drgn/libdrgn/program.c
Omar Sandoval f8ba278bc1 libdrgn: fix include-what-you-use warnings
It's been awhile since I've run this.

Signed-off-by: Omar Sandoval <osandov@osandov.com>
2022-08-26 12:43:20 -07:00

1944 lines
50 KiB
C

// Copyright (c) Meta Platforms, Inc. and affiliates.
// SPDX-License-Identifier: GPL-3.0-or-later
#include <assert.h>
#include <byteswap.h>
#include <dirent.h>
#include <elf.h>
#include <elfutils/libdw.h>
#include <errno.h>
#include <fcntl.h>
#include <gelf.h>
#include <inttypes.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/statfs.h>
#include <sys/types.h>
#include <unistd.h>
#include "debug_info.h"
#include "error.h"
#include "helpers.h"
#include "io.h"
#include "language.h"
#include "linux_kernel.h"
#include "memory_reader.h"
#include "minmax.h"
#include "object_index.h"
#include "program.h"
#include "symbol.h"
#include "util.h"
#include "vector.h"
static inline uint32_t drgn_thread_to_key(const struct drgn_thread *entry)
{
return entry->tid;
}
DEFINE_VECTOR_FUNCTIONS(drgn_prstatus_vector)
DEFINE_HASH_TABLE_FUNCTIONS(drgn_thread_set, drgn_thread_to_key,
int_key_hash_pair, scalar_key_eq)
struct drgn_thread_iterator {
struct drgn_program *prog;
union {
/* For userspace core dumps. */
struct drgn_thread_set_iterator iterator;
struct {
union {
/* For live processes. */
DIR *tasks_dir;
/* For the Linux kernel. */
struct linux_helper_task_iterator task_iter;
};
/* For both live processes and the Linux kernel. */
struct drgn_thread entry;
};
};
};
LIBDRGN_PUBLIC enum drgn_program_flags
drgn_program_flags(struct drgn_program *prog)
{
return prog->flags;
}
LIBDRGN_PUBLIC const struct drgn_platform *
drgn_program_platform(struct drgn_program *prog)
{
return prog->has_platform ? &prog->platform : NULL;
}
LIBDRGN_PUBLIC const struct drgn_language *
drgn_program_language(struct drgn_program *prog)
{
return prog->lang ? prog->lang : &drgn_default_language;
}
LIBDRGN_PUBLIC void drgn_program_set_language(struct drgn_program *prog,
const struct drgn_language *lang)
{
prog->lang = lang;
}
void drgn_program_set_platform(struct drgn_program *prog,
const struct drgn_platform *platform)
{
if (!prog->has_platform) {
prog->platform = *platform;
prog->has_platform = true;
}
}
void drgn_program_init(struct drgn_program *prog,
const struct drgn_platform *platform)
{
memset(prog, 0, sizeof(*prog));
drgn_memory_reader_init(&prog->reader);
drgn_program_init_types(prog);
drgn_object_index_init(&prog->oindex);
prog->core_fd = -1;
if (platform)
drgn_program_set_platform(prog, platform);
char *env = getenv("DRGN_PREFER_ORC_UNWINDER");
prog->prefer_orc_unwinder = env && atoi(env);
drgn_object_init(&prog->vmemmap, prog);
}
void drgn_program_deinit(struct drgn_program *prog)
{
if (prog->core_dump_notes_cached) {
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
drgn_prstatus_vector_deinit(&prog->prstatus_vector);
else
drgn_thread_set_deinit(&prog->thread_set);
}
/*
* For userspace core dumps, main_thread and crashed_thread are in
* prog->thread_set and thus freed by the above call to
* drgn_thread_set_deinit().
*/
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
drgn_thread_destroy(prog->crashed_thread);
else if (prog->flags & DRGN_PROGRAM_IS_LIVE)
drgn_thread_destroy(prog->main_thread);
if (prog->pgtable_it)
prog->platform.arch->linux_kernel_pgtable_iterator_destroy(prog->pgtable_it);
drgn_object_deinit(&prog->vmemmap);
drgn_object_index_deinit(&prog->oindex);
drgn_program_deinit_types(prog);
drgn_memory_reader_deinit(&prog->reader);
free(prog->file_segments);
#ifdef WITH_LIBKDUMPFILE
if (prog->kdump_ctx)
kdump_free(prog->kdump_ctx);
#endif
elf_end(prog->core);
if (prog->core_fd != -1)
close(prog->core_fd);
drgn_debug_info_destroy(prog->dbinfo);
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_create(const struct drgn_platform *platform,
struct drgn_program **ret)
{
struct drgn_program *prog;
prog = malloc(sizeof(*prog));
if (!prog)
return &drgn_enomem;
drgn_program_init(prog, platform);
*ret = prog;
return NULL;
}
LIBDRGN_PUBLIC void drgn_program_destroy(struct drgn_program *prog)
{
if (prog) {
drgn_program_deinit(prog);
free(prog);
}
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_add_memory_segment(struct drgn_program *prog, uint64_t address,
uint64_t size, drgn_memory_read_fn read_fn,
void *arg, bool physical)
{
uint64_t address_mask;
struct drgn_error *err = drgn_program_address_mask(prog, &address_mask);
if (err)
return err;
if (size == 0 || address > address_mask)
return NULL;
uint64_t max_address = address + min(size - 1, address_mask - address);
return drgn_memory_reader_add_segment(&prog->reader, address,
max_address, read_fn, arg,
physical);
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_add_object_finder(struct drgn_program *prog,
drgn_object_find_fn fn, void *arg)
{
return drgn_object_index_add_finder(&prog->oindex, fn, arg);
}
static struct drgn_error *
drgn_program_check_initialized(struct drgn_program *prog)
{
if (prog->core_fd != -1 || !drgn_memory_reader_empty(&prog->reader)) {
return drgn_error_create(DRGN_ERROR_INVALID_ARGUMENT,
"program memory was already initialized");
}
return NULL;
}
static struct drgn_error *has_kdump_signature(const char *path, int fd,
bool *ret)
{
char signature[KDUMP_SIG_LEN];
ssize_t r = pread_all(fd, signature, sizeof(signature), 0);
if (r < 0)
return drgn_error_create_os("pread", errno, path);
*ret = (r == sizeof(signature)
&& memcmp(signature, KDUMP_SIGNATURE, sizeof(signature)) == 0);
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_set_core_dump(struct drgn_program *prog, const char *path)
{
struct drgn_error *err;
GElf_Ehdr ehdr_mem, *ehdr;
bool had_platform;
bool is_64_bit, little_endian, is_kdump;
size_t phnum, i;
size_t num_file_segments, j;
bool have_phys_addrs = false;
bool have_qemu_note = false;
const char *vmcoreinfo_note = NULL;
size_t vmcoreinfo_size = 0;
bool have_nt_taskstruct = false, is_proc_kcore;
err = drgn_program_check_initialized(prog);
if (err)
return err;
prog->core_fd = open(path, O_RDONLY);
if (prog->core_fd == -1)
return drgn_error_create_os("open", errno, path);
err = has_kdump_signature(path, prog->core_fd, &is_kdump);
if (err)
goto out_fd;
if (is_kdump) {
err = drgn_program_set_kdump(prog);
if (err)
goto out_fd;
return NULL;
}
elf_version(EV_CURRENT);
prog->core = elf_begin(prog->core_fd, ELF_C_READ, NULL);
if (!prog->core) {
err = drgn_error_libelf();
goto out_fd;
}
ehdr = gelf_getehdr(prog->core, &ehdr_mem);
if (!ehdr || ehdr->e_type != ET_CORE) {
err = drgn_error_format(DRGN_ERROR_INVALID_ARGUMENT,
"not an ELF core file");
goto out_elf;
}
had_platform = prog->has_platform;
if (!had_platform) {
struct drgn_platform platform;
drgn_platform_from_elf(ehdr, &platform);
drgn_program_set_platform(prog, &platform);
}
is_64_bit = ehdr->e_ident[EI_CLASS] == ELFCLASS64;
little_endian = ehdr->e_ident[EI_DATA] == ELFDATA2LSB;
if (elf_getphdrnum(prog->core, &phnum) != 0) {
err = drgn_error_libelf();
goto out_platform;
}
/*
* First pass: count the number of loadable segments, check if p_paddr
* is valid, and check for notes.
*/
num_file_segments = 0;
for (i = 0; i < phnum; i++) {
GElf_Phdr phdr_mem, *phdr;
phdr = gelf_getphdr(prog->core, i, &phdr_mem);
if (!phdr) {
err = drgn_error_libelf();
goto out_notes;
}
if (phdr->p_type == PT_LOAD) {
if (phdr->p_paddr)
have_phys_addrs = true;
num_file_segments++;
} else if (phdr->p_type == PT_NOTE) {
Elf_Data *data;
size_t offset;
GElf_Nhdr nhdr;
size_t name_offset, desc_offset;
data = elf_getdata_rawchunk(prog->core, phdr->p_offset,
phdr->p_filesz,
note_header_type(phdr->p_align));
if (!data) {
err = drgn_error_libelf();
goto out_notes;
}
offset = 0;
while (offset < data->d_size &&
(offset = gelf_getnote(data, offset, &nhdr,
&name_offset,
&desc_offset))) {
const char *name, *desc;
name = (char *)data->d_buf + name_offset;
desc = (char *)data->d_buf + desc_offset;
if (nhdr.n_namesz == sizeof("CORE") &&
memcmp(name, "CORE", sizeof("CORE")) == 0) {
if (nhdr.n_type == NT_TASKSTRUCT)
have_nt_taskstruct = true;
} else if (nhdr.n_namesz == sizeof("LINUX") &&
memcmp(name, "LINUX",
sizeof("LINUX")) == 0) {
if (nhdr.n_type == NT_ARM_PAC_MASK &&
nhdr.n_descsz >=
2 * sizeof(uint64_t)) {
memcpy(&prog->aarch64_insn_pac_mask,
(uint64_t *)desc + 1,
sizeof(uint64_t));
if (little_endian !=
HOST_LITTLE_ENDIAN)
bswap_64(prog->aarch64_insn_pac_mask);
}
} else if (nhdr.n_namesz == sizeof("VMCOREINFO") &&
memcmp(name, "VMCOREINFO",
sizeof("VMCOREINFO")) == 0) {
vmcoreinfo_note = desc;
vmcoreinfo_size = nhdr.n_descsz;
/*
* This is either a vmcore or
* /proc/kcore, so even a p_paddr of 0
* may be valid.
*/
have_phys_addrs = true;
} else if (nhdr.n_namesz == sizeof("QEMU") &&
memcmp(name, "QEMU",
sizeof("QEMU")) == 0) {
have_qemu_note = true;
}
}
}
}
if (have_nt_taskstruct) {
/*
* If the core file has an NT_TASKSTRUCT note and is in /proc,
* then it's probably /proc/kcore.
*/
struct statfs fs;
if (fstatfs(prog->core_fd, &fs) == -1) {
err = drgn_error_create_os("fstatfs", errno, path);
if (err)
goto out_notes;
}
is_proc_kcore = fs.f_type == 0x9fa0; /* PROC_SUPER_MAGIC */
} else {
is_proc_kcore = false;
}
if (vmcoreinfo_note && !is_proc_kcore) {
char *env;
/* Use libkdumpfile for ELF vmcores if it was requested. */
env = getenv("DRGN_USE_LIBKDUMPFILE_FOR_ELF");
if (env && atoi(env)) {
err = drgn_program_set_kdump(prog);
if (err)
goto out_notes;
return NULL;
}
}
prog->file_segments = malloc_array(num_file_segments,
sizeof(*prog->file_segments));
if (!prog->file_segments) {
err = &drgn_enomem;
goto out_notes;
}
bool pgtable_reader =
(is_proc_kcore || vmcoreinfo_note) &&
prog->platform.arch->linux_kernel_pgtable_iterator_next;
if (pgtable_reader) {
/*
* Try to read any memory that isn't in the core dump via the
* page table.
*/
err = drgn_program_add_memory_segment(prog, 0, UINT64_MAX,
read_memory_via_pgtable,
prog, false);
if (err)
goto out_segments;
}
/* Second pass: add the segments. */
for (i = 0, j = 0; i < phnum && j < num_file_segments; i++) {
GElf_Phdr phdr_mem, *phdr;
phdr = gelf_getphdr(prog->core, i, &phdr_mem);
if (!phdr) {
err = drgn_error_libelf();
goto out_segments;
}
if (phdr->p_type != PT_LOAD)
continue;
prog->file_segments[j].file_offset = phdr->p_offset;
prog->file_segments[j].file_size = phdr->p_filesz;
prog->file_segments[j].fd = prog->core_fd;
prog->file_segments[j].eio_is_fault = false;
/*
* p_filesz < p_memsz is ambiguous for core dumps. The ELF
* specification says that "if the segment's memory size p_memsz
* is larger than the file size p_filesz, the 'extra' bytes are
* defined to hold the value 0 and to follow the segment's
* initialized area."
*
* However, the Linux kernel generates userspace core dumps with
* segments with p_filesz < p_memsz to indicate that the range
* between p_filesz and p_memsz was filtered out (see
* coredump_filter in core(5)). These bytes were not necessarily
* zeroes in the process's memory, which contradicts the ELF
* specification in a way.
*
* As of Linux 5.19, /proc/kcore and /proc/vmcore never have
* segments with p_filesz < p_memsz. However, makedumpfile
* creates segments with p_filesz < p_memsz to indicate ranges
* that were excluded. This is similar to Linux userspace core
* dumps, except that makedumpfile can also exclude ranges that
* were all zeroes.
*
* So, for userspace core dumps, we want to fault for ranges
* between p_filesz and p_memsz to indicate that the memory was
* not saved rather than lying and returning zeroes. For
* /proc/kcore, we don't expect to see p_filesz < p_memsz but we
* fault to be safe. For Linux kernel core dumps, we can't
* distinguish between memory that was excluded because it was
* all zeroes and memory that was excluded by makedumpfile for
* another reason, so we're forced to always return zeroes.
*/
prog->file_segments[j].zerofill = vmcoreinfo_note && !is_proc_kcore;
err = drgn_program_add_memory_segment(prog, phdr->p_vaddr,
phdr->p_memsz,
drgn_read_memory_file,
&prog->file_segments[j],
false);
if (err)
goto out_segments;
if (have_phys_addrs &&
phdr->p_paddr != (is_64_bit ? UINT64_MAX : UINT32_MAX)) {
err = drgn_program_add_memory_segment(prog,
phdr->p_paddr,
phdr->p_memsz,
drgn_read_memory_file,
&prog->file_segments[j],
true);
if (err)
goto out_segments;
}
j++;
}
/*
* Before Linux kernel commit 464920104bf7 ("/proc/kcore: update
* physical address for kcore ram and text") (in v4.11), p_paddr in
* /proc/kcore is always zero. If we know the address of the direct
* mapping, we can still add physical segments. This needs to be a third
* pass, as we may need to read virtual memory to determine the mapping.
*/
if (is_proc_kcore && !have_phys_addrs &&
prog->platform.arch->linux_kernel_live_direct_mapping_fallback) {
uint64_t direct_mapping, direct_mapping_size;
err = prog->platform.arch->linux_kernel_live_direct_mapping_fallback(prog,
&direct_mapping,
&direct_mapping_size);
if (err)
goto out_segments;
for (i = 0, j = 0; i < phnum && j < num_file_segments; i++) {
GElf_Phdr phdr_mem, *phdr;
phdr = gelf_getphdr(prog->core, i, &phdr_mem);
if (!phdr) {
err = drgn_error_libelf();
goto out_segments;
}
if (phdr->p_type != PT_LOAD)
continue;
if (phdr->p_vaddr >= direct_mapping &&
phdr->p_vaddr - direct_mapping + phdr->p_memsz <=
direct_mapping_size) {
uint64_t phys_addr;
phys_addr = phdr->p_vaddr - direct_mapping;
err = drgn_program_add_memory_segment(prog,
phys_addr,
pgtable_reader ?
phdr->p_filesz :
phdr->p_memsz,
drgn_read_memory_file,
&prog->file_segments[j],
true);
if (err)
goto out_segments;
}
j++;
}
}
if (vmcoreinfo_note) {
err = drgn_program_parse_vmcoreinfo(prog, vmcoreinfo_note,
vmcoreinfo_size);
if (err)
goto out_segments;
}
if (is_proc_kcore) {
if (!vmcoreinfo_note) {
err = read_vmcoreinfo_fallback(prog);
if (err)
goto out_segments;
}
prog->flags |= (DRGN_PROGRAM_IS_LINUX_KERNEL |
DRGN_PROGRAM_IS_LIVE);
elf_end(prog->core);
prog->core = NULL;
} else if (vmcoreinfo_note) {
prog->flags |= DRGN_PROGRAM_IS_LINUX_KERNEL;
} else if (have_qemu_note) {
err = drgn_error_create(DRGN_ERROR_INVALID_ARGUMENT,
"unrecognized QEMU memory dump; "
"for Linux guests, run QEMU with '-device vmcoreinfo', "
"compile the kernel with CONFIG_FW_CFG_SYSFS and CONFIG_KEXEC, "
"and load the qemu_fw_cfg kernel module "
"before dumping the guest memory "
"(requires Linux >= 4.17 and QEMU >= 2.11)");
goto out_segments;
}
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) {
err = drgn_program_add_object_finder(prog,
linux_kernel_object_find,
prog);
if (err)
goto out_segments;
if (!prog->lang)
prog->lang = &drgn_language_c;
}
return NULL;
out_segments:
drgn_memory_reader_deinit(&prog->reader);
drgn_memory_reader_init(&prog->reader);
free(prog->file_segments);
prog->file_segments = NULL;
out_notes:
// Reset anything we parsed from ELF notes.
prog->aarch64_insn_pac_mask = 0;
memset(&prog->vmcoreinfo, 0, sizeof(prog->vmcoreinfo));
out_platform:
prog->has_platform = had_platform;
out_elf:
elf_end(prog->core);
prog->core = NULL;
out_fd:
close(prog->core_fd);
prog->core_fd = -1;
return err;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_set_kernel(struct drgn_program *prog)
{
return drgn_program_set_core_dump(prog, "/proc/kcore");
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_set_pid(struct drgn_program *prog, pid_t pid)
{
struct drgn_error *err;
err = drgn_program_check_initialized(prog);
if (err)
return err;
#define FORMAT "/proc/%ld/mem"
char buf[sizeof(FORMAT) - sizeof("%ld") + max_decimal_length(long) + 1];
snprintf(buf, sizeof(buf), FORMAT, (long)pid);
#undef FORMAT
prog->core_fd = open(buf, O_RDONLY);
if (prog->core_fd == -1)
return drgn_error_create_os("open", errno, buf);
bool had_platform = prog->has_platform;
drgn_program_set_platform(prog, &drgn_host_platform);
prog->file_segments = malloc(sizeof(*prog->file_segments));
if (!prog->file_segments) {
err = &drgn_enomem;
goto out_fd;
}
prog->file_segments[0].file_offset = 0;
prog->file_segments[0].file_size = UINT64_MAX;
prog->file_segments[0].fd = prog->core_fd;
prog->file_segments[0].eio_is_fault = true;
prog->file_segments[0].zerofill = false;
err = drgn_program_add_memory_segment(prog, 0, UINT64_MAX,
drgn_read_memory_file,
prog->file_segments, false);
if (err)
goto out_segments;
prog->pid = pid;
prog->flags |= DRGN_PROGRAM_IS_LIVE;
return NULL;
out_segments:
drgn_memory_reader_deinit(&prog->reader);
drgn_memory_reader_init(&prog->reader);
free(prog->file_segments);
prog->file_segments = NULL;
out_fd:
prog->has_platform = had_platform;
close(prog->core_fd);
prog->core_fd = -1;
return err;
}
/* Set the default language from the language of "main". */
static void drgn_program_set_language_from_main(struct drgn_program *prog)
{
struct drgn_error *err;
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
return;
const struct drgn_language *lang;
err = drgn_debug_info_main_language(prog->dbinfo, &lang);
if (err)
drgn_error_destroy(err);
if (lang)
prog->lang = lang;
}
static int drgn_set_platform_from_dwarf(Dwfl_Module *module, void **userdatap,
const char *name, Dwarf_Addr base,
Dwarf *dwarf, Dwarf_Addr bias,
void *arg)
{
Elf *elf;
GElf_Ehdr ehdr_mem, *ehdr;
struct drgn_platform platform;
elf = dwarf_getelf(dwarf);
if (!elf)
return DWARF_CB_OK;
ehdr = gelf_getehdr(elf, &ehdr_mem);
if (!ehdr)
return DWARF_CB_OK;
drgn_platform_from_elf(ehdr, &platform);
drgn_program_set_platform(arg, &platform);
return DWARF_CB_ABORT;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_load_debug_info(struct drgn_program *prog, const char **paths,
size_t n, bool load_default, bool load_main)
{
struct drgn_error *err;
if (!n && !load_default && !load_main)
return NULL;
struct drgn_debug_info *dbinfo = prog->dbinfo;
if (!dbinfo) {
err = drgn_debug_info_create(prog, &dbinfo);
if (err)
return err;
err = drgn_program_add_object_finder(prog,
drgn_debug_info_find_object,
dbinfo);
if (err) {
drgn_debug_info_destroy(dbinfo);
return err;
}
err = drgn_program_add_type_finder(prog,
drgn_debug_info_find_type,
dbinfo);
if (err) {
drgn_object_index_remove_finder(&prog->oindex);
drgn_debug_info_destroy(dbinfo);
return err;
}
prog->dbinfo = dbinfo;
}
err = drgn_debug_info_load(dbinfo, paths, n, load_default, load_main);
if ((!err || err->code == DRGN_ERROR_MISSING_DEBUG_INFO)) {
if (!prog->lang)
drgn_program_set_language_from_main(prog);
if (!prog->has_platform) {
dwfl_getdwarf(dbinfo->dwfl,
drgn_set_platform_from_dwarf, prog, 0);
}
}
return err;
}
static struct drgn_error *get_prstatus_pid(struct drgn_program *prog, const char *data,
size_t size, uint32_t *ret)
{
bool is_64_bit, bswap;
struct drgn_error *err = drgn_program_is_64_bit(prog, &is_64_bit);
if (err)
return err;
err = drgn_program_bswap(prog, &bswap);
if (err)
return err;
size_t offset = is_64_bit ? 32 : 24;
uint32_t pr_pid;
if (size < offset + sizeof(pr_pid)) {
return drgn_error_create(DRGN_ERROR_OTHER,
"NT_PRSTATUS is truncated");
}
memcpy(&pr_pid, data + offset, sizeof(pr_pid));
if (bswap)
pr_pid = bswap_32(pr_pid);
*ret = pr_pid;
return NULL;
}
static struct drgn_error *get_prpsinfo_pid(struct drgn_program *prog,
const char *data, size_t size,
uint32_t *ret)
{
bool is_64_bit, bswap;
struct drgn_error *err = drgn_program_is_64_bit(prog, &is_64_bit);
if (err)
return err;
err = drgn_program_bswap(prog, &bswap);
if (err)
return err;
size_t offset = is_64_bit ? 24 : 12;
uint32_t pr_pid;
if (size < offset + sizeof(pr_pid)) {
return drgn_error_create(DRGN_ERROR_OTHER,
"NT_PRPSINFO is truncated");
}
memcpy(&pr_pid, data + offset, sizeof(pr_pid));
if (bswap)
pr_pid = bswap_32(pr_pid);
*ret = pr_pid;
return NULL;
}
struct drgn_error *drgn_thread_dup_internal(const struct drgn_thread *thread,
struct drgn_thread *ret)
{
struct drgn_error *err = NULL;
ret->prog = thread->prog;
ret->tid = thread->tid;
/* Don't need a deep copy here since the PRSTATUS notes are cached. */
ret->prstatus = thread->prstatus;
if (thread->prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) {
drgn_object_init(&ret->object, thread->prog);
err = drgn_object_copy(&ret->object, &thread->object);
if (err)
drgn_object_deinit(&ret->object);
}
return err;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_thread_dup(const struct drgn_thread *thread, struct drgn_thread **ret)
{
if (!(thread->prog->flags &
(DRGN_PROGRAM_IS_LINUX_KERNEL | DRGN_PROGRAM_IS_LIVE))) {
/*
* For userspace core dumps, all threads are cached and
* immutable, so we can return the same handle.
*/
*ret = (struct drgn_thread *)thread;
return NULL;
}
*ret = malloc(sizeof(**ret));
if (!*ret)
return &drgn_enomem;
struct drgn_error *err = drgn_thread_dup_internal(thread, *ret);
if (err)
free(*ret);
return err;
}
void drgn_thread_deinit(struct drgn_thread *thread) {
if (thread->prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
drgn_object_deinit(&thread->object);
}
LIBDRGN_PUBLIC void drgn_thread_destroy(struct drgn_thread *thread)
{
if (thread) {
drgn_thread_deinit(thread);
if (thread->prog->flags &
(DRGN_PROGRAM_IS_LINUX_KERNEL | DRGN_PROGRAM_IS_LIVE))
free(thread);
}
}
struct drgn_error *drgn_program_cache_prstatus_entry(struct drgn_program *prog,
const char *data,
size_t size, uint32_t *ret)
{
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) {
struct nstring *entry =
drgn_prstatus_vector_append_entry(&prog->prstatus_vector);
if (!entry)
return &drgn_enomem;
entry->str = data;
entry->len = size;
} else {
struct drgn_thread thread = {
.prog = prog,
.prstatus = { data, size },
};
struct drgn_error *err = get_prstatus_pid(prog, data, size,
&thread.tid);
if (err)
return err;
*ret = thread.tid;
if (drgn_thread_set_insert(&prog->thread_set, &thread,
NULL) == -1)
return &drgn_enomem;
}
return NULL;
}
static struct drgn_error *
drgn_program_cache_core_dump_notes(struct drgn_program *prog)
{
struct drgn_error *err;
size_t phnum, i;
bool found_prstatus = false;
uint32_t first_prstatus_tid;
bool found_prpsinfo = false;
uint32_t prpsinfo_pid;
if (prog->core_dump_notes_cached)
return NULL;
assert(!(prog->flags & DRGN_PROGRAM_IS_LIVE));
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
drgn_prstatus_vector_init(&prog->prstatus_vector);
else
drgn_thread_set_init(&prog->thread_set);
#ifdef WITH_LIBKDUMPFILE
if (prog->kdump_ctx) {
err = drgn_program_cache_kdump_notes(prog);
if (err)
goto err;
goto out;
}
#endif
if (!prog->core) {
err = NULL;
goto out;
}
if (elf_getphdrnum(prog->core, &phnum) != 0) {
err = drgn_error_libelf();
goto err;
}
for (i = 0; i < phnum; i++) {
GElf_Phdr phdr_mem, *phdr;
Elf_Data *data;
size_t offset;
GElf_Nhdr nhdr;
size_t name_offset, desc_offset;
phdr = gelf_getphdr(prog->core, i, &phdr_mem);
if (!phdr) {
err = drgn_error_libelf();
goto err;
}
if (phdr->p_type != PT_NOTE)
continue;
data = elf_getdata_rawchunk(prog->core, phdr->p_offset,
phdr->p_filesz,
note_header_type(phdr->p_align));
if (!data) {
err = drgn_error_libelf();
goto err;
}
offset = 0;
while (offset < data->d_size &&
(offset = gelf_getnote(data, offset, &nhdr, &name_offset,
&desc_offset))) {
const char *name;
name = (char *)data->d_buf + name_offset;
if (strncmp(name, "CORE", nhdr.n_namesz) != 0)
continue;
if (nhdr.n_type == NT_PRPSINFO) {
err = get_prpsinfo_pid(prog,
(char *)data->d_buf + desc_offset,
nhdr.n_descsz,
&prpsinfo_pid);
if (err)
goto err;
found_prpsinfo = true;
} else if (nhdr.n_type == NT_PRSTATUS) {
uint32_t tid;
err = drgn_program_cache_prstatus_entry(prog,
(char *)data->d_buf + desc_offset,
nhdr.n_descsz,
&tid);
if (err)
goto err;
/*
* The first PRSTATUS note is the crashed thread. See
* fs/binfmt_elf.c:fill_note_info in the Linux kernel
* and bfd/elf.c:elfcore_grok_prstatus in BFD.
*/
if (!found_prstatus) {
found_prstatus = true;
first_prstatus_tid = tid;
}
}
}
}
out:
prog->core_dump_notes_cached = true;
if (!(prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)) {
if (found_prpsinfo) {
struct drgn_thread_set_iterator it =
drgn_thread_set_search(&prog->thread_set,
&prpsinfo_pid);
/* If the PID isn't found, then this is NULL. */
prog->main_thread = it.entry;
}
if (found_prstatus) {
/*
* Now that thread_set won't be modified, look up the crashed
* thread entry.
*/
struct drgn_thread_set_iterator it =
drgn_thread_set_search(&prog->thread_set,
&first_prstatus_tid);
assert(it.entry);
prog->crashed_thread = it.entry;
}
}
return NULL;
err:
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
drgn_prstatus_vector_deinit(&prog->prstatus_vector);
else
drgn_thread_set_deinit(&prog->thread_set);
return err;
}
static struct drgn_error *
drgn_thread_iterator_init_linux_kernel(struct drgn_thread_iterator *it)
{
struct drgn_error *err = linux_helper_task_iterator_init(&it->task_iter,
it->prog);
if (err)
return err;
drgn_object_init(&it->entry.object, it->prog);
it->entry.prstatus = (struct nstring){};
return NULL;
}
static struct drgn_error *
drgn_thread_iterator_init_userspace_live(struct drgn_thread_iterator *it)
{
#define FORMAT "/proc/%ld/task"
char path[sizeof(FORMAT)
- sizeof("%ld")
+ max_decimal_length(long)
+ 1];
snprintf(path, sizeof(path), FORMAT, (long)it->prog->pid);
#undef FORMAT
it->tasks_dir = opendir(path);
if (!it->tasks_dir)
return drgn_error_create_os("opendir", errno, path);
it->entry.prog = it->prog;
it->entry.prstatus = (struct nstring){};
return NULL;
}
static struct drgn_error *
drgn_thread_iterator_init_userspace_core(struct drgn_thread_iterator *it)
{
struct drgn_error *err = drgn_program_cache_core_dump_notes(it->prog);
if (err)
return err;
it->iterator = drgn_thread_set_first(&it->prog->thread_set);
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_thread_iterator_create(struct drgn_program *prog,
struct drgn_thread_iterator **ret)
{
struct drgn_error *err;
*ret = malloc(sizeof(**ret));
if (!*ret)
return &drgn_enomem;
(*ret)->prog = prog;
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
err = drgn_thread_iterator_init_linux_kernel(*ret);
else if (prog->flags & DRGN_PROGRAM_IS_LIVE)
err = drgn_thread_iterator_init_userspace_live(*ret);
else
err = drgn_thread_iterator_init_userspace_core(*ret);
if (err)
free(*ret);
return err;
}
LIBDRGN_PUBLIC void
drgn_thread_iterator_destroy(struct drgn_thread_iterator *it)
{
if (it) {
if (it->prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) {
drgn_object_deinit(&it->entry.object);
linux_helper_task_iterator_deinit(&it->task_iter);
} else if (it->prog->flags & DRGN_PROGRAM_IS_LIVE) {
closedir(it->tasks_dir);
}
free(it);
}
}
static struct drgn_error *
drgn_thread_iterator_next_linux_kernel(struct drgn_thread_iterator *it,
struct drgn_thread **ret)
{
struct drgn_error *err;
const struct drgn_object *task;
err = linux_helper_task_iterator_next(&it->task_iter, &task);
if (err)
return err;
if (!task) {
*ret = NULL;
return NULL;
}
it->entry.prog = drgn_object_program(task);
err = drgn_object_copy(&it->entry.object, task);
if (err)
return err;
struct drgn_object tid;
union drgn_value tid_value;
drgn_object_init(&tid, drgn_object_program(task));
err = drgn_object_member_dereference(&tid, task, "pid");
if (!err)
err = drgn_object_read_integer(&tid, &tid_value);
drgn_object_deinit(&tid);
if (err)
return err;
it->entry.tid = tid_value.uvalue;
*ret = &it->entry;
return NULL;
}
static struct drgn_error *
drgn_thread_iterator_next_userspace_live(struct drgn_thread_iterator *it,
struct drgn_thread **ret)
{
struct dirent *task;
unsigned long tid;
char *end;
do {
errno = 0;
task = readdir(it->tasks_dir);
if (!task) {
if (errno) {
return drgn_error_create_os("readdir", errno,
NULL);
}
*ret = NULL;
return NULL;
}
errno = 0;
tid = strtoul(task->d_name, &end, 10);
/*
* Skip anything that isn't a number (like "." and "..") or
* overflows (which is impossible normally).
*/
} while (*end != '\0' || (tid == ULONG_MAX && errno == ERANGE));
it->entry.tid = tid;
*ret = &it->entry;
return NULL;
}
static void
drgn_thread_iterator_next_userspace_core(struct drgn_thread_iterator *it,
struct drgn_thread **ret)
{
*ret = it->iterator.entry;
if (it->iterator.entry)
it->iterator = drgn_thread_set_next(it->iterator);
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_thread_iterator_next(struct drgn_thread_iterator *it,
struct drgn_thread **ret)
{
if (it->prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) {
return drgn_thread_iterator_next_linux_kernel(it, ret);
} else if (it->prog->flags & DRGN_PROGRAM_IS_LIVE) {
return drgn_thread_iterator_next_userspace_live(it, ret);
} else {
drgn_thread_iterator_next_userspace_core(it, ret);
return NULL;
}
}
static struct drgn_error *
drgn_program_find_thread_linux_kernel(struct drgn_program *prog, uint32_t tid,
struct drgn_thread **ret)
{
struct drgn_error *err;
*ret = malloc(sizeof(**ret));
if (!*ret)
return &drgn_enomem;
(*ret)->prog = prog;
(*ret)->tid = tid;
(*ret)->prstatus = (struct nstring){};
struct drgn_object *object = &(*ret)->object;
drgn_object_init(object, prog);
err = drgn_program_find_object(prog, "init_pid_ns", NULL,
DRGN_FIND_OBJECT_VARIABLE, object);
if (err)
goto err;
err = drgn_object_address_of(object, object);
if (err)
goto err;
err = linux_helper_find_task(object, object, tid);
if (err)
goto err;
bool truthy;
err = drgn_object_bool(object, &truthy);
if (err)
goto err;
if (!truthy) {
drgn_thread_destroy(*ret);
*ret = NULL;
}
return NULL;
err:
drgn_thread_destroy(*ret);
return err;
}
static struct drgn_error *
drgn_program_find_thread_userspace_live(struct drgn_program *prog, uint32_t tid,
struct drgn_thread **ret)
{
#define FORMAT "/proc/%ld/task/%" PRIu32
char path[sizeof(FORMAT)
- sizeof("%ld%" PRIu32)
+ max_decimal_length(long)
+ max_decimal_length(uint32_t)
+ 1];
snprintf(path, sizeof(path), FORMAT, (long)prog->pid, tid);
#undef FORMAT
int r = access(path, F_OK);
if (r == 0) {
*ret = malloc(sizeof(**ret));
if (!*ret)
return &drgn_enomem;
(*ret)->prog = prog;
(*ret)->tid = tid;
(*ret)->prstatus = (struct nstring){};
return NULL;
} else if (errno == ENOENT) {
*ret = NULL;
return NULL;
} else {
return drgn_error_create_os("access", errno, path);
}
}
static struct drgn_error *
drgn_program_find_thread_userspace_core(struct drgn_program *prog, uint32_t tid,
struct drgn_thread **ret)
{
struct drgn_error *err = drgn_program_cache_core_dump_notes(prog);
if (err)
return err;
*ret = drgn_thread_set_search(&prog->thread_set, &tid).entry;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_find_thread(struct drgn_program *prog, uint32_t tid,
struct drgn_thread **ret)
{
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)
return drgn_program_find_thread_linux_kernel(prog, tid, ret);
else if (prog->flags & DRGN_PROGRAM_IS_LIVE)
return drgn_program_find_thread_userspace_live(prog, tid, ret);
else
return drgn_program_find_thread_userspace_core(prog, tid, ret);
}
static struct drgn_error *
drgn_program_kernel_core_dump_cache_crashed_thread(struct drgn_program *prog)
{
struct drgn_error *err;
assert((prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) &&
!(prog->flags & DRGN_PROGRAM_IS_LIVE));
assert(prog->core_dump_notes_cached);
if (prog->crashed_thread)
return NULL;
struct drgn_object crashing_cpu;
union drgn_value crashing_cpu_value;
drgn_object_init(&crashing_cpu, prog);
err = drgn_program_find_object(prog, "crashing_cpu", NULL,
DRGN_FIND_OBJECT_VARIABLE,
&crashing_cpu);
if (!err) {
err = drgn_object_read_integer(&crashing_cpu,
&crashing_cpu_value);
} else if (err->code == DRGN_ERROR_LOOKUP) {
/*
* Before Linux kernel commit 5bc329503e81 ("x86/mce: Handle
* broadcasted MCE gracefully with kexec") (in v4.12),
* crashing_cpu is only defined in SMP kernels.
*/
drgn_error_destroy(err);
err = NULL;
crashing_cpu_value.uvalue = 0;
}
drgn_object_deinit(&crashing_cpu);
if (err)
return err;
/*
* Since Linux kernel commit 5bc329503e81 ("x86/mce: Handle broadcasted
* MCE gracefully with kexec") (in v4.12), crashing_cpu is defined in
* !SMP kernels, but it's always -1.
*/
if (crashing_cpu_value.svalue == -1)
crashing_cpu_value.uvalue = 0;
if (crashing_cpu_value.uvalue >= prog->prstatus_vector.size)
return NULL;
struct nstring *prstatus =
&prog->prstatus_vector.data[crashing_cpu_value.uvalue];
uint32_t crashed_thread_tid;
err = get_prstatus_pid(prog, prstatus->str, prstatus->len,
&crashed_thread_tid);
if (err)
return err;
if (crashed_thread_tid == 0) {
prog->crashed_thread = malloc(sizeof(*prog->crashed_thread));
if (!prog->crashed_thread)
return &drgn_enomem;
prog->crashed_thread->prog = prog;
prog->crashed_thread->tid = crashed_thread_tid;
drgn_object_init(&prog->crashed_thread->object, prog);
err = linux_helper_idle_task(&prog->crashed_thread->object,
crashing_cpu_value.uvalue);
if (err) {
drgn_object_deinit(&prog->crashed_thread->object);
free(prog->crashed_thread);
}
} else {
err = drgn_program_find_thread(prog, crashed_thread_tid,
&prog->crashed_thread);
}
if (err) {
prog->crashed_thread = NULL;
return err;
}
prog->crashed_thread->prstatus = *prstatus;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_main_thread(struct drgn_program *prog, struct drgn_thread **ret)
{
struct drgn_error *err;
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) {
return drgn_error_create(DRGN_ERROR_INVALID_ARGUMENT,
"main thread is not defined for the Linux kernel");
}
if (prog->flags & DRGN_PROGRAM_IS_LIVE) {
if (!prog->main_thread) {
err = drgn_program_find_thread(prog, prog->pid,
&prog->main_thread);
if (err) {
prog->main_thread = NULL;
return err;
}
}
} else {
err = drgn_program_cache_core_dump_notes(prog);
if (err)
return err;
}
if (!prog->main_thread) {
return drgn_error_create(DRGN_ERROR_OTHER,
"main thread not found");
}
*ret = prog->main_thread;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_crashed_thread(struct drgn_program *prog, struct drgn_thread **ret)
{
struct drgn_error *err;
if (prog->flags & DRGN_PROGRAM_IS_LIVE) {
return drgn_error_create(DRGN_ERROR_INVALID_ARGUMENT,
"crashed thread is only defined for core dumps");
}
err = drgn_program_cache_core_dump_notes(prog);
if (err)
return err;
if (prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL) {
err = drgn_program_kernel_core_dump_cache_crashed_thread(prog);
if (err)
return err;
}
if (!prog->crashed_thread) {
return drgn_error_create(DRGN_ERROR_OTHER,
"crashed thread not found");
}
*ret = prog->crashed_thread;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_thread_object(struct drgn_thread *thread, const struct drgn_object **ret)
{
if (!(thread->prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL)) {
return drgn_error_create(DRGN_ERROR_INVALID_ARGUMENT,
"thread object is currently only defined for the Linux kernel");
}
*ret = &thread->object;
return NULL;
}
struct drgn_error *drgn_program_find_prstatus_by_cpu(struct drgn_program *prog,
uint32_t cpu,
struct nstring *ret,
uint32_t *tid_ret)
{
assert(prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL);
struct drgn_error *err = drgn_program_cache_core_dump_notes(prog);
if (err)
return err;
if (cpu < prog->prstatus_vector.size) {
*ret = prog->prstatus_vector.data[cpu];
return get_prstatus_pid(prog, ret->str, ret->len, tid_ret);
} else {
ret->str = NULL;
ret->len = 0;
return NULL;
}
}
struct drgn_error *drgn_program_find_prstatus_by_tid(struct drgn_program *prog,
uint32_t tid,
struct nstring *ret)
{
struct drgn_error *err;
assert(!(prog->flags & DRGN_PROGRAM_IS_LINUX_KERNEL));
struct drgn_thread *thread;
err = drgn_program_find_thread(prog, tid, &thread);
if (err)
return err;
if (!thread) {
ret->str = NULL;
ret->len = 0;
return NULL;
}
*ret = thread->prstatus;
return NULL;
}
struct drgn_error *drgn_program_init_core_dump(struct drgn_program *prog,
const char *path)
{
struct drgn_error *err;
err = drgn_program_set_core_dump(prog, path);
if (err)
return err;
err = drgn_program_load_debug_info(prog, NULL, 0, true, true);
if (err && err->code == DRGN_ERROR_MISSING_DEBUG_INFO) {
drgn_error_destroy(err);
err = NULL;
}
return err;
}
struct drgn_error *drgn_program_init_kernel(struct drgn_program *prog)
{
struct drgn_error *err;
err = drgn_program_set_kernel(prog);
if (err)
return err;
err = drgn_program_load_debug_info(prog, NULL, 0, true, true);
if (err && err->code == DRGN_ERROR_MISSING_DEBUG_INFO) {
drgn_error_destroy(err);
err = NULL;
}
return err;
}
struct drgn_error *drgn_program_init_pid(struct drgn_program *prog, pid_t pid)
{
struct drgn_error *err;
err = drgn_program_set_pid(prog, pid);
if (err)
return err;
err = drgn_program_load_debug_info(prog, NULL, 0, true, true);
if (err && err->code == DRGN_ERROR_MISSING_DEBUG_INFO) {
drgn_error_destroy(err);
err = NULL;
}
return err;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_from_core_dump(const char *path, struct drgn_program **ret)
{
struct drgn_error *err;
struct drgn_program *prog;
prog = malloc(sizeof(*prog));
if (!prog)
return &drgn_enomem;
drgn_program_init(prog, NULL);
err = drgn_program_init_core_dump(prog, path);
if (err) {
drgn_program_deinit(prog);
free(prog);
return err;
}
*ret = prog;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_from_kernel(struct drgn_program **ret)
{
struct drgn_error *err;
struct drgn_program *prog;
prog = malloc(sizeof(*prog));
if (!prog)
return &drgn_enomem;
drgn_program_init(prog, NULL);
err = drgn_program_init_kernel(prog);
if (err) {
drgn_program_deinit(prog);
free(prog);
return err;
}
*ret = prog;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_from_pid(pid_t pid, struct drgn_program **ret)
{
struct drgn_error *err;
struct drgn_program *prog;
prog = malloc(sizeof(*prog));
if (!prog)
return &drgn_enomem;
drgn_program_init(prog, NULL);
err = drgn_program_init_pid(prog, pid);
if (err) {
drgn_program_deinit(prog);
free(prog);
return err;
}
*ret = prog;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_read_memory(struct drgn_program *prog, void *buf, uint64_t address,
size_t count, bool physical)
{
uint64_t address_mask;
struct drgn_error *err = drgn_program_address_mask(prog, &address_mask);
if (err)
return err;
char *p = buf;
address &= address_mask;
while (count > 0) {
size_t n = min((uint64_t)(count - 1), address_mask - address) + 1;
err = drgn_memory_reader_read(&prog->reader, p, address, n,
physical);
if (err)
return err;
p += n;
address = 0;
count -= n;
}
return NULL;
}
DEFINE_VECTOR(char_vector, char)
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_read_c_string(struct drgn_program *prog, uint64_t address,
bool physical, size_t max_size, char **ret)
{
uint64_t address_mask;
struct drgn_error *err = drgn_program_address_mask(prog, &address_mask);
if (err)
return err;
struct char_vector str = VECTOR_INIT;
for (;;) {
address &= address_mask;
char *c = char_vector_append_entry(&str);
if (!c) {
char_vector_deinit(&str);
return &drgn_enomem;
}
if (str.size <= max_size) {
err = drgn_memory_reader_read(&prog->reader, c, address,
1, physical);
if (err) {
char_vector_deinit(&str);
return err;
}
if (!*c)
break;
} else {
*c = '\0';
break;
}
address++;
}
char_vector_shrink_to_fit(&str);
*ret = str.data;
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_read_u8(struct drgn_program *prog, uint64_t address, bool physical,
uint8_t *ret)
{
return drgn_program_read_memory(prog, ret, address, sizeof(*ret),
physical);
}
#define DEFINE_PROGRAM_READ_U(n) \
LIBDRGN_PUBLIC struct drgn_error * \
drgn_program_read_u##n(struct drgn_program *prog, uint64_t address, \
bool physical, uint##n##_t *ret) \
{ \
bool bswap; \
struct drgn_error *err = drgn_program_bswap(prog, &bswap); \
if (err) \
return err; \
uint##n##_t tmp; \
err = drgn_program_read_memory(prog, &tmp, address, sizeof(tmp), \
physical); \
if (err) \
return err; \
if (bswap) \
tmp = bswap_##n(tmp); \
*ret = tmp; \
return NULL; \
}
DEFINE_PROGRAM_READ_U(16)
DEFINE_PROGRAM_READ_U(32)
DEFINE_PROGRAM_READ_U(64)
#undef DEFINE_PROGRAM_READ_U
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_read_word(struct drgn_program *prog, uint64_t address,
bool physical, uint64_t *ret)
{
bool is_64_bit, bswap;
struct drgn_error *err = drgn_program_is_64_bit(prog, &is_64_bit);
if (err)
return err;
err = drgn_program_bswap(prog, &bswap);
if (err)
return err;
if (is_64_bit) {
uint64_t tmp;
err = drgn_program_read_memory(prog, &tmp, address, sizeof(tmp),
physical);
if (err)
return err;
if (bswap)
tmp = bswap_64(tmp);
*ret = tmp;
} else {
uint32_t tmp;
err = drgn_program_read_memory(prog, &tmp, address, sizeof(tmp),
physical);
if (err)
return err;
if (bswap)
tmp = bswap_32(tmp);
*ret = tmp;
}
return NULL;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_find_object(struct drgn_program *prog, const char *name,
const char *filename,
enum drgn_find_object_flags flags,
struct drgn_object *ret)
{
if (ret && drgn_object_program(ret) != prog) {
return drgn_error_create(DRGN_ERROR_INVALID_ARGUMENT,
"object is from wrong program");
}
return drgn_object_index_find(&prog->oindex, name, filename, flags,
ret);
}
bool drgn_program_find_symbol_by_address_internal(struct drgn_program *prog,
uint64_t address,
Dwfl_Module *module,
struct drgn_symbol *ret)
{
if (!module) {
if (prog->dbinfo) {
module = dwfl_addrmodule(prog->dbinfo->dwfl, address);
if (!module)
return false;
} else {
return false;
}
}
GElf_Off offset;
GElf_Sym elf_sym;
const char *name = dwfl_module_addrinfo(module, address, &offset,
&elf_sym, NULL, NULL, NULL);
if (!name)
return false;
drgn_symbol_from_elf(name, address - offset, &elf_sym, ret);
return true;
}
struct drgn_error *drgn_error_symbol_not_found(uint64_t address)
{
return drgn_error_format(DRGN_ERROR_LOOKUP,
"could not find symbol containing 0x%" PRIx64,
address);
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_find_symbol_by_address(struct drgn_program *prog, uint64_t address,
struct drgn_symbol **ret)
{
struct drgn_symbol *sym;
sym = malloc(sizeof(*sym));
if (!sym)
return &drgn_enomem;
if (!drgn_program_find_symbol_by_address_internal(prog, address, NULL,
sym)) {
free(sym);
return drgn_error_symbol_not_found(address);
}
*ret = sym;
return NULL;
}
DEFINE_VECTOR(symbolp_vector, struct drgn_symbol *)
enum {
SYMBOLS_SEARCH_NAME = (1 << 0),
SYMBOLS_SEARCH_ADDRESS = (1 << 1),
SYMBOLS_SEARCH_ALL = (1 << 2),
};
struct symbols_search_arg {
const char *name;
uint64_t address;
struct symbolp_vector results;
unsigned int flags;
};
static bool symbol_match(struct symbols_search_arg *arg, GElf_Addr addr,
const GElf_Sym *sym, const char *name)
{
if (arg->flags & SYMBOLS_SEARCH_ALL)
return true;
if ((arg->flags & SYMBOLS_SEARCH_NAME) && strcmp(name, arg->name) == 0)
return true;
if ((arg->flags & SYMBOLS_SEARCH_ADDRESS) &&
arg->address >= addr && arg->address < addr + sym->st_size)
return true;
return false;
}
static int symbols_search_cb(Dwfl_Module *dwfl_module, void **userdatap,
const char *module_name, Dwarf_Addr base,
void *cb_arg)
{
struct symbols_search_arg *arg = cb_arg;
int symtab_len = dwfl_module_getsymtab(dwfl_module);
if (symtab_len == -1)
return DWARF_CB_OK;
/* Ignore the zeroth null symbol */
for (int i = 1; i < symtab_len; i++) {
GElf_Sym elf_sym;
GElf_Addr elf_addr;
const char *name = dwfl_module_getsym_info(dwfl_module, i,
&elf_sym, &elf_addr,
NULL, NULL, NULL);
if (!name || !symbol_match(arg, elf_addr, &elf_sym, name))
continue;
struct drgn_symbol *sym = malloc(sizeof(*sym));
if (!sym)
return DWARF_CB_ABORT;
drgn_symbol_from_elf(name, elf_addr, &elf_sym, sym);
if (!symbolp_vector_append(&arg->results, &sym)) {
drgn_symbol_destroy(sym);
return DWARF_CB_ABORT;
}
}
return DWARF_CB_OK;
}
static struct drgn_error *
symbols_search(struct drgn_program *prog, struct symbols_search_arg *arg,
struct drgn_symbol ***syms_ret, size_t *count_ret)
{
struct drgn_error *err;
if (!prog->dbinfo) {
return drgn_error_create(DRGN_ERROR_MISSING_DEBUG_INFO,
"could not find matching symbols");
}
symbolp_vector_init(&arg->results);
/*
* When searching for addresses, we can identify the exact module to
* search. Otherwise we need to fall back to an exhaustive search.
*/
err = NULL;
if (arg->flags & SYMBOLS_SEARCH_ADDRESS) {
Dwfl_Module *module = dwfl_addrmodule(prog->dbinfo->dwfl,
arg->address);
if (module && symbols_search_cb(module, NULL, NULL, 0, arg))
err = &drgn_enomem;
} else {
if (dwfl_getmodules(prog->dbinfo->dwfl, symbols_search_cb, arg,
0))
err = &drgn_enomem;
}
if (err) {
for (size_t i = 0; i < arg->results.size; i++)
drgn_symbol_destroy(arg->results.data[i]);
symbolp_vector_deinit(&arg->results);
} else {
symbolp_vector_shrink_to_fit(&arg->results);
*count_ret = arg->results.size;
*syms_ret = arg->results.data;
}
return err;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_find_symbols_by_name(struct drgn_program *prog, const char *name,
struct drgn_symbol ***syms_ret,
size_t *count_ret)
{
struct symbols_search_arg arg = {
.name = name,
.flags = name ? SYMBOLS_SEARCH_NAME : SYMBOLS_SEARCH_ALL,
};
return symbols_search(prog, &arg, syms_ret, count_ret);
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_find_symbols_by_address(struct drgn_program *prog,
uint64_t address,
struct drgn_symbol ***syms_ret,
size_t *count_ret)
{
struct symbols_search_arg arg = {
.address = address,
.flags = SYMBOLS_SEARCH_ADDRESS,
};
return symbols_search(prog, &arg, syms_ret, count_ret);
}
struct find_symbol_by_name_arg {
const char *name;
GElf_Sym sym;
GElf_Addr addr;
bool found;
bool bad_symtabs;
};
static int find_symbol_by_name_cb(Dwfl_Module *dwfl_module, void **userdatap,
const char *module_name, Dwarf_Addr base,
void *cb_arg)
{
struct find_symbol_by_name_arg *arg = cb_arg;
int symtab_len = dwfl_module_getsymtab(dwfl_module);
if (symtab_len == -1) {
arg->bad_symtabs = true;
return DWARF_CB_OK;
}
/*
* Global symbols are after local symbols, so by iterating backwards we
* might find a global symbol faster. Ignore the zeroth null symbol.
*/
for (int i = symtab_len - 1; i > 0; i--) {
GElf_Sym sym;
GElf_Addr addr;
const char *name = dwfl_module_getsym_info(dwfl_module, i, &sym,
&addr, NULL, NULL,
NULL);
if (name && strcmp(arg->name, name) == 0) {
/*
* The order of precedence is
* GLOBAL = GNU_UNIQUE > WEAK > LOCAL = everything else
*
* If we found a global or unique symbol, return it
* immediately. If we found a weak symbol, then save it,
* which may overwrite a previously found weak or local
* symbol. Otherwise, save the symbol only if we haven't
* found another symbol.
*/
if (GELF_ST_BIND(sym.st_info) == STB_GLOBAL ||
GELF_ST_BIND(sym.st_info) == STB_GNU_UNIQUE ||
GELF_ST_BIND(sym.st_info) == STB_WEAK ||
!arg->found) {
arg->sym = sym;
arg->addr = addr;
arg->found = true;
}
if (GELF_ST_BIND(sym.st_info) == STB_GLOBAL ||
GELF_ST_BIND(sym.st_info) == STB_GNU_UNIQUE)
return DWARF_CB_ABORT;
}
}
return DWARF_CB_OK;
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_find_symbol_by_name(struct drgn_program *prog,
const char *name, struct drgn_symbol **ret)
{
struct find_symbol_by_name_arg arg = {
.name = name,
};
if (prog->dbinfo) {
dwfl_getmodules(prog->dbinfo->dwfl, find_symbol_by_name_cb,
&arg, 0);
if (arg.found) {
struct drgn_symbol *sym = malloc(sizeof(*sym));
if (!sym)
return &drgn_enomem;
drgn_symbol_from_elf(name, arg.addr, &arg.sym, sym);
*ret = sym;
return NULL;
}
}
return drgn_error_format(DRGN_ERROR_LOOKUP,
"could not find symbol with name '%s'%s", name,
arg.bad_symtabs ?
" (could not get some symbol tables)" : "");
}
LIBDRGN_PUBLIC struct drgn_error *
drgn_program_element_info(struct drgn_program *prog, struct drgn_type *type,
struct drgn_element_info *ret)
{
struct drgn_type *underlying_type;
bool is_pointer, is_array;
underlying_type = drgn_underlying_type(type);
is_pointer = drgn_type_kind(underlying_type) == DRGN_TYPE_POINTER;
is_array = drgn_type_kind(underlying_type) == DRGN_TYPE_ARRAY;
if (!is_pointer && !is_array)
return drgn_type_error("'%s' is not an array or pointer", type);
ret->qualified_type = drgn_type_type(underlying_type);
return drgn_type_bit_size(ret->qualified_type.type, &ret->bit_size);
}