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1 /*
2  * Copyright (C) 2012 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include "disassembler_arm.h"
18 
19 #include <memory>
20 #include <string>
21 
22 #include "android-base/logging.h"
23 
24 #include "arch/arm/registers_arm.h"
25 #include "base/bit_utils.h"
26 
27 #pragma GCC diagnostic push
28 #pragma GCC diagnostic ignored "-Wshadow"
29 #include "aarch32/disasm-aarch32.h"
30 #include "aarch32/instructions-aarch32.h"
31 #pragma GCC diagnostic pop
32 
33 namespace art {
34 namespace arm {
35 
36 using vixl::aarch32::MemOperand;
37 using vixl::aarch32::PrintDisassembler;
38 using vixl::aarch32::pc;
39 
40 static const vixl::aarch32::Register tr(TR);
41 
42 class DisassemblerArm::CustomDisassembler final : public PrintDisassembler {
43   class CustomDisassemblerStream final : public DisassemblerStream {
44    public:
CustomDisassemblerStream(std::ostream & os,const CustomDisassembler * disasm,const DisassemblerOptions * options)45     CustomDisassemblerStream(std::ostream& os,
46                              const CustomDisassembler* disasm,
47                              const DisassemblerOptions* options)
48         : DisassemblerStream(os), disasm_(disasm), options_(options) {}
49 
operator <<(const PrintLabel & label)50     DisassemblerStream& operator<<(const PrintLabel& label) override {
51       const LocationType type = label.GetLocationType();
52 
53       switch (type) {
54         case kLoadByteLocation:
55         case kLoadHalfWordLocation:
56         case kLoadWordLocation:
57         case kLoadDoubleWordLocation:
58         case kLoadSignedByteLocation:
59         case kLoadSignedHalfWordLocation:
60         case kLoadSinglePrecisionLocation:
61         case kLoadDoublePrecisionLocation:
62         case kVld1Location:
63         case kVld2Location:
64         case kVld3Location:
65         case kVld4Location: {
66           const int32_t offset = label.GetImmediate();
67           os() << "[pc, #" << offset << "]";
68           PrintLiteral(type, offset);
69           return *this;
70         }
71         default:
72           return DisassemblerStream::operator<<(label);
73       }
74     }
75 
operator <<(vixl::aarch32::Register reg)76     DisassemblerStream& operator<<(vixl::aarch32::Register reg) override {
77       if (reg.Is(tr)) {
78         os() << "tr";
79         return *this;
80       } else {
81         return DisassemblerStream::operator<<(reg);
82       }
83     }
84 
operator <<(const MemOperand & operand)85     DisassemblerStream& operator<<(const MemOperand& operand) override {
86       // VIXL must use a PrintLabel object whenever the base register is PC;
87       // the following check verifies this invariant, and guards against bugs.
88       DCHECK(!operand.GetBaseRegister().Is(pc));
89       DisassemblerStream::operator<<(operand);
90 
91       if (operand.GetBaseRegister().Is(tr) && operand.IsImmediate()) {
92         os() << " ; ";
93         options_->thread_offset_name_function_(os(), operand.GetOffsetImmediate());
94       }
95 
96       return *this;
97     }
98 
operator <<(const vixl::aarch32::AlignedMemOperand & operand)99     DisassemblerStream& operator<<(const vixl::aarch32::AlignedMemOperand& operand) override {
100       // VIXL must use a PrintLabel object whenever the base register is PC;
101       // the following check verifies this invariant, and guards against bugs.
102       DCHECK(!operand.GetBaseRegister().Is(pc));
103       return DisassemblerStream::operator<<(operand);
104     }
105 
106    private:
107     void PrintLiteral(LocationType type, int32_t offset);
108 
109     const CustomDisassembler* disasm_;
110     const DisassemblerOptions* options_;
111   };
112 
113  public:
CustomDisassembler(std::ostream & os,const DisassemblerOptions * options)114   CustomDisassembler(std::ostream& os, const DisassemblerOptions* options)
115       : PrintDisassembler(&disassembler_stream_),
116         disassembler_stream_(os, this, options),
117         is_t32_(true) {}
118 
PrintCodeAddress(uint32_t prog_ctr)119   void PrintCodeAddress(uint32_t prog_ctr) override {
120     os() << "0x" << std::hex << std::setw(8) << std::setfill('0') << prog_ctr << ": ";
121   }
122 
SetIsT32(bool is_t32)123   void SetIsT32(bool is_t32) {
124     is_t32_ = is_t32;
125   }
126 
GetIsT32() const127   bool GetIsT32() const {
128     return is_t32_;
129   }
130 
131  private:
132   CustomDisassemblerStream disassembler_stream_;
133   // Whether T32 stream is decoded.
134   bool is_t32_;
135 };
136 
PrintLiteral(LocationType type,int32_t offset)137 void DisassemblerArm::CustomDisassembler::CustomDisassemblerStream::PrintLiteral(LocationType type,
138                                                                                  int32_t offset) {
139   // Literal offsets are not required to be aligned, so we may need unaligned access.
140   using unaligned_int16_t  __attribute__((__aligned__(1))) = const int16_t;
141   using unaligned_uint16_t __attribute__((__aligned__(1))) = const uint16_t;
142   using unaligned_int32_t  __attribute__((__aligned__(1))) = const int32_t;
143   using unaligned_int64_t  __attribute__((__aligned__(1))) = const int64_t;
144   using unaligned_float    __attribute__((__aligned__(1))) = const float;
145   using unaligned_double   __attribute__((__aligned__(1))) = const double;
146 
147   // Zeros are used for the LocationType values this function does not care about.
148   const size_t literal_size[kVst4Location + 1] = {
149       0, 0, 0, 0, sizeof(uint8_t), sizeof(unaligned_uint16_t), sizeof(unaligned_int32_t),
150       sizeof(unaligned_int64_t), sizeof(int8_t), sizeof(unaligned_int16_t),
151       sizeof(unaligned_float), sizeof(unaligned_double)};
152   const uintptr_t begin = reinterpret_cast<uintptr_t>(options_->base_address_);
153   const uintptr_t end = reinterpret_cast<uintptr_t>(options_->end_address_);
154   uintptr_t literal_addr =
155       RoundDown(disasm_->GetCodeAddress(), vixl::aarch32::kRegSizeInBytes) + offset;
156   literal_addr += disasm_->GetIsT32() ? vixl::aarch32::kT32PcDelta : vixl::aarch32::kA32PcDelta;
157 
158   if (!options_->absolute_addresses_) {
159     literal_addr += begin;
160   }
161 
162   os() << "  ; ";
163 
164   // Bail out if not within expected buffer range to avoid trying to fetch invalid literals
165   // (we can encounter them when interpreting raw data as instructions).
166   if (literal_addr < begin || literal_addr > end - literal_size[type]) {
167     os() << "(?)";
168   } else {
169     switch (type) {
170       case kLoadByteLocation:
171         os() << *reinterpret_cast<const uint8_t*>(literal_addr);
172         break;
173       case kLoadHalfWordLocation:
174         os() << *reinterpret_cast<unaligned_uint16_t*>(literal_addr);
175         break;
176       case kLoadWordLocation: {
177         const int32_t value = *reinterpret_cast<unaligned_int32_t*>(literal_addr);
178         os() << "0x" << std::hex << std::setw(8) << std::setfill('0') << value;
179         break;
180       }
181       case kLoadDoubleWordLocation: {
182         const int64_t value = *reinterpret_cast<unaligned_int64_t*>(literal_addr);
183         os() << "0x" << std::hex << std::setw(16) << std::setfill('0') << value;
184         break;
185       }
186       case kLoadSignedByteLocation:
187         os() << *reinterpret_cast<const int8_t*>(literal_addr);
188         break;
189       case kLoadSignedHalfWordLocation:
190         os() << *reinterpret_cast<unaligned_int16_t*>(literal_addr);
191         break;
192       case kLoadSinglePrecisionLocation:
193         os() << *reinterpret_cast<unaligned_float*>(literal_addr);
194         break;
195       case kLoadDoublePrecisionLocation:
196         os() << *reinterpret_cast<unaligned_double*>(literal_addr);
197         break;
198       default:
199         UNIMPLEMENTED(FATAL) << "Unexpected literal type: " << type;
200     }
201   }
202 }
203 
DisassemblerArm(DisassemblerOptions * options)204 DisassemblerArm::DisassemblerArm(DisassemblerOptions* options)
205     : Disassembler(options), disasm_(std::make_unique<CustomDisassembler>(output_, options)) {}
206 
Dump(std::ostream & os,const uint8_t * begin)207 size_t DisassemblerArm::Dump(std::ostream& os, const uint8_t* begin) {
208   uintptr_t next;
209   // Remove the Thumb specifier bit; no effect if begin does not point to T32 code.
210   const uintptr_t instr_ptr = reinterpret_cast<uintptr_t>(begin) & ~1;
211 
212   const bool is_t32 = (reinterpret_cast<uintptr_t>(begin) & 1) != 0;
213   disasm_->SetCodeAddress(GetPc(instr_ptr));
214   disasm_->SetIsT32(is_t32);
215 
216   if (is_t32) {
217     const uint16_t* const ip = reinterpret_cast<const uint16_t*>(instr_ptr);
218     const uint16_t* const end_address = reinterpret_cast<const uint16_t*>(
219         GetDisassemblerOptions()->end_address_);
220     next = reinterpret_cast<uintptr_t>(disasm_->DecodeT32At(ip, end_address));
221   } else {
222     const uint32_t* const ip = reinterpret_cast<const uint32_t*>(instr_ptr);
223     next = reinterpret_cast<uintptr_t>(disasm_->DecodeA32At(ip));
224   }
225 
226   os << output_.str();
227   output_.str(std::string());
228   return next - instr_ptr;
229 }
230 
Dump(std::ostream & os,const uint8_t * begin,const uint8_t * end)231 void DisassemblerArm::Dump(std::ostream& os, const uint8_t* begin, const uint8_t* end) {
232   DCHECK_LE(begin, end);
233 
234   // Remove the Thumb specifier bit; no effect if begin does not point to T32 code.
235   const uintptr_t base = reinterpret_cast<uintptr_t>(begin) & ~1;
236 
237   const bool is_t32 = (reinterpret_cast<uintptr_t>(begin) & 1) != 0;
238   disasm_->SetCodeAddress(GetPc(base));
239   disasm_->SetIsT32(is_t32);
240 
241   if (is_t32) {
242     // The Thumb specifier bits cancel each other.
243     disasm_->DisassembleT32Buffer(reinterpret_cast<const uint16_t*>(base), end - begin);
244   } else {
245     disasm_->DisassembleA32Buffer(reinterpret_cast<const uint32_t*>(base), end - begin);
246   }
247 
248   os << output_.str();
249   output_.str(std::string());
250 }
251 
252 }  // namespace arm
253 }  // namespace art
254