gcc/libsanitizer/ubsan/ubsan_diag.h

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//===-- ubsan_diag.h --------------------------------------------*- C++ -*-===//
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Diagnostics emission for Clang's undefined behavior sanitizer.
//
//===----------------------------------------------------------------------===//
#ifndef UBSAN_DIAG_H
#define UBSAN_DIAG_H
#include "ubsan_value.h"
namespace __ubsan {
/// \brief A location within a loaded module in the program. These are used when
/// the location can't be resolved to a SourceLocation.
class ModuleLocation {
const char *ModuleName;
uptr Offset;
public:
ModuleLocation() : ModuleName(0), Offset(0) {}
ModuleLocation(const char *ModuleName, uptr Offset)
: ModuleName(ModuleName), Offset(Offset) {}
const char *getModuleName() const { return ModuleName; }
uptr getOffset() const { return Offset; }
};
/// A location of some data within the program's address space.
typedef uptr MemoryLocation;
/// \brief Location at which a diagnostic can be emitted. Either a
/// SourceLocation, a ModuleLocation, or a MemoryLocation.
class Location {
public:
enum LocationKind { LK_Null, LK_Source, LK_Module, LK_Memory };
private:
LocationKind Kind;
// FIXME: In C++11, wrap these in an anonymous union.
SourceLocation SourceLoc;
ModuleLocation ModuleLoc;
MemoryLocation MemoryLoc;
public:
Location() : Kind(LK_Null) {}
Location(SourceLocation Loc) :
Kind(LK_Source), SourceLoc(Loc) {}
Location(ModuleLocation Loc) :
Kind(LK_Module), ModuleLoc(Loc) {}
Location(MemoryLocation Loc) :
Kind(LK_Memory), MemoryLoc(Loc) {}
LocationKind getKind() const { return Kind; }
bool isSourceLocation() const { return Kind == LK_Source; }
bool isModuleLocation() const { return Kind == LK_Module; }
bool isMemoryLocation() const { return Kind == LK_Memory; }
SourceLocation getSourceLocation() const {
CHECK(isSourceLocation());
return SourceLoc;
}
ModuleLocation getModuleLocation() const {
CHECK(isModuleLocation());
return ModuleLoc;
}
MemoryLocation getMemoryLocation() const {
CHECK(isMemoryLocation());
return MemoryLoc;
}
};
/// Try to obtain a location for the caller. This might fail, and produce either
/// an invalid location or a module location for the caller.
Location getCallerLocation(uptr CallerLoc = GET_CALLER_PC());
/// A diagnostic severity level.
enum DiagLevel {
DL_Error, ///< An error.
DL_Note ///< A note, attached to a prior diagnostic.
};
/// \brief Annotation for a range of locations in a diagnostic.
class Range {
Location Start, End;
const char *Text;
public:
Range() : Start(), End(), Text() {}
Range(MemoryLocation Start, MemoryLocation End, const char *Text)
: Start(Start), End(End), Text(Text) {}
Location getStart() const { return Start; }
Location getEnd() const { return End; }
const char *getText() const { return Text; }
};
/// \brief A mangled C++ name. Really just a strong typedef for 'const char*'.
class MangledName {
const char *Name;
public:
MangledName(const char *Name) : Name(Name) {}
const char *getName() const { return Name; }
};
/// \brief Representation of an in-flight diagnostic.
///
/// Temporary \c Diag instances are created by the handler routines to
/// accumulate arguments for a diagnostic. The destructor emits the diagnostic
/// message.
class Diag {
/// The location at which the problem occurred.
Location Loc;
/// The diagnostic level.
DiagLevel Level;
/// The message which will be emitted, with %0, %1, ... placeholders for
/// arguments.
const char *Message;
public:
/// Kinds of arguments, corresponding to members of \c Arg's union.
enum ArgKind {
AK_String, ///< A string argument, displayed as-is.
AK_Mangled,///< A C++ mangled name, demangled before display.
AK_UInt, ///< An unsigned integer argument.
AK_SInt, ///< A signed integer argument.
AK_Float, ///< A floating-point argument.
AK_Pointer ///< A pointer argument, displayed in hexadecimal.
};
/// An individual diagnostic message argument.
struct Arg {
Arg() {}
Arg(const char *String) : Kind(AK_String), String(String) {}
Arg(MangledName MN) : Kind(AK_Mangled), String(MN.getName()) {}
Arg(UIntMax UInt) : Kind(AK_UInt), UInt(UInt) {}
Arg(SIntMax SInt) : Kind(AK_SInt), SInt(SInt) {}
Arg(FloatMax Float) : Kind(AK_Float), Float(Float) {}
Arg(const void *Pointer) : Kind(AK_Pointer), Pointer(Pointer) {}
ArgKind Kind;
union {
const char *String;
UIntMax UInt;
SIntMax SInt;
FloatMax Float;
const void *Pointer;
};
};
private:
static const unsigned MaxArgs = 5;
static const unsigned MaxRanges = 1;
/// The arguments which have been added to this diagnostic so far.
Arg Args[MaxArgs];
unsigned NumArgs;
/// The ranges which have been added to this diagnostic so far.
Range Ranges[MaxRanges];
unsigned NumRanges;
Diag &AddArg(Arg A) {
CHECK(NumArgs != MaxArgs);
Args[NumArgs++] = A;
return *this;
}
Diag &AddRange(Range A) {
CHECK(NumRanges != MaxRanges);
Ranges[NumRanges++] = A;
return *this;
}
/// \c Diag objects are not copyable.
Diag(const Diag &); // NOT IMPLEMENTED
Diag &operator=(const Diag &);
public:
Diag(Location Loc, DiagLevel Level, const char *Message)
: Loc(Loc), Level(Level), Message(Message), NumArgs(0), NumRanges(0) {}
~Diag();
Diag &operator<<(const char *Str) { return AddArg(Str); }
Diag &operator<<(MangledName MN) { return AddArg(MN); }
Diag &operator<<(unsigned long long V) { return AddArg(UIntMax(V)); }
Diag &operator<<(const void *V) { return AddArg(V); }
Diag &operator<<(const TypeDescriptor &V);
Diag &operator<<(const Value &V);
Diag &operator<<(const Range &R) { return AddRange(R); }
};
} // namespace __ubsan
#endif // UBSAN_DIAG_H