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/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
#include "base/exception.hpp"
#include "base/stacktrace.hpp"
#include <boost/thread/tss.hpp>
#include <utility>
#ifdef _WIN32
# include "base/utility.hpp"
#endif /* _WIN32 */
#ifdef HAVE_CXXABI_H
# include <cxxabi.h>
#endif /* HAVE_CXXABI_H */
using namespace icinga;
static boost::thread_specific_ptr<boost::stacktrace::stacktrace> l_LastExceptionStack;
static boost::thread_specific_ptr<ContextTrace> l_LastExceptionContext;
#ifdef HAVE_CXXABI_H
#ifdef _LIBCPPABI_VERSION
class libcxx_type_info : public std::type_info
{
public:
~libcxx_type_info() override;
virtual void noop1() const;
virtual void noop2() const;
virtual bool can_catch(const libcxx_type_info *thrown_type, void *&adjustedPtr) const = 0;
};
#endif /* _LIBCPPABI_VERSION */
#if defined(__GLIBCXX__) || defined(_LIBCPPABI_VERSION)
/**
* Attempts to cast an exception to a destination type
*
* @param obj Exception to be casted
* @param src Type information of obj
* @param dst Information of which type to cast to
* @return Pointer to the exception if the cast is possible, nullptr otherwise
*/
inline void *cast_exception(void *obj, const std::type_info *src, const std::type_info *dst)
{
#ifdef __GLIBCXX__
void *thrown_ptr = obj;
/* Check if the exception is a pointer type. */
if (src->__is_pointer_p())
thrown_ptr = *(void **)thrown_ptr;
if (dst->__do_catch(src, &thrown_ptr, 1))
return thrown_ptr;
else
return nullptr;
#else /* __GLIBCXX__ */
const auto *srcInfo = static_cast<const libcxx_type_info *>(src);
const auto *dstInfo = static_cast<const libcxx_type_info *>(dst);
void *adj = obj;
if (dstInfo->can_catch(srcInfo, adj))
return adj;
else
return nullptr;
#endif /* __GLIBCXX__ */
}
#else /* defined(__GLIBCXX__) || defined(_LIBCPPABI_VERSION) */
#define NO_CAST_EXCEPTION
#endif /* defined(__GLIBCXX__) || defined(_LIBCPPABI_VERSION) */
# if __clang_major__ > 3 || (__clang_major__ == 3 && __clang_minor__ > 3)
# define TYPEINFO_TYPE std::type_info
# else
# define TYPEINFO_TYPE void
# endif
# if !defined(__GLIBCXX__) && !defined(_WIN32)
static boost::thread_specific_ptr<void *> l_LastExceptionObj;
static boost::thread_specific_ptr<TYPEINFO_TYPE *> l_LastExceptionPvtInfo;
typedef void (*DestCallback)(void *);
static boost::thread_specific_ptr<DestCallback> l_LastExceptionDest;
# endif /* !__GLIBCXX__ && !_WIN32 */
extern "C" void __cxa_throw(void *obj, TYPEINFO_TYPE *pvtinfo, void (*dest)(void *));
#endif /* HAVE_CXXABI_H */
void icinga::RethrowUncaughtException()
{
#if defined(__GLIBCXX__) || !defined(HAVE_CXXABI_H)
throw;
#else /* __GLIBCXX__ || !HAVE_CXXABI_H */
__cxa_throw(*l_LastExceptionObj.get(), *l_LastExceptionPvtInfo.get(), *l_LastExceptionDest.get());
#endif /* __GLIBCXX__ || !HAVE_CXXABI_H */
}
#ifdef HAVE_CXXABI_H
extern "C"
void __cxa_throw(void *obj, TYPEINFO_TYPE *pvtinfo, void (*dest)(void *))
{
/* This function overrides an internal function of libstdc++ that is called when a C++ exception is thrown in order
* to capture as much information as possible at that time and then call the original implementation. This
* information includes:
* - stack trace (for later use in DiagnosticInformation)
* - context trace (for later use in DiagnosticInformation)
*/
auto *tinfo = static_cast<std::type_info *>(pvtinfo);
typedef void (*cxa_throw_fn)(void *, std::type_info *, void (*)(void *)) __attribute__((noreturn));
static cxa_throw_fn real_cxa_throw;
#if !defined(__GLIBCXX__) && !defined(_WIN32)
l_LastExceptionObj.reset(new void *(obj));
l_LastExceptionPvtInfo.reset(new TYPEINFO_TYPE *(pvtinfo));
l_LastExceptionDest.reset(new DestCallback(dest));
#endif /* !defined(__GLIBCXX__) && !defined(_WIN32) */
// resolve symbol to original implementation of __cxa_throw for the call at the end of this function
if (real_cxa_throw == nullptr)
real_cxa_throw = (cxa_throw_fn)dlsym(RTLD_NEXT, "__cxa_throw");
#ifndef NO_CAST_EXCEPTION
void *uex = cast_exception(obj, tinfo, &typeid(user_error));
auto *ex = reinterpret_cast<boost::exception *>(cast_exception(obj, tinfo, &typeid(boost::exception)));
if (!uex) {
#endif /* NO_CAST_EXCEPTION */
// save the current stack trace in a thread-local variable
boost::stacktrace::stacktrace stack;
SetLastExceptionStack(stack);
#ifndef NO_CAST_EXCEPTION
// save the current stack trace in the boost exception error info if the exception is a boost::exception
if (ex && !boost::get_error_info<StackTraceErrorInfo>(*ex))
*ex << StackTraceErrorInfo(stack);
}
#endif /* NO_CAST_EXCEPTION */
ContextTrace context;
SetLastExceptionContext(context);
#ifndef NO_CAST_EXCEPTION
// save the current context trace in the boost exception error info if the exception is a boost::exception
if (ex && !boost::get_error_info<ContextTraceErrorInfo>(*ex))
*ex << ContextTraceErrorInfo(context);
#endif /* NO_CAST_EXCEPTION */
real_cxa_throw(obj, tinfo, dest);
}
#endif /* HAVE_CXXABI_H */
boost::stacktrace::stacktrace *icinga::GetLastExceptionStack()
{
return l_LastExceptionStack.get();
}
void icinga::SetLastExceptionStack(const boost::stacktrace::stacktrace& trace)
{
l_LastExceptionStack.reset(new boost::stacktrace::stacktrace(trace));
}
ContextTrace *icinga::GetLastExceptionContext()
{
return l_LastExceptionContext.get();
}
void icinga::SetLastExceptionContext(const ContextTrace& context)
{
l_LastExceptionContext.reset(new ContextTrace(context));
}
String icinga::DiagnosticInformation(const std::exception& ex, bool verbose, boost::stacktrace::stacktrace *stack, ContextTrace *context)
{
std::ostringstream result;
String message = ex.what();
#ifdef _WIN32
const auto *win32_err = dynamic_cast<const win32_error *>(&ex);
if (win32_err) {
message = to_string(*win32_err);
}
#endif /* _WIN32 */
const auto *vex = dynamic_cast<const ValidationError *>(&ex);
if (message.IsEmpty())
result << boost::diagnostic_information(ex) << "\n";
else
result << "Error: " << message << "\n";
const auto *dex = dynamic_cast<const ScriptError *>(&ex);
if (dex && !dex->GetDebugInfo().Path.IsEmpty())
ShowCodeLocation(result, dex->GetDebugInfo());
if (vex) {
DebugInfo di;
ConfigObject::Ptr dobj = vex->GetObject();
if (dobj)
di = dobj->GetDebugInfo();
Dictionary::Ptr currentHint = vex->GetDebugHint();
Array::Ptr messages;
if (currentHint) {
for (const String& attr : vex->GetAttributePath()) {
Dictionary::Ptr props = currentHint->Get("properties");
if (!props)
break;
currentHint = props->Get(attr);
if (!currentHint)
break;
messages = currentHint->Get("messages");
}
}
if (messages && messages->GetLength() > 0) {
Array::Ptr message = messages->Get(messages->GetLength() - 1);
di.Path = message->Get(1);
di.FirstLine = message->Get(2);
di.FirstColumn = message->Get(3);
di.LastLine = message->Get(4);
di.LastColumn = message->Get(5);
}
if (!di.Path.IsEmpty())
ShowCodeLocation(result, di);
}
const auto *uex = dynamic_cast<const user_error *>(&ex);
const auto *pex = dynamic_cast<const posix_error *>(&ex);
if (!uex && !pex && verbose) {
// Print the first of the following stack traces (if any exists)
// 1. stack trace from boost exception error information
const boost::stacktrace::stacktrace *st = boost::get_error_info<StackTraceErrorInfo>(ex);
// 2. stack trace explicitly passed as a parameter
if (!st) {
st = stack;
}
// 3. stack trace saved when the last exception was thrown
if (!st) {
st = GetLastExceptionStack();
}
if (st && !st->empty()) {
result << "\nStacktrace:\n" << StackTraceFormatter(*st);
}
}
// Print the first of the following context traces (if any exists)
// 1. context trace from boost exception error information
const ContextTrace *ct = boost::get_error_info<ContextTraceErrorInfo>(ex);
// 2. context trace explicitly passed as a parameter
if (!ct) {
ct = context;
}
// 3. context trace saved when the last exception was thrown
if (!ct) {
ct = GetLastExceptionContext();
}
if (ct && ct->GetLength() > 0) {
result << "\nContext:\n" << *ct;
}
return result.str();
}
String icinga::DiagnosticInformation(const boost::exception_ptr& eptr, bool verbose)
{
boost::stacktrace::stacktrace *pt = GetLastExceptionStack();
boost::stacktrace::stacktrace stack;
ContextTrace *pc = GetLastExceptionContext();
ContextTrace context;
if (pt)
stack = *pt;
if (pc)
context = *pc;
try {
boost::rethrow_exception(eptr);
} catch (const std::exception& ex) {
return DiagnosticInformation(ex, verbose, pt ? &stack : nullptr, pc ? &context : nullptr);
}
return boost::diagnostic_information(eptr);
}
ScriptError::ScriptError(String message)
: m_Message(std::move(message)), m_IncompleteExpr(false)
{ }
ScriptError::ScriptError(String message, DebugInfo di, bool incompleteExpr)
: m_Message(std::move(message)), m_DebugInfo(std::move(di)), m_IncompleteExpr(incompleteExpr), m_HandledByDebugger(false)
{ }
const char *ScriptError::what() const throw()
{
return m_Message.CStr();
}
DebugInfo ScriptError::GetDebugInfo() const
{
return m_DebugInfo;
}
bool ScriptError::IsIncompleteExpression() const
{
return m_IncompleteExpr;
}
bool ScriptError::IsHandledByDebugger() const
{
return m_HandledByDebugger;
}
void ScriptError::SetHandledByDebugger(bool handled)
{
m_HandledByDebugger = handled;
}
posix_error::~posix_error() throw()
{
free(m_Message);
}
const char *posix_error::what() const throw()
{
if (!m_Message) {
std::ostringstream msgbuf;
const char * const *func = boost::get_error_info<boost::errinfo_api_function>(*this);
if (func)
msgbuf << "Function call '" << *func << "'";
else
msgbuf << "Function call";
const std::string *fname = boost::get_error_info<boost::errinfo_file_name>(*this);
if (fname)
msgbuf << " for file '" << *fname << "'";
msgbuf << " failed";
const int *errnum = boost::get_error_info<boost::errinfo_errno>(*this);
if (errnum)
msgbuf << " with error code " << *errnum << ", '" << strerror(*errnum) << "'";
String str = msgbuf.str();
m_Message = strdup(str.CStr());
}
return m_Message;
}
ValidationError::ValidationError(const ConfigObject::Ptr& object, const std::vector<String>& attributePath, const String& message)
: m_Object(object), m_AttributePath(attributePath), m_Message(message)
{
String path;
for (const String& attribute : attributePath) {
if (!path.IsEmpty())
path += " -> ";
path += "'" + attribute + "'";
}
Type::Ptr type = object->GetReflectionType();
m_What = "Validation failed for object '" + object->GetName() + "' of type '" + type->GetName() + "'";
if (!path.IsEmpty())
m_What += "; Attribute " + path;
m_What += ": " + message;
}
ValidationError::~ValidationError() throw()
{ }
const char *ValidationError::what() const throw()
{
return m_What.CStr();
}
ConfigObject::Ptr ValidationError::GetObject() const
{
return m_Object;
}
std::vector<String> ValidationError::GetAttributePath() const
{
return m_AttributePath;
}
String ValidationError::GetMessage() const
{
return m_Message;
}
void ValidationError::SetDebugHint(const Dictionary::Ptr& dhint)
{
m_DebugHint = dhint;
}
Dictionary::Ptr ValidationError::GetDebugHint() const
{
return m_DebugHint;
}
std::string icinga::to_string(const StackTraceErrorInfo&)
{
return "";
}
#ifdef _WIN32
const char *win32_error::what() const noexcept
{
return "win32_error";
}
std::string icinga::to_string(const win32_error &e) {
std::ostringstream msgbuf;
const char * const *func = boost::get_error_info<boost::errinfo_api_function>(e);
if (func) {
msgbuf << "Function call '" << *func << "'";
} else {
msgbuf << "Function call";
}
const std::string *fname = boost::get_error_info<boost::errinfo_file_name>(e);
if (fname) {
msgbuf << " for file '" << *fname << "'";
}
msgbuf << " failed";
const int *errnum = boost::get_error_info<errinfo_win32_error>(e);
if (errnum) {
msgbuf << " with error code " << Utility::FormatErrorNumber(*errnum);
}
return msgbuf.str();
}
std::string icinga::to_string(const errinfo_win32_error& e)
{
return "[errinfo_win32_error] = " + Utility::FormatErrorNumber(e.value()) + "\n";
}
#endif /* _WIN32 */
std::string icinga::to_string(const errinfo_getaddrinfo_error& e)
{
String msg;
#ifdef _WIN32
msg = gai_strerrorA(e.value());
#else /* _WIN32 */
msg = gai_strerror(e.value());
#endif /* _WIN32 */
return "[errinfo_getaddrinfo_error] = " + String(msg) + "\n";
}
std::string icinga::to_string(const ContextTraceErrorInfo& e)
{
std::ostringstream msgbuf;
msgbuf << "[Context] = " << e.value();
return msgbuf.str();
}
invalid_downtime_removal_error::invalid_downtime_removal_error(String message)
: m_Message(std::move(message))
{ }
invalid_downtime_removal_error::invalid_downtime_removal_error(const char *message)
: m_Message(message)
{ }
invalid_downtime_removal_error::~invalid_downtime_removal_error() noexcept
{ }
const char *invalid_downtime_removal_error::what() const noexcept
{
return m_Message.CStr();
}
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