//===-- Error.cpp -----------------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // C Includes #ifdef __APPLE__ #include #endif // C++ Includes // Other libraries and framework includes // Project includes #include "lldb/Core/Error.h" #include "lldb/Core/Log.h" #include "llvm/ADT/SmallVector.h" #include #include #if defined (__arm__) && defined (__APPLE__) #include #endif using namespace lldb; using namespace lldb_private; Error::Error (): m_code (0), m_type (eErrorTypeInvalid), m_string () { } //---------------------------------------------------------------------- // Default constructor //---------------------------------------------------------------------- Error::Error(ValueType err, ErrorType type) : m_code (err), m_type (type), m_string () { } Error::Error (const Error &rhs) : m_code (rhs.m_code), m_type (rhs.m_type), m_string (rhs.m_string) { } Error::Error (const char* format, ...): m_code (0), m_type (eErrorTypeInvalid), m_string () { va_list args; va_start (args, format); SetErrorToGenericError (); SetErrorStringWithVarArg (format, args); va_end (args); } //---------------------------------------------------------------------- // Assignment operator //---------------------------------------------------------------------- const Error& Error::operator = (const Error& rhs) { if (this != &rhs) { m_code = rhs.m_code; m_type = rhs.m_type; m_string = rhs.m_string; } return *this; } //---------------------------------------------------------------------- // Assignment operator //---------------------------------------------------------------------- const Error& Error::operator = (uint32_t err) { m_code = err; m_type = eErrorTypeMachKernel; m_string.clear(); return *this; } Error::~Error() { } //---------------------------------------------------------------------- // Get the error value as a NULL C string. The error string will be // fetched and cached on demand. The cached error string value will // remain until the error value is changed or cleared. //---------------------------------------------------------------------- const char * Error::AsCString(const char *default_error_str) const { if (Success()) return NULL; if (m_string.empty()) { const char *s = NULL; switch (m_type) { case eErrorTypeMachKernel: #if defined (__APPLE__) s = ::mach_error_string (m_code); #endif break; case eErrorTypePOSIX: s = ::strerror (m_code); break; default: break; } if (s) m_string.assign(s); } if (m_string.empty()) { if (default_error_str) m_string.assign(default_error_str); else return NULL; // User wanted a NULL string back... } return m_string.c_str(); } //---------------------------------------------------------------------- // Clear the error and any cached error string that it might contain. //---------------------------------------------------------------------- void Error::Clear () { m_code = 0; m_type = eErrorTypeGeneric; m_string.clear(); } //---------------------------------------------------------------------- // Access the error value. //---------------------------------------------------------------------- Error::ValueType Error::GetError () const { return m_code; } //---------------------------------------------------------------------- // Access the error type. //---------------------------------------------------------------------- ErrorType Error::GetType () const { return m_type; } //---------------------------------------------------------------------- // Retuns true if this object contains an value that describes an // error or otherwise non-success result. //---------------------------------------------------------------------- bool Error::Fail () const { return m_code != 0; } //---------------------------------------------------------------------- // Log the error given a string with format. If the this object // contains an error code, update the error string to contain the // "error: " followed by the formatted string, followed by the error // value and any string that describes the current error. This // allows more context to be given to an error string that remains // cached in this object. Logging always occurs even when the error // code contains a non-error value. //---------------------------------------------------------------------- void Error::PutToLog (Log *log, const char *format, ...) { char *arg_msg = NULL; va_list args; va_start (args, format); ::vasprintf (&arg_msg, format, args); va_end (args); if (arg_msg != NULL) { if (Fail()) { const char *err_str = AsCString(); if (err_str == NULL) err_str = "???"; SetErrorStringWithFormat("error: %s err = %s (0x%8.8x)", arg_msg, err_str, m_code); if (log) log->Error("%s", m_string.c_str()); } else { if (log) log->Printf("%s err = 0x%8.8x", arg_msg, m_code); } ::free (arg_msg); } } //---------------------------------------------------------------------- // Log the error given a string with format. If the this object // contains an error code, update the error string to contain the // "error: " followed by the formatted string, followed by the error // value and any string that describes the current error. This // allows more context to be given to an error string that remains // cached in this object. Logging only occurs even when the error // code contains a error value. //---------------------------------------------------------------------- void Error::LogIfError (Log *log, const char *format, ...) { if (Fail()) { char *arg_msg = NULL; va_list args; va_start (args, format); ::vasprintf (&arg_msg, format, args); va_end (args); if (arg_msg != NULL) { const char *err_str = AsCString(); if (err_str == NULL) err_str = "???"; SetErrorStringWithFormat("%s err = %s (0x%8.8x)", arg_msg, err_str, m_code); if (log) log->Error("%s", m_string.c_str()); ::free (arg_msg); } } } //---------------------------------------------------------------------- // Set accesssor for the error value to "err" and the type to // "eErrorTypeMachKernel" //---------------------------------------------------------------------- void Error::SetMachError (uint32_t err) { m_code = err; m_type = eErrorTypeMachKernel; m_string.clear(); } //---------------------------------------------------------------------- // Set accesssor for the error value and type. //---------------------------------------------------------------------- void Error::SetError (ValueType err, ErrorType type) { m_code = err; m_type = type; m_string.clear(); } //---------------------------------------------------------------------- // Update the error value to be "errno" and update the type to // be "POSIX". //---------------------------------------------------------------------- void Error::SetErrorToErrno() { m_code = errno; m_type = eErrorTypePOSIX; m_string.clear(); } //---------------------------------------------------------------------- // Update the error value to be LLDB_GENERIC_ERROR and update the type // to be "Generic". //---------------------------------------------------------------------- void Error::SetErrorToGenericError () { m_code = LLDB_GENERIC_ERROR; m_type = eErrorTypeGeneric; m_string.clear(); } //---------------------------------------------------------------------- // Set accessor for the error string value for a specific error. // This allows any string to be supplied as an error explanation. // The error string value will remain until the error value is // cleared or a new error value/type is assigned. //---------------------------------------------------------------------- void Error::SetErrorString (const char *err_str) { if (err_str && err_str[0]) { // If we have an error string, we should always at least have // an error set to a generic value. if (Success()) SetErrorToGenericError(); m_string = err_str; } else m_string.clear(); } //------------------------------------------------------------------ /// Set the current error string to a formatted error string. /// /// @param format /// A printf style format string //------------------------------------------------------------------ int Error::SetErrorStringWithFormat (const char *format, ...) { if (format && format[0]) { va_list args; va_start (args, format); int length = SetErrorStringWithVarArg (format, args); va_end (args); return length; } else { m_string.clear(); } return 0; } int Error::SetErrorStringWithVarArg (const char *format, va_list args) { if (format && format[0]) { // If we have an error string, we should always at least have // an error set to a generic value. if (Success()) SetErrorToGenericError(); // Try and fit our error into a 1024 byte buffer first... llvm::SmallVector buf; buf.resize(1024); // Copy in case our first call to vsnprintf doesn't fit into our // allocated buffer above va_list copy_args; va_copy (copy_args, args); unsigned length = ::vsnprintf (buf.data(), buf.size(), format, args); if (length >= buf.size()) { // The error formatted string didn't fit into our buffer, resize it // to the exact needed size, and retry buf.resize(length + 1); length = ::vsnprintf (buf.data(), buf.size(), format, copy_args); va_end (copy_args); assert (length < buf.size()); } m_string.assign(buf.data(), length); va_end (args); return length; } else { m_string.clear(); } return 0; } //---------------------------------------------------------------------- // Returns true if the error code in this object is considered a // successful return value. //---------------------------------------------------------------------- bool Error::Success() const { return m_code == 0; } bool Error::WasInterrupted() const { if (m_type == eErrorTypePOSIX && m_code == EINTR) return true; else return false; }