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debug_utils.cc
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debug_utils.cc
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#include "debug_utils-inl.h" // NOLINT(build/include)
#include "env-inl.h"
#include "node_internals.h"
#ifdef __POSIX__
#if defined(__linux__)
#include <features.h>
#endif
#ifdef __ANDROID__
#include <android/log.h>
#endif
#if defined(__linux__) && !defined(__GLIBC__) || \
defined(__UCLIBC__) || \
defined(_AIX)
#define HAVE_EXECINFO_H 0
#else
#define HAVE_EXECINFO_H 1
#endif
#if HAVE_EXECINFO_H
#include <cxxabi.h>
#include <dlfcn.h>
#include <execinfo.h>
#include <unistd.h>
#include <sys/mman.h>
#include <cstdio>
#endif
#endif // __POSIX__
#if defined(__linux__) || defined(__sun) || \
defined(__FreeBSD__) || defined(__OpenBSD__) || \
defined(__DragonFly__)
#include <link.h>
#endif
#ifdef __APPLE__
#include <mach-o/dyld.h> // _dyld_get_image_name()
#endif // __APPLE__
#ifdef _AIX
#include <sys/ldr.h> // ld_info structure
#endif // _AIX
#ifdef _WIN32
#include <Lm.h>
#include <Windows.h>
#include <dbghelp.h>
#include <process.h>
#include <psapi.h>
#include <tchar.h>
#endif // _WIN32
namespace node {
namespace per_process {
EnabledDebugList enabled_debug_list;
}
void EnabledDebugList::Parse(Environment* env) {
std::string cats;
credentials::SafeGetenv("NODE_DEBUG_NATIVE", &cats, env);
Parse(cats, true);
}
void EnabledDebugList::Parse(const std::string& cats, bool enabled) {
std::string debug_categories = cats;
while (!debug_categories.empty()) {
std::string::size_type comma_pos = debug_categories.find(',');
std::string wanted = ToLower(debug_categories.substr(0, comma_pos));
#define V(name) \
{ \
static const std::string available_category = ToLower(#name); \
if (available_category.find(wanted) != std::string::npos) \
set_enabled(DebugCategory::name, enabled); \
}
DEBUG_CATEGORY_NAMES(V)
#undef V
if (comma_pos == std::string::npos) break;
// Use everything after the `,` as the list for the next iteration.
debug_categories = debug_categories.substr(comma_pos + 1);
}
}
#ifdef __POSIX__
#if HAVE_EXECINFO_H
class PosixSymbolDebuggingContext final : public NativeSymbolDebuggingContext {
public:
PosixSymbolDebuggingContext() : pagesize_(getpagesize()) { }
SymbolInfo LookupSymbol(void* address) override {
Dl_info info;
const bool have_info = dladdr(address, &info);
SymbolInfo ret;
if (!have_info)
return ret;
if (info.dli_sname != nullptr) {
if (char* demangled =
abi::__cxa_demangle(info.dli_sname, nullptr, nullptr, nullptr)) {
ret.name = demangled;
free(demangled);
} else {
ret.name = info.dli_sname;
}
}
if (info.dli_fname != nullptr) {
ret.filename = info.dli_fname;
}
return ret;
}
bool IsMapped(void* address) override {
void* page_aligned = reinterpret_cast<void*>(
reinterpret_cast<uintptr_t>(address) & ~(pagesize_ - 1));
return msync(page_aligned, pagesize_, MS_ASYNC) == 0;
}
int GetStackTrace(void** frames, int count) override {
return backtrace(frames, count);
}
private:
uintptr_t pagesize_;
};
std::unique_ptr<NativeSymbolDebuggingContext>
NativeSymbolDebuggingContext::New() {
return std::make_unique<PosixSymbolDebuggingContext>();
}
#else // HAVE_EXECINFO_H
std::unique_ptr<NativeSymbolDebuggingContext>
NativeSymbolDebuggingContext::New() {
return std::make_unique<NativeSymbolDebuggingContext>();
}
#endif // HAVE_EXECINFO_H
#else // __POSIX__
class Win32SymbolDebuggingContext final : public NativeSymbolDebuggingContext {
public:
Win32SymbolDebuggingContext() {
current_process_ = GetCurrentProcess();
USE(SymInitialize(current_process_, nullptr, true));
}
~Win32SymbolDebuggingContext() override {
USE(SymCleanup(current_process_));
}
using NameAndDisplacement = std::pair<std::string, DWORD64>;
NameAndDisplacement WrappedSymFromAddr(DWORD64 dwAddress) const {
// Refs: https://docs.microsoft.com/en-us/windows/desktop/Debug/retrieving-symbol-information-by-address
// Patches:
// Use `fprintf(stderr, ` instead of `printf`
// `sym.filename = pSymbol->Name` on success
// `current_process_` instead of `hProcess.
DWORD64 dwDisplacement = 0;
// Patch: made into arg - DWORD64 dwAddress = SOME_ADDRESS;
char buffer[sizeof(SYMBOL_INFO) + MAX_SYM_NAME * sizeof(TCHAR)];
const auto pSymbol = reinterpret_cast<PSYMBOL_INFO>(buffer);
pSymbol->SizeOfStruct = sizeof(SYMBOL_INFO);
pSymbol->MaxNameLen = MAX_SYM_NAME;
if (SymFromAddr(current_process_, dwAddress, &dwDisplacement, pSymbol)) {
// SymFromAddr returned success
return NameAndDisplacement(pSymbol->Name, dwDisplacement);
} else {
// SymFromAddr failed
const DWORD error = GetLastError(); // "eat" the error anyway
#ifdef DEBUG
fprintf(stderr, "SymFromAddr returned error : %lu\n", error);
#endif
}
// End MSDN code
return NameAndDisplacement();
}
SymbolInfo WrappedGetLine(DWORD64 dwAddress) const {
SymbolInfo sym{};
// Refs: https://docs.microsoft.com/en-us/windows/desktop/Debug/retrieving-symbol-information-by-address
// Patches:
// Use `fprintf(stderr, ` instead of `printf`.
// Assign values to `sym` on success.
// `current_process_` instead of `hProcess.
// Patch: made into arg - DWORD64 dwAddress;
DWORD dwDisplacement;
IMAGEHLP_LINE64 line;
SymSetOptions(SYMOPT_LOAD_LINES);
line.SizeOfStruct = sizeof(IMAGEHLP_LINE64);
// Patch: made into arg - dwAddress = 0x1000000;
if (SymGetLineFromAddr64(current_process_, dwAddress,
&dwDisplacement, &line)) {
// SymGetLineFromAddr64 returned success
sym.filename = line.FileName;
sym.line = line.LineNumber;
} else {
// SymGetLineFromAddr64 failed
const DWORD error = GetLastError(); // "eat" the error anyway
#ifdef DEBUG
fprintf(stderr, "SymGetLineFromAddr64 returned error : %lu\n", error);
#endif
}
// End MSDN code
return sym;
}
// Fills the SymbolInfo::name of the io/out argument `sym`
std::string WrappedUnDecorateSymbolName(const char* name) const {
// Refs: https://docs.microsoft.com/en-us/windows/desktop/Debug/retrieving-undecorated-symbol-names
// Patches:
// Use `fprintf(stderr, ` instead of `printf`.
// return `szUndName` instead of `printf` on success
char szUndName[MAX_SYM_NAME];
if (UnDecorateSymbolName(name, szUndName, sizeof(szUndName),
UNDNAME_COMPLETE)) {
// UnDecorateSymbolName returned success
return szUndName;
} else {
// UnDecorateSymbolName failed
const DWORD error = GetLastError(); // "eat" the error anyway
#ifdef DEBUG
fprintf(stderr, "UnDecorateSymbolName returned error %lu\n", error);
#endif
}
return nullptr;
}
SymbolInfo LookupSymbol(void* address) override {
const DWORD64 dw_address = reinterpret_cast<DWORD64>(address);
SymbolInfo ret = WrappedGetLine(dw_address);
std::tie(ret.name, ret.dis) = WrappedSymFromAddr(dw_address);
if (!ret.name.empty()) {
ret.name = WrappedUnDecorateSymbolName(ret.name.c_str());
}
return ret;
}
bool IsMapped(void* address) override {
MEMORY_BASIC_INFORMATION info;
if (VirtualQuery(address, &info, sizeof(info)) != sizeof(info))
return false;
return info.State == MEM_COMMIT && info.Protect != 0;
}
int GetStackTrace(void** frames, int count) override {
return CaptureStackBackTrace(0, count, frames, nullptr);
}
Win32SymbolDebuggingContext(const Win32SymbolDebuggingContext&) = delete;
Win32SymbolDebuggingContext(Win32SymbolDebuggingContext&&) = delete;
Win32SymbolDebuggingContext operator=(const Win32SymbolDebuggingContext&)
= delete;
Win32SymbolDebuggingContext operator=(Win32SymbolDebuggingContext&&)
= delete;
private:
HANDLE current_process_;
};
std::unique_ptr<NativeSymbolDebuggingContext>
NativeSymbolDebuggingContext::New() {
return std::unique_ptr<NativeSymbolDebuggingContext>(
new Win32SymbolDebuggingContext());
}
#endif // __POSIX__
std::string NativeSymbolDebuggingContext::SymbolInfo::Display() const {
std::ostringstream oss;
oss << name;
if (dis != 0) {
oss << "+" << dis;
}
if (!filename.empty()) {
oss << " [" << filename << ']';
}
if (line != 0) {
oss << ":L" << line;
}
return oss.str();
}
void DumpBacktrace(FILE* fp) {
auto sym_ctx = NativeSymbolDebuggingContext::New();
void* frames[256];
const int size = sym_ctx->GetStackTrace(frames, arraysize(frames));
for (int i = 1; i < size; i += 1) {
void* frame = frames[i];
NativeSymbolDebuggingContext::SymbolInfo s = sym_ctx->LookupSymbol(frame);
fprintf(fp, "%2d: %p %s\n", i, frame, s.Display().c_str());
}
}
void CheckedUvLoopClose(uv_loop_t* loop) {
if (uv_loop_close(loop) == 0) return;
PrintLibuvHandleInformation(loop, stderr);
fflush(stderr);
// Finally, abort.
CHECK(0 && "uv_loop_close() while having open handles");
}
void PrintLibuvHandleInformation(uv_loop_t* loop, FILE* stream) {
struct Info {
std::unique_ptr<NativeSymbolDebuggingContext> ctx;
FILE* stream;
size_t num_handles;
};
Info info { NativeSymbolDebuggingContext::New(), stream, 0 };
fprintf(stream, "uv loop at [%p] has open handles:\n", loop);
uv_walk(loop, [](uv_handle_t* handle, void* arg) {
Info* info = static_cast<Info*>(arg);
NativeSymbolDebuggingContext* sym_ctx = info->ctx.get();
FILE* stream = info->stream;
info->num_handles++;
fprintf(stream, "[%p] %s%s\n", handle, uv_handle_type_name(handle->type),
uv_is_active(handle) ? " (active)" : "");
void* close_cb = reinterpret_cast<void*>(handle->close_cb);
fprintf(stream, "\tClose callback: %p %s\n",
close_cb, sym_ctx->LookupSymbol(close_cb).Display().c_str());
fprintf(stream, "\tData: %p %s\n",
handle->data, sym_ctx->LookupSymbol(handle->data).Display().c_str());
// We are also interested in the first field of what `handle->data`
// points to, because for C++ code that is usually the virtual table pointer
// and gives us information about the exact kind of object we're looking at.
void* first_field = nullptr;
// `handle->data` might be any value, including `nullptr`, or something
// cast from a completely different type; therefore, check that it’s
// dereferenceable first.
if (sym_ctx->IsMapped(handle->data))
first_field = *reinterpret_cast<void**>(handle->data);
if (first_field != nullptr) {
fprintf(stream, "\t(First field): %p %s\n",
first_field, sym_ctx->LookupSymbol(first_field).Display().c_str());
}
}, &info);
fprintf(stream, "uv loop at [%p] has %zu open handles in total\n",
loop, info.num_handles);
}
std::vector<std::string> NativeSymbolDebuggingContext::GetLoadedLibraries() {
std::vector<std::string> list;
#if defined(__linux__) || defined(__FreeBSD__) || \
defined(__OpenBSD__) || defined(__DragonFly__)
dl_iterate_phdr(
[](struct dl_phdr_info* info, size_t size, void* data) {
auto list = static_cast<std::vector<std::string>*>(data);
if (*info->dlpi_name != '\0') {
list->emplace_back(info->dlpi_name);
}
return 0;
},
&list);
#elif __APPLE__
uint32_t i = 0;
for (const char* name = _dyld_get_image_name(i); name != nullptr;
name = _dyld_get_image_name(++i)) {
list.emplace_back(name);
}
#elif _AIX
// We can't tell in advance how large the buffer needs to be.
// Retry until we reach too large a size (1Mb).
const unsigned int kBufferGrowStep = 4096;
MallocedBuffer<char> buffer(kBufferGrowStep);
int rc = -1;
do {
rc = loadquery(L_GETINFO, buffer.data, buffer.size);
if (rc == 0) break;
buffer = MallocedBuffer<char>(buffer.size + kBufferGrowStep);
} while (buffer.size < 1024 * 1024);
if (rc == 0) {
char* buf = buffer.data;
ld_info* cur_info = nullptr;
do {
std::ostringstream str;
cur_info = reinterpret_cast<ld_info*>(buf);
char* member_name = cur_info->ldinfo_filename +
strlen(cur_info->ldinfo_filename) + 1;
if (*member_name != '\0') {
str << cur_info->ldinfo_filename << "(" << member_name << ")";
list.emplace_back(str.str());
str.str("");
} else {
list.emplace_back(cur_info->ldinfo_filename);
}
buf += cur_info->ldinfo_next;
} while (cur_info->ldinfo_next != 0);
}
#elif __sun
Link_map* p;
if (dlinfo(RTLD_SELF, RTLD_DI_LINKMAP, &p) != -1) {
for (Link_map* l = p; l != nullptr; l = l->l_next) {
list.emplace_back(l->l_name);
}
}
#elif _WIN32
// Windows implementation - get a handle to the process.
HANDLE process_handle = OpenProcess(PROCESS_QUERY_INFORMATION|PROCESS_VM_READ,
FALSE, GetCurrentProcessId());
if (process_handle == nullptr) {
// Cannot proceed, return an empty list.
return list;
}
// Get a list of all the modules in this process
DWORD size_1 = 0;
DWORD size_2 = 0;
// First call to get the size of module array needed
if (EnumProcessModules(process_handle, nullptr, 0, &size_1)) {
MallocedBuffer<HMODULE> modules(size_1);
// Second call to populate the module array
if (EnumProcessModules(process_handle, modules.data, size_1, &size_2)) {
for (DWORD i = 0;
i < (size_1 / sizeof(HMODULE)) && i < (size_2 / sizeof(HMODULE));
i++) {
WCHAR module_name[MAX_PATH];
// Obtain and report the full pathname for each module
if (GetModuleFileNameExW(process_handle,
modules.data[i],
module_name,
arraysize(module_name) / sizeof(WCHAR))) {
DWORD size = WideCharToMultiByte(
CP_UTF8, 0, module_name, -1, nullptr, 0, nullptr, nullptr);
char* str = new char[size];
WideCharToMultiByte(
CP_UTF8, 0, module_name, -1, str, size, nullptr, nullptr);
list.emplace_back(str);
}
}
}
}
// Release the handle to the process.
CloseHandle(process_handle);
#endif
return list;
}
void FWrite(FILE* file, const std::string& str) {
auto simple_fwrite = [&]() {
// The return value is ignored because there's no good way to handle it.
fwrite(str.data(), str.size(), 1, file);
};
if (file != stderr && file != stdout) {
simple_fwrite();
return;
}
#ifdef _WIN32
HANDLE handle =
GetStdHandle(file == stdout ? STD_OUTPUT_HANDLE : STD_ERROR_HANDLE);
// Check if stderr is something other than a tty/console
if (handle == INVALID_HANDLE_VALUE || handle == nullptr ||
uv_guess_handle(_fileno(file)) != UV_TTY) {
simple_fwrite();
return;
}
// Get required wide buffer size
int n = MultiByteToWideChar(CP_UTF8, 0, str.data(), str.size(), nullptr, 0);
std::vector<wchar_t> wbuf(n);
MultiByteToWideChar(CP_UTF8, 0, str.data(), str.size(), wbuf.data(), n);
WriteConsoleW(handle, wbuf.data(), n, nullptr, nullptr);
return;
#elif defined(__ANDROID__)
if (file == stderr) {
__android_log_print(ANDROID_LOG_ERROR, "nodejs", "%s", str.data());
return;
}
#endif
simple_fwrite();
}
} // namespace node
extern "C" void __DumpBacktrace(FILE* fp) {
node::DumpBacktrace(fp);
}