception_target_el(env), ra); 51986f0d4c7SPeter Collingbourne g_assert_not_reached(); 52086f0d4c7SPeter Collingbourne } 52186f0d4c7SPeter Collingbourne 52286f0d4c7SPeter Collingbourne static void mte_async_check_fail(CPUARMState *env, uint64_t dirty_ptr, 52386f0d4c7SPeter Collingbourne uintptr_t ra, ARMMMUIdx arm_mmu_idx, int el) 52486f0d4c7SPeter Collingbourne { 52586f0d4c7SPeter Collingbourne int select; 52686f0d4c7SPeter Collingbourne 52786f0d4c7SPeter Collingbourne if (regime_has_2_ranges(arm_mmu_idx)) { 52886f0d4c7SPeter Collingbourne select = extract64(dirty_ptr, 55, 1); 52986f0d4c7SPeter Collingbourne } else { 53086f0d4c7SPeter Collingbourne select = 0; 53186f0d4c7SPeter Collingbourne } 53286f0d4c7SPeter Collingbourne env->cp15.tfsr_el[el] |= 1 << select; 53386f0d4c7SPeter Collingbourne #ifdef CONFIG_USER_ONLY 53486f0d4c7SPeter Collingbourne /* 53586f0d4c7SPeter Collingbourne * Stand in for a timer irq, setting _TIF_MTE_ASYNC_FAULT, 53686f0d4c7SPeter Collingbourne * which then sends a SIGSEGV when the thread is next scheduled. 53786f0d4c7SPeter Collingbourne * This cpu will return to the main loop at the end of the TB, 53886f0d4c7SPeter Collingbourne * which is rather sooner than "normal". But the alternative 53986f0d4c7SPeter Collingbourne * is waiting until the next syscall. 54086f0d4c7SPeter Collingbourne */ 54186f0d4c7SPeter Collingbourne qemu_cpu_kick(env_cpu(env)); 54286f0d4c7SPeter Collingbourne #endif 54386f0d4c7SPeter Collingbourne } 54486f0d4c7SPeter Collingbourne 5452e34ff45SRichard Henderson /* Record a tag check failure. */ 546dbf8c321SRichard Henderson static void mte_check_fail(CPUARMState *env, uint32_t desc, 5472e34ff45SRichard Henderson uint64_t dirty_ptr, uintptr_t ra) 5482e34ff45SRichard Henderson { 549dbf8c321SRichard Henderson int mmu_idx = FIELD_EX32(desc, MTEDESC, MIDX); 5502e34ff45SRichard Henderson ARMMMUIdx arm_mmu_idx = core_to_aa64_mmu_idx(mmu_idx); 55186f0d4c7SPeter Collingbourne int el, reg_el, tcf; 5522e34ff45SRichard Henderson uint64_t sctlr; 5532e34ff45SRichard Henderson 5542e34ff45SRichard Henderson reg_el = regime_el(env, arm_mmu_idx); 5552e34ff45SRichard Henderson sctlr = env->cp15.sctlr_el[reg_el]; 5562e34ff45SRichard Henderson 5572d928adfSPeter Collingbourne switch (arm_mmu_idx) { 5582d928adfSPeter Collingbourne case ARMMMUIdx_E10_0: 5592d928adfSPeter Collingbourne case ARMMMUIdx_E20_0: 5602d928adfSPeter Collingbourne el = 0; 5612e34ff45SRichard Henderson tcf = extract64(sctlr, 38, 2); 5622d928adfSPeter Collingbourne break; 5632d928adfSPeter Collingbourne default: 5642d928adfSPeter Collingbourne el = reg_el; 5652e34ff45SRichard Henderson tcf = extract64(sctlr, 40, 2); 5662e34ff45SRichard Henderson } 5672e34ff45SRichard Henderson 5682e34ff45SRichard Henderson switch (tcf) { 5692e34ff45SRichard Henderson case 1: 5705bf100c3SJamie Iles /* Tag check fail causes a synchronous exception. */ 57186f0d4c7SPeter Collingbourne mte_sync_check_fail(env, desc, dirty_ptr, ra); 57286f0d4c7SPeter Collingbourne break; 5732e34ff45SRichard Henderson 5742e34ff45SRichard Henderson case 0: 5752e34ff45SRichard Henderson /* 5762e34ff45SRichard Henderson * Tag check fail does not affect the PE. 5772e34ff45SRichard Henderson * We eliminate this case by not setting MTE_ACTIVE 5782e34ff45SRichard Henderson * in tb_flags, so that we never make this runtime call. 5792e34ff45SRichard Henderson */ 5802e34ff45SRichard Henderson g_assert_not_reached(); 5812e34ff45SRichard Henderson 5822e34ff45SRichard Henderson case 2: 5832e34ff45SRichard Henderson /* Tag check fail causes asynchronous flag set. */ 58486f0d4c7SPeter Collingbourne mte_async_check_fail(env, dirty_ptr, ra, arm_mmu_idx, el); 5852e34ff45SRichard Henderson break; 5862e34ff45SRichard Henderson 58786f0d4c7SPeter Collingbourne case 3: 58886f0d4c7SPeter Collingbourne /* 58986f0d4c7SPeter Collingbourne * Tag check fail causes asynchronous flag set for stores, or 59086f0d4c7SPeter Collingbourne * a synchronous exception for loads. 59186f0d4c7SPeter Collingbourne */ 59286f0d4c7SPeter Collingbourne if (FIELD_EX32(desc, MTEDESC, WRITE)) { 59386f0d4c7SPeter Collingbourne mte_async_check_fail(env, dirty_ptr, ra, arm_mmu_idx, el); 59486f0d4c7SPeter Collingbourne } else { 59586f0d4c7SPeter Collingbourne mte_sync_check_fail(env, desc, dirty_ptr, ra); 59686f0d4c7SPeter Collingbourne } 5972e34ff45SRichard Henderson break; 5982e34ff45SRichard Henderson } 5992e34ff45SRichard Henderson } 6002e34ff45SRichard Henderson 6015add8248SRichard Henderson /** 6025add8248SRichard Henderson * checkN: 6035add8248SRichard Henderson * @tag: tag memory to test 6045add8248SRichard Henderson * @odd: true to begin testing at tags at odd nibble 6055add8248SRichard Henderson * @cmp: the tag to compare against 6065add8248SRichard Henderson * @count: number of tags to test 6075add8248SRichard Henderson * 6085add8248SRichard Henderson * Return the number of successful tests. 6095add8248SRichard Henderson * Thus a return value < @count indicates a failure. 6105add8248SRichard Henderson * 6115add8248SRichard Henderson * A note about sizes: count is expected to be small. 6125add8248SRichard Henderson * 6135add8248SRichard Henderson * The most common use will be LDP/STP of two integer registers, 6145add8248SRichard Henderson * which means 16 bytes of memory touching at most 2 tags, but 6155add8248SRichard Henderson * often the access is aligned and thus just 1 tag. 6165add8248SRichard Henderson * 6175add8248SRichard Henderson * Using AdvSIMD LD/ST (multiple), one can access 64 bytes of memory, 6185add8248SRichard Henderson * touching at most 5 tags. SVE LDR/STR (vector) with the default 6195add8248SRichard Henderson * vector length is also 64 bytes; the maximum architectural length 6205add8248SRichard Henderson * is 256 bytes touching at most 9 tags. 6215add8248SRichard Henderson * 6225add8248SRichard Henderson * The loop below uses 7 logical operations and 1 memory operation 6235add8248SRichard Henderson * per tag pair. An implementation that loads an aligned word and 6245add8248SRichard Henderson * uses masking to ignore adjacent tags requires 18 logical operations 6255add8248SRichard Henderson * and thus does not begin to pay off until 6 tags. 6265add8248SRichard Henderson * Which, according to the survey above, is unlikely to be common. 6275add8248SRichard Henderson */ 6285add8248SRichard Henderson static int checkN(uint8_t *mem, int odd, int cmp, int count) 6295add8248SRichard Henderson { 6305add8248SRichard Henderson int n = 0, diff; 6315add8248SRichard Henderson 6325add8248SRichard Henderson /* Replicate the test tag and compare. */ 6335add8248SRichard Henderson cmp *= 0x11; 6345add8248SRichard Henderson diff = *mem++ ^ cmp; 6355add8248SRichard Henderson 6365add8248SRichard Henderson if (odd) { 6375add8248SRichard Henderson goto start_odd; 6385add8248SRichard Henderson } 6395add8248SRichard Henderson 6405add8248SRichard Henderson while (1) { 6415add8248SRichard Henderson /* Test even tag. */ 6425add8248SRichard Henderson if (unlikely((diff) & 0x0f)) { 6435add8248SRichard Henderson break; 6445add8248SRichard Henderson } 6455add8248SRichard Henderson if (++n == count) { 6465add8248SRichard Henderson break; 6475add8248SRichard Henderson } 6485add8248SRichard Henderson 6495add8248SRichard Henderson start_odd: 6505add8248SRichard Henderson /* Test odd tag. */ 6515add8248SRichard Henderson if (unlikely((diff) & 0xf0)) { 6525add8248SRichard Henderson break; 6535add8248SRichard Henderson } 6545add8248SRichard Henderson if (++n == count) { 6555add8248SRichard Henderson break; 6565add8248SRichard Henderson } 6575add8248SRichard Henderson 6585add8248SRichard Henderson diff = *mem++ ^ cmp; 6595add8248SRichard Henderson } 6605add8248SRichard Henderson return n; 6615add8248SRichard Henderson } 6625add8248SRichard Henderson 663f8c8a860SRichard Henderson /** 664f8c8a860SRichard Henderson * mte_probe_int() - helper for mte_probe and mte_check 665f8c8a860SRichard Henderson * @env: CPU environment 666f8c8a860SRichard Henderson * @desc: MTEDESC descriptor 667f8c8a860SRichard Henderson * @ptr: virtual address of the base of the access 668f8c8a860SRichard Henderson * @fault: return virtual address of the first check failure 669f8c8a860SRichard Henderson * 670f8c8a860SRichard Henderson * Internal routine for both mte_probe and mte_check. 671f8c8a860SRichard Henderson * Return zero on failure, filling in *fault. 672f8c8a860SRichard Henderson * Return negative on trivial success for tbi disabled. 673f8c8a860SRichard Henderson * Return positive on success with tbi enabled. 674f8c8a860SRichard Henderson */ 675f8c8a860SRichard Henderson static int mte_probe_int(CPUARMState *env, uint32_t desc, uint64_t ptr, 67628f32503SRichard Henderson uintptr_t ra, uint64_t *fault) 6775add8248SRichard Henderson { 6785add8248SRichard Henderson int mmu_idx, ptr_tag, bit55; 67998f96050SRichard Henderson uint64_t ptr_last, prev_page, next_page; 68098f96050SRichard Henderson uint64_t tag_first, tag_last; 68198f96050SRichard Henderson uint64_t tag_byte_first, tag_byte_last; 68228f32503SRichard Henderson uint32_t sizem1, tag_count, tag_size, n, c; 6835add8248SRichard Henderson uint8_t *mem1, *mem2; 6845add8248SRichard Henderson MMUAccessType type; 6855add8248SRichard Henderson 6865add8248SRichard Henderson bit55 = extract64(ptr, 55, 1); 687f8c8a860SRichard Henderson *fault = ptr; 6885add8248SRichard Henderson 6895add8248SRichard Henderson /* If TBI is disabled, the access is unchecked, and ptr is not dirty. */ 6905add8248SRichard Henderson if (unlikely(!tbi_check(desc, bit55))) { 691f8c8a860SRichard Henderson return -1; 6925add8248SRichard Henderson } 6935add8248SRichard Henderson 6945add8248SRichard Henderson ptr_tag = allocation_tag_from_addr(ptr); 6955add8248SRichard Henderson 6965add8248SRichard Henderson if (tcma_check(desc, bit55, ptr_tag)) { 697f8c8a860SRichard Henderson return 1; 6985add8248SRichard Henderson } 6995add8248SRichard Henderson 7005add8248SRichard Henderson mmu_idx = FIELD_EX32(desc, MTEDESC, MIDX); 7015add8248SRichard Henderson type = FIELD_EX32(desc, MTEDESC, WRITE) ? MMU_DATA_STORE : MMU_DATA_LOAD; 70228f32503SRichard Henderson sizem1 = FIELD_EX32(desc, MTEDESC, SIZEM1); 7035add8248SRichard Henderson 70498f96050SRichard Henderson /* Find the addr of the end of the access */ 70528f32503SRichard Henderson ptr_last = ptr + sizem1; 7065add8248SRichard Henderson 7075add8248SRichard Henderson /* Round the bounds to the tag granule, and compute the number of tags. */ 7085add8248SRichard Henderson tag_first = QEMU_ALIGN_DOWN(ptr, TAG_GRANULE); 70998f96050SRichard Henderson tag_last = QEMU_ALIGN_DOWN(ptr_last, TAG_GRANULE); 71098f96050SRichard Henderson tag_count = ((tag_last - tag_first) / TAG_GRANULE) + 1; 7115add8248SRichard Henderson 7125add8248SRichard Henderson /* Round the bounds to twice the tag granule, and compute the bytes. */ 7135add8248SRichard Henderson tag_byte_first = QEMU_ALIGN_DOWN(ptr, 2 * TAG_GRANULE); 71498f96050SRichard Henderson tag_byte_last = QEMU_ALIGN_DOWN(ptr_last, 2 * TAG_GRANULE); 7155add8248SRichard Henderson 7165add8248SRichard Henderson /* Locate the page boundaries. */ 7175add8248SRichard Henderson prev_page = ptr & TARGET_PAGE_MASK; 7185add8248SRichard Henderson next_page = prev_page + TARGET_PAGE_SIZE; 7195add8248SRichard Henderson 720d3327a38SRichard Henderson if (likely(tag_last - prev_page < TARGET_PAGE_SIZE)) { 7215add8248SRichard Henderson /* Memory access stays on one page. */ 72298f96050SRichard Henderson tag_size = ((tag_byte_last - tag_byte_first) / (2 * TAG_GRANULE)) + 1; 72328f32503SRichard Henderson mem1 = allocation_tag_mem(env, mmu_idx, ptr, type, sizem1 + 1, 7245add8248SRichard Henderson MMU_DATA_LOAD, tag_size, ra); 7255add8248SRichard Henderson if (!mem1) { 726f8c8a860SRichard Henderson return 1; 7275add8248SRichard Henderson } 7285add8248SRichard Henderson /* Perform all of the comparisons. */ 7295add8248SRichard Henderson n = checkN(mem1, ptr & TAG_GRANULE, ptr_tag, tag_count); 7305add8248SRichard Henderson } else { 7315add8248SRichard Henderson /* Memory access crosses to next page. */ 7325add8248SRichard Henderson tag_size = (next_page - tag_byte_first) / (2 * TAG_GRANULE); 7335add8248SRichard Henderson mem1 = allocation_tag_mem(env, mmu_idx, ptr, type, next_page - ptr, 7345add8248SRichard Henderson MMU_DATA_LOAD, tag_size, ra); 7355add8248SRichard Henderson 73698f96050SRichard Henderson tag_size = ((tag_byte_last - next_page) / (2 * TAG_GRANULE)) + 1; 7375add8248SRichard Henderson mem2 = allocation_tag_mem(env, mmu_idx, next_page, type, 73898f96050SRichard Henderson ptr_last - next_page + 1, 7395add8248SRichard Henderson MMU_DATA_LOAD, tag_size, ra); 7405add8248SRichard Henderson 7415add8248SRichard Henderson /* 7425add8248SRichard Henderson * Perform all of the comparisons. 7435add8248SRichard Henderson * Note the possible but unlikely case of the operation spanning 7445add8248SRichard Henderson * two pages that do not both have tagging enabled. 7455add8248SRichard Henderson */ 7465add8248SRichard Henderson n = c = (next_page - tag_first) / TAG_GRANULE; 7475add8248SRichard Henderson if (mem1) { 7485add8248SRichard Henderson n = checkN(mem1, ptr & TAG_GRANULE, ptr_tag, c); 7495add8248SRichard Henderson } 7505add8248SRichard Henderson if (n == c) { 7515add8248SRichard Henderson if (!mem2) { 752f8c8a860SRichard Henderson return 1; 7535add8248SRichard Henderson } 7545add8248SRichard Henderson n += checkN(mem2, 0, ptr_tag, tag_count - c); 7555add8248SRichard Henderson } 7565add8248SRichard Henderson } 7575add8248SRichard Henderson 758f8c8a860SRichard Henderson if (likely(n == tag_count)) { 759f8c8a860SRichard Henderson return 1; 760f8c8a860SRichard Henderson } 761f8c8a860SRichard Henderson 7625add8248SRichard Henderson /* 76398f96050SRichard Henderson * If we failed, we know which granule. For the first granule, the 76498f96050SRichard Henderson * failure address is @ptr, the first byte accessed. Otherwise the 76598f96050SRichard Henderson * failure address is the first byte of the nth granule. 7665add8248SRichard Henderson */ 767f8c8a860SRichard Henderson if (n > 0) { 768f8c8a860SRichard Henderson *fault = tag_first + n * TAG_GRANULE; 769f8c8a860SRichard Henderson } 770f8c8a860SRichard Henderson return 0; 7715add8248SRichard Henderson } 7725add8248SRichard Henderson 773bd47b61cSRichard Henderson uint64_t mte_check(CPUARMState *env, uint32_t desc, uint64_t ptr, uintptr_t ra) 774f8c8a860SRichard Henderson { 775f8c8a860SRichard Henderson uint64_t fault; 77628f32503SRichard Henderson int ret = mte_probe_int(env, desc, ptr, ra, &fault); 777f8c8a860SRichard Henderson 778f8c8a860SRichard Henderson if (unlikely(ret == 0)) { 779f8c8a860SRichard Henderson mte_check_fail(env, desc, fault, ra); 780f8c8a860SRichard Henderson } else if (ret < 0) { 781f8c8a860SRichard Henderson return ptr; 782f8c8a860SRichard Henderson } 7835add8248SRichard Henderson return useronly_clean_ptr(ptr); 7845add8248SRichard Henderson } 7855add8248SRichard Henderson 786bd47b61cSRichard Henderson uint64_t HELPER(mte_check)(CPUARMState *env, uint32_t desc, uint64_t ptr) 78773ceeb00SRichard Henderson { 788bd47b61cSRichard Henderson return mte_check(env, desc, ptr, GETPC()); 7894a09a213SRichard Henderson } 7904a09a213SRichard Henderson 7914a09a213SRichard Henderson /* 792d304d280SRichard Henderson * No-fault version of mte_check, to be used by SVE for MemSingleNF. 7934a09a213SRichard Henderson * Returns false if the access is Checked and the check failed. This 7944a09a213SRichard Henderson * is only intended to probe the tag -- the validity of the page must 7954a09a213SRichard Henderson * be checked beforehand. 7964a09a213SRichard Henderson */ 797d304d280SRichard Henderson bool mte_probe(CPUARMState *env, uint32_t desc, uint64_t ptr) 7984a09a213SRichard Henderson { 7994a09a213SRichard Henderson uint64_t fault; 80028f32503SRichard Henderson int ret = mte_probe_int(env, desc, ptr, 0, &fault); 8014a09a213SRichard Henderson 8024a09a213SRichard Henderson return ret != 0; 8034a09a213SRichard Henderson } 8044a09a213SRichard Henderson 80546dc1bc0SRichard Henderson /* 80646dc1bc0SRichard Henderson * Perform an MTE checked access for DC_ZVA. 80746dc1bc0SRichard Henderson */ 80846dc1bc0SRichard Henderson uint64_t HELPER(mte_check_zva)(CPUARMState *env, uint32_t desc, uint64_t ptr) 80946dc1bc0SRichard Henderson { 81046dc1bc0SRichard Henderson uintptr_t ra = GETPC(); 81146dc1bc0SRichard Henderson int log2_dcz_bytes, log2_tag_bytes; 81246dc1bc0SRichard Henderson int mmu_idx, bit55; 81346dc1bc0SRichard Henderson intptr_t dcz_bytes, tag_bytes, i; 81446dc1bc0SRichard Henderson void *mem; 81546dc1bc0SRichard Henderson uint64_t ptr_tag, mem_tag, align_ptr; 81646dc1bc0SRichard Henderson 81746dc1bc0SRichard Henderson bit55 = extract64(ptr, 55, 1); 81846dc1bc0SRichard Henderson 81946dc1bc0SRichard Henderson /* If TBI is disabled, the access is unchecked, and ptr is not dirty. */ 82046dc1bc0SRichard Henderson if (unlikely(!tbi_check(desc, bit55))) { 82146dc1bc0SRichard Henderson return ptr; 82246dc1bc0SRichard Henderson } 82346dc1bc0SRichard Henderson 82446dc1bc0SRichard Henderson ptr_tag = allocation_tag_from_addr(ptr); 82546dc1bc0SRichard Henderson 82646dc1bc0SRichard Henderson if (tcma_check(desc, bit55, ptr_tag)) { 82746dc1bc0SRichard Henderson goto done; 82846dc1bc0SRichard Henderson } 82946dc1bc0SRichard Henderson 83046dc1bc0SRichard Henderson /* 83146dc1bc0SRichard Henderson * In arm_cpu_realizefn, we asserted that dcz > LOG2_TAG_GRANULE+1, 83246dc1bc0SRichard Henderson * i.e. 32 bytes, which is an unreasonably small dcz anyway, to make 83346dc1bc0SRichard Henderson * sure that we can access one complete tag byte here. 83446dc1bc0SRichard Henderson */ 83546dc1bc0SRichard Henderson log2_dcz_bytes = env_archcpu(env)->dcz_blocksize + 2; 83646dc1bc0SRichard Henderson log2_tag_bytes = log2_dcz_bytes - (LOG2_TAG_GRANULE + 1); 83746dc1bc0SRichard Henderson dcz_bytes = (intptr_t)1 << log2_dcz_bytes; 83846dc1bc0SRichard Henderson tag_bytes = (intptr_t)1 << log2_tag_bytes; 83946dc1bc0SRichard Henderson align_ptr = ptr & -dcz_bytes; 84046dc1bc0SRichard Henderson 84146dc1bc0SRichard Henderson /* 84246dc1bc0SRichard Henderson * Trap if accessing an invalid page. DC_ZVA requires that we supply 84346dc1bc0SRichard Henderson * the original pointer for an invalid page. But watchpoints require 84446dc1bc0SRichard Henderson * that we probe the actual space. So do both. 84546dc1bc0SRichard Henderson */ 84646dc1bc0SRichard Henderson mmu_idx = FIELD_EX32(desc, MTEDESC, MIDX); 84746dc1bc0SRichard Henderson (void) probe_write(env, ptr, 1, mmu_idx, ra); 84846dc1bc0SRichard Henderson mem = allocation_tag_mem(env, mmu_idx, align_ptr, MMU_DATA_STORE, 84946dc1bc0SRichard Henderson dcz_bytes, MMU_DATA_LOAD, tag_bytes, ra); 85046dc1bc0SRichard Henderson if (!mem) { 85146dc1bc0SRichard Henderson goto done; 85246dc1bc0SRichard Henderson } 85346dc1bc0SRichard Henderson 85446dc1bc0SRichard Henderson /* 85546dc1bc0SRichard Henderson * Unlike the reasoning for checkN, DC_ZVA is always aligned, and thus 85646dc1bc0SRichard Henderson * it is quite easy to perform all of the comparisons at once without 85746dc1bc0SRichard Henderson * any extra masking. 85846dc1bc0SRichard Henderson * 85946dc1bc0SRichard Henderson * The most common zva block size is 64; some of the thunderx cpus use 86046dc1bc0SRichard Henderson * a block size of 128. For user-only, aarch64_max_initfn will set the 86146dc1bc0SRichard Henderson * block size to 512. Fill out the other cases for future-proofing. 86246dc1bc0SRichard Henderson * 86346dc1bc0SRichard Henderson * In order to be able to find the first miscompare later, we want the 86446dc1bc0SRichard Henderson * tag bytes to be in little-endian order. 86546dc1bc0SRichard Henderson */ 86646dc1bc0SRichard Henderson switch (log2_tag_bytes) { 86746dc1bc0SRichard Henderson case 0: /* zva_blocksize 32 */ 86846dc1bc0SRichard Henderson mem_tag = *(uint8_t *)mem; 86946dc1bc0SRichard Henderson ptr_tag *= 0x11u; 87046dc1bc0SRichard Henderson break; 87146dc1bc0SRichard Henderson case 1: /* zva_blocksize 64 */ 87246dc1bc0SRichard Henderson mem_tag = cpu_to_le16(*(uint16_t *)mem); 87346dc1bc0SRichard Henderson ptr_tag *= 0x1111u; 87446dc1bc0SRichard Henderson break; 87546dc1bc0SRichard Henderson case 2: /* zva_blocksize 128 */ 87646dc1bc0SRichard Henderson mem_tag = cpu_to_le32(*(uint32_t *)mem); 87746dc1bc0SRichard Henderson ptr_tag *= 0x11111111u; 87846dc1bc0SRichard Henderson break; 87946dc1bc0SRichard Henderson case 3: /* zva_blocksize 256 */ 88046dc1bc0SRichard Henderson mem_tag = cpu_to_le64(*(uint64_t *)mem); 88146dc1bc0SRichard Henderson ptr_tag *= 0x1111111111111111ull; 88246dc1bc0SRichard Henderson break; 88346dc1bc0SRichard Henderson 88446dc1bc0SRichard Henderson default: /* zva_blocksize 512, 1024, 2048 */ 88546dc1bc0SRichard Henderson ptr_tag *= 0x1111111111111111ull; 88646dc1bc0SRichard Henderson i = 0; 88746dc1bc0SRichard Henderson do { 88846dc1bc0SRichard Henderson mem_tag = cpu_to_le64(*(uint64_t *)(mem + i)); 88946dc1bc0SRichard Henderson if (unlikely(mem_tag != ptr_tag)) { 89046dc1bc0SRichard Henderson goto fail; 89146dc1bc0SRichard Henderson } 89246dc1bc0SRichard Henderson i += 8; 89346dc1bc0SRichard Henderson align_ptr += 16 * TAG_GRANULE; 89446dc1bc0SRichard Henderson } while (i < tag_bytes); 89546dc1bc0SRichard Henderson goto done; 89646dc1bc0SRichard Henderson } 89746dc1bc0SRichard Henderson 89846dc1bc0SRichard Henderson if (likely(mem_tag == ptr_tag)) { 89946dc1bc0SRichard Henderson goto done; 90046dc1bc0SRichard Henderson } 90146dc1bc0SRichard Henderson 90246dc1bc0SRichard Henderson fail: 90346dc1bc0SRichard Henderson /* Locate the first nibble that differs. */ 90446dc1bc0SRichard Henderson i = ctz64(mem_tag ^ ptr_tag) >> 4; 905dbf8c321SRichard Henderson mte_check_fail(env, desc, align_ptr + i * TAG_GRANULE, ra); 90646dc1bc0SRichard Henderson 90746dc1bc0SRichard Henderson done: 90846dc1bc0SRichard Henderson return useronly_clean_ptr(ptr); 90946dc1bc0SRichard Henderson } 910