1 //===- Binary.h - A generic binary file -------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This file declares the Binary class.
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #ifndef LLVM_OBJECT_BINARY_H
14 #define LLVM_OBJECT_BINARY_H
15 
16 #include "llvm-c/Types.h"
17 #include "llvm/ADT/Triple.h"
18 #include "llvm/Object/Error.h"
19 #include "llvm/Support/Error.h"
20 #include "llvm/Support/MemoryBuffer.h"
21 #include <algorithm>
22 #include <memory>
23 #include <utility>
24 
25 namespace llvm {
26 
27 class LLVMContext;
28 class StringRef;
29 
30 namespace object {
31 
32 class Binary {
33 private:
34   unsigned int TypeID;
35 
36 protected:
37   MemoryBufferRef Data;
38 
39   Binary(unsigned int Type, MemoryBufferRef Source);
40 
41   enum {
42     ID_Archive,
43     ID_MachOUniversalBinary,
44     ID_COFFImportFile,
45     ID_IR,            // LLVM IR
46     ID_TapiUniversal, // Text-based Dynamic Library Stub file.
47     ID_TapiFile,      // Text-based Dynamic Library Stub file.
48 
49     ID_Minidump,
50 
51     ID_WinRes, // Windows resource (.res) file.
52 
53     // Object and children.
54     ID_StartObjects,
55     ID_COFF,
56 
57     ID_XCOFF32, // AIX XCOFF 32-bit
58     ID_XCOFF64, // AIX XCOFF 64-bit
59 
60     ID_ELF32L, // ELF 32-bit, little endian
61     ID_ELF32B, // ELF 32-bit, big endian
62     ID_ELF64L, // ELF 64-bit, little endian
63     ID_ELF64B, // ELF 64-bit, big endian
64 
65     ID_MachO32L, // MachO 32-bit, little endian
66     ID_MachO32B, // MachO 32-bit, big endian
67     ID_MachO64L, // MachO 64-bit, little endian
68     ID_MachO64B, // MachO 64-bit, big endian
69 
70     ID_Wasm,
71 
72     ID_EndObjects
73   };
74 
getELFType(bool isLE,bool is64Bits)75   static inline unsigned int getELFType(bool isLE, bool is64Bits) {
76     if (isLE)
77       return is64Bits ? ID_ELF64L : ID_ELF32L;
78     else
79       return is64Bits ? ID_ELF64B : ID_ELF32B;
80   }
81 
getMachOType(bool isLE,bool is64Bits)82   static unsigned int getMachOType(bool isLE, bool is64Bits) {
83     if (isLE)
84       return is64Bits ? ID_MachO64L : ID_MachO32L;
85     else
86       return is64Bits ? ID_MachO64B : ID_MachO32B;
87   }
88 
89 public:
90   Binary() = delete;
91   Binary(const Binary &other) = delete;
92   virtual ~Binary();
93 
94   StringRef getData() const;
95   StringRef getFileName() const;
96   MemoryBufferRef getMemoryBufferRef() const;
97 
98   // Cast methods.
getType()99   unsigned int getType() const { return TypeID; }
100 
101   // Convenience methods
isObject()102   bool isObject() const {
103     return TypeID > ID_StartObjects && TypeID < ID_EndObjects;
104   }
105 
isSymbolic()106   bool isSymbolic() const {
107     return isIR() || isObject() || isCOFFImportFile() || isTapiFile();
108   }
109 
isArchive()110   bool isArchive() const { return TypeID == ID_Archive; }
111 
isMachOUniversalBinary()112   bool isMachOUniversalBinary() const {
113     return TypeID == ID_MachOUniversalBinary;
114   }
115 
isTapiUniversal()116   bool isTapiUniversal() const { return TypeID == ID_TapiUniversal; }
117 
isELF()118   bool isELF() const {
119     return TypeID >= ID_ELF32L && TypeID <= ID_ELF64B;
120   }
121 
isMachO()122   bool isMachO() const {
123     return TypeID >= ID_MachO32L && TypeID <= ID_MachO64B;
124   }
125 
isCOFF()126   bool isCOFF() const {
127     return TypeID == ID_COFF;
128   }
129 
isXCOFF()130   bool isXCOFF() const { return TypeID == ID_XCOFF32 || TypeID == ID_XCOFF64; }
131 
isWasm()132   bool isWasm() const { return TypeID == ID_Wasm; }
133 
isCOFFImportFile()134   bool isCOFFImportFile() const {
135     return TypeID == ID_COFFImportFile;
136   }
137 
isIR()138   bool isIR() const {
139     return TypeID == ID_IR;
140   }
141 
isMinidump()142   bool isMinidump() const { return TypeID == ID_Minidump; }
143 
isTapiFile()144   bool isTapiFile() const { return TypeID == ID_TapiFile; }
145 
isLittleEndian()146   bool isLittleEndian() const {
147     return !(TypeID == ID_ELF32B || TypeID == ID_ELF64B ||
148              TypeID == ID_MachO32B || TypeID == ID_MachO64B);
149   }
150 
isWinRes()151   bool isWinRes() const { return TypeID == ID_WinRes; }
152 
getTripleObjectFormat()153   Triple::ObjectFormatType getTripleObjectFormat() const {
154     if (isCOFF())
155       return Triple::COFF;
156     if (isMachO())
157       return Triple::MachO;
158     if (isELF())
159       return Triple::ELF;
160     return Triple::UnknownObjectFormat;
161   }
162 
checkOffset(MemoryBufferRef M,uintptr_t Addr,const uint64_t Size)163   static Error checkOffset(MemoryBufferRef M, uintptr_t Addr,
164                            const uint64_t Size) {
165     if (Addr + Size < Addr || Addr + Size < Size ||
166         Addr + Size > uintptr_t(M.getBufferEnd()) ||
167         Addr < uintptr_t(M.getBufferStart())) {
168       return errorCodeToError(object_error::unexpected_eof);
169     }
170     return Error::success();
171   }
172 };
173 
174 // Create wrappers for C Binding types (see CBindingWrapping.h).
175 DEFINE_ISA_CONVERSION_FUNCTIONS(Binary, LLVMBinaryRef)
176 
177 /// Create a Binary from Source, autodetecting the file type.
178 ///
179 /// @param Source The data to create the Binary from.
180 Expected<std::unique_ptr<Binary>> createBinary(MemoryBufferRef Source,
181                                                LLVMContext *Context = nullptr);
182 
183 template <typename T> class OwningBinary {
184   std::unique_ptr<T> Bin;
185   std::unique_ptr<MemoryBuffer> Buf;
186 
187 public:
188   OwningBinary();
189   OwningBinary(std::unique_ptr<T> Bin, std::unique_ptr<MemoryBuffer> Buf);
190   OwningBinary(OwningBinary<T>&& Other);
191   OwningBinary<T> &operator=(OwningBinary<T> &&Other);
192 
193   std::pair<std::unique_ptr<T>, std::unique_ptr<MemoryBuffer>> takeBinary();
194 
195   T* getBinary();
196   const T* getBinary() const;
197 };
198 
199 template <typename T>
OwningBinary(std::unique_ptr<T> Bin,std::unique_ptr<MemoryBuffer> Buf)200 OwningBinary<T>::OwningBinary(std::unique_ptr<T> Bin,
201                               std::unique_ptr<MemoryBuffer> Buf)
202     : Bin(std::move(Bin)), Buf(std::move(Buf)) {}
203 
204 template <typename T> OwningBinary<T>::OwningBinary() = default;
205 
206 template <typename T>
OwningBinary(OwningBinary && Other)207 OwningBinary<T>::OwningBinary(OwningBinary &&Other)
208     : Bin(std::move(Other.Bin)), Buf(std::move(Other.Buf)) {}
209 
210 template <typename T>
211 OwningBinary<T> &OwningBinary<T>::operator=(OwningBinary &&Other) {
212   Bin = std::move(Other.Bin);
213   Buf = std::move(Other.Buf);
214   return *this;
215 }
216 
217 template <typename T>
218 std::pair<std::unique_ptr<T>, std::unique_ptr<MemoryBuffer>>
takeBinary()219 OwningBinary<T>::takeBinary() {
220   return std::make_pair(std::move(Bin), std::move(Buf));
221 }
222 
getBinary()223 template <typename T> T* OwningBinary<T>::getBinary() {
224   return Bin.get();
225 }
226 
getBinary()227 template <typename T> const T* OwningBinary<T>::getBinary() const {
228   return Bin.get();
229 }
230 
231 Expected<OwningBinary<Binary>> createBinary(StringRef Path);
232 
233 } // end namespace object
234 
235 } // end namespace llvm
236 
237 #endif // LLVM_OBJECT_BINARY_H
238