1d9bb58e5SYang Zhong /* 2d9bb58e5SYang Zhong * Common CPU TLB handling 3d9bb58e5SYang Zhong * 4d9bb58e5SYang Zhong * Copyright (c) 2003 Fabrice Bellard 5d9bb58e5SYang Zhong * 6d9bb58e5SYang Zhong * This library is free software; you can redistribute it and/or 7d9bb58e5SYang Zhong * modify it under the terms of the GNU Lesser General Public 8d9bb58e5SYang Zhong * License as published by the Free Software Foundation; either 9fb0343d5SThomas Huth * version 2.1 of the License, or (at your option) any later version. 10d9bb58e5SYang Zhong * 11d9bb58e5SYang Zhong * This library is distributed in the hope that it will be useful, 12d9bb58e5SYang Zhong * but WITHOUT ANY WARRANTY; without even the implied warranty of 13d9bb58e5SYang Zhong * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 14d9bb58e5SYang Zhong * Lesser General Public License for more details. 15d9bb58e5SYang Zhong * 16d9bb58e5SYang Zhong * You should have received a copy of the GNU Lesser General Public 17d9bb58e5SYang Zhong * License along with this library; if not, see <http://www.gnu.org/licenses/>. 18d9bb58e5SYang Zhong */ 19d9bb58e5SYang Zhong 20d9bb58e5SYang Zhong #include "qemu/osdep.h" 21d9bb58e5SYang Zhong #include "qemu/main-loop.h" 2278271684SClaudio Fontana #include "hw/core/tcg-cpu-ops.h" 23d9bb58e5SYang Zhong #include "exec/exec-all.h" 24d9bb58e5SYang Zhong #include "exec/memory.h" 25d9bb58e5SYang Zhong #include "exec/cpu_ldst.h" 26d9bb58e5SYang Zhong #include "exec/cputlb.h" 27d9bb58e5SYang Zhong #include "exec/memory-internal.h" 28d9bb58e5SYang Zhong #include "exec/ram_addr.h" 29d9bb58e5SYang Zhong #include "tcg/tcg.h" 30d9bb58e5SYang Zhong #include "qemu/error-report.h" 31d9bb58e5SYang Zhong #include "exec/log.h" 32d9bb58e5SYang Zhong #include "exec/helper-proto.h" 33d9bb58e5SYang Zhong #include "qemu/atomic.h" 34e6cd4bb5SRichard Henderson #include "qemu/atomic128.h" 353b9bd3f4SPaolo Bonzini #include "exec/translate-all.h" 3651807763SPhilippe Mathieu-Daudé #include "trace.h" 37e5ceadffSPhilippe Mathieu-Daudé #include "tb-hash.h" 3865269192SPhilippe Mathieu-Daudé #include "internal.h" 39235537faSAlex Bennée #ifdef CONFIG_PLUGIN 40235537faSAlex Bennée #include "qemu/plugin-memory.h" 41235537faSAlex Bennée #endif 42d2ba8026SRichard Henderson #include "tcg/tcg-ldst.h" 43d9bb58e5SYang Zhong 44d9bb58e5SYang Zhong /* DEBUG defines, enable DEBUG_TLB_LOG to log to the CPU_LOG_MMU target */ 45d9bb58e5SYang Zhong /* #define DEBUG_TLB */ 46d9bb58e5SYang Zhong /* #define DEBUG_TLB_LOG */ 47d9bb58e5SYang Zhong 48d9bb58e5SYang Zhong #ifdef DEBUG_TLB 49d9bb58e5SYang Zhong # define DEBUG_TLB_GATE 1 50d9bb58e5SYang Zhong # ifdef DEBUG_TLB_LOG 51d9bb58e5SYang Zhong # define DEBUG_TLB_LOG_GATE 1 52d9bb58e5SYang Zhong # else 53d9bb58e5SYang Zhong # define DEBUG_TLB_LOG_GATE 0 54d9bb58e5SYang Zhong # endif 55d9bb58e5SYang Zhong #else 56d9bb58e5SYang Zhong # define DEBUG_TLB_GATE 0 57d9bb58e5SYang Zhong # define DEBUG_TLB_LOG_GATE 0 58d9bb58e5SYang Zhong #endif 59d9bb58e5SYang Zhong 60d9bb58e5SYang Zhong #define tlb_debug(fmt, ...) do { \ 61d9bb58e5SYang Zhong if (DEBUG_TLB_LOG_GATE) { \ 62d9bb58e5SYang Zhong qemu_log_mask(CPU_LOG_MMU, "%s: " fmt, __func__, \ 63d9bb58e5SYang Zhong ## __VA_ARGS__); \ 64d9bb58e5SYang Zhong } else if (DEBUG_TLB_GATE) { \ 65d9bb58e5SYang Zhong fprintf(stderr, "%s: " fmt, __func__, ## __VA_ARGS__); \ 66d9bb58e5SYang Zhong } \ 67d9bb58e5SYang Zhong } while (0) 68d9bb58e5SYang Zhong 69ea9025cbSEmilio G. Cota #define assert_cpu_is_self(cpu) do { \ 70d9bb58e5SYang Zhong if (DEBUG_TLB_GATE) { \ 71ea9025cbSEmilio G. Cota g_assert(!(cpu)->created || qemu_cpu_is_self(cpu)); \ 72d9bb58e5SYang Zhong } \ 73d9bb58e5SYang Zhong } while (0) 74d9bb58e5SYang Zhong 75d9bb58e5SYang Zhong /* run_on_cpu_data.target_ptr should always be big enough for a 76d9bb58e5SYang Zhong * target_ulong even on 32 bit builds */ 77d9bb58e5SYang Zhong QEMU_BUILD_BUG_ON(sizeof(target_ulong) > sizeof(run_on_cpu_data)); 78d9bb58e5SYang Zhong 79d9bb58e5SYang Zhong /* We currently can't handle more than 16 bits in the MMUIDX bitmask. 80d9bb58e5SYang Zhong */ 81d9bb58e5SYang Zhong QEMU_BUILD_BUG_ON(NB_MMU_MODES > 16); 82d9bb58e5SYang Zhong #define ALL_MMUIDX_BITS ((1 << NB_MMU_MODES) - 1) 83d9bb58e5SYang Zhong 84722a1c1eSRichard Henderson static inline size_t tlb_n_entries(CPUTLBDescFast *fast) 857a1efe1bSRichard Henderson { 86722a1c1eSRichard Henderson return (fast->mask >> CPU_TLB_ENTRY_BITS) + 1; 877a1efe1bSRichard Henderson } 887a1efe1bSRichard Henderson 89722a1c1eSRichard Henderson static inline size_t sizeof_tlb(CPUTLBDescFast *fast) 9086e1eff8SEmilio G. Cota { 91722a1c1eSRichard Henderson return fast->mask + (1 << CPU_TLB_ENTRY_BITS); 9286e1eff8SEmilio G. Cota } 9386e1eff8SEmilio G. Cota 9479e42085SRichard Henderson static void tlb_window_reset(CPUTLBDesc *desc, int64_t ns, 9586e1eff8SEmilio G. Cota size_t max_entries) 9686e1eff8SEmilio G. Cota { 9779e42085SRichard Henderson desc->window_begin_ns = ns; 9879e42085SRichard Henderson desc->window_max_entries = max_entries; 9986e1eff8SEmilio G. Cota } 10086e1eff8SEmilio G. Cota 1010f4abea8SRichard Henderson static void tb_jmp_cache_clear_page(CPUState *cpu, target_ulong page_addr) 1020f4abea8SRichard Henderson { 103a976a99aSRichard Henderson int i, i0 = tb_jmp_cache_hash_page(page_addr); 104a976a99aSRichard Henderson CPUJumpCache *jc = cpu->tb_jmp_cache; 1050f4abea8SRichard Henderson 1060f4abea8SRichard Henderson for (i = 0; i < TB_JMP_PAGE_SIZE; i++) { 107a976a99aSRichard Henderson qatomic_set(&jc->array[i0 + i].tb, NULL); 1080f4abea8SRichard Henderson } 1090f4abea8SRichard Henderson } 1100f4abea8SRichard Henderson 11186e1eff8SEmilio G. Cota /** 11286e1eff8SEmilio G. Cota * tlb_mmu_resize_locked() - perform TLB resize bookkeeping; resize if necessary 11371ccd47bSRichard Henderson * @desc: The CPUTLBDesc portion of the TLB 11471ccd47bSRichard Henderson * @fast: The CPUTLBDescFast portion of the same TLB 11586e1eff8SEmilio G. Cota * 11686e1eff8SEmilio G. Cota * Called with tlb_lock_held. 11786e1eff8SEmilio G. Cota * 11886e1eff8SEmilio G. Cota * We have two main constraints when resizing a TLB: (1) we only resize it 11986e1eff8SEmilio G. Cota * on a TLB flush (otherwise we'd have to take a perf hit by either rehashing 12086e1eff8SEmilio G. Cota * the array or unnecessarily flushing it), which means we do not control how 12186e1eff8SEmilio G. Cota * frequently the resizing can occur; (2) we don't have access to the guest's 12286e1eff8SEmilio G. Cota * future scheduling decisions, and therefore have to decide the magnitude of 12386e1eff8SEmilio G. Cota * the resize based on past observations. 12486e1eff8SEmilio G. Cota * 12586e1eff8SEmilio G. Cota * In general, a memory-hungry process can benefit greatly from an appropriately 12686e1eff8SEmilio G. Cota * sized TLB, since a guest TLB miss is very expensive. This doesn't mean that 12786e1eff8SEmilio G. Cota * we just have to make the TLB as large as possible; while an oversized TLB 12886e1eff8SEmilio G. Cota * results in minimal TLB miss rates, it also takes longer to be flushed 12986e1eff8SEmilio G. Cota * (flushes can be _very_ frequent), and the reduced locality can also hurt 13086e1eff8SEmilio G. Cota * performance. 13186e1eff8SEmilio G. Cota * 13286e1eff8SEmilio G. Cota * To achieve near-optimal performance for all kinds of workloads, we: 13386e1eff8SEmilio G. Cota * 13486e1eff8SEmilio G. Cota * 1. Aggressively increase the size of the TLB when the use rate of the 13586e1eff8SEmilio G. Cota * TLB being flushed is high, since it is likely that in the near future this 13686e1eff8SEmilio G. Cota * memory-hungry process will execute again, and its memory hungriness will 13786e1eff8SEmilio G. Cota * probably be similar. 13886e1eff8SEmilio G. Cota * 13986e1eff8SEmilio G. Cota * 2. Slowly reduce the size of the TLB as the use rate declines over a 14086e1eff8SEmilio G. Cota * reasonably large time window. The rationale is that if in such a time window 14186e1eff8SEmilio G. Cota * we have not observed a high TLB use rate, it is likely that we won't observe 14286e1eff8SEmilio G. Cota * it in the near future. In that case, once a time window expires we downsize 14386e1eff8SEmilio G. Cota * the TLB to match the maximum use rate observed in the window. 14486e1eff8SEmilio G. Cota * 14586e1eff8SEmilio G. Cota * 3. Try to keep the maximum use rate in a time window in the 30-70% range, 14686e1eff8SEmilio G. Cota * since in that range performance is likely near-optimal. Recall that the TLB 14786e1eff8SEmilio G. Cota * is direct mapped, so we want the use rate to be low (or at least not too 14886e1eff8SEmilio G. Cota * high), since otherwise we are likely to have a significant amount of 14986e1eff8SEmilio G. Cota * conflict misses. 15086e1eff8SEmilio G. Cota */ 1513c3959f2SRichard Henderson static void tlb_mmu_resize_locked(CPUTLBDesc *desc, CPUTLBDescFast *fast, 1523c3959f2SRichard Henderson int64_t now) 15386e1eff8SEmilio G. Cota { 15471ccd47bSRichard Henderson size_t old_size = tlb_n_entries(fast); 15586e1eff8SEmilio G. Cota size_t rate; 15686e1eff8SEmilio G. Cota size_t new_size = old_size; 15786e1eff8SEmilio G. Cota int64_t window_len_ms = 100; 15886e1eff8SEmilio G. Cota int64_t window_len_ns = window_len_ms * 1000 * 1000; 15979e42085SRichard Henderson bool window_expired = now > desc->window_begin_ns + window_len_ns; 16086e1eff8SEmilio G. Cota 16179e42085SRichard Henderson if (desc->n_used_entries > desc->window_max_entries) { 16279e42085SRichard Henderson desc->window_max_entries = desc->n_used_entries; 16386e1eff8SEmilio G. Cota } 16479e42085SRichard Henderson rate = desc->window_max_entries * 100 / old_size; 16586e1eff8SEmilio G. Cota 16686e1eff8SEmilio G. Cota if (rate > 70) { 16786e1eff8SEmilio G. Cota new_size = MIN(old_size << 1, 1 << CPU_TLB_DYN_MAX_BITS); 16886e1eff8SEmilio G. Cota } else if (rate < 30 && window_expired) { 16979e42085SRichard Henderson size_t ceil = pow2ceil(desc->window_max_entries); 17079e42085SRichard Henderson size_t expected_rate = desc->window_max_entries * 100 / ceil; 17186e1eff8SEmilio G. Cota 17286e1eff8SEmilio G. Cota /* 17386e1eff8SEmilio G. Cota * Avoid undersizing when the max number of entries seen is just below 17486e1eff8SEmilio G. Cota * a pow2. For instance, if max_entries == 1025, the expected use rate 17586e1eff8SEmilio G. Cota * would be 1025/2048==50%. However, if max_entries == 1023, we'd get 17686e1eff8SEmilio G. Cota * 1023/1024==99.9% use rate, so we'd likely end up doubling the size 17786e1eff8SEmilio G. Cota * later. Thus, make sure that the expected use rate remains below 70%. 17886e1eff8SEmilio G. Cota * (and since we double the size, that means the lowest rate we'd 17986e1eff8SEmilio G. Cota * expect to get is 35%, which is still in the 30-70% range where 18086e1eff8SEmilio G. Cota * we consider that the size is appropriate.) 18186e1eff8SEmilio G. Cota */ 18286e1eff8SEmilio G. Cota if (expected_rate > 70) { 18386e1eff8SEmilio G. Cota ceil *= 2; 18486e1eff8SEmilio G. Cota } 18586e1eff8SEmilio G. Cota new_size = MAX(ceil, 1 << CPU_TLB_DYN_MIN_BITS); 18686e1eff8SEmilio G. Cota } 18786e1eff8SEmilio G. Cota 18886e1eff8SEmilio G. Cota if (new_size == old_size) { 18986e1eff8SEmilio G. Cota if (window_expired) { 19079e42085SRichard Henderson tlb_window_reset(desc, now, desc->n_used_entries); 19186e1eff8SEmilio G. Cota } 19286e1eff8SEmilio G. Cota return; 19386e1eff8SEmilio G. Cota } 19486e1eff8SEmilio G. Cota 19571ccd47bSRichard Henderson g_free(fast->table); 19625d3ec58SRichard Henderson g_free(desc->fulltlb); 19786e1eff8SEmilio G. Cota 19879e42085SRichard Henderson tlb_window_reset(desc, now, 0); 19986e1eff8SEmilio G. Cota /* desc->n_used_entries is cleared by the caller */ 20071ccd47bSRichard Henderson fast->mask = (new_size - 1) << CPU_TLB_ENTRY_BITS; 20171ccd47bSRichard Henderson fast->table = g_try_new(CPUTLBEntry, new_size); 20225d3ec58SRichard Henderson desc->fulltlb = g_try_new(CPUTLBEntryFull, new_size); 20371ccd47bSRichard Henderson 20486e1eff8SEmilio G. Cota /* 20586e1eff8SEmilio G. Cota * If the allocations fail, try smaller sizes. We just freed some 20686e1eff8SEmilio G. Cota * memory, so going back to half of new_size has a good chance of working. 20786e1eff8SEmilio G. Cota * Increased memory pressure elsewhere in the system might cause the 20886e1eff8SEmilio G. Cota * allocations to fail though, so we progressively reduce the allocation 20986e1eff8SEmilio G. Cota * size, aborting if we cannot even allocate the smallest TLB we support. 21086e1eff8SEmilio G. Cota */ 21125d3ec58SRichard Henderson while (fast->table == NULL || desc->fulltlb == NULL) { 21286e1eff8SEmilio G. Cota if (new_size == (1 << CPU_TLB_DYN_MIN_BITS)) { 21386e1eff8SEmilio G. Cota error_report("%s: %s", __func__, strerror(errno)); 21486e1eff8SEmilio G. Cota abort(); 21586e1eff8SEmilio G. Cota } 21686e1eff8SEmilio G. Cota new_size = MAX(new_size >> 1, 1 << CPU_TLB_DYN_MIN_BITS); 21771ccd47bSRichard Henderson fast->mask = (new_size - 1) << CPU_TLB_ENTRY_BITS; 21886e1eff8SEmilio G. Cota 21971ccd47bSRichard Henderson g_free(fast->table); 22025d3ec58SRichard Henderson g_free(desc->fulltlb); 22171ccd47bSRichard Henderson fast->table = g_try_new(CPUTLBEntry, new_size); 22225d3ec58SRichard Henderson desc->fulltlb = g_try_new(CPUTLBEntryFull, new_size); 22386e1eff8SEmilio G. Cota } 22486e1eff8SEmilio G. Cota } 22586e1eff8SEmilio G. Cota 226bbf021b0SRichard Henderson static void tlb_mmu_flush_locked(CPUTLBDesc *desc, CPUTLBDescFast *fast) 22786e1eff8SEmilio G. Cota { 2285c948e31SRichard Henderson desc->n_used_entries = 0; 2295c948e31SRichard Henderson desc->large_page_addr = -1; 2305c948e31SRichard Henderson desc->large_page_mask = -1; 2315c948e31SRichard Henderson desc->vindex = 0; 2325c948e31SRichard Henderson memset(fast->table, -1, sizeof_tlb(fast)); 2335c948e31SRichard Henderson memset(desc->vtable, -1, sizeof(desc->vtable)); 23486e1eff8SEmilio G. Cota } 23586e1eff8SEmilio G. Cota 2363c3959f2SRichard Henderson static void tlb_flush_one_mmuidx_locked(CPUArchState *env, int mmu_idx, 2373c3959f2SRichard Henderson int64_t now) 238bbf021b0SRichard Henderson { 239bbf021b0SRichard Henderson CPUTLBDesc *desc = &env_tlb(env)->d[mmu_idx]; 240bbf021b0SRichard Henderson CPUTLBDescFast *fast = &env_tlb(env)->f[mmu_idx]; 241bbf021b0SRichard Henderson 2423c3959f2SRichard Henderson tlb_mmu_resize_locked(desc, fast, now); 243bbf021b0SRichard Henderson tlb_mmu_flush_locked(desc, fast); 244bbf021b0SRichard Henderson } 245bbf021b0SRichard Henderson 24656e89f76SRichard Henderson static void tlb_mmu_init(CPUTLBDesc *desc, CPUTLBDescFast *fast, int64_t now) 24756e89f76SRichard Henderson { 24856e89f76SRichard Henderson size_t n_entries = 1 << CPU_TLB_DYN_DEFAULT_BITS; 24956e89f76SRichard Henderson 25056e89f76SRichard Henderson tlb_window_reset(desc, now, 0); 25156e89f76SRichard Henderson desc->n_used_entries = 0; 25256e89f76SRichard Henderson fast->mask = (n_entries - 1) << CPU_TLB_ENTRY_BITS; 25356e89f76SRichard Henderson fast->table = g_new(CPUTLBEntry, n_entries); 25425d3ec58SRichard Henderson desc->fulltlb = g_new(CPUTLBEntryFull, n_entries); 2553c16304aSRichard Henderson tlb_mmu_flush_locked(desc, fast); 25656e89f76SRichard Henderson } 25756e89f76SRichard Henderson 25886e1eff8SEmilio G. Cota static inline void tlb_n_used_entries_inc(CPUArchState *env, uintptr_t mmu_idx) 25986e1eff8SEmilio G. Cota { 260a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].n_used_entries++; 26186e1eff8SEmilio G. Cota } 26286e1eff8SEmilio G. Cota 26386e1eff8SEmilio G. Cota static inline void tlb_n_used_entries_dec(CPUArchState *env, uintptr_t mmu_idx) 26486e1eff8SEmilio G. Cota { 265a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].n_used_entries--; 26686e1eff8SEmilio G. Cota } 26786e1eff8SEmilio G. Cota 2685005e253SEmilio G. Cota void tlb_init(CPUState *cpu) 2695005e253SEmilio G. Cota { 27071aec354SEmilio G. Cota CPUArchState *env = cpu->env_ptr; 27156e89f76SRichard Henderson int64_t now = get_clock_realtime(); 27256e89f76SRichard Henderson int i; 27371aec354SEmilio G. Cota 274a40ec84eSRichard Henderson qemu_spin_init(&env_tlb(env)->c.lock); 2753d1523ceSRichard Henderson 2763c16304aSRichard Henderson /* All tlbs are initialized flushed. */ 2773c16304aSRichard Henderson env_tlb(env)->c.dirty = 0; 27886e1eff8SEmilio G. Cota 27956e89f76SRichard Henderson for (i = 0; i < NB_MMU_MODES; i++) { 28056e89f76SRichard Henderson tlb_mmu_init(&env_tlb(env)->d[i], &env_tlb(env)->f[i], now); 28156e89f76SRichard Henderson } 2825005e253SEmilio G. Cota } 2835005e253SEmilio G. Cota 284816d9be5SEmilio G. Cota void tlb_destroy(CPUState *cpu) 285816d9be5SEmilio G. Cota { 286816d9be5SEmilio G. Cota CPUArchState *env = cpu->env_ptr; 287816d9be5SEmilio G. Cota int i; 288816d9be5SEmilio G. Cota 289816d9be5SEmilio G. Cota qemu_spin_destroy(&env_tlb(env)->c.lock); 290816d9be5SEmilio G. Cota for (i = 0; i < NB_MMU_MODES; i++) { 291816d9be5SEmilio G. Cota CPUTLBDesc *desc = &env_tlb(env)->d[i]; 292816d9be5SEmilio G. Cota CPUTLBDescFast *fast = &env_tlb(env)->f[i]; 293816d9be5SEmilio G. Cota 294816d9be5SEmilio G. Cota g_free(fast->table); 29525d3ec58SRichard Henderson g_free(desc->fulltlb); 296816d9be5SEmilio G. Cota } 297816d9be5SEmilio G. Cota } 298816d9be5SEmilio G. Cota 299d9bb58e5SYang Zhong /* flush_all_helper: run fn across all cpus 300d9bb58e5SYang Zhong * 301d9bb58e5SYang Zhong * If the wait flag is set then the src cpu's helper will be queued as 302d9bb58e5SYang Zhong * "safe" work and the loop exited creating a synchronisation point 303d9bb58e5SYang Zhong * where all queued work will be finished before execution starts 304d9bb58e5SYang Zhong * again. 305d9bb58e5SYang Zhong */ 306d9bb58e5SYang Zhong static void flush_all_helper(CPUState *src, run_on_cpu_func fn, 307d9bb58e5SYang Zhong run_on_cpu_data d) 308d9bb58e5SYang Zhong { 309d9bb58e5SYang Zhong CPUState *cpu; 310d9bb58e5SYang Zhong 311d9bb58e5SYang Zhong CPU_FOREACH(cpu) { 312d9bb58e5SYang Zhong if (cpu != src) { 313d9bb58e5SYang Zhong async_run_on_cpu(cpu, fn, d); 314d9bb58e5SYang Zhong } 315d9bb58e5SYang Zhong } 316d9bb58e5SYang Zhong } 317d9bb58e5SYang Zhong 318e09de0a2SRichard Henderson void tlb_flush_counts(size_t *pfull, size_t *ppart, size_t *pelide) 31983974cf4SEmilio G. Cota { 32083974cf4SEmilio G. Cota CPUState *cpu; 321e09de0a2SRichard Henderson size_t full = 0, part = 0, elide = 0; 32283974cf4SEmilio G. Cota 32383974cf4SEmilio G. Cota CPU_FOREACH(cpu) { 32483974cf4SEmilio G. Cota CPUArchState *env = cpu->env_ptr; 32583974cf4SEmilio G. Cota 326d73415a3SStefan Hajnoczi full += qatomic_read(&env_tlb(env)->c.full_flush_count); 327d73415a3SStefan Hajnoczi part += qatomic_read(&env_tlb(env)->c.part_flush_count); 328d73415a3SStefan Hajnoczi elide += qatomic_read(&env_tlb(env)->c.elide_flush_count); 32983974cf4SEmilio G. Cota } 330e09de0a2SRichard Henderson *pfull = full; 331e09de0a2SRichard Henderson *ppart = part; 332e09de0a2SRichard Henderson *pelide = elide; 33383974cf4SEmilio G. Cota } 334d9bb58e5SYang Zhong 335d9bb58e5SYang Zhong static void tlb_flush_by_mmuidx_async_work(CPUState *cpu, run_on_cpu_data data) 336d9bb58e5SYang Zhong { 337d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 3383d1523ceSRichard Henderson uint16_t asked = data.host_int; 3393d1523ceSRichard Henderson uint16_t all_dirty, work, to_clean; 3403c3959f2SRichard Henderson int64_t now = get_clock_realtime(); 341d9bb58e5SYang Zhong 342d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 343d9bb58e5SYang Zhong 3443d1523ceSRichard Henderson tlb_debug("mmu_idx:0x%04" PRIx16 "\n", asked); 345d9bb58e5SYang Zhong 346a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 34760a2ad7dSRichard Henderson 348a40ec84eSRichard Henderson all_dirty = env_tlb(env)->c.dirty; 3493d1523ceSRichard Henderson to_clean = asked & all_dirty; 3503d1523ceSRichard Henderson all_dirty &= ~to_clean; 351a40ec84eSRichard Henderson env_tlb(env)->c.dirty = all_dirty; 3523d1523ceSRichard Henderson 3533d1523ceSRichard Henderson for (work = to_clean; work != 0; work &= work - 1) { 3543d1523ceSRichard Henderson int mmu_idx = ctz32(work); 3553c3959f2SRichard Henderson tlb_flush_one_mmuidx_locked(env, mmu_idx, now); 356d9bb58e5SYang Zhong } 3573d1523ceSRichard Henderson 358a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 359d9bb58e5SYang Zhong 360a976a99aSRichard Henderson tcg_flush_jmp_cache(cpu); 36164f2674bSRichard Henderson 3623d1523ceSRichard Henderson if (to_clean == ALL_MMUIDX_BITS) { 363d73415a3SStefan Hajnoczi qatomic_set(&env_tlb(env)->c.full_flush_count, 364a40ec84eSRichard Henderson env_tlb(env)->c.full_flush_count + 1); 365e09de0a2SRichard Henderson } else { 366d73415a3SStefan Hajnoczi qatomic_set(&env_tlb(env)->c.part_flush_count, 367a40ec84eSRichard Henderson env_tlb(env)->c.part_flush_count + ctpop16(to_clean)); 3683d1523ceSRichard Henderson if (to_clean != asked) { 369d73415a3SStefan Hajnoczi qatomic_set(&env_tlb(env)->c.elide_flush_count, 370a40ec84eSRichard Henderson env_tlb(env)->c.elide_flush_count + 3713d1523ceSRichard Henderson ctpop16(asked & ~to_clean)); 3723d1523ceSRichard Henderson } 37364f2674bSRichard Henderson } 374d9bb58e5SYang Zhong } 375d9bb58e5SYang Zhong 376d9bb58e5SYang Zhong void tlb_flush_by_mmuidx(CPUState *cpu, uint16_t idxmap) 377d9bb58e5SYang Zhong { 378d9bb58e5SYang Zhong tlb_debug("mmu_idx: 0x%" PRIx16 "\n", idxmap); 379d9bb58e5SYang Zhong 38064f2674bSRichard Henderson if (cpu->created && !qemu_cpu_is_self(cpu)) { 381d9bb58e5SYang Zhong async_run_on_cpu(cpu, tlb_flush_by_mmuidx_async_work, 382ab651105SRichard Henderson RUN_ON_CPU_HOST_INT(idxmap)); 383d9bb58e5SYang Zhong } else { 38460a2ad7dSRichard Henderson tlb_flush_by_mmuidx_async_work(cpu, RUN_ON_CPU_HOST_INT(idxmap)); 385d9bb58e5SYang Zhong } 386d9bb58e5SYang Zhong } 387d9bb58e5SYang Zhong 38864f2674bSRichard Henderson void tlb_flush(CPUState *cpu) 38964f2674bSRichard Henderson { 39064f2674bSRichard Henderson tlb_flush_by_mmuidx(cpu, ALL_MMUIDX_BITS); 39164f2674bSRichard Henderson } 39264f2674bSRichard Henderson 393d9bb58e5SYang Zhong void tlb_flush_by_mmuidx_all_cpus(CPUState *src_cpu, uint16_t idxmap) 394d9bb58e5SYang Zhong { 395d9bb58e5SYang Zhong const run_on_cpu_func fn = tlb_flush_by_mmuidx_async_work; 396d9bb58e5SYang Zhong 397d9bb58e5SYang Zhong tlb_debug("mmu_idx: 0x%"PRIx16"\n", idxmap); 398d9bb58e5SYang Zhong 399d9bb58e5SYang Zhong flush_all_helper(src_cpu, fn, RUN_ON_CPU_HOST_INT(idxmap)); 400d9bb58e5SYang Zhong fn(src_cpu, RUN_ON_CPU_HOST_INT(idxmap)); 401d9bb58e5SYang Zhong } 402d9bb58e5SYang Zhong 40364f2674bSRichard Henderson void tlb_flush_all_cpus(CPUState *src_cpu) 40464f2674bSRichard Henderson { 40564f2674bSRichard Henderson tlb_flush_by_mmuidx_all_cpus(src_cpu, ALL_MMUIDX_BITS); 40664f2674bSRichard Henderson } 40764f2674bSRichard Henderson 40864f2674bSRichard Henderson void tlb_flush_by_mmuidx_all_cpus_synced(CPUState *src_cpu, uint16_t idxmap) 409d9bb58e5SYang Zhong { 410d9bb58e5SYang Zhong const run_on_cpu_func fn = tlb_flush_by_mmuidx_async_work; 411d9bb58e5SYang Zhong 412d9bb58e5SYang Zhong tlb_debug("mmu_idx: 0x%"PRIx16"\n", idxmap); 413d9bb58e5SYang Zhong 414d9bb58e5SYang Zhong flush_all_helper(src_cpu, fn, RUN_ON_CPU_HOST_INT(idxmap)); 415d9bb58e5SYang Zhong async_safe_run_on_cpu(src_cpu, fn, RUN_ON_CPU_HOST_INT(idxmap)); 416d9bb58e5SYang Zhong } 417d9bb58e5SYang Zhong 41864f2674bSRichard Henderson void tlb_flush_all_cpus_synced(CPUState *src_cpu) 41964f2674bSRichard Henderson { 42064f2674bSRichard Henderson tlb_flush_by_mmuidx_all_cpus_synced(src_cpu, ALL_MMUIDX_BITS); 42164f2674bSRichard Henderson } 42264f2674bSRichard Henderson 4233ab6e68cSRichard Henderson static bool tlb_hit_page_mask_anyprot(CPUTLBEntry *tlb_entry, 4243ab6e68cSRichard Henderson target_ulong page, target_ulong mask) 4253ab6e68cSRichard Henderson { 4263ab6e68cSRichard Henderson page &= mask; 4273ab6e68cSRichard Henderson mask &= TARGET_PAGE_MASK | TLB_INVALID_MASK; 4283ab6e68cSRichard Henderson 4293ab6e68cSRichard Henderson return (page == (tlb_entry->addr_read & mask) || 4303ab6e68cSRichard Henderson page == (tlb_addr_write(tlb_entry) & mask) || 4313ab6e68cSRichard Henderson page == (tlb_entry->addr_code & mask)); 4323ab6e68cSRichard Henderson } 4333ab6e68cSRichard Henderson 43468fea038SRichard Henderson static inline bool tlb_hit_page_anyprot(CPUTLBEntry *tlb_entry, 43568fea038SRichard Henderson target_ulong page) 436d9bb58e5SYang Zhong { 4373ab6e68cSRichard Henderson return tlb_hit_page_mask_anyprot(tlb_entry, page, -1); 43868fea038SRichard Henderson } 43968fea038SRichard Henderson 4403cea94bbSEmilio G. Cota /** 4413cea94bbSEmilio G. Cota * tlb_entry_is_empty - return true if the entry is not in use 4423cea94bbSEmilio G. Cota * @te: pointer to CPUTLBEntry 4433cea94bbSEmilio G. Cota */ 4443cea94bbSEmilio G. Cota static inline bool tlb_entry_is_empty(const CPUTLBEntry *te) 4453cea94bbSEmilio G. Cota { 4463cea94bbSEmilio G. Cota return te->addr_read == -1 && te->addr_write == -1 && te->addr_code == -1; 4473cea94bbSEmilio G. Cota } 4483cea94bbSEmilio G. Cota 44953d28455SRichard Henderson /* Called with tlb_c.lock held */ 4503ab6e68cSRichard Henderson static bool tlb_flush_entry_mask_locked(CPUTLBEntry *tlb_entry, 4513ab6e68cSRichard Henderson target_ulong page, 4523ab6e68cSRichard Henderson target_ulong mask) 45368fea038SRichard Henderson { 4543ab6e68cSRichard Henderson if (tlb_hit_page_mask_anyprot(tlb_entry, page, mask)) { 455d9bb58e5SYang Zhong memset(tlb_entry, -1, sizeof(*tlb_entry)); 45686e1eff8SEmilio G. Cota return true; 457d9bb58e5SYang Zhong } 45886e1eff8SEmilio G. Cota return false; 459d9bb58e5SYang Zhong } 460d9bb58e5SYang Zhong 4613ab6e68cSRichard Henderson static inline bool tlb_flush_entry_locked(CPUTLBEntry *tlb_entry, 46268fea038SRichard Henderson target_ulong page) 46368fea038SRichard Henderson { 4643ab6e68cSRichard Henderson return tlb_flush_entry_mask_locked(tlb_entry, page, -1); 4653ab6e68cSRichard Henderson } 4663ab6e68cSRichard Henderson 4673ab6e68cSRichard Henderson /* Called with tlb_c.lock held */ 4683ab6e68cSRichard Henderson static void tlb_flush_vtlb_page_mask_locked(CPUArchState *env, int mmu_idx, 4693ab6e68cSRichard Henderson target_ulong page, 4703ab6e68cSRichard Henderson target_ulong mask) 4713ab6e68cSRichard Henderson { 472a40ec84eSRichard Henderson CPUTLBDesc *d = &env_tlb(env)->d[mmu_idx]; 47368fea038SRichard Henderson int k; 47471aec354SEmilio G. Cota 47529a0af61SRichard Henderson assert_cpu_is_self(env_cpu(env)); 47668fea038SRichard Henderson for (k = 0; k < CPU_VTLB_SIZE; k++) { 4773ab6e68cSRichard Henderson if (tlb_flush_entry_mask_locked(&d->vtable[k], page, mask)) { 47886e1eff8SEmilio G. Cota tlb_n_used_entries_dec(env, mmu_idx); 47986e1eff8SEmilio G. Cota } 48068fea038SRichard Henderson } 48168fea038SRichard Henderson } 48268fea038SRichard Henderson 4833ab6e68cSRichard Henderson static inline void tlb_flush_vtlb_page_locked(CPUArchState *env, int mmu_idx, 4843ab6e68cSRichard Henderson target_ulong page) 4853ab6e68cSRichard Henderson { 4863ab6e68cSRichard Henderson tlb_flush_vtlb_page_mask_locked(env, mmu_idx, page, -1); 4873ab6e68cSRichard Henderson } 4883ab6e68cSRichard Henderson 4891308e026SRichard Henderson static void tlb_flush_page_locked(CPUArchState *env, int midx, 4901308e026SRichard Henderson target_ulong page) 4911308e026SRichard Henderson { 492a40ec84eSRichard Henderson target_ulong lp_addr = env_tlb(env)->d[midx].large_page_addr; 493a40ec84eSRichard Henderson target_ulong lp_mask = env_tlb(env)->d[midx].large_page_mask; 4941308e026SRichard Henderson 4951308e026SRichard Henderson /* Check if we need to flush due to large pages. */ 4961308e026SRichard Henderson if ((page & lp_mask) == lp_addr) { 4971308e026SRichard Henderson tlb_debug("forcing full flush midx %d (" 4981308e026SRichard Henderson TARGET_FMT_lx "/" TARGET_FMT_lx ")\n", 4991308e026SRichard Henderson midx, lp_addr, lp_mask); 5003c3959f2SRichard Henderson tlb_flush_one_mmuidx_locked(env, midx, get_clock_realtime()); 5011308e026SRichard Henderson } else { 50286e1eff8SEmilio G. Cota if (tlb_flush_entry_locked(tlb_entry(env, midx, page), page)) { 50386e1eff8SEmilio G. Cota tlb_n_used_entries_dec(env, midx); 50486e1eff8SEmilio G. Cota } 5051308e026SRichard Henderson tlb_flush_vtlb_page_locked(env, midx, page); 5061308e026SRichard Henderson } 5071308e026SRichard Henderson } 5081308e026SRichard Henderson 5097b7d00e0SRichard Henderson /** 5107b7d00e0SRichard Henderson * tlb_flush_page_by_mmuidx_async_0: 5117b7d00e0SRichard Henderson * @cpu: cpu on which to flush 5127b7d00e0SRichard Henderson * @addr: page of virtual address to flush 5137b7d00e0SRichard Henderson * @idxmap: set of mmu_idx to flush 5147b7d00e0SRichard Henderson * 5157b7d00e0SRichard Henderson * Helper for tlb_flush_page_by_mmuidx and friends, flush one page 5167b7d00e0SRichard Henderson * at @addr from the tlbs indicated by @idxmap from @cpu. 517d9bb58e5SYang Zhong */ 5187b7d00e0SRichard Henderson static void tlb_flush_page_by_mmuidx_async_0(CPUState *cpu, 5197b7d00e0SRichard Henderson target_ulong addr, 5207b7d00e0SRichard Henderson uint16_t idxmap) 521d9bb58e5SYang Zhong { 522d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 523d9bb58e5SYang Zhong int mmu_idx; 524d9bb58e5SYang Zhong 525d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 526d9bb58e5SYang Zhong 5277b7d00e0SRichard Henderson tlb_debug("page addr:" TARGET_FMT_lx " mmu_map:0x%x\n", addr, idxmap); 528d9bb58e5SYang Zhong 529a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 530d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 5317b7d00e0SRichard Henderson if ((idxmap >> mmu_idx) & 1) { 5321308e026SRichard Henderson tlb_flush_page_locked(env, mmu_idx, addr); 533d9bb58e5SYang Zhong } 534d9bb58e5SYang Zhong } 535a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 536d9bb58e5SYang Zhong 5371d41a79bSRichard Henderson /* 5381d41a79bSRichard Henderson * Discard jump cache entries for any tb which might potentially 5391d41a79bSRichard Henderson * overlap the flushed page, which includes the previous. 5401d41a79bSRichard Henderson */ 5411d41a79bSRichard Henderson tb_jmp_cache_clear_page(cpu, addr - TARGET_PAGE_SIZE); 5421d41a79bSRichard Henderson tb_jmp_cache_clear_page(cpu, addr); 543d9bb58e5SYang Zhong } 544d9bb58e5SYang Zhong 5457b7d00e0SRichard Henderson /** 5467b7d00e0SRichard Henderson * tlb_flush_page_by_mmuidx_async_1: 5477b7d00e0SRichard Henderson * @cpu: cpu on which to flush 5487b7d00e0SRichard Henderson * @data: encoded addr + idxmap 5497b7d00e0SRichard Henderson * 5507b7d00e0SRichard Henderson * Helper for tlb_flush_page_by_mmuidx and friends, called through 5517b7d00e0SRichard Henderson * async_run_on_cpu. The idxmap parameter is encoded in the page 5527b7d00e0SRichard Henderson * offset of the target_ptr field. This limits the set of mmu_idx 5537b7d00e0SRichard Henderson * that can be passed via this method. 5547b7d00e0SRichard Henderson */ 5557b7d00e0SRichard Henderson static void tlb_flush_page_by_mmuidx_async_1(CPUState *cpu, 5567b7d00e0SRichard Henderson run_on_cpu_data data) 5577b7d00e0SRichard Henderson { 5587b7d00e0SRichard Henderson target_ulong addr_and_idxmap = (target_ulong) data.target_ptr; 5597b7d00e0SRichard Henderson target_ulong addr = addr_and_idxmap & TARGET_PAGE_MASK; 5607b7d00e0SRichard Henderson uint16_t idxmap = addr_and_idxmap & ~TARGET_PAGE_MASK; 5617b7d00e0SRichard Henderson 5627b7d00e0SRichard Henderson tlb_flush_page_by_mmuidx_async_0(cpu, addr, idxmap); 5637b7d00e0SRichard Henderson } 5647b7d00e0SRichard Henderson 5657b7d00e0SRichard Henderson typedef struct { 5667b7d00e0SRichard Henderson target_ulong addr; 5677b7d00e0SRichard Henderson uint16_t idxmap; 5687b7d00e0SRichard Henderson } TLBFlushPageByMMUIdxData; 5697b7d00e0SRichard Henderson 5707b7d00e0SRichard Henderson /** 5717b7d00e0SRichard Henderson * tlb_flush_page_by_mmuidx_async_2: 5727b7d00e0SRichard Henderson * @cpu: cpu on which to flush 5737b7d00e0SRichard Henderson * @data: allocated addr + idxmap 5747b7d00e0SRichard Henderson * 5757b7d00e0SRichard Henderson * Helper for tlb_flush_page_by_mmuidx and friends, called through 5767b7d00e0SRichard Henderson * async_run_on_cpu. The addr+idxmap parameters are stored in a 5777b7d00e0SRichard Henderson * TLBFlushPageByMMUIdxData structure that has been allocated 5787b7d00e0SRichard Henderson * specifically for this helper. Free the structure when done. 5797b7d00e0SRichard Henderson */ 5807b7d00e0SRichard Henderson static void tlb_flush_page_by_mmuidx_async_2(CPUState *cpu, 5817b7d00e0SRichard Henderson run_on_cpu_data data) 5827b7d00e0SRichard Henderson { 5837b7d00e0SRichard Henderson TLBFlushPageByMMUIdxData *d = data.host_ptr; 5847b7d00e0SRichard Henderson 5857b7d00e0SRichard Henderson tlb_flush_page_by_mmuidx_async_0(cpu, d->addr, d->idxmap); 5867b7d00e0SRichard Henderson g_free(d); 5877b7d00e0SRichard Henderson } 5887b7d00e0SRichard Henderson 589d9bb58e5SYang Zhong void tlb_flush_page_by_mmuidx(CPUState *cpu, target_ulong addr, uint16_t idxmap) 590d9bb58e5SYang Zhong { 591d9bb58e5SYang Zhong tlb_debug("addr: "TARGET_FMT_lx" mmu_idx:%" PRIx16 "\n", addr, idxmap); 592d9bb58e5SYang Zhong 593d9bb58e5SYang Zhong /* This should already be page aligned */ 5947b7d00e0SRichard Henderson addr &= TARGET_PAGE_MASK; 595d9bb58e5SYang Zhong 5967b7d00e0SRichard Henderson if (qemu_cpu_is_self(cpu)) { 5977b7d00e0SRichard Henderson tlb_flush_page_by_mmuidx_async_0(cpu, addr, idxmap); 5987b7d00e0SRichard Henderson } else if (idxmap < TARGET_PAGE_SIZE) { 5997b7d00e0SRichard Henderson /* 6007b7d00e0SRichard Henderson * Most targets have only a few mmu_idx. In the case where 6017b7d00e0SRichard Henderson * we can stuff idxmap into the low TARGET_PAGE_BITS, avoid 6027b7d00e0SRichard Henderson * allocating memory for this operation. 6037b7d00e0SRichard Henderson */ 6047b7d00e0SRichard Henderson async_run_on_cpu(cpu, tlb_flush_page_by_mmuidx_async_1, 6057b7d00e0SRichard Henderson RUN_ON_CPU_TARGET_PTR(addr | idxmap)); 606d9bb58e5SYang Zhong } else { 6077b7d00e0SRichard Henderson TLBFlushPageByMMUIdxData *d = g_new(TLBFlushPageByMMUIdxData, 1); 6087b7d00e0SRichard Henderson 6097b7d00e0SRichard Henderson /* Otherwise allocate a structure, freed by the worker. */ 6107b7d00e0SRichard Henderson d->addr = addr; 6117b7d00e0SRichard Henderson d->idxmap = idxmap; 6127b7d00e0SRichard Henderson async_run_on_cpu(cpu, tlb_flush_page_by_mmuidx_async_2, 6137b7d00e0SRichard Henderson RUN_ON_CPU_HOST_PTR(d)); 614d9bb58e5SYang Zhong } 615d9bb58e5SYang Zhong } 616d9bb58e5SYang Zhong 617f8144c6cSRichard Henderson void tlb_flush_page(CPUState *cpu, target_ulong addr) 618f8144c6cSRichard Henderson { 619f8144c6cSRichard Henderson tlb_flush_page_by_mmuidx(cpu, addr, ALL_MMUIDX_BITS); 620f8144c6cSRichard Henderson } 621f8144c6cSRichard Henderson 622d9bb58e5SYang Zhong void tlb_flush_page_by_mmuidx_all_cpus(CPUState *src_cpu, target_ulong addr, 623d9bb58e5SYang Zhong uint16_t idxmap) 624d9bb58e5SYang Zhong { 625d9bb58e5SYang Zhong tlb_debug("addr: "TARGET_FMT_lx" mmu_idx:%"PRIx16"\n", addr, idxmap); 626d9bb58e5SYang Zhong 627d9bb58e5SYang Zhong /* This should already be page aligned */ 6287b7d00e0SRichard Henderson addr &= TARGET_PAGE_MASK; 629d9bb58e5SYang Zhong 6307b7d00e0SRichard Henderson /* 6317b7d00e0SRichard Henderson * Allocate memory to hold addr+idxmap only when needed. 6327b7d00e0SRichard Henderson * See tlb_flush_page_by_mmuidx for details. 6337b7d00e0SRichard Henderson */ 6347b7d00e0SRichard Henderson if (idxmap < TARGET_PAGE_SIZE) { 6357b7d00e0SRichard Henderson flush_all_helper(src_cpu, tlb_flush_page_by_mmuidx_async_1, 6367b7d00e0SRichard Henderson RUN_ON_CPU_TARGET_PTR(addr | idxmap)); 6377b7d00e0SRichard Henderson } else { 6387b7d00e0SRichard Henderson CPUState *dst_cpu; 6397b7d00e0SRichard Henderson 6407b7d00e0SRichard Henderson /* Allocate a separate data block for each destination cpu. */ 6417b7d00e0SRichard Henderson CPU_FOREACH(dst_cpu) { 6427b7d00e0SRichard Henderson if (dst_cpu != src_cpu) { 6437b7d00e0SRichard Henderson TLBFlushPageByMMUIdxData *d 6447b7d00e0SRichard Henderson = g_new(TLBFlushPageByMMUIdxData, 1); 6457b7d00e0SRichard Henderson 6467b7d00e0SRichard Henderson d->addr = addr; 6477b7d00e0SRichard Henderson d->idxmap = idxmap; 6487b7d00e0SRichard Henderson async_run_on_cpu(dst_cpu, tlb_flush_page_by_mmuidx_async_2, 6497b7d00e0SRichard Henderson RUN_ON_CPU_HOST_PTR(d)); 6507b7d00e0SRichard Henderson } 6517b7d00e0SRichard Henderson } 6527b7d00e0SRichard Henderson } 6537b7d00e0SRichard Henderson 6547b7d00e0SRichard Henderson tlb_flush_page_by_mmuidx_async_0(src_cpu, addr, idxmap); 655d9bb58e5SYang Zhong } 656d9bb58e5SYang Zhong 657f8144c6cSRichard Henderson void tlb_flush_page_all_cpus(CPUState *src, target_ulong addr) 658f8144c6cSRichard Henderson { 659f8144c6cSRichard Henderson tlb_flush_page_by_mmuidx_all_cpus(src, addr, ALL_MMUIDX_BITS); 660f8144c6cSRichard Henderson } 661f8144c6cSRichard Henderson 662d9bb58e5SYang Zhong void tlb_flush_page_by_mmuidx_all_cpus_synced(CPUState *src_cpu, 663d9bb58e5SYang Zhong target_ulong addr, 664d9bb58e5SYang Zhong uint16_t idxmap) 665d9bb58e5SYang Zhong { 666d9bb58e5SYang Zhong tlb_debug("addr: "TARGET_FMT_lx" mmu_idx:%"PRIx16"\n", addr, idxmap); 667d9bb58e5SYang Zhong 668d9bb58e5SYang Zhong /* This should already be page aligned */ 6697b7d00e0SRichard Henderson addr &= TARGET_PAGE_MASK; 670d9bb58e5SYang Zhong 6717b7d00e0SRichard Henderson /* 6727b7d00e0SRichard Henderson * Allocate memory to hold addr+idxmap only when needed. 6737b7d00e0SRichard Henderson * See tlb_flush_page_by_mmuidx for details. 6747b7d00e0SRichard Henderson */ 6757b7d00e0SRichard Henderson if (idxmap < TARGET_PAGE_SIZE) { 6767b7d00e0SRichard Henderson flush_all_helper(src_cpu, tlb_flush_page_by_mmuidx_async_1, 6777b7d00e0SRichard Henderson RUN_ON_CPU_TARGET_PTR(addr | idxmap)); 6787b7d00e0SRichard Henderson async_safe_run_on_cpu(src_cpu, tlb_flush_page_by_mmuidx_async_1, 6797b7d00e0SRichard Henderson RUN_ON_CPU_TARGET_PTR(addr | idxmap)); 6807b7d00e0SRichard Henderson } else { 6817b7d00e0SRichard Henderson CPUState *dst_cpu; 6827b7d00e0SRichard Henderson TLBFlushPageByMMUIdxData *d; 6837b7d00e0SRichard Henderson 6847b7d00e0SRichard Henderson /* Allocate a separate data block for each destination cpu. */ 6857b7d00e0SRichard Henderson CPU_FOREACH(dst_cpu) { 6867b7d00e0SRichard Henderson if (dst_cpu != src_cpu) { 6877b7d00e0SRichard Henderson d = g_new(TLBFlushPageByMMUIdxData, 1); 6887b7d00e0SRichard Henderson d->addr = addr; 6897b7d00e0SRichard Henderson d->idxmap = idxmap; 6907b7d00e0SRichard Henderson async_run_on_cpu(dst_cpu, tlb_flush_page_by_mmuidx_async_2, 6917b7d00e0SRichard Henderson RUN_ON_CPU_HOST_PTR(d)); 6927b7d00e0SRichard Henderson } 6937b7d00e0SRichard Henderson } 6947b7d00e0SRichard Henderson 6957b7d00e0SRichard Henderson d = g_new(TLBFlushPageByMMUIdxData, 1); 6967b7d00e0SRichard Henderson d->addr = addr; 6977b7d00e0SRichard Henderson d->idxmap = idxmap; 6987b7d00e0SRichard Henderson async_safe_run_on_cpu(src_cpu, tlb_flush_page_by_mmuidx_async_2, 6997b7d00e0SRichard Henderson RUN_ON_CPU_HOST_PTR(d)); 7007b7d00e0SRichard Henderson } 701d9bb58e5SYang Zhong } 702d9bb58e5SYang Zhong 703f8144c6cSRichard Henderson void tlb_flush_page_all_cpus_synced(CPUState *src, target_ulong addr) 704d9bb58e5SYang Zhong { 705f8144c6cSRichard Henderson tlb_flush_page_by_mmuidx_all_cpus_synced(src, addr, ALL_MMUIDX_BITS); 706d9bb58e5SYang Zhong } 707d9bb58e5SYang Zhong 7083c4ddec1SRichard Henderson static void tlb_flush_range_locked(CPUArchState *env, int midx, 7093c4ddec1SRichard Henderson target_ulong addr, target_ulong len, 7103c4ddec1SRichard Henderson unsigned bits) 7113ab6e68cSRichard Henderson { 7123ab6e68cSRichard Henderson CPUTLBDesc *d = &env_tlb(env)->d[midx]; 7133ab6e68cSRichard Henderson CPUTLBDescFast *f = &env_tlb(env)->f[midx]; 7143ab6e68cSRichard Henderson target_ulong mask = MAKE_64BIT_MASK(0, bits); 7153ab6e68cSRichard Henderson 7163ab6e68cSRichard Henderson /* 7173ab6e68cSRichard Henderson * If @bits is smaller than the tlb size, there may be multiple entries 7183ab6e68cSRichard Henderson * within the TLB; otherwise all addresses that match under @mask hit 7193ab6e68cSRichard Henderson * the same TLB entry. 7203ab6e68cSRichard Henderson * TODO: Perhaps allow bits to be a few bits less than the size. 7213ab6e68cSRichard Henderson * For now, just flush the entire TLB. 7223c4ddec1SRichard Henderson * 7233c4ddec1SRichard Henderson * If @len is larger than the tlb size, then it will take longer to 7243c4ddec1SRichard Henderson * test all of the entries in the TLB than it will to flush it all. 7253ab6e68cSRichard Henderson */ 7263c4ddec1SRichard Henderson if (mask < f->mask || len > f->mask) { 7273ab6e68cSRichard Henderson tlb_debug("forcing full flush midx %d (" 7283c4ddec1SRichard Henderson TARGET_FMT_lx "/" TARGET_FMT_lx "+" TARGET_FMT_lx ")\n", 7293c4ddec1SRichard Henderson midx, addr, mask, len); 7303ab6e68cSRichard Henderson tlb_flush_one_mmuidx_locked(env, midx, get_clock_realtime()); 7313ab6e68cSRichard Henderson return; 7323ab6e68cSRichard Henderson } 7333ab6e68cSRichard Henderson 7343c4ddec1SRichard Henderson /* 7353c4ddec1SRichard Henderson * Check if we need to flush due to large pages. 7363c4ddec1SRichard Henderson * Because large_page_mask contains all 1's from the msb, 7373c4ddec1SRichard Henderson * we only need to test the end of the range. 7383c4ddec1SRichard Henderson */ 7393c4ddec1SRichard Henderson if (((addr + len - 1) & d->large_page_mask) == d->large_page_addr) { 7403ab6e68cSRichard Henderson tlb_debug("forcing full flush midx %d (" 7413ab6e68cSRichard Henderson TARGET_FMT_lx "/" TARGET_FMT_lx ")\n", 7423ab6e68cSRichard Henderson midx, d->large_page_addr, d->large_page_mask); 7433ab6e68cSRichard Henderson tlb_flush_one_mmuidx_locked(env, midx, get_clock_realtime()); 7443ab6e68cSRichard Henderson return; 7453ab6e68cSRichard Henderson } 7463ab6e68cSRichard Henderson 7473c4ddec1SRichard Henderson for (target_ulong i = 0; i < len; i += TARGET_PAGE_SIZE) { 7483c4ddec1SRichard Henderson target_ulong page = addr + i; 7493c4ddec1SRichard Henderson CPUTLBEntry *entry = tlb_entry(env, midx, page); 7503c4ddec1SRichard Henderson 7513c4ddec1SRichard Henderson if (tlb_flush_entry_mask_locked(entry, page, mask)) { 7523ab6e68cSRichard Henderson tlb_n_used_entries_dec(env, midx); 7533ab6e68cSRichard Henderson } 7543ab6e68cSRichard Henderson tlb_flush_vtlb_page_mask_locked(env, midx, page, mask); 7553ab6e68cSRichard Henderson } 7563c4ddec1SRichard Henderson } 7573ab6e68cSRichard Henderson 7583ab6e68cSRichard Henderson typedef struct { 7593ab6e68cSRichard Henderson target_ulong addr; 7603c4ddec1SRichard Henderson target_ulong len; 7613ab6e68cSRichard Henderson uint16_t idxmap; 7623ab6e68cSRichard Henderson uint16_t bits; 7633960a59fSRichard Henderson } TLBFlushRangeData; 7643ab6e68cSRichard Henderson 7656be48e45SRichard Henderson static void tlb_flush_range_by_mmuidx_async_0(CPUState *cpu, 7663960a59fSRichard Henderson TLBFlushRangeData d) 7673ab6e68cSRichard Henderson { 7683ab6e68cSRichard Henderson CPUArchState *env = cpu->env_ptr; 7693ab6e68cSRichard Henderson int mmu_idx; 7703ab6e68cSRichard Henderson 7713ab6e68cSRichard Henderson assert_cpu_is_self(cpu); 7723ab6e68cSRichard Henderson 7733c4ddec1SRichard Henderson tlb_debug("range:" TARGET_FMT_lx "/%u+" TARGET_FMT_lx " mmu_map:0x%x\n", 7743c4ddec1SRichard Henderson d.addr, d.bits, d.len, d.idxmap); 7753ab6e68cSRichard Henderson 7763ab6e68cSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 7773ab6e68cSRichard Henderson for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 7783ab6e68cSRichard Henderson if ((d.idxmap >> mmu_idx) & 1) { 7793c4ddec1SRichard Henderson tlb_flush_range_locked(env, mmu_idx, d.addr, d.len, d.bits); 7803ab6e68cSRichard Henderson } 7813ab6e68cSRichard Henderson } 7823ab6e68cSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 7833ab6e68cSRichard Henderson 784cfc2a2d6SIdan Horowitz /* 785cfc2a2d6SIdan Horowitz * If the length is larger than the jump cache size, then it will take 786cfc2a2d6SIdan Horowitz * longer to clear each entry individually than it will to clear it all. 787cfc2a2d6SIdan Horowitz */ 788cfc2a2d6SIdan Horowitz if (d.len >= (TARGET_PAGE_SIZE * TB_JMP_CACHE_SIZE)) { 789a976a99aSRichard Henderson tcg_flush_jmp_cache(cpu); 790cfc2a2d6SIdan Horowitz return; 791cfc2a2d6SIdan Horowitz } 792cfc2a2d6SIdan Horowitz 7931d41a79bSRichard Henderson /* 7941d41a79bSRichard Henderson * Discard jump cache entries for any tb which might potentially 7951d41a79bSRichard Henderson * overlap the flushed pages, which includes the previous. 7961d41a79bSRichard Henderson */ 7971d41a79bSRichard Henderson d.addr -= TARGET_PAGE_SIZE; 7981d41a79bSRichard Henderson for (target_ulong i = 0, n = d.len / TARGET_PAGE_SIZE + 1; i < n; i++) { 7991d41a79bSRichard Henderson tb_jmp_cache_clear_page(cpu, d.addr); 8001d41a79bSRichard Henderson d.addr += TARGET_PAGE_SIZE; 8013c4ddec1SRichard Henderson } 8023ab6e68cSRichard Henderson } 8033ab6e68cSRichard Henderson 804206a583dSRichard Henderson static void tlb_flush_range_by_mmuidx_async_1(CPUState *cpu, 8053ab6e68cSRichard Henderson run_on_cpu_data data) 8063ab6e68cSRichard Henderson { 8073960a59fSRichard Henderson TLBFlushRangeData *d = data.host_ptr; 8086be48e45SRichard Henderson tlb_flush_range_by_mmuidx_async_0(cpu, *d); 8093ab6e68cSRichard Henderson g_free(d); 8103ab6e68cSRichard Henderson } 8113ab6e68cSRichard Henderson 812e5b1921bSRichard Henderson void tlb_flush_range_by_mmuidx(CPUState *cpu, target_ulong addr, 813e5b1921bSRichard Henderson target_ulong len, uint16_t idxmap, 814e5b1921bSRichard Henderson unsigned bits) 8153ab6e68cSRichard Henderson { 8163960a59fSRichard Henderson TLBFlushRangeData d; 8173ab6e68cSRichard Henderson 818e5b1921bSRichard Henderson /* 819e5b1921bSRichard Henderson * If all bits are significant, and len is small, 820e5b1921bSRichard Henderson * this devolves to tlb_flush_page. 821e5b1921bSRichard Henderson */ 822e5b1921bSRichard Henderson if (bits >= TARGET_LONG_BITS && len <= TARGET_PAGE_SIZE) { 8233ab6e68cSRichard Henderson tlb_flush_page_by_mmuidx(cpu, addr, idxmap); 8243ab6e68cSRichard Henderson return; 8253ab6e68cSRichard Henderson } 8263ab6e68cSRichard Henderson /* If no page bits are significant, this devolves to tlb_flush. */ 8273ab6e68cSRichard Henderson if (bits < TARGET_PAGE_BITS) { 8283ab6e68cSRichard Henderson tlb_flush_by_mmuidx(cpu, idxmap); 8293ab6e68cSRichard Henderson return; 8303ab6e68cSRichard Henderson } 8313ab6e68cSRichard Henderson 8323ab6e68cSRichard Henderson /* This should already be page aligned */ 8333ab6e68cSRichard Henderson d.addr = addr & TARGET_PAGE_MASK; 834e5b1921bSRichard Henderson d.len = len; 8353ab6e68cSRichard Henderson d.idxmap = idxmap; 8363ab6e68cSRichard Henderson d.bits = bits; 8373ab6e68cSRichard Henderson 8383ab6e68cSRichard Henderson if (qemu_cpu_is_self(cpu)) { 8396be48e45SRichard Henderson tlb_flush_range_by_mmuidx_async_0(cpu, d); 8403ab6e68cSRichard Henderson } else { 8413ab6e68cSRichard Henderson /* Otherwise allocate a structure, freed by the worker. */ 8423960a59fSRichard Henderson TLBFlushRangeData *p = g_memdup(&d, sizeof(d)); 843206a583dSRichard Henderson async_run_on_cpu(cpu, tlb_flush_range_by_mmuidx_async_1, 8443ab6e68cSRichard Henderson RUN_ON_CPU_HOST_PTR(p)); 8453ab6e68cSRichard Henderson } 8463ab6e68cSRichard Henderson } 8473ab6e68cSRichard Henderson 848e5b1921bSRichard Henderson void tlb_flush_page_bits_by_mmuidx(CPUState *cpu, target_ulong addr, 849e5b1921bSRichard Henderson uint16_t idxmap, unsigned bits) 850e5b1921bSRichard Henderson { 851e5b1921bSRichard Henderson tlb_flush_range_by_mmuidx(cpu, addr, TARGET_PAGE_SIZE, idxmap, bits); 852e5b1921bSRichard Henderson } 853e5b1921bSRichard Henderson 854600b819fSRichard Henderson void tlb_flush_range_by_mmuidx_all_cpus(CPUState *src_cpu, 855600b819fSRichard Henderson target_ulong addr, target_ulong len, 856600b819fSRichard Henderson uint16_t idxmap, unsigned bits) 8573ab6e68cSRichard Henderson { 8583960a59fSRichard Henderson TLBFlushRangeData d; 859d34e4d1aSRichard Henderson CPUState *dst_cpu; 8603ab6e68cSRichard Henderson 861600b819fSRichard Henderson /* 862600b819fSRichard Henderson * If all bits are significant, and len is small, 863600b819fSRichard Henderson * this devolves to tlb_flush_page. 864600b819fSRichard Henderson */ 865600b819fSRichard Henderson if (bits >= TARGET_LONG_BITS && len <= TARGET_PAGE_SIZE) { 8663ab6e68cSRichard Henderson tlb_flush_page_by_mmuidx_all_cpus(src_cpu, addr, idxmap); 8673ab6e68cSRichard Henderson return; 8683ab6e68cSRichard Henderson } 8693ab6e68cSRichard Henderson /* If no page bits are significant, this devolves to tlb_flush. */ 8703ab6e68cSRichard Henderson if (bits < TARGET_PAGE_BITS) { 8713ab6e68cSRichard Henderson tlb_flush_by_mmuidx_all_cpus(src_cpu, idxmap); 8723ab6e68cSRichard Henderson return; 8733ab6e68cSRichard Henderson } 8743ab6e68cSRichard Henderson 8753ab6e68cSRichard Henderson /* This should already be page aligned */ 8763ab6e68cSRichard Henderson d.addr = addr & TARGET_PAGE_MASK; 877600b819fSRichard Henderson d.len = len; 8783ab6e68cSRichard Henderson d.idxmap = idxmap; 8793ab6e68cSRichard Henderson d.bits = bits; 8803ab6e68cSRichard Henderson 8813ab6e68cSRichard Henderson /* Allocate a separate data block for each destination cpu. */ 8823ab6e68cSRichard Henderson CPU_FOREACH(dst_cpu) { 8833ab6e68cSRichard Henderson if (dst_cpu != src_cpu) { 8843960a59fSRichard Henderson TLBFlushRangeData *p = g_memdup(&d, sizeof(d)); 8853ab6e68cSRichard Henderson async_run_on_cpu(dst_cpu, 886206a583dSRichard Henderson tlb_flush_range_by_mmuidx_async_1, 8873ab6e68cSRichard Henderson RUN_ON_CPU_HOST_PTR(p)); 8883ab6e68cSRichard Henderson } 8893ab6e68cSRichard Henderson } 8903ab6e68cSRichard Henderson 8916be48e45SRichard Henderson tlb_flush_range_by_mmuidx_async_0(src_cpu, d); 8923ab6e68cSRichard Henderson } 8933ab6e68cSRichard Henderson 894600b819fSRichard Henderson void tlb_flush_page_bits_by_mmuidx_all_cpus(CPUState *src_cpu, 895600b819fSRichard Henderson target_ulong addr, 896600b819fSRichard Henderson uint16_t idxmap, unsigned bits) 897600b819fSRichard Henderson { 898600b819fSRichard Henderson tlb_flush_range_by_mmuidx_all_cpus(src_cpu, addr, TARGET_PAGE_SIZE, 899600b819fSRichard Henderson idxmap, bits); 900600b819fSRichard Henderson } 901600b819fSRichard Henderson 902c13b27d8SRichard Henderson void tlb_flush_range_by_mmuidx_all_cpus_synced(CPUState *src_cpu, 9033ab6e68cSRichard Henderson target_ulong addr, 904c13b27d8SRichard Henderson target_ulong len, 9053ab6e68cSRichard Henderson uint16_t idxmap, 9063ab6e68cSRichard Henderson unsigned bits) 9073ab6e68cSRichard Henderson { 908d34e4d1aSRichard Henderson TLBFlushRangeData d, *p; 909d34e4d1aSRichard Henderson CPUState *dst_cpu; 9103ab6e68cSRichard Henderson 911c13b27d8SRichard Henderson /* 912c13b27d8SRichard Henderson * If all bits are significant, and len is small, 913c13b27d8SRichard Henderson * this devolves to tlb_flush_page. 914c13b27d8SRichard Henderson */ 915c13b27d8SRichard Henderson if (bits >= TARGET_LONG_BITS && len <= TARGET_PAGE_SIZE) { 9163ab6e68cSRichard Henderson tlb_flush_page_by_mmuidx_all_cpus_synced(src_cpu, addr, idxmap); 9173ab6e68cSRichard Henderson return; 9183ab6e68cSRichard Henderson } 9193ab6e68cSRichard Henderson /* If no page bits are significant, this devolves to tlb_flush. */ 9203ab6e68cSRichard Henderson if (bits < TARGET_PAGE_BITS) { 9213ab6e68cSRichard Henderson tlb_flush_by_mmuidx_all_cpus_synced(src_cpu, idxmap); 9223ab6e68cSRichard Henderson return; 9233ab6e68cSRichard Henderson } 9243ab6e68cSRichard Henderson 9253ab6e68cSRichard Henderson /* This should already be page aligned */ 9263ab6e68cSRichard Henderson d.addr = addr & TARGET_PAGE_MASK; 927c13b27d8SRichard Henderson d.len = len; 9283ab6e68cSRichard Henderson d.idxmap = idxmap; 9293ab6e68cSRichard Henderson d.bits = bits; 9303ab6e68cSRichard Henderson 9313ab6e68cSRichard Henderson /* Allocate a separate data block for each destination cpu. */ 9323ab6e68cSRichard Henderson CPU_FOREACH(dst_cpu) { 9333ab6e68cSRichard Henderson if (dst_cpu != src_cpu) { 9346d244788SRichard Henderson p = g_memdup(&d, sizeof(d)); 935206a583dSRichard Henderson async_run_on_cpu(dst_cpu, tlb_flush_range_by_mmuidx_async_1, 9363ab6e68cSRichard Henderson RUN_ON_CPU_HOST_PTR(p)); 9373ab6e68cSRichard Henderson } 9383ab6e68cSRichard Henderson } 9393ab6e68cSRichard Henderson 9406d244788SRichard Henderson p = g_memdup(&d, sizeof(d)); 941206a583dSRichard Henderson async_safe_run_on_cpu(src_cpu, tlb_flush_range_by_mmuidx_async_1, 9423ab6e68cSRichard Henderson RUN_ON_CPU_HOST_PTR(p)); 9433ab6e68cSRichard Henderson } 9443ab6e68cSRichard Henderson 945c13b27d8SRichard Henderson void tlb_flush_page_bits_by_mmuidx_all_cpus_synced(CPUState *src_cpu, 946c13b27d8SRichard Henderson target_ulong addr, 947c13b27d8SRichard Henderson uint16_t idxmap, 948c13b27d8SRichard Henderson unsigned bits) 949c13b27d8SRichard Henderson { 950c13b27d8SRichard Henderson tlb_flush_range_by_mmuidx_all_cpus_synced(src_cpu, addr, TARGET_PAGE_SIZE, 951c13b27d8SRichard Henderson idxmap, bits); 952c13b27d8SRichard Henderson } 953c13b27d8SRichard Henderson 954d9bb58e5SYang Zhong /* update the TLBs so that writes to code in the virtual page 'addr' 955d9bb58e5SYang Zhong can be detected */ 956d9bb58e5SYang Zhong void tlb_protect_code(ram_addr_t ram_addr) 957d9bb58e5SYang Zhong { 95893b99616SRichard Henderson cpu_physical_memory_test_and_clear_dirty(ram_addr & TARGET_PAGE_MASK, 95993b99616SRichard Henderson TARGET_PAGE_SIZE, 960d9bb58e5SYang Zhong DIRTY_MEMORY_CODE); 961d9bb58e5SYang Zhong } 962d9bb58e5SYang Zhong 963d9bb58e5SYang Zhong /* update the TLB so that writes in physical page 'phys_addr' are no longer 964d9bb58e5SYang Zhong tested for self modifying code */ 965d9bb58e5SYang Zhong void tlb_unprotect_code(ram_addr_t ram_addr) 966d9bb58e5SYang Zhong { 967d9bb58e5SYang Zhong cpu_physical_memory_set_dirty_flag(ram_addr, DIRTY_MEMORY_CODE); 968d9bb58e5SYang Zhong } 969d9bb58e5SYang Zhong 970d9bb58e5SYang Zhong 971d9bb58e5SYang Zhong /* 972d9bb58e5SYang Zhong * Dirty write flag handling 973d9bb58e5SYang Zhong * 974d9bb58e5SYang Zhong * When the TCG code writes to a location it looks up the address in 975d9bb58e5SYang Zhong * the TLB and uses that data to compute the final address. If any of 976d9bb58e5SYang Zhong * the lower bits of the address are set then the slow path is forced. 977d9bb58e5SYang Zhong * There are a number of reasons to do this but for normal RAM the 978d9bb58e5SYang Zhong * most usual is detecting writes to code regions which may invalidate 979d9bb58e5SYang Zhong * generated code. 980d9bb58e5SYang Zhong * 98171aec354SEmilio G. Cota * Other vCPUs might be reading their TLBs during guest execution, so we update 982d73415a3SStefan Hajnoczi * te->addr_write with qatomic_set. We don't need to worry about this for 98371aec354SEmilio G. Cota * oversized guests as MTTCG is disabled for them. 984d9bb58e5SYang Zhong * 98553d28455SRichard Henderson * Called with tlb_c.lock held. 986d9bb58e5SYang Zhong */ 98771aec354SEmilio G. Cota static void tlb_reset_dirty_range_locked(CPUTLBEntry *tlb_entry, 98871aec354SEmilio G. Cota uintptr_t start, uintptr_t length) 989d9bb58e5SYang Zhong { 990d9bb58e5SYang Zhong uintptr_t addr = tlb_entry->addr_write; 991d9bb58e5SYang Zhong 9927b0d792cSRichard Henderson if ((addr & (TLB_INVALID_MASK | TLB_MMIO | 9937b0d792cSRichard Henderson TLB_DISCARD_WRITE | TLB_NOTDIRTY)) == 0) { 994d9bb58e5SYang Zhong addr &= TARGET_PAGE_MASK; 995d9bb58e5SYang Zhong addr += tlb_entry->addend; 996d9bb58e5SYang Zhong if ((addr - start) < length) { 997d9bb58e5SYang Zhong #if TCG_OVERSIZED_GUEST 99871aec354SEmilio G. Cota tlb_entry->addr_write |= TLB_NOTDIRTY; 999d9bb58e5SYang Zhong #else 1000d73415a3SStefan Hajnoczi qatomic_set(&tlb_entry->addr_write, 100171aec354SEmilio G. Cota tlb_entry->addr_write | TLB_NOTDIRTY); 1002d9bb58e5SYang Zhong #endif 1003d9bb58e5SYang Zhong } 100471aec354SEmilio G. Cota } 100571aec354SEmilio G. Cota } 100671aec354SEmilio G. Cota 100771aec354SEmilio G. Cota /* 100853d28455SRichard Henderson * Called with tlb_c.lock held. 100971aec354SEmilio G. Cota * Called only from the vCPU context, i.e. the TLB's owner thread. 101071aec354SEmilio G. Cota */ 101171aec354SEmilio G. Cota static inline void copy_tlb_helper_locked(CPUTLBEntry *d, const CPUTLBEntry *s) 101271aec354SEmilio G. Cota { 101371aec354SEmilio G. Cota *d = *s; 101471aec354SEmilio G. Cota } 1015d9bb58e5SYang Zhong 1016d9bb58e5SYang Zhong /* This is a cross vCPU call (i.e. another vCPU resetting the flags of 101771aec354SEmilio G. Cota * the target vCPU). 101853d28455SRichard Henderson * We must take tlb_c.lock to avoid racing with another vCPU update. The only 101971aec354SEmilio G. Cota * thing actually updated is the target TLB entry ->addr_write flags. 1020d9bb58e5SYang Zhong */ 1021d9bb58e5SYang Zhong void tlb_reset_dirty(CPUState *cpu, ram_addr_t start1, ram_addr_t length) 1022d9bb58e5SYang Zhong { 1023d9bb58e5SYang Zhong CPUArchState *env; 1024d9bb58e5SYang Zhong 1025d9bb58e5SYang Zhong int mmu_idx; 1026d9bb58e5SYang Zhong 1027d9bb58e5SYang Zhong env = cpu->env_ptr; 1028a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 1029d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 1030d9bb58e5SYang Zhong unsigned int i; 1031722a1c1eSRichard Henderson unsigned int n = tlb_n_entries(&env_tlb(env)->f[mmu_idx]); 1032d9bb58e5SYang Zhong 103386e1eff8SEmilio G. Cota for (i = 0; i < n; i++) { 1034a40ec84eSRichard Henderson tlb_reset_dirty_range_locked(&env_tlb(env)->f[mmu_idx].table[i], 1035a40ec84eSRichard Henderson start1, length); 1036d9bb58e5SYang Zhong } 1037d9bb58e5SYang Zhong 1038d9bb58e5SYang Zhong for (i = 0; i < CPU_VTLB_SIZE; i++) { 1039a40ec84eSRichard Henderson tlb_reset_dirty_range_locked(&env_tlb(env)->d[mmu_idx].vtable[i], 1040a40ec84eSRichard Henderson start1, length); 1041d9bb58e5SYang Zhong } 1042d9bb58e5SYang Zhong } 1043a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 1044d9bb58e5SYang Zhong } 1045d9bb58e5SYang Zhong 104653d28455SRichard Henderson /* Called with tlb_c.lock held */ 104771aec354SEmilio G. Cota static inline void tlb_set_dirty1_locked(CPUTLBEntry *tlb_entry, 104871aec354SEmilio G. Cota target_ulong vaddr) 1049d9bb58e5SYang Zhong { 1050d9bb58e5SYang Zhong if (tlb_entry->addr_write == (vaddr | TLB_NOTDIRTY)) { 1051d9bb58e5SYang Zhong tlb_entry->addr_write = vaddr; 1052d9bb58e5SYang Zhong } 1053d9bb58e5SYang Zhong } 1054d9bb58e5SYang Zhong 1055d9bb58e5SYang Zhong /* update the TLB corresponding to virtual page vaddr 1056d9bb58e5SYang Zhong so that it is no longer dirty */ 1057d9bb58e5SYang Zhong void tlb_set_dirty(CPUState *cpu, target_ulong vaddr) 1058d9bb58e5SYang Zhong { 1059d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 1060d9bb58e5SYang Zhong int mmu_idx; 1061d9bb58e5SYang Zhong 1062d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 1063d9bb58e5SYang Zhong 1064d9bb58e5SYang Zhong vaddr &= TARGET_PAGE_MASK; 1065a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 1066d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 1067383beda9SRichard Henderson tlb_set_dirty1_locked(tlb_entry(env, mmu_idx, vaddr), vaddr); 1068d9bb58e5SYang Zhong } 1069d9bb58e5SYang Zhong 1070d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 1071d9bb58e5SYang Zhong int k; 1072d9bb58e5SYang Zhong for (k = 0; k < CPU_VTLB_SIZE; k++) { 1073a40ec84eSRichard Henderson tlb_set_dirty1_locked(&env_tlb(env)->d[mmu_idx].vtable[k], vaddr); 1074d9bb58e5SYang Zhong } 1075d9bb58e5SYang Zhong } 1076a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 1077d9bb58e5SYang Zhong } 1078d9bb58e5SYang Zhong 1079d9bb58e5SYang Zhong /* Our TLB does not support large pages, so remember the area covered by 1080d9bb58e5SYang Zhong large pages and trigger a full TLB flush if these are invalidated. */ 10811308e026SRichard Henderson static void tlb_add_large_page(CPUArchState *env, int mmu_idx, 10821308e026SRichard Henderson target_ulong vaddr, target_ulong size) 1083d9bb58e5SYang Zhong { 1084a40ec84eSRichard Henderson target_ulong lp_addr = env_tlb(env)->d[mmu_idx].large_page_addr; 10851308e026SRichard Henderson target_ulong lp_mask = ~(size - 1); 1086d9bb58e5SYang Zhong 10871308e026SRichard Henderson if (lp_addr == (target_ulong)-1) { 10881308e026SRichard Henderson /* No previous large page. */ 10891308e026SRichard Henderson lp_addr = vaddr; 10901308e026SRichard Henderson } else { 1091d9bb58e5SYang Zhong /* Extend the existing region to include the new page. 10921308e026SRichard Henderson This is a compromise between unnecessary flushes and 10931308e026SRichard Henderson the cost of maintaining a full variable size TLB. */ 1094a40ec84eSRichard Henderson lp_mask &= env_tlb(env)->d[mmu_idx].large_page_mask; 10951308e026SRichard Henderson while (((lp_addr ^ vaddr) & lp_mask) != 0) { 10961308e026SRichard Henderson lp_mask <<= 1; 1097d9bb58e5SYang Zhong } 10981308e026SRichard Henderson } 1099a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].large_page_addr = lp_addr & lp_mask; 1100a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].large_page_mask = lp_mask; 1101d9bb58e5SYang Zhong } 1102d9bb58e5SYang Zhong 110340473689SRichard Henderson /* 110440473689SRichard Henderson * Add a new TLB entry. At most one entry for a given virtual address 1105d9bb58e5SYang Zhong * is permitted. Only a single TARGET_PAGE_SIZE region is mapped, the 1106d9bb58e5SYang Zhong * supplied size is only used by tlb_flush_page. 1107d9bb58e5SYang Zhong * 1108d9bb58e5SYang Zhong * Called from TCG-generated code, which is under an RCU read-side 1109d9bb58e5SYang Zhong * critical section. 1110d9bb58e5SYang Zhong */ 111140473689SRichard Henderson void tlb_set_page_full(CPUState *cpu, int mmu_idx, 111240473689SRichard Henderson target_ulong vaddr, CPUTLBEntryFull *full) 1113d9bb58e5SYang Zhong { 1114d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 1115a40ec84eSRichard Henderson CPUTLB *tlb = env_tlb(env); 1116a40ec84eSRichard Henderson CPUTLBDesc *desc = &tlb->d[mmu_idx]; 1117d9bb58e5SYang Zhong MemoryRegionSection *section; 1118d9bb58e5SYang Zhong unsigned int index; 1119d9bb58e5SYang Zhong target_ulong address; 11208f5db641SRichard Henderson target_ulong write_address; 1121d9bb58e5SYang Zhong uintptr_t addend; 112268fea038SRichard Henderson CPUTLBEntry *te, tn; 112355df6fcfSPeter Maydell hwaddr iotlb, xlat, sz, paddr_page; 112455df6fcfSPeter Maydell target_ulong vaddr_page; 112540473689SRichard Henderson int asidx, wp_flags, prot; 11268f5db641SRichard Henderson bool is_ram, is_romd; 1127d9bb58e5SYang Zhong 1128d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 112955df6fcfSPeter Maydell 113040473689SRichard Henderson if (full->lg_page_size <= TARGET_PAGE_BITS) { 113155df6fcfSPeter Maydell sz = TARGET_PAGE_SIZE; 113255df6fcfSPeter Maydell } else { 113340473689SRichard Henderson sz = (hwaddr)1 << full->lg_page_size; 113440473689SRichard Henderson tlb_add_large_page(env, mmu_idx, vaddr, sz); 113555df6fcfSPeter Maydell } 113655df6fcfSPeter Maydell vaddr_page = vaddr & TARGET_PAGE_MASK; 113740473689SRichard Henderson paddr_page = full->phys_addr & TARGET_PAGE_MASK; 113855df6fcfSPeter Maydell 113940473689SRichard Henderson prot = full->prot; 114040473689SRichard Henderson asidx = cpu_asidx_from_attrs(cpu, full->attrs); 114155df6fcfSPeter Maydell section = address_space_translate_for_iotlb(cpu, asidx, paddr_page, 114240473689SRichard Henderson &xlat, &sz, full->attrs, &prot); 1143d9bb58e5SYang Zhong assert(sz >= TARGET_PAGE_SIZE); 1144d9bb58e5SYang Zhong 1145*883f2c59SPhilippe Mathieu-Daudé tlb_debug("vaddr=" TARGET_FMT_lx " paddr=0x" HWADDR_FMT_plx 1146d9bb58e5SYang Zhong " prot=%x idx=%d\n", 114740473689SRichard Henderson vaddr, full->phys_addr, prot, mmu_idx); 1148d9bb58e5SYang Zhong 114955df6fcfSPeter Maydell address = vaddr_page; 115040473689SRichard Henderson if (full->lg_page_size < TARGET_PAGE_BITS) { 115130d7e098SRichard Henderson /* Repeat the MMU check and TLB fill on every access. */ 115230d7e098SRichard Henderson address |= TLB_INVALID_MASK; 115355df6fcfSPeter Maydell } 115440473689SRichard Henderson if (full->attrs.byte_swap) { 11555b87b3e6SRichard Henderson address |= TLB_BSWAP; 1156a26fc6f5STony Nguyen } 11578f5db641SRichard Henderson 11588f5db641SRichard Henderson is_ram = memory_region_is_ram(section->mr); 11598f5db641SRichard Henderson is_romd = memory_region_is_romd(section->mr); 11608f5db641SRichard Henderson 11618f5db641SRichard Henderson if (is_ram || is_romd) { 11628f5db641SRichard Henderson /* RAM and ROMD both have associated host memory. */ 1163d9bb58e5SYang Zhong addend = (uintptr_t)memory_region_get_ram_ptr(section->mr) + xlat; 11648f5db641SRichard Henderson } else { 11658f5db641SRichard Henderson /* I/O does not; force the host address to NULL. */ 11668f5db641SRichard Henderson addend = 0; 1167d9bb58e5SYang Zhong } 1168d9bb58e5SYang Zhong 11698f5db641SRichard Henderson write_address = address; 11708f5db641SRichard Henderson if (is_ram) { 11718f5db641SRichard Henderson iotlb = memory_region_get_ram_addr(section->mr) + xlat; 11728f5db641SRichard Henderson /* 11738f5db641SRichard Henderson * Computing is_clean is expensive; avoid all that unless 11748f5db641SRichard Henderson * the page is actually writable. 11758f5db641SRichard Henderson */ 11768f5db641SRichard Henderson if (prot & PAGE_WRITE) { 11778f5db641SRichard Henderson if (section->readonly) { 11788f5db641SRichard Henderson write_address |= TLB_DISCARD_WRITE; 11798f5db641SRichard Henderson } else if (cpu_physical_memory_is_clean(iotlb)) { 11808f5db641SRichard Henderson write_address |= TLB_NOTDIRTY; 11818f5db641SRichard Henderson } 11828f5db641SRichard Henderson } 11838f5db641SRichard Henderson } else { 11848f5db641SRichard Henderson /* I/O or ROMD */ 11858f5db641SRichard Henderson iotlb = memory_region_section_get_iotlb(cpu, section) + xlat; 11868f5db641SRichard Henderson /* 11878f5db641SRichard Henderson * Writes to romd devices must go through MMIO to enable write. 11888f5db641SRichard Henderson * Reads to romd devices go through the ram_ptr found above, 11898f5db641SRichard Henderson * but of course reads to I/O must go through MMIO. 11908f5db641SRichard Henderson */ 11918f5db641SRichard Henderson write_address |= TLB_MMIO; 11928f5db641SRichard Henderson if (!is_romd) { 11938f5db641SRichard Henderson address = write_address; 11948f5db641SRichard Henderson } 11958f5db641SRichard Henderson } 11968f5db641SRichard Henderson 119750b107c5SRichard Henderson wp_flags = cpu_watchpoint_address_matches(cpu, vaddr_page, 119850b107c5SRichard Henderson TARGET_PAGE_SIZE); 1199d9bb58e5SYang Zhong 1200383beda9SRichard Henderson index = tlb_index(env, mmu_idx, vaddr_page); 1201383beda9SRichard Henderson te = tlb_entry(env, mmu_idx, vaddr_page); 1202d9bb58e5SYang Zhong 120368fea038SRichard Henderson /* 120471aec354SEmilio G. Cota * Hold the TLB lock for the rest of the function. We could acquire/release 120571aec354SEmilio G. Cota * the lock several times in the function, but it is faster to amortize the 120671aec354SEmilio G. Cota * acquisition cost by acquiring it just once. Note that this leads to 120771aec354SEmilio G. Cota * a longer critical section, but this is not a concern since the TLB lock 120871aec354SEmilio G. Cota * is unlikely to be contended. 120971aec354SEmilio G. Cota */ 1210a40ec84eSRichard Henderson qemu_spin_lock(&tlb->c.lock); 121171aec354SEmilio G. Cota 12123d1523ceSRichard Henderson /* Note that the tlb is no longer clean. */ 1213a40ec84eSRichard Henderson tlb->c.dirty |= 1 << mmu_idx; 12143d1523ceSRichard Henderson 121571aec354SEmilio G. Cota /* Make sure there's no cached translation for the new page. */ 121671aec354SEmilio G. Cota tlb_flush_vtlb_page_locked(env, mmu_idx, vaddr_page); 121771aec354SEmilio G. Cota 121871aec354SEmilio G. Cota /* 121968fea038SRichard Henderson * Only evict the old entry to the victim tlb if it's for a 122068fea038SRichard Henderson * different page; otherwise just overwrite the stale data. 122168fea038SRichard Henderson */ 12223cea94bbSEmilio G. Cota if (!tlb_hit_page_anyprot(te, vaddr_page) && !tlb_entry_is_empty(te)) { 1223a40ec84eSRichard Henderson unsigned vidx = desc->vindex++ % CPU_VTLB_SIZE; 1224a40ec84eSRichard Henderson CPUTLBEntry *tv = &desc->vtable[vidx]; 122568fea038SRichard Henderson 122668fea038SRichard Henderson /* Evict the old entry into the victim tlb. */ 122771aec354SEmilio G. Cota copy_tlb_helper_locked(tv, te); 122825d3ec58SRichard Henderson desc->vfulltlb[vidx] = desc->fulltlb[index]; 122986e1eff8SEmilio G. Cota tlb_n_used_entries_dec(env, mmu_idx); 123068fea038SRichard Henderson } 1231d9bb58e5SYang Zhong 1232d9bb58e5SYang Zhong /* refill the tlb */ 1233ace41090SPeter Maydell /* 1234ace41090SPeter Maydell * At this point iotlb contains a physical section number in the lower 1235ace41090SPeter Maydell * TARGET_PAGE_BITS, and either 12368f5db641SRichard Henderson * + the ram_addr_t of the page base of the target RAM (RAM) 12378f5db641SRichard Henderson * + the offset within section->mr of the page base (I/O, ROMD) 123855df6fcfSPeter Maydell * We subtract the vaddr_page (which is page aligned and thus won't 1239ace41090SPeter Maydell * disturb the low bits) to give an offset which can be added to the 1240ace41090SPeter Maydell * (non-page-aligned) vaddr of the eventual memory access to get 1241ace41090SPeter Maydell * the MemoryRegion offset for the access. Note that the vaddr we 1242ace41090SPeter Maydell * subtract here is that of the page base, and not the same as the 1243ace41090SPeter Maydell * vaddr we add back in io_readx()/io_writex()/get_page_addr_code(). 1244ace41090SPeter Maydell */ 124540473689SRichard Henderson desc->fulltlb[index] = *full; 124625d3ec58SRichard Henderson desc->fulltlb[index].xlat_section = iotlb - vaddr_page; 124740473689SRichard Henderson desc->fulltlb[index].phys_addr = paddr_page; 124840473689SRichard Henderson desc->fulltlb[index].prot = prot; 1249d9bb58e5SYang Zhong 1250d9bb58e5SYang Zhong /* Now calculate the new entry */ 125155df6fcfSPeter Maydell tn.addend = addend - vaddr_page; 1252d9bb58e5SYang Zhong if (prot & PAGE_READ) { 1253d9bb58e5SYang Zhong tn.addr_read = address; 125450b107c5SRichard Henderson if (wp_flags & BP_MEM_READ) { 125550b107c5SRichard Henderson tn.addr_read |= TLB_WATCHPOINT; 125650b107c5SRichard Henderson } 1257d9bb58e5SYang Zhong } else { 1258d9bb58e5SYang Zhong tn.addr_read = -1; 1259d9bb58e5SYang Zhong } 1260d9bb58e5SYang Zhong 1261d9bb58e5SYang Zhong if (prot & PAGE_EXEC) { 12628f5db641SRichard Henderson tn.addr_code = address; 1263d9bb58e5SYang Zhong } else { 1264d9bb58e5SYang Zhong tn.addr_code = -1; 1265d9bb58e5SYang Zhong } 1266d9bb58e5SYang Zhong 1267d9bb58e5SYang Zhong tn.addr_write = -1; 1268d9bb58e5SYang Zhong if (prot & PAGE_WRITE) { 12698f5db641SRichard Henderson tn.addr_write = write_address; 1270f52bfb12SDavid Hildenbrand if (prot & PAGE_WRITE_INV) { 1271f52bfb12SDavid Hildenbrand tn.addr_write |= TLB_INVALID_MASK; 1272f52bfb12SDavid Hildenbrand } 127350b107c5SRichard Henderson if (wp_flags & BP_MEM_WRITE) { 127450b107c5SRichard Henderson tn.addr_write |= TLB_WATCHPOINT; 127550b107c5SRichard Henderson } 1276d9bb58e5SYang Zhong } 1277d9bb58e5SYang Zhong 127871aec354SEmilio G. Cota copy_tlb_helper_locked(te, &tn); 127986e1eff8SEmilio G. Cota tlb_n_used_entries_inc(env, mmu_idx); 1280a40ec84eSRichard Henderson qemu_spin_unlock(&tlb->c.lock); 1281d9bb58e5SYang Zhong } 1282d9bb58e5SYang Zhong 128340473689SRichard Henderson void tlb_set_page_with_attrs(CPUState *cpu, target_ulong vaddr, 128440473689SRichard Henderson hwaddr paddr, MemTxAttrs attrs, int prot, 128540473689SRichard Henderson int mmu_idx, target_ulong size) 128640473689SRichard Henderson { 128740473689SRichard Henderson CPUTLBEntryFull full = { 128840473689SRichard Henderson .phys_addr = paddr, 128940473689SRichard Henderson .attrs = attrs, 129040473689SRichard Henderson .prot = prot, 129140473689SRichard Henderson .lg_page_size = ctz64(size) 129240473689SRichard Henderson }; 129340473689SRichard Henderson 129440473689SRichard Henderson assert(is_power_of_2(size)); 129540473689SRichard Henderson tlb_set_page_full(cpu, mmu_idx, vaddr, &full); 129640473689SRichard Henderson } 129740473689SRichard Henderson 1298d9bb58e5SYang Zhong void tlb_set_page(CPUState *cpu, target_ulong vaddr, 1299d9bb58e5SYang Zhong hwaddr paddr, int prot, 1300d9bb58e5SYang Zhong int mmu_idx, target_ulong size) 1301d9bb58e5SYang Zhong { 1302d9bb58e5SYang Zhong tlb_set_page_with_attrs(cpu, vaddr, paddr, MEMTXATTRS_UNSPECIFIED, 1303d9bb58e5SYang Zhong prot, mmu_idx, size); 1304d9bb58e5SYang Zhong } 1305d9bb58e5SYang Zhong 1306c319dc13SRichard Henderson /* 1307c319dc13SRichard Henderson * Note: tlb_fill() can trigger a resize of the TLB. This means that all of the 1308c319dc13SRichard Henderson * caller's prior references to the TLB table (e.g. CPUTLBEntry pointers) must 1309c319dc13SRichard Henderson * be discarded and looked up again (e.g. via tlb_entry()). 1310c319dc13SRichard Henderson */ 1311c319dc13SRichard Henderson static void tlb_fill(CPUState *cpu, target_ulong addr, int size, 1312c319dc13SRichard Henderson MMUAccessType access_type, int mmu_idx, uintptr_t retaddr) 1313c319dc13SRichard Henderson { 1314c319dc13SRichard Henderson bool ok; 1315c319dc13SRichard Henderson 1316c319dc13SRichard Henderson /* 1317c319dc13SRichard Henderson * This is not a probe, so only valid return is success; failure 1318c319dc13SRichard Henderson * should result in exception + longjmp to the cpu loop. 1319c319dc13SRichard Henderson */ 13208810ee2aSAlex Bennée ok = cpu->cc->tcg_ops->tlb_fill(cpu, addr, size, 1321e124536fSEduardo Habkost access_type, mmu_idx, false, retaddr); 1322c319dc13SRichard Henderson assert(ok); 1323c319dc13SRichard Henderson } 1324c319dc13SRichard Henderson 132578271684SClaudio Fontana static inline void cpu_unaligned_access(CPUState *cpu, vaddr addr, 132678271684SClaudio Fontana MMUAccessType access_type, 132778271684SClaudio Fontana int mmu_idx, uintptr_t retaddr) 132878271684SClaudio Fontana { 13298810ee2aSAlex Bennée cpu->cc->tcg_ops->do_unaligned_access(cpu, addr, access_type, 13308810ee2aSAlex Bennée mmu_idx, retaddr); 133178271684SClaudio Fontana } 133278271684SClaudio Fontana 133378271684SClaudio Fontana static inline void cpu_transaction_failed(CPUState *cpu, hwaddr physaddr, 133478271684SClaudio Fontana vaddr addr, unsigned size, 133578271684SClaudio Fontana MMUAccessType access_type, 133678271684SClaudio Fontana int mmu_idx, MemTxAttrs attrs, 133778271684SClaudio Fontana MemTxResult response, 133878271684SClaudio Fontana uintptr_t retaddr) 133978271684SClaudio Fontana { 134078271684SClaudio Fontana CPUClass *cc = CPU_GET_CLASS(cpu); 134178271684SClaudio Fontana 134278271684SClaudio Fontana if (!cpu->ignore_memory_transaction_failures && 134378271684SClaudio Fontana cc->tcg_ops->do_transaction_failed) { 134478271684SClaudio Fontana cc->tcg_ops->do_transaction_failed(cpu, physaddr, addr, size, 134578271684SClaudio Fontana access_type, mmu_idx, attrs, 134678271684SClaudio Fontana response, retaddr); 134778271684SClaudio Fontana } 134878271684SClaudio Fontana } 134978271684SClaudio Fontana 135025d3ec58SRichard Henderson static uint64_t io_readx(CPUArchState *env, CPUTLBEntryFull *full, 1351f1be3696SRichard Henderson int mmu_idx, target_ulong addr, uintptr_t retaddr, 1352be5c4787STony Nguyen MMUAccessType access_type, MemOp op) 1353d9bb58e5SYang Zhong { 135429a0af61SRichard Henderson CPUState *cpu = env_cpu(env); 13552d54f194SPeter Maydell hwaddr mr_offset; 13562d54f194SPeter Maydell MemoryRegionSection *section; 13572d54f194SPeter Maydell MemoryRegion *mr; 1358d9bb58e5SYang Zhong uint64_t val; 135904e3aabdSPeter Maydell MemTxResult r; 1360d9bb58e5SYang Zhong 136125d3ec58SRichard Henderson section = iotlb_to_section(cpu, full->xlat_section, full->attrs); 13622d54f194SPeter Maydell mr = section->mr; 136325d3ec58SRichard Henderson mr_offset = (full->xlat_section & TARGET_PAGE_MASK) + addr; 1364d9bb58e5SYang Zhong cpu->mem_io_pc = retaddr; 136508565552SRichard Henderson if (!cpu->can_do_io) { 1366d9bb58e5SYang Zhong cpu_io_recompile(cpu, retaddr); 1367d9bb58e5SYang Zhong } 1368d9bb58e5SYang Zhong 136961b59fb2SRichard Henderson { 137061b59fb2SRichard Henderson QEMU_IOTHREAD_LOCK_GUARD(); 137125d3ec58SRichard Henderson r = memory_region_dispatch_read(mr, mr_offset, &val, op, full->attrs); 137261b59fb2SRichard Henderson } 137361b59fb2SRichard Henderson 137404e3aabdSPeter Maydell if (r != MEMTX_OK) { 13752d54f194SPeter Maydell hwaddr physaddr = mr_offset + 13762d54f194SPeter Maydell section->offset_within_address_space - 13772d54f194SPeter Maydell section->offset_within_region; 13782d54f194SPeter Maydell 1379be5c4787STony Nguyen cpu_transaction_failed(cpu, physaddr, addr, memop_size(op), access_type, 138025d3ec58SRichard Henderson mmu_idx, full->attrs, r, retaddr); 138104e3aabdSPeter Maydell } 1382d9bb58e5SYang Zhong return val; 1383d9bb58e5SYang Zhong } 1384d9bb58e5SYang Zhong 13852f3a57eeSAlex Bennée /* 138625d3ec58SRichard Henderson * Save a potentially trashed CPUTLBEntryFull for later lookup by plugin. 138725d3ec58SRichard Henderson * This is read by tlb_plugin_lookup if the fulltlb entry doesn't match 1388570ef309SAlex Bennée * because of the side effect of io_writex changing memory layout. 13892f3a57eeSAlex Bennée */ 139037523ff7SRichard Henderson static void save_iotlb_data(CPUState *cs, MemoryRegionSection *section, 139137523ff7SRichard Henderson hwaddr mr_offset) 13922f3a57eeSAlex Bennée { 13932f3a57eeSAlex Bennée #ifdef CONFIG_PLUGIN 13942f3a57eeSAlex Bennée SavedIOTLB *saved = &cs->saved_iotlb; 13952f3a57eeSAlex Bennée saved->section = section; 13962f3a57eeSAlex Bennée saved->mr_offset = mr_offset; 13972f3a57eeSAlex Bennée #endif 13982f3a57eeSAlex Bennée } 13992f3a57eeSAlex Bennée 140025d3ec58SRichard Henderson static void io_writex(CPUArchState *env, CPUTLBEntryFull *full, 1401f1be3696SRichard Henderson int mmu_idx, uint64_t val, target_ulong addr, 1402be5c4787STony Nguyen uintptr_t retaddr, MemOp op) 1403d9bb58e5SYang Zhong { 140429a0af61SRichard Henderson CPUState *cpu = env_cpu(env); 14052d54f194SPeter Maydell hwaddr mr_offset; 14062d54f194SPeter Maydell MemoryRegionSection *section; 14072d54f194SPeter Maydell MemoryRegion *mr; 140804e3aabdSPeter Maydell MemTxResult r; 1409d9bb58e5SYang Zhong 141025d3ec58SRichard Henderson section = iotlb_to_section(cpu, full->xlat_section, full->attrs); 14112d54f194SPeter Maydell mr = section->mr; 141225d3ec58SRichard Henderson mr_offset = (full->xlat_section & TARGET_PAGE_MASK) + addr; 141308565552SRichard Henderson if (!cpu->can_do_io) { 1414d9bb58e5SYang Zhong cpu_io_recompile(cpu, retaddr); 1415d9bb58e5SYang Zhong } 1416d9bb58e5SYang Zhong cpu->mem_io_pc = retaddr; 1417d9bb58e5SYang Zhong 14182f3a57eeSAlex Bennée /* 14192f3a57eeSAlex Bennée * The memory_region_dispatch may trigger a flush/resize 14202f3a57eeSAlex Bennée * so for plugins we save the iotlb_data just in case. 14212f3a57eeSAlex Bennée */ 142237523ff7SRichard Henderson save_iotlb_data(cpu, section, mr_offset); 14232f3a57eeSAlex Bennée 142461b59fb2SRichard Henderson { 142561b59fb2SRichard Henderson QEMU_IOTHREAD_LOCK_GUARD(); 142625d3ec58SRichard Henderson r = memory_region_dispatch_write(mr, mr_offset, val, op, full->attrs); 142761b59fb2SRichard Henderson } 142861b59fb2SRichard Henderson 142904e3aabdSPeter Maydell if (r != MEMTX_OK) { 14302d54f194SPeter Maydell hwaddr physaddr = mr_offset + 14312d54f194SPeter Maydell section->offset_within_address_space - 14322d54f194SPeter Maydell section->offset_within_region; 14332d54f194SPeter Maydell 1434be5c4787STony Nguyen cpu_transaction_failed(cpu, physaddr, addr, memop_size(op), 143525d3ec58SRichard Henderson MMU_DATA_STORE, mmu_idx, full->attrs, r, 1436be5c4787STony Nguyen retaddr); 143704e3aabdSPeter Maydell } 1438d9bb58e5SYang Zhong } 1439d9bb58e5SYang Zhong 14404811e909SRichard Henderson static inline target_ulong tlb_read_ofs(CPUTLBEntry *entry, size_t ofs) 14414811e909SRichard Henderson { 14424811e909SRichard Henderson #if TCG_OVERSIZED_GUEST 14434811e909SRichard Henderson return *(target_ulong *)((uintptr_t)entry + ofs); 14444811e909SRichard Henderson #else 1445d73415a3SStefan Hajnoczi /* ofs might correspond to .addr_write, so use qatomic_read */ 1446d73415a3SStefan Hajnoczi return qatomic_read((target_ulong *)((uintptr_t)entry + ofs)); 14474811e909SRichard Henderson #endif 14484811e909SRichard Henderson } 14494811e909SRichard Henderson 1450d9bb58e5SYang Zhong /* Return true if ADDR is present in the victim tlb, and has been copied 1451d9bb58e5SYang Zhong back to the main tlb. */ 1452d9bb58e5SYang Zhong static bool victim_tlb_hit(CPUArchState *env, size_t mmu_idx, size_t index, 1453d9bb58e5SYang Zhong size_t elt_ofs, target_ulong page) 1454d9bb58e5SYang Zhong { 1455d9bb58e5SYang Zhong size_t vidx; 145671aec354SEmilio G. Cota 145729a0af61SRichard Henderson assert_cpu_is_self(env_cpu(env)); 1458d9bb58e5SYang Zhong for (vidx = 0; vidx < CPU_VTLB_SIZE; ++vidx) { 1459a40ec84eSRichard Henderson CPUTLBEntry *vtlb = &env_tlb(env)->d[mmu_idx].vtable[vidx]; 1460a40ec84eSRichard Henderson target_ulong cmp; 1461a40ec84eSRichard Henderson 1462d73415a3SStefan Hajnoczi /* elt_ofs might correspond to .addr_write, so use qatomic_read */ 1463a40ec84eSRichard Henderson #if TCG_OVERSIZED_GUEST 1464a40ec84eSRichard Henderson cmp = *(target_ulong *)((uintptr_t)vtlb + elt_ofs); 1465a40ec84eSRichard Henderson #else 1466d73415a3SStefan Hajnoczi cmp = qatomic_read((target_ulong *)((uintptr_t)vtlb + elt_ofs)); 1467a40ec84eSRichard Henderson #endif 1468d9bb58e5SYang Zhong 1469d9bb58e5SYang Zhong if (cmp == page) { 1470d9bb58e5SYang Zhong /* Found entry in victim tlb, swap tlb and iotlb. */ 1471a40ec84eSRichard Henderson CPUTLBEntry tmptlb, *tlb = &env_tlb(env)->f[mmu_idx].table[index]; 1472d9bb58e5SYang Zhong 1473a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 147471aec354SEmilio G. Cota copy_tlb_helper_locked(&tmptlb, tlb); 147571aec354SEmilio G. Cota copy_tlb_helper_locked(tlb, vtlb); 147671aec354SEmilio G. Cota copy_tlb_helper_locked(vtlb, &tmptlb); 1477a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 1478d9bb58e5SYang Zhong 147925d3ec58SRichard Henderson CPUTLBEntryFull *f1 = &env_tlb(env)->d[mmu_idx].fulltlb[index]; 148025d3ec58SRichard Henderson CPUTLBEntryFull *f2 = &env_tlb(env)->d[mmu_idx].vfulltlb[vidx]; 148125d3ec58SRichard Henderson CPUTLBEntryFull tmpf; 148225d3ec58SRichard Henderson tmpf = *f1; *f1 = *f2; *f2 = tmpf; 1483d9bb58e5SYang Zhong return true; 1484d9bb58e5SYang Zhong } 1485d9bb58e5SYang Zhong } 1486d9bb58e5SYang Zhong return false; 1487d9bb58e5SYang Zhong } 1488d9bb58e5SYang Zhong 1489d9bb58e5SYang Zhong /* Macro to call the above, with local variables from the use context. */ 1490d9bb58e5SYang Zhong #define VICTIM_TLB_HIT(TY, ADDR) \ 1491d9bb58e5SYang Zhong victim_tlb_hit(env, mmu_idx, index, offsetof(CPUTLBEntry, TY), \ 1492d9bb58e5SYang Zhong (ADDR) & TARGET_PAGE_MASK) 1493d9bb58e5SYang Zhong 1494707526adSRichard Henderson static void notdirty_write(CPUState *cpu, vaddr mem_vaddr, unsigned size, 149525d3ec58SRichard Henderson CPUTLBEntryFull *full, uintptr_t retaddr) 1496707526adSRichard Henderson { 149725d3ec58SRichard Henderson ram_addr_t ram_addr = mem_vaddr + full->xlat_section; 1498707526adSRichard Henderson 1499707526adSRichard Henderson trace_memory_notdirty_write_access(mem_vaddr, ram_addr, size); 1500707526adSRichard Henderson 1501707526adSRichard Henderson if (!cpu_physical_memory_get_dirty_flag(ram_addr, DIRTY_MEMORY_CODE)) { 1502f349e92eSPhilippe Mathieu-Daudé tb_invalidate_phys_range_fast(ram_addr, size, retaddr); 1503707526adSRichard Henderson } 1504707526adSRichard Henderson 1505707526adSRichard Henderson /* 1506707526adSRichard Henderson * Set both VGA and migration bits for simplicity and to remove 1507707526adSRichard Henderson * the notdirty callback faster. 1508707526adSRichard Henderson */ 1509707526adSRichard Henderson cpu_physical_memory_set_dirty_range(ram_addr, size, DIRTY_CLIENTS_NOCODE); 1510707526adSRichard Henderson 1511707526adSRichard Henderson /* We remove the notdirty callback only if the code has been flushed. */ 1512707526adSRichard Henderson if (!cpu_physical_memory_is_clean(ram_addr)) { 1513707526adSRichard Henderson trace_memory_notdirty_set_dirty(mem_vaddr); 1514707526adSRichard Henderson tlb_set_dirty(cpu, mem_vaddr); 1515707526adSRichard Henderson } 1516707526adSRichard Henderson } 1517707526adSRichard Henderson 1518069cfe77SRichard Henderson static int probe_access_internal(CPUArchState *env, target_ulong addr, 1519069cfe77SRichard Henderson int fault_size, MMUAccessType access_type, 1520069cfe77SRichard Henderson int mmu_idx, bool nonfault, 1521af803a4fSRichard Henderson void **phost, CPUTLBEntryFull **pfull, 1522af803a4fSRichard Henderson uintptr_t retaddr) 1523d9bb58e5SYang Zhong { 1524383beda9SRichard Henderson uintptr_t index = tlb_index(env, mmu_idx, addr); 1525383beda9SRichard Henderson CPUTLBEntry *entry = tlb_entry(env, mmu_idx, addr); 1526069cfe77SRichard Henderson target_ulong tlb_addr, page_addr; 1527c25c283dSDavid Hildenbrand size_t elt_ofs; 1528069cfe77SRichard Henderson int flags; 1529ca86cf32SDavid Hildenbrand 1530c25c283dSDavid Hildenbrand switch (access_type) { 1531c25c283dSDavid Hildenbrand case MMU_DATA_LOAD: 1532c25c283dSDavid Hildenbrand elt_ofs = offsetof(CPUTLBEntry, addr_read); 1533c25c283dSDavid Hildenbrand break; 1534c25c283dSDavid Hildenbrand case MMU_DATA_STORE: 1535c25c283dSDavid Hildenbrand elt_ofs = offsetof(CPUTLBEntry, addr_write); 1536c25c283dSDavid Hildenbrand break; 1537c25c283dSDavid Hildenbrand case MMU_INST_FETCH: 1538c25c283dSDavid Hildenbrand elt_ofs = offsetof(CPUTLBEntry, addr_code); 1539c25c283dSDavid Hildenbrand break; 1540c25c283dSDavid Hildenbrand default: 1541c25c283dSDavid Hildenbrand g_assert_not_reached(); 1542c25c283dSDavid Hildenbrand } 1543c25c283dSDavid Hildenbrand tlb_addr = tlb_read_ofs(entry, elt_ofs); 1544c25c283dSDavid Hildenbrand 1545c3c8bf57SRichard Henderson flags = TLB_FLAGS_MASK; 1546069cfe77SRichard Henderson page_addr = addr & TARGET_PAGE_MASK; 1547069cfe77SRichard Henderson if (!tlb_hit_page(tlb_addr, page_addr)) { 1548069cfe77SRichard Henderson if (!victim_tlb_hit(env, mmu_idx, index, elt_ofs, page_addr)) { 1549069cfe77SRichard Henderson CPUState *cs = env_cpu(env); 1550069cfe77SRichard Henderson 15518810ee2aSAlex Bennée if (!cs->cc->tcg_ops->tlb_fill(cs, addr, fault_size, access_type, 1552069cfe77SRichard Henderson mmu_idx, nonfault, retaddr)) { 1553069cfe77SRichard Henderson /* Non-faulting page table read failed. */ 1554069cfe77SRichard Henderson *phost = NULL; 1555af803a4fSRichard Henderson *pfull = NULL; 1556069cfe77SRichard Henderson return TLB_INVALID_MASK; 1557069cfe77SRichard Henderson } 1558069cfe77SRichard Henderson 155903a98189SDavid Hildenbrand /* TLB resize via tlb_fill may have moved the entry. */ 1560af803a4fSRichard Henderson index = tlb_index(env, mmu_idx, addr); 156103a98189SDavid Hildenbrand entry = tlb_entry(env, mmu_idx, addr); 1562c3c8bf57SRichard Henderson 1563c3c8bf57SRichard Henderson /* 1564c3c8bf57SRichard Henderson * With PAGE_WRITE_INV, we set TLB_INVALID_MASK immediately, 1565c3c8bf57SRichard Henderson * to force the next access through tlb_fill. We've just 1566c3c8bf57SRichard Henderson * called tlb_fill, so we know that this entry *is* valid. 1567c3c8bf57SRichard Henderson */ 1568c3c8bf57SRichard Henderson flags &= ~TLB_INVALID_MASK; 1569d9bb58e5SYang Zhong } 1570c25c283dSDavid Hildenbrand tlb_addr = tlb_read_ofs(entry, elt_ofs); 157103a98189SDavid Hildenbrand } 1572c3c8bf57SRichard Henderson flags &= tlb_addr; 157303a98189SDavid Hildenbrand 1574af803a4fSRichard Henderson *pfull = &env_tlb(env)->d[mmu_idx].fulltlb[index]; 1575af803a4fSRichard Henderson 1576069cfe77SRichard Henderson /* Fold all "mmio-like" bits into TLB_MMIO. This is not RAM. */ 1577069cfe77SRichard Henderson if (unlikely(flags & ~(TLB_WATCHPOINT | TLB_NOTDIRTY))) { 1578069cfe77SRichard Henderson *phost = NULL; 1579069cfe77SRichard Henderson return TLB_MMIO; 1580fef39ccdSDavid Hildenbrand } 1581fef39ccdSDavid Hildenbrand 1582069cfe77SRichard Henderson /* Everything else is RAM. */ 1583069cfe77SRichard Henderson *phost = (void *)((uintptr_t)addr + entry->addend); 1584069cfe77SRichard Henderson return flags; 1585069cfe77SRichard Henderson } 1586069cfe77SRichard Henderson 1587af803a4fSRichard Henderson int probe_access_full(CPUArchState *env, target_ulong addr, 1588069cfe77SRichard Henderson MMUAccessType access_type, int mmu_idx, 1589af803a4fSRichard Henderson bool nonfault, void **phost, CPUTLBEntryFull **pfull, 1590af803a4fSRichard Henderson uintptr_t retaddr) 1591069cfe77SRichard Henderson { 1592af803a4fSRichard Henderson int flags = probe_access_internal(env, addr, 0, access_type, mmu_idx, 1593af803a4fSRichard Henderson nonfault, phost, pfull, retaddr); 1594069cfe77SRichard Henderson 1595069cfe77SRichard Henderson /* Handle clean RAM pages. */ 1596069cfe77SRichard Henderson if (unlikely(flags & TLB_NOTDIRTY)) { 1597af803a4fSRichard Henderson notdirty_write(env_cpu(env), addr, 1, *pfull, retaddr); 1598069cfe77SRichard Henderson flags &= ~TLB_NOTDIRTY; 1599069cfe77SRichard Henderson } 1600069cfe77SRichard Henderson 1601069cfe77SRichard Henderson return flags; 1602069cfe77SRichard Henderson } 1603069cfe77SRichard Henderson 1604af803a4fSRichard Henderson int probe_access_flags(CPUArchState *env, target_ulong addr, 1605af803a4fSRichard Henderson MMUAccessType access_type, int mmu_idx, 1606af803a4fSRichard Henderson bool nonfault, void **phost, uintptr_t retaddr) 1607af803a4fSRichard Henderson { 1608af803a4fSRichard Henderson CPUTLBEntryFull *full; 1609af803a4fSRichard Henderson 1610af803a4fSRichard Henderson return probe_access_full(env, addr, access_type, mmu_idx, 1611af803a4fSRichard Henderson nonfault, phost, &full, retaddr); 1612af803a4fSRichard Henderson } 1613af803a4fSRichard Henderson 1614069cfe77SRichard Henderson void *probe_access(CPUArchState *env, target_ulong addr, int size, 1615069cfe77SRichard Henderson MMUAccessType access_type, int mmu_idx, uintptr_t retaddr) 1616069cfe77SRichard Henderson { 1617af803a4fSRichard Henderson CPUTLBEntryFull *full; 1618069cfe77SRichard Henderson void *host; 1619069cfe77SRichard Henderson int flags; 1620069cfe77SRichard Henderson 1621069cfe77SRichard Henderson g_assert(-(addr | TARGET_PAGE_MASK) >= size); 1622069cfe77SRichard Henderson 1623069cfe77SRichard Henderson flags = probe_access_internal(env, addr, size, access_type, mmu_idx, 1624af803a4fSRichard Henderson false, &host, &full, retaddr); 1625069cfe77SRichard Henderson 1626069cfe77SRichard Henderson /* Per the interface, size == 0 merely faults the access. */ 1627069cfe77SRichard Henderson if (size == 0) { 162873bc0bd4SRichard Henderson return NULL; 162973bc0bd4SRichard Henderson } 163073bc0bd4SRichard Henderson 1631069cfe77SRichard Henderson if (unlikely(flags & (TLB_NOTDIRTY | TLB_WATCHPOINT))) { 163203a98189SDavid Hildenbrand /* Handle watchpoints. */ 1633069cfe77SRichard Henderson if (flags & TLB_WATCHPOINT) { 1634069cfe77SRichard Henderson int wp_access = (access_type == MMU_DATA_STORE 1635069cfe77SRichard Henderson ? BP_MEM_WRITE : BP_MEM_READ); 163603a98189SDavid Hildenbrand cpu_check_watchpoint(env_cpu(env), addr, size, 163725d3ec58SRichard Henderson full->attrs, wp_access, retaddr); 1638d9bb58e5SYang Zhong } 1639fef39ccdSDavid Hildenbrand 164073bc0bd4SRichard Henderson /* Handle clean RAM pages. */ 1641069cfe77SRichard Henderson if (flags & TLB_NOTDIRTY) { 164225d3ec58SRichard Henderson notdirty_write(env_cpu(env), addr, 1, full, retaddr); 164373bc0bd4SRichard Henderson } 1644fef39ccdSDavid Hildenbrand } 1645fef39ccdSDavid Hildenbrand 1646069cfe77SRichard Henderson return host; 1647d9bb58e5SYang Zhong } 1648d9bb58e5SYang Zhong 16494811e909SRichard Henderson void *tlb_vaddr_to_host(CPUArchState *env, abi_ptr addr, 16504811e909SRichard Henderson MMUAccessType access_type, int mmu_idx) 16514811e909SRichard Henderson { 1652af803a4fSRichard Henderson CPUTLBEntryFull *full; 1653069cfe77SRichard Henderson void *host; 1654069cfe77SRichard Henderson int flags; 16554811e909SRichard Henderson 1656069cfe77SRichard Henderson flags = probe_access_internal(env, addr, 0, access_type, 1657af803a4fSRichard Henderson mmu_idx, true, &host, &full, 0); 1658069cfe77SRichard Henderson 1659069cfe77SRichard Henderson /* No combination of flags are expected by the caller. */ 1660069cfe77SRichard Henderson return flags ? NULL : host; 16614811e909SRichard Henderson } 16624811e909SRichard Henderson 16637e0d9973SRichard Henderson /* 16647e0d9973SRichard Henderson * Return a ram_addr_t for the virtual address for execution. 16657e0d9973SRichard Henderson * 16667e0d9973SRichard Henderson * Return -1 if we can't translate and execute from an entire page 16677e0d9973SRichard Henderson * of RAM. This will force us to execute by loading and translating 16687e0d9973SRichard Henderson * one insn at a time, without caching. 16697e0d9973SRichard Henderson * 16707e0d9973SRichard Henderson * NOTE: This function will trigger an exception if the page is 16717e0d9973SRichard Henderson * not executable. 16727e0d9973SRichard Henderson */ 16737e0d9973SRichard Henderson tb_page_addr_t get_page_addr_code_hostp(CPUArchState *env, target_ulong addr, 16747e0d9973SRichard Henderson void **hostp) 16757e0d9973SRichard Henderson { 1676af803a4fSRichard Henderson CPUTLBEntryFull *full; 16777e0d9973SRichard Henderson void *p; 16787e0d9973SRichard Henderson 16797e0d9973SRichard Henderson (void)probe_access_internal(env, addr, 1, MMU_INST_FETCH, 1680af803a4fSRichard Henderson cpu_mmu_index(env, true), false, &p, &full, 0); 16817e0d9973SRichard Henderson if (p == NULL) { 16827e0d9973SRichard Henderson return -1; 16837e0d9973SRichard Henderson } 16847e0d9973SRichard Henderson if (hostp) { 16857e0d9973SRichard Henderson *hostp = p; 16867e0d9973SRichard Henderson } 16877e0d9973SRichard Henderson return qemu_ram_addr_from_host_nofail(p); 16887e0d9973SRichard Henderson } 16897e0d9973SRichard Henderson 1690235537faSAlex Bennée #ifdef CONFIG_PLUGIN 1691235537faSAlex Bennée /* 1692235537faSAlex Bennée * Perform a TLB lookup and populate the qemu_plugin_hwaddr structure. 1693235537faSAlex Bennée * This should be a hot path as we will have just looked this path up 1694235537faSAlex Bennée * in the softmmu lookup code (or helper). We don't handle re-fills or 1695235537faSAlex Bennée * checking the victim table. This is purely informational. 1696235537faSAlex Bennée * 16972f3a57eeSAlex Bennée * This almost never fails as the memory access being instrumented 16982f3a57eeSAlex Bennée * should have just filled the TLB. The one corner case is io_writex 16992f3a57eeSAlex Bennée * which can cause TLB flushes and potential resizing of the TLBs 1700570ef309SAlex Bennée * losing the information we need. In those cases we need to recover 170125d3ec58SRichard Henderson * data from a copy of the CPUTLBEntryFull. As long as this always occurs 1702570ef309SAlex Bennée * from the same thread (which a mem callback will be) this is safe. 1703235537faSAlex Bennée */ 1704235537faSAlex Bennée 1705235537faSAlex Bennée bool tlb_plugin_lookup(CPUState *cpu, target_ulong addr, int mmu_idx, 1706235537faSAlex Bennée bool is_store, struct qemu_plugin_hwaddr *data) 1707235537faSAlex Bennée { 1708235537faSAlex Bennée CPUArchState *env = cpu->env_ptr; 1709235537faSAlex Bennée CPUTLBEntry *tlbe = tlb_entry(env, mmu_idx, addr); 1710235537faSAlex Bennée uintptr_t index = tlb_index(env, mmu_idx, addr); 1711235537faSAlex Bennée target_ulong tlb_addr = is_store ? tlb_addr_write(tlbe) : tlbe->addr_read; 1712235537faSAlex Bennée 1713235537faSAlex Bennée if (likely(tlb_hit(tlb_addr, addr))) { 1714235537faSAlex Bennée /* We must have an iotlb entry for MMIO */ 1715235537faSAlex Bennée if (tlb_addr & TLB_MMIO) { 171625d3ec58SRichard Henderson CPUTLBEntryFull *full; 171725d3ec58SRichard Henderson full = &env_tlb(env)->d[mmu_idx].fulltlb[index]; 1718235537faSAlex Bennée data->is_io = true; 171925d3ec58SRichard Henderson data->v.io.section = 172025d3ec58SRichard Henderson iotlb_to_section(cpu, full->xlat_section, full->attrs); 172125d3ec58SRichard Henderson data->v.io.offset = (full->xlat_section & TARGET_PAGE_MASK) + addr; 1722235537faSAlex Bennée } else { 1723235537faSAlex Bennée data->is_io = false; 17242d932039SAlex Bennée data->v.ram.hostaddr = (void *)((uintptr_t)addr + tlbe->addend); 1725235537faSAlex Bennée } 1726235537faSAlex Bennée return true; 17272f3a57eeSAlex Bennée } else { 17282f3a57eeSAlex Bennée SavedIOTLB *saved = &cpu->saved_iotlb; 17292f3a57eeSAlex Bennée data->is_io = true; 17302f3a57eeSAlex Bennée data->v.io.section = saved->section; 17312f3a57eeSAlex Bennée data->v.io.offset = saved->mr_offset; 17322f3a57eeSAlex Bennée return true; 1733235537faSAlex Bennée } 1734235537faSAlex Bennée } 1735235537faSAlex Bennée 1736235537faSAlex Bennée #endif 1737235537faSAlex Bennée 173808dff435SRichard Henderson /* 173908dff435SRichard Henderson * Probe for an atomic operation. Do not allow unaligned operations, 174008dff435SRichard Henderson * or io operations to proceed. Return the host address. 174108dff435SRichard Henderson * 174208dff435SRichard Henderson * @prot may be PAGE_READ, PAGE_WRITE, or PAGE_READ|PAGE_WRITE. 174308dff435SRichard Henderson */ 1744d9bb58e5SYang Zhong static void *atomic_mmu_lookup(CPUArchState *env, target_ulong addr, 17459002ffcbSRichard Henderson MemOpIdx oi, int size, int prot, 174608dff435SRichard Henderson uintptr_t retaddr) 1747d9bb58e5SYang Zhong { 1748b826044fSRichard Henderson uintptr_t mmu_idx = get_mmuidx(oi); 174914776ab5STony Nguyen MemOp mop = get_memop(oi); 1750d9bb58e5SYang Zhong int a_bits = get_alignment_bits(mop); 175108dff435SRichard Henderson uintptr_t index; 175208dff435SRichard Henderson CPUTLBEntry *tlbe; 175308dff435SRichard Henderson target_ulong tlb_addr; 175434d49937SPeter Maydell void *hostaddr; 1755d9bb58e5SYang Zhong 1756b826044fSRichard Henderson tcg_debug_assert(mmu_idx < NB_MMU_MODES); 1757b826044fSRichard Henderson 1758d9bb58e5SYang Zhong /* Adjust the given return address. */ 1759d9bb58e5SYang Zhong retaddr -= GETPC_ADJ; 1760d9bb58e5SYang Zhong 1761d9bb58e5SYang Zhong /* Enforce guest required alignment. */ 1762d9bb58e5SYang Zhong if (unlikely(a_bits > 0 && (addr & ((1 << a_bits) - 1)))) { 1763d9bb58e5SYang Zhong /* ??? Maybe indicate atomic op to cpu_unaligned_access */ 176429a0af61SRichard Henderson cpu_unaligned_access(env_cpu(env), addr, MMU_DATA_STORE, 1765d9bb58e5SYang Zhong mmu_idx, retaddr); 1766d9bb58e5SYang Zhong } 1767d9bb58e5SYang Zhong 1768d9bb58e5SYang Zhong /* Enforce qemu required alignment. */ 176908dff435SRichard Henderson if (unlikely(addr & (size - 1))) { 1770d9bb58e5SYang Zhong /* We get here if guest alignment was not requested, 1771d9bb58e5SYang Zhong or was not enforced by cpu_unaligned_access above. 1772d9bb58e5SYang Zhong We might widen the access and emulate, but for now 1773d9bb58e5SYang Zhong mark an exception and exit the cpu loop. */ 1774d9bb58e5SYang Zhong goto stop_the_world; 1775d9bb58e5SYang Zhong } 1776d9bb58e5SYang Zhong 177708dff435SRichard Henderson index = tlb_index(env, mmu_idx, addr); 177808dff435SRichard Henderson tlbe = tlb_entry(env, mmu_idx, addr); 177908dff435SRichard Henderson 1780d9bb58e5SYang Zhong /* Check TLB entry and enforce page permissions. */ 178108dff435SRichard Henderson if (prot & PAGE_WRITE) { 178208dff435SRichard Henderson tlb_addr = tlb_addr_write(tlbe); 1783334692bcSPeter Maydell if (!tlb_hit(tlb_addr, addr)) { 1784d9bb58e5SYang Zhong if (!VICTIM_TLB_HIT(addr_write, addr)) { 178508dff435SRichard Henderson tlb_fill(env_cpu(env), addr, size, 178608dff435SRichard Henderson MMU_DATA_STORE, mmu_idx, retaddr); 17876d967cb8SEmilio G. Cota index = tlb_index(env, mmu_idx, addr); 17886d967cb8SEmilio G. Cota tlbe = tlb_entry(env, mmu_idx, addr); 1789d9bb58e5SYang Zhong } 1790403f290cSEmilio G. Cota tlb_addr = tlb_addr_write(tlbe) & ~TLB_INVALID_MASK; 1791d9bb58e5SYang Zhong } 1792d9bb58e5SYang Zhong 179308dff435SRichard Henderson /* Let the guest notice RMW on a write-only page. */ 179408dff435SRichard Henderson if ((prot & PAGE_READ) && 179508dff435SRichard Henderson unlikely(tlbe->addr_read != (tlb_addr & ~TLB_NOTDIRTY))) { 179608dff435SRichard Henderson tlb_fill(env_cpu(env), addr, size, 179708dff435SRichard Henderson MMU_DATA_LOAD, mmu_idx, retaddr); 179808dff435SRichard Henderson /* 179908dff435SRichard Henderson * Since we don't support reads and writes to different addresses, 180008dff435SRichard Henderson * and we do have the proper page loaded for write, this shouldn't 180108dff435SRichard Henderson * ever return. But just in case, handle via stop-the-world. 180208dff435SRichard Henderson */ 180308dff435SRichard Henderson goto stop_the_world; 180408dff435SRichard Henderson } 180508dff435SRichard Henderson } else /* if (prot & PAGE_READ) */ { 180608dff435SRichard Henderson tlb_addr = tlbe->addr_read; 180708dff435SRichard Henderson if (!tlb_hit(tlb_addr, addr)) { 180808dff435SRichard Henderson if (!VICTIM_TLB_HIT(addr_write, addr)) { 180908dff435SRichard Henderson tlb_fill(env_cpu(env), addr, size, 181008dff435SRichard Henderson MMU_DATA_LOAD, mmu_idx, retaddr); 181108dff435SRichard Henderson index = tlb_index(env, mmu_idx, addr); 181208dff435SRichard Henderson tlbe = tlb_entry(env, mmu_idx, addr); 181308dff435SRichard Henderson } 181408dff435SRichard Henderson tlb_addr = tlbe->addr_read & ~TLB_INVALID_MASK; 181508dff435SRichard Henderson } 181608dff435SRichard Henderson } 181708dff435SRichard Henderson 181855df6fcfSPeter Maydell /* Notice an IO access or a needs-MMU-lookup access */ 181930d7e098SRichard Henderson if (unlikely(tlb_addr & TLB_MMIO)) { 1820d9bb58e5SYang Zhong /* There's really nothing that can be done to 1821d9bb58e5SYang Zhong support this apart from stop-the-world. */ 1822d9bb58e5SYang Zhong goto stop_the_world; 1823d9bb58e5SYang Zhong } 1824d9bb58e5SYang Zhong 182534d49937SPeter Maydell hostaddr = (void *)((uintptr_t)addr + tlbe->addend); 182634d49937SPeter Maydell 182734d49937SPeter Maydell if (unlikely(tlb_addr & TLB_NOTDIRTY)) { 182808dff435SRichard Henderson notdirty_write(env_cpu(env), addr, size, 182925d3ec58SRichard Henderson &env_tlb(env)->d[mmu_idx].fulltlb[index], retaddr); 183034d49937SPeter Maydell } 183134d49937SPeter Maydell 183234d49937SPeter Maydell return hostaddr; 1833d9bb58e5SYang Zhong 1834d9bb58e5SYang Zhong stop_the_world: 183529a0af61SRichard Henderson cpu_loop_exit_atomic(env_cpu(env), retaddr); 1836d9bb58e5SYang Zhong } 1837d9bb58e5SYang Zhong 1838eed56642SAlex Bennée /* 1839f83bcecbSRichard Henderson * Verify that we have passed the correct MemOp to the correct function. 1840f83bcecbSRichard Henderson * 1841f83bcecbSRichard Henderson * In the case of the helper_*_mmu functions, we will have done this by 1842f83bcecbSRichard Henderson * using the MemOp to look up the helper during code generation. 1843f83bcecbSRichard Henderson * 1844f83bcecbSRichard Henderson * In the case of the cpu_*_mmu functions, this is up to the caller. 1845f83bcecbSRichard Henderson * We could present one function to target code, and dispatch based on 1846f83bcecbSRichard Henderson * the MemOp, but so far we have worked hard to avoid an indirect function 1847f83bcecbSRichard Henderson * call along the memory path. 1848f83bcecbSRichard Henderson */ 1849f83bcecbSRichard Henderson static void validate_memop(MemOpIdx oi, MemOp expected) 1850f83bcecbSRichard Henderson { 1851f83bcecbSRichard Henderson #ifdef CONFIG_DEBUG_TCG 1852f83bcecbSRichard Henderson MemOp have = get_memop(oi) & (MO_SIZE | MO_BSWAP); 1853f83bcecbSRichard Henderson assert(have == expected); 1854f83bcecbSRichard Henderson #endif 1855f83bcecbSRichard Henderson } 1856f83bcecbSRichard Henderson 1857f83bcecbSRichard Henderson /* 1858eed56642SAlex Bennée * Load Helpers 1859eed56642SAlex Bennée * 1860eed56642SAlex Bennée * We support two different access types. SOFTMMU_CODE_ACCESS is 1861eed56642SAlex Bennée * specifically for reading instructions from system memory. It is 1862eed56642SAlex Bennée * called by the translation loop and in some helpers where the code 1863eed56642SAlex Bennée * is disassembled. It shouldn't be called directly by guest code. 1864eed56642SAlex Bennée */ 1865d9bb58e5SYang Zhong 18662dd92606SRichard Henderson typedef uint64_t FullLoadHelper(CPUArchState *env, target_ulong addr, 18679002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr); 18682dd92606SRichard Henderson 1869c6b716cdSRichard Henderson static inline uint64_t QEMU_ALWAYS_INLINE 187080d9d1c6SRichard Henderson load_memop(const void *haddr, MemOp op) 187180d9d1c6SRichard Henderson { 187280d9d1c6SRichard Henderson switch (op) { 187380d9d1c6SRichard Henderson case MO_UB: 187480d9d1c6SRichard Henderson return ldub_p(haddr); 187580d9d1c6SRichard Henderson case MO_BEUW: 187680d9d1c6SRichard Henderson return lduw_be_p(haddr); 187780d9d1c6SRichard Henderson case MO_LEUW: 187880d9d1c6SRichard Henderson return lduw_le_p(haddr); 187980d9d1c6SRichard Henderson case MO_BEUL: 188080d9d1c6SRichard Henderson return (uint32_t)ldl_be_p(haddr); 188180d9d1c6SRichard Henderson case MO_LEUL: 188280d9d1c6SRichard Henderson return (uint32_t)ldl_le_p(haddr); 1883fc313c64SFrédéric Pétrot case MO_BEUQ: 188480d9d1c6SRichard Henderson return ldq_be_p(haddr); 1885fc313c64SFrédéric Pétrot case MO_LEUQ: 188680d9d1c6SRichard Henderson return ldq_le_p(haddr); 188780d9d1c6SRichard Henderson default: 188880d9d1c6SRichard Henderson qemu_build_not_reached(); 188980d9d1c6SRichard Henderson } 189080d9d1c6SRichard Henderson } 189180d9d1c6SRichard Henderson 189280d9d1c6SRichard Henderson static inline uint64_t QEMU_ALWAYS_INLINE 18939002ffcbSRichard Henderson load_helper(CPUArchState *env, target_ulong addr, MemOpIdx oi, 1894be5c4787STony Nguyen uintptr_t retaddr, MemOp op, bool code_read, 18952dd92606SRichard Henderson FullLoadHelper *full_load) 1896eed56642SAlex Bennée { 1897eed56642SAlex Bennée const size_t tlb_off = code_read ? 1898eed56642SAlex Bennée offsetof(CPUTLBEntry, addr_code) : offsetof(CPUTLBEntry, addr_read); 1899f1be3696SRichard Henderson const MMUAccessType access_type = 1900f1be3696SRichard Henderson code_read ? MMU_INST_FETCH : MMU_DATA_LOAD; 1901b826044fSRichard Henderson const unsigned a_bits = get_alignment_bits(get_memop(oi)); 1902b826044fSRichard Henderson const size_t size = memop_size(op); 1903b826044fSRichard Henderson uintptr_t mmu_idx = get_mmuidx(oi); 1904b826044fSRichard Henderson uintptr_t index; 1905b826044fSRichard Henderson CPUTLBEntry *entry; 1906b826044fSRichard Henderson target_ulong tlb_addr; 1907eed56642SAlex Bennée void *haddr; 1908eed56642SAlex Bennée uint64_t res; 1909b826044fSRichard Henderson 1910b826044fSRichard Henderson tcg_debug_assert(mmu_idx < NB_MMU_MODES); 1911d9bb58e5SYang Zhong 1912eed56642SAlex Bennée /* Handle CPU specific unaligned behaviour */ 1913eed56642SAlex Bennée if (addr & ((1 << a_bits) - 1)) { 191429a0af61SRichard Henderson cpu_unaligned_access(env_cpu(env), addr, access_type, 1915eed56642SAlex Bennée mmu_idx, retaddr); 1916eed56642SAlex Bennée } 1917eed56642SAlex Bennée 1918b826044fSRichard Henderson index = tlb_index(env, mmu_idx, addr); 1919b826044fSRichard Henderson entry = tlb_entry(env, mmu_idx, addr); 1920b826044fSRichard Henderson tlb_addr = code_read ? entry->addr_code : entry->addr_read; 1921b826044fSRichard Henderson 1922eed56642SAlex Bennée /* If the TLB entry is for a different page, reload and try again. */ 1923eed56642SAlex Bennée if (!tlb_hit(tlb_addr, addr)) { 1924eed56642SAlex Bennée if (!victim_tlb_hit(env, mmu_idx, index, tlb_off, 1925eed56642SAlex Bennée addr & TARGET_PAGE_MASK)) { 192629a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, size, 1927f1be3696SRichard Henderson access_type, mmu_idx, retaddr); 1928eed56642SAlex Bennée index = tlb_index(env, mmu_idx, addr); 1929eed56642SAlex Bennée entry = tlb_entry(env, mmu_idx, addr); 1930eed56642SAlex Bennée } 1931eed56642SAlex Bennée tlb_addr = code_read ? entry->addr_code : entry->addr_read; 193230d7e098SRichard Henderson tlb_addr &= ~TLB_INVALID_MASK; 1933eed56642SAlex Bennée } 1934eed56642SAlex Bennée 193550b107c5SRichard Henderson /* Handle anything that isn't just a straight memory access. */ 1936eed56642SAlex Bennée if (unlikely(tlb_addr & ~TARGET_PAGE_MASK)) { 193725d3ec58SRichard Henderson CPUTLBEntryFull *full; 19385b87b3e6SRichard Henderson bool need_swap; 193950b107c5SRichard Henderson 194050b107c5SRichard Henderson /* For anything that is unaligned, recurse through full_load. */ 1941eed56642SAlex Bennée if ((addr & (size - 1)) != 0) { 1942eed56642SAlex Bennée goto do_unaligned_access; 1943eed56642SAlex Bennée } 194450b107c5SRichard Henderson 194525d3ec58SRichard Henderson full = &env_tlb(env)->d[mmu_idx].fulltlb[index]; 194650b107c5SRichard Henderson 194750b107c5SRichard Henderson /* Handle watchpoints. */ 194850b107c5SRichard Henderson if (unlikely(tlb_addr & TLB_WATCHPOINT)) { 194950b107c5SRichard Henderson /* On watchpoint hit, this will longjmp out. */ 195050b107c5SRichard Henderson cpu_check_watchpoint(env_cpu(env), addr, size, 195125d3ec58SRichard Henderson full->attrs, BP_MEM_READ, retaddr); 19525b87b3e6SRichard Henderson } 195350b107c5SRichard Henderson 19545b87b3e6SRichard Henderson need_swap = size > 1 && (tlb_addr & TLB_BSWAP); 195550b107c5SRichard Henderson 195650b107c5SRichard Henderson /* Handle I/O access. */ 19575b87b3e6SRichard Henderson if (likely(tlb_addr & TLB_MMIO)) { 195825d3ec58SRichard Henderson return io_readx(env, full, mmu_idx, addr, retaddr, 19595b87b3e6SRichard Henderson access_type, op ^ (need_swap * MO_BSWAP)); 19605b87b3e6SRichard Henderson } 19615b87b3e6SRichard Henderson 19625b87b3e6SRichard Henderson haddr = (void *)((uintptr_t)addr + entry->addend); 19635b87b3e6SRichard Henderson 19645b87b3e6SRichard Henderson /* 19655b87b3e6SRichard Henderson * Keep these two load_memop separate to ensure that the compiler 19665b87b3e6SRichard Henderson * is able to fold the entire function to a single instruction. 19675b87b3e6SRichard Henderson * There is a build-time assert inside to remind you of this. ;-) 19685b87b3e6SRichard Henderson */ 19695b87b3e6SRichard Henderson if (unlikely(need_swap)) { 19705b87b3e6SRichard Henderson return load_memop(haddr, op ^ MO_BSWAP); 19715b87b3e6SRichard Henderson } 19725b87b3e6SRichard Henderson return load_memop(haddr, op); 1973eed56642SAlex Bennée } 1974eed56642SAlex Bennée 1975eed56642SAlex Bennée /* Handle slow unaligned access (it spans two pages or IO). */ 1976eed56642SAlex Bennée if (size > 1 1977eed56642SAlex Bennée && unlikely((addr & ~TARGET_PAGE_MASK) + size - 1 1978eed56642SAlex Bennée >= TARGET_PAGE_SIZE)) { 1979eed56642SAlex Bennée target_ulong addr1, addr2; 19808c79b288SAlex Bennée uint64_t r1, r2; 1981eed56642SAlex Bennée unsigned shift; 1982eed56642SAlex Bennée do_unaligned_access: 1983ab7a2009SAlex Bennée addr1 = addr & ~((target_ulong)size - 1); 1984eed56642SAlex Bennée addr2 = addr1 + size; 19852dd92606SRichard Henderson r1 = full_load(env, addr1, oi, retaddr); 19862dd92606SRichard Henderson r2 = full_load(env, addr2, oi, retaddr); 1987eed56642SAlex Bennée shift = (addr & (size - 1)) * 8; 1988eed56642SAlex Bennée 1989be5c4787STony Nguyen if (memop_big_endian(op)) { 1990eed56642SAlex Bennée /* Big-endian combine. */ 1991eed56642SAlex Bennée res = (r1 << shift) | (r2 >> ((size * 8) - shift)); 1992eed56642SAlex Bennée } else { 1993eed56642SAlex Bennée /* Little-endian combine. */ 1994eed56642SAlex Bennée res = (r1 >> shift) | (r2 << ((size * 8) - shift)); 1995eed56642SAlex Bennée } 1996eed56642SAlex Bennée return res & MAKE_64BIT_MASK(0, size * 8); 1997eed56642SAlex Bennée } 1998eed56642SAlex Bennée 1999eed56642SAlex Bennée haddr = (void *)((uintptr_t)addr + entry->addend); 200080d9d1c6SRichard Henderson return load_memop(haddr, op); 2001eed56642SAlex Bennée } 2002eed56642SAlex Bennée 2003eed56642SAlex Bennée /* 2004eed56642SAlex Bennée * For the benefit of TCG generated code, we want to avoid the 2005eed56642SAlex Bennée * complication of ABI-specific return type promotion and always 2006eed56642SAlex Bennée * return a value extended to the register size of the host. This is 2007eed56642SAlex Bennée * tcg_target_long, except in the case of a 32-bit host and 64-bit 2008eed56642SAlex Bennée * data, and for that we always have uint64_t. 2009eed56642SAlex Bennée * 2010eed56642SAlex Bennée * We don't bother with this widened value for SOFTMMU_CODE_ACCESS. 2011eed56642SAlex Bennée */ 2012eed56642SAlex Bennée 20132dd92606SRichard Henderson static uint64_t full_ldub_mmu(CPUArchState *env, target_ulong addr, 20149002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 20152dd92606SRichard Henderson { 2016f83bcecbSRichard Henderson validate_memop(oi, MO_UB); 2017be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_UB, false, full_ldub_mmu); 20182dd92606SRichard Henderson } 20192dd92606SRichard Henderson 2020fc1bc777SRichard Henderson tcg_target_ulong helper_ret_ldub_mmu(CPUArchState *env, target_ulong addr, 20219002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2022eed56642SAlex Bennée { 20232dd92606SRichard Henderson return full_ldub_mmu(env, addr, oi, retaddr); 20242dd92606SRichard Henderson } 20252dd92606SRichard Henderson 20262dd92606SRichard Henderson static uint64_t full_le_lduw_mmu(CPUArchState *env, target_ulong addr, 20279002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 20282dd92606SRichard Henderson { 2029f83bcecbSRichard Henderson validate_memop(oi, MO_LEUW); 2030be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEUW, false, 20312dd92606SRichard Henderson full_le_lduw_mmu); 2032eed56642SAlex Bennée } 2033eed56642SAlex Bennée 2034fc1bc777SRichard Henderson tcg_target_ulong helper_le_lduw_mmu(CPUArchState *env, target_ulong addr, 20359002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2036eed56642SAlex Bennée { 20372dd92606SRichard Henderson return full_le_lduw_mmu(env, addr, oi, retaddr); 20382dd92606SRichard Henderson } 20392dd92606SRichard Henderson 20402dd92606SRichard Henderson static uint64_t full_be_lduw_mmu(CPUArchState *env, target_ulong addr, 20419002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 20422dd92606SRichard Henderson { 2043f83bcecbSRichard Henderson validate_memop(oi, MO_BEUW); 2044be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEUW, false, 20452dd92606SRichard Henderson full_be_lduw_mmu); 2046eed56642SAlex Bennée } 2047eed56642SAlex Bennée 2048fc1bc777SRichard Henderson tcg_target_ulong helper_be_lduw_mmu(CPUArchState *env, target_ulong addr, 20499002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2050eed56642SAlex Bennée { 20512dd92606SRichard Henderson return full_be_lduw_mmu(env, addr, oi, retaddr); 20522dd92606SRichard Henderson } 20532dd92606SRichard Henderson 20542dd92606SRichard Henderson static uint64_t full_le_ldul_mmu(CPUArchState *env, target_ulong addr, 20559002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 20562dd92606SRichard Henderson { 2057f83bcecbSRichard Henderson validate_memop(oi, MO_LEUL); 2058be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEUL, false, 20592dd92606SRichard Henderson full_le_ldul_mmu); 2060eed56642SAlex Bennée } 2061eed56642SAlex Bennée 2062fc1bc777SRichard Henderson tcg_target_ulong helper_le_ldul_mmu(CPUArchState *env, target_ulong addr, 20639002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2064eed56642SAlex Bennée { 20652dd92606SRichard Henderson return full_le_ldul_mmu(env, addr, oi, retaddr); 20662dd92606SRichard Henderson } 20672dd92606SRichard Henderson 20682dd92606SRichard Henderson static uint64_t full_be_ldul_mmu(CPUArchState *env, target_ulong addr, 20699002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 20702dd92606SRichard Henderson { 2071f83bcecbSRichard Henderson validate_memop(oi, MO_BEUL); 2072be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEUL, false, 20732dd92606SRichard Henderson full_be_ldul_mmu); 2074eed56642SAlex Bennée } 2075eed56642SAlex Bennée 2076fc1bc777SRichard Henderson tcg_target_ulong helper_be_ldul_mmu(CPUArchState *env, target_ulong addr, 20779002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2078eed56642SAlex Bennée { 20792dd92606SRichard Henderson return full_be_ldul_mmu(env, addr, oi, retaddr); 2080eed56642SAlex Bennée } 2081eed56642SAlex Bennée 2082fc1bc777SRichard Henderson uint64_t helper_le_ldq_mmu(CPUArchState *env, target_ulong addr, 20839002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2084eed56642SAlex Bennée { 2085fc313c64SFrédéric Pétrot validate_memop(oi, MO_LEUQ); 2086fc313c64SFrédéric Pétrot return load_helper(env, addr, oi, retaddr, MO_LEUQ, false, 20872dd92606SRichard Henderson helper_le_ldq_mmu); 2088eed56642SAlex Bennée } 2089eed56642SAlex Bennée 2090fc1bc777SRichard Henderson uint64_t helper_be_ldq_mmu(CPUArchState *env, target_ulong addr, 20919002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2092eed56642SAlex Bennée { 2093fc313c64SFrédéric Pétrot validate_memop(oi, MO_BEUQ); 2094fc313c64SFrédéric Pétrot return load_helper(env, addr, oi, retaddr, MO_BEUQ, false, 20952dd92606SRichard Henderson helper_be_ldq_mmu); 2096eed56642SAlex Bennée } 2097eed56642SAlex Bennée 2098eed56642SAlex Bennée /* 2099eed56642SAlex Bennée * Provide signed versions of the load routines as well. We can of course 2100eed56642SAlex Bennée * avoid this for 64-bit data, or for 32-bit data on 32-bit host. 2101eed56642SAlex Bennée */ 2102eed56642SAlex Bennée 2103eed56642SAlex Bennée 2104eed56642SAlex Bennée tcg_target_ulong helper_ret_ldsb_mmu(CPUArchState *env, target_ulong addr, 21059002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2106eed56642SAlex Bennée { 2107eed56642SAlex Bennée return (int8_t)helper_ret_ldub_mmu(env, addr, oi, retaddr); 2108eed56642SAlex Bennée } 2109eed56642SAlex Bennée 2110eed56642SAlex Bennée tcg_target_ulong helper_le_ldsw_mmu(CPUArchState *env, target_ulong addr, 21119002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2112eed56642SAlex Bennée { 2113eed56642SAlex Bennée return (int16_t)helper_le_lduw_mmu(env, addr, oi, retaddr); 2114eed56642SAlex Bennée } 2115eed56642SAlex Bennée 2116eed56642SAlex Bennée tcg_target_ulong helper_be_ldsw_mmu(CPUArchState *env, target_ulong addr, 21179002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2118eed56642SAlex Bennée { 2119eed56642SAlex Bennée return (int16_t)helper_be_lduw_mmu(env, addr, oi, retaddr); 2120eed56642SAlex Bennée } 2121eed56642SAlex Bennée 2122eed56642SAlex Bennée tcg_target_ulong helper_le_ldsl_mmu(CPUArchState *env, target_ulong addr, 21239002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2124eed56642SAlex Bennée { 2125eed56642SAlex Bennée return (int32_t)helper_le_ldul_mmu(env, addr, oi, retaddr); 2126eed56642SAlex Bennée } 2127eed56642SAlex Bennée 2128eed56642SAlex Bennée tcg_target_ulong helper_be_ldsl_mmu(CPUArchState *env, target_ulong addr, 21299002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2130eed56642SAlex Bennée { 2131eed56642SAlex Bennée return (int32_t)helper_be_ldul_mmu(env, addr, oi, retaddr); 2132eed56642SAlex Bennée } 2133eed56642SAlex Bennée 2134eed56642SAlex Bennée /* 2135d03f1408SRichard Henderson * Load helpers for cpu_ldst.h. 2136d03f1408SRichard Henderson */ 2137d03f1408SRichard Henderson 2138d03f1408SRichard Henderson static inline uint64_t cpu_load_helper(CPUArchState *env, abi_ptr addr, 2139f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr, 2140f83bcecbSRichard Henderson FullLoadHelper *full_load) 2141d03f1408SRichard Henderson { 2142d03f1408SRichard Henderson uint64_t ret; 2143d03f1408SRichard Henderson 2144d03f1408SRichard Henderson ret = full_load(env, addr, oi, retaddr); 214537aff087SRichard Henderson qemu_plugin_vcpu_mem_cb(env_cpu(env), addr, oi, QEMU_PLUGIN_MEM_R); 2146d03f1408SRichard Henderson return ret; 2147d03f1408SRichard Henderson } 2148d03f1408SRichard Henderson 2149f83bcecbSRichard Henderson uint8_t cpu_ldb_mmu(CPUArchState *env, abi_ptr addr, MemOpIdx oi, uintptr_t ra) 2150d03f1408SRichard Henderson { 2151f83bcecbSRichard Henderson return cpu_load_helper(env, addr, oi, ra, full_ldub_mmu); 2152d03f1408SRichard Henderson } 2153d03f1408SRichard Henderson 2154f83bcecbSRichard Henderson uint16_t cpu_ldw_be_mmu(CPUArchState *env, abi_ptr addr, 2155f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t ra) 2156d03f1408SRichard Henderson { 2157f83bcecbSRichard Henderson return cpu_load_helper(env, addr, oi, ra, full_be_lduw_mmu); 2158d03f1408SRichard Henderson } 2159d03f1408SRichard Henderson 2160f83bcecbSRichard Henderson uint32_t cpu_ldl_be_mmu(CPUArchState *env, abi_ptr addr, 2161f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t ra) 2162d03f1408SRichard Henderson { 2163f83bcecbSRichard Henderson return cpu_load_helper(env, addr, oi, ra, full_be_ldul_mmu); 2164d03f1408SRichard Henderson } 2165d03f1408SRichard Henderson 2166f83bcecbSRichard Henderson uint64_t cpu_ldq_be_mmu(CPUArchState *env, abi_ptr addr, 2167f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t ra) 2168d03f1408SRichard Henderson { 216946697cb9SRichard Henderson return cpu_load_helper(env, addr, oi, ra, helper_be_ldq_mmu); 2170d03f1408SRichard Henderson } 2171d03f1408SRichard Henderson 2172f83bcecbSRichard Henderson uint16_t cpu_ldw_le_mmu(CPUArchState *env, abi_ptr addr, 2173f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t ra) 2174d03f1408SRichard Henderson { 2175f83bcecbSRichard Henderson return cpu_load_helper(env, addr, oi, ra, full_le_lduw_mmu); 2176d03f1408SRichard Henderson } 2177d03f1408SRichard Henderson 2178f83bcecbSRichard Henderson uint32_t cpu_ldl_le_mmu(CPUArchState *env, abi_ptr addr, 2179f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t ra) 2180d03f1408SRichard Henderson { 2181f83bcecbSRichard Henderson return cpu_load_helper(env, addr, oi, ra, full_le_ldul_mmu); 2182b9e60257SRichard Henderson } 2183b9e60257SRichard Henderson 2184f83bcecbSRichard Henderson uint64_t cpu_ldq_le_mmu(CPUArchState *env, abi_ptr addr, 2185f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t ra) 2186b9e60257SRichard Henderson { 2187f83bcecbSRichard Henderson return cpu_load_helper(env, addr, oi, ra, helper_le_ldq_mmu); 2188cfe04a4bSRichard Henderson } 2189cfe04a4bSRichard Henderson 2190d03f1408SRichard Henderson /* 2191eed56642SAlex Bennée * Store Helpers 2192eed56642SAlex Bennée */ 2193eed56642SAlex Bennée 2194c6b716cdSRichard Henderson static inline void QEMU_ALWAYS_INLINE 219580d9d1c6SRichard Henderson store_memop(void *haddr, uint64_t val, MemOp op) 219680d9d1c6SRichard Henderson { 219780d9d1c6SRichard Henderson switch (op) { 219880d9d1c6SRichard Henderson case MO_UB: 219980d9d1c6SRichard Henderson stb_p(haddr, val); 220080d9d1c6SRichard Henderson break; 220180d9d1c6SRichard Henderson case MO_BEUW: 220280d9d1c6SRichard Henderson stw_be_p(haddr, val); 220380d9d1c6SRichard Henderson break; 220480d9d1c6SRichard Henderson case MO_LEUW: 220580d9d1c6SRichard Henderson stw_le_p(haddr, val); 220680d9d1c6SRichard Henderson break; 220780d9d1c6SRichard Henderson case MO_BEUL: 220880d9d1c6SRichard Henderson stl_be_p(haddr, val); 220980d9d1c6SRichard Henderson break; 221080d9d1c6SRichard Henderson case MO_LEUL: 221180d9d1c6SRichard Henderson stl_le_p(haddr, val); 221280d9d1c6SRichard Henderson break; 2213fc313c64SFrédéric Pétrot case MO_BEUQ: 221480d9d1c6SRichard Henderson stq_be_p(haddr, val); 221580d9d1c6SRichard Henderson break; 2216fc313c64SFrédéric Pétrot case MO_LEUQ: 221780d9d1c6SRichard Henderson stq_le_p(haddr, val); 221880d9d1c6SRichard Henderson break; 221980d9d1c6SRichard Henderson default: 222080d9d1c6SRichard Henderson qemu_build_not_reached(); 222180d9d1c6SRichard Henderson } 222280d9d1c6SRichard Henderson } 222380d9d1c6SRichard Henderson 2224f83bcecbSRichard Henderson static void full_stb_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 2225f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr); 2226f83bcecbSRichard Henderson 22276b8b622eSRichard Henderson static void __attribute__((noinline)) 22286b8b622eSRichard Henderson store_helper_unaligned(CPUArchState *env, target_ulong addr, uint64_t val, 22296b8b622eSRichard Henderson uintptr_t retaddr, size_t size, uintptr_t mmu_idx, 22306b8b622eSRichard Henderson bool big_endian) 22316b8b622eSRichard Henderson { 22326b8b622eSRichard Henderson const size_t tlb_off = offsetof(CPUTLBEntry, addr_write); 22336b8b622eSRichard Henderson uintptr_t index, index2; 22346b8b622eSRichard Henderson CPUTLBEntry *entry, *entry2; 2235b0f650f0SIlya Leoshkevich target_ulong page1, page2, tlb_addr, tlb_addr2; 22369002ffcbSRichard Henderson MemOpIdx oi; 22376b8b622eSRichard Henderson size_t size2; 22386b8b622eSRichard Henderson int i; 22396b8b622eSRichard Henderson 22406b8b622eSRichard Henderson /* 22416b8b622eSRichard Henderson * Ensure the second page is in the TLB. Note that the first page 22426b8b622eSRichard Henderson * is already guaranteed to be filled, and that the second page 2243b0f650f0SIlya Leoshkevich * cannot evict the first. An exception to this rule is PAGE_WRITE_INV 2244b0f650f0SIlya Leoshkevich * handling: the first page could have evicted itself. 22456b8b622eSRichard Henderson */ 2246b0f650f0SIlya Leoshkevich page1 = addr & TARGET_PAGE_MASK; 22476b8b622eSRichard Henderson page2 = (addr + size) & TARGET_PAGE_MASK; 22486b8b622eSRichard Henderson size2 = (addr + size) & ~TARGET_PAGE_MASK; 22496b8b622eSRichard Henderson index2 = tlb_index(env, mmu_idx, page2); 22506b8b622eSRichard Henderson entry2 = tlb_entry(env, mmu_idx, page2); 22516b8b622eSRichard Henderson 22526b8b622eSRichard Henderson tlb_addr2 = tlb_addr_write(entry2); 2253b0f650f0SIlya Leoshkevich if (page1 != page2 && !tlb_hit_page(tlb_addr2, page2)) { 22546b8b622eSRichard Henderson if (!victim_tlb_hit(env, mmu_idx, index2, tlb_off, page2)) { 22556b8b622eSRichard Henderson tlb_fill(env_cpu(env), page2, size2, MMU_DATA_STORE, 22566b8b622eSRichard Henderson mmu_idx, retaddr); 22576b8b622eSRichard Henderson index2 = tlb_index(env, mmu_idx, page2); 22586b8b622eSRichard Henderson entry2 = tlb_entry(env, mmu_idx, page2); 22596b8b622eSRichard Henderson } 22606b8b622eSRichard Henderson tlb_addr2 = tlb_addr_write(entry2); 22616b8b622eSRichard Henderson } 22626b8b622eSRichard Henderson 22636b8b622eSRichard Henderson index = tlb_index(env, mmu_idx, addr); 22646b8b622eSRichard Henderson entry = tlb_entry(env, mmu_idx, addr); 22656b8b622eSRichard Henderson tlb_addr = tlb_addr_write(entry); 22666b8b622eSRichard Henderson 22676b8b622eSRichard Henderson /* 22686b8b622eSRichard Henderson * Handle watchpoints. Since this may trap, all checks 22696b8b622eSRichard Henderson * must happen before any store. 22706b8b622eSRichard Henderson */ 22716b8b622eSRichard Henderson if (unlikely(tlb_addr & TLB_WATCHPOINT)) { 22726b8b622eSRichard Henderson cpu_check_watchpoint(env_cpu(env), addr, size - size2, 227325d3ec58SRichard Henderson env_tlb(env)->d[mmu_idx].fulltlb[index].attrs, 22746b8b622eSRichard Henderson BP_MEM_WRITE, retaddr); 22756b8b622eSRichard Henderson } 22766b8b622eSRichard Henderson if (unlikely(tlb_addr2 & TLB_WATCHPOINT)) { 22776b8b622eSRichard Henderson cpu_check_watchpoint(env_cpu(env), page2, size2, 227825d3ec58SRichard Henderson env_tlb(env)->d[mmu_idx].fulltlb[index2].attrs, 22796b8b622eSRichard Henderson BP_MEM_WRITE, retaddr); 22806b8b622eSRichard Henderson } 22816b8b622eSRichard Henderson 22826b8b622eSRichard Henderson /* 22836b8b622eSRichard Henderson * XXX: not efficient, but simple. 22846b8b622eSRichard Henderson * This loop must go in the forward direction to avoid issues 22856b8b622eSRichard Henderson * with self-modifying code in Windows 64-bit. 22866b8b622eSRichard Henderson */ 22876b8b622eSRichard Henderson oi = make_memop_idx(MO_UB, mmu_idx); 22886b8b622eSRichard Henderson if (big_endian) { 22896b8b622eSRichard Henderson for (i = 0; i < size; ++i) { 22906b8b622eSRichard Henderson /* Big-endian extract. */ 22916b8b622eSRichard Henderson uint8_t val8 = val >> (((size - 1) * 8) - (i * 8)); 2292f83bcecbSRichard Henderson full_stb_mmu(env, addr + i, val8, oi, retaddr); 22936b8b622eSRichard Henderson } 22946b8b622eSRichard Henderson } else { 22956b8b622eSRichard Henderson for (i = 0; i < size; ++i) { 22966b8b622eSRichard Henderson /* Little-endian extract. */ 22976b8b622eSRichard Henderson uint8_t val8 = val >> (i * 8); 2298f83bcecbSRichard Henderson full_stb_mmu(env, addr + i, val8, oi, retaddr); 22996b8b622eSRichard Henderson } 23006b8b622eSRichard Henderson } 23016b8b622eSRichard Henderson } 23026b8b622eSRichard Henderson 230380d9d1c6SRichard Henderson static inline void QEMU_ALWAYS_INLINE 23044601f8d1SRichard Henderson store_helper(CPUArchState *env, target_ulong addr, uint64_t val, 23059002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr, MemOp op) 2306eed56642SAlex Bennée { 2307eed56642SAlex Bennée const size_t tlb_off = offsetof(CPUTLBEntry, addr_write); 2308b826044fSRichard Henderson const unsigned a_bits = get_alignment_bits(get_memop(oi)); 2309b826044fSRichard Henderson const size_t size = memop_size(op); 2310b826044fSRichard Henderson uintptr_t mmu_idx = get_mmuidx(oi); 2311b826044fSRichard Henderson uintptr_t index; 2312b826044fSRichard Henderson CPUTLBEntry *entry; 2313b826044fSRichard Henderson target_ulong tlb_addr; 2314eed56642SAlex Bennée void *haddr; 2315b826044fSRichard Henderson 2316b826044fSRichard Henderson tcg_debug_assert(mmu_idx < NB_MMU_MODES); 2317eed56642SAlex Bennée 2318eed56642SAlex Bennée /* Handle CPU specific unaligned behaviour */ 2319eed56642SAlex Bennée if (addr & ((1 << a_bits) - 1)) { 232029a0af61SRichard Henderson cpu_unaligned_access(env_cpu(env), addr, MMU_DATA_STORE, 2321eed56642SAlex Bennée mmu_idx, retaddr); 2322eed56642SAlex Bennée } 2323eed56642SAlex Bennée 2324b826044fSRichard Henderson index = tlb_index(env, mmu_idx, addr); 2325b826044fSRichard Henderson entry = tlb_entry(env, mmu_idx, addr); 2326b826044fSRichard Henderson tlb_addr = tlb_addr_write(entry); 2327b826044fSRichard Henderson 2328eed56642SAlex Bennée /* If the TLB entry is for a different page, reload and try again. */ 2329eed56642SAlex Bennée if (!tlb_hit(tlb_addr, addr)) { 2330eed56642SAlex Bennée if (!victim_tlb_hit(env, mmu_idx, index, tlb_off, 2331eed56642SAlex Bennée addr & TARGET_PAGE_MASK)) { 233229a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, size, MMU_DATA_STORE, 2333eed56642SAlex Bennée mmu_idx, retaddr); 2334eed56642SAlex Bennée index = tlb_index(env, mmu_idx, addr); 2335eed56642SAlex Bennée entry = tlb_entry(env, mmu_idx, addr); 2336eed56642SAlex Bennée } 2337eed56642SAlex Bennée tlb_addr = tlb_addr_write(entry) & ~TLB_INVALID_MASK; 2338eed56642SAlex Bennée } 2339eed56642SAlex Bennée 234050b107c5SRichard Henderson /* Handle anything that isn't just a straight memory access. */ 2341eed56642SAlex Bennée if (unlikely(tlb_addr & ~TARGET_PAGE_MASK)) { 234225d3ec58SRichard Henderson CPUTLBEntryFull *full; 23435b87b3e6SRichard Henderson bool need_swap; 234450b107c5SRichard Henderson 234550b107c5SRichard Henderson /* For anything that is unaligned, recurse through byte stores. */ 2346eed56642SAlex Bennée if ((addr & (size - 1)) != 0) { 2347eed56642SAlex Bennée goto do_unaligned_access; 2348eed56642SAlex Bennée } 234950b107c5SRichard Henderson 235025d3ec58SRichard Henderson full = &env_tlb(env)->d[mmu_idx].fulltlb[index]; 235150b107c5SRichard Henderson 235250b107c5SRichard Henderson /* Handle watchpoints. */ 235350b107c5SRichard Henderson if (unlikely(tlb_addr & TLB_WATCHPOINT)) { 235450b107c5SRichard Henderson /* On watchpoint hit, this will longjmp out. */ 235550b107c5SRichard Henderson cpu_check_watchpoint(env_cpu(env), addr, size, 235625d3ec58SRichard Henderson full->attrs, BP_MEM_WRITE, retaddr); 23575b87b3e6SRichard Henderson } 235850b107c5SRichard Henderson 23595b87b3e6SRichard Henderson need_swap = size > 1 && (tlb_addr & TLB_BSWAP); 236050b107c5SRichard Henderson 236150b107c5SRichard Henderson /* Handle I/O access. */ 236208565552SRichard Henderson if (tlb_addr & TLB_MMIO) { 236325d3ec58SRichard Henderson io_writex(env, full, mmu_idx, val, addr, retaddr, 23645b87b3e6SRichard Henderson op ^ (need_swap * MO_BSWAP)); 23655b87b3e6SRichard Henderson return; 23665b87b3e6SRichard Henderson } 23675b87b3e6SRichard Henderson 23687b0d792cSRichard Henderson /* Ignore writes to ROM. */ 23697b0d792cSRichard Henderson if (unlikely(tlb_addr & TLB_DISCARD_WRITE)) { 23707b0d792cSRichard Henderson return; 23717b0d792cSRichard Henderson } 23727b0d792cSRichard Henderson 237308565552SRichard Henderson /* Handle clean RAM pages. */ 237408565552SRichard Henderson if (tlb_addr & TLB_NOTDIRTY) { 237525d3ec58SRichard Henderson notdirty_write(env_cpu(env), addr, size, full, retaddr); 237608565552SRichard Henderson } 237708565552SRichard Henderson 2378707526adSRichard Henderson haddr = (void *)((uintptr_t)addr + entry->addend); 237908565552SRichard Henderson 23805b87b3e6SRichard Henderson /* 23815b87b3e6SRichard Henderson * Keep these two store_memop separate to ensure that the compiler 23825b87b3e6SRichard Henderson * is able to fold the entire function to a single instruction. 23835b87b3e6SRichard Henderson * There is a build-time assert inside to remind you of this. ;-) 23845b87b3e6SRichard Henderson */ 23855b87b3e6SRichard Henderson if (unlikely(need_swap)) { 23865b87b3e6SRichard Henderson store_memop(haddr, val, op ^ MO_BSWAP); 23875b87b3e6SRichard Henderson } else { 23885b87b3e6SRichard Henderson store_memop(haddr, val, op); 23895b87b3e6SRichard Henderson } 2390eed56642SAlex Bennée return; 2391eed56642SAlex Bennée } 2392eed56642SAlex Bennée 2393eed56642SAlex Bennée /* Handle slow unaligned access (it spans two pages or IO). */ 2394eed56642SAlex Bennée if (size > 1 2395eed56642SAlex Bennée && unlikely((addr & ~TARGET_PAGE_MASK) + size - 1 2396eed56642SAlex Bennée >= TARGET_PAGE_SIZE)) { 2397eed56642SAlex Bennée do_unaligned_access: 23986b8b622eSRichard Henderson store_helper_unaligned(env, addr, val, retaddr, size, 23996b8b622eSRichard Henderson mmu_idx, memop_big_endian(op)); 2400eed56642SAlex Bennée return; 2401eed56642SAlex Bennée } 2402eed56642SAlex Bennée 2403eed56642SAlex Bennée haddr = (void *)((uintptr_t)addr + entry->addend); 240480d9d1c6SRichard Henderson store_memop(haddr, val, op); 2405eed56642SAlex Bennée } 2406eed56642SAlex Bennée 2407f83bcecbSRichard Henderson static void __attribute__((noinline)) 2408f83bcecbSRichard Henderson full_stb_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 24099002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2410eed56642SAlex Bennée { 2411f83bcecbSRichard Henderson validate_memop(oi, MO_UB); 2412be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_UB); 2413eed56642SAlex Bennée } 2414eed56642SAlex Bennée 2415f83bcecbSRichard Henderson void helper_ret_stb_mmu(CPUArchState *env, target_ulong addr, uint8_t val, 2416f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2417f83bcecbSRichard Henderson { 2418f83bcecbSRichard Henderson full_stb_mmu(env, addr, val, oi, retaddr); 2419f83bcecbSRichard Henderson } 2420f83bcecbSRichard Henderson 2421f83bcecbSRichard Henderson static void full_le_stw_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 2422f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2423f83bcecbSRichard Henderson { 2424f83bcecbSRichard Henderson validate_memop(oi, MO_LEUW); 2425f83bcecbSRichard Henderson store_helper(env, addr, val, oi, retaddr, MO_LEUW); 2426f83bcecbSRichard Henderson } 2427f83bcecbSRichard Henderson 2428fc1bc777SRichard Henderson void helper_le_stw_mmu(CPUArchState *env, target_ulong addr, uint16_t val, 24299002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2430eed56642SAlex Bennée { 2431f83bcecbSRichard Henderson full_le_stw_mmu(env, addr, val, oi, retaddr); 2432f83bcecbSRichard Henderson } 2433f83bcecbSRichard Henderson 2434f83bcecbSRichard Henderson static void full_be_stw_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 2435f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2436f83bcecbSRichard Henderson { 2437f83bcecbSRichard Henderson validate_memop(oi, MO_BEUW); 2438f83bcecbSRichard Henderson store_helper(env, addr, val, oi, retaddr, MO_BEUW); 2439eed56642SAlex Bennée } 2440eed56642SAlex Bennée 2441fc1bc777SRichard Henderson void helper_be_stw_mmu(CPUArchState *env, target_ulong addr, uint16_t val, 24429002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2443eed56642SAlex Bennée { 2444f83bcecbSRichard Henderson full_be_stw_mmu(env, addr, val, oi, retaddr); 2445f83bcecbSRichard Henderson } 2446f83bcecbSRichard Henderson 2447f83bcecbSRichard Henderson static void full_le_stl_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 2448f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2449f83bcecbSRichard Henderson { 2450f83bcecbSRichard Henderson validate_memop(oi, MO_LEUL); 2451f83bcecbSRichard Henderson store_helper(env, addr, val, oi, retaddr, MO_LEUL); 2452eed56642SAlex Bennée } 2453eed56642SAlex Bennée 2454fc1bc777SRichard Henderson void helper_le_stl_mmu(CPUArchState *env, target_ulong addr, uint32_t val, 24559002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2456eed56642SAlex Bennée { 2457f83bcecbSRichard Henderson full_le_stl_mmu(env, addr, val, oi, retaddr); 2458f83bcecbSRichard Henderson } 2459f83bcecbSRichard Henderson 2460f83bcecbSRichard Henderson static void full_be_stl_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 2461f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2462f83bcecbSRichard Henderson { 2463f83bcecbSRichard Henderson validate_memop(oi, MO_BEUL); 2464f83bcecbSRichard Henderson store_helper(env, addr, val, oi, retaddr, MO_BEUL); 2465eed56642SAlex Bennée } 2466eed56642SAlex Bennée 2467fc1bc777SRichard Henderson void helper_be_stl_mmu(CPUArchState *env, target_ulong addr, uint32_t val, 24689002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2469eed56642SAlex Bennée { 2470f83bcecbSRichard Henderson full_be_stl_mmu(env, addr, val, oi, retaddr); 2471eed56642SAlex Bennée } 2472eed56642SAlex Bennée 2473fc1bc777SRichard Henderson void helper_le_stq_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 24749002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2475eed56642SAlex Bennée { 2476fc313c64SFrédéric Pétrot validate_memop(oi, MO_LEUQ); 2477fc313c64SFrédéric Pétrot store_helper(env, addr, val, oi, retaddr, MO_LEUQ); 2478eed56642SAlex Bennée } 2479eed56642SAlex Bennée 2480fc1bc777SRichard Henderson void helper_be_stq_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 24819002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2482eed56642SAlex Bennée { 2483fc313c64SFrédéric Pétrot validate_memop(oi, MO_BEUQ); 2484fc313c64SFrédéric Pétrot store_helper(env, addr, val, oi, retaddr, MO_BEUQ); 2485eed56642SAlex Bennée } 2486d9bb58e5SYang Zhong 2487d03f1408SRichard Henderson /* 2488d03f1408SRichard Henderson * Store Helpers for cpu_ldst.h 2489d03f1408SRichard Henderson */ 2490d03f1408SRichard Henderson 2491f83bcecbSRichard Henderson typedef void FullStoreHelper(CPUArchState *env, target_ulong addr, 2492f83bcecbSRichard Henderson uint64_t val, MemOpIdx oi, uintptr_t retaddr); 2493f83bcecbSRichard Henderson 2494f83bcecbSRichard Henderson static inline void cpu_store_helper(CPUArchState *env, target_ulong addr, 2495f83bcecbSRichard Henderson uint64_t val, MemOpIdx oi, uintptr_t ra, 2496f83bcecbSRichard Henderson FullStoreHelper *full_store) 2497d03f1408SRichard Henderson { 2498f83bcecbSRichard Henderson full_store(env, addr, val, oi, ra); 249937aff087SRichard Henderson qemu_plugin_vcpu_mem_cb(env_cpu(env), addr, oi, QEMU_PLUGIN_MEM_W); 2500d03f1408SRichard Henderson } 2501d03f1408SRichard Henderson 2502f83bcecbSRichard Henderson void cpu_stb_mmu(CPUArchState *env, target_ulong addr, uint8_t val, 2503f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2504d03f1408SRichard Henderson { 2505f83bcecbSRichard Henderson cpu_store_helper(env, addr, val, oi, retaddr, full_stb_mmu); 2506d03f1408SRichard Henderson } 2507d03f1408SRichard Henderson 2508f83bcecbSRichard Henderson void cpu_stw_be_mmu(CPUArchState *env, target_ulong addr, uint16_t val, 2509f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2510d03f1408SRichard Henderson { 2511f83bcecbSRichard Henderson cpu_store_helper(env, addr, val, oi, retaddr, full_be_stw_mmu); 2512d03f1408SRichard Henderson } 2513d03f1408SRichard Henderson 2514f83bcecbSRichard Henderson void cpu_stl_be_mmu(CPUArchState *env, target_ulong addr, uint32_t val, 2515f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2516d03f1408SRichard Henderson { 2517f83bcecbSRichard Henderson cpu_store_helper(env, addr, val, oi, retaddr, full_be_stl_mmu); 2518d03f1408SRichard Henderson } 2519d03f1408SRichard Henderson 2520f83bcecbSRichard Henderson void cpu_stq_be_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 2521f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2522d03f1408SRichard Henderson { 2523f83bcecbSRichard Henderson cpu_store_helper(env, addr, val, oi, retaddr, helper_be_stq_mmu); 2524b9e60257SRichard Henderson } 2525b9e60257SRichard Henderson 2526f83bcecbSRichard Henderson void cpu_stw_le_mmu(CPUArchState *env, target_ulong addr, uint16_t val, 2527f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2528b9e60257SRichard Henderson { 2529f83bcecbSRichard Henderson cpu_store_helper(env, addr, val, oi, retaddr, full_le_stw_mmu); 2530b9e60257SRichard Henderson } 2531b9e60257SRichard Henderson 2532f83bcecbSRichard Henderson void cpu_stl_le_mmu(CPUArchState *env, target_ulong addr, uint32_t val, 2533f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2534b9e60257SRichard Henderson { 2535f83bcecbSRichard Henderson cpu_store_helper(env, addr, val, oi, retaddr, full_le_stl_mmu); 2536b9e60257SRichard Henderson } 2537b9e60257SRichard Henderson 2538f83bcecbSRichard Henderson void cpu_stq_le_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 2539f83bcecbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2540b9e60257SRichard Henderson { 2541f83bcecbSRichard Henderson cpu_store_helper(env, addr, val, oi, retaddr, helper_le_stq_mmu); 2542d03f1408SRichard Henderson } 2543d03f1408SRichard Henderson 2544f83bcecbSRichard Henderson #include "ldst_common.c.inc" 2545cfe04a4bSRichard Henderson 2546be9568b4SRichard Henderson /* 2547be9568b4SRichard Henderson * First set of functions passes in OI and RETADDR. 2548be9568b4SRichard Henderson * This makes them callable from other helpers. 2549be9568b4SRichard Henderson */ 2550d9bb58e5SYang Zhong 2551d9bb58e5SYang Zhong #define ATOMIC_NAME(X) \ 2552be9568b4SRichard Henderson glue(glue(glue(cpu_atomic_ ## X, SUFFIX), END), _mmu) 2553a754f7f3SRichard Henderson 2554707526adSRichard Henderson #define ATOMIC_MMU_CLEANUP 2555d9bb58e5SYang Zhong 2556139c1837SPaolo Bonzini #include "atomic_common.c.inc" 2557d9bb58e5SYang Zhong 2558d9bb58e5SYang Zhong #define DATA_SIZE 1 2559d9bb58e5SYang Zhong #include "atomic_template.h" 2560d9bb58e5SYang Zhong 2561d9bb58e5SYang Zhong #define DATA_SIZE 2 2562d9bb58e5SYang Zhong #include "atomic_template.h" 2563d9bb58e5SYang Zhong 2564d9bb58e5SYang Zhong #define DATA_SIZE 4 2565d9bb58e5SYang Zhong #include "atomic_template.h" 2566d9bb58e5SYang Zhong 2567d9bb58e5SYang Zhong #ifdef CONFIG_ATOMIC64 2568d9bb58e5SYang Zhong #define DATA_SIZE 8 2569d9bb58e5SYang Zhong #include "atomic_template.h" 2570d9bb58e5SYang Zhong #endif 2571d9bb58e5SYang Zhong 2572e6cd4bb5SRichard Henderson #if HAVE_CMPXCHG128 || HAVE_ATOMIC128 2573d9bb58e5SYang Zhong #define DATA_SIZE 16 2574d9bb58e5SYang Zhong #include "atomic_template.h" 2575d9bb58e5SYang Zhong #endif 2576d9bb58e5SYang Zhong 2577d9bb58e5SYang Zhong /* Code access functions. */ 2578d9bb58e5SYang Zhong 2579fc4120a3SRichard Henderson static uint64_t full_ldub_code(CPUArchState *env, target_ulong addr, 25809002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 25812dd92606SRichard Henderson { 2582fc4120a3SRichard Henderson return load_helper(env, addr, oi, retaddr, MO_8, true, full_ldub_code); 25832dd92606SRichard Henderson } 25842dd92606SRichard Henderson 2585fc4120a3SRichard Henderson uint32_t cpu_ldub_code(CPUArchState *env, abi_ptr addr) 2586eed56642SAlex Bennée { 25879002ffcbSRichard Henderson MemOpIdx oi = make_memop_idx(MO_UB, cpu_mmu_index(env, true)); 2588fc4120a3SRichard Henderson return full_ldub_code(env, addr, oi, 0); 25892dd92606SRichard Henderson } 25902dd92606SRichard Henderson 2591fc4120a3SRichard Henderson static uint64_t full_lduw_code(CPUArchState *env, target_ulong addr, 25929002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 25934cef72d0SAlex Bennée { 2594fc4120a3SRichard Henderson return load_helper(env, addr, oi, retaddr, MO_TEUW, true, full_lduw_code); 25954cef72d0SAlex Bennée } 25964cef72d0SAlex Bennée 2597fc4120a3SRichard Henderson uint32_t cpu_lduw_code(CPUArchState *env, abi_ptr addr) 25982dd92606SRichard Henderson { 25999002ffcbSRichard Henderson MemOpIdx oi = make_memop_idx(MO_TEUW, cpu_mmu_index(env, true)); 2600fc4120a3SRichard Henderson return full_lduw_code(env, addr, oi, 0); 2601eed56642SAlex Bennée } 2602d9bb58e5SYang Zhong 2603fc4120a3SRichard Henderson static uint64_t full_ldl_code(CPUArchState *env, target_ulong addr, 26049002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 2605eed56642SAlex Bennée { 2606fc4120a3SRichard Henderson return load_helper(env, addr, oi, retaddr, MO_TEUL, true, full_ldl_code); 26072dd92606SRichard Henderson } 26082dd92606SRichard Henderson 2609fc4120a3SRichard Henderson uint32_t cpu_ldl_code(CPUArchState *env, abi_ptr addr) 26104cef72d0SAlex Bennée { 26119002ffcbSRichard Henderson MemOpIdx oi = make_memop_idx(MO_TEUL, cpu_mmu_index(env, true)); 2612fc4120a3SRichard Henderson return full_ldl_code(env, addr, oi, 0); 26134cef72d0SAlex Bennée } 26144cef72d0SAlex Bennée 2615fc4120a3SRichard Henderson static uint64_t full_ldq_code(CPUArchState *env, target_ulong addr, 26169002ffcbSRichard Henderson MemOpIdx oi, uintptr_t retaddr) 26172dd92606SRichard Henderson { 2618fc313c64SFrédéric Pétrot return load_helper(env, addr, oi, retaddr, MO_TEUQ, true, full_ldq_code); 2619eed56642SAlex Bennée } 2620d9bb58e5SYang Zhong 2621fc4120a3SRichard Henderson uint64_t cpu_ldq_code(CPUArchState *env, abi_ptr addr) 2622eed56642SAlex Bennée { 2623fc313c64SFrédéric Pétrot MemOpIdx oi = make_memop_idx(MO_TEUQ, cpu_mmu_index(env, true)); 2624fc4120a3SRichard Henderson return full_ldq_code(env, addr, oi, 0); 2625eed56642SAlex Bennée } 2626