// SPDX-License-Identifier: GPL-2.0-or-later /* * Hypervisor supplied "gpci" ("get performance counter info") performance * counter support * * Author: Cody P Schafer <cody@linux.vnet.ibm.com> * Copyright 2014 IBM Corporation. */ #define pr_fmt(fmt) "hv-gpci: " fmt #include <linux/init.h> #include <linux/perf_event.h> #include <asm/firmware.h> #include <asm/hvcall.h> #include <asm/io.h> #include "hv-gpci.h" #include "hv-common.h" /* * Example usage: * perf stat -e 'hv_gpci/counter_info_version=3,offset=0,length=8, * secondary_index=0,starting_index=0xffffffff,request=0x10/' ... */ /* u32 */ EVENT_DEFINE_RANGE_FORMAT(request, config, 0, 31); /* u32 */ /* * Note that starting_index, phys_processor_idx, sibling_part_id, * hw_chip_id, partition_id all refer to the same bit range. They * are basically aliases for the starting_index. The specific alias * used depends on the event. See REQUEST_IDX_KIND in hv-gpci-requests.h */ EVENT_DEFINE_RANGE_FORMAT(starting_index, config, 32, 63); EVENT_DEFINE_RANGE_FORMAT_LITE(phys_processor_idx, config, 32, 63); EVENT_DEFINE_RANGE_FORMAT_LITE(sibling_part_id, config, 32, 63); EVENT_DEFINE_RANGE_FORMAT_LITE(hw_chip_id, config, 32, 63); EVENT_DEFINE_RANGE_FORMAT_LITE(partition_id, config, 32, 63); /* u16 */ EVENT_DEFINE_RANGE_FORMAT(secondary_index, config1, 0, 15); /* u8 */ EVENT_DEFINE_RANGE_FORMAT(counter_info_version, config1, 16, 23); /* u8, bytes of data (1-8) */ EVENT_DEFINE_RANGE_FORMAT(length, config1, 24, 31); /* u32, byte offset */ EVENT_DEFINE_RANGE_FORMAT(offset, config1, 32, 63); static cpumask_t hv_gpci_cpumask; static struct attribute *format_attrs[] = { &format_attr_request.attr, &format_attr_starting_index.attr, &format_attr_phys_processor_idx.attr, &format_attr_sibling_part_id.attr, &format_attr_hw_chip_id.attr, &format_attr_partition_id.attr, &format_attr_secondary_index.attr, &format_attr_counter_info_version.attr, &format_attr_offset.attr, &format_attr_length.attr, NULL, }; static const struct attribute_group format_group = { .name = "format", .attrs = format_attrs, }; static struct attribute_group event_group = { .name = "events", /* .attrs is set in init */ }; #define HV_CAPS_ATTR(_name, _format) \ static ssize_t _name##_show(struct device *dev, \ struct device_attribute *attr, \ char *page) \ { \ struct hv_perf_caps caps; \ unsigned long hret = hv_perf_caps_get(&caps); \ if (hret) \ return -EIO; \ \ return sprintf(page, _format, caps._name); \ } \ static struct device_attribute hv_caps_attr_##_name = __ATTR_RO(_name) static ssize_t kernel_version_show(struct device *dev, struct device_attribute *attr, char *page) { return sprintf(page, "0x%x\n", COUNTER_INFO_VERSION_CURRENT); } static ssize_t cpumask_show(struct device *dev, struct device_attribute *attr, char *buf) { return cpumap_print_to_pagebuf(true, buf, &hv_gpci_cpumask); } /* Interface attribute array index to store system information */ #define INTERFACE_PROCESSOR_BUS_TOPOLOGY_ATTR 6 #define INTERFACE_PROCESSOR_CONFIG_ATTR 7 #define INTERFACE_AFFINITY_DOMAIN_VIA_VP_ATTR 8 #define INTERFACE_AFFINITY_DOMAIN_VIA_DOM_ATTR 9 #define INTERFACE_AFFINITY_DOMAIN_VIA_PAR_ATTR 10 #define INTERFACE_NULL_ATTR 11 /* Counter request value to retrieve system information */ enum { PROCESSOR_BUS_TOPOLOGY, PROCESSOR_CONFIG, AFFINITY_DOMAIN_VIA_VP, /* affinity domain via virtual processor */ AFFINITY_DOMAIN_VIA_DOM, /* affinity domain via domain */ AFFINITY_DOMAIN_VIA_PAR, /* affinity domain via partition */ }; static int sysinfo_counter_request[] = { [PROCESSOR_BUS_TOPOLOGY] = 0xD0, [PROCESSOR_CONFIG] = 0x90, [AFFINITY_DOMAIN_VIA_VP] = 0xA0, [AFFINITY_DOMAIN_VIA_DOM] = 0xB0, [AFFINITY_DOMAIN_VIA_PAR] = 0xB1, }; static DEFINE_PER_CPU(char, hv_gpci_reqb[HGPCI_REQ_BUFFER_SIZE]) __aligned(sizeof(uint64_t)); static unsigned long systeminfo_gpci_request(u32 req, u32 starting_index, u16 secondary_index, char *buf, size_t *n, struct hv_gpci_request_buffer *arg) { unsigned long ret; size_t i, j; arg->params.counter_request = cpu_to_be32(req); arg->params.starting_index = cpu_to_be32(starting_index); arg->params.secondary_index = cpu_to_be16(secondary_index); ret = plpar_hcall_norets(H_GET_PERF_COUNTER_INFO, virt_to_phys(arg), HGPCI_REQ_BUFFER_SIZE); /* * ret value as 'H_PARAMETER' corresponds to 'GEN_BUF_TOO_SMALL', * which means that the current buffer size cannot accommodate * all the information and a partial buffer returned. * hcall fails incase of ret value other than H_SUCCESS or H_PARAMETER. * * ret value as H_AUTHORITY implies that partition is not permitted to retrieve * performance information, and required to set * "Enable Performance Information Collection" option. */ if (ret == H_AUTHORITY) return -EPERM; /* * hcall can fail with other possible ret value like H_PRIVILEGE/H_HARDWARE * because of invalid buffer-length/address or due to some hardware * error. */ if (ret && (ret != H_PARAMETER)) return -EIO; /* * hcall H_GET_PERF_COUNTER_INFO populates the 'returned_values' * to show the total number of counter_value array elements * returned via hcall. * hcall also populates 'cv_element_size' corresponds to individual * counter_value array element size. Below loop go through all * counter_value array elements as per their size and add it to * the output buffer. */ for (i = 0; i < be16_to_cpu(arg->params.returned_values); i++) { j = i * be16_to_cpu(arg->params.cv_element_size); for (; j < (i + 1) * be16_to_cpu(arg->params.cv_element_size); j++) *n += sprintf(buf + *n, "%02x", (u8)arg->bytes[j]); *n += sprintf(buf + *n, "\n"); } if (*n >= PAGE_SIZE) { pr_info("System information exceeds PAGE_SIZE\n"); return -EFBIG; } return ret; } static ssize_t processor_bus_topology_show(struct device *dev, struct device_attribute *attr, char *buf) { struct hv_gpci_request_buffer *arg; unsigned long ret; size_t n = 0; arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); /* * Pass the counter request value 0xD0 corresponds to request * type 'Processor_bus_topology', to retrieve * the system topology information. * starting_index value implies the starting hardware * chip id. */ ret = systeminfo_gpci_request(sysinfo_counter_request[PROCESSOR_BUS_TOPOLOGY], 0, 0, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; /* * ret value as 'H_PARAMETER' corresponds to 'GEN_BUF_TOO_SMALL', which * implies that buffer can't accommodate all information, and a partial buffer * returned. To handle that, we need to make subsequent requests * with next starting index to retrieve additional (missing) data. * Below loop do subsequent hcalls with next starting index and add it * to buffer util we get all the information. */ while (ret == H_PARAMETER) { int returned_values = be16_to_cpu(arg->params.returned_values); int elementsize = be16_to_cpu(arg->params.cv_element_size); int last_element = (returned_values - 1) * elementsize; /* * Since the starting index value is part of counter_value * buffer elements, use the starting index value in the last * element and add 1 to make subsequent hcalls. */ u32 starting_index = arg->bytes[last_element + 3] + (arg->bytes[last_element + 2] << 8) + (arg->bytes[last_element + 1] << 16) + (arg->bytes[last_element] << 24) + 1; memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); ret = systeminfo_gpci_request(sysinfo_counter_request[PROCESSOR_BUS_TOPOLOGY], starting_index, 0, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; } return n; out: put_cpu_var(hv_gpci_reqb); return ret; } static ssize_t processor_config_show(struct device *dev, struct device_attribute *attr, char *buf) { struct hv_gpci_request_buffer *arg; unsigned long ret; size_t n = 0; arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); /* * Pass the counter request value 0x90 corresponds to request * type 'Processor_config', to retrieve * the system processor information. * starting_index value implies the starting hardware * processor index. */ ret = systeminfo_gpci_request(sysinfo_counter_request[PROCESSOR_CONFIG], 0, 0, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; /* * ret value as 'H_PARAMETER' corresponds to 'GEN_BUF_TOO_SMALL', which * implies that buffer can't accommodate all information, and a partial buffer * returned. To handle that, we need to take subsequent requests * with next starting index to retrieve additional (missing) data. * Below loop do subsequent hcalls with next starting index and add it * to buffer util we get all the information. */ while (ret == H_PARAMETER) { int returned_values = be16_to_cpu(arg->params.returned_values); int elementsize = be16_to_cpu(arg->params.cv_element_size); int last_element = (returned_values - 1) * elementsize; /* * Since the starting index is part of counter_value * buffer elements, use the starting index value in the last * element and add 1 to subsequent hcalls. */ u32 starting_index = arg->bytes[last_element + 3] + (arg->bytes[last_element + 2] << 8) + (arg->bytes[last_element + 1] << 16) + (arg->bytes[last_element] << 24) + 1; memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); ret = systeminfo_gpci_request(sysinfo_counter_request[PROCESSOR_CONFIG], starting_index, 0, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; } return n; out: put_cpu_var(hv_gpci_reqb); return ret; } static ssize_t affinity_domain_via_virtual_processor_show(struct device *dev, struct device_attribute *attr, char *buf) { struct hv_gpci_request_buffer *arg; unsigned long ret; size_t n = 0; arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); /* * Pass the counter request 0xA0 corresponds to request * type 'Affinity_domain_information_by_virutal_processor', * to retrieve the system affinity domain information. * starting_index value refers to the starting hardware * processor index. */ ret = systeminfo_gpci_request(sysinfo_counter_request[AFFINITY_DOMAIN_VIA_VP], 0, 0, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; /* * ret value as 'H_PARAMETER' corresponds to 'GEN_BUF_TOO_SMALL', which * implies that buffer can't accommodate all information, and a partial buffer * returned. To handle that, we need to take subsequent requests * with next secondary index to retrieve additional (missing) data. * Below loop do subsequent hcalls with next secondary index and add it * to buffer util we get all the information. */ while (ret == H_PARAMETER) { int returned_values = be16_to_cpu(arg->params.returned_values); int elementsize = be16_to_cpu(arg->params.cv_element_size); int last_element = (returned_values - 1) * elementsize; /* * Since the starting index and secondary index type is part of the * counter_value buffer elements, use the starting index value in the * last array element as subsequent starting index, and use secondary index * value in the last array element plus 1 as subsequent secondary index. * For counter request '0xA0', starting index points to partition id * and secondary index points to corresponding virtual processor index. */ u32 starting_index = arg->bytes[last_element + 1] + (arg->bytes[last_element] << 8); u16 secondary_index = arg->bytes[last_element + 3] + (arg->bytes[last_element + 2] << 8) + 1; memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); ret = systeminfo_gpci_request(sysinfo_counter_request[AFFINITY_DOMAIN_VIA_VP], starting_index, secondary_index, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; } return n; out: put_cpu_var(hv_gpci_reqb); return ret; } static ssize_t affinity_domain_via_domain_show(struct device *dev, struct device_attribute *attr, char *buf) { struct hv_gpci_request_buffer *arg; unsigned long ret; size_t n = 0; arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); /* * Pass the counter request 0xB0 corresponds to request * type 'Affinity_domain_information_by_domain', * to retrieve the system affinity domain information. * starting_index value refers to the starting hardware * processor index. */ ret = systeminfo_gpci_request(sysinfo_counter_request[AFFINITY_DOMAIN_VIA_DOM], 0, 0, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; /* * ret value as 'H_PARAMETER' corresponds to 'GEN_BUF_TOO_SMALL', which * implies that buffer can't accommodate all information, and a partial buffer * returned. To handle that, we need to take subsequent requests * with next starting index to retrieve additional (missing) data. * Below loop do subsequent hcalls with next starting index and add it * to buffer util we get all the information. */ while (ret == H_PARAMETER) { int returned_values = be16_to_cpu(arg->params.returned_values); int elementsize = be16_to_cpu(arg->params.cv_element_size); int last_element = (returned_values - 1) * elementsize; /* * Since the starting index value is part of counter_value * buffer elements, use the starting index value in the last * element and add 1 to make subsequent hcalls. */ u32 starting_index = arg->bytes[last_element + 1] + (arg->bytes[last_element] << 8) + 1; memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); ret = systeminfo_gpci_request(sysinfo_counter_request[AFFINITY_DOMAIN_VIA_DOM], starting_index, 0, buf, &n, arg); if (!ret) return n; if (ret != H_PARAMETER) goto out; } return n; out: put_cpu_var(hv_gpci_reqb); return ret; } static void affinity_domain_via_partition_result_parse(int returned_values, int element_size, char *buf, size_t *last_element, size_t *n, struct hv_gpci_request_buffer *arg) { size_t i = 0, j = 0; size_t k, l, m; uint16_t total_affinity_domain_ele, size_of_each_affinity_domain_ele; /* * hcall H_GET_PERF_COUNTER_INFO populates the 'returned_values' * to show the total number of counter_value array elements * returned via hcall. * Unlike other request types, the data structure returned by this * request is variable-size. For this counter request type, * hcall populates 'cv_element_size' corresponds to minimum size of * the structure returned i.e; the size of the structure with no domain * information. Below loop go through all counter_value array * to determine the number and size of each domain array element and * add it to the output buffer. */ while (i < returned_values) { k = j; for (; k < j + element_size; k++) *n += sprintf(buf + *n, "%02x", (u8)arg->bytes[k]); *n += sprintf(buf + *n, "\n"); total_affinity_domain_ele = (u8)arg->bytes[k - 2] << 8 | (u8)arg->bytes[k - 3]; size_of_each_affinity_domain_ele = (u8)arg->bytes[k] << 8 | (u8)arg->bytes[k - 1]; for (l = 0; l < total_affinity_domain_ele; l++) { for (m = 0; m < size_of_each_affinity_domain_ele; m++) { *n += sprintf(buf + *n, "%02x", (u8)arg->bytes[k]); k++; } *n += sprintf(buf + *n, "\n"); } *n += sprintf(buf + *n, "\n"); i++; j = k; } *last_element = k; } static ssize_t affinity_domain_via_partition_show(struct device *dev, struct device_attribute *attr, char *buf) { struct hv_gpci_request_buffer *arg; unsigned long ret; size_t n = 0; size_t last_element = 0; u32 starting_index; arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); /* * Pass the counter request value 0xB1 corresponds to counter request * type 'Affinity_domain_information_by_partition', * to retrieve the system affinity domain by partition information. * starting_index value refers to the starting hardware * processor index. */ arg->params.counter_request = cpu_to_be32(sysinfo_counter_request[AFFINITY_DOMAIN_VIA_PAR]); arg->params.starting_index = cpu_to_be32(0); ret = plpar_hcall_norets(H_GET_PERF_COUNTER_INFO, virt_to_phys(arg), HGPCI_REQ_BUFFER_SIZE); if (!ret) goto parse_result; /* * ret value as 'H_PARAMETER' implies that the current buffer size * can't accommodate all the information, and a partial buffer * returned. To handle that, we need to make subsequent requests * with next starting index to retrieve additional (missing) data. * Below loop do subsequent hcalls with next starting index and add it * to buffer util we get all the information. */ while (ret == H_PARAMETER) { affinity_domain_via_partition_result_parse( be16_to_cpu(arg->params.returned_values) - 1, be16_to_cpu(arg->params.cv_element_size), buf, &last_element, &n, arg); if (n >= PAGE_SIZE) { put_cpu_var(hv_gpci_reqb); pr_debug("System information exceeds PAGE_SIZE\n"); return -EFBIG; } /* * Since the starting index value is part of counter_value * buffer elements, use the starting_index value in the last * element and add 1 to make subsequent hcalls. */ starting_index = (u8)arg->bytes[last_element] << 8 | (u8)arg->bytes[last_element + 1]; memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); arg->params.counter_request = cpu_to_be32( sysinfo_counter_request[AFFINITY_DOMAIN_VIA_PAR]); arg->params.starting_index = cpu_to_be32(starting_index); ret = plpar_hcall_norets(H_GET_PERF_COUNTER_INFO, virt_to_phys(arg), HGPCI_REQ_BUFFER_SIZE); if (ret && (ret != H_PARAMETER)) goto out; } parse_result: affinity_domain_via_partition_result_parse( be16_to_cpu(arg->params.returned_values), be16_to_cpu(arg->params.cv_element_size), buf, &last_element, &n, arg); put_cpu_var(hv_gpci_reqb); return n; out: put_cpu_var(hv_gpci_reqb); /* * ret value as 'H_PARAMETER' corresponds to 'GEN_BUF_TOO_SMALL', * which means that the current buffer size cannot accommodate * all the information and a partial buffer returned. * hcall fails incase of ret value other than H_SUCCESS or H_PARAMETER. * * ret value as H_AUTHORITY implies that partition is not permitted to retrieve * performance information, and required to set * "Enable Performance Information Collection" option. */ if (ret == H_AUTHORITY) return -EPERM; /* * hcall can fail with other possible ret value like H_PRIVILEGE/H_HARDWARE * because of invalid buffer-length/address or due to some hardware * error. */ return -EIO; } static DEVICE_ATTR_RO(kernel_version); static DEVICE_ATTR_RO(cpumask); HV_CAPS_ATTR(version, "0x%x\n"); HV_CAPS_ATTR(ga, "%d\n"); HV_CAPS_ATTR(expanded, "%d\n"); HV_CAPS_ATTR(lab, "%d\n"); HV_CAPS_ATTR(collect_privileged, "%d\n"); static struct attribute *interface_attrs[] = { &dev_attr_kernel_version.attr, &hv_caps_attr_version.attr, &hv_caps_attr_ga.attr, &hv_caps_attr_expanded.attr, &hv_caps_attr_lab.attr, &hv_caps_attr_collect_privileged.attr, /* * This NULL is a placeholder for the processor_bus_topology * attribute, set in init function if applicable. */ NULL, /* * This NULL is a placeholder for the processor_config * attribute, set in init function if applicable. */ NULL, /* * This NULL is a placeholder for the affinity_domain_via_virtual_processor * attribute, set in init function if applicable. */ NULL, /* * This NULL is a placeholder for the affinity_domain_via_domain * attribute, set in init function if applicable. */ NULL, /* * This NULL is a placeholder for the affinity_domain_via_partition * attribute, set in init function if applicable. */ NULL, NULL, }; static struct attribute *cpumask_attrs[] = { &dev_attr_cpumask.attr, NULL, }; static const struct attribute_group cpumask_attr_group = { .attrs = cpumask_attrs, }; static const struct attribute_group interface_group = { .name = "interface", .attrs = interface_attrs, }; static const struct attribute_group *attr_groups[] = { &format_group, &event_group, &interface_group, &cpumask_attr_group, NULL, }; static unsigned long single_gpci_request(u32 req, u32 starting_index, u16 secondary_index, u8 version_in, u32 offset, u8 length, u64 *value) { unsigned long ret; size_t i; u64 count; struct hv_gpci_request_buffer *arg; arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); arg->params.counter_request = cpu_to_be32(req); arg->params.starting_index = cpu_to_be32(starting_index); arg->params.secondary_index = cpu_to_be16(secondary_index); arg->params.counter_info_version_in = version_in; ret = plpar_hcall_norets(H_GET_PERF_COUNTER_INFO, virt_to_phys(arg), HGPCI_REQ_BUFFER_SIZE); if (ret) { pr_devel("hcall failed: 0x%lx\n", ret); goto out; } /* * we verify offset and length are within the zeroed buffer at event * init. */ count = 0; for (i = offset; i < offset + length; i++) count |= (u64)(arg->bytes[i]) << ((length - 1 - (i - offset)) * 8); *value = count; out: put_cpu_var(hv_gpci_reqb); return ret; } static u64 h_gpci_get_value(struct perf_event *event) { u64 count; unsigned long ret = single_gpci_request(event_get_request(event), event_get_starting_index(event), event_get_secondary_index(event), event_get_counter_info_version(event), event_get_offset(event), event_get_length(event), &count); if (ret) return 0; return count; } static void h_gpci_event_update(struct perf_event *event) { s64 prev; u64 now = h_gpci_get_value(event); prev = local64_xchg(&event->hw.prev_count, now); local64_add(now - prev, &event->count); } static void h_gpci_event_start(struct perf_event *event, int flags) { local64_set(&event->hw.prev_count, h_gpci_get_value(event)); } static void h_gpci_event_stop(struct perf_event *event, int flags) { h_gpci_event_update(event); } static int h_gpci_event_add(struct perf_event *event, int flags) { if (flags & PERF_EF_START) h_gpci_event_start(event, flags); return 0; } static int h_gpci_event_init(struct perf_event *event) { u64 count; u8 length; /* Not our event */ if (event->attr.type != event->pmu->type) return -ENOENT; /* config2 is unused */ if (event->attr.config2) { pr_devel("config2 set when reserved\n"); return -EINVAL; } /* no branch sampling */ if (has_branch_stack(event)) return -EOPNOTSUPP; length = event_get_length(event); if (length < 1 || length > 8) { pr_devel("length invalid\n"); return -EINVAL; } /* last byte within the buffer? */ if ((event_get_offset(event) + length) > HGPCI_MAX_DATA_BYTES) { pr_devel("request outside of buffer: %zu > %zu\n", (size_t)event_get_offset(event) + length, HGPCI_MAX_DATA_BYTES); return -EINVAL; } /* check if the request works... */ if (single_gpci_request(event_get_request(event), event_get_starting_index(event), event_get_secondary_index(event), event_get_counter_info_version(event), event_get_offset(event), length, &count)) { pr_devel("gpci hcall failed\n"); return -EINVAL; } return 0; } static struct pmu h_gpci_pmu = { .task_ctx_nr = perf_invalid_context, .name = "hv_gpci", .attr_groups = attr_groups, .event_init = h_gpci_event_init, .add = h_gpci_event_add, .del = h_gpci_event_stop, .start = h_gpci_event_start, .stop = h_gpci_event_stop, .read = h_gpci_event_update, .capabilities = PERF_PMU_CAP_NO_EXCLUDE, }; static int ppc_hv_gpci_cpu_online(unsigned int cpu) { if (cpumask_empty(&hv_gpci_cpumask)) cpumask_set_cpu(cpu, &hv_gpci_cpumask); return 0; } static int ppc_hv_gpci_cpu_offline(unsigned int cpu) { int target; /* Check if exiting cpu is used for collecting gpci events */ if (!cpumask_test_and_clear_cpu(cpu, &hv_gpci_cpumask)) return 0; /* Find a new cpu to collect gpci events */ target = cpumask_last(cpu_active_mask); if (target < 0 || target >= nr_cpu_ids) { pr_err("hv_gpci: CPU hotplug init failed\n"); return -1; } /* Migrate gpci events to the new target */ cpumask_set_cpu(target, &hv_gpci_cpumask); perf_pmu_migrate_context(&h_gpci_pmu, cpu, target); return 0; } static int hv_gpci_cpu_hotplug_init(void) { return cpuhp_setup_state(CPUHP_AP_PERF_POWERPC_HV_GPCI_ONLINE, "perf/powerpc/hv_gcpi:online", ppc_hv_gpci_cpu_online, ppc_hv_gpci_cpu_offline); } static struct device_attribute *sysinfo_device_attr_create(int sysinfo_interface_group_index, u32 req) { struct device_attribute *attr = NULL; unsigned long ret; struct hv_gpci_request_buffer *arg; if (sysinfo_interface_group_index < INTERFACE_PROCESSOR_BUS_TOPOLOGY_ATTR || sysinfo_interface_group_index >= INTERFACE_NULL_ATTR) { pr_info("Wrong interface group index for system information\n"); return NULL; } /* Check for given counter request value support */ arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); arg->params.counter_request = cpu_to_be32(req); ret = plpar_hcall_norets(H_GET_PERF_COUNTER_INFO, virt_to_phys(arg), HGPCI_REQ_BUFFER_SIZE); put_cpu_var(hv_gpci_reqb); /* * Add given counter request value attribute in the interface_attrs * attribute array, only for valid return types. */ if (!ret || ret == H_AUTHORITY || ret == H_PARAMETER) { attr = kzalloc(sizeof(*attr), GFP_KERNEL); if (!attr) return NULL; sysfs_attr_init(&attr->attr); attr->attr.mode = 0444; switch (sysinfo_interface_group_index) { case INTERFACE_PROCESSOR_BUS_TOPOLOGY_ATTR: attr->attr.name = "processor_bus_topology"; attr->show = processor_bus_topology_show; break; case INTERFACE_PROCESSOR_CONFIG_ATTR: attr->attr.name = "processor_config"; attr->show = processor_config_show; break; case INTERFACE_AFFINITY_DOMAIN_VIA_VP_ATTR: attr->attr.name = "affinity_domain_via_virtual_processor"; attr->show = affinity_domain_via_virtual_processor_show; break; case INTERFACE_AFFINITY_DOMAIN_VIA_DOM_ATTR: attr->attr.name = "affinity_domain_via_domain"; attr->show = affinity_domain_via_domain_show; break; case INTERFACE_AFFINITY_DOMAIN_VIA_PAR_ATTR: attr->attr.name = "affinity_domain_via_partition"; attr->show = affinity_domain_via_partition_show; break; } } else pr_devel("hcall failed, with error: 0x%lx\n", ret); return attr; } static void add_sysinfo_interface_files(void) { int sysfs_count; struct device_attribute *attr[INTERFACE_NULL_ATTR - INTERFACE_PROCESSOR_BUS_TOPOLOGY_ATTR]; int i; sysfs_count = INTERFACE_NULL_ATTR - INTERFACE_PROCESSOR_BUS_TOPOLOGY_ATTR; /* Get device attribute for a given counter request value */ for (i = 0; i < sysfs_count; i++) { attr[i] = sysinfo_device_attr_create(i + INTERFACE_PROCESSOR_BUS_TOPOLOGY_ATTR, sysinfo_counter_request[i]); if (!attr[i]) goto out; } /* Add sysinfo interface attributes in the interface_attrs attribute array */ for (i = 0; i < sysfs_count; i++) interface_attrs[i + INTERFACE_PROCESSOR_BUS_TOPOLOGY_ATTR] = &attr[i]->attr; return; out: /* * The sysinfo interface attributes will be added, only if hcall passed for * all the counter request values. Free the device attribute array incase * of any hcall failure. */ if (i > 0) { while (i >= 0) { kfree(attr[i]); i--; } } } static int hv_gpci_init(void) { int r; unsigned long hret; struct hv_perf_caps caps; struct hv_gpci_request_buffer *arg; hv_gpci_assert_offsets_correct(); if (!firmware_has_feature(FW_FEATURE_LPAR)) { pr_debug("not a virtualized system, not enabling\n"); return -ENODEV; } hret = hv_perf_caps_get(&caps); if (hret) { pr_debug("could not obtain capabilities, not enabling, rc=%ld\n", hret); return -ENODEV; } /* init cpuhotplug */ r = hv_gpci_cpu_hotplug_init(); if (r) return r; /* sampling not supported */ h_gpci_pmu.capabilities |= PERF_PMU_CAP_NO_INTERRUPT; arg = (void *)get_cpu_var(hv_gpci_reqb); memset(arg, 0, HGPCI_REQ_BUFFER_SIZE); /* * hcall H_GET_PERF_COUNTER_INFO populates the output * counter_info_version value based on the system hypervisor. * Pass the counter request 0x10 corresponds to request type * 'Dispatch_timebase_by_processor', to get the supported * counter_info_version. */ arg->params.counter_request = cpu_to_be32(0x10); r = plpar_hcall_norets(H_GET_PERF_COUNTER_INFO, virt_to_phys(arg), HGPCI_REQ_BUFFER_SIZE); if (r) { pr_devel("hcall failed, can't get supported counter_info_version: 0x%x\n", r); arg->params.counter_info_version_out = 0x8; } /* * Use counter_info_version_out value to assign * required hv-gpci event list. */ if (arg->params.counter_info_version_out >= 0x8) event_group.attrs = hv_gpci_event_attrs; else event_group.attrs = hv_gpci_event_attrs_v6; put_cpu_var(hv_gpci_reqb); r = perf_pmu_register(&h_gpci_pmu, h_gpci_pmu.name, -1); if (r) return r; /* sysinfo interface files are only available for power10 and above platforms */ if (PVR_VER(mfspr(SPRN_PVR)) >= PVR_POWER10) add_sysinfo_interface_files(); return 0; } device_initcall(hv_gpci_init);