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1 /*
2  * Copyright (C) 2011 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 #ifndef ART_RUNTIME_LEB128_H_
18 #define ART_RUNTIME_LEB128_H_
19 
20 #include <vector>
21 
22 #include "base/bit_utils.h"
23 #include "base/logging.h"
24 #include "globals.h"
25 
26 namespace art {
27 
28 // Reads an unsigned LEB128 value, updating the given pointer to point
29 // just past the end of the read value. This function tolerates
30 // non-zero high-order bits in the fifth encoded byte.
DecodeUnsignedLeb128(const uint8_t ** data)31 static inline uint32_t DecodeUnsignedLeb128(const uint8_t** data) {
32   const uint8_t* ptr = *data;
33   int result = *(ptr++);
34   if (UNLIKELY(result > 0x7f)) {
35     int cur = *(ptr++);
36     result = (result & 0x7f) | ((cur & 0x7f) << 7);
37     if (cur > 0x7f) {
38       cur = *(ptr++);
39       result |= (cur & 0x7f) << 14;
40       if (cur > 0x7f) {
41         cur = *(ptr++);
42         result |= (cur & 0x7f) << 21;
43         if (cur > 0x7f) {
44           // Note: We don't check to see if cur is out of range here,
45           // meaning we tolerate garbage in the four high-order bits.
46           cur = *(ptr++);
47           result |= cur << 28;
48         }
49       }
50     }
51   }
52   *data = ptr;
53   return static_cast<uint32_t>(result);
54 }
55 
56 // Reads an unsigned LEB128 + 1 value. updating the given pointer to point
57 // just past the end of the read value. This function tolerates
58 // non-zero high-order bits in the fifth encoded byte.
59 // It is possible for this function to return -1.
DecodeUnsignedLeb128P1(const uint8_t ** data)60 static inline int32_t DecodeUnsignedLeb128P1(const uint8_t** data) {
61   return DecodeUnsignedLeb128(data) - 1;
62 }
63 
64 // Reads a signed LEB128 value, updating the given pointer to point
65 // just past the end of the read value. This function tolerates
66 // non-zero high-order bits in the fifth encoded byte.
DecodeSignedLeb128(const uint8_t ** data)67 static inline int32_t DecodeSignedLeb128(const uint8_t** data) {
68   const uint8_t* ptr = *data;
69   int32_t result = *(ptr++);
70   if (result <= 0x7f) {
71     result = (result << 25) >> 25;
72   } else {
73     int cur = *(ptr++);
74     result = (result & 0x7f) | ((cur & 0x7f) << 7);
75     if (cur <= 0x7f) {
76       result = (result << 18) >> 18;
77     } else {
78       cur = *(ptr++);
79       result |= (cur & 0x7f) << 14;
80       if (cur <= 0x7f) {
81         result = (result << 11) >> 11;
82       } else {
83         cur = *(ptr++);
84         result |= (cur & 0x7f) << 21;
85         if (cur <= 0x7f) {
86           result = (result << 4) >> 4;
87         } else {
88           // Note: We don't check to see if cur is out of range here,
89           // meaning we tolerate garbage in the four high-order bits.
90           cur = *(ptr++);
91           result |= cur << 28;
92         }
93       }
94     }
95   }
96   *data = ptr;
97   return result;
98 }
99 
100 // Returns the number of bytes needed to encode the value in unsigned LEB128.
UnsignedLeb128Size(uint32_t data)101 static inline uint32_t UnsignedLeb128Size(uint32_t data) {
102   // bits_to_encode = (data != 0) ? 32 - CLZ(x) : 1  // 32 - CLZ(data | 1)
103   // bytes = ceil(bits_to_encode / 7.0);             // (6 + bits_to_encode) / 7
104   uint32_t x = 6 + 32 - CLZ(data | 1);
105   // Division by 7 is done by (x * 37) >> 8 where 37 = ceil(256 / 7).
106   // This works for 0 <= x < 256 / (7 * 37 - 256), i.e. 0 <= x <= 85.
107   return (x * 37) >> 8;
108 }
109 
110 // Returns the number of bytes needed to encode the value in unsigned LEB128.
SignedLeb128Size(int32_t data)111 static inline uint32_t SignedLeb128Size(int32_t data) {
112   // Like UnsignedLeb128Size(), but we need one bit beyond the highest bit that differs from sign.
113   data = data ^ (data >> 31);
114   uint32_t x = 1 /* we need to encode the sign bit */ + 6 + 32 - CLZ(data | 1);
115   return (x * 37) >> 8;
116 }
117 
EncodeUnsignedLeb128(uint8_t * dest,uint32_t value)118 static inline uint8_t* EncodeUnsignedLeb128(uint8_t* dest, uint32_t value) {
119   uint8_t out = value & 0x7f;
120   value >>= 7;
121   while (value != 0) {
122     *dest++ = out | 0x80;
123     out = value & 0x7f;
124     value >>= 7;
125   }
126   *dest++ = out;
127   return dest;
128 }
129 
130 template<typename Allocator>
EncodeUnsignedLeb128(std::vector<uint8_t,Allocator> * dest,uint32_t value)131 static inline void EncodeUnsignedLeb128(std::vector<uint8_t, Allocator>* dest, uint32_t value) {
132   uint8_t out = value & 0x7f;
133   value >>= 7;
134   while (value != 0) {
135     dest->push_back(out | 0x80);
136     out = value & 0x7f;
137     value >>= 7;
138   }
139   dest->push_back(out);
140 }
141 
142 // Overwrite encoded Leb128 with a new value. The new value must be less than
143 // or equal to the old value to ensure that it fits the allocated space.
UpdateUnsignedLeb128(uint8_t * dest,uint32_t value)144 static inline void UpdateUnsignedLeb128(uint8_t* dest, uint32_t value) {
145   const uint8_t* old_end = dest;
146   uint32_t old_value = DecodeUnsignedLeb128(&old_end);
147   DCHECK_LE(value, old_value);
148   for (uint8_t* end = EncodeUnsignedLeb128(dest, value); end < old_end; end++) {
149     // Use longer encoding than necessary to fill the allocated space.
150     end[-1] |= 0x80;
151     end[0] = 0;
152   }
153 }
154 
EncodeSignedLeb128(uint8_t * dest,int32_t value)155 static inline uint8_t* EncodeSignedLeb128(uint8_t* dest, int32_t value) {
156   uint32_t extra_bits = static_cast<uint32_t>(value ^ (value >> 31)) >> 6;
157   uint8_t out = value & 0x7f;
158   while (extra_bits != 0u) {
159     *dest++ = out | 0x80;
160     value >>= 7;
161     out = value & 0x7f;
162     extra_bits >>= 7;
163   }
164   *dest++ = out;
165   return dest;
166 }
167 
168 template<typename Allocator>
EncodeSignedLeb128(std::vector<uint8_t,Allocator> * dest,int32_t value)169 static inline void EncodeSignedLeb128(std::vector<uint8_t, Allocator>* dest, int32_t value) {
170   uint32_t extra_bits = static_cast<uint32_t>(value ^ (value >> 31)) >> 6;
171   uint8_t out = value & 0x7f;
172   while (extra_bits != 0u) {
173     dest->push_back(out | 0x80);
174     value >>= 7;
175     out = value & 0x7f;
176     extra_bits >>= 7;
177   }
178   dest->push_back(out);
179 }
180 
181 // An encoder that pushed uint32_t data onto the given std::vector.
182 class Leb128Encoder {
183  public:
Leb128Encoder(std::vector<uint8_t> * data)184   explicit Leb128Encoder(std::vector<uint8_t>* data) : data_(data) {
185     DCHECK(data != nullptr);
186   }
187 
Reserve(uint32_t size)188   void Reserve(uint32_t size) {
189     data_->reserve(size);
190   }
191 
PushBackUnsigned(uint32_t value)192   void PushBackUnsigned(uint32_t value) {
193     EncodeUnsignedLeb128(data_, value);
194   }
195 
196   template<typename It>
InsertBackUnsigned(It cur,It end)197   void InsertBackUnsigned(It cur, It end) {
198     for (; cur != end; ++cur) {
199       PushBackUnsigned(*cur);
200     }
201   }
202 
PushBackSigned(int32_t value)203   void PushBackSigned(int32_t value) {
204     EncodeSignedLeb128(data_, value);
205   }
206 
207   template<typename It>
InsertBackSigned(It cur,It end)208   void InsertBackSigned(It cur, It end) {
209     for (; cur != end; ++cur) {
210       PushBackSigned(*cur);
211     }
212   }
213 
GetData()214   const std::vector<uint8_t>& GetData() const {
215     return *data_;
216   }
217 
218  protected:
219   std::vector<uint8_t>* const data_;
220 
221  private:
222   DISALLOW_COPY_AND_ASSIGN(Leb128Encoder);
223 };
224 
225 // An encoder with an API similar to vector<uint32_t> where the data is captured in ULEB128 format.
226 class Leb128EncodingVector FINAL : private std::vector<uint8_t>, public Leb128Encoder {
227  public:
Leb128EncodingVector()228   Leb128EncodingVector() : Leb128Encoder(this) {
229   }
230 
231  private:
232   DISALLOW_COPY_AND_ASSIGN(Leb128EncodingVector);
233 };
234 
235 }  // namespace art
236 
237 #endif  // ART_RUNTIME_LEB128_H_
238