// SPDX-License-Identifier: GPL-2.0 #include #include #include #include #include #include "debug.h" #include "dso.h" #include #include "unwind.h" #include "unwind-libdw.h" #include "machine.h" #include "map.h" #include "symbol.h" #include "thread.h" #include #include #include "event.h" #include "perf_regs.h" #include "callchain.h" #include "util/env.h" /* * The dwfl thread argument passed to functions like memory_read. Memory has to * be allocated to persist of multiple uses of the dwfl. */ struct dwfl_ui_thread_info { /* Back link to the dwfl. */ Dwfl *dwfl; /* The current unwind info, only 1 is supported. */ struct unwind_info *ui; }; static char *debuginfo_path; static int __find_debuginfo(Dwfl_Module *mod __maybe_unused, void **userdata, const char *modname __maybe_unused, Dwarf_Addr base __maybe_unused, const char *file_name, const char *debuglink_file __maybe_unused, GElf_Word debuglink_crc __maybe_unused, char **debuginfo_file_name) { const struct dso *dso = *userdata; assert(dso); if (dso__symsrc_filename(dso) && strcmp(file_name, dso__symsrc_filename(dso))) *debuginfo_file_name = strdup(dso__symsrc_filename(dso)); return -1; } void libdw__invalidate_dwfl(struct maps *maps, void *arg) { struct dwfl_ui_thread_info *dwfl_ui_ti = arg; if (!dwfl_ui_ti) return; assert(dwfl_ui_ti->ui == NULL); maps__set_libdw_addr_space_dwfl(maps, NULL); dwfl_end(dwfl_ui_ti->dwfl); free(dwfl_ui_ti); } static const Dwfl_Callbacks offline_callbacks = { .find_debuginfo = __find_debuginfo, .debuginfo_path = &debuginfo_path, .section_address = dwfl_offline_section_address, // .find_elf is not set as we use dwfl_report_elf() instead. }; static int __report_module(struct addr_location *al, u64 ip, struct unwind_info *ui) { Dwfl_Module *mod; struct dso *dso = NULL; Dwarf_Addr base; /* * Some callers will use al->sym, so we can't just use the * cheaper thread__find_map() here. */ thread__find_symbol(ui->thread, PERF_RECORD_MISC_USER, ip, al); if (al->map) dso = map__dso(al->map); if (!dso) return 0; /* * The generated JIT DSO files only map the code segment without * ELF headers. Since JIT codes used to be packed in a memory * segment, calculating the base address using pgoff falls into * a different code in another DSO. So just use the map->start * directly to pick the correct one. */ if (!strncmp(dso__long_name(dso), "/tmp/jitted-", 12)) base = map__start(al->map); else base = map__start(al->map) - map__pgoff(al->map); mod = dwfl_addrmodule(ui->dwfl, ip); if (mod) { Dwarf_Addr s; dwfl_module_info(mod, NULL, &s, NULL, NULL, NULL, NULL, NULL); if (s != base) mod = NULL; } if (!mod) { char filename[PATH_MAX]; __symbol__join_symfs(filename, sizeof(filename), dso__long_name(dso)); /* Don't hang up on device files like /dev/dri/renderD128. */ if (is_regular_file(filename)) { mod = dwfl_report_elf(ui->dwfl, dso__short_name(dso), filename, -1, base, false); } } if (!mod) { char filename[PATH_MAX]; if (dso__build_id_filename(dso, filename, sizeof(filename), false)) mod = dwfl_report_elf(ui->dwfl, dso__short_name(dso), filename, -1, base, false); } if (mod) { void **userdatap; dwfl_module_info(mod, &userdatap, NULL, NULL, NULL, NULL, NULL, NULL); *userdatap = dso; } return mod && dwfl_addrmodule(ui->dwfl, ip) == mod ? 0 : -1; } static int report_module(u64 ip, struct unwind_info *ui) { struct addr_location al; int res; addr_location__init(&al); res = __report_module(&al, ip, ui); addr_location__exit(&al); return res; } /* * Store all entries within entries array, * we will process it after we finish unwind. */ static int entry(u64 ip, struct unwind_info *ui) { struct unwind_entry *e = &ui->entries[ui->idx++]; struct addr_location al; addr_location__init(&al); if (__report_module(&al, ip, ui)) { addr_location__exit(&al); return -1; } e->ip = ip; e->ms.thread = thread__get(al.thread); e->ms.map = map__get(al.map); e->ms.sym = al.sym; pr_debug("unwind: %s:ip = 0x%" PRIx64 " (0x%" PRIx64 ")\n", al.sym ? al.sym->name : "''", ip, al.map ? map__map_ip(al.map, ip) : (u64) 0); addr_location__exit(&al); return 0; } static pid_t next_thread(Dwfl *dwfl, void *arg, void **thread_argp) { /* We want only single thread to be processed. */ if (*thread_argp != NULL) return 0; *thread_argp = arg; return dwfl_pid(dwfl); } static int access_dso_mem(struct unwind_info *ui, Dwarf_Addr addr, Dwarf_Word *data) { struct addr_location al; ssize_t size; struct dso *dso; addr_location__init(&al); if (!thread__find_map(ui->thread, PERF_RECORD_MISC_USER, addr, &al)) { pr_debug("unwind: no map for %lx\n", (unsigned long)addr); goto out_fail; } dso = map__dso(al.map); if (!dso) goto out_fail; size = dso__data_read_addr(dso, al.map, ui->machine, addr, (u8 *) data, sizeof(*data)); addr_location__exit(&al); return !(size == sizeof(*data)); out_fail: addr_location__exit(&al); return -1; } static bool memory_read(Dwfl *dwfl __maybe_unused, Dwarf_Addr addr, Dwarf_Word *result, void *arg) { struct dwfl_ui_thread_info *dwfl_ui_ti = arg; struct unwind_info *ui = dwfl_ui_ti->ui; struct stack_dump *stack = &ui->sample->user_stack; u64 start, end; int offset; int ret; if (!ui->sample->user_regs) return false; ret = perf_reg_value(&start, ui->sample->user_regs, perf_arch_reg_sp(ui->e_machine)); if (ret) return false; end = start + stack->size; /* Check overflow. */ if (addr + sizeof(Dwarf_Word) < addr) return false; if (addr < start || addr + sizeof(Dwarf_Word) > end) { ret = access_dso_mem(ui, addr, result); if (ret) { pr_debug("unwind: access_mem 0x%" PRIx64 " not inside range" " 0x%" PRIx64 "-0x%" PRIx64 "\n", addr, start, end); return false; } return true; } offset = addr - start; *result = *(Dwarf_Word *)&stack->data[offset]; pr_debug("unwind: access_mem addr 0x%" PRIx64 ", val %lx, offset %d\n", addr, (unsigned long)*result, offset); return true; } static bool libdw_set_initial_registers(Dwfl_Thread *thread, void *arg) { struct dwfl_ui_thread_info *dwfl_ui_ti = arg; struct unwind_info *ui = dwfl_ui_ti->ui; struct regs_dump *user_regs = perf_sample__user_regs(ui->sample); Dwarf_Word *dwarf_regs; int max_dwarf_reg = 0; bool ret; uint16_t e_machine = ui->e_machine; int e_flags = ui->e_flags; uint64_t ip_perf_reg = perf_arch_reg_ip(e_machine); Dwarf_Word val = 0; /* * For every possible perf register in the bitmap determine the dwarf * register and use to compute the max. */ for (int perf_reg = 0; perf_reg < 64; perf_reg++) { if (user_regs->mask & (1ULL << perf_reg)) { int dwarf_reg = get_dwarf_regnum_for_perf_regnum(perf_reg, e_machine, e_flags, /*only_libdw_supported=*/true); if (dwarf_reg > max_dwarf_reg) max_dwarf_reg = dwarf_reg; } } dwarf_regs = calloc(max_dwarf_reg + 1, sizeof(*dwarf_regs)); if (!dwarf_regs) return false; for (int perf_reg = 0; perf_reg < 64; perf_reg++) { if (user_regs->mask & (1ULL << perf_reg)) { int dwarf_reg = get_dwarf_regnum_for_perf_regnum(perf_reg, e_machine, e_flags, /*only_libdw_supported=*/true); if (dwarf_reg >= 0) { val = 0; if (perf_reg_value(&val, user_regs, perf_reg) == 0) dwarf_regs[dwarf_reg] = val; } } } if (perf_reg_value(&val, user_regs, ip_perf_reg) == 0) dwfl_thread_state_register_pc(thread, val); ret = dwfl_thread_state_registers(thread, 0, max_dwarf_reg + 1, dwarf_regs); free(dwarf_regs); return ret; } static const Dwfl_Thread_Callbacks callbacks = { .next_thread = next_thread, .memory_read = memory_read, .set_initial_registers = libdw_set_initial_registers, }; static int frame_callback(Dwfl_Frame *state, void *arg) { struct unwind_info *ui = arg; Dwarf_Addr pc; bool isactivation; if (!dwfl_frame_pc(state, &pc, NULL)) { if (!ui->best_effort) pr_err("%s", dwfl_errmsg(-1)); return DWARF_CB_ABORT; } // report the module before we query for isactivation report_module(pc, ui); if (!dwfl_frame_pc(state, &pc, &isactivation)) { if (!ui->best_effort) pr_err("%s", dwfl_errmsg(-1)); return DWARF_CB_ABORT; } if (!isactivation) --pc; return entry(pc, ui) || !(--ui->max_stack) ? DWARF_CB_ABORT : DWARF_CB_OK; } int unwind__get_entries(unwind_entry_cb_t cb, void *arg, struct thread *thread, struct perf_sample *data, int max_stack, bool best_effort) { struct maps *maps = thread__maps(thread); struct machine *machine = maps__machine(maps); uint32_t e_flags = 0; uint16_t e_machine = thread__e_machine(thread, machine, &e_flags); struct dwfl_ui_thread_info *dwfl_ui_ti; static struct unwind_info *ui; Dwfl *dwfl; Dwarf_Word ip; int err = -EINVAL, i; if (!data->user_regs || !data->user_regs->regs) return -EINVAL; ui = zalloc(sizeof(*ui) + sizeof(ui->entries[0]) * max_stack); if (!ui) return -ENOMEM; *ui = (struct unwind_info){ .sample = data, .thread = thread, .machine = machine, .cb = cb, .arg = arg, .max_stack = max_stack, .e_machine = e_machine, .e_flags = e_flags, .best_effort = best_effort }; dwfl_ui_ti = maps__libdw_addr_space_dwfl(maps); if (dwfl_ui_ti) { dwfl = dwfl_ui_ti->dwfl; } else { dwfl_ui_ti = zalloc(sizeof(*dwfl_ui_ti)); dwfl = dwfl_begin(&offline_callbacks); if (!dwfl) goto out; dwfl_ui_ti->dwfl = dwfl; maps__set_libdw_addr_space_dwfl(maps, dwfl_ui_ti); } assert(dwfl_ui_ti->ui == NULL); assert(dwfl_ui_ti->dwfl == dwfl); assert(dwfl_ui_ti == maps__libdw_addr_space_dwfl(maps)); dwfl_ui_ti->ui = ui; ui->dwfl = dwfl; err = perf_reg_value(&ip, data->user_regs, perf_arch_reg_ip(e_machine)); if (err) goto out; err = report_module(ip, ui); if (err) goto out; dwfl_attach_state(dwfl, /*elf=*/NULL, thread__tid(thread), &callbacks, /* Dwfl thread function argument*/dwfl_ui_ti); // Ignore thread already attached error. err = dwfl_getthread_frames(dwfl, thread__tid(thread), frame_callback, /* Dwfl frame function argument*/ui); if (err && ui->max_stack != max_stack) err = 0; /* * Display what we got based on the order setup. */ for (i = 0; i < ui->idx && !err; i++) { int j = i; if (callchain_param.order == ORDER_CALLER) j = ui->idx - i - 1; err = ui->entries[j].ip ? ui->cb(&ui->entries[j], ui->arg) : 0; } out: if (err) pr_debug("unwind: failed with '%s'\n", dwfl_errmsg(-1)); for (i = 0; i < ui->idx; i++) map_symbol__exit(&ui->entries[i].ms); dwfl_ui_ti->ui = NULL; free(ui); return 0; }