Include PE image headers in client download pings.
[chromium-blink-merge.git] / courgette / assembly_program.h
blob701b4767a8cffe0b6356ec4cc4a87eded480b7f6
1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef COURGETTE_ASSEMBLY_PROGRAM_H_
6 #define COURGETTE_ASSEMBLY_PROGRAM_H_
8 #include <map>
9 #include <set>
10 #include <vector>
12 #include "base/basictypes.h"
13 #include "base/memory/scoped_ptr.h"
15 #include "courgette/disassembler.h"
16 #include "courgette/memory_allocator.h"
18 namespace courgette {
20 class EncodedProgram;
21 class Instruction;
23 typedef NoThrowBuffer<Instruction*> InstructionVector;
25 // A Label is a symbolic reference to an address. Unlike a conventional
26 // assembly language, we always know the address. The address will later be
27 // stored in a table and the Label will be replaced with the index into the
28 // table.
30 // TODO(sra): Make fields private and add setters and getters.
31 class Label {
32 public:
33 static const int kNoIndex = -1;
34 Label() : rva_(0), index_(kNoIndex), count_(0) {}
35 explicit Label(RVA rva) : rva_(rva), index_(kNoIndex), count_(0) {}
37 RVA rva_; // Address referred to by the label.
38 int index_; // Index of address in address table, kNoIndex until assigned.
39 int count_;
42 typedef std::map<RVA, Label*> RVAToLabel;
44 // An AssemblyProgram is the result of disassembling an executable file.
46 // * The disassembler creates labels in the AssemblyProgram and emits
47 // 'Instructions'.
48 // * The disassembler then calls DefaultAssignIndexes to assign
49 // addresses to positions in the address tables.
50 // * [Optional step]
51 // * At this point the AssemblyProgram can be converted into an
52 // EncodedProgram and serialized to an output stream.
53 // * Later, the EncodedProgram can be deserialized and assembled into
54 // the original file.
56 // The optional step is to modify the AssemblyProgram. One form of modification
57 // is to assign indexes in such a way as to make the EncodedProgram for this
58 // AssemblyProgram look more like the EncodedProgram for some other
59 // AssemblyProgram. The modification process should call UnassignIndexes, do
60 // its own assignment, and then call AssignRemainingIndexes to ensure all
61 // indexes are assigned.
63 class AssemblyProgram {
64 public:
65 explicit AssemblyProgram(ExecutableType kind);
66 ~AssemblyProgram();
68 ExecutableType kind() const { return kind_; }
70 void set_image_base(uint64 image_base) { image_base_ = image_base; }
72 // Instructions will be assembled in the order they are emitted.
74 // Generates an entire base relocation table.
75 CheckBool EmitPeRelocsInstruction() WARN_UNUSED_RESULT;
77 // Generates an ELF style relocation table for X86.
78 CheckBool EmitElfRelocationInstruction() WARN_UNUSED_RESULT;
80 // Generates an ELF style relocation table for ARM.
81 CheckBool EmitElfARMRelocationInstruction() WARN_UNUSED_RESULT;
83 // Following instruction will be assembled at address 'rva'.
84 CheckBool EmitOriginInstruction(RVA rva) WARN_UNUSED_RESULT;
86 // Generates a single byte of data or machine instruction.
87 CheckBool EmitByteInstruction(uint8 byte) WARN_UNUSED_RESULT;
89 // Generates multiple bytes of data or machine instructions.
90 CheckBool EmitBytesInstruction(const uint8* value, uint32 len)
91 WARN_UNUSED_RESULT;
93 // Generates 4-byte relative reference to address of 'label'.
94 CheckBool EmitRel32(Label* label) WARN_UNUSED_RESULT;
96 // Generates 4-byte relative reference to address of 'label' for
97 // ARM.
98 CheckBool EmitRel32ARM(uint16 op, Label* label, const uint8* arm_op,
99 uint16 op_size) WARN_UNUSED_RESULT;
101 // Generates 4-byte absolute reference to address of 'label'.
102 CheckBool EmitAbs32(Label* label) WARN_UNUSED_RESULT;
104 // Looks up a label or creates a new one. Might return NULL.
105 Label* FindOrMakeAbs32Label(RVA rva);
107 // Looks up a label or creates a new one. Might return NULL.
108 Label* FindOrMakeRel32Label(RVA rva);
110 void DefaultAssignIndexes();
111 void UnassignIndexes();
112 void AssignRemainingIndexes();
114 EncodedProgram* Encode() const;
116 // Accessor for instruction list.
117 const InstructionVector& instructions() const {
118 return instructions_;
121 // Returns the label if the instruction contains and absolute address,
122 // otherwise returns NULL.
123 Label* InstructionAbs32Label(const Instruction* instruction) const;
125 // Returns the label if the instruction contains and rel32 offset,
126 // otherwise returns NULL.
127 Label* InstructionRel32Label(const Instruction* instruction) const;
129 // Trim underused labels
130 CheckBool TrimLabels();
132 void PrintLabelCounts(RVAToLabel* labels);
133 void CountRel32ARM();
135 private:
136 ExecutableType kind_;
138 CheckBool Emit(Instruction* instruction) WARN_UNUSED_RESULT;
140 static const int kLabelLowerLimit;
142 // Looks up a label or creates a new one. Might return NULL.
143 Label* FindLabel(RVA rva, RVAToLabel* labels);
145 // Helper methods for the public versions.
146 static void UnassignIndexes(RVAToLabel* labels);
147 static void DefaultAssignIndexes(RVAToLabel* labels);
148 static void AssignRemainingIndexes(RVAToLabel* labels);
150 // Sharing instructions that emit a single byte saves a lot of space.
151 Instruction* GetByteInstruction(uint8 byte);
152 scoped_ptr<Instruction*[]> byte_instruction_cache_;
154 uint64 image_base_; // Desired or mandated base address of image.
156 InstructionVector instructions_; // All the instructions in program.
158 // These are lookup maps to find the label associated with a given address.
159 // We have separate label spaces for addresses referenced by rel32 labels and
160 // abs32 labels. This is somewhat arbitrary.
161 RVAToLabel rel32_labels_;
162 RVAToLabel abs32_labels_;
164 DISALLOW_COPY_AND_ASSIGN(AssemblyProgram);
167 } // namespace courgette
168 #endif // COURGETTE_ASSEMBLY_PROGRAM_H_