[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]
[PULL 23/34] target/arm: Reuse sve_probe_page for gather first-fault loa
|
From: |
Peter Maydell |
|
Subject: |
[PULL 23/34] target/arm: Reuse sve_probe_page for gather first-fault loads |
|
Date: |
Mon, 11 May 2020 14:33:54 +0100 |
From: Richard Henderson <address@hidden>
This avoids the need for a separate set of helpers to implement
no-fault semantics, and will enable MTE in the future.
Reviewed-by: Peter Maydell <address@hidden>
Signed-off-by: Richard Henderson <address@hidden>
Message-id: address@hidden
Signed-off-by: Peter Maydell <address@hidden>
---
target/arm/sve_helper.c | 323 ++++++++++++++++------------------------
1 file changed, 127 insertions(+), 196 deletions(-)
diff --git a/target/arm/sve_helper.c b/target/arm/sve_helper.c
index 4ed9bbe1ee0..1560129b080 100644
--- a/target/arm/sve_helper.c
+++ b/target/arm/sve_helper.c
@@ -5254,231 +5254,162 @@ DO_LD1_ZPZ_D(dd_be, zd)
/* First fault loads with a vector index. */
-/* Load one element into VD+REG_OFF from (ENV,VADDR) without faulting.
- * The controlling predicate is known to be true. Return true if the
- * load was successful.
- */
-typedef bool sve_ld1_nf_fn(CPUARMState *env, void *vd, intptr_t reg_off,
- target_ulong vaddr, int mmu_idx);
-
-#ifdef CONFIG_SOFTMMU
-#define DO_LD_NF(NAME, H, TYPEE, TYPEM, HOST) \
-static bool sve_ld##NAME##_nf(CPUARMState *env, void *vd, intptr_t reg_off, \
- target_ulong addr, int mmu_idx) \
-{ \
- target_ulong next_page = -(addr | TARGET_PAGE_MASK); \
- if (likely(next_page - addr >= sizeof(TYPEM))) { \
- void *host = tlb_vaddr_to_host(env, addr, MMU_DATA_LOAD, mmu_idx); \
- if (likely(host)) { \
- TYPEM val = HOST(host); \
- *(TYPEE *)(vd + H(reg_off)) = val; \
- return true; \
- } \
- } \
- return false; \
-}
-#else
-#define DO_LD_NF(NAME, H, TYPEE, TYPEM, HOST) \
-static bool sve_ld##NAME##_nf(CPUARMState *env, void *vd, intptr_t reg_off, \
- target_ulong addr, int mmu_idx) \
-{ \
- if (likely(page_check_range(addr, sizeof(TYPEM), PAGE_READ))) { \
- TYPEM val = HOST(g2h(addr)); \
- *(TYPEE *)(vd + H(reg_off)) = val; \
- return true; \
- } \
- return false; \
-}
-#endif
-
-DO_LD_NF(bsu, H1_4, uint32_t, uint8_t, ldub_p)
-DO_LD_NF(bss, H1_4, uint32_t, int8_t, ldsb_p)
-DO_LD_NF(bdu, , uint64_t, uint8_t, ldub_p)
-DO_LD_NF(bds, , uint64_t, int8_t, ldsb_p)
-
-DO_LD_NF(hsu_le, H1_4, uint32_t, uint16_t, lduw_le_p)
-DO_LD_NF(hss_le, H1_4, uint32_t, int16_t, ldsw_le_p)
-DO_LD_NF(hsu_be, H1_4, uint32_t, uint16_t, lduw_be_p)
-DO_LD_NF(hss_be, H1_4, uint32_t, int16_t, ldsw_be_p)
-DO_LD_NF(hdu_le, , uint64_t, uint16_t, lduw_le_p)
-DO_LD_NF(hds_le, , uint64_t, int16_t, ldsw_le_p)
-DO_LD_NF(hdu_be, , uint64_t, uint16_t, lduw_be_p)
-DO_LD_NF(hds_be, , uint64_t, int16_t, ldsw_be_p)
-
-DO_LD_NF(ss_le, H1_4, uint32_t, uint32_t, ldl_le_p)
-DO_LD_NF(ss_be, H1_4, uint32_t, uint32_t, ldl_be_p)
-DO_LD_NF(sdu_le, , uint64_t, uint32_t, ldl_le_p)
-DO_LD_NF(sds_le, , uint64_t, int32_t, ldl_le_p)
-DO_LD_NF(sdu_be, , uint64_t, uint32_t, ldl_be_p)
-DO_LD_NF(sds_be, , uint64_t, int32_t, ldl_be_p)
-
-DO_LD_NF(dd_le, , uint64_t, uint64_t, ldq_le_p)
-DO_LD_NF(dd_be, , uint64_t, uint64_t, ldq_be_p)
-
/*
- * Common helper for all gather first-faulting loads.
+ * Common helpers for all gather first-faulting loads.
*/
-static inline void sve_ldff1_zs(CPUARMState *env, void *vd, void *vg, void *vm,
- target_ulong base, uint32_t desc, uintptr_t ra,
- zreg_off_fn *off_fn, sve_ldst1_tlb_fn *tlb_fn,
- sve_ld1_nf_fn *nonfault_fn)
+
+static inline QEMU_ALWAYS_INLINE
+void sve_ldff1_z(CPUARMState *env, void *vd, uint64_t *vg, void *vm,
+ target_ulong base, uint32_t desc, uintptr_t retaddr,
+ const int esz, const int msz, zreg_off_fn *off_fn,
+ sve_ldst1_host_fn *host_fn,
+ sve_ldst1_tlb_fn *tlb_fn)
{
- const TCGMemOpIdx oi = extract32(desc, SIMD_DATA_SHIFT, MEMOPIDX_SHIFT);
- const int mmu_idx = get_mmuidx(oi);
+ const int mmu_idx = cpu_mmu_index(env, false);
const int scale = extract32(desc, SIMD_DATA_SHIFT + MEMOPIDX_SHIFT, 2);
- intptr_t reg_off, reg_max = simd_oprsz(desc);
- target_ulong addr;
+ const int esize = 1 << esz;
+ const int msize = 1 << msz;
+ const intptr_t reg_max = simd_oprsz(desc);
+ intptr_t reg_off;
+ SVEHostPage info;
+ target_ulong addr, in_page;
/* Skip to the first true predicate. */
- reg_off = find_next_active(vg, 0, reg_max, MO_32);
- if (likely(reg_off < reg_max)) {
- /* Perform one normal read, which will fault or not. */
- addr = off_fn(vm, reg_off);
- addr = base + (addr << scale);
- tlb_fn(env, vd, reg_off, addr, ra);
-
- /* The rest of the reads will be non-faulting. */
+ reg_off = find_next_active(vg, 0, reg_max, esz);
+ if (unlikely(reg_off >= reg_max)) {
+ /* The entire predicate was false; no load occurs. */
+ memset(vd, 0, reg_max);
+ return;
}
- /* After any fault, zero the leading predicated false elements. */
+ /*
+ * Probe the first element, allowing faults.
+ */
+ addr = base + (off_fn(vm, reg_off) << scale);
+ tlb_fn(env, vd, reg_off, addr, retaddr);
+
+ /* After any fault, zero the other elements. */
swap_memzero(vd, reg_off);
+ reg_off += esize;
+ swap_memzero(vd + reg_off, reg_max - reg_off);
- while (likely((reg_off += 4) < reg_max)) {
- uint64_t pg = *(uint64_t *)(vg + (reg_off >> 6) * 8);
- if (likely((pg >> (reg_off & 63)) & 1)) {
- addr = off_fn(vm, reg_off);
- addr = base + (addr << scale);
- if (!nonfault_fn(env, vd, reg_off, addr, mmu_idx)) {
- record_fault(env, reg_off, reg_max);
- break;
+ /*
+ * Probe the remaining elements, not allowing faults.
+ */
+ while (reg_off < reg_max) {
+ uint64_t pg = vg[reg_off >> 6];
+ do {
+ if (likely((pg >> (reg_off & 63)) & 1)) {
+ addr = base + (off_fn(vm, reg_off) << scale);
+ in_page = -(addr | TARGET_PAGE_MASK);
+
+ if (unlikely(in_page < msize)) {
+ /* Stop if the element crosses a page boundary. */
+ goto fault;
+ }
+
+ sve_probe_page(&info, true, env, addr, 0, MMU_DATA_LOAD,
+ mmu_idx, retaddr);
+ if (unlikely(info.flags & (TLB_INVALID_MASK | TLB_MMIO))) {
+ goto fault;
+ }
+ if (unlikely(info.flags & TLB_WATCHPOINT) &&
+ (cpu_watchpoint_address_matches
+ (env_cpu(env), addr, msize) & BP_MEM_READ)) {
+ goto fault;
+ }
+ /* TODO: MTE check. */
+
+ host_fn(vd, reg_off, info.host);
}
- } else {
- *(uint32_t *)(vd + H1_4(reg_off)) = 0;
- }
+ reg_off += esize;
+ } while (reg_off & 63);
}
+ return;
+
+ fault:
+ record_fault(env, reg_off, reg_max);
}
-static inline void sve_ldff1_zd(CPUARMState *env, void *vd, void *vg, void *vm,
- target_ulong base, uint32_t desc, uintptr_t ra,
- zreg_off_fn *off_fn, sve_ldst1_tlb_fn *tlb_fn,
- sve_ld1_nf_fn *nonfault_fn)
-{
- const TCGMemOpIdx oi = extract32(desc, SIMD_DATA_SHIFT, MEMOPIDX_SHIFT);
- const int mmu_idx = get_mmuidx(oi);
- const int scale = extract32(desc, SIMD_DATA_SHIFT + MEMOPIDX_SHIFT, 2);
- intptr_t reg_off, reg_max = simd_oprsz(desc);
- target_ulong addr;
-
- /* Skip to the first true predicate. */
- reg_off = find_next_active(vg, 0, reg_max, MO_64);
- if (likely(reg_off < reg_max)) {
- /* Perform one normal read, which will fault or not. */
- addr = off_fn(vm, reg_off);
- addr = base + (addr << scale);
- tlb_fn(env, vd, reg_off, addr, ra);
-
- /* The rest of the reads will be non-faulting. */
- }
-
- /* After any fault, zero the leading predicated false elements. */
- swap_memzero(vd, reg_off);
-
- while (likely((reg_off += 8) < reg_max)) {
- uint8_t pg = *(uint8_t *)(vg + H1(reg_off >> 3));
- if (likely(pg & 1)) {
- addr = off_fn(vm, reg_off);
- addr = base + (addr << scale);
- if (!nonfault_fn(env, vd, reg_off, addr, mmu_idx)) {
- record_fault(env, reg_off, reg_max);
- break;
- }
- } else {
- *(uint64_t *)(vd + reg_off) = 0;
- }
- }
+#define DO_LDFF1_ZPZ_S(MEM, OFS, MSZ) \
+void HELPER(sve_ldff##MEM##_##OFS)(CPUARMState *env, void *vd, void *vg,
\
+ void *vm, target_ulong base, uint32_t desc)
\
+{
\
+ sve_ldff1_z(env, vd, vg, vm, base, desc, GETPC(), MO_32, MSZ,
\
+ off_##OFS##_s, sve_ld1##MEM##_host, sve_ld1##MEM##_tlb);
\
}
-#define DO_LDFF1_ZPZ_S(MEM, OFS) \
-void HELPER(sve_ldff##MEM##_##OFS) \
- (CPUARMState *env, void *vd, void *vg, void *vm, \
- target_ulong base, uint32_t desc) \
-{ \
- sve_ldff1_zs(env, vd, vg, vm, base, desc, GETPC(), \
- off_##OFS##_s, sve_ld1##MEM##_tlb, sve_ld##MEM##_nf); \
+#define DO_LDFF1_ZPZ_D(MEM, OFS, MSZ) \
+void HELPER(sve_ldff##MEM##_##OFS)(CPUARMState *env, void *vd, void *vg,
\
+ void *vm, target_ulong base, uint32_t desc)
\
+{
\
+ sve_ldff1_z(env, vd, vg, vm, base, desc, GETPC(), MO_64, MSZ,
\
+ off_##OFS##_d, sve_ld1##MEM##_host, sve_ld1##MEM##_tlb);
\
}
-#define DO_LDFF1_ZPZ_D(MEM, OFS) \
-void HELPER(sve_ldff##MEM##_##OFS) \
- (CPUARMState *env, void *vd, void *vg, void *vm, \
- target_ulong base, uint32_t desc) \
-{ \
- sve_ldff1_zd(env, vd, vg, vm, base, desc, GETPC(), \
- off_##OFS##_d, sve_ld1##MEM##_tlb, sve_ld##MEM##_nf); \
-}
+DO_LDFF1_ZPZ_S(bsu, zsu, MO_8)
+DO_LDFF1_ZPZ_S(bsu, zss, MO_8)
+DO_LDFF1_ZPZ_D(bdu, zsu, MO_8)
+DO_LDFF1_ZPZ_D(bdu, zss, MO_8)
+DO_LDFF1_ZPZ_D(bdu, zd, MO_8)
-DO_LDFF1_ZPZ_S(bsu, zsu)
-DO_LDFF1_ZPZ_S(bsu, zss)
-DO_LDFF1_ZPZ_D(bdu, zsu)
-DO_LDFF1_ZPZ_D(bdu, zss)
-DO_LDFF1_ZPZ_D(bdu, zd)
+DO_LDFF1_ZPZ_S(bss, zsu, MO_8)
+DO_LDFF1_ZPZ_S(bss, zss, MO_8)
+DO_LDFF1_ZPZ_D(bds, zsu, MO_8)
+DO_LDFF1_ZPZ_D(bds, zss, MO_8)
+DO_LDFF1_ZPZ_D(bds, zd, MO_8)
-DO_LDFF1_ZPZ_S(bss, zsu)
-DO_LDFF1_ZPZ_S(bss, zss)
-DO_LDFF1_ZPZ_D(bds, zsu)
-DO_LDFF1_ZPZ_D(bds, zss)
-DO_LDFF1_ZPZ_D(bds, zd)
+DO_LDFF1_ZPZ_S(hsu_le, zsu, MO_16)
+DO_LDFF1_ZPZ_S(hsu_le, zss, MO_16)
+DO_LDFF1_ZPZ_D(hdu_le, zsu, MO_16)
+DO_LDFF1_ZPZ_D(hdu_le, zss, MO_16)
+DO_LDFF1_ZPZ_D(hdu_le, zd, MO_16)
-DO_LDFF1_ZPZ_S(hsu_le, zsu)
-DO_LDFF1_ZPZ_S(hsu_le, zss)
-DO_LDFF1_ZPZ_D(hdu_le, zsu)
-DO_LDFF1_ZPZ_D(hdu_le, zss)
-DO_LDFF1_ZPZ_D(hdu_le, zd)
+DO_LDFF1_ZPZ_S(hsu_be, zsu, MO_16)
+DO_LDFF1_ZPZ_S(hsu_be, zss, MO_16)
+DO_LDFF1_ZPZ_D(hdu_be, zsu, MO_16)
+DO_LDFF1_ZPZ_D(hdu_be, zss, MO_16)
+DO_LDFF1_ZPZ_D(hdu_be, zd, MO_16)
-DO_LDFF1_ZPZ_S(hsu_be, zsu)
-DO_LDFF1_ZPZ_S(hsu_be, zss)
-DO_LDFF1_ZPZ_D(hdu_be, zsu)
-DO_LDFF1_ZPZ_D(hdu_be, zss)
-DO_LDFF1_ZPZ_D(hdu_be, zd)
+DO_LDFF1_ZPZ_S(hss_le, zsu, MO_16)
+DO_LDFF1_ZPZ_S(hss_le, zss, MO_16)
+DO_LDFF1_ZPZ_D(hds_le, zsu, MO_16)
+DO_LDFF1_ZPZ_D(hds_le, zss, MO_16)
+DO_LDFF1_ZPZ_D(hds_le, zd, MO_16)
-DO_LDFF1_ZPZ_S(hss_le, zsu)
-DO_LDFF1_ZPZ_S(hss_le, zss)
-DO_LDFF1_ZPZ_D(hds_le, zsu)
-DO_LDFF1_ZPZ_D(hds_le, zss)
-DO_LDFF1_ZPZ_D(hds_le, zd)
+DO_LDFF1_ZPZ_S(hss_be, zsu, MO_16)
+DO_LDFF1_ZPZ_S(hss_be, zss, MO_16)
+DO_LDFF1_ZPZ_D(hds_be, zsu, MO_16)
+DO_LDFF1_ZPZ_D(hds_be, zss, MO_16)
+DO_LDFF1_ZPZ_D(hds_be, zd, MO_16)
-DO_LDFF1_ZPZ_S(hss_be, zsu)
-DO_LDFF1_ZPZ_S(hss_be, zss)
-DO_LDFF1_ZPZ_D(hds_be, zsu)
-DO_LDFF1_ZPZ_D(hds_be, zss)
-DO_LDFF1_ZPZ_D(hds_be, zd)
+DO_LDFF1_ZPZ_S(ss_le, zsu, MO_32)
+DO_LDFF1_ZPZ_S(ss_le, zss, MO_32)
+DO_LDFF1_ZPZ_D(sdu_le, zsu, MO_32)
+DO_LDFF1_ZPZ_D(sdu_le, zss, MO_32)
+DO_LDFF1_ZPZ_D(sdu_le, zd, MO_32)
-DO_LDFF1_ZPZ_S(ss_le, zsu)
-DO_LDFF1_ZPZ_S(ss_le, zss)
-DO_LDFF1_ZPZ_D(sdu_le, zsu)
-DO_LDFF1_ZPZ_D(sdu_le, zss)
-DO_LDFF1_ZPZ_D(sdu_le, zd)
+DO_LDFF1_ZPZ_S(ss_be, zsu, MO_32)
+DO_LDFF1_ZPZ_S(ss_be, zss, MO_32)
+DO_LDFF1_ZPZ_D(sdu_be, zsu, MO_32)
+DO_LDFF1_ZPZ_D(sdu_be, zss, MO_32)
+DO_LDFF1_ZPZ_D(sdu_be, zd, MO_32)
-DO_LDFF1_ZPZ_S(ss_be, zsu)
-DO_LDFF1_ZPZ_S(ss_be, zss)
-DO_LDFF1_ZPZ_D(sdu_be, zsu)
-DO_LDFF1_ZPZ_D(sdu_be, zss)
-DO_LDFF1_ZPZ_D(sdu_be, zd)
+DO_LDFF1_ZPZ_D(sds_le, zsu, MO_32)
+DO_LDFF1_ZPZ_D(sds_le, zss, MO_32)
+DO_LDFF1_ZPZ_D(sds_le, zd, MO_32)
-DO_LDFF1_ZPZ_D(sds_le, zsu)
-DO_LDFF1_ZPZ_D(sds_le, zss)
-DO_LDFF1_ZPZ_D(sds_le, zd)
+DO_LDFF1_ZPZ_D(sds_be, zsu, MO_32)
+DO_LDFF1_ZPZ_D(sds_be, zss, MO_32)
+DO_LDFF1_ZPZ_D(sds_be, zd, MO_32)
-DO_LDFF1_ZPZ_D(sds_be, zsu)
-DO_LDFF1_ZPZ_D(sds_be, zss)
-DO_LDFF1_ZPZ_D(sds_be, zd)
+DO_LDFF1_ZPZ_D(dd_le, zsu, MO_64)
+DO_LDFF1_ZPZ_D(dd_le, zss, MO_64)
+DO_LDFF1_ZPZ_D(dd_le, zd, MO_64)
-DO_LDFF1_ZPZ_D(dd_le, zsu)
-DO_LDFF1_ZPZ_D(dd_le, zss)
-DO_LDFF1_ZPZ_D(dd_le, zd)
-
-DO_LDFF1_ZPZ_D(dd_be, zsu)
-DO_LDFF1_ZPZ_D(dd_be, zss)
-DO_LDFF1_ZPZ_D(dd_be, zd)
+DO_LDFF1_ZPZ_D(dd_be, zsu, MO_64)
+DO_LDFF1_ZPZ_D(dd_be, zss, MO_64)
+DO_LDFF1_ZPZ_D(dd_be, zd, MO_64)
/* Stores with a vector index. */
--
2.20.1
- [PULL 13/34] accel/tcg: Add endian-specific cpu_{ld, st}* operations, (continued)
- [PULL 13/34] accel/tcg: Add endian-specific cpu_{ld, st}* operations, Peter Maydell, 2020/05/11
- [PULL 15/34] target/arm: Drop manual handling of set/clear_helper_retaddr, Peter Maydell, 2020/05/11
- [PULL 14/34] target/arm: Use cpu_*_data_ra for sve_ldst_tlb_fn, Peter Maydell, 2020/05/11
- [PULL 16/34] target/arm: Add sve infrastructure for page lookup, Peter Maydell, 2020/05/11
- [PULL 18/34] target/arm: Use SVEContLdSt in sve_ld1_r, Peter Maydell, 2020/05/11
- [PULL 12/34] accel/tcg: Add probe_access_flags, Peter Maydell, 2020/05/11
- [PULL 17/34] target/arm: Adjust interface of sve_ld1_host_fn, Peter Maydell, 2020/05/11
- [PULL 19/34] target/arm: Handle watchpoints in sve_ld1_r, Peter Maydell, 2020/05/11
- [PULL 20/34] target/arm: Use SVEContLdSt for multi-register contiguous loads, Peter Maydell, 2020/05/11
- [PULL 24/34] target/arm: Reuse sve_probe_page for scatter stores, Peter Maydell, 2020/05/11
- [PULL 23/34] target/arm: Reuse sve_probe_page for gather first-fault loads,
Peter Maydell <=
- [PULL 22/34] target/arm: Use SVEContLdSt for contiguous stores, Peter Maydell, 2020/05/11
- [PULL 26/34] target/arm: Remove sve_memopidx, Peter Maydell, 2020/05/11
- [PULL 21/34] target/arm: Update contiguous first-fault and no-fault loads, Peter Maydell, 2020/05/11
- [PULL 27/34] target/arm/kvm: Inline set_feature() calls, Peter Maydell, 2020/05/11
- [PULL 28/34] target/arm: Make set_feature() available for other files, Peter Maydell, 2020/05/11
- [PULL 29/34] target/arm/cpu: Use ARRAY_SIZE() to iterate over ARMCPUInfo[], Peter Maydell, 2020/05/11
- [PULL 30/34] target/arm/cpu: Restrict v8M IDAU interface to Aarch32 CPUs, Peter Maydell, 2020/05/11
- [PULL 25/34] target/arm: Reuse sve_probe_page for gather loads, Peter Maydell, 2020/05/11
- [PULL 32/34] hw/arm/musicpal: Map the UART devices unconditionally, Peter Maydell, 2020/05/11
- [PULL 33/34] target/arm: Use tcg_gen_gvec_5_ptr for sve FMLA/FCMLA, Peter Maydell, 2020/05/11