// SPDX-License-Identifier: GPL-2.0-only /* * The hwprobe interface, for allowing userspace to probe to see which features * are supported by the hardware. See Documentation/arch/riscv/hwprobe.rst for * more details. */ #include #include #include #include #include #include #include #include #include #include #include #include static void hwprobe_arch_id(struct riscv_hwprobe *pair, const struct cpumask *cpus) { u64 id = -1ULL; bool first = true; int cpu; for_each_cpu(cpu, cpus) { u64 cpu_id; switch (pair->key) { case RISCV_HWPROBE_KEY_MVENDORID: cpu_id = riscv_cached_mvendorid(cpu); break; case RISCV_HWPROBE_KEY_MIMPID: cpu_id = riscv_cached_mimpid(cpu); break; case RISCV_HWPROBE_KEY_MARCHID: cpu_id = riscv_cached_marchid(cpu); break; } if (first) { id = cpu_id; first = false; } /* * If there's a mismatch for the given set, return -1 in the * value. */ if (id != cpu_id) { id = -1ULL; break; } } pair->value = id; } static void hwprobe_isa_ext0(struct riscv_hwprobe *pair, const struct cpumask *cpus) { int cpu; u64 missing = 0; pair->value = 0; if (has_fpu()) pair->value |= RISCV_HWPROBE_IMA_FD; if (riscv_isa_extension_available(NULL, c)) pair->value |= RISCV_HWPROBE_IMA_C; if (has_vector() && riscv_isa_extension_available(NULL, v)) pair->value |= RISCV_HWPROBE_IMA_V; /* * Loop through and record extensions that 1) anyone has, and 2) anyone * doesn't have. */ for_each_cpu(cpu, cpus) { struct riscv_isainfo *isainfo = &hart_isa[cpu]; #define EXT_KEY(ext) \ do { \ if (__riscv_isa_extension_available(isainfo->isa, RISCV_ISA_EXT_##ext)) \ pair->value |= RISCV_HWPROBE_EXT_##ext; \ else \ missing |= RISCV_HWPROBE_EXT_##ext; \ } while (false) /* * Only use EXT_KEY() for extensions which can be exposed to userspace, * regardless of the kernel's configuration, as no other checks, besides * presence in the hart_isa bitmap, are made. */ EXT_KEY(ZACAS); EXT_KEY(ZAWRS); EXT_KEY(ZBA); EXT_KEY(ZBB); EXT_KEY(ZBC); EXT_KEY(ZBKB); EXT_KEY(ZBKC); EXT_KEY(ZBKX); EXT_KEY(ZBS); EXT_KEY(ZCA); EXT_KEY(ZCB); EXT_KEY(ZCMOP); EXT_KEY(ZICBOZ); EXT_KEY(ZICOND); EXT_KEY(ZIHINTNTL); EXT_KEY(ZIHINTPAUSE); EXT_KEY(ZIMOP); EXT_KEY(ZKND); EXT_KEY(ZKNE); EXT_KEY(ZKNH); EXT_KEY(ZKSED); EXT_KEY(ZKSH); EXT_KEY(ZKT); EXT_KEY(ZTSO); /* * All the following extensions must depend on the kernel * support of V. */ if (has_vector()) { EXT_KEY(ZVBB); EXT_KEY(ZVBC); EXT_KEY(ZVE32F); EXT_KEY(ZVE32X); EXT_KEY(ZVE64D); EXT_KEY(ZVE64F); EXT_KEY(ZVE64X); EXT_KEY(ZVFH); EXT_KEY(ZVFHMIN); EXT_KEY(ZVKB); EXT_KEY(ZVKG); EXT_KEY(ZVKNED); EXT_KEY(ZVKNHA); EXT_KEY(ZVKNHB); EXT_KEY(ZVKSED); EXT_KEY(ZVKSH); EXT_KEY(ZVKT); } if (has_fpu()) { EXT_KEY(ZCD); EXT_KEY(ZCF); EXT_KEY(ZFA); EXT_KEY(ZFH); EXT_KEY(ZFHMIN); } if (IS_ENABLED(CONFIG_RISCV_ISA_SUPM)) EXT_KEY(SUPM); #undef EXT_KEY } /* Now turn off reporting features if any CPU is missing it. */ pair->value &= ~missing; } static bool hwprobe_ext0_has(const struct cpumask *cpus, unsigned long ext) { struct riscv_hwprobe pair; hwprobe_isa_ext0(&pair, cpus); return (pair.value & ext); } #if defined(CONFIG_RISCV_PROBE_UNALIGNED_ACCESS) static u64 hwprobe_misaligned(const struct cpumask *cpus) { int cpu; u64 perf = -1ULL; for_each_cpu(cpu, cpus) { int this_perf = per_cpu(misaligned_access_speed, cpu); if (perf == -1ULL) perf = this_perf; if (perf != this_perf) { perf = RISCV_HWPROBE_MISALIGNED_SCALAR_UNKNOWN; break; } } if (perf == -1ULL) return RISCV_HWPROBE_MISALIGNED_SCALAR_UNKNOWN; return perf; } #else static u64 hwprobe_misaligned(const struct cpumask *cpus) { if (IS_ENABLED(CONFIG_RISCV_EFFICIENT_UNALIGNED_ACCESS)) return RISCV_HWPROBE_MISALIGNED_SCALAR_FAST; if (IS_ENABLED(CONFIG_RISCV_EMULATED_UNALIGNED_ACCESS) && unaligned_ctl_available()) return RISCV_HWPROBE_MISALIGNED_SCALAR_EMULATED; return RISCV_HWPROBE_MISALIGNED_SCALAR_SLOW; } #endif #ifdef CONFIG_RISCV_VECTOR_MISALIGNED static u64 hwprobe_vec_misaligned(const struct cpumask *cpus) { int cpu; u64 perf = -1ULL; /* Return if supported or not even if speed wasn't probed */ for_each_cpu(cpu, cpus) { int this_perf = per_cpu(vector_misaligned_access, cpu); if (perf == -1ULL) perf = this_perf; if (perf != this_perf) { perf = RISCV_HWPROBE_MISALIGNED_VECTOR_UNKNOWN; break; } } if (perf == -1ULL) return RISCV_HWPROBE_MISALIGNED_VECTOR_UNKNOWN; return perf; } #else static u64 hwprobe_vec_misaligned(const struct cpumask *cpus) { if (IS_ENABLED(CONFIG_RISCV_EFFICIENT_VECTOR_UNALIGNED_ACCESS)) return RISCV_HWPROBE_MISALIGNED_VECTOR_FAST; if (IS_ENABLED(CONFIG_RISCV_SLOW_VECTOR_UNALIGNED_ACCESS)) return RISCV_HWPROBE_MISALIGNED_VECTOR_SLOW; return RISCV_HWPROBE_MISALIGNED_VECTOR_UNKNOWN; } #endif static void hwprobe_one_pair(struct riscv_hwprobe *pair, const struct cpumask *cpus) { switch (pair->key) { case RISCV_HWPROBE_KEY_MVENDORID: case RISCV_HWPROBE_KEY_MARCHID: case RISCV_HWPROBE_KEY_MIMPID: hwprobe_arch_id(pair, cpus); break; /* * The kernel already assumes that the base single-letter ISA * extensions are supported on all harts, and only supports the * IMA base, so just cheat a bit here and tell that to * userspace. */ case RISCV_HWPROBE_KEY_BASE_BEHAVIOR: pair->value = RISCV_HWPROBE_BASE_BEHAVIOR_IMA; break; case RISCV_HWPROBE_KEY_IMA_EXT_0: hwprobe_isa_ext0(pair, cpus); break; case RISCV_HWPROBE_KEY_CPUPERF_0: case RISCV_HWPROBE_KEY_MISALIGNED_SCALAR_PERF: pair->value = hwprobe_misaligned(cpus); break; case RISCV_HWPROBE_KEY_MISALIGNED_VECTOR_PERF: pair->value = hwprobe_vec_misaligned(cpus); break; case RISCV_HWPROBE_KEY_ZICBOZ_BLOCK_SIZE: pair->value = 0; if (hwprobe_ext0_has(cpus, RISCV_HWPROBE_EXT_ZICBOZ)) pair->value = riscv_cboz_block_size; break; case RISCV_HWPROBE_KEY_HIGHEST_VIRT_ADDRESS: pair->value = user_max_virt_addr(); break; case RISCV_HWPROBE_KEY_TIME_CSR_FREQ: pair->value = riscv_timebase; break; /* * For forward compatibility, unknown keys don't fail the whole * call, but get their element key set to -1 and value set to 0 * indicating they're unrecognized. */ default: pair->key = -1; pair->value = 0; break; } } static int hwprobe_get_values(struct riscv_hwprobe __user *pairs, size_t pair_count, size_t cpusetsize, unsigned long __user *cpus_user, unsigned int flags) { size_t out; int ret; cpumask_t cpus; /* Check the reserved flags. */ if (flags != 0) return -EINVAL; /* * The interface supports taking in a CPU mask, and returns values that * are consistent across that mask. Allow userspace to specify NULL and * 0 as a shortcut to all online CPUs. */ cpumask_clear(&cpus); if (!cpusetsize && !cpus_user) { cpumask_copy(&cpus, cpu_online_mask); } else { if (cpusetsize > cpumask_size()) cpusetsize = cpumask_size(); ret = copy_from_user(&cpus, cpus_user, cpusetsize); if (ret) return -EFAULT; /* * Userspace must provide at least one online CPU, without that * there's no way to define what is supported. */ cpumask_and(&cpus, &cpus, cpu_online_mask); if (cpumask_empty(&cpus)) return -EINVAL; } for (out = 0; out < pair_count; out++, pairs++) { struct riscv_hwprobe pair; if (get_user(pair.key, &pairs->key)) return -EFAULT; pair.value = 0; hwprobe_one_pair(&pair, &cpus); ret = put_user(pair.key, &pairs->key); if (ret == 0) ret = put_user(pair.value, &pairs->value); if (ret) return -EFAULT; } return 0; } static int hwprobe_get_cpus(struct riscv_hwprobe __user *pairs, size_t pair_count, size_t cpusetsize, unsigned long __user *cpus_user, unsigned int flags) { cpumask_t cpus, one_cpu; bool clear_all = false; size_t i; int ret; if (flags != RISCV_HWPROBE_WHICH_CPUS) return -EINVAL; if (!cpusetsize || !cpus_user) return -EINVAL; if (cpusetsize > cpumask_size()) cpusetsize = cpumask_size(); ret = copy_from_user(&cpus, cpus_user, cpusetsize); if (ret) return -EFAULT; if (cpumask_empty(&cpus)) cpumask_copy(&cpus, cpu_online_mask); cpumask_and(&cpus, &cpus, cpu_online_mask); cpumask_clear(&one_cpu); for (i = 0; i < pair_count; i++) { struct riscv_hwprobe pair, tmp; int cpu; ret = copy_from_user(&pair, &pairs[i], sizeof(pair)); if (ret) return -EFAULT; if (!riscv_hwprobe_key_is_valid(pair.key)) { clear_all = true; pair = (struct riscv_hwprobe){ .key = -1, }; ret = copy_to_user(&pairs[i], &pair, sizeof(pair)); if (ret) return -EFAULT; } if (clear_all) continue; tmp = (struct riscv_hwprobe){ .key = pair.key, }; for_each_cpu(cpu, &cpus) { cpumask_set_cpu(cpu, &one_cpu); hwprobe_one_pair(&tmp, &one_cpu); if (!riscv_hwprobe_pair_cmp(&tmp, &pair)) cpumask_clear_cpu(cpu, &cpus); cpumask_clear_cpu(cpu, &one_cpu); } } if (clear_all) cpumask_clear(&cpus); ret = copy_to_user(cpus_user, &cpus, cpusetsize); if (ret) return -EFAULT; return 0; } static int do_riscv_hwprobe(struct riscv_hwprobe __user *pairs, size_t pair_count, size_t cpusetsize, unsigned long __user *cpus_user, unsigned int flags) { if (flags & RISCV_HWPROBE_WHICH_CPUS) return hwprobe_get_cpus(pairs, pair_count, cpusetsize, cpus_user, flags); return hwprobe_get_values(pairs, pair_count, cpusetsize, cpus_user, flags); } #ifdef CONFIG_MMU static int __init init_hwprobe_vdso_data(void) { struct vdso_data *vd = __arch_get_k_vdso_data(); struct arch_vdso_time_data *avd = &vd->arch_data; u64 id_bitsmash = 0; struct riscv_hwprobe pair; int key; /* * Initialize vDSO data with the answers for the "all CPUs" case, to * save a syscall in the common case. */ for (key = 0; key <= RISCV_HWPROBE_MAX_KEY; key++) { pair.key = key; hwprobe_one_pair(&pair, cpu_online_mask); WARN_ON_ONCE(pair.key < 0); avd->all_cpu_hwprobe_values[key] = pair.value; /* * Smash together the vendor, arch, and impl IDs to see if * they're all 0 or any negative. */ if (key <= RISCV_HWPROBE_KEY_MIMPID) id_bitsmash |= pair.value; } /* * If the arch, vendor, and implementation ID are all the same across * all harts, then assume all CPUs are the same, and allow the vDSO to * answer queries for arbitrary masks. However if all values are 0 (not * populated) or any value returns -1 (varies across CPUs), then the * vDSO should defer to the kernel for exotic cpu masks. */ avd->homogeneous_cpus = id_bitsmash != 0 && id_bitsmash != -1; return 0; } arch_initcall_sync(init_hwprobe_vdso_data); #endif /* CONFIG_MMU */ SYSCALL_DEFINE5(riscv_hwprobe, struct riscv_hwprobe __user *, pairs, size_t, pair_count, size_t, cpusetsize, unsigned long __user *, cpus, unsigned int, flags) { return do_riscv_hwprobe(pairs, pair_count, cpusetsize, cpus, flags); }