blob: fdbf3b1ade709b150185e4e7f030e63aa1236f9c [file] [log] [blame]
// Copyright 2016 The Fuchsia Authors
// Copyright (c) 2013 Google, Inc.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file or at
#include <debug.h>
#include <lib/console.h>
#include <lib/version.h>
#include <lib/version/version-string.h>
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include <ktl/byte.h>
#include <ktl/span.h>
#include <lk/init.h>
#include <vm/vm.h>
#include <ktl/enforce.h>
// This is allocated with sufficient size to be filled in later. The contents
// have to be nonzero so they get allocated but don't otherwise matter. See
// for more details.
extern "C" const char kVersionString[VERSION_STRING_SIZE];
namespace {
// If the build ID were SHA256, it would be 32 bytes.
// (The algorithms used for build IDs today actually produce fewer than that.)
// This string needs 2 bytes to print each byte in hex, plus a NUL terminator.
char gElfBuildIdString[65];
// Standard ELF note layout (Elf{32,64}_Nhdr in <elf.h>).
// The name and type fields' values are what GNU and GNU-compatible
// tools (i.e. everything in the Unix-like world in recent years)
// specify for build ID notes.
struct build_id_note {
uint32_t namesz;
uint32_t descsz;
uint32_t type;
#define NT_GNU_BUILD_ID 3
#define NOTE_NAME "GNU"
char name[(sizeof(NOTE_NAME) + 3) & -4];
ktl::byte id[];
extern "C" const struct build_id_note __build_id_note_start;
extern "C" const ktl::byte __build_id_note_end[];
void init_build_id(uint level) {
const build_id_note* const note = &__build_id_note_start;
if (note->type != NT_GNU_BUILD_ID || note->namesz != sizeof(NOTE_NAME) ||
memcmp(note->name, NOTE_NAME, sizeof(NOTE_NAME)) != 0 ||
&note->id[note->descsz] != __build_id_note_end) {
panic("ELF build ID note has bad format!\n");
ktl::span<const ktl::byte> id = ElfBuildId();
if (id.size() * 2 >= sizeof(gElfBuildIdString)) {
panic("ELF build ID is %zu bytes, expected %zu or fewer\n", id.size(),
sizeof(gElfBuildIdString) / 2);
for (size_t i = 0; i < id.size(); ++i) {
snprintf(&gElfBuildIdString[i * 2], 3, "%02x", static_cast<unsigned int>(id[i]));
// This must happen before print_version below and should happen as early as possible to ensure we
// get useful backtraces when the kernel panics.
LK_INIT_HOOK(elf_build_id, &init_build_id, LK_INIT_LEVEL_EARLIEST)
void print_module(FILE* f, const char* build_id) {
fprintf(f, "{{{module:0:kernel:elf:%s}}}\n", build_id);
// TODO(eieio): Consider whether it makes sense to locate the logic for printing
// mappings somewhere else (perhaps in vm/vm.cpp?).
void print_mmap(FILE* f, uintptr_t bias, const void* begin, const void* end, const char* perm) {
const uintptr_t start = reinterpret_cast<uintptr_t>(begin);
const size_t size = reinterpret_cast<uintptr_t>(end) - start;
fprintf(f, "{{{mmap:%#lx:%#lx:load:0:%s:%#lx}}}\n", start, size, perm, start + bias);
} // namespace
const char* version_string() { return kVersionString; }
const char* elf_build_id_string() { return gElfBuildIdString; }
ktl::span<const ktl::byte> ElfBuildId() {
const build_id_note* const note = &__build_id_note_start;
return {note->id, note->descsz};
void print_version() {
dprintf(ALWAYS, "version:\n");
dprintf(ALWAYS, "\tarch: %s\n", ARCH);
dprintf(ALWAYS, "\tzx_system_get_version_string: %s\n", kVersionString);
dprintf(ALWAYS, "\tELF build ID: %s\n", gElfBuildIdString);
void PrintSymbolizerContext(FILE* f) {
const uintptr_t bias = KERNEL_BASE - reinterpret_cast<uintptr_t>(__code_start);
fprintf(f, "{{{reset}}}\n");
print_module(f, gElfBuildIdString);
// These four mappings match the mappings printed by vm_init().
print_mmap(f, bias, __code_start, __code_end, "rx");
print_mmap(f, bias, __rodata_start, __rodata_end, "r");
print_mmap(f, bias, __data_start, __data_end, "rw");
print_mmap(f, bias, __bss_start, _end, "rw");
void print_backtrace_version_info(FILE* f) {
fprintf(f, "zx_system_get_version_string %s\n\n", kVersionString);
// Log the ELF build ID in the format the symbolizer scripts understand.
if (gElfBuildIdString[0] != '\0') {
fprintf(f, "dso: id=%s base=%#lx name=zircon.elf\n", gElfBuildIdString,
static int cmd_version(int argc, const cmd_args* argv, uint32_t flags) {
return 0;
STATIC_COMMAND("version", "print version", &cmd_version)
static void print_version_init(uint level) { print_version(); }
// print the version string if any level of debug is set
LK_INIT_HOOK(version, print_version_init, LK_INIT_LEVEL_HEAP - 1)