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" 22d9bb58e5SYang Zhong #include "cpu.h" 23d9bb58e5SYang Zhong #include "exec/exec-all.h" 24d9bb58e5SYang Zhong #include "exec/memory.h" 25d9bb58e5SYang Zhong #include "exec/address-spaces.h" 26d9bb58e5SYang Zhong #include "exec/cpu_ldst.h" 27d9bb58e5SYang Zhong #include "exec/cputlb.h" 28d9bb58e5SYang Zhong #include "exec/memory-internal.h" 29d9bb58e5SYang Zhong #include "exec/ram_addr.h" 30d9bb58e5SYang Zhong #include "tcg/tcg.h" 31d9bb58e5SYang Zhong #include "qemu/error-report.h" 32d9bb58e5SYang Zhong #include "exec/log.h" 33d9bb58e5SYang Zhong #include "exec/helper-proto.h" 34d9bb58e5SYang Zhong #include "qemu/atomic.h" 35e6cd4bb5SRichard Henderson #include "qemu/atomic128.h" 36d9bb58e5SYang Zhong 37d9bb58e5SYang Zhong /* DEBUG defines, enable DEBUG_TLB_LOG to log to the CPU_LOG_MMU target */ 38d9bb58e5SYang Zhong /* #define DEBUG_TLB */ 39d9bb58e5SYang Zhong /* #define DEBUG_TLB_LOG */ 40d9bb58e5SYang Zhong 41d9bb58e5SYang Zhong #ifdef DEBUG_TLB 42d9bb58e5SYang Zhong # define DEBUG_TLB_GATE 1 43d9bb58e5SYang Zhong # ifdef DEBUG_TLB_LOG 44d9bb58e5SYang Zhong # define DEBUG_TLB_LOG_GATE 1 45d9bb58e5SYang Zhong # else 46d9bb58e5SYang Zhong # define DEBUG_TLB_LOG_GATE 0 47d9bb58e5SYang Zhong # endif 48d9bb58e5SYang Zhong #else 49d9bb58e5SYang Zhong # define DEBUG_TLB_GATE 0 50d9bb58e5SYang Zhong # define DEBUG_TLB_LOG_GATE 0 51d9bb58e5SYang Zhong #endif 52d9bb58e5SYang Zhong 53d9bb58e5SYang Zhong #define tlb_debug(fmt, ...) do { \ 54d9bb58e5SYang Zhong if (DEBUG_TLB_LOG_GATE) { \ 55d9bb58e5SYang Zhong qemu_log_mask(CPU_LOG_MMU, "%s: " fmt, __func__, \ 56d9bb58e5SYang Zhong ## __VA_ARGS__); \ 57d9bb58e5SYang Zhong } else if (DEBUG_TLB_GATE) { \ 58d9bb58e5SYang Zhong fprintf(stderr, "%s: " fmt, __func__, ## __VA_ARGS__); \ 59d9bb58e5SYang Zhong } \ 60d9bb58e5SYang Zhong } while (0) 61d9bb58e5SYang Zhong 62ea9025cbSEmilio G. Cota #define assert_cpu_is_self(cpu) do { \ 63d9bb58e5SYang Zhong if (DEBUG_TLB_GATE) { \ 64ea9025cbSEmilio G. Cota g_assert(!(cpu)->created || qemu_cpu_is_self(cpu)); \ 65d9bb58e5SYang Zhong } \ 66d9bb58e5SYang Zhong } while (0) 67d9bb58e5SYang Zhong 68d9bb58e5SYang Zhong /* run_on_cpu_data.target_ptr should always be big enough for a 69d9bb58e5SYang Zhong * target_ulong even on 32 bit builds */ 70d9bb58e5SYang Zhong QEMU_BUILD_BUG_ON(sizeof(target_ulong) > sizeof(run_on_cpu_data)); 71d9bb58e5SYang Zhong 72d9bb58e5SYang Zhong /* We currently can't handle more than 16 bits in the MMUIDX bitmask. 73d9bb58e5SYang Zhong */ 74d9bb58e5SYang Zhong QEMU_BUILD_BUG_ON(NB_MMU_MODES > 16); 75d9bb58e5SYang Zhong #define ALL_MMUIDX_BITS ((1 << NB_MMU_MODES) - 1) 76d9bb58e5SYang Zhong 7786e1eff8SEmilio G. Cota static inline size_t sizeof_tlb(CPUArchState *env, uintptr_t mmu_idx) 7886e1eff8SEmilio G. Cota { 79a40ec84eSRichard Henderson return env_tlb(env)->f[mmu_idx].mask + (1 << CPU_TLB_ENTRY_BITS); 8086e1eff8SEmilio G. Cota } 8186e1eff8SEmilio G. Cota 8279e42085SRichard Henderson static void tlb_window_reset(CPUTLBDesc *desc, int64_t ns, 8386e1eff8SEmilio G. Cota size_t max_entries) 8486e1eff8SEmilio G. Cota { 8579e42085SRichard Henderson desc->window_begin_ns = ns; 8679e42085SRichard Henderson desc->window_max_entries = max_entries; 8786e1eff8SEmilio G. Cota } 8886e1eff8SEmilio G. Cota 8986e1eff8SEmilio G. Cota static void tlb_dyn_init(CPUArchState *env) 9086e1eff8SEmilio G. Cota { 9186e1eff8SEmilio G. Cota int i; 9286e1eff8SEmilio G. Cota 9386e1eff8SEmilio G. Cota for (i = 0; i < NB_MMU_MODES; i++) { 94a40ec84eSRichard Henderson CPUTLBDesc *desc = &env_tlb(env)->d[i]; 9586e1eff8SEmilio G. Cota size_t n_entries = 1 << CPU_TLB_DYN_DEFAULT_BITS; 9686e1eff8SEmilio G. Cota 9779e42085SRichard Henderson tlb_window_reset(desc, get_clock_realtime(), 0); 9886e1eff8SEmilio G. Cota desc->n_used_entries = 0; 99a40ec84eSRichard Henderson env_tlb(env)->f[i].mask = (n_entries - 1) << CPU_TLB_ENTRY_BITS; 100a40ec84eSRichard Henderson env_tlb(env)->f[i].table = g_new(CPUTLBEntry, n_entries); 101a40ec84eSRichard Henderson env_tlb(env)->d[i].iotlb = g_new(CPUIOTLBEntry, n_entries); 10286e1eff8SEmilio G. Cota } 10386e1eff8SEmilio G. Cota } 10486e1eff8SEmilio G. Cota 10586e1eff8SEmilio G. Cota /** 10686e1eff8SEmilio G. Cota * tlb_mmu_resize_locked() - perform TLB resize bookkeeping; resize if necessary 10786e1eff8SEmilio G. Cota * @env: CPU that owns the TLB 10886e1eff8SEmilio G. Cota * @mmu_idx: MMU index of the TLB 10986e1eff8SEmilio G. Cota * 11086e1eff8SEmilio G. Cota * Called with tlb_lock_held. 11186e1eff8SEmilio G. Cota * 11286e1eff8SEmilio G. Cota * We have two main constraints when resizing a TLB: (1) we only resize it 11386e1eff8SEmilio G. Cota * on a TLB flush (otherwise we'd have to take a perf hit by either rehashing 11486e1eff8SEmilio G. Cota * the array or unnecessarily flushing it), which means we do not control how 11586e1eff8SEmilio G. Cota * frequently the resizing can occur; (2) we don't have access to the guest's 11686e1eff8SEmilio G. Cota * future scheduling decisions, and therefore have to decide the magnitude of 11786e1eff8SEmilio G. Cota * the resize based on past observations. 11886e1eff8SEmilio G. Cota * 11986e1eff8SEmilio G. Cota * In general, a memory-hungry process can benefit greatly from an appropriately 12086e1eff8SEmilio G. Cota * sized TLB, since a guest TLB miss is very expensive. This doesn't mean that 12186e1eff8SEmilio G. Cota * we just have to make the TLB as large as possible; while an oversized TLB 12286e1eff8SEmilio G. Cota * results in minimal TLB miss rates, it also takes longer to be flushed 12386e1eff8SEmilio G. Cota * (flushes can be _very_ frequent), and the reduced locality can also hurt 12486e1eff8SEmilio G. Cota * performance. 12586e1eff8SEmilio G. Cota * 12686e1eff8SEmilio G. Cota * To achieve near-optimal performance for all kinds of workloads, we: 12786e1eff8SEmilio G. Cota * 12886e1eff8SEmilio G. Cota * 1. Aggressively increase the size of the TLB when the use rate of the 12986e1eff8SEmilio G. Cota * TLB being flushed is high, since it is likely that in the near future this 13086e1eff8SEmilio G. Cota * memory-hungry process will execute again, and its memory hungriness will 13186e1eff8SEmilio G. Cota * probably be similar. 13286e1eff8SEmilio G. Cota * 13386e1eff8SEmilio G. Cota * 2. Slowly reduce the size of the TLB as the use rate declines over a 13486e1eff8SEmilio G. Cota * reasonably large time window. The rationale is that if in such a time window 13586e1eff8SEmilio G. Cota * we have not observed a high TLB use rate, it is likely that we won't observe 13686e1eff8SEmilio G. Cota * it in the near future. In that case, once a time window expires we downsize 13786e1eff8SEmilio G. Cota * the TLB to match the maximum use rate observed in the window. 13886e1eff8SEmilio G. Cota * 13986e1eff8SEmilio G. Cota * 3. Try to keep the maximum use rate in a time window in the 30-70% range, 14086e1eff8SEmilio G. Cota * since in that range performance is likely near-optimal. Recall that the TLB 14186e1eff8SEmilio G. Cota * is direct mapped, so we want the use rate to be low (or at least not too 14286e1eff8SEmilio G. Cota * high), since otherwise we are likely to have a significant amount of 14386e1eff8SEmilio G. Cota * conflict misses. 14486e1eff8SEmilio G. Cota */ 14586e1eff8SEmilio G. Cota static void tlb_mmu_resize_locked(CPUArchState *env, int mmu_idx) 14686e1eff8SEmilio G. Cota { 147a40ec84eSRichard Henderson CPUTLBDesc *desc = &env_tlb(env)->d[mmu_idx]; 14886e1eff8SEmilio G. Cota size_t old_size = tlb_n_entries(env, mmu_idx); 14986e1eff8SEmilio G. Cota size_t rate; 15086e1eff8SEmilio G. Cota size_t new_size = old_size; 15186e1eff8SEmilio G. Cota int64_t now = get_clock_realtime(); 15286e1eff8SEmilio G. Cota int64_t window_len_ms = 100; 15386e1eff8SEmilio G. Cota int64_t window_len_ns = window_len_ms * 1000 * 1000; 15479e42085SRichard Henderson bool window_expired = now > desc->window_begin_ns + window_len_ns; 15586e1eff8SEmilio G. Cota 15679e42085SRichard Henderson if (desc->n_used_entries > desc->window_max_entries) { 15779e42085SRichard Henderson desc->window_max_entries = desc->n_used_entries; 15886e1eff8SEmilio G. Cota } 15979e42085SRichard Henderson rate = desc->window_max_entries * 100 / old_size; 16086e1eff8SEmilio G. Cota 16186e1eff8SEmilio G. Cota if (rate > 70) { 16286e1eff8SEmilio G. Cota new_size = MIN(old_size << 1, 1 << CPU_TLB_DYN_MAX_BITS); 16386e1eff8SEmilio G. Cota } else if (rate < 30 && window_expired) { 16479e42085SRichard Henderson size_t ceil = pow2ceil(desc->window_max_entries); 16579e42085SRichard Henderson size_t expected_rate = desc->window_max_entries * 100 / ceil; 16686e1eff8SEmilio G. Cota 16786e1eff8SEmilio G. Cota /* 16886e1eff8SEmilio G. Cota * Avoid undersizing when the max number of entries seen is just below 16986e1eff8SEmilio G. Cota * a pow2. For instance, if max_entries == 1025, the expected use rate 17086e1eff8SEmilio G. Cota * would be 1025/2048==50%. However, if max_entries == 1023, we'd get 17186e1eff8SEmilio G. Cota * 1023/1024==99.9% use rate, so we'd likely end up doubling the size 17286e1eff8SEmilio G. Cota * later. Thus, make sure that the expected use rate remains below 70%. 17386e1eff8SEmilio G. Cota * (and since we double the size, that means the lowest rate we'd 17486e1eff8SEmilio G. Cota * expect to get is 35%, which is still in the 30-70% range where 17586e1eff8SEmilio G. Cota * we consider that the size is appropriate.) 17686e1eff8SEmilio G. Cota */ 17786e1eff8SEmilio G. Cota if (expected_rate > 70) { 17886e1eff8SEmilio G. Cota ceil *= 2; 17986e1eff8SEmilio G. Cota } 18086e1eff8SEmilio G. Cota new_size = MAX(ceil, 1 << CPU_TLB_DYN_MIN_BITS); 18186e1eff8SEmilio G. Cota } 18286e1eff8SEmilio G. Cota 18386e1eff8SEmilio G. Cota if (new_size == old_size) { 18486e1eff8SEmilio G. Cota if (window_expired) { 18579e42085SRichard Henderson tlb_window_reset(desc, now, desc->n_used_entries); 18686e1eff8SEmilio G. Cota } 18786e1eff8SEmilio G. Cota return; 18886e1eff8SEmilio G. Cota } 18986e1eff8SEmilio G. Cota 190a40ec84eSRichard Henderson g_free(env_tlb(env)->f[mmu_idx].table); 191a40ec84eSRichard Henderson g_free(env_tlb(env)->d[mmu_idx].iotlb); 19286e1eff8SEmilio G. Cota 19379e42085SRichard Henderson tlb_window_reset(desc, now, 0); 19486e1eff8SEmilio G. Cota /* desc->n_used_entries is cleared by the caller */ 195a40ec84eSRichard Henderson env_tlb(env)->f[mmu_idx].mask = (new_size - 1) << CPU_TLB_ENTRY_BITS; 196a40ec84eSRichard Henderson env_tlb(env)->f[mmu_idx].table = g_try_new(CPUTLBEntry, new_size); 197a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].iotlb = g_try_new(CPUIOTLBEntry, new_size); 19886e1eff8SEmilio G. Cota /* 19986e1eff8SEmilio G. Cota * If the allocations fail, try smaller sizes. We just freed some 20086e1eff8SEmilio G. Cota * memory, so going back to half of new_size has a good chance of working. 20186e1eff8SEmilio G. Cota * Increased memory pressure elsewhere in the system might cause the 20286e1eff8SEmilio G. Cota * allocations to fail though, so we progressively reduce the allocation 20386e1eff8SEmilio G. Cota * size, aborting if we cannot even allocate the smallest TLB we support. 20486e1eff8SEmilio G. Cota */ 205a40ec84eSRichard Henderson while (env_tlb(env)->f[mmu_idx].table == NULL || 206a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].iotlb == NULL) { 20786e1eff8SEmilio G. Cota if (new_size == (1 << CPU_TLB_DYN_MIN_BITS)) { 20886e1eff8SEmilio G. Cota error_report("%s: %s", __func__, strerror(errno)); 20986e1eff8SEmilio G. Cota abort(); 21086e1eff8SEmilio G. Cota } 21186e1eff8SEmilio G. Cota new_size = MAX(new_size >> 1, 1 << CPU_TLB_DYN_MIN_BITS); 212a40ec84eSRichard Henderson env_tlb(env)->f[mmu_idx].mask = (new_size - 1) << CPU_TLB_ENTRY_BITS; 21386e1eff8SEmilio G. Cota 214a40ec84eSRichard Henderson g_free(env_tlb(env)->f[mmu_idx].table); 215a40ec84eSRichard Henderson g_free(env_tlb(env)->d[mmu_idx].iotlb); 216a40ec84eSRichard Henderson env_tlb(env)->f[mmu_idx].table = g_try_new(CPUTLBEntry, new_size); 217a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].iotlb = g_try_new(CPUIOTLBEntry, new_size); 21886e1eff8SEmilio G. Cota } 21986e1eff8SEmilio G. Cota } 22086e1eff8SEmilio G. Cota 22186e1eff8SEmilio G. Cota static inline void tlb_table_flush_by_mmuidx(CPUArchState *env, int mmu_idx) 22286e1eff8SEmilio G. Cota { 22386e1eff8SEmilio G. Cota tlb_mmu_resize_locked(env, mmu_idx); 224a40ec84eSRichard Henderson memset(env_tlb(env)->f[mmu_idx].table, -1, sizeof_tlb(env, mmu_idx)); 225a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].n_used_entries = 0; 22686e1eff8SEmilio G. Cota } 22786e1eff8SEmilio G. Cota 22886e1eff8SEmilio G. Cota static inline void tlb_n_used_entries_inc(CPUArchState *env, uintptr_t mmu_idx) 22986e1eff8SEmilio G. Cota { 230a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].n_used_entries++; 23186e1eff8SEmilio G. Cota } 23286e1eff8SEmilio G. Cota 23386e1eff8SEmilio G. Cota static inline void tlb_n_used_entries_dec(CPUArchState *env, uintptr_t mmu_idx) 23486e1eff8SEmilio G. Cota { 235a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].n_used_entries--; 23686e1eff8SEmilio G. Cota } 23786e1eff8SEmilio G. Cota 2385005e253SEmilio G. Cota void tlb_init(CPUState *cpu) 2395005e253SEmilio G. Cota { 24071aec354SEmilio G. Cota CPUArchState *env = cpu->env_ptr; 24171aec354SEmilio G. Cota 242a40ec84eSRichard Henderson qemu_spin_init(&env_tlb(env)->c.lock); 2433d1523ceSRichard Henderson 2443d1523ceSRichard Henderson /* Ensure that cpu_reset performs a full flush. */ 245a40ec84eSRichard Henderson env_tlb(env)->c.dirty = ALL_MMUIDX_BITS; 24686e1eff8SEmilio G. Cota 24786e1eff8SEmilio G. Cota tlb_dyn_init(env); 2485005e253SEmilio G. Cota } 2495005e253SEmilio G. Cota 250d9bb58e5SYang Zhong /* flush_all_helper: run fn across all cpus 251d9bb58e5SYang Zhong * 252d9bb58e5SYang Zhong * If the wait flag is set then the src cpu's helper will be queued as 253d9bb58e5SYang Zhong * "safe" work and the loop exited creating a synchronisation point 254d9bb58e5SYang Zhong * where all queued work will be finished before execution starts 255d9bb58e5SYang Zhong * again. 256d9bb58e5SYang Zhong */ 257d9bb58e5SYang Zhong static void flush_all_helper(CPUState *src, run_on_cpu_func fn, 258d9bb58e5SYang Zhong run_on_cpu_data d) 259d9bb58e5SYang Zhong { 260d9bb58e5SYang Zhong CPUState *cpu; 261d9bb58e5SYang Zhong 262d9bb58e5SYang Zhong CPU_FOREACH(cpu) { 263d9bb58e5SYang Zhong if (cpu != src) { 264d9bb58e5SYang Zhong async_run_on_cpu(cpu, fn, d); 265d9bb58e5SYang Zhong } 266d9bb58e5SYang Zhong } 267d9bb58e5SYang Zhong } 268d9bb58e5SYang Zhong 269e09de0a2SRichard Henderson void tlb_flush_counts(size_t *pfull, size_t *ppart, size_t *pelide) 27083974cf4SEmilio G. Cota { 27183974cf4SEmilio G. Cota CPUState *cpu; 272e09de0a2SRichard Henderson size_t full = 0, part = 0, elide = 0; 27383974cf4SEmilio G. Cota 27483974cf4SEmilio G. Cota CPU_FOREACH(cpu) { 27583974cf4SEmilio G. Cota CPUArchState *env = cpu->env_ptr; 27683974cf4SEmilio G. Cota 277a40ec84eSRichard Henderson full += atomic_read(&env_tlb(env)->c.full_flush_count); 278a40ec84eSRichard Henderson part += atomic_read(&env_tlb(env)->c.part_flush_count); 279a40ec84eSRichard Henderson elide += atomic_read(&env_tlb(env)->c.elide_flush_count); 28083974cf4SEmilio G. Cota } 281e09de0a2SRichard Henderson *pfull = full; 282e09de0a2SRichard Henderson *ppart = part; 283e09de0a2SRichard Henderson *pelide = elide; 28483974cf4SEmilio G. Cota } 285d9bb58e5SYang Zhong 2861308e026SRichard Henderson static void tlb_flush_one_mmuidx_locked(CPUArchState *env, int mmu_idx) 2871308e026SRichard Henderson { 28886e1eff8SEmilio G. Cota tlb_table_flush_by_mmuidx(env, mmu_idx); 289a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].large_page_addr = -1; 290a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].large_page_mask = -1; 291a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].vindex = 0; 292a40ec84eSRichard Henderson memset(env_tlb(env)->d[mmu_idx].vtable, -1, 293a40ec84eSRichard Henderson sizeof(env_tlb(env)->d[0].vtable)); 2941308e026SRichard Henderson } 2951308e026SRichard Henderson 296d9bb58e5SYang Zhong static void tlb_flush_by_mmuidx_async_work(CPUState *cpu, run_on_cpu_data data) 297d9bb58e5SYang Zhong { 298d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 2993d1523ceSRichard Henderson uint16_t asked = data.host_int; 3003d1523ceSRichard Henderson uint16_t all_dirty, work, to_clean; 301d9bb58e5SYang Zhong 302d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 303d9bb58e5SYang Zhong 3043d1523ceSRichard Henderson tlb_debug("mmu_idx:0x%04" PRIx16 "\n", asked); 305d9bb58e5SYang Zhong 306a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 30760a2ad7dSRichard Henderson 308a40ec84eSRichard Henderson all_dirty = env_tlb(env)->c.dirty; 3093d1523ceSRichard Henderson to_clean = asked & all_dirty; 3103d1523ceSRichard Henderson all_dirty &= ~to_clean; 311a40ec84eSRichard Henderson env_tlb(env)->c.dirty = all_dirty; 3123d1523ceSRichard Henderson 3133d1523ceSRichard Henderson for (work = to_clean; work != 0; work &= work - 1) { 3143d1523ceSRichard Henderson int mmu_idx = ctz32(work); 3151308e026SRichard Henderson tlb_flush_one_mmuidx_locked(env, mmu_idx); 316d9bb58e5SYang Zhong } 3173d1523ceSRichard Henderson 318a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 319d9bb58e5SYang Zhong 320f3ced3c5SEmilio G. Cota cpu_tb_jmp_cache_clear(cpu); 32164f2674bSRichard Henderson 3223d1523ceSRichard Henderson if (to_clean == ALL_MMUIDX_BITS) { 323a40ec84eSRichard Henderson atomic_set(&env_tlb(env)->c.full_flush_count, 324a40ec84eSRichard Henderson env_tlb(env)->c.full_flush_count + 1); 325e09de0a2SRichard Henderson } else { 326a40ec84eSRichard Henderson atomic_set(&env_tlb(env)->c.part_flush_count, 327a40ec84eSRichard Henderson env_tlb(env)->c.part_flush_count + ctpop16(to_clean)); 3283d1523ceSRichard Henderson if (to_clean != asked) { 329a40ec84eSRichard Henderson atomic_set(&env_tlb(env)->c.elide_flush_count, 330a40ec84eSRichard Henderson env_tlb(env)->c.elide_flush_count + 3313d1523ceSRichard Henderson ctpop16(asked & ~to_clean)); 3323d1523ceSRichard Henderson } 33364f2674bSRichard Henderson } 334d9bb58e5SYang Zhong } 335d9bb58e5SYang Zhong 336d9bb58e5SYang Zhong void tlb_flush_by_mmuidx(CPUState *cpu, uint16_t idxmap) 337d9bb58e5SYang Zhong { 338d9bb58e5SYang Zhong tlb_debug("mmu_idx: 0x%" PRIx16 "\n", idxmap); 339d9bb58e5SYang Zhong 34064f2674bSRichard Henderson if (cpu->created && !qemu_cpu_is_self(cpu)) { 341d9bb58e5SYang Zhong async_run_on_cpu(cpu, tlb_flush_by_mmuidx_async_work, 342ab651105SRichard Henderson RUN_ON_CPU_HOST_INT(idxmap)); 343d9bb58e5SYang Zhong } else { 34460a2ad7dSRichard Henderson tlb_flush_by_mmuidx_async_work(cpu, RUN_ON_CPU_HOST_INT(idxmap)); 345d9bb58e5SYang Zhong } 346d9bb58e5SYang Zhong } 347d9bb58e5SYang Zhong 34864f2674bSRichard Henderson void tlb_flush(CPUState *cpu) 34964f2674bSRichard Henderson { 35064f2674bSRichard Henderson tlb_flush_by_mmuidx(cpu, ALL_MMUIDX_BITS); 35164f2674bSRichard Henderson } 35264f2674bSRichard Henderson 353d9bb58e5SYang Zhong void tlb_flush_by_mmuidx_all_cpus(CPUState *src_cpu, uint16_t idxmap) 354d9bb58e5SYang Zhong { 355d9bb58e5SYang Zhong const run_on_cpu_func fn = tlb_flush_by_mmuidx_async_work; 356d9bb58e5SYang Zhong 357d9bb58e5SYang Zhong tlb_debug("mmu_idx: 0x%"PRIx16"\n", idxmap); 358d9bb58e5SYang Zhong 359d9bb58e5SYang Zhong flush_all_helper(src_cpu, fn, RUN_ON_CPU_HOST_INT(idxmap)); 360d9bb58e5SYang Zhong fn(src_cpu, RUN_ON_CPU_HOST_INT(idxmap)); 361d9bb58e5SYang Zhong } 362d9bb58e5SYang Zhong 36364f2674bSRichard Henderson void tlb_flush_all_cpus(CPUState *src_cpu) 36464f2674bSRichard Henderson { 36564f2674bSRichard Henderson tlb_flush_by_mmuidx_all_cpus(src_cpu, ALL_MMUIDX_BITS); 36664f2674bSRichard Henderson } 36764f2674bSRichard Henderson 36864f2674bSRichard Henderson void tlb_flush_by_mmuidx_all_cpus_synced(CPUState *src_cpu, uint16_t idxmap) 369d9bb58e5SYang Zhong { 370d9bb58e5SYang Zhong const run_on_cpu_func fn = tlb_flush_by_mmuidx_async_work; 371d9bb58e5SYang Zhong 372d9bb58e5SYang Zhong tlb_debug("mmu_idx: 0x%"PRIx16"\n", idxmap); 373d9bb58e5SYang Zhong 374d9bb58e5SYang Zhong flush_all_helper(src_cpu, fn, RUN_ON_CPU_HOST_INT(idxmap)); 375d9bb58e5SYang Zhong async_safe_run_on_cpu(src_cpu, fn, RUN_ON_CPU_HOST_INT(idxmap)); 376d9bb58e5SYang Zhong } 377d9bb58e5SYang Zhong 37864f2674bSRichard Henderson void tlb_flush_all_cpus_synced(CPUState *src_cpu) 37964f2674bSRichard Henderson { 38064f2674bSRichard Henderson tlb_flush_by_mmuidx_all_cpus_synced(src_cpu, ALL_MMUIDX_BITS); 38164f2674bSRichard Henderson } 38264f2674bSRichard Henderson 38368fea038SRichard Henderson static inline bool tlb_hit_page_anyprot(CPUTLBEntry *tlb_entry, 38468fea038SRichard Henderson target_ulong page) 385d9bb58e5SYang Zhong { 38668fea038SRichard Henderson return tlb_hit_page(tlb_entry->addr_read, page) || 387403f290cSEmilio G. Cota tlb_hit_page(tlb_addr_write(tlb_entry), page) || 38868fea038SRichard Henderson tlb_hit_page(tlb_entry->addr_code, page); 38968fea038SRichard Henderson } 39068fea038SRichard Henderson 3913cea94bbSEmilio G. Cota /** 3923cea94bbSEmilio G. Cota * tlb_entry_is_empty - return true if the entry is not in use 3933cea94bbSEmilio G. Cota * @te: pointer to CPUTLBEntry 3943cea94bbSEmilio G. Cota */ 3953cea94bbSEmilio G. Cota static inline bool tlb_entry_is_empty(const CPUTLBEntry *te) 3963cea94bbSEmilio G. Cota { 3973cea94bbSEmilio G. Cota return te->addr_read == -1 && te->addr_write == -1 && te->addr_code == -1; 3983cea94bbSEmilio G. Cota } 3993cea94bbSEmilio G. Cota 40053d28455SRichard Henderson /* Called with tlb_c.lock held */ 40186e1eff8SEmilio G. Cota static inline bool tlb_flush_entry_locked(CPUTLBEntry *tlb_entry, 40271aec354SEmilio G. Cota target_ulong page) 40368fea038SRichard Henderson { 40468fea038SRichard Henderson if (tlb_hit_page_anyprot(tlb_entry, page)) { 405d9bb58e5SYang Zhong memset(tlb_entry, -1, sizeof(*tlb_entry)); 40686e1eff8SEmilio G. Cota return true; 407d9bb58e5SYang Zhong } 40886e1eff8SEmilio G. Cota return false; 409d9bb58e5SYang Zhong } 410d9bb58e5SYang Zhong 41153d28455SRichard Henderson /* Called with tlb_c.lock held */ 41271aec354SEmilio G. Cota static inline void tlb_flush_vtlb_page_locked(CPUArchState *env, int mmu_idx, 41368fea038SRichard Henderson target_ulong page) 41468fea038SRichard Henderson { 415a40ec84eSRichard Henderson CPUTLBDesc *d = &env_tlb(env)->d[mmu_idx]; 41668fea038SRichard Henderson int k; 41771aec354SEmilio G. Cota 41829a0af61SRichard Henderson assert_cpu_is_self(env_cpu(env)); 41968fea038SRichard Henderson for (k = 0; k < CPU_VTLB_SIZE; k++) { 420a40ec84eSRichard Henderson if (tlb_flush_entry_locked(&d->vtable[k], page)) { 42186e1eff8SEmilio G. Cota tlb_n_used_entries_dec(env, mmu_idx); 42286e1eff8SEmilio G. Cota } 42368fea038SRichard Henderson } 42468fea038SRichard Henderson } 42568fea038SRichard Henderson 4261308e026SRichard Henderson static void tlb_flush_page_locked(CPUArchState *env, int midx, 4271308e026SRichard Henderson target_ulong page) 4281308e026SRichard Henderson { 429a40ec84eSRichard Henderson target_ulong lp_addr = env_tlb(env)->d[midx].large_page_addr; 430a40ec84eSRichard Henderson target_ulong lp_mask = env_tlb(env)->d[midx].large_page_mask; 4311308e026SRichard Henderson 4321308e026SRichard Henderson /* Check if we need to flush due to large pages. */ 4331308e026SRichard Henderson if ((page & lp_mask) == lp_addr) { 4341308e026SRichard Henderson tlb_debug("forcing full flush midx %d (" 4351308e026SRichard Henderson TARGET_FMT_lx "/" TARGET_FMT_lx ")\n", 4361308e026SRichard Henderson midx, lp_addr, lp_mask); 4371308e026SRichard Henderson tlb_flush_one_mmuidx_locked(env, midx); 4381308e026SRichard Henderson } else { 43986e1eff8SEmilio G. Cota if (tlb_flush_entry_locked(tlb_entry(env, midx, page), page)) { 44086e1eff8SEmilio G. Cota tlb_n_used_entries_dec(env, midx); 44186e1eff8SEmilio G. Cota } 4421308e026SRichard Henderson tlb_flush_vtlb_page_locked(env, midx, page); 4431308e026SRichard Henderson } 4441308e026SRichard Henderson } 4451308e026SRichard Henderson 446d9bb58e5SYang Zhong /* As we are going to hijack the bottom bits of the page address for a 447d9bb58e5SYang Zhong * mmuidx bit mask we need to fail to build if we can't do that 448d9bb58e5SYang Zhong */ 449d9bb58e5SYang Zhong QEMU_BUILD_BUG_ON(NB_MMU_MODES > TARGET_PAGE_BITS_MIN); 450d9bb58e5SYang Zhong 451d9bb58e5SYang Zhong static void tlb_flush_page_by_mmuidx_async_work(CPUState *cpu, 452d9bb58e5SYang Zhong run_on_cpu_data data) 453d9bb58e5SYang Zhong { 454d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 455d9bb58e5SYang Zhong target_ulong addr_and_mmuidx = (target_ulong) data.target_ptr; 456d9bb58e5SYang Zhong target_ulong addr = addr_and_mmuidx & TARGET_PAGE_MASK; 457d9bb58e5SYang Zhong unsigned long mmu_idx_bitmap = addr_and_mmuidx & ALL_MMUIDX_BITS; 458d9bb58e5SYang Zhong int mmu_idx; 459d9bb58e5SYang Zhong 460d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 461d9bb58e5SYang Zhong 4621308e026SRichard Henderson tlb_debug("page addr:" TARGET_FMT_lx " mmu_map:0x%lx\n", 463383beda9SRichard Henderson addr, mmu_idx_bitmap); 464d9bb58e5SYang Zhong 465a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 466d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 467d9bb58e5SYang Zhong if (test_bit(mmu_idx, &mmu_idx_bitmap)) { 4681308e026SRichard Henderson tlb_flush_page_locked(env, mmu_idx, addr); 469d9bb58e5SYang Zhong } 470d9bb58e5SYang Zhong } 471a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 472d9bb58e5SYang Zhong 473d9bb58e5SYang Zhong tb_flush_jmp_cache(cpu, addr); 474d9bb58e5SYang Zhong } 475d9bb58e5SYang Zhong 476d9bb58e5SYang Zhong void tlb_flush_page_by_mmuidx(CPUState *cpu, target_ulong addr, uint16_t idxmap) 477d9bb58e5SYang Zhong { 478d9bb58e5SYang Zhong target_ulong addr_and_mmu_idx; 479d9bb58e5SYang Zhong 480d9bb58e5SYang Zhong tlb_debug("addr: "TARGET_FMT_lx" mmu_idx:%" PRIx16 "\n", addr, idxmap); 481d9bb58e5SYang Zhong 482d9bb58e5SYang Zhong /* This should already be page aligned */ 483d9bb58e5SYang Zhong addr_and_mmu_idx = addr & TARGET_PAGE_MASK; 484d9bb58e5SYang Zhong addr_and_mmu_idx |= idxmap; 485d9bb58e5SYang Zhong 486d9bb58e5SYang Zhong if (!qemu_cpu_is_self(cpu)) { 4871308e026SRichard Henderson async_run_on_cpu(cpu, tlb_flush_page_by_mmuidx_async_work, 488d9bb58e5SYang Zhong RUN_ON_CPU_TARGET_PTR(addr_and_mmu_idx)); 489d9bb58e5SYang Zhong } else { 4901308e026SRichard Henderson tlb_flush_page_by_mmuidx_async_work( 491d9bb58e5SYang Zhong cpu, RUN_ON_CPU_TARGET_PTR(addr_and_mmu_idx)); 492d9bb58e5SYang Zhong } 493d9bb58e5SYang Zhong } 494d9bb58e5SYang Zhong 495f8144c6cSRichard Henderson void tlb_flush_page(CPUState *cpu, target_ulong addr) 496f8144c6cSRichard Henderson { 497f8144c6cSRichard Henderson tlb_flush_page_by_mmuidx(cpu, addr, ALL_MMUIDX_BITS); 498f8144c6cSRichard Henderson } 499f8144c6cSRichard Henderson 500d9bb58e5SYang Zhong void tlb_flush_page_by_mmuidx_all_cpus(CPUState *src_cpu, target_ulong addr, 501d9bb58e5SYang Zhong uint16_t idxmap) 502d9bb58e5SYang Zhong { 5031308e026SRichard Henderson const run_on_cpu_func fn = tlb_flush_page_by_mmuidx_async_work; 504d9bb58e5SYang Zhong target_ulong addr_and_mmu_idx; 505d9bb58e5SYang Zhong 506d9bb58e5SYang Zhong tlb_debug("addr: "TARGET_FMT_lx" mmu_idx:%"PRIx16"\n", addr, idxmap); 507d9bb58e5SYang Zhong 508d9bb58e5SYang Zhong /* This should already be page aligned */ 509d9bb58e5SYang Zhong addr_and_mmu_idx = addr & TARGET_PAGE_MASK; 510d9bb58e5SYang Zhong addr_and_mmu_idx |= idxmap; 511d9bb58e5SYang Zhong 512d9bb58e5SYang Zhong flush_all_helper(src_cpu, fn, RUN_ON_CPU_TARGET_PTR(addr_and_mmu_idx)); 513d9bb58e5SYang Zhong fn(src_cpu, RUN_ON_CPU_TARGET_PTR(addr_and_mmu_idx)); 514d9bb58e5SYang Zhong } 515d9bb58e5SYang Zhong 516f8144c6cSRichard Henderson void tlb_flush_page_all_cpus(CPUState *src, target_ulong addr) 517f8144c6cSRichard Henderson { 518f8144c6cSRichard Henderson tlb_flush_page_by_mmuidx_all_cpus(src, addr, ALL_MMUIDX_BITS); 519f8144c6cSRichard Henderson } 520f8144c6cSRichard Henderson 521d9bb58e5SYang Zhong void tlb_flush_page_by_mmuidx_all_cpus_synced(CPUState *src_cpu, 522d9bb58e5SYang Zhong target_ulong addr, 523d9bb58e5SYang Zhong uint16_t idxmap) 524d9bb58e5SYang Zhong { 5251308e026SRichard Henderson const run_on_cpu_func fn = tlb_flush_page_by_mmuidx_async_work; 526d9bb58e5SYang Zhong target_ulong addr_and_mmu_idx; 527d9bb58e5SYang Zhong 528d9bb58e5SYang Zhong tlb_debug("addr: "TARGET_FMT_lx" mmu_idx:%"PRIx16"\n", addr, idxmap); 529d9bb58e5SYang Zhong 530d9bb58e5SYang Zhong /* This should already be page aligned */ 531d9bb58e5SYang Zhong addr_and_mmu_idx = addr & TARGET_PAGE_MASK; 532d9bb58e5SYang Zhong addr_and_mmu_idx |= idxmap; 533d9bb58e5SYang Zhong 534d9bb58e5SYang Zhong flush_all_helper(src_cpu, fn, RUN_ON_CPU_TARGET_PTR(addr_and_mmu_idx)); 535d9bb58e5SYang Zhong async_safe_run_on_cpu(src_cpu, fn, RUN_ON_CPU_TARGET_PTR(addr_and_mmu_idx)); 536d9bb58e5SYang Zhong } 537d9bb58e5SYang Zhong 538f8144c6cSRichard Henderson void tlb_flush_page_all_cpus_synced(CPUState *src, target_ulong addr) 539d9bb58e5SYang Zhong { 540f8144c6cSRichard Henderson tlb_flush_page_by_mmuidx_all_cpus_synced(src, addr, ALL_MMUIDX_BITS); 541d9bb58e5SYang Zhong } 542d9bb58e5SYang Zhong 543d9bb58e5SYang Zhong /* update the TLBs so that writes to code in the virtual page 'addr' 544d9bb58e5SYang Zhong can be detected */ 545d9bb58e5SYang Zhong void tlb_protect_code(ram_addr_t ram_addr) 546d9bb58e5SYang Zhong { 547d9bb58e5SYang Zhong cpu_physical_memory_test_and_clear_dirty(ram_addr, TARGET_PAGE_SIZE, 548d9bb58e5SYang Zhong DIRTY_MEMORY_CODE); 549d9bb58e5SYang Zhong } 550d9bb58e5SYang Zhong 551d9bb58e5SYang Zhong /* update the TLB so that writes in physical page 'phys_addr' are no longer 552d9bb58e5SYang Zhong tested for self modifying code */ 553d9bb58e5SYang Zhong void tlb_unprotect_code(ram_addr_t ram_addr) 554d9bb58e5SYang Zhong { 555d9bb58e5SYang Zhong cpu_physical_memory_set_dirty_flag(ram_addr, DIRTY_MEMORY_CODE); 556d9bb58e5SYang Zhong } 557d9bb58e5SYang Zhong 558d9bb58e5SYang Zhong 559d9bb58e5SYang Zhong /* 560d9bb58e5SYang Zhong * Dirty write flag handling 561d9bb58e5SYang Zhong * 562d9bb58e5SYang Zhong * When the TCG code writes to a location it looks up the address in 563d9bb58e5SYang Zhong * the TLB and uses that data to compute the final address. If any of 564d9bb58e5SYang Zhong * the lower bits of the address are set then the slow path is forced. 565d9bb58e5SYang Zhong * There are a number of reasons to do this but for normal RAM the 566d9bb58e5SYang Zhong * most usual is detecting writes to code regions which may invalidate 567d9bb58e5SYang Zhong * generated code. 568d9bb58e5SYang Zhong * 56971aec354SEmilio G. Cota * Other vCPUs might be reading their TLBs during guest execution, so we update 57071aec354SEmilio G. Cota * te->addr_write with atomic_set. We don't need to worry about this for 57171aec354SEmilio G. Cota * oversized guests as MTTCG is disabled for them. 572d9bb58e5SYang Zhong * 57353d28455SRichard Henderson * Called with tlb_c.lock held. 574d9bb58e5SYang Zhong */ 57571aec354SEmilio G. Cota static void tlb_reset_dirty_range_locked(CPUTLBEntry *tlb_entry, 57671aec354SEmilio G. Cota uintptr_t start, uintptr_t length) 577d9bb58e5SYang Zhong { 578d9bb58e5SYang Zhong uintptr_t addr = tlb_entry->addr_write; 579d9bb58e5SYang Zhong 580d9bb58e5SYang Zhong if ((addr & (TLB_INVALID_MASK | TLB_MMIO | TLB_NOTDIRTY)) == 0) { 581d9bb58e5SYang Zhong addr &= TARGET_PAGE_MASK; 582d9bb58e5SYang Zhong addr += tlb_entry->addend; 583d9bb58e5SYang Zhong if ((addr - start) < length) { 584d9bb58e5SYang Zhong #if TCG_OVERSIZED_GUEST 58571aec354SEmilio G. Cota tlb_entry->addr_write |= TLB_NOTDIRTY; 586d9bb58e5SYang Zhong #else 58771aec354SEmilio G. Cota atomic_set(&tlb_entry->addr_write, 58871aec354SEmilio G. Cota tlb_entry->addr_write | TLB_NOTDIRTY); 589d9bb58e5SYang Zhong #endif 590d9bb58e5SYang Zhong } 59171aec354SEmilio G. Cota } 59271aec354SEmilio G. Cota } 59371aec354SEmilio G. Cota 59471aec354SEmilio G. Cota /* 59553d28455SRichard Henderson * Called with tlb_c.lock held. 59671aec354SEmilio G. Cota * Called only from the vCPU context, i.e. the TLB's owner thread. 59771aec354SEmilio G. Cota */ 59871aec354SEmilio G. Cota static inline void copy_tlb_helper_locked(CPUTLBEntry *d, const CPUTLBEntry *s) 59971aec354SEmilio G. Cota { 60071aec354SEmilio G. Cota *d = *s; 60171aec354SEmilio G. Cota } 602d9bb58e5SYang Zhong 603d9bb58e5SYang Zhong /* This is a cross vCPU call (i.e. another vCPU resetting the flags of 60471aec354SEmilio G. Cota * the target vCPU). 60553d28455SRichard Henderson * We must take tlb_c.lock to avoid racing with another vCPU update. The only 60671aec354SEmilio G. Cota * thing actually updated is the target TLB entry ->addr_write flags. 607d9bb58e5SYang Zhong */ 608d9bb58e5SYang Zhong void tlb_reset_dirty(CPUState *cpu, ram_addr_t start1, ram_addr_t length) 609d9bb58e5SYang Zhong { 610d9bb58e5SYang Zhong CPUArchState *env; 611d9bb58e5SYang Zhong 612d9bb58e5SYang Zhong int mmu_idx; 613d9bb58e5SYang Zhong 614d9bb58e5SYang Zhong env = cpu->env_ptr; 615a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 616d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 617d9bb58e5SYang Zhong unsigned int i; 61886e1eff8SEmilio G. Cota unsigned int n = tlb_n_entries(env, mmu_idx); 619d9bb58e5SYang Zhong 62086e1eff8SEmilio G. Cota for (i = 0; i < n; i++) { 621a40ec84eSRichard Henderson tlb_reset_dirty_range_locked(&env_tlb(env)->f[mmu_idx].table[i], 622a40ec84eSRichard Henderson start1, length); 623d9bb58e5SYang Zhong } 624d9bb58e5SYang Zhong 625d9bb58e5SYang Zhong for (i = 0; i < CPU_VTLB_SIZE; i++) { 626a40ec84eSRichard Henderson tlb_reset_dirty_range_locked(&env_tlb(env)->d[mmu_idx].vtable[i], 627a40ec84eSRichard Henderson start1, length); 628d9bb58e5SYang Zhong } 629d9bb58e5SYang Zhong } 630a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 631d9bb58e5SYang Zhong } 632d9bb58e5SYang Zhong 63353d28455SRichard Henderson /* Called with tlb_c.lock held */ 63471aec354SEmilio G. Cota static inline void tlb_set_dirty1_locked(CPUTLBEntry *tlb_entry, 63571aec354SEmilio G. Cota target_ulong vaddr) 636d9bb58e5SYang Zhong { 637d9bb58e5SYang Zhong if (tlb_entry->addr_write == (vaddr | TLB_NOTDIRTY)) { 638d9bb58e5SYang Zhong tlb_entry->addr_write = vaddr; 639d9bb58e5SYang Zhong } 640d9bb58e5SYang Zhong } 641d9bb58e5SYang Zhong 642d9bb58e5SYang Zhong /* update the TLB corresponding to virtual page vaddr 643d9bb58e5SYang Zhong so that it is no longer dirty */ 644d9bb58e5SYang Zhong void tlb_set_dirty(CPUState *cpu, target_ulong vaddr) 645d9bb58e5SYang Zhong { 646d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 647d9bb58e5SYang Zhong int mmu_idx; 648d9bb58e5SYang Zhong 649d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 650d9bb58e5SYang Zhong 651d9bb58e5SYang Zhong vaddr &= TARGET_PAGE_MASK; 652a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 653d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 654383beda9SRichard Henderson tlb_set_dirty1_locked(tlb_entry(env, mmu_idx, vaddr), vaddr); 655d9bb58e5SYang Zhong } 656d9bb58e5SYang Zhong 657d9bb58e5SYang Zhong for (mmu_idx = 0; mmu_idx < NB_MMU_MODES; mmu_idx++) { 658d9bb58e5SYang Zhong int k; 659d9bb58e5SYang Zhong for (k = 0; k < CPU_VTLB_SIZE; k++) { 660a40ec84eSRichard Henderson tlb_set_dirty1_locked(&env_tlb(env)->d[mmu_idx].vtable[k], vaddr); 661d9bb58e5SYang Zhong } 662d9bb58e5SYang Zhong } 663a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 664d9bb58e5SYang Zhong } 665d9bb58e5SYang Zhong 666d9bb58e5SYang Zhong /* Our TLB does not support large pages, so remember the area covered by 667d9bb58e5SYang Zhong large pages and trigger a full TLB flush if these are invalidated. */ 6681308e026SRichard Henderson static void tlb_add_large_page(CPUArchState *env, int mmu_idx, 6691308e026SRichard Henderson target_ulong vaddr, target_ulong size) 670d9bb58e5SYang Zhong { 671a40ec84eSRichard Henderson target_ulong lp_addr = env_tlb(env)->d[mmu_idx].large_page_addr; 6721308e026SRichard Henderson target_ulong lp_mask = ~(size - 1); 673d9bb58e5SYang Zhong 6741308e026SRichard Henderson if (lp_addr == (target_ulong)-1) { 6751308e026SRichard Henderson /* No previous large page. */ 6761308e026SRichard Henderson lp_addr = vaddr; 6771308e026SRichard Henderson } else { 678d9bb58e5SYang Zhong /* Extend the existing region to include the new page. 6791308e026SRichard Henderson This is a compromise between unnecessary flushes and 6801308e026SRichard Henderson the cost of maintaining a full variable size TLB. */ 681a40ec84eSRichard Henderson lp_mask &= env_tlb(env)->d[mmu_idx].large_page_mask; 6821308e026SRichard Henderson while (((lp_addr ^ vaddr) & lp_mask) != 0) { 6831308e026SRichard Henderson lp_mask <<= 1; 684d9bb58e5SYang Zhong } 6851308e026SRichard Henderson } 686a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].large_page_addr = lp_addr & lp_mask; 687a40ec84eSRichard Henderson env_tlb(env)->d[mmu_idx].large_page_mask = lp_mask; 688d9bb58e5SYang Zhong } 689d9bb58e5SYang Zhong 690d9bb58e5SYang Zhong /* Add a new TLB entry. At most one entry for a given virtual address 691d9bb58e5SYang Zhong * is permitted. Only a single TARGET_PAGE_SIZE region is mapped, the 692d9bb58e5SYang Zhong * supplied size is only used by tlb_flush_page. 693d9bb58e5SYang Zhong * 694d9bb58e5SYang Zhong * Called from TCG-generated code, which is under an RCU read-side 695d9bb58e5SYang Zhong * critical section. 696d9bb58e5SYang Zhong */ 697d9bb58e5SYang Zhong void tlb_set_page_with_attrs(CPUState *cpu, target_ulong vaddr, 698d9bb58e5SYang Zhong hwaddr paddr, MemTxAttrs attrs, int prot, 699d9bb58e5SYang Zhong int mmu_idx, target_ulong size) 700d9bb58e5SYang Zhong { 701d9bb58e5SYang Zhong CPUArchState *env = cpu->env_ptr; 702a40ec84eSRichard Henderson CPUTLB *tlb = env_tlb(env); 703a40ec84eSRichard Henderson CPUTLBDesc *desc = &tlb->d[mmu_idx]; 704d9bb58e5SYang Zhong MemoryRegionSection *section; 705d9bb58e5SYang Zhong unsigned int index; 706d9bb58e5SYang Zhong target_ulong address; 707d9bb58e5SYang Zhong target_ulong code_address; 708d9bb58e5SYang Zhong uintptr_t addend; 70968fea038SRichard Henderson CPUTLBEntry *te, tn; 71055df6fcfSPeter Maydell hwaddr iotlb, xlat, sz, paddr_page; 71155df6fcfSPeter Maydell target_ulong vaddr_page; 712d9bb58e5SYang Zhong int asidx = cpu_asidx_from_attrs(cpu, attrs); 713d9bb58e5SYang Zhong 714d9bb58e5SYang Zhong assert_cpu_is_self(cpu); 71555df6fcfSPeter Maydell 7161308e026SRichard Henderson if (size <= TARGET_PAGE_SIZE) { 71755df6fcfSPeter Maydell sz = TARGET_PAGE_SIZE; 71855df6fcfSPeter Maydell } else { 7191308e026SRichard Henderson tlb_add_large_page(env, mmu_idx, vaddr, size); 720d9bb58e5SYang Zhong sz = size; 72155df6fcfSPeter Maydell } 72255df6fcfSPeter Maydell vaddr_page = vaddr & TARGET_PAGE_MASK; 72355df6fcfSPeter Maydell paddr_page = paddr & TARGET_PAGE_MASK; 72455df6fcfSPeter Maydell 72555df6fcfSPeter Maydell section = address_space_translate_for_iotlb(cpu, asidx, paddr_page, 72655df6fcfSPeter Maydell &xlat, &sz, attrs, &prot); 727d9bb58e5SYang Zhong assert(sz >= TARGET_PAGE_SIZE); 728d9bb58e5SYang Zhong 729d9bb58e5SYang Zhong tlb_debug("vaddr=" TARGET_FMT_lx " paddr=0x" TARGET_FMT_plx 730d9bb58e5SYang Zhong " prot=%x idx=%d\n", 731d9bb58e5SYang Zhong vaddr, paddr, prot, mmu_idx); 732d9bb58e5SYang Zhong 73355df6fcfSPeter Maydell address = vaddr_page; 73455df6fcfSPeter Maydell if (size < TARGET_PAGE_SIZE) { 73555df6fcfSPeter Maydell /* 73655df6fcfSPeter Maydell * Slow-path the TLB entries; we will repeat the MMU check and TLB 73755df6fcfSPeter Maydell * fill on every access. 73855df6fcfSPeter Maydell */ 73955df6fcfSPeter Maydell address |= TLB_RECHECK; 74055df6fcfSPeter Maydell } 74155df6fcfSPeter Maydell if (!memory_region_is_ram(section->mr) && 74255df6fcfSPeter Maydell !memory_region_is_romd(section->mr)) { 743d9bb58e5SYang Zhong /* IO memory case */ 744d9bb58e5SYang Zhong address |= TLB_MMIO; 745d9bb58e5SYang Zhong addend = 0; 746d9bb58e5SYang Zhong } else { 747d9bb58e5SYang Zhong /* TLB_MMIO for rom/romd handled below */ 748d9bb58e5SYang Zhong addend = (uintptr_t)memory_region_get_ram_ptr(section->mr) + xlat; 749d9bb58e5SYang Zhong } 750d9bb58e5SYang Zhong 751d9bb58e5SYang Zhong code_address = address; 75255df6fcfSPeter Maydell iotlb = memory_region_section_get_iotlb(cpu, section, vaddr_page, 75355df6fcfSPeter Maydell paddr_page, xlat, prot, &address); 754d9bb58e5SYang Zhong 755383beda9SRichard Henderson index = tlb_index(env, mmu_idx, vaddr_page); 756383beda9SRichard Henderson te = tlb_entry(env, mmu_idx, vaddr_page); 757d9bb58e5SYang Zhong 75868fea038SRichard Henderson /* 75971aec354SEmilio G. Cota * Hold the TLB lock for the rest of the function. We could acquire/release 76071aec354SEmilio G. Cota * the lock several times in the function, but it is faster to amortize the 76171aec354SEmilio G. Cota * acquisition cost by acquiring it just once. Note that this leads to 76271aec354SEmilio G. Cota * a longer critical section, but this is not a concern since the TLB lock 76371aec354SEmilio G. Cota * is unlikely to be contended. 76471aec354SEmilio G. Cota */ 765a40ec84eSRichard Henderson qemu_spin_lock(&tlb->c.lock); 76671aec354SEmilio G. Cota 7673d1523ceSRichard Henderson /* Note that the tlb is no longer clean. */ 768a40ec84eSRichard Henderson tlb->c.dirty |= 1 << mmu_idx; 7693d1523ceSRichard Henderson 77071aec354SEmilio G. Cota /* Make sure there's no cached translation for the new page. */ 77171aec354SEmilio G. Cota tlb_flush_vtlb_page_locked(env, mmu_idx, vaddr_page); 77271aec354SEmilio G. Cota 77371aec354SEmilio G. Cota /* 77468fea038SRichard Henderson * Only evict the old entry to the victim tlb if it's for a 77568fea038SRichard Henderson * different page; otherwise just overwrite the stale data. 77668fea038SRichard Henderson */ 7773cea94bbSEmilio G. Cota if (!tlb_hit_page_anyprot(te, vaddr_page) && !tlb_entry_is_empty(te)) { 778a40ec84eSRichard Henderson unsigned vidx = desc->vindex++ % CPU_VTLB_SIZE; 779a40ec84eSRichard Henderson CPUTLBEntry *tv = &desc->vtable[vidx]; 78068fea038SRichard Henderson 78168fea038SRichard Henderson /* Evict the old entry into the victim tlb. */ 78271aec354SEmilio G. Cota copy_tlb_helper_locked(tv, te); 783a40ec84eSRichard Henderson desc->viotlb[vidx] = desc->iotlb[index]; 78486e1eff8SEmilio G. Cota tlb_n_used_entries_dec(env, mmu_idx); 78568fea038SRichard Henderson } 786d9bb58e5SYang Zhong 787d9bb58e5SYang Zhong /* refill the tlb */ 788ace41090SPeter Maydell /* 789ace41090SPeter Maydell * At this point iotlb contains a physical section number in the lower 790ace41090SPeter Maydell * TARGET_PAGE_BITS, and either 791ace41090SPeter Maydell * + the ram_addr_t of the page base of the target RAM (if NOTDIRTY or ROM) 792ace41090SPeter Maydell * + the offset within section->mr of the page base (otherwise) 79355df6fcfSPeter Maydell * We subtract the vaddr_page (which is page aligned and thus won't 794ace41090SPeter Maydell * disturb the low bits) to give an offset which can be added to the 795ace41090SPeter Maydell * (non-page-aligned) vaddr of the eventual memory access to get 796ace41090SPeter Maydell * the MemoryRegion offset for the access. Note that the vaddr we 797ace41090SPeter Maydell * subtract here is that of the page base, and not the same as the 798ace41090SPeter Maydell * vaddr we add back in io_readx()/io_writex()/get_page_addr_code(). 799ace41090SPeter Maydell */ 800a40ec84eSRichard Henderson desc->iotlb[index].addr = iotlb - vaddr_page; 801a40ec84eSRichard Henderson desc->iotlb[index].attrs = attrs; 802d9bb58e5SYang Zhong 803d9bb58e5SYang Zhong /* Now calculate the new entry */ 80455df6fcfSPeter Maydell tn.addend = addend - vaddr_page; 805d9bb58e5SYang Zhong if (prot & PAGE_READ) { 806d9bb58e5SYang Zhong tn.addr_read = address; 807d9bb58e5SYang Zhong } else { 808d9bb58e5SYang Zhong tn.addr_read = -1; 809d9bb58e5SYang Zhong } 810d9bb58e5SYang Zhong 811d9bb58e5SYang Zhong if (prot & PAGE_EXEC) { 812d9bb58e5SYang Zhong tn.addr_code = code_address; 813d9bb58e5SYang Zhong } else { 814d9bb58e5SYang Zhong tn.addr_code = -1; 815d9bb58e5SYang Zhong } 816d9bb58e5SYang Zhong 817d9bb58e5SYang Zhong tn.addr_write = -1; 818d9bb58e5SYang Zhong if (prot & PAGE_WRITE) { 819d9bb58e5SYang Zhong if ((memory_region_is_ram(section->mr) && section->readonly) 820d9bb58e5SYang Zhong || memory_region_is_romd(section->mr)) { 821d9bb58e5SYang Zhong /* Write access calls the I/O callback. */ 822d9bb58e5SYang Zhong tn.addr_write = address | TLB_MMIO; 823d9bb58e5SYang Zhong } else if (memory_region_is_ram(section->mr) 824d9bb58e5SYang Zhong && cpu_physical_memory_is_clean( 825d9bb58e5SYang Zhong memory_region_get_ram_addr(section->mr) + xlat)) { 826d9bb58e5SYang Zhong tn.addr_write = address | TLB_NOTDIRTY; 827d9bb58e5SYang Zhong } else { 828d9bb58e5SYang Zhong tn.addr_write = address; 829d9bb58e5SYang Zhong } 830f52bfb12SDavid Hildenbrand if (prot & PAGE_WRITE_INV) { 831f52bfb12SDavid Hildenbrand tn.addr_write |= TLB_INVALID_MASK; 832f52bfb12SDavid Hildenbrand } 833d9bb58e5SYang Zhong } 834d9bb58e5SYang Zhong 83571aec354SEmilio G. Cota copy_tlb_helper_locked(te, &tn); 83686e1eff8SEmilio G. Cota tlb_n_used_entries_inc(env, mmu_idx); 837a40ec84eSRichard Henderson qemu_spin_unlock(&tlb->c.lock); 838d9bb58e5SYang Zhong } 839d9bb58e5SYang Zhong 840d9bb58e5SYang Zhong /* Add a new TLB entry, but without specifying the memory 841d9bb58e5SYang Zhong * transaction attributes to be used. 842d9bb58e5SYang Zhong */ 843d9bb58e5SYang Zhong void tlb_set_page(CPUState *cpu, target_ulong vaddr, 844d9bb58e5SYang Zhong hwaddr paddr, int prot, 845d9bb58e5SYang Zhong int mmu_idx, target_ulong size) 846d9bb58e5SYang Zhong { 847d9bb58e5SYang Zhong tlb_set_page_with_attrs(cpu, vaddr, paddr, MEMTXATTRS_UNSPECIFIED, 848d9bb58e5SYang Zhong prot, mmu_idx, size); 849d9bb58e5SYang Zhong } 850d9bb58e5SYang Zhong 851d9bb58e5SYang Zhong static inline ram_addr_t qemu_ram_addr_from_host_nofail(void *ptr) 852d9bb58e5SYang Zhong { 853d9bb58e5SYang Zhong ram_addr_t ram_addr; 854d9bb58e5SYang Zhong 855d9bb58e5SYang Zhong ram_addr = qemu_ram_addr_from_host(ptr); 856d9bb58e5SYang Zhong if (ram_addr == RAM_ADDR_INVALID) { 857d9bb58e5SYang Zhong error_report("Bad ram pointer %p", ptr); 858d9bb58e5SYang Zhong abort(); 859d9bb58e5SYang Zhong } 860d9bb58e5SYang Zhong return ram_addr; 861d9bb58e5SYang Zhong } 862d9bb58e5SYang Zhong 863c319dc13SRichard Henderson /* 864c319dc13SRichard Henderson * Note: tlb_fill() can trigger a resize of the TLB. This means that all of the 865c319dc13SRichard Henderson * caller's prior references to the TLB table (e.g. CPUTLBEntry pointers) must 866c319dc13SRichard Henderson * be discarded and looked up again (e.g. via tlb_entry()). 867c319dc13SRichard Henderson */ 868c319dc13SRichard Henderson static void tlb_fill(CPUState *cpu, target_ulong addr, int size, 869c319dc13SRichard Henderson MMUAccessType access_type, int mmu_idx, uintptr_t retaddr) 870c319dc13SRichard Henderson { 871c319dc13SRichard Henderson CPUClass *cc = CPU_GET_CLASS(cpu); 872c319dc13SRichard Henderson bool ok; 873c319dc13SRichard Henderson 874c319dc13SRichard Henderson /* 875c319dc13SRichard Henderson * This is not a probe, so only valid return is success; failure 876c319dc13SRichard Henderson * should result in exception + longjmp to the cpu loop. 877c319dc13SRichard Henderson */ 878c319dc13SRichard Henderson ok = cc->tlb_fill(cpu, addr, size, access_type, mmu_idx, false, retaddr); 879c319dc13SRichard Henderson assert(ok); 880c319dc13SRichard Henderson } 881c319dc13SRichard Henderson 882d9bb58e5SYang Zhong static uint64_t io_readx(CPUArchState *env, CPUIOTLBEntry *iotlbentry, 883f1be3696SRichard Henderson int mmu_idx, target_ulong addr, uintptr_t retaddr, 884*be5c4787STony Nguyen MMUAccessType access_type, MemOp op) 885d9bb58e5SYang Zhong { 88629a0af61SRichard Henderson CPUState *cpu = env_cpu(env); 8872d54f194SPeter Maydell hwaddr mr_offset; 8882d54f194SPeter Maydell MemoryRegionSection *section; 8892d54f194SPeter Maydell MemoryRegion *mr; 890d9bb58e5SYang Zhong uint64_t val; 891d9bb58e5SYang Zhong bool locked = false; 89204e3aabdSPeter Maydell MemTxResult r; 893d9bb58e5SYang Zhong 8942d54f194SPeter Maydell section = iotlb_to_section(cpu, iotlbentry->addr, iotlbentry->attrs); 8952d54f194SPeter Maydell mr = section->mr; 8962d54f194SPeter Maydell mr_offset = (iotlbentry->addr & TARGET_PAGE_MASK) + addr; 897d9bb58e5SYang Zhong cpu->mem_io_pc = retaddr; 898d9bb58e5SYang Zhong if (mr != &io_mem_rom && mr != &io_mem_notdirty && !cpu->can_do_io) { 899d9bb58e5SYang Zhong cpu_io_recompile(cpu, retaddr); 900d9bb58e5SYang Zhong } 901d9bb58e5SYang Zhong 902d9bb58e5SYang Zhong cpu->mem_io_vaddr = addr; 903dbea78a4SPeter Maydell cpu->mem_io_access_type = access_type; 904d9bb58e5SYang Zhong 9058b812533SAlex Bennée if (mr->global_locking && !qemu_mutex_iothread_locked()) { 906d9bb58e5SYang Zhong qemu_mutex_lock_iothread(); 907d9bb58e5SYang Zhong locked = true; 908d9bb58e5SYang Zhong } 909*be5c4787STony Nguyen r = memory_region_dispatch_read(mr, mr_offset, &val, op, iotlbentry->attrs); 91004e3aabdSPeter Maydell if (r != MEMTX_OK) { 9112d54f194SPeter Maydell hwaddr physaddr = mr_offset + 9122d54f194SPeter Maydell section->offset_within_address_space - 9132d54f194SPeter Maydell section->offset_within_region; 9142d54f194SPeter Maydell 915*be5c4787STony Nguyen cpu_transaction_failed(cpu, physaddr, addr, memop_size(op), access_type, 91604e3aabdSPeter Maydell mmu_idx, iotlbentry->attrs, r, retaddr); 91704e3aabdSPeter Maydell } 918d9bb58e5SYang Zhong if (locked) { 919d9bb58e5SYang Zhong qemu_mutex_unlock_iothread(); 920d9bb58e5SYang Zhong } 921d9bb58e5SYang Zhong 922d9bb58e5SYang Zhong return val; 923d9bb58e5SYang Zhong } 924d9bb58e5SYang Zhong 925d9bb58e5SYang Zhong static void io_writex(CPUArchState *env, CPUIOTLBEntry *iotlbentry, 926f1be3696SRichard Henderson int mmu_idx, uint64_t val, target_ulong addr, 927*be5c4787STony Nguyen uintptr_t retaddr, MemOp op) 928d9bb58e5SYang Zhong { 92929a0af61SRichard Henderson CPUState *cpu = env_cpu(env); 9302d54f194SPeter Maydell hwaddr mr_offset; 9312d54f194SPeter Maydell MemoryRegionSection *section; 9322d54f194SPeter Maydell MemoryRegion *mr; 933d9bb58e5SYang Zhong bool locked = false; 93404e3aabdSPeter Maydell MemTxResult r; 935d9bb58e5SYang Zhong 9362d54f194SPeter Maydell section = iotlb_to_section(cpu, iotlbentry->addr, iotlbentry->attrs); 9372d54f194SPeter Maydell mr = section->mr; 9382d54f194SPeter Maydell mr_offset = (iotlbentry->addr & TARGET_PAGE_MASK) + addr; 939d9bb58e5SYang Zhong if (mr != &io_mem_rom && mr != &io_mem_notdirty && !cpu->can_do_io) { 940d9bb58e5SYang Zhong cpu_io_recompile(cpu, retaddr); 941d9bb58e5SYang Zhong } 942d9bb58e5SYang Zhong cpu->mem_io_vaddr = addr; 943d9bb58e5SYang Zhong cpu->mem_io_pc = retaddr; 944d9bb58e5SYang Zhong 9458b812533SAlex Bennée if (mr->global_locking && !qemu_mutex_iothread_locked()) { 946d9bb58e5SYang Zhong qemu_mutex_lock_iothread(); 947d9bb58e5SYang Zhong locked = true; 948d9bb58e5SYang Zhong } 949*be5c4787STony Nguyen r = memory_region_dispatch_write(mr, mr_offset, val, op, iotlbentry->attrs); 95004e3aabdSPeter Maydell if (r != MEMTX_OK) { 9512d54f194SPeter Maydell hwaddr physaddr = mr_offset + 9522d54f194SPeter Maydell section->offset_within_address_space - 9532d54f194SPeter Maydell section->offset_within_region; 9542d54f194SPeter Maydell 955*be5c4787STony Nguyen cpu_transaction_failed(cpu, physaddr, addr, memop_size(op), 956*be5c4787STony Nguyen MMU_DATA_STORE, mmu_idx, iotlbentry->attrs, r, 957*be5c4787STony Nguyen retaddr); 95804e3aabdSPeter Maydell } 959d9bb58e5SYang Zhong if (locked) { 960d9bb58e5SYang Zhong qemu_mutex_unlock_iothread(); 961d9bb58e5SYang Zhong } 962d9bb58e5SYang Zhong } 963d9bb58e5SYang Zhong 9644811e909SRichard Henderson static inline target_ulong tlb_read_ofs(CPUTLBEntry *entry, size_t ofs) 9654811e909SRichard Henderson { 9664811e909SRichard Henderson #if TCG_OVERSIZED_GUEST 9674811e909SRichard Henderson return *(target_ulong *)((uintptr_t)entry + ofs); 9684811e909SRichard Henderson #else 9694811e909SRichard Henderson /* ofs might correspond to .addr_write, so use atomic_read */ 9704811e909SRichard Henderson return atomic_read((target_ulong *)((uintptr_t)entry + ofs)); 9714811e909SRichard Henderson #endif 9724811e909SRichard Henderson } 9734811e909SRichard Henderson 974d9bb58e5SYang Zhong /* Return true if ADDR is present in the victim tlb, and has been copied 975d9bb58e5SYang Zhong back to the main tlb. */ 976d9bb58e5SYang Zhong static bool victim_tlb_hit(CPUArchState *env, size_t mmu_idx, size_t index, 977d9bb58e5SYang Zhong size_t elt_ofs, target_ulong page) 978d9bb58e5SYang Zhong { 979d9bb58e5SYang Zhong size_t vidx; 98071aec354SEmilio G. Cota 98129a0af61SRichard Henderson assert_cpu_is_self(env_cpu(env)); 982d9bb58e5SYang Zhong for (vidx = 0; vidx < CPU_VTLB_SIZE; ++vidx) { 983a40ec84eSRichard Henderson CPUTLBEntry *vtlb = &env_tlb(env)->d[mmu_idx].vtable[vidx]; 984a40ec84eSRichard Henderson target_ulong cmp; 985a40ec84eSRichard Henderson 986a40ec84eSRichard Henderson /* elt_ofs might correspond to .addr_write, so use atomic_read */ 987a40ec84eSRichard Henderson #if TCG_OVERSIZED_GUEST 988a40ec84eSRichard Henderson cmp = *(target_ulong *)((uintptr_t)vtlb + elt_ofs); 989a40ec84eSRichard Henderson #else 990a40ec84eSRichard Henderson cmp = atomic_read((target_ulong *)((uintptr_t)vtlb + elt_ofs)); 991a40ec84eSRichard Henderson #endif 992d9bb58e5SYang Zhong 993d9bb58e5SYang Zhong if (cmp == page) { 994d9bb58e5SYang Zhong /* Found entry in victim tlb, swap tlb and iotlb. */ 995a40ec84eSRichard Henderson CPUTLBEntry tmptlb, *tlb = &env_tlb(env)->f[mmu_idx].table[index]; 996d9bb58e5SYang Zhong 997a40ec84eSRichard Henderson qemu_spin_lock(&env_tlb(env)->c.lock); 99871aec354SEmilio G. Cota copy_tlb_helper_locked(&tmptlb, tlb); 99971aec354SEmilio G. Cota copy_tlb_helper_locked(tlb, vtlb); 100071aec354SEmilio G. Cota copy_tlb_helper_locked(vtlb, &tmptlb); 1001a40ec84eSRichard Henderson qemu_spin_unlock(&env_tlb(env)->c.lock); 1002d9bb58e5SYang Zhong 1003a40ec84eSRichard Henderson CPUIOTLBEntry tmpio, *io = &env_tlb(env)->d[mmu_idx].iotlb[index]; 1004a40ec84eSRichard Henderson CPUIOTLBEntry *vio = &env_tlb(env)->d[mmu_idx].viotlb[vidx]; 1005d9bb58e5SYang Zhong tmpio = *io; *io = *vio; *vio = tmpio; 1006d9bb58e5SYang Zhong return true; 1007d9bb58e5SYang Zhong } 1008d9bb58e5SYang Zhong } 1009d9bb58e5SYang Zhong return false; 1010d9bb58e5SYang Zhong } 1011d9bb58e5SYang Zhong 1012d9bb58e5SYang Zhong /* Macro to call the above, with local variables from the use context. */ 1013d9bb58e5SYang Zhong #define VICTIM_TLB_HIT(TY, ADDR) \ 1014d9bb58e5SYang Zhong victim_tlb_hit(env, mmu_idx, index, offsetof(CPUTLBEntry, TY), \ 1015d9bb58e5SYang Zhong (ADDR) & TARGET_PAGE_MASK) 1016d9bb58e5SYang Zhong 1017f2553f04SKONRAD Frederic /* NOTE: this function can trigger an exception */ 1018f2553f04SKONRAD Frederic /* NOTE2: the returned address is not exactly the physical address: it 1019f2553f04SKONRAD Frederic * is actually a ram_addr_t (in system mode; the user mode emulation 1020f2553f04SKONRAD Frederic * version of this function returns a guest virtual address). 1021f2553f04SKONRAD Frederic */ 1022f2553f04SKONRAD Frederic tb_page_addr_t get_page_addr_code(CPUArchState *env, target_ulong addr) 1023f2553f04SKONRAD Frederic { 1024383beda9SRichard Henderson uintptr_t mmu_idx = cpu_mmu_index(env, true); 1025383beda9SRichard Henderson uintptr_t index = tlb_index(env, mmu_idx, addr); 1026383beda9SRichard Henderson CPUTLBEntry *entry = tlb_entry(env, mmu_idx, addr); 1027f2553f04SKONRAD Frederic void *p; 1028f2553f04SKONRAD Frederic 1029383beda9SRichard Henderson if (unlikely(!tlb_hit(entry->addr_code, addr))) { 1030b493ccf1SPeter Maydell if (!VICTIM_TLB_HIT(addr_code, addr)) { 103129a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, 0, MMU_INST_FETCH, mmu_idx, 0); 10326d967cb8SEmilio G. Cota index = tlb_index(env, mmu_idx, addr); 10336d967cb8SEmilio G. Cota entry = tlb_entry(env, mmu_idx, addr); 103471b9a453SKONRAD Frederic } 1035383beda9SRichard Henderson assert(tlb_hit(entry->addr_code, addr)); 1036f2553f04SKONRAD Frederic } 103755df6fcfSPeter Maydell 1038383beda9SRichard Henderson if (unlikely(entry->addr_code & (TLB_RECHECK | TLB_MMIO))) { 103955df6fcfSPeter Maydell /* 104055a7cb14SPeter Maydell * Return -1 if we can't translate and execute from an entire 104155a7cb14SPeter Maydell * page of RAM here, which will cause us to execute by loading 104255a7cb14SPeter Maydell * and translating one insn at a time, without caching: 104355a7cb14SPeter Maydell * - TLB_RECHECK: means the MMU protection covers a smaller range 104455a7cb14SPeter Maydell * than a target page, so we must redo the MMU check every insn 104555a7cb14SPeter Maydell * - TLB_MMIO: region is not backed by RAM 104655df6fcfSPeter Maydell */ 104720cb6ae4SPeter Maydell return -1; 104855df6fcfSPeter Maydell } 104955df6fcfSPeter Maydell 1050383beda9SRichard Henderson p = (void *)((uintptr_t)addr + entry->addend); 1051f2553f04SKONRAD Frederic return qemu_ram_addr_from_host_nofail(p); 1052f2553f04SKONRAD Frederic } 1053f2553f04SKONRAD Frederic 1054d9bb58e5SYang Zhong /* Probe for whether the specified guest write access is permitted. 1055d9bb58e5SYang Zhong * If it is not permitted then an exception will be taken in the same 1056d9bb58e5SYang Zhong * way as if this were a real write access (and we will not return). 1057d9bb58e5SYang Zhong * Otherwise the function will return, and there will be a valid 1058d9bb58e5SYang Zhong * entry in the TLB for this access. 1059d9bb58e5SYang Zhong */ 106098670d47SLaurent Vivier void probe_write(CPUArchState *env, target_ulong addr, int size, int mmu_idx, 1061d9bb58e5SYang Zhong uintptr_t retaddr) 1062d9bb58e5SYang Zhong { 1063383beda9SRichard Henderson uintptr_t index = tlb_index(env, mmu_idx, addr); 1064383beda9SRichard Henderson CPUTLBEntry *entry = tlb_entry(env, mmu_idx, addr); 1065d9bb58e5SYang Zhong 1066403f290cSEmilio G. Cota if (!tlb_hit(tlb_addr_write(entry), addr)) { 1067d9bb58e5SYang Zhong /* TLB entry is for a different page */ 1068d9bb58e5SYang Zhong if (!VICTIM_TLB_HIT(addr_write, addr)) { 106929a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, size, MMU_DATA_STORE, 107098670d47SLaurent Vivier mmu_idx, retaddr); 1071d9bb58e5SYang Zhong } 1072d9bb58e5SYang Zhong } 1073d9bb58e5SYang Zhong } 1074d9bb58e5SYang Zhong 10754811e909SRichard Henderson void *tlb_vaddr_to_host(CPUArchState *env, abi_ptr addr, 10764811e909SRichard Henderson MMUAccessType access_type, int mmu_idx) 10774811e909SRichard Henderson { 10784811e909SRichard Henderson CPUTLBEntry *entry = tlb_entry(env, mmu_idx, addr); 10794811e909SRichard Henderson uintptr_t tlb_addr, page; 10804811e909SRichard Henderson size_t elt_ofs; 10814811e909SRichard Henderson 10824811e909SRichard Henderson switch (access_type) { 10834811e909SRichard Henderson case MMU_DATA_LOAD: 10844811e909SRichard Henderson elt_ofs = offsetof(CPUTLBEntry, addr_read); 10854811e909SRichard Henderson break; 10864811e909SRichard Henderson case MMU_DATA_STORE: 10874811e909SRichard Henderson elt_ofs = offsetof(CPUTLBEntry, addr_write); 10884811e909SRichard Henderson break; 10894811e909SRichard Henderson case MMU_INST_FETCH: 10904811e909SRichard Henderson elt_ofs = offsetof(CPUTLBEntry, addr_code); 10914811e909SRichard Henderson break; 10924811e909SRichard Henderson default: 10934811e909SRichard Henderson g_assert_not_reached(); 10944811e909SRichard Henderson } 10954811e909SRichard Henderson 10964811e909SRichard Henderson page = addr & TARGET_PAGE_MASK; 10974811e909SRichard Henderson tlb_addr = tlb_read_ofs(entry, elt_ofs); 10984811e909SRichard Henderson 10994811e909SRichard Henderson if (!tlb_hit_page(tlb_addr, page)) { 11004811e909SRichard Henderson uintptr_t index = tlb_index(env, mmu_idx, addr); 11014811e909SRichard Henderson 11024811e909SRichard Henderson if (!victim_tlb_hit(env, mmu_idx, index, elt_ofs, page)) { 110329a0af61SRichard Henderson CPUState *cs = env_cpu(env); 11044811e909SRichard Henderson CPUClass *cc = CPU_GET_CLASS(cs); 11054811e909SRichard Henderson 11064811e909SRichard Henderson if (!cc->tlb_fill(cs, addr, 0, access_type, mmu_idx, true, 0)) { 11074811e909SRichard Henderson /* Non-faulting page table read failed. */ 11084811e909SRichard Henderson return NULL; 11094811e909SRichard Henderson } 11104811e909SRichard Henderson 11114811e909SRichard Henderson /* TLB resize via tlb_fill may have moved the entry. */ 11124811e909SRichard Henderson entry = tlb_entry(env, mmu_idx, addr); 11134811e909SRichard Henderson } 11144811e909SRichard Henderson tlb_addr = tlb_read_ofs(entry, elt_ofs); 11154811e909SRichard Henderson } 11164811e909SRichard Henderson 11174811e909SRichard Henderson if (tlb_addr & ~TARGET_PAGE_MASK) { 11184811e909SRichard Henderson /* IO access */ 11194811e909SRichard Henderson return NULL; 11204811e909SRichard Henderson } 11214811e909SRichard Henderson 11224811e909SRichard Henderson return (void *)((uintptr_t)addr + entry->addend); 11234811e909SRichard Henderson } 11244811e909SRichard Henderson 1125d9bb58e5SYang Zhong /* Probe for a read-modify-write atomic operation. Do not allow unaligned 1126d9bb58e5SYang Zhong * operations, or io operations to proceed. Return the host address. */ 1127d9bb58e5SYang Zhong static void *atomic_mmu_lookup(CPUArchState *env, target_ulong addr, 112834d49937SPeter Maydell TCGMemOpIdx oi, uintptr_t retaddr, 112934d49937SPeter Maydell NotDirtyInfo *ndi) 1130d9bb58e5SYang Zhong { 1131d9bb58e5SYang Zhong size_t mmu_idx = get_mmuidx(oi); 1132383beda9SRichard Henderson uintptr_t index = tlb_index(env, mmu_idx, addr); 1133383beda9SRichard Henderson CPUTLBEntry *tlbe = tlb_entry(env, mmu_idx, addr); 1134403f290cSEmilio G. Cota target_ulong tlb_addr = tlb_addr_write(tlbe); 113514776ab5STony Nguyen MemOp mop = get_memop(oi); 1136d9bb58e5SYang Zhong int a_bits = get_alignment_bits(mop); 1137d9bb58e5SYang Zhong int s_bits = mop & MO_SIZE; 113834d49937SPeter Maydell void *hostaddr; 1139d9bb58e5SYang Zhong 1140d9bb58e5SYang Zhong /* Adjust the given return address. */ 1141d9bb58e5SYang Zhong retaddr -= GETPC_ADJ; 1142d9bb58e5SYang Zhong 1143d9bb58e5SYang Zhong /* Enforce guest required alignment. */ 1144d9bb58e5SYang Zhong if (unlikely(a_bits > 0 && (addr & ((1 << a_bits) - 1)))) { 1145d9bb58e5SYang Zhong /* ??? Maybe indicate atomic op to cpu_unaligned_access */ 114629a0af61SRichard Henderson cpu_unaligned_access(env_cpu(env), addr, MMU_DATA_STORE, 1147d9bb58e5SYang Zhong mmu_idx, retaddr); 1148d9bb58e5SYang Zhong } 1149d9bb58e5SYang Zhong 1150d9bb58e5SYang Zhong /* Enforce qemu required alignment. */ 1151d9bb58e5SYang Zhong if (unlikely(addr & ((1 << s_bits) - 1))) { 1152d9bb58e5SYang Zhong /* We get here if guest alignment was not requested, 1153d9bb58e5SYang Zhong or was not enforced by cpu_unaligned_access above. 1154d9bb58e5SYang Zhong We might widen the access and emulate, but for now 1155d9bb58e5SYang Zhong mark an exception and exit the cpu loop. */ 1156d9bb58e5SYang Zhong goto stop_the_world; 1157d9bb58e5SYang Zhong } 1158d9bb58e5SYang Zhong 1159d9bb58e5SYang Zhong /* Check TLB entry and enforce page permissions. */ 1160334692bcSPeter Maydell if (!tlb_hit(tlb_addr, addr)) { 1161d9bb58e5SYang Zhong if (!VICTIM_TLB_HIT(addr_write, addr)) { 116229a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, 1 << s_bits, MMU_DATA_STORE, 116398670d47SLaurent Vivier mmu_idx, retaddr); 11646d967cb8SEmilio G. Cota index = tlb_index(env, mmu_idx, addr); 11656d967cb8SEmilio G. Cota tlbe = tlb_entry(env, mmu_idx, addr); 1166d9bb58e5SYang Zhong } 1167403f290cSEmilio G. Cota tlb_addr = tlb_addr_write(tlbe) & ~TLB_INVALID_MASK; 1168d9bb58e5SYang Zhong } 1169d9bb58e5SYang Zhong 117055df6fcfSPeter Maydell /* Notice an IO access or a needs-MMU-lookup access */ 117155df6fcfSPeter Maydell if (unlikely(tlb_addr & (TLB_MMIO | TLB_RECHECK))) { 1172d9bb58e5SYang Zhong /* There's really nothing that can be done to 1173d9bb58e5SYang Zhong support this apart from stop-the-world. */ 1174d9bb58e5SYang Zhong goto stop_the_world; 1175d9bb58e5SYang Zhong } 1176d9bb58e5SYang Zhong 1177d9bb58e5SYang Zhong /* Let the guest notice RMW on a write-only page. */ 117834d49937SPeter Maydell if (unlikely(tlbe->addr_read != (tlb_addr & ~TLB_NOTDIRTY))) { 117929a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, 1 << s_bits, MMU_DATA_LOAD, 118098670d47SLaurent Vivier mmu_idx, retaddr); 1181d9bb58e5SYang Zhong /* Since we don't support reads and writes to different addresses, 1182d9bb58e5SYang Zhong and we do have the proper page loaded for write, this shouldn't 1183d9bb58e5SYang Zhong ever return. But just in case, handle via stop-the-world. */ 1184d9bb58e5SYang Zhong goto stop_the_world; 1185d9bb58e5SYang Zhong } 1186d9bb58e5SYang Zhong 118734d49937SPeter Maydell hostaddr = (void *)((uintptr_t)addr + tlbe->addend); 118834d49937SPeter Maydell 118934d49937SPeter Maydell ndi->active = false; 119034d49937SPeter Maydell if (unlikely(tlb_addr & TLB_NOTDIRTY)) { 119134d49937SPeter Maydell ndi->active = true; 119229a0af61SRichard Henderson memory_notdirty_write_prepare(ndi, env_cpu(env), addr, 119334d49937SPeter Maydell qemu_ram_addr_from_host_nofail(hostaddr), 119434d49937SPeter Maydell 1 << s_bits); 119534d49937SPeter Maydell } 119634d49937SPeter Maydell 119734d49937SPeter Maydell return hostaddr; 1198d9bb58e5SYang Zhong 1199d9bb58e5SYang Zhong stop_the_world: 120029a0af61SRichard Henderson cpu_loop_exit_atomic(env_cpu(env), retaddr); 1201d9bb58e5SYang Zhong } 1202d9bb58e5SYang Zhong 1203d9bb58e5SYang Zhong #ifdef TARGET_WORDS_BIGENDIAN 1204eed56642SAlex Bennée #define NEED_BE_BSWAP 0 1205eed56642SAlex Bennée #define NEED_LE_BSWAP 1 1206d9bb58e5SYang Zhong #else 1207eed56642SAlex Bennée #define NEED_BE_BSWAP 1 1208eed56642SAlex Bennée #define NEED_LE_BSWAP 0 1209d9bb58e5SYang Zhong #endif 1210d9bb58e5SYang Zhong 1211eed56642SAlex Bennée /* 1212eed56642SAlex Bennée * Byte Swap Helper 1213eed56642SAlex Bennée * 1214eed56642SAlex Bennée * This should all dead code away depending on the build host and 1215eed56642SAlex Bennée * access type. 1216eed56642SAlex Bennée */ 1217d9bb58e5SYang Zhong 1218*be5c4787STony Nguyen static inline uint64_t handle_bswap(uint64_t val, MemOp op) 1219eed56642SAlex Bennée { 1220*be5c4787STony Nguyen if ((memop_big_endian(op) && NEED_BE_BSWAP) || 1221*be5c4787STony Nguyen (!memop_big_endian(op) && NEED_LE_BSWAP)) { 1222*be5c4787STony Nguyen switch (op & MO_SIZE) { 1223*be5c4787STony Nguyen case MO_8: return val; 1224*be5c4787STony Nguyen case MO_16: return bswap16(val); 1225*be5c4787STony Nguyen case MO_32: return bswap32(val); 1226*be5c4787STony Nguyen case MO_64: return bswap64(val); 1227eed56642SAlex Bennée default: 1228eed56642SAlex Bennée g_assert_not_reached(); 1229eed56642SAlex Bennée } 1230eed56642SAlex Bennée } else { 1231eed56642SAlex Bennée return val; 1232eed56642SAlex Bennée } 1233eed56642SAlex Bennée } 1234d9bb58e5SYang Zhong 1235eed56642SAlex Bennée /* 1236eed56642SAlex Bennée * Load Helpers 1237eed56642SAlex Bennée * 1238eed56642SAlex Bennée * We support two different access types. SOFTMMU_CODE_ACCESS is 1239eed56642SAlex Bennée * specifically for reading instructions from system memory. It is 1240eed56642SAlex Bennée * called by the translation loop and in some helpers where the code 1241eed56642SAlex Bennée * is disassembled. It shouldn't be called directly by guest code. 1242eed56642SAlex Bennée */ 1243d9bb58e5SYang Zhong 12442dd92606SRichard Henderson typedef uint64_t FullLoadHelper(CPUArchState *env, target_ulong addr, 12452dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr); 12462dd92606SRichard Henderson 12472dd92606SRichard Henderson static inline uint64_t __attribute__((always_inline)) 12482dd92606SRichard Henderson load_helper(CPUArchState *env, target_ulong addr, TCGMemOpIdx oi, 1249*be5c4787STony Nguyen uintptr_t retaddr, MemOp op, bool code_read, 12502dd92606SRichard Henderson FullLoadHelper *full_load) 1251eed56642SAlex Bennée { 1252eed56642SAlex Bennée uintptr_t mmu_idx = get_mmuidx(oi); 1253eed56642SAlex Bennée uintptr_t index = tlb_index(env, mmu_idx, addr); 1254eed56642SAlex Bennée CPUTLBEntry *entry = tlb_entry(env, mmu_idx, addr); 1255eed56642SAlex Bennée target_ulong tlb_addr = code_read ? entry->addr_code : entry->addr_read; 1256eed56642SAlex Bennée const size_t tlb_off = code_read ? 1257eed56642SAlex Bennée offsetof(CPUTLBEntry, addr_code) : offsetof(CPUTLBEntry, addr_read); 1258f1be3696SRichard Henderson const MMUAccessType access_type = 1259f1be3696SRichard Henderson code_read ? MMU_INST_FETCH : MMU_DATA_LOAD; 1260eed56642SAlex Bennée unsigned a_bits = get_alignment_bits(get_memop(oi)); 1261eed56642SAlex Bennée void *haddr; 1262eed56642SAlex Bennée uint64_t res; 1263*be5c4787STony Nguyen size_t size = memop_size(op); 1264d9bb58e5SYang Zhong 1265eed56642SAlex Bennée /* Handle CPU specific unaligned behaviour */ 1266eed56642SAlex Bennée if (addr & ((1 << a_bits) - 1)) { 126729a0af61SRichard Henderson cpu_unaligned_access(env_cpu(env), addr, access_type, 1268eed56642SAlex Bennée mmu_idx, retaddr); 1269eed56642SAlex Bennée } 1270eed56642SAlex Bennée 1271eed56642SAlex Bennée /* If the TLB entry is for a different page, reload and try again. */ 1272eed56642SAlex Bennée if (!tlb_hit(tlb_addr, addr)) { 1273eed56642SAlex Bennée if (!victim_tlb_hit(env, mmu_idx, index, tlb_off, 1274eed56642SAlex Bennée addr & TARGET_PAGE_MASK)) { 127529a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, size, 1276f1be3696SRichard Henderson access_type, mmu_idx, retaddr); 1277eed56642SAlex Bennée index = tlb_index(env, mmu_idx, addr); 1278eed56642SAlex Bennée entry = tlb_entry(env, mmu_idx, addr); 1279eed56642SAlex Bennée } 1280eed56642SAlex Bennée tlb_addr = code_read ? entry->addr_code : entry->addr_read; 1281eed56642SAlex Bennée } 1282eed56642SAlex Bennée 1283eed56642SAlex Bennée /* Handle an IO access. */ 1284eed56642SAlex Bennée if (unlikely(tlb_addr & ~TARGET_PAGE_MASK)) { 1285eed56642SAlex Bennée if ((addr & (size - 1)) != 0) { 1286eed56642SAlex Bennée goto do_unaligned_access; 1287eed56642SAlex Bennée } 1288eed56642SAlex Bennée 1289f1be3696SRichard Henderson if (tlb_addr & TLB_RECHECK) { 1290f1be3696SRichard Henderson /* 1291f1be3696SRichard Henderson * This is a TLB_RECHECK access, where the MMU protection 1292f1be3696SRichard Henderson * covers a smaller range than a target page, and we must 1293f1be3696SRichard Henderson * repeat the MMU check here. This tlb_fill() call might 1294f1be3696SRichard Henderson * longjump out if this access should cause a guest exception. 1295f1be3696SRichard Henderson */ 129629a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, size, 1297f1be3696SRichard Henderson access_type, mmu_idx, retaddr); 1298f1be3696SRichard Henderson index = tlb_index(env, mmu_idx, addr); 1299f1be3696SRichard Henderson entry = tlb_entry(env, mmu_idx, addr); 1300f1be3696SRichard Henderson 1301f1be3696SRichard Henderson tlb_addr = code_read ? entry->addr_code : entry->addr_read; 1302f1be3696SRichard Henderson tlb_addr &= ~TLB_RECHECK; 1303f1be3696SRichard Henderson if (!(tlb_addr & ~TARGET_PAGE_MASK)) { 1304f1be3696SRichard Henderson /* RAM access */ 1305f1be3696SRichard Henderson goto do_aligned_access; 1306f1be3696SRichard Henderson } 1307f1be3696SRichard Henderson } 1308f1be3696SRichard Henderson 1309d5d680caSTony Nguyen /* TODO: Merge bswap into io_readx -> memory_region_dispatch_read. */ 1310a40ec84eSRichard Henderson res = io_readx(env, &env_tlb(env)->d[mmu_idx].iotlb[index], 1311*be5c4787STony Nguyen mmu_idx, addr, retaddr, access_type, op); 1312*be5c4787STony Nguyen return handle_bswap(res, op); 1313eed56642SAlex Bennée } 1314eed56642SAlex Bennée 1315eed56642SAlex Bennée /* Handle slow unaligned access (it spans two pages or IO). */ 1316eed56642SAlex Bennée if (size > 1 1317eed56642SAlex Bennée && unlikely((addr & ~TARGET_PAGE_MASK) + size - 1 1318eed56642SAlex Bennée >= TARGET_PAGE_SIZE)) { 1319eed56642SAlex Bennée target_ulong addr1, addr2; 13208c79b288SAlex Bennée uint64_t r1, r2; 1321eed56642SAlex Bennée unsigned shift; 1322eed56642SAlex Bennée do_unaligned_access: 1323ab7a2009SAlex Bennée addr1 = addr & ~((target_ulong)size - 1); 1324eed56642SAlex Bennée addr2 = addr1 + size; 13252dd92606SRichard Henderson r1 = full_load(env, addr1, oi, retaddr); 13262dd92606SRichard Henderson r2 = full_load(env, addr2, oi, retaddr); 1327eed56642SAlex Bennée shift = (addr & (size - 1)) * 8; 1328eed56642SAlex Bennée 1329*be5c4787STony Nguyen if (memop_big_endian(op)) { 1330eed56642SAlex Bennée /* Big-endian combine. */ 1331eed56642SAlex Bennée res = (r1 << shift) | (r2 >> ((size * 8) - shift)); 1332eed56642SAlex Bennée } else { 1333eed56642SAlex Bennée /* Little-endian combine. */ 1334eed56642SAlex Bennée res = (r1 >> shift) | (r2 << ((size * 8) - shift)); 1335eed56642SAlex Bennée } 1336eed56642SAlex Bennée return res & MAKE_64BIT_MASK(0, size * 8); 1337eed56642SAlex Bennée } 1338eed56642SAlex Bennée 1339f1be3696SRichard Henderson do_aligned_access: 1340eed56642SAlex Bennée haddr = (void *)((uintptr_t)addr + entry->addend); 1341*be5c4787STony Nguyen switch (op) { 1342*be5c4787STony Nguyen case MO_UB: 1343eed56642SAlex Bennée res = ldub_p(haddr); 1344eed56642SAlex Bennée break; 1345*be5c4787STony Nguyen case MO_BEUW: 1346eed56642SAlex Bennée res = lduw_be_p(haddr); 1347*be5c4787STony Nguyen break; 1348*be5c4787STony Nguyen case MO_LEUW: 1349eed56642SAlex Bennée res = lduw_le_p(haddr); 1350eed56642SAlex Bennée break; 1351*be5c4787STony Nguyen case MO_BEUL: 1352eed56642SAlex Bennée res = (uint32_t)ldl_be_p(haddr); 1353eed56642SAlex Bennée break; 1354*be5c4787STony Nguyen case MO_LEUL: 1355*be5c4787STony Nguyen res = (uint32_t)ldl_le_p(haddr); 1356*be5c4787STony Nguyen break; 1357*be5c4787STony Nguyen case MO_BEQ: 1358eed56642SAlex Bennée res = ldq_be_p(haddr); 1359*be5c4787STony Nguyen break; 1360*be5c4787STony Nguyen case MO_LEQ: 1361eed56642SAlex Bennée res = ldq_le_p(haddr); 1362eed56642SAlex Bennée break; 1363eed56642SAlex Bennée default: 1364eed56642SAlex Bennée g_assert_not_reached(); 1365eed56642SAlex Bennée } 1366eed56642SAlex Bennée 1367eed56642SAlex Bennée return res; 1368eed56642SAlex Bennée } 1369eed56642SAlex Bennée 1370eed56642SAlex Bennée /* 1371eed56642SAlex Bennée * For the benefit of TCG generated code, we want to avoid the 1372eed56642SAlex Bennée * complication of ABI-specific return type promotion and always 1373eed56642SAlex Bennée * return a value extended to the register size of the host. This is 1374eed56642SAlex Bennée * tcg_target_long, except in the case of a 32-bit host and 64-bit 1375eed56642SAlex Bennée * data, and for that we always have uint64_t. 1376eed56642SAlex Bennée * 1377eed56642SAlex Bennée * We don't bother with this widened value for SOFTMMU_CODE_ACCESS. 1378eed56642SAlex Bennée */ 1379eed56642SAlex Bennée 13802dd92606SRichard Henderson static uint64_t full_ldub_mmu(CPUArchState *env, target_ulong addr, 13812dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 13822dd92606SRichard Henderson { 1383*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_UB, false, full_ldub_mmu); 13842dd92606SRichard Henderson } 13852dd92606SRichard Henderson 1386fc1bc777SRichard Henderson tcg_target_ulong helper_ret_ldub_mmu(CPUArchState *env, target_ulong addr, 1387fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1388eed56642SAlex Bennée { 13892dd92606SRichard Henderson return full_ldub_mmu(env, addr, oi, retaddr); 13902dd92606SRichard Henderson } 13912dd92606SRichard Henderson 13922dd92606SRichard Henderson static uint64_t full_le_lduw_mmu(CPUArchState *env, target_ulong addr, 13932dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 13942dd92606SRichard Henderson { 1395*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEUW, false, 13962dd92606SRichard Henderson full_le_lduw_mmu); 1397eed56642SAlex Bennée } 1398eed56642SAlex Bennée 1399fc1bc777SRichard Henderson tcg_target_ulong helper_le_lduw_mmu(CPUArchState *env, target_ulong addr, 1400fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1401eed56642SAlex Bennée { 14022dd92606SRichard Henderson return full_le_lduw_mmu(env, addr, oi, retaddr); 14032dd92606SRichard Henderson } 14042dd92606SRichard Henderson 14052dd92606SRichard Henderson static uint64_t full_be_lduw_mmu(CPUArchState *env, target_ulong addr, 14062dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 14072dd92606SRichard Henderson { 1408*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEUW, false, 14092dd92606SRichard Henderson full_be_lduw_mmu); 1410eed56642SAlex Bennée } 1411eed56642SAlex Bennée 1412fc1bc777SRichard Henderson tcg_target_ulong helper_be_lduw_mmu(CPUArchState *env, target_ulong addr, 1413fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1414eed56642SAlex Bennée { 14152dd92606SRichard Henderson return full_be_lduw_mmu(env, addr, oi, retaddr); 14162dd92606SRichard Henderson } 14172dd92606SRichard Henderson 14182dd92606SRichard Henderson static uint64_t full_le_ldul_mmu(CPUArchState *env, target_ulong addr, 14192dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 14202dd92606SRichard Henderson { 1421*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEUL, false, 14222dd92606SRichard Henderson full_le_ldul_mmu); 1423eed56642SAlex Bennée } 1424eed56642SAlex Bennée 1425fc1bc777SRichard Henderson tcg_target_ulong helper_le_ldul_mmu(CPUArchState *env, target_ulong addr, 1426fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1427eed56642SAlex Bennée { 14282dd92606SRichard Henderson return full_le_ldul_mmu(env, addr, oi, retaddr); 14292dd92606SRichard Henderson } 14302dd92606SRichard Henderson 14312dd92606SRichard Henderson static uint64_t full_be_ldul_mmu(CPUArchState *env, target_ulong addr, 14322dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 14332dd92606SRichard Henderson { 1434*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEUL, false, 14352dd92606SRichard Henderson full_be_ldul_mmu); 1436eed56642SAlex Bennée } 1437eed56642SAlex Bennée 1438fc1bc777SRichard Henderson tcg_target_ulong helper_be_ldul_mmu(CPUArchState *env, target_ulong addr, 1439fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1440eed56642SAlex Bennée { 14412dd92606SRichard Henderson return full_be_ldul_mmu(env, addr, oi, retaddr); 1442eed56642SAlex Bennée } 1443eed56642SAlex Bennée 1444fc1bc777SRichard Henderson uint64_t helper_le_ldq_mmu(CPUArchState *env, target_ulong addr, 1445fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1446eed56642SAlex Bennée { 1447*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEQ, false, 14482dd92606SRichard Henderson helper_le_ldq_mmu); 1449eed56642SAlex Bennée } 1450eed56642SAlex Bennée 1451fc1bc777SRichard Henderson uint64_t helper_be_ldq_mmu(CPUArchState *env, target_ulong addr, 1452fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1453eed56642SAlex Bennée { 1454*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEQ, false, 14552dd92606SRichard Henderson helper_be_ldq_mmu); 1456eed56642SAlex Bennée } 1457eed56642SAlex Bennée 1458eed56642SAlex Bennée /* 1459eed56642SAlex Bennée * Provide signed versions of the load routines as well. We can of course 1460eed56642SAlex Bennée * avoid this for 64-bit data, or for 32-bit data on 32-bit host. 1461eed56642SAlex Bennée */ 1462eed56642SAlex Bennée 1463eed56642SAlex Bennée 1464eed56642SAlex Bennée tcg_target_ulong helper_ret_ldsb_mmu(CPUArchState *env, target_ulong addr, 1465eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1466eed56642SAlex Bennée { 1467eed56642SAlex Bennée return (int8_t)helper_ret_ldub_mmu(env, addr, oi, retaddr); 1468eed56642SAlex Bennée } 1469eed56642SAlex Bennée 1470eed56642SAlex Bennée tcg_target_ulong helper_le_ldsw_mmu(CPUArchState *env, target_ulong addr, 1471eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1472eed56642SAlex Bennée { 1473eed56642SAlex Bennée return (int16_t)helper_le_lduw_mmu(env, addr, oi, retaddr); 1474eed56642SAlex Bennée } 1475eed56642SAlex Bennée 1476eed56642SAlex Bennée tcg_target_ulong helper_be_ldsw_mmu(CPUArchState *env, target_ulong addr, 1477eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1478eed56642SAlex Bennée { 1479eed56642SAlex Bennée return (int16_t)helper_be_lduw_mmu(env, addr, oi, retaddr); 1480eed56642SAlex Bennée } 1481eed56642SAlex Bennée 1482eed56642SAlex Bennée tcg_target_ulong helper_le_ldsl_mmu(CPUArchState *env, target_ulong addr, 1483eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1484eed56642SAlex Bennée { 1485eed56642SAlex Bennée return (int32_t)helper_le_ldul_mmu(env, addr, oi, retaddr); 1486eed56642SAlex Bennée } 1487eed56642SAlex Bennée 1488eed56642SAlex Bennée tcg_target_ulong helper_be_ldsl_mmu(CPUArchState *env, target_ulong addr, 1489eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1490eed56642SAlex Bennée { 1491eed56642SAlex Bennée return (int32_t)helper_be_ldul_mmu(env, addr, oi, retaddr); 1492eed56642SAlex Bennée } 1493eed56642SAlex Bennée 1494eed56642SAlex Bennée /* 1495eed56642SAlex Bennée * Store Helpers 1496eed56642SAlex Bennée */ 1497eed56642SAlex Bennée 14984601f8d1SRichard Henderson static inline void __attribute__((always_inline)) 14994601f8d1SRichard Henderson store_helper(CPUArchState *env, target_ulong addr, uint64_t val, 1500*be5c4787STony Nguyen TCGMemOpIdx oi, uintptr_t retaddr, MemOp op) 1501eed56642SAlex Bennée { 1502eed56642SAlex Bennée uintptr_t mmu_idx = get_mmuidx(oi); 1503eed56642SAlex Bennée uintptr_t index = tlb_index(env, mmu_idx, addr); 1504eed56642SAlex Bennée CPUTLBEntry *entry = tlb_entry(env, mmu_idx, addr); 1505eed56642SAlex Bennée target_ulong tlb_addr = tlb_addr_write(entry); 1506eed56642SAlex Bennée const size_t tlb_off = offsetof(CPUTLBEntry, addr_write); 1507eed56642SAlex Bennée unsigned a_bits = get_alignment_bits(get_memop(oi)); 1508eed56642SAlex Bennée void *haddr; 1509*be5c4787STony Nguyen size_t size = memop_size(op); 1510eed56642SAlex Bennée 1511eed56642SAlex Bennée /* Handle CPU specific unaligned behaviour */ 1512eed56642SAlex Bennée if (addr & ((1 << a_bits) - 1)) { 151329a0af61SRichard Henderson cpu_unaligned_access(env_cpu(env), addr, MMU_DATA_STORE, 1514eed56642SAlex Bennée mmu_idx, retaddr); 1515eed56642SAlex Bennée } 1516eed56642SAlex Bennée 1517eed56642SAlex Bennée /* If the TLB entry is for a different page, reload and try again. */ 1518eed56642SAlex Bennée if (!tlb_hit(tlb_addr, addr)) { 1519eed56642SAlex Bennée if (!victim_tlb_hit(env, mmu_idx, index, tlb_off, 1520eed56642SAlex Bennée addr & TARGET_PAGE_MASK)) { 152129a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, size, MMU_DATA_STORE, 1522eed56642SAlex Bennée mmu_idx, retaddr); 1523eed56642SAlex Bennée index = tlb_index(env, mmu_idx, addr); 1524eed56642SAlex Bennée entry = tlb_entry(env, mmu_idx, addr); 1525eed56642SAlex Bennée } 1526eed56642SAlex Bennée tlb_addr = tlb_addr_write(entry) & ~TLB_INVALID_MASK; 1527eed56642SAlex Bennée } 1528eed56642SAlex Bennée 1529eed56642SAlex Bennée /* Handle an IO access. */ 1530eed56642SAlex Bennée if (unlikely(tlb_addr & ~TARGET_PAGE_MASK)) { 1531eed56642SAlex Bennée if ((addr & (size - 1)) != 0) { 1532eed56642SAlex Bennée goto do_unaligned_access; 1533eed56642SAlex Bennée } 1534eed56642SAlex Bennée 1535f1be3696SRichard Henderson if (tlb_addr & TLB_RECHECK) { 1536f1be3696SRichard Henderson /* 1537f1be3696SRichard Henderson * This is a TLB_RECHECK access, where the MMU protection 1538f1be3696SRichard Henderson * covers a smaller range than a target page, and we must 1539f1be3696SRichard Henderson * repeat the MMU check here. This tlb_fill() call might 1540f1be3696SRichard Henderson * longjump out if this access should cause a guest exception. 1541f1be3696SRichard Henderson */ 154229a0af61SRichard Henderson tlb_fill(env_cpu(env), addr, size, MMU_DATA_STORE, 1543f1be3696SRichard Henderson mmu_idx, retaddr); 1544f1be3696SRichard Henderson index = tlb_index(env, mmu_idx, addr); 1545f1be3696SRichard Henderson entry = tlb_entry(env, mmu_idx, addr); 1546f1be3696SRichard Henderson 1547f1be3696SRichard Henderson tlb_addr = tlb_addr_write(entry); 1548f1be3696SRichard Henderson tlb_addr &= ~TLB_RECHECK; 1549f1be3696SRichard Henderson if (!(tlb_addr & ~TARGET_PAGE_MASK)) { 1550f1be3696SRichard Henderson /* RAM access */ 1551f1be3696SRichard Henderson goto do_aligned_access; 1552f1be3696SRichard Henderson } 1553f1be3696SRichard Henderson } 1554f1be3696SRichard Henderson 1555d5d680caSTony Nguyen /* TODO: Merge bswap into io_writex -> memory_region_dispatch_write. */ 1556a40ec84eSRichard Henderson io_writex(env, &env_tlb(env)->d[mmu_idx].iotlb[index], mmu_idx, 1557*be5c4787STony Nguyen handle_bswap(val, op), 1558*be5c4787STony Nguyen addr, retaddr, op); 1559eed56642SAlex Bennée return; 1560eed56642SAlex Bennée } 1561eed56642SAlex Bennée 1562eed56642SAlex Bennée /* Handle slow unaligned access (it spans two pages or IO). */ 1563eed56642SAlex Bennée if (size > 1 1564eed56642SAlex Bennée && unlikely((addr & ~TARGET_PAGE_MASK) + size - 1 1565eed56642SAlex Bennée >= TARGET_PAGE_SIZE)) { 1566eed56642SAlex Bennée int i; 1567eed56642SAlex Bennée uintptr_t index2; 1568eed56642SAlex Bennée CPUTLBEntry *entry2; 1569eed56642SAlex Bennée target_ulong page2, tlb_addr2; 1570eed56642SAlex Bennée do_unaligned_access: 1571eed56642SAlex Bennée /* 1572eed56642SAlex Bennée * Ensure the second page is in the TLB. Note that the first page 1573eed56642SAlex Bennée * is already guaranteed to be filled, and that the second page 1574eed56642SAlex Bennée * cannot evict the first. 1575eed56642SAlex Bennée */ 1576eed56642SAlex Bennée page2 = (addr + size) & TARGET_PAGE_MASK; 1577eed56642SAlex Bennée index2 = tlb_index(env, mmu_idx, page2); 1578eed56642SAlex Bennée entry2 = tlb_entry(env, mmu_idx, page2); 1579eed56642SAlex Bennée tlb_addr2 = tlb_addr_write(entry2); 1580eed56642SAlex Bennée if (!tlb_hit_page(tlb_addr2, page2) 1581eed56642SAlex Bennée && !victim_tlb_hit(env, mmu_idx, index2, tlb_off, 1582eed56642SAlex Bennée page2 & TARGET_PAGE_MASK)) { 158329a0af61SRichard Henderson tlb_fill(env_cpu(env), page2, size, MMU_DATA_STORE, 1584eed56642SAlex Bennée mmu_idx, retaddr); 1585eed56642SAlex Bennée } 1586eed56642SAlex Bennée 1587eed56642SAlex Bennée /* 1588eed56642SAlex Bennée * XXX: not efficient, but simple. 1589eed56642SAlex Bennée * This loop must go in the forward direction to avoid issues 1590eed56642SAlex Bennée * with self-modifying code in Windows 64-bit. 1591eed56642SAlex Bennée */ 1592eed56642SAlex Bennée for (i = 0; i < size; ++i) { 1593eed56642SAlex Bennée uint8_t val8; 1594*be5c4787STony Nguyen if (memop_big_endian(op)) { 1595eed56642SAlex Bennée /* Big-endian extract. */ 1596eed56642SAlex Bennée val8 = val >> (((size - 1) * 8) - (i * 8)); 1597eed56642SAlex Bennée } else { 1598eed56642SAlex Bennée /* Little-endian extract. */ 1599eed56642SAlex Bennée val8 = val >> (i * 8); 1600eed56642SAlex Bennée } 16014601f8d1SRichard Henderson helper_ret_stb_mmu(env, addr + i, val8, oi, retaddr); 1602eed56642SAlex Bennée } 1603eed56642SAlex Bennée return; 1604eed56642SAlex Bennée } 1605eed56642SAlex Bennée 1606f1be3696SRichard Henderson do_aligned_access: 1607eed56642SAlex Bennée haddr = (void *)((uintptr_t)addr + entry->addend); 1608*be5c4787STony Nguyen switch (op) { 1609*be5c4787STony Nguyen case MO_UB: 1610eed56642SAlex Bennée stb_p(haddr, val); 1611eed56642SAlex Bennée break; 1612*be5c4787STony Nguyen case MO_BEUW: 1613eed56642SAlex Bennée stw_be_p(haddr, val); 1614*be5c4787STony Nguyen break; 1615*be5c4787STony Nguyen case MO_LEUW: 1616eed56642SAlex Bennée stw_le_p(haddr, val); 1617eed56642SAlex Bennée break; 1618*be5c4787STony Nguyen case MO_BEUL: 1619eed56642SAlex Bennée stl_be_p(haddr, val); 1620eed56642SAlex Bennée break; 1621*be5c4787STony Nguyen case MO_LEUL: 1622*be5c4787STony Nguyen stl_le_p(haddr, val); 1623*be5c4787STony Nguyen break; 1624*be5c4787STony Nguyen case MO_BEQ: 1625eed56642SAlex Bennée stq_be_p(haddr, val); 1626*be5c4787STony Nguyen break; 1627*be5c4787STony Nguyen case MO_LEQ: 1628eed56642SAlex Bennée stq_le_p(haddr, val); 1629eed56642SAlex Bennée break; 1630eed56642SAlex Bennée default: 1631eed56642SAlex Bennée g_assert_not_reached(); 1632eed56642SAlex Bennée break; 1633eed56642SAlex Bennée } 1634eed56642SAlex Bennée } 1635eed56642SAlex Bennée 1636fc1bc777SRichard Henderson void helper_ret_stb_mmu(CPUArchState *env, target_ulong addr, uint8_t val, 1637eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1638eed56642SAlex Bennée { 1639*be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_UB); 1640eed56642SAlex Bennée } 1641eed56642SAlex Bennée 1642fc1bc777SRichard Henderson void helper_le_stw_mmu(CPUArchState *env, target_ulong addr, uint16_t val, 1643eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1644eed56642SAlex Bennée { 1645*be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_LEUW); 1646eed56642SAlex Bennée } 1647eed56642SAlex Bennée 1648fc1bc777SRichard Henderson void helper_be_stw_mmu(CPUArchState *env, target_ulong addr, uint16_t val, 1649eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1650eed56642SAlex Bennée { 1651*be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_BEUW); 1652eed56642SAlex Bennée } 1653eed56642SAlex Bennée 1654fc1bc777SRichard Henderson void helper_le_stl_mmu(CPUArchState *env, target_ulong addr, uint32_t val, 1655eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1656eed56642SAlex Bennée { 1657*be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_LEUL); 1658eed56642SAlex Bennée } 1659eed56642SAlex Bennée 1660fc1bc777SRichard Henderson void helper_be_stl_mmu(CPUArchState *env, target_ulong addr, uint32_t val, 1661eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1662eed56642SAlex Bennée { 1663*be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_BEUL); 1664eed56642SAlex Bennée } 1665eed56642SAlex Bennée 1666fc1bc777SRichard Henderson void helper_le_stq_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 1667eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1668eed56642SAlex Bennée { 1669*be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_LEQ); 1670eed56642SAlex Bennée } 1671eed56642SAlex Bennée 1672fc1bc777SRichard Henderson void helper_be_stq_mmu(CPUArchState *env, target_ulong addr, uint64_t val, 1673eed56642SAlex Bennée TCGMemOpIdx oi, uintptr_t retaddr) 1674eed56642SAlex Bennée { 1675*be5c4787STony Nguyen store_helper(env, addr, val, oi, retaddr, MO_BEQ); 1676eed56642SAlex Bennée } 1677d9bb58e5SYang Zhong 1678d9bb58e5SYang Zhong /* First set of helpers allows passing in of OI and RETADDR. This makes 1679d9bb58e5SYang Zhong them callable from other helpers. */ 1680d9bb58e5SYang Zhong 1681d9bb58e5SYang Zhong #define EXTRA_ARGS , TCGMemOpIdx oi, uintptr_t retaddr 1682d9bb58e5SYang Zhong #define ATOMIC_NAME(X) \ 1683d9bb58e5SYang Zhong HELPER(glue(glue(glue(atomic_ ## X, SUFFIX), END), _mmu)) 168434d49937SPeter Maydell #define ATOMIC_MMU_DECLS NotDirtyInfo ndi 168534d49937SPeter Maydell #define ATOMIC_MMU_LOOKUP atomic_mmu_lookup(env, addr, oi, retaddr, &ndi) 168634d49937SPeter Maydell #define ATOMIC_MMU_CLEANUP \ 168734d49937SPeter Maydell do { \ 168834d49937SPeter Maydell if (unlikely(ndi.active)) { \ 168934d49937SPeter Maydell memory_notdirty_write_complete(&ndi); \ 169034d49937SPeter Maydell } \ 169134d49937SPeter Maydell } while (0) 1692d9bb58e5SYang Zhong 1693d9bb58e5SYang Zhong #define DATA_SIZE 1 1694d9bb58e5SYang Zhong #include "atomic_template.h" 1695d9bb58e5SYang Zhong 1696d9bb58e5SYang Zhong #define DATA_SIZE 2 1697d9bb58e5SYang Zhong #include "atomic_template.h" 1698d9bb58e5SYang Zhong 1699d9bb58e5SYang Zhong #define DATA_SIZE 4 1700d9bb58e5SYang Zhong #include "atomic_template.h" 1701d9bb58e5SYang Zhong 1702d9bb58e5SYang Zhong #ifdef CONFIG_ATOMIC64 1703d9bb58e5SYang Zhong #define DATA_SIZE 8 1704d9bb58e5SYang Zhong #include "atomic_template.h" 1705d9bb58e5SYang Zhong #endif 1706d9bb58e5SYang Zhong 1707e6cd4bb5SRichard Henderson #if HAVE_CMPXCHG128 || HAVE_ATOMIC128 1708d9bb58e5SYang Zhong #define DATA_SIZE 16 1709d9bb58e5SYang Zhong #include "atomic_template.h" 1710d9bb58e5SYang Zhong #endif 1711d9bb58e5SYang Zhong 1712d9bb58e5SYang Zhong /* Second set of helpers are directly callable from TCG as helpers. */ 1713d9bb58e5SYang Zhong 1714d9bb58e5SYang Zhong #undef EXTRA_ARGS 1715d9bb58e5SYang Zhong #undef ATOMIC_NAME 1716d9bb58e5SYang Zhong #undef ATOMIC_MMU_LOOKUP 1717d9bb58e5SYang Zhong #define EXTRA_ARGS , TCGMemOpIdx oi 1718d9bb58e5SYang Zhong #define ATOMIC_NAME(X) HELPER(glue(glue(atomic_ ## X, SUFFIX), END)) 171934d49937SPeter Maydell #define ATOMIC_MMU_LOOKUP atomic_mmu_lookup(env, addr, oi, GETPC(), &ndi) 1720d9bb58e5SYang Zhong 1721d9bb58e5SYang Zhong #define DATA_SIZE 1 1722d9bb58e5SYang Zhong #include "atomic_template.h" 1723d9bb58e5SYang Zhong 1724d9bb58e5SYang Zhong #define DATA_SIZE 2 1725d9bb58e5SYang Zhong #include "atomic_template.h" 1726d9bb58e5SYang Zhong 1727d9bb58e5SYang Zhong #define DATA_SIZE 4 1728d9bb58e5SYang Zhong #include "atomic_template.h" 1729d9bb58e5SYang Zhong 1730d9bb58e5SYang Zhong #ifdef CONFIG_ATOMIC64 1731d9bb58e5SYang Zhong #define DATA_SIZE 8 1732d9bb58e5SYang Zhong #include "atomic_template.h" 1733d9bb58e5SYang Zhong #endif 1734d9bb58e5SYang Zhong 1735d9bb58e5SYang Zhong /* Code access functions. */ 1736d9bb58e5SYang Zhong 17372dd92606SRichard Henderson static uint64_t full_ldub_cmmu(CPUArchState *env, target_ulong addr, 17382dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 17392dd92606SRichard Henderson { 1740*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_8, true, full_ldub_cmmu); 17412dd92606SRichard Henderson } 17422dd92606SRichard Henderson 1743fc1bc777SRichard Henderson uint8_t helper_ret_ldb_cmmu(CPUArchState *env, target_ulong addr, 1744fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1745eed56642SAlex Bennée { 17462dd92606SRichard Henderson return full_ldub_cmmu(env, addr, oi, retaddr); 17472dd92606SRichard Henderson } 17482dd92606SRichard Henderson 17492dd92606SRichard Henderson static uint64_t full_le_lduw_cmmu(CPUArchState *env, target_ulong addr, 17502dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 17512dd92606SRichard Henderson { 1752*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEUW, true, 17532dd92606SRichard Henderson full_le_lduw_cmmu); 1754eed56642SAlex Bennée } 1755d9bb58e5SYang Zhong 1756fc1bc777SRichard Henderson uint16_t helper_le_ldw_cmmu(CPUArchState *env, target_ulong addr, 1757fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1758eed56642SAlex Bennée { 17592dd92606SRichard Henderson return full_le_lduw_cmmu(env, addr, oi, retaddr); 17602dd92606SRichard Henderson } 17612dd92606SRichard Henderson 17622dd92606SRichard Henderson static uint64_t full_be_lduw_cmmu(CPUArchState *env, target_ulong addr, 17632dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 17642dd92606SRichard Henderson { 1765*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEUW, true, 17662dd92606SRichard Henderson full_be_lduw_cmmu); 1767eed56642SAlex Bennée } 1768d9bb58e5SYang Zhong 1769fc1bc777SRichard Henderson uint16_t helper_be_ldw_cmmu(CPUArchState *env, target_ulong addr, 1770fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1771eed56642SAlex Bennée { 17722dd92606SRichard Henderson return full_be_lduw_cmmu(env, addr, oi, retaddr); 17732dd92606SRichard Henderson } 17742dd92606SRichard Henderson 17752dd92606SRichard Henderson static uint64_t full_le_ldul_cmmu(CPUArchState *env, target_ulong addr, 17762dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 17772dd92606SRichard Henderson { 1778*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEUL, true, 17792dd92606SRichard Henderson full_le_ldul_cmmu); 1780eed56642SAlex Bennée } 1781d9bb58e5SYang Zhong 1782fc1bc777SRichard Henderson uint32_t helper_le_ldl_cmmu(CPUArchState *env, target_ulong addr, 1783fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1784eed56642SAlex Bennée { 17852dd92606SRichard Henderson return full_le_ldul_cmmu(env, addr, oi, retaddr); 17862dd92606SRichard Henderson } 17872dd92606SRichard Henderson 17882dd92606SRichard Henderson static uint64_t full_be_ldul_cmmu(CPUArchState *env, target_ulong addr, 17892dd92606SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 17902dd92606SRichard Henderson { 1791*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEUL, true, 17922dd92606SRichard Henderson full_be_ldul_cmmu); 1793eed56642SAlex Bennée } 1794d9bb58e5SYang Zhong 1795fc1bc777SRichard Henderson uint32_t helper_be_ldl_cmmu(CPUArchState *env, target_ulong addr, 1796fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1797eed56642SAlex Bennée { 17982dd92606SRichard Henderson return full_be_ldul_cmmu(env, addr, oi, retaddr); 1799eed56642SAlex Bennée } 1800eed56642SAlex Bennée 1801fc1bc777SRichard Henderson uint64_t helper_le_ldq_cmmu(CPUArchState *env, target_ulong addr, 1802fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1803eed56642SAlex Bennée { 1804*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_LEQ, true, 18052dd92606SRichard Henderson helper_le_ldq_cmmu); 1806eed56642SAlex Bennée } 1807eed56642SAlex Bennée 1808fc1bc777SRichard Henderson uint64_t helper_be_ldq_cmmu(CPUArchState *env, target_ulong addr, 1809fc1bc777SRichard Henderson TCGMemOpIdx oi, uintptr_t retaddr) 1810eed56642SAlex Bennée { 1811*be5c4787STony Nguyen return load_helper(env, addr, oi, retaddr, MO_BEQ, true, 18122dd92606SRichard Henderson helper_be_ldq_cmmu); 1813eed56642SAlex Bennée } 1814