Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Adrian Hunter | 3214 | 96.43% | 16 | 42.11% |
Ian Rogers | 75 | 2.25% | 6 | 15.79% |
Arnaldo Carvalho de Melo | 25 | 0.75% | 9 | 23.68% |
Andi Kleen | 9 | 0.27% | 2 | 5.26% |
Ingo Molnar | 3 | 0.09% | 1 | 2.63% |
Yang Jihong | 2 | 0.06% | 1 | 2.63% |
Jiri Olsa | 2 | 0.06% | 1 | 2.63% |
Frédéric Weisbecker | 2 | 0.06% | 1 | 2.63% |
Greg Kroah-Hartman | 1 | 0.03% | 1 | 2.63% |
Total | 3333 | 38 |
// SPDX-License-Identifier: GPL-2.0 /* * dlfilter.c: Interface to perf script --dlfilter shared object * Copyright (c) 2021, Intel Corporation. */ #include <dlfcn.h> #include <stdlib.h> #include <string.h> #include <dirent.h> #include <subcmd/exec-cmd.h> #include <linux/zalloc.h> #include <linux/build_bug.h> #include <linux/kernel.h> #include <linux/string.h> #include "debug.h" #include "event.h" #include "evsel.h" #include "dso.h" #include "map.h" #include "thread.h" #include "trace-event.h" #include "symbol.h" #include "srcline.h" #include "dlfilter.h" #include "../include/perf/perf_dlfilter.h" static void al_to_d_al(struct addr_location *al, struct perf_dlfilter_al *d_al) { struct symbol *sym = al->sym; d_al->size = sizeof(*d_al); if (al->map) { struct dso *dso = map__dso(al->map); if (symbol_conf.show_kernel_path && dso->long_name) d_al->dso = dso->long_name; else d_al->dso = dso->name; d_al->is_64_bit = dso->is_64_bit; d_al->buildid_size = dso->bid.size; d_al->buildid = dso->bid.data; } else { d_al->dso = NULL; d_al->is_64_bit = 0; d_al->buildid_size = 0; d_al->buildid = NULL; } if (sym) { d_al->sym = sym->name; d_al->sym_start = sym->start; d_al->sym_end = sym->end; if (al->addr < sym->end) d_al->symoff = al->addr - sym->start; else if (al->map) d_al->symoff = al->addr - map__start(al->map) - sym->start; else d_al->symoff = 0; d_al->sym_binding = sym->binding; } else { d_al->sym = NULL; d_al->sym_start = 0; d_al->sym_end = 0; d_al->symoff = 0; d_al->sym_binding = 0; } d_al->addr = al->addr; d_al->comm = NULL; d_al->filtered = 0; d_al->priv = NULL; } static struct addr_location *get_al(struct dlfilter *d) { struct addr_location *al = d->al; if (!al->thread && machine__resolve(d->machine, al, d->sample) < 0) return NULL; return al; } static struct thread *get_thread(struct dlfilter *d) { struct addr_location *al = get_al(d); return al ? al->thread : NULL; } static const struct perf_dlfilter_al *dlfilter__resolve_ip(void *ctx) { struct dlfilter *d = (struct dlfilter *)ctx; struct perf_dlfilter_al *d_al = d->d_ip_al; struct addr_location *al; if (!d->ctx_valid) return NULL; /* 'size' is also used to indicate already initialized */ if (d_al->size) return d_al; al = get_al(d); if (!al) return NULL; al_to_d_al(al, d_al); d_al->is_kernel_ip = machine__kernel_ip(d->machine, d->sample->ip); d_al->comm = al->thread ? thread__comm_str(al->thread) : ":-1"; d_al->filtered = al->filtered; return d_al; } static const struct perf_dlfilter_al *dlfilter__resolve_addr(void *ctx) { struct dlfilter *d = (struct dlfilter *)ctx; struct perf_dlfilter_al *d_addr_al = d->d_addr_al; struct addr_location *addr_al = d->addr_al; if (!d->ctx_valid || !d->d_sample->addr_correlates_sym) return NULL; /* 'size' is also used to indicate already initialized */ if (d_addr_al->size) return d_addr_al; if (!addr_al->thread) { struct thread *thread = get_thread(d); if (!thread) return NULL; thread__resolve(thread, addr_al, d->sample); } al_to_d_al(addr_al, d_addr_al); d_addr_al->is_kernel_ip = machine__kernel_ip(d->machine, d->sample->addr); return d_addr_al; } static char **dlfilter__args(void *ctx, int *dlargc) { struct dlfilter *d = (struct dlfilter *)ctx; if (dlargc) *dlargc = 0; else return NULL; if (!d->ctx_valid && !d->in_start && !d->in_stop) return NULL; *dlargc = d->dlargc; return d->dlargv; } static bool has_priv(struct perf_dlfilter_al *d_al_p) { return d_al_p->size >= offsetof(struct perf_dlfilter_al, priv) + sizeof(d_al_p->priv); } static __s32 dlfilter__resolve_address(void *ctx, __u64 address, struct perf_dlfilter_al *d_al_p) { struct dlfilter *d = (struct dlfilter *)ctx; struct perf_dlfilter_al d_al; struct addr_location al; struct thread *thread; __u32 sz; if (!d->ctx_valid || !d_al_p) return -1; thread = get_thread(d); if (!thread) return -1; addr_location__init(&al); thread__find_symbol_fb(thread, d->sample->cpumode, address, &al); al_to_d_al(&al, &d_al); d_al.is_kernel_ip = machine__kernel_ip(d->machine, address); sz = d_al_p->size; memcpy(d_al_p, &d_al, min((size_t)sz, sizeof(d_al))); d_al_p->size = sz; if (has_priv(d_al_p)) d_al_p->priv = memdup(&al, sizeof(al)); else /* Avoid leak for v0 API */ addr_location__exit(&al); return 0; } static void dlfilter__al_cleanup(void *ctx __maybe_unused, struct perf_dlfilter_al *d_al_p) { struct addr_location *al; /* Ensure backward compatibility */ if (!has_priv(d_al_p) || !d_al_p->priv) return; al = d_al_p->priv; d_al_p->priv = NULL; addr_location__exit(al); free(al); } static const __u8 *dlfilter__insn(void *ctx, __u32 *len) { struct dlfilter *d = (struct dlfilter *)ctx; if (!len) return NULL; *len = 0; if (!d->ctx_valid) return NULL; if (d->sample->ip && !d->sample->insn_len) { struct addr_location *al = d->al; if (!al->thread && machine__resolve(d->machine, al, d->sample) < 0) return NULL; if (thread__maps(al->thread)) { struct machine *machine = maps__machine(thread__maps(al->thread)); if (machine) script_fetch_insn(d->sample, al->thread, machine); } } if (!d->sample->insn_len) return NULL; *len = d->sample->insn_len; return (__u8 *)d->sample->insn; } static const char *dlfilter__srcline(void *ctx, __u32 *line_no) { struct dlfilter *d = (struct dlfilter *)ctx; struct addr_location *al; unsigned int line = 0; char *srcfile = NULL; struct map *map; struct dso *dso; u64 addr; if (!d->ctx_valid || !line_no) return NULL; al = get_al(d); if (!al) return NULL; map = al->map; addr = al->addr; dso = map ? map__dso(map) : NULL; if (dso) srcfile = get_srcline_split(dso, map__rip_2objdump(map, addr), &line); *line_no = line; return srcfile; } static struct perf_event_attr *dlfilter__attr(void *ctx) { struct dlfilter *d = (struct dlfilter *)ctx; if (!d->ctx_valid) return NULL; return &d->evsel->core.attr; } static __s32 code_read(__u64 ip, struct map *map, struct machine *machine, void *buf, __u32 len) { u64 offset = map__map_ip(map, ip); if (ip + len >= map__end(map)) len = map__end(map) - ip; return dso__data_read_offset(map__dso(map), machine, offset, buf, len); } static __s32 dlfilter__object_code(void *ctx, __u64 ip, void *buf, __u32 len) { struct dlfilter *d = (struct dlfilter *)ctx; struct addr_location *al; struct addr_location a; __s32 ret; if (!d->ctx_valid) return -1; al = get_al(d); if (!al) return -1; if (al->map && ip >= map__start(al->map) && ip < map__end(al->map) && machine__kernel_ip(d->machine, ip) == machine__kernel_ip(d->machine, d->sample->ip)) return code_read(ip, al->map, d->machine, buf, len); addr_location__init(&a); thread__find_map_fb(al->thread, d->sample->cpumode, ip, &a); ret = a.map ? code_read(ip, a.map, d->machine, buf, len) : -1; addr_location__exit(&a); return ret; } static const struct perf_dlfilter_fns perf_dlfilter_fns = { .resolve_ip = dlfilter__resolve_ip, .resolve_addr = dlfilter__resolve_addr, .args = dlfilter__args, .resolve_address = dlfilter__resolve_address, .al_cleanup = dlfilter__al_cleanup, .insn = dlfilter__insn, .srcline = dlfilter__srcline, .attr = dlfilter__attr, .object_code = dlfilter__object_code, }; static char *find_dlfilter(const char *file) { char path[PATH_MAX]; char *exec_path; if (strchr(file, '/')) goto out; if (!access(file, R_OK)) { /* * Prepend "./" so that dlopen will find the file in the * current directory. */ snprintf(path, sizeof(path), "./%s", file); file = path; goto out; } exec_path = get_argv_exec_path(); if (!exec_path) goto out; snprintf(path, sizeof(path), "%s/dlfilters/%s", exec_path, file); free(exec_path); if (!access(path, R_OK)) file = path; out: return strdup(file); } #define CHECK_FLAG(x) BUILD_BUG_ON((u64)PERF_DLFILTER_FLAG_ ## x != (u64)PERF_IP_FLAG_ ## x) static int dlfilter__init(struct dlfilter *d, const char *file, int dlargc, char **dlargv) { CHECK_FLAG(BRANCH); CHECK_FLAG(CALL); CHECK_FLAG(RETURN); CHECK_FLAG(CONDITIONAL); CHECK_FLAG(SYSCALLRET); CHECK_FLAG(ASYNC); CHECK_FLAG(INTERRUPT); CHECK_FLAG(TX_ABORT); CHECK_FLAG(TRACE_BEGIN); CHECK_FLAG(TRACE_END); CHECK_FLAG(IN_TX); CHECK_FLAG(VMENTRY); CHECK_FLAG(VMEXIT); memset(d, 0, sizeof(*d)); d->file = find_dlfilter(file); if (!d->file) return -1; d->dlargc = dlargc; d->dlargv = dlargv; return 0; } static void dlfilter__exit(struct dlfilter *d) { zfree(&d->file); } static int dlfilter__open(struct dlfilter *d) { d->handle = dlopen(d->file, RTLD_NOW); if (!d->handle) { pr_err("dlopen failed for: '%s'\n", d->file); return -1; } d->start = dlsym(d->handle, "start"); d->filter_event = dlsym(d->handle, "filter_event"); d->filter_event_early = dlsym(d->handle, "filter_event_early"); d->stop = dlsym(d->handle, "stop"); d->fns = dlsym(d->handle, "perf_dlfilter_fns"); if (d->fns) memcpy(d->fns, &perf_dlfilter_fns, sizeof(struct perf_dlfilter_fns)); return 0; } static int dlfilter__close(struct dlfilter *d) { return dlclose(d->handle); } struct dlfilter *dlfilter__new(const char *file, int dlargc, char **dlargv) { struct dlfilter *d = malloc(sizeof(*d)); if (!d) return NULL; if (dlfilter__init(d, file, dlargc, dlargv)) goto err_free; if (dlfilter__open(d)) goto err_exit; return d; err_exit: dlfilter__exit(d); err_free: free(d); return NULL; } static void dlfilter__free(struct dlfilter *d) { if (d) { dlfilter__exit(d); free(d); } } int dlfilter__start(struct dlfilter *d, struct perf_session *session) { if (d) { d->session = session; if (d->start) { int ret; d->in_start = true; ret = d->start(&d->data, d); d->in_start = false; return ret; } } return 0; } static int dlfilter__stop(struct dlfilter *d) { if (d && d->stop) { int ret; d->in_stop = true; ret = d->stop(d->data, d); d->in_stop = false; return ret; } return 0; } void dlfilter__cleanup(struct dlfilter *d) { if (d) { dlfilter__stop(d); dlfilter__close(d); dlfilter__free(d); } } #define ASSIGN(x) d_sample.x = sample->x int dlfilter__do_filter_event(struct dlfilter *d, union perf_event *event, struct perf_sample *sample, struct evsel *evsel, struct machine *machine, struct addr_location *al, struct addr_location *addr_al, bool early) { struct perf_dlfilter_sample d_sample; struct perf_dlfilter_al d_ip_al; struct perf_dlfilter_al d_addr_al; int ret; d->event = event; d->sample = sample; d->evsel = evsel; d->machine = machine; d->al = al; d->addr_al = addr_al; d->d_sample = &d_sample; d->d_ip_al = &d_ip_al; d->d_addr_al = &d_addr_al; d_sample.size = sizeof(d_sample); d_ip_al.size = 0; /* To indicate d_ip_al is not initialized */ d_addr_al.size = 0; /* To indicate d_addr_al is not initialized */ ASSIGN(ip); ASSIGN(pid); ASSIGN(tid); ASSIGN(time); ASSIGN(addr); ASSIGN(id); ASSIGN(stream_id); ASSIGN(period); ASSIGN(weight); ASSIGN(ins_lat); ASSIGN(p_stage_cyc); ASSIGN(transaction); ASSIGN(insn_cnt); ASSIGN(cyc_cnt); ASSIGN(cpu); ASSIGN(flags); ASSIGN(data_src); ASSIGN(phys_addr); ASSIGN(data_page_size); ASSIGN(code_page_size); ASSIGN(cgroup); ASSIGN(cpumode); ASSIGN(misc); ASSIGN(raw_size); ASSIGN(raw_data); ASSIGN(machine_pid); ASSIGN(vcpu); if (sample->branch_stack) { d_sample.brstack_nr = sample->branch_stack->nr; d_sample.brstack = (struct perf_branch_entry *)perf_sample__branch_entries(sample); } else { d_sample.brstack_nr = 0; d_sample.brstack = NULL; } if (sample->callchain) { d_sample.raw_callchain_nr = sample->callchain->nr; d_sample.raw_callchain = (__u64 *)sample->callchain->ips; } else { d_sample.raw_callchain_nr = 0; d_sample.raw_callchain = NULL; } d_sample.addr_correlates_sym = (evsel->core.attr.sample_type & PERF_SAMPLE_ADDR) && sample_addr_correlates_sym(&evsel->core.attr); d_sample.event = evsel__name(evsel); d->ctx_valid = true; if (early) ret = d->filter_event_early(d->data, &d_sample, d); else ret = d->filter_event(d->data, &d_sample, d); d->ctx_valid = false; return ret; } bool get_filter_desc(const char *dirname, const char *name, char **desc, char **long_desc) { char path[PATH_MAX]; void *handle; const char *(*desc_fn)(const char **long_description); snprintf(path, sizeof(path), "%s/%s", dirname, name); handle = dlopen(path, RTLD_NOW); if (!handle || !(dlsym(handle, "filter_event") || dlsym(handle, "filter_event_early"))) return false; desc_fn = dlsym(handle, "filter_description"); if (desc_fn) { const char *dsc; const char *long_dsc; dsc = desc_fn(&long_dsc); if (dsc) *desc = strdup(dsc); if (long_dsc) *long_desc = strdup(long_dsc); } dlclose(handle); return true; } static void list_filters(const char *dirname) { struct dirent *entry; DIR *dir; dir = opendir(dirname); if (!dir) return; while ((entry = readdir(dir)) != NULL) { size_t n = strlen(entry->d_name); char *long_desc = NULL; char *desc = NULL; if (entry->d_type == DT_DIR || n < 4 || strcmp(".so", entry->d_name + n - 3)) continue; if (!get_filter_desc(dirname, entry->d_name, &desc, &long_desc)) continue; printf(" %-36s %s\n", entry->d_name, desc ? desc : ""); if (verbose > 0) { char *p = long_desc; char *line; while ((line = strsep(&p, "\n")) != NULL) printf("%39s%s\n", "", line); } free(long_desc); free(desc); } closedir(dir); } int list_available_dlfilters(const struct option *opt __maybe_unused, const char *s __maybe_unused, int unset __maybe_unused) { char path[PATH_MAX]; char *exec_path; printf("List of available dlfilters:\n"); list_filters("."); exec_path = get_argv_exec_path(); if (!exec_path) goto out; snprintf(path, sizeof(path), "%s/dlfilters", exec_path); list_filters(path); free(exec_path); out: exit(0); }
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