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| author | Richard Henderson <richard.henderson@linaro.org> | 2020-05-08 08:43:56 -0700 |
|---|---|---|
| committer | Peter Maydell <peter.maydell@linaro.org> | 2020-05-11 11:22:06 +0100 |
| commit | 50de9b78cec06e6d16e92a114a505779359ca532 (patch) | |
| tree | 80bce07f5e7bd1c3cb393f2adc49e9a97af98e1d /target | |
| parent | 0fa476c1bb37a70df7eeff1e5bfb4791feb37e0e (diff) | |
| download | qemu-50de9b78cec06e6d16e92a114a505779359ca532.zip qemu-50de9b78cec06e6d16e92a114a505779359ca532.tar.gz qemu-50de9b78cec06e6d16e92a114a505779359ca532.tar.bz2 | |
target/arm: Reuse sve_probe_page for gather first-fault loads
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 <peter.maydell@linaro.org>
Signed-off-by: Richard Henderson <richard.henderson@linaro.org>
Message-id: 20200508154359.7494-17-richard.henderson@linaro.org
Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
Diffstat (limited to 'target')
| -rw-r--r-- | target/arm/sve_helper.c | 345 |
1 files changed, 138 insertions, 207 deletions
diff --git a/target/arm/sve_helper.c b/target/arm/sve_helper.c index 4ed9bbe..1560129 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. */ - swap_memzero(vd, 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; - } - } else { - *(uint32_t *)(vd + H1_4(reg_off)) = 0; - } - } -} + /* + * Probe the first element, allowing faults. + */ + addr = base + (off_fn(vm, reg_off) << scale); + tlb_fn(env, vd, reg_off, addr, retaddr); -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; + /* After any fault, zero the other elements. */ + swap_memzero(vd, reg_off); + reg_off += esize; + swap_memzero(vd + reg_off, reg_max - reg_off); - /* 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); + /* + * 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); - /* The rest of the reads will be non-faulting. */ - } + if (unlikely(in_page < msize)) { + /* Stop if the element crosses a page boundary. */ + goto fault; + } - /* After any fault, zero the leading predicated false elements. */ - swap_memzero(vd, reg_off); + 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. */ - 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; + host_fn(vd, reg_off, info.host); } - } else { - *(uint64_t *)(vd + reg_off) = 0; - } + reg_off += esize; + } while (reg_off & 63); } -} + return; -#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); \ + fault: + record_fault(env, reg_off, reg_max); } -#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) -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) -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) -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) -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) -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) -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) -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) -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) -DO_LDFF1_ZPZ_D(sds_le, zss) -DO_LDFF1_ZPZ_D(sds_le, zd) - -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) -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) +#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_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); \ +} + +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(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(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_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(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_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(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_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_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_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(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_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. */ |