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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747 1748 1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 | // SPDX-License-Identifier: GPL-2.0-or-later /* * Hypervisor supplied "24x7" performance counter support * * Author: Cody P Schafer <cody@linux.vnet.ibm.com> * Copyright 2014 IBM Corporation. */ #define pr_fmt(fmt) "hv-24x7: " fmt #include <linux/perf_event.h> #include <linux/rbtree.h> #include <linux/module.h> #include <linux/slab.h> #include <linux/vmalloc.h> #include <asm/cputhreads.h> #include <asm/firmware.h> #include <asm/hvcall.h> #include <asm/io.h> #include <asm/papr-sysparm.h> #include <linux/byteorder/generic.h> #include <asm/rtas.h> #include "hv-24x7.h" #include "hv-24x7-catalog.h" #include "hv-common.h" /* Version of the 24x7 hypervisor API that we should use in this machine. */ static int interface_version; /* Whether we have to aggregate result data for some domains. */ static bool aggregate_result_elements; static cpumask_t hv_24x7_cpumask; static bool domain_is_valid(unsigned int domain) { switch (domain) { #define DOMAIN(n, v, x, c) \ case HV_PERF_DOMAIN_##n: \ /* fall through */ #include "hv-24x7-domains.h" #undef DOMAIN return true; default: return false; } } static bool is_physical_domain(unsigned int domain) { switch (domain) { #define DOMAIN(n, v, x, c) \ case HV_PERF_DOMAIN_##n: \ return c; #include "hv-24x7-domains.h" #undef DOMAIN default: return false; } } /* * The Processor Module Information system parameter allows transferring * of certain processor module information from the platform to the OS. * Refer PAPR+ document to get parameter token value as '43'. */ static u32 phys_sockets; /* Physical sockets */ static u32 phys_chipspersocket; /* Physical chips per socket*/ static u32 phys_coresperchip; /* Physical cores per chip */ /* * read_24x7_sys_info() * Retrieve the number of sockets and chips per socket and cores per * chip details through the get-system-parameter rtas call. */ void read_24x7_sys_info(void) { struct papr_sysparm_buf *buf; /* * Making system parameter: chips and sockets and cores per chip * default to 1. */ phys_sockets = 1; phys_chipspersocket = 1; phys_coresperchip = 1; buf = papr_sysparm_buf_alloc(); if (!buf) return; if (!papr_sysparm_get(PAPR_SYSPARM_PROC_MODULE_INFO, buf)) { int ntypes = be16_to_cpup((__be16 *)&buf->val[0]); int len = be16_to_cpu(buf->len); if (len >= 8 && ntypes != 0) { phys_sockets = be16_to_cpup((__be16 *)&buf->val[2]); phys_chipspersocket = be16_to_cpup((__be16 *)&buf->val[4]); phys_coresperchip = be16_to_cpup((__be16 *)&buf->val[6]); } } papr_sysparm_buf_free(buf); } /* Domains for which more than one result element are returned for each event. */ static bool domain_needs_aggregation(unsigned int domain) { return aggregate_result_elements && (domain == HV_PERF_DOMAIN_PHYS_CORE || (domain >= HV_PERF_DOMAIN_VCPU_HOME_CORE && domain <= HV_PERF_DOMAIN_VCPU_REMOTE_NODE)); } static const char *domain_name(unsigned int domain) { if (!domain_is_valid(domain)) return NULL; switch (domain) { case HV_PERF_DOMAIN_PHYS_CHIP: return "Physical Chip"; case HV_PERF_DOMAIN_PHYS_CORE: return "Physical Core"; case HV_PERF_DOMAIN_VCPU_HOME_CORE: return "VCPU Home Core"; case HV_PERF_DOMAIN_VCPU_HOME_CHIP: return "VCPU Home Chip"; case HV_PERF_DOMAIN_VCPU_HOME_NODE: return "VCPU Home Node"; case HV_PERF_DOMAIN_VCPU_REMOTE_NODE: return "VCPU Remote Node"; } WARN_ON_ONCE(domain); return NULL; } static bool catalog_entry_domain_is_valid(unsigned int domain) { /* POWER8 doesn't support virtual domains. */ if (interface_version == 1) return is_physical_domain(domain); else return domain_is_valid(domain); } /* * TODO: Merging events: * - Think of the hcall as an interface to a 4d array of counters: * - x = domains * - y = indexes in the domain (core, chip, vcpu, node, etc) * - z = offset into the counter space * - w = lpars (guest vms, "logical partitions") * - A single request is: x,y,y_last,z,z_last,w,w_last * - this means we can retrieve a rectangle of counters in y,z for a single x. * * - Things to consider (ignoring w): * - input cost_per_request = 16 * - output cost_per_result(ys,zs) = 8 + 8 * ys + ys * zs * - limited number of requests per hcall (must fit into 4K bytes) * - 4k = 16 [buffer header] - 16 [request size] * request_count * - 255 requests per hcall * - sometimes it will be more efficient to read extra data and discard */ /* * Example usage: * perf stat -e 'hv_24x7/domain=2,offset=8,vcpu=0,lpar=0xffffffff/' */ /* u3 0-6, one of HV_24X7_PERF_DOMAIN */ EVENT_DEFINE_RANGE_FORMAT(domain, config, 0, 3); /* u16 */ EVENT_DEFINE_RANGE_FORMAT(core, config, 16, 31); EVENT_DEFINE_RANGE_FORMAT(chip, config, 16, 31); EVENT_DEFINE_RANGE_FORMAT(vcpu, config, 16, 31); /* u32, see "data_offset" */ EVENT_DEFINE_RANGE_FORMAT(offset, config, 32, 63); /* u16 */ EVENT_DEFINE_RANGE_FORMAT(lpar, config1, 0, 15); EVENT_DEFINE_RANGE(reserved1, config, 4, 15); EVENT_DEFINE_RANGE(reserved2, config1, 16, 63); EVENT_DEFINE_RANGE(reserved3, config2, 0, 63); static struct attribute *format_attrs[] = { &format_attr_domain.attr, &format_attr_offset.attr, &format_attr_core.attr, &format_attr_chip.attr, &format_attr_vcpu.attr, &format_attr_lpar.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 */ }; static struct attribute_group event_desc_group = { .name = "event_descs", /* .attrs is set in init */ }; static struct attribute_group event_long_desc_group = { .name = "event_long_descs", /* .attrs is set in init */ }; static struct kmem_cache *hv_page_cache; static DEFINE_PER_CPU(int, hv_24x7_txn_flags); static DEFINE_PER_CPU(int, hv_24x7_txn_err); struct hv_24x7_hw { struct perf_event *events[255]; }; static DEFINE_PER_CPU(struct hv_24x7_hw, hv_24x7_hw); /* * request_buffer and result_buffer are not required to be 4k aligned, * but are not allowed to cross any 4k boundary. Aligning them to 4k is * the simplest way to ensure that. */ #define H24x7_DATA_BUFFER_SIZE 4096 static DEFINE_PER_CPU(char, hv_24x7_reqb[H24x7_DATA_BUFFER_SIZE]) __aligned(4096); static DEFINE_PER_CPU(char, hv_24x7_resb[H24x7_DATA_BUFFER_SIZE]) __aligned(4096); static unsigned int max_num_requests(int interface_version) { return (H24x7_DATA_BUFFER_SIZE - sizeof(struct hv_24x7_request_buffer)) / H24x7_REQUEST_SIZE(interface_version); } static char *event_name(struct hv_24x7_event_data *ev, int *len) { *len = be16_to_cpu(ev->event_name_len) - 2; return (char *)ev->remainder; } static char *event_desc(struct hv_24x7_event_data *ev, int *len) { unsigned int nl = be16_to_cpu(ev->event_name_len); __be16 *desc_len = (__be16 *)(ev->remainder + nl - 2); *len = be16_to_cpu(*desc_len) - 2; return (char *)ev->remainder + nl; } static char *event_long_desc(struct hv_24x7_event_data *ev, int *len) { unsigned int nl = be16_to_cpu(ev->event_name_len); __be16 *desc_len_ = (__be16 *)(ev->remainder + nl - 2); unsigned int desc_len = be16_to_cpu(*desc_len_); __be16 *long_desc_len = (__be16 *)(ev->remainder + nl + desc_len - 2); *len = be16_to_cpu(*long_desc_len) - 2; return (char *)ev->remainder + nl + desc_len; } static bool event_fixed_portion_is_within(struct hv_24x7_event_data *ev, void *end) { void *start = ev; return (start + offsetof(struct hv_24x7_event_data, remainder)) < end; } /* * Things we don't check: * - padding for desc, name, and long/detailed desc is required to be '\0' * bytes. * * Return NULL if we pass end, * Otherwise return the address of the byte just following the event. */ static void *event_end(struct hv_24x7_event_data *ev, void *end) { void *start = ev; __be16 *dl_, *ldl_; unsigned int dl, ldl; unsigned int nl = be16_to_cpu(ev->event_name_len); if (nl < 2) { pr_debug("%s: name length too short: %d", __func__, nl); return NULL; } if (start + nl > end) { pr_debug("%s: start=%p + nl=%u > end=%p", __func__, start, nl, end); return NULL; } dl_ = (__be16 *)(ev->remainder + nl - 2); if (!IS_ALIGNED((uintptr_t)dl_, 2)) pr_warn("desc len not aligned %p", dl_); dl = be16_to_cpu(*dl_); if (dl < 2) { pr_debug("%s: desc len too short: %d", __func__, dl); return NULL; } if (start + nl + dl > end) { pr_debug("%s: (start=%p + nl=%u + dl=%u)=%p > end=%p", __func__, start, nl, dl, start + nl + dl, end); return NULL; } ldl_ = (__be16 *)(ev->remainder + nl + dl - 2); if (!IS_ALIGNED((uintptr_t)ldl_, 2)) pr_warn("long desc len not aligned %p", ldl_); ldl = be16_to_cpu(*ldl_); if (ldl < 2) { pr_debug("%s: long desc len too short (ldl=%u)", __func__, ldl); return NULL; } if (start + nl + dl + ldl > end) { pr_debug("%s: start=%p + nl=%u + dl=%u + ldl=%u > end=%p", __func__, start, nl, dl, ldl, end); return NULL; } return start + nl + dl + ldl; } static long h_get_24x7_catalog_page_(unsigned long phys_4096, unsigned long version, unsigned long index) { pr_devel("h_get_24x7_catalog_page(0x%lx, %lu, %lu)", phys_4096, version, index); WARN_ON(!IS_ALIGNED(phys_4096, 4096)); return plpar_hcall_norets(H_GET_24X7_CATALOG_PAGE, phys_4096, version, index); } static long h_get_24x7_catalog_page(char page[], u64 version, u32 index) { return h_get_24x7_catalog_page_(virt_to_phys(page), version, index); } /* * Each event we find in the catalog, will have a sysfs entry. Format the * data for this sysfs entry based on the event's domain. * * Events belonging to the Chip domain can only be monitored in that domain. * i.e the domain for these events is a fixed/knwon value. * * Events belonging to the Core domain can be monitored either in the physical * core or in one of the virtual CPU domains. So the domain value for these * events must be specified by the user (i.e is a required parameter). Format * the Core events with 'domain=?' so the perf-tool can error check required * parameters. * * NOTE: For the Core domain events, rather than making domain a required * parameter we could default it to PHYS_CORE and allowe users to * override the domain to one of the VCPU domains. * * However, this can make the interface a little inconsistent. * * If we set domain=2 (PHYS_CHIP) and allow user to override this field * the user may be tempted to also modify the "offset=x" field in which * can lead to confusing usage. Consider the HPM_PCYC (offset=0x18) and * HPM_INST (offset=0x20) events. With: * * perf stat -e hv_24x7/HPM_PCYC,offset=0x20/ * * we end up monitoring HPM_INST, while the command line has HPM_PCYC. * * By not assigning a default value to the domain for the Core events, * we can have simple guidelines: * * - Specifying values for parameters with "=?" is required. * * - Specifying (i.e overriding) values for other parameters * is undefined. */ static char *event_fmt(struct hv_24x7_event_data *event, unsigned int domain) { const char *sindex; const char *lpar; const char *domain_str; char buf[8]; switch (domain) { case HV_PERF_DOMAIN_PHYS_CHIP: snprintf(buf, sizeof(buf), "%d", domain); domain_str = buf; lpar = "0x0"; sindex = "chip"; break; case HV_PERF_DOMAIN_PHYS_CORE: domain_str = "?"; lpar = "0x0"; sindex = "core"; break; default: domain_str = "?"; lpar = "?"; sindex = "vcpu"; } return kasprintf(GFP_KERNEL, "domain=%s,offset=0x%x,%s=?,lpar=%s", domain_str, be16_to_cpu(event->event_counter_offs) + be16_to_cpu(event->event_group_record_offs), sindex, lpar); } /* Avoid trusting fw to NUL terminate strings */ static char *memdup_to_str(char *maybe_str, int max_len, gfp_t gfp) { return kasprintf(gfp, "%.*s", max_len, maybe_str); } static ssize_t device_show_string(struct device *dev, struct device_attribute *attr, char *buf) { struct dev_ext_attribute *d; d = container_of(attr, struct dev_ext_attribute, attr); return sprintf(buf, "%s\n", (char *)d->var); } static ssize_t cpumask_show(struct device *dev, struct device_attribute *attr, char *buf) { return cpumap_print_to_pagebuf(true, buf, &hv_24x7_cpumask); } static ssize_t sockets_show(struct device *dev, struct device_attribute *attr, char *buf) { return sprintf(buf, "%d\n", phys_sockets); } static ssize_t chipspersocket_show(struct device *dev, struct device_attribute *attr, char *buf) { return sprintf(buf, "%d\n", phys_chipspersocket); } static ssize_t coresperchip_show(struct device *dev, struct device_attribute *attr, char *buf) { return sprintf(buf, "%d\n", phys_coresperchip); } static struct attribute *device_str_attr_create_(char *name, char *str) { struct dev_ext_attribute *attr = kzalloc(sizeof(*attr), GFP_KERNEL); if (!attr) return NULL; sysfs_attr_init(&attr->attr.attr); attr->var = str; attr->attr.attr.name = name; attr->attr.attr.mode = 0444; attr->attr.show = device_show_string; return &attr->attr.attr; } /* * Allocate and initialize strings representing event attributes. * * NOTE: The strings allocated here are never destroyed and continue to * exist till shutdown. This is to allow us to create as many events * from the catalog as possible, even if we encounter errors with some. * In case of changes to error paths in future, these may need to be * freed by the caller. */ static struct attribute *device_str_attr_create(char *name, int name_max, int name_nonce, char *str, size_t str_max) { char *n; char *s = memdup_to_str(str, str_max, GFP_KERNEL); struct attribute *a; if (!s) return NULL; if (!name_nonce) n = kasprintf(GFP_KERNEL, "%.*s", name_max, name); else n = kasprintf(GFP_KERNEL, "%.*s__%d", name_max, name, name_nonce); if (!n) goto out_s; a = device_str_attr_create_(n, s); if (!a) goto out_n; return a; out_n: kfree(n); out_s: kfree(s); return NULL; } static struct attribute *event_to_attr(unsigned int ix, struct hv_24x7_event_data *event, unsigned int domain, int nonce) { int event_name_len; char *ev_name, *a_ev_name, *val; struct attribute *attr; if (!domain_is_valid(domain)) { pr_warn("catalog event %u has invalid domain %u\n", ix, domain); return NULL; } val = event_fmt(event, domain); if (!val) return NULL; ev_name = event_name(event, &event_name_len); if (!nonce) a_ev_name = kasprintf(GFP_KERNEL, "%.*s", (int)event_name_len, ev_name); else a_ev_name = kasprintf(GFP_KERNEL, "%.*s__%d", (int)event_name_len, ev_name, nonce); if (!a_ev_name) goto out_val; attr = device_str_attr_create_(a_ev_name, val); if (!attr) goto out_name; return attr; out_name: kfree(a_ev_name); out_val: kfree(val); return NULL; } static struct attribute *event_to_desc_attr(struct hv_24x7_event_data *event, int nonce) { int nl, dl; char *name = event_name(event, &nl); char *desc = event_desc(event, &dl); /* If there isn't a description, don't create the sysfs file */ if (!dl) return NULL; return device_str_attr_create(name, nl, nonce, desc, dl); } static struct attribute * event_to_long_desc_attr(struct hv_24x7_event_data *event, int nonce) { int nl, dl; char *name = event_name(event, &nl); char *desc = event_long_desc(event, &dl); /* If there isn't a description, don't create the sysfs file */ if (!dl) return NULL; return device_str_attr_create(name, nl, nonce, desc, dl); } static int event_data_to_attrs(unsigned int ix, struct attribute **attrs, struct hv_24x7_event_data *event, int nonce) { *attrs = event_to_attr(ix, event, event->domain, nonce); if (!*attrs) return -1; return 0; } /* */ struct event_uniq { struct rb_node node; const char *name; int nl; unsigned int ct; unsigned int domain; }; static int memord(const void *d1, size_t s1, const void *d2, size_t s2) { if (s1 < s2) return 1; if (s1 > s2) return -1; return memcmp(d1, d2, s1); } static int ev_uniq_ord(const void *v1, size_t s1, unsigned int d1, const void *v2, size_t s2, unsigned int d2) { int r = memord(v1, s1, v2, s2); if (r) return r; if (d1 > d2) return 1; if (d2 > d1) return -1; return 0; } static int event_uniq_add(struct rb_root *root, const char *name, int nl, unsigned int domain) { struct rb_node **new = &(root->rb_node), *parent = NULL; struct event_uniq *data; /* Figure out where to put new node */ while (*new) { struct event_uniq *it; int result; it = rb_entry(*new, struct event_uniq, node); result = ev_uniq_ord(name, nl, domain, it->name, it->nl, it->domain); parent = *new; if (result < 0) new = &((*new)->rb_left); else if (result > 0) new = &((*new)->rb_right); else { it->ct++; pr_info("found a duplicate event %.*s, ct=%u\n", nl, name, it->ct); return it->ct; } } data = kmalloc(sizeof(*data), GFP_KERNEL); if (!data) return -ENOMEM; *data = (struct event_uniq) { .name = name, .nl = nl, .ct = 0, .domain = domain, }; /* Add new node and rebalance tree. */ rb_link_node(&data->node, parent, new); rb_insert_color(&data->node, root); /* data->ct */ return 0; } static void event_uniq_destroy(struct rb_root *root) { /* * the strings we point to are in the giant block of memory filled by * the catalog, and are freed separately. */ struct event_uniq *pos, *n; rbtree_postorder_for_each_entry_safe(pos, n, root, node) kfree(pos); } /* * ensure the event structure's sizes are self consistent and don't cause us to * read outside of the event * * On success, return the event length in bytes. * Otherwise, return -1 (and print as appropriate). */ static ssize_t catalog_event_len_validate(struct hv_24x7_event_data *event, size_t event_idx, size_t event_data_bytes, size_t event_entry_count, size_t offset, void *end) { ssize_t ev_len; void *ev_end, *calc_ev_end; if (offset >= event_data_bytes) return -1; if (event_idx >= event_entry_count) { pr_devel("catalog event data has %zu bytes of padding after last event\n", event_data_bytes - offset); return -1; } if (!event_fixed_portion_is_within(event, end)) { pr_warn("event %zu fixed portion is not within range\n", event_idx); return -1; } ev_len = be16_to_cpu(event->length); if (ev_len % 16) pr_info("event %zu has length %zu not divisible by 16: event=%pK\n", event_idx, ev_len, event); ev_end = (__u8 *)event + ev_len; if (ev_end > end) { pr_warn("event %zu has .length=%zu, ends after buffer end: ev_end=%pK > end=%pK, offset=%zu\n", event_idx, ev_len, ev_end, end, offset); return -1; } calc_ev_end = event_end(event, end); if (!calc_ev_end) { pr_warn("event %zu has a calculated length which exceeds buffer length %zu: event=%pK end=%pK, offset=%zu\n", event_idx, event_data_bytes, event, end, offset); return -1; } if (calc_ev_end > ev_end) { pr_warn("event %zu exceeds its own length: event=%pK, end=%pK, offset=%zu, calc_ev_end=%pK\n", event_idx, event, ev_end, offset, calc_ev_end); return -1; } return ev_len; } /* * Return true incase of invalid or dummy events with names like RESERVED* */ static bool ignore_event(const char *name) { return strncmp(name, "RESERVED", 8) == 0; } #define MAX_4K (SIZE_MAX / 4096) static int create_events_from_catalog(struct attribute ***events_, struct attribute ***event_descs_, struct attribute ***event_long_descs_) { long hret; size_t catalog_len, catalog_page_len, event_entry_count, event_data_len, event_data_offs, event_data_bytes, junk_events, event_idx, event_attr_ct, i, attr_max, event_idx_last, desc_ct, long_desc_ct; ssize_t ct, ev_len; uint64_t catalog_version_num; struct attribute **events, **event_descs, **event_long_descs; struct hv_24x7_catalog_page_0 *page_0 = kmem_cache_alloc(hv_page_cache, GFP_KERNEL); void *page = page_0; void *event_data, *end; struct hv_24x7_event_data *event; struct rb_root ev_uniq = RB_ROOT; int ret = 0; if (!page) { ret = -ENOMEM; goto e_out; } hret = h_get_24x7_catalog_page(page, 0, 0); if (hret) { ret = -EIO; goto e_free; } catalog_version_num = be64_to_cpu(page_0->version); catalog_page_len = be32_to_cpu(page_0->length); if (MAX_4K < catalog_page_len) { pr_err("invalid page count: %zu\n", catalog_page_len); ret = -EIO; goto e_free; } catalog_len = catalog_page_len * 4096; event_entry_count = be16_to_cpu(page_0->event_entry_count); event_data_offs = be16_to_cpu(page_0->event_data_offs); event_data_len = be16_to_cpu(page_0->event_data_len); pr_devel("cv %llu cl %zu eec %zu edo %zu edl %zu\n", catalog_version_num, catalog_len, event_entry_count, event_data_offs, event_data_len); if ((MAX_4K < event_data_len) || (MAX_4K < event_data_offs) || (MAX_4K - event_data_offs < event_data_len)) { pr_err("invalid event data offs %zu and/or len %zu\n", event_data_offs, event_data_len); ret = -EIO; goto e_free; } if ((event_data_offs + event_data_len) > catalog_page_len) { pr_err("event data %zu-%zu does not fit inside catalog 0-%zu\n", event_data_offs, event_data_offs + event_data_len, catalog_page_len); ret = -EIO; goto e_free; } if (SIZE_MAX - 1 < event_entry_count) { pr_err("event_entry_count %zu is invalid\n", event_entry_count); ret = -EIO; goto e_free; } event_data_bytes = event_data_len * 4096; /* * event data can span several pages, events can cross between these * pages. Use vmalloc to make this easier. */ event_data = vmalloc(event_data_bytes); if (!event_data) { pr_err("could not allocate event data\n"); ret = -ENOMEM; goto e_free; } end = event_data + event_data_bytes; /* * using vmalloc_to_phys() like this only works if PAGE_SIZE is * divisible by 4096 */ BUILD_BUG_ON(PAGE_SIZE % 4096); for (i = 0; i < event_data_len; i++) { hret = h_get_24x7_catalog_page_( vmalloc_to_phys(event_data + i * 4096), catalog_version_num, i + event_data_offs); if (hret) { pr_err("Failed to get event data in page %zu: rc=%ld\n", i + event_data_offs, hret); ret = -EIO; goto e_event_data; } } /* * scan the catalog to determine the number of attributes we need, and * verify it at the same time. */ for (junk_events = 0, event = event_data, event_idx = 0, attr_max = 0; ; event_idx++, event = (void *)event + ev_len) { size_t offset = (void *)event - (void *)event_data; char *name; int nl; ev_len = catalog_event_len_validate(event, event_idx, event_data_bytes, event_entry_count, offset, end); if (ev_len < 0) break; name = event_name(event, &nl); if (ignore_event(name)) { junk_events++; continue; } if (event->event_group_record_len == 0) { pr_devel("invalid event %zu (%.*s): group_record_len == 0, skipping\n", event_idx, nl, name); junk_events++; continue; } if (!catalog_entry_domain_is_valid(event->domain)) { pr_info("event %zu (%.*s) has invalid domain %d\n", event_idx, nl, name, event->domain); junk_events++; continue; } attr_max++; } event_idx_last = event_idx; if (event_idx_last != event_entry_count) pr_warn("event buffer ended before listed # of events were parsed (got %zu, wanted %zu, junk %zu)\n", event_idx_last, event_entry_count, junk_events); events = kmalloc_array(attr_max + 1, sizeof(*events), GFP_KERNEL); if (!events) { ret = -ENOMEM; goto e_event_data; } event_descs = kmalloc_array(event_idx + 1, sizeof(*event_descs), GFP_KERNEL); if (!event_descs) { ret = -ENOMEM; goto e_event_attrs; } event_long_descs = kmalloc_array(event_idx + 1, sizeof(*event_long_descs), GFP_KERNEL); if (!event_long_descs) { ret = -ENOMEM; goto e_event_descs; } /* Iterate over the catalog filling in the attribute vector */ for (junk_events = 0, event_attr_ct = 0, desc_ct = 0, long_desc_ct = 0, event = event_data, event_idx = 0; event_idx < event_idx_last; event_idx++, ev_len = be16_to_cpu(event->length), event = (void *)event + ev_len) { char *name; int nl; int nonce; /* * these are the only "bad" events that are intermixed and that * we can ignore without issue. make sure to skip them here */ if (event->event_group_record_len == 0) continue; if (!catalog_entry_domain_is_valid(event->domain)) continue; name = event_name(event, &nl); if (ignore_event(name)) continue; nonce = event_uniq_add(&ev_uniq, name, nl, event->domain); ct = event_data_to_attrs(event_idx, events + event_attr_ct, event, nonce); if (ct < 0) { pr_warn("event %zu (%.*s) creation failure, skipping\n", event_idx, nl, name); junk_events++; } else { event_attr_ct++; event_descs[desc_ct] = event_to_desc_attr(event, nonce); if (event_descs[desc_ct]) desc_ct++; event_long_descs[long_desc_ct] = event_to_long_desc_attr(event, nonce); if (event_long_descs[long_desc_ct]) long_desc_ct++; } } pr_info("read %zu catalog entries, created %zu event attrs (%zu failures), %zu descs\n", event_idx, event_attr_ct, junk_events, desc_ct); events[event_attr_ct] = NULL; event_descs[desc_ct] = NULL; event_long_descs[long_desc_ct] = NULL; event_uniq_destroy(&ev_uniq); vfree(event_data); kmem_cache_free(hv_page_cache, page); *events_ = events; *event_descs_ = event_descs; *event_long_descs_ = event_long_descs; return 0; e_event_descs: kfree(event_descs); e_event_attrs: kfree(events); e_event_data: vfree(event_data); e_free: kmem_cache_free(hv_page_cache, page); e_out: *events_ = NULL; *event_descs_ = NULL; *event_long_descs_ = NULL; return ret; } static ssize_t catalog_read(struct file *filp, struct kobject *kobj, struct bin_attribute *bin_attr, char *buf, loff_t offset, size_t count) { long hret; ssize_t ret = 0; size_t catalog_len = 0, catalog_page_len = 0; loff_t page_offset = 0; loff_t offset_in_page; size_t copy_len; uint64_t catalog_version_num = 0; void *page = kmem_cache_alloc(hv_page_cache, GFP_USER); struct hv_24x7_catalog_page_0 *page_0 = page; if (!page) return -ENOMEM; hret = h_get_24x7_catalog_page(page, 0, 0); if (hret) { ret = -EIO; goto e_free; } catalog_version_num = be64_to_cpu(page_0->version); catalog_page_len = be32_to_cpu(page_0->length); catalog_len = catalog_page_len * 4096; page_offset = offset / 4096; offset_in_page = offset % 4096; if (page_offset >= catalog_page_len) goto e_free; if (page_offset != 0) { hret = h_get_24x7_catalog_page(page, catalog_version_num, page_offset); if (hret) { ret = -EIO; goto e_free; } } copy_len = 4096 - offset_in_page; if (copy_len > count) copy_len = count; memcpy(buf, page+offset_in_page, copy_len); ret = copy_len; e_free: if (hret) pr_err("h_get_24x7_catalog_page(ver=%lld, page=%lld) failed:" " rc=%ld\n", catalog_version_num, page_offset, hret); kmem_cache_free(hv_page_cache, page); pr_devel("catalog_read: offset=%lld(%lld) count=%zu " "catalog_len=%zu(%zu) => %zd\n", offset, page_offset, count, catalog_len, catalog_page_len, ret); return ret; } static ssize_t domains_show(struct device *dev, struct device_attribute *attr, char *page) { int d, n, count = 0; const char *str; for (d = 0; d < HV_PERF_DOMAIN_MAX; d++) { str = domain_name(d); if (!str) continue; n = sprintf(page, "%d: %s\n", d, str); if (n < 0) break; count += n; page += n; } return count; } #define PAGE_0_ATTR(_name, _fmt, _expr) \ static ssize_t _name##_show(struct device *dev, \ struct device_attribute *dev_attr, \ char *buf) \ { \ long hret; \ ssize_t ret = 0; \ void *page = kmem_cache_alloc(hv_page_cache, GFP_USER); \ struct hv_24x7_catalog_page_0 *page_0 = page; \ if (!page) \ return -ENOMEM; \ hret = h_get_24x7_catalog_page(page, 0, 0); \ if (hret) { \ ret = -EIO; \ goto e_free; \ } \ ret = sprintf(buf, _fmt, _expr); \ e_free: \ kmem_cache_free(hv_page_cache, page); \ return ret; \ } \ static DEVICE_ATTR_RO(_name) PAGE_0_ATTR(catalog_version, "%lld\n", (unsigned long long)be64_to_cpu(page_0->version)); PAGE_0_ATTR(catalog_len, "%lld\n", (unsigned long long)be32_to_cpu(page_0->length) * 4096); static BIN_ATTR_RO(catalog, 0/* real length varies */); static DEVICE_ATTR_RO(domains); static DEVICE_ATTR_RO(sockets); static DEVICE_ATTR_RO(chipspersocket); static DEVICE_ATTR_RO(coresperchip); static DEVICE_ATTR_RO(cpumask); static struct bin_attribute *if_bin_attrs[] = { &bin_attr_catalog, NULL, }; static struct attribute *cpumask_attrs[] = { &dev_attr_cpumask.attr, NULL, }; static const struct attribute_group cpumask_attr_group = { .attrs = cpumask_attrs, }; static struct attribute *if_attrs[] = { &dev_attr_catalog_len.attr, &dev_attr_catalog_version.attr, &dev_attr_domains.attr, &dev_attr_sockets.attr, &dev_attr_chipspersocket.attr, &dev_attr_coresperchip.attr, NULL, }; static const struct attribute_group if_group = { .name = "interface", .bin_attrs = if_bin_attrs, .attrs = if_attrs, }; static const struct attribute_group *attr_groups[] = { &format_group, &event_group, &event_desc_group, &event_long_desc_group, &if_group, &cpumask_attr_group, NULL, }; /* * Start the process for a new H_GET_24x7_DATA hcall. */ static void init_24x7_request(struct hv_24x7_request_buffer *request_buffer, struct hv_24x7_data_result_buffer *result_buffer) { memset(request_buffer, 0, H24x7_DATA_BUFFER_SIZE); memset(result_buffer, 0, H24x7_DATA_BUFFER_SIZE); request_buffer->interface_version = interface_version; /* memset above set request_buffer->num_requests to 0 */ } /* * Commit (i.e perform) the H_GET_24x7_DATA hcall using the data collected * by 'init_24x7_request()' and 'add_event_to_24x7_request()'. */ static int make_24x7_request(struct hv_24x7_request_buffer *request_buffer, struct hv_24x7_data_result_buffer *result_buffer) { long ret; /* * NOTE: Due to variable number of array elements in request and * result buffer(s), sizeof() is not reliable. Use the actual * allocated buffer size, H24x7_DATA_BUFFER_SIZE. */ ret = plpar_hcall_norets(H_GET_24X7_DATA, virt_to_phys(request_buffer), H24x7_DATA_BUFFER_SIZE, virt_to_phys(result_buffer), H24x7_DATA_BUFFER_SIZE); if (ret) { struct hv_24x7_request *req; req = request_buffer->requests; pr_notice_ratelimited("hcall failed: [%d %#x %#x %d] => ret 0x%lx (%ld) detail=0x%x failing ix=%x\n", req->performance_domain, req->data_offset, req->starting_ix, req->starting_lpar_ix, ret, ret, result_buffer->detailed_rc, result_buffer->failing_request_ix); return -EIO; } return 0; } /* * Add the given @event to the next slot in the 24x7 request_buffer. * * Note that H_GET_24X7_DATA hcall allows reading several counters' * values in a single HCALL. We expect the caller to add events to the * request buffer one by one, make the HCALL and process the results. */ static int add_event_to_24x7_request(struct perf_event *event, struct hv_24x7_request_buffer *request_buffer) { u16 idx; int i; size_t req_size; struct hv_24x7_request *req; if (request_buffer->num_requests >= max_num_requests(request_buffer->interface_version)) { pr_devel("Too many requests for 24x7 HCALL %d\n", request_buffer->num_requests); return -EINVAL; } switch (event_get_domain(event)) { case HV_PERF_DOMAIN_PHYS_CHIP: idx = event_get_chip(event); break; case HV_PERF_DOMAIN_PHYS_CORE: idx = event_get_core(event); break; default: idx = event_get_vcpu(event); } req_size = H24x7_REQUEST_SIZE(request_buffer->interface_version); i = request_buffer->num_requests++; req = (void *) request_buffer->requests + i * req_size; req->performance_domain = event_get_domain(event); req->data_size = cpu_to_be16(8); req->data_offset = cpu_to_be32(event_get_offset(event)); req->starting_lpar_ix = cpu_to_be16(event_get_lpar(event)); req->max_num_lpars = cpu_to_be16(1); req->starting_ix = cpu_to_be16(idx); req->max_ix = cpu_to_be16(1); if (request_buffer->interface_version > 1) { if (domain_needs_aggregation(req->performance_domain)) req->max_num_thread_groups = -1; else if (req->performance_domain != HV_PERF_DOMAIN_PHYS_CHIP) { req->starting_thread_group_ix = idx % 2; req->max_num_thread_groups = 1; } } return 0; } /** * get_count_from_result - get event count from all result elements in result * * If the event corresponding to this result needs aggregation of the result * element values, then this function does that. * * @event: Event associated with @res. * @resb: Result buffer containing @res. * @res: Result to work on. * @countp: Output variable containing the event count. * @next: Optional output variable pointing to the next result in @resb. */ static int get_count_from_result(struct perf_event *event, struct hv_24x7_data_result_buffer *resb, struct hv_24x7_result *res, u64 *countp, struct hv_24x7_result **next) { u16 num_elements = be16_to_cpu(res->num_elements_returned); u16 data_size = be16_to_cpu(res->result_element_data_size); unsigned int data_offset; void *element_data; int i; u64 count; /* * We can bail out early if the result is empty. */ if (!num_elements) { pr_debug("Result of request %hhu is empty, nothing to do\n", res->result_ix); if (next) *next = (struct hv_24x7_result *) res->elements; return -ENODATA; } /* * Since we always specify 1 as the maximum for the smallest resource * we're requesting, there should to be only one element per result. * Except when an event needs aggregation, in which case there are more. */ if (num_elements != 1 && !domain_needs_aggregation(event_get_domain(event))) { pr_err("Error: result of request %hhu has %hu elements\n", res->result_ix, num_elements); return -EIO; } if (data_size != sizeof(u64)) { pr_debug("Error: result of request %hhu has data of %hu bytes\n", res->result_ix, data_size); return -ENOTSUPP; } if (resb->interface_version == 1) data_offset = offsetof(struct hv_24x7_result_element_v1, element_data); else data_offset = offsetof(struct hv_24x7_result_element_v2, element_data); /* Go through the result elements in the result. */ for (i = count = 0, element_data = res->elements + data_offset; i < num_elements; i++, element_data += data_size + data_offset) count += be64_to_cpu(*((__be64 *)element_data)); *countp = count; /* The next result is after the last result element. */ if (next) *next = element_data - data_offset; return 0; } static int single_24x7_request(struct perf_event *event, u64 *count) { int ret; struct hv_24x7_request_buffer *request_buffer; struct hv_24x7_data_result_buffer *result_buffer; BUILD_BUG_ON(sizeof(*request_buffer) > 4096); BUILD_BUG_ON(sizeof(*result_buffer) > 4096); request_buffer = (void *)get_cpu_var(hv_24x7_reqb); result_buffer = (void *)get_cpu_var(hv_24x7_resb); init_24x7_request(request_buffer, result_buffer); ret = add_event_to_24x7_request(event, request_buffer); if (ret) goto out; ret = make_24x7_request(request_buffer, result_buffer); if (ret) goto out; /* process result from hcall */ ret = get_count_from_result(event, result_buffer, result_buffer->results, count, NULL); out: put_cpu_var(hv_24x7_reqb); put_cpu_var(hv_24x7_resb); return ret; } static int h_24x7_event_init(struct perf_event *event) { struct hv_perf_caps caps; unsigned int domain; unsigned long hret; u64 ct; /* Not our event */ if (event->attr.type != event->pmu->type) return -ENOENT; /* Unused areas must be 0 */ if (event_get_reserved1(event) || event_get_reserved2(event) || event_get_reserved3(event)) { pr_devel("reserved set when forbidden 0x%llx(0x%llx) 0x%llx(0x%llx) 0x%llx(0x%llx)\n", event->attr.config, event_get_reserved1(event), event->attr.config1, event_get_reserved2(event), event->attr.config2, event_get_reserved3(event)); return -EINVAL; } /* no branch sampling */ if (has_branch_stack(event)) return -EOPNOTSUPP; /* offset must be 8 byte aligned */ if (event_get_offset(event) % 8) { pr_devel("bad alignment\n"); return -EINVAL; } domain = event_get_domain(event); if (domain == 0 || domain >= HV_PERF_DOMAIN_MAX) { pr_devel("invalid domain %d\n", domain); return -EINVAL; } hret = hv_perf_caps_get(&caps); if (hret) { pr_devel("could not get capabilities: rc=%ld\n", hret); return -EIO; } /* Physical domains & other lpars require extra capabilities */ if (!caps.collect_privileged && (is_physical_domain(domain) || (event_get_lpar(event) != event_get_lpar_max()))) { pr_devel("hv permissions disallow: is_physical_domain:%d, lpar=0x%llx\n", is_physical_domain(domain), event_get_lpar(event)); return -EACCES; } /* Get the initial value of the counter for this event */ if (single_24x7_request(event, &ct)) { pr_devel("test hcall failed\n"); return -EIO; } (void)local64_xchg(&event->hw.prev_count, ct); return 0; } static u64 h_24x7_get_value(struct perf_event *event) { u64 ct; if (single_24x7_request(event, &ct)) /* We checked this in event init, shouldn't fail here... */ return 0; return ct; } static void update_event_count(struct perf_event *event, u64 now) { s64 prev; prev = local64_xchg(&event->hw.prev_count, now); local64_add(now - prev, &event->count); } static void h_24x7_event_read(struct perf_event *event) { u64 now; struct hv_24x7_request_buffer *request_buffer; struct hv_24x7_hw *h24x7hw; int txn_flags; txn_flags = __this_cpu_read(hv_24x7_txn_flags); /* * If in a READ transaction, add this counter to the list of * counters to read during the next HCALL (i.e commit_txn()). * If not in a READ transaction, go ahead and make the HCALL * to read this counter by itself. */ if (txn_flags & PERF_PMU_TXN_READ) { int i; int ret; if (__this_cpu_read(hv_24x7_txn_err)) return; request_buffer = (void *)get_cpu_var(hv_24x7_reqb); ret = add_event_to_24x7_request(event, request_buffer); if (ret) { __this_cpu_write(hv_24x7_txn_err, ret); } else { /* * Associate the event with the HCALL request index, * so ->commit_txn() can quickly find/update count. */ i = request_buffer->num_requests - 1; h24x7hw = &get_cpu_var(hv_24x7_hw); h24x7hw->events[i] = event; put_cpu_var(h24x7hw); } put_cpu_var(hv_24x7_reqb); } else { now = h_24x7_get_value(event); update_event_count(event, now); } } static void h_24x7_event_start(struct perf_event *event, int flags) { if (flags & PERF_EF_RELOAD) local64_set(&event->hw.prev_count, h_24x7_get_value(event)); } static void h_24x7_event_stop(struct perf_event *event, int flags) { h_24x7_event_read(event); } static int h_24x7_event_add(struct perf_event *event, int flags) { if (flags & PERF_EF_START) h_24x7_event_start(event, flags); return 0; } /* * 24x7 counters only support READ transactions. They are * always counting and dont need/support ADD transactions. * Cache the flags, but otherwise ignore transactions that * are not PERF_PMU_TXN_READ. */ static void h_24x7_event_start_txn(struct pmu *pmu, unsigned int flags) { struct hv_24x7_request_buffer *request_buffer; struct hv_24x7_data_result_buffer *result_buffer; /* We should not be called if we are already in a txn */ WARN_ON_ONCE(__this_cpu_read(hv_24x7_txn_flags)); __this_cpu_write(hv_24x7_txn_flags, flags); if (flags & ~PERF_PMU_TXN_READ) return; request_buffer = (void *)get_cpu_var(hv_24x7_reqb); result_buffer = (void *)get_cpu_var(hv_24x7_resb); init_24x7_request(request_buffer, result_buffer); put_cpu_var(hv_24x7_resb); put_cpu_var(hv_24x7_reqb); } /* * Clean up transaction state. * * NOTE: Ignore state of request and result buffers for now. * We will initialize them during the next read/txn. */ static void reset_txn(void) { __this_cpu_write(hv_24x7_txn_flags, 0); __this_cpu_write(hv_24x7_txn_err, 0); } /* * 24x7 counters only support READ transactions. They are always counting * and dont need/support ADD transactions. Clear ->txn_flags but otherwise * ignore transactions that are not of type PERF_PMU_TXN_READ. * * For READ transactions, submit all pending 24x7 requests (i.e requests * that were queued by h_24x7_event_read()), to the hypervisor and update * the event counts. */ static int h_24x7_event_commit_txn(struct pmu *pmu) { struct hv_24x7_request_buffer *request_buffer; struct hv_24x7_data_result_buffer *result_buffer; struct hv_24x7_result *res, *next_res; u64 count; int i, ret, txn_flags; struct hv_24x7_hw *h24x7hw; txn_flags = __this_cpu_read(hv_24x7_txn_flags); WARN_ON_ONCE(!txn_flags); ret = 0; if (txn_flags & ~PERF_PMU_TXN_READ) goto out; ret = __this_cpu_read(hv_24x7_txn_err); if (ret) goto out; request_buffer = (void *)get_cpu_var(hv_24x7_reqb); result_buffer = (void *)get_cpu_var(hv_24x7_resb); ret = make_24x7_request(request_buffer, result_buffer); if (ret) goto put_reqb; h24x7hw = &get_cpu_var(hv_24x7_hw); /* Go through results in the result buffer to update event counts. */ for (i = 0, res = result_buffer->results; i < result_buffer->num_results; i++, res = next_res) { struct perf_event *event = h24x7hw->events[res->result_ix]; ret = get_count_from_result(event, result_buffer, res, &count, &next_res); if (ret) break; update_event_count(event, count); } put_cpu_var(hv_24x7_hw); put_reqb: put_cpu_var(hv_24x7_resb); put_cpu_var(hv_24x7_reqb); out: reset_txn(); return ret; } /* * 24x7 counters only support READ transactions. They are always counting * and dont need/support ADD transactions. However, regardless of type * of transaction, all we need to do is cleanup, so we don't have to check * the type of transaction. */ static void h_24x7_event_cancel_txn(struct pmu *pmu) { WARN_ON_ONCE(!__this_cpu_read(hv_24x7_txn_flags)); reset_txn(); } static struct pmu h_24x7_pmu = { .task_ctx_nr = perf_invalid_context, .name = "hv_24x7", .attr_groups = attr_groups, .event_init = h_24x7_event_init, .add = h_24x7_event_add, .del = h_24x7_event_stop, .start = h_24x7_event_start, .stop = h_24x7_event_stop, .read = h_24x7_event_read, .start_txn = h_24x7_event_start_txn, .commit_txn = h_24x7_event_commit_txn, .cancel_txn = h_24x7_event_cancel_txn, .capabilities = PERF_PMU_CAP_NO_EXCLUDE, }; static int ppc_hv_24x7_cpu_online(unsigned int cpu) { if (cpumask_empty(&hv_24x7_cpumask)) cpumask_set_cpu(cpu, &hv_24x7_cpumask); return 0; } static int ppc_hv_24x7_cpu_offline(unsigned int cpu) { int target; /* Check if exiting cpu is used for collecting 24x7 events */ if (!cpumask_test_and_clear_cpu(cpu, &hv_24x7_cpumask)) return 0; /* Find a new cpu to collect 24x7 events */ target = cpumask_last(cpu_active_mask); if (target < 0 || target >= nr_cpu_ids) { pr_err("hv_24x7: CPU hotplug init failed\n"); return -1; } /* Migrate 24x7 events to the new target */ cpumask_set_cpu(target, &hv_24x7_cpumask); perf_pmu_migrate_context(&h_24x7_pmu, cpu, target); return 0; } static int hv_24x7_cpu_hotplug_init(void) { return cpuhp_setup_state(CPUHP_AP_PERF_POWERPC_HV_24x7_ONLINE, "perf/powerpc/hv_24x7:online", ppc_hv_24x7_cpu_online, ppc_hv_24x7_cpu_offline); } static int hv_24x7_init(void) { int r; unsigned long hret; unsigned int pvr = mfspr(SPRN_PVR); struct hv_perf_caps caps; if (!firmware_has_feature(FW_FEATURE_LPAR)) { pr_debug("not a virtualized system, not enabling\n"); return -ENODEV; } /* POWER8 only supports v1, while POWER9 only supports v2. */ if (PVR_VER(pvr) == PVR_POWER8 || PVR_VER(pvr) == PVR_POWER8E || PVR_VER(pvr) == PVR_POWER8NVL) interface_version = 1; else { interface_version = 2; /* SMT8 in POWER9 needs to aggregate result elements. */ if (threads_per_core == 8) aggregate_result_elements = true; } hret = hv_perf_caps_get(&caps); if (hret) { pr_debug("could not obtain capabilities, not enabling, rc=%ld\n", hret); return -ENODEV; } hv_page_cache = kmem_cache_create("hv-page-4096", 4096, 4096, 0, NULL); if (!hv_page_cache) return -ENOMEM; /* sampling not supported */ h_24x7_pmu.capabilities |= PERF_PMU_CAP_NO_INTERRUPT; r = create_events_from_catalog(&event_group.attrs, &event_desc_group.attrs, &event_long_desc_group.attrs); if (r) return r; /* init cpuhotplug */ r = hv_24x7_cpu_hotplug_init(); if (r) return r; r = perf_pmu_register(&h_24x7_pmu, h_24x7_pmu.name, -1); if (r) return r; read_24x7_sys_info(); return 0; } device_initcall(hv_24x7_init); |