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1 /*
2  * Copyright (C) 2014 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_STACK_MAP_H_
18 #define ART_RUNTIME_STACK_MAP_H_
19 
20 #include <limits>
21 
22 #include "arch/code_offset.h"
23 #include "base/bit_vector.h"
24 #include "base/bit_utils.h"
25 #include "bit_memory_region.h"
26 #include "dex_file.h"
27 #include "memory_region.h"
28 #include "method_info.h"
29 #include "leb128.h"
30 
31 namespace art {
32 
33 class VariableIndentationOutputStream;
34 
35 // Size of a frame slot, in bytes.  This constant is a signed value,
36 // to please the compiler in arithmetic operations involving int32_t
37 // (signed) values.
38 static constexpr ssize_t kFrameSlotSize = 4;
39 
40 // Size of Dex virtual registers.
41 static constexpr size_t kVRegSize = 4;
42 
43 class ArtMethod;
44 class CodeInfo;
45 class StackMapEncoding;
46 struct CodeInfoEncoding;
47 
48 /**
49  * Classes in the following file are wrapper on stack map information backed
50  * by a MemoryRegion. As such they read and write to the region, they don't have
51  * their own fields.
52  */
53 
54 // Dex register location container used by DexRegisterMap and StackMapStream.
55 class DexRegisterLocation {
56  public:
57   /*
58    * The location kind used to populate the Dex register information in a
59    * StackMapStream can either be:
60    * - kStack: vreg stored on the stack, value holds the stack offset;
61    * - kInRegister: vreg stored in low 32 bits of a core physical register,
62    *                value holds the register number;
63    * - kInRegisterHigh: vreg stored in high 32 bits of a core physical register,
64    *                    value holds the register number;
65    * - kInFpuRegister: vreg stored in low 32 bits of an FPU register,
66    *                   value holds the register number;
67    * - kInFpuRegisterHigh: vreg stored in high 32 bits of an FPU register,
68    *                       value holds the register number;
69    * - kConstant: value holds the constant;
70    *
71    * In addition, DexRegisterMap also uses these values:
72    * - kInStackLargeOffset: value holds a "large" stack offset (greater than
73    *   or equal to 128 bytes);
74    * - kConstantLargeValue: value holds a "large" constant (lower than 0, or
75    *   or greater than or equal to 32);
76    * - kNone: the register has no location, meaning it has not been set.
77    */
78   enum class Kind : uint8_t {
79     // Short location kinds, for entries fitting on one byte (3 bits
80     // for the kind, 5 bits for the value) in a DexRegisterMap.
81     kInStack = 0,             // 0b000
82     kInRegister = 1,          // 0b001
83     kInRegisterHigh = 2,      // 0b010
84     kInFpuRegister = 3,       // 0b011
85     kInFpuRegisterHigh = 4,   // 0b100
86     kConstant = 5,            // 0b101
87 
88     // Large location kinds, requiring a 5-byte encoding (1 byte for the
89     // kind, 4 bytes for the value).
90 
91     // Stack location at a large offset, meaning that the offset value
92     // divided by the stack frame slot size (4 bytes) cannot fit on a
93     // 5-bit unsigned integer (i.e., this offset value is greater than
94     // or equal to 2^5 * 4 = 128 bytes).
95     kInStackLargeOffset = 6,  // 0b110
96 
97     // Large constant, that cannot fit on a 5-bit signed integer (i.e.,
98     // lower than 0, or greater than or equal to 2^5 = 32).
99     kConstantLargeValue = 7,  // 0b111
100 
101     // Entries with no location are not stored and do not need own marker.
102     kNone = static_cast<uint8_t>(-1),
103 
104     kLastLocationKind = kConstantLargeValue
105   };
106 
107   static_assert(
108       sizeof(Kind) == 1u,
109       "art::DexRegisterLocation::Kind has a size different from one byte.");
110 
IsShortLocationKind(Kind kind)111   static bool IsShortLocationKind(Kind kind) {
112     switch (kind) {
113       case Kind::kInStack:
114       case Kind::kInRegister:
115       case Kind::kInRegisterHigh:
116       case Kind::kInFpuRegister:
117       case Kind::kInFpuRegisterHigh:
118       case Kind::kConstant:
119         return true;
120 
121       case Kind::kInStackLargeOffset:
122       case Kind::kConstantLargeValue:
123         return false;
124 
125       case Kind::kNone:
126         LOG(FATAL) << "Unexpected location kind";
127     }
128     UNREACHABLE();
129   }
130 
131   // Convert `kind` to a "surface" kind, i.e. one that doesn't include
132   // any value with a "large" qualifier.
133   // TODO: Introduce another enum type for the surface kind?
ConvertToSurfaceKind(Kind kind)134   static Kind ConvertToSurfaceKind(Kind kind) {
135     switch (kind) {
136       case Kind::kInStack:
137       case Kind::kInRegister:
138       case Kind::kInRegisterHigh:
139       case Kind::kInFpuRegister:
140       case Kind::kInFpuRegisterHigh:
141       case Kind::kConstant:
142         return kind;
143 
144       case Kind::kInStackLargeOffset:
145         return Kind::kInStack;
146 
147       case Kind::kConstantLargeValue:
148         return Kind::kConstant;
149 
150       case Kind::kNone:
151         return kind;
152     }
153     UNREACHABLE();
154   }
155 
156   // Required by art::StackMapStream::LocationCatalogEntriesIndices.
DexRegisterLocation()157   DexRegisterLocation() : kind_(Kind::kNone), value_(0) {}
158 
DexRegisterLocation(Kind kind,int32_t value)159   DexRegisterLocation(Kind kind, int32_t value) : kind_(kind), value_(value) {}
160 
None()161   static DexRegisterLocation None() {
162     return DexRegisterLocation(Kind::kNone, 0);
163   }
164 
165   // Get the "surface" kind of the location, i.e., the one that doesn't
166   // include any value with a "large" qualifier.
GetKind()167   Kind GetKind() const {
168     return ConvertToSurfaceKind(kind_);
169   }
170 
171   // Get the value of the location.
GetValue()172   int32_t GetValue() const { return value_; }
173 
174   // Get the actual kind of the location.
GetInternalKind()175   Kind GetInternalKind() const { return kind_; }
176 
177   bool operator==(DexRegisterLocation other) const {
178     return kind_ == other.kind_ && value_ == other.value_;
179   }
180 
181   bool operator!=(DexRegisterLocation other) const {
182     return !(*this == other);
183   }
184 
185  private:
186   Kind kind_;
187   int32_t value_;
188 
189   friend class DexRegisterLocationHashFn;
190 };
191 
192 std::ostream& operator<<(std::ostream& stream, const DexRegisterLocation::Kind& kind);
193 
194 /**
195  * Store information on unique Dex register locations used in a method.
196  * The information is of the form:
197  *
198  *   [DexRegisterLocation+].
199  *
200  * DexRegisterLocations are either 1- or 5-byte wide (see art::DexRegisterLocation::Kind).
201  */
202 class DexRegisterLocationCatalog {
203  public:
DexRegisterLocationCatalog(MemoryRegion region)204   explicit DexRegisterLocationCatalog(MemoryRegion region) : region_(region) {}
205 
206   // Short (compressed) location, fitting on one byte.
207   typedef uint8_t ShortLocation;
208 
SetRegisterInfo(size_t offset,const DexRegisterLocation & dex_register_location)209   void SetRegisterInfo(size_t offset, const DexRegisterLocation& dex_register_location) {
210     DexRegisterLocation::Kind kind = ComputeCompressedKind(dex_register_location);
211     int32_t value = dex_register_location.GetValue();
212     if (DexRegisterLocation::IsShortLocationKind(kind)) {
213       // Short location.  Compress the kind and the value as a single byte.
214       if (kind == DexRegisterLocation::Kind::kInStack) {
215         // Instead of storing stack offsets expressed in bytes for
216         // short stack locations, store slot offsets.  A stack offset
217         // is a multiple of 4 (kFrameSlotSize).  This means that by
218         // dividing it by 4, we can fit values from the [0, 128)
219         // interval in a short stack location, and not just values
220         // from the [0, 32) interval.
221         DCHECK_EQ(value % kFrameSlotSize, 0);
222         value /= kFrameSlotSize;
223       }
224       DCHECK(IsShortValue(value)) << value;
225       region_.StoreUnaligned<ShortLocation>(offset, MakeShortLocation(kind, value));
226     } else {
227       // Large location.  Write the location on one byte and the value
228       // on 4 bytes.
229       DCHECK(!IsShortValue(value)) << value;
230       if (kind == DexRegisterLocation::Kind::kInStackLargeOffset) {
231         // Also divide large stack offsets by 4 for the sake of consistency.
232         DCHECK_EQ(value % kFrameSlotSize, 0);
233         value /= kFrameSlotSize;
234       }
235       // Data can be unaligned as the written Dex register locations can
236       // either be 1-byte or 5-byte wide.  Use
237       // art::MemoryRegion::StoreUnaligned instead of
238       // art::MemoryRegion::Store to prevent unligned word accesses on ARM.
239       region_.StoreUnaligned<DexRegisterLocation::Kind>(offset, kind);
240       region_.StoreUnaligned<int32_t>(offset + sizeof(DexRegisterLocation::Kind), value);
241     }
242   }
243 
244   // Find the offset of the location catalog entry number `location_catalog_entry_index`.
FindLocationOffset(size_t location_catalog_entry_index)245   size_t FindLocationOffset(size_t location_catalog_entry_index) const {
246     size_t offset = kFixedSize;
247     // Skip the first `location_catalog_entry_index - 1` entries.
248     for (uint16_t i = 0; i < location_catalog_entry_index; ++i) {
249       // Read the first next byte and inspect its first 3 bits to decide
250       // whether it is a short or a large location.
251       DexRegisterLocation::Kind kind = ExtractKindAtOffset(offset);
252       if (DexRegisterLocation::IsShortLocationKind(kind)) {
253         // Short location.  Skip the current byte.
254         offset += SingleShortEntrySize();
255       } else {
256         // Large location.  Skip the 5 next bytes.
257         offset += SingleLargeEntrySize();
258       }
259     }
260     return offset;
261   }
262 
263   // Get the internal kind of entry at `location_catalog_entry_index`.
GetLocationInternalKind(size_t location_catalog_entry_index)264   DexRegisterLocation::Kind GetLocationInternalKind(size_t location_catalog_entry_index) const {
265     if (location_catalog_entry_index == kNoLocationEntryIndex) {
266       return DexRegisterLocation::Kind::kNone;
267     }
268     return ExtractKindAtOffset(FindLocationOffset(location_catalog_entry_index));
269   }
270 
271   // Get the (surface) kind and value of entry at `location_catalog_entry_index`.
GetDexRegisterLocation(size_t location_catalog_entry_index)272   DexRegisterLocation GetDexRegisterLocation(size_t location_catalog_entry_index) const {
273     if (location_catalog_entry_index == kNoLocationEntryIndex) {
274       return DexRegisterLocation::None();
275     }
276     size_t offset = FindLocationOffset(location_catalog_entry_index);
277     // Read the first byte and inspect its first 3 bits to get the location.
278     ShortLocation first_byte = region_.LoadUnaligned<ShortLocation>(offset);
279     DexRegisterLocation::Kind kind = ExtractKindFromShortLocation(first_byte);
280     if (DexRegisterLocation::IsShortLocationKind(kind)) {
281       // Short location.  Extract the value from the remaining 5 bits.
282       int32_t value = ExtractValueFromShortLocation(first_byte);
283       if (kind == DexRegisterLocation::Kind::kInStack) {
284         // Convert the stack slot (short) offset to a byte offset value.
285         value *= kFrameSlotSize;
286       }
287       return DexRegisterLocation(kind, value);
288     } else {
289       // Large location.  Read the four next bytes to get the value.
290       int32_t value = region_.LoadUnaligned<int32_t>(offset + sizeof(DexRegisterLocation::Kind));
291       if (kind == DexRegisterLocation::Kind::kInStackLargeOffset) {
292         // Convert the stack slot (large) offset to a byte offset value.
293         value *= kFrameSlotSize;
294       }
295       return DexRegisterLocation(kind, value);
296     }
297   }
298 
299   // Compute the compressed kind of `location`.
ComputeCompressedKind(const DexRegisterLocation & location)300   static DexRegisterLocation::Kind ComputeCompressedKind(const DexRegisterLocation& location) {
301     DexRegisterLocation::Kind kind = location.GetInternalKind();
302     switch (kind) {
303       case DexRegisterLocation::Kind::kInStack:
304         return IsShortStackOffsetValue(location.GetValue())
305             ? DexRegisterLocation::Kind::kInStack
306             : DexRegisterLocation::Kind::kInStackLargeOffset;
307 
308       case DexRegisterLocation::Kind::kInRegister:
309       case DexRegisterLocation::Kind::kInRegisterHigh:
310         DCHECK_GE(location.GetValue(), 0);
311         DCHECK_LT(location.GetValue(), 1 << kValueBits);
312         return kind;
313 
314       case DexRegisterLocation::Kind::kInFpuRegister:
315       case DexRegisterLocation::Kind::kInFpuRegisterHigh:
316         DCHECK_GE(location.GetValue(), 0);
317         DCHECK_LT(location.GetValue(), 1 << kValueBits);
318         return kind;
319 
320       case DexRegisterLocation::Kind::kConstant:
321         return IsShortConstantValue(location.GetValue())
322             ? DexRegisterLocation::Kind::kConstant
323             : DexRegisterLocation::Kind::kConstantLargeValue;
324 
325       case DexRegisterLocation::Kind::kConstantLargeValue:
326       case DexRegisterLocation::Kind::kInStackLargeOffset:
327       case DexRegisterLocation::Kind::kNone:
328         LOG(FATAL) << "Unexpected location kind " << kind;
329     }
330     UNREACHABLE();
331   }
332 
333   // Can `location` be turned into a short location?
CanBeEncodedAsShortLocation(const DexRegisterLocation & location)334   static bool CanBeEncodedAsShortLocation(const DexRegisterLocation& location) {
335     DexRegisterLocation::Kind kind = location.GetInternalKind();
336     switch (kind) {
337       case DexRegisterLocation::Kind::kInStack:
338         return IsShortStackOffsetValue(location.GetValue());
339 
340       case DexRegisterLocation::Kind::kInRegister:
341       case DexRegisterLocation::Kind::kInRegisterHigh:
342       case DexRegisterLocation::Kind::kInFpuRegister:
343       case DexRegisterLocation::Kind::kInFpuRegisterHigh:
344         return true;
345 
346       case DexRegisterLocation::Kind::kConstant:
347         return IsShortConstantValue(location.GetValue());
348 
349       case DexRegisterLocation::Kind::kConstantLargeValue:
350       case DexRegisterLocation::Kind::kInStackLargeOffset:
351       case DexRegisterLocation::Kind::kNone:
352         LOG(FATAL) << "Unexpected location kind " << kind;
353     }
354     UNREACHABLE();
355   }
356 
EntrySize(const DexRegisterLocation & location)357   static size_t EntrySize(const DexRegisterLocation& location) {
358     return CanBeEncodedAsShortLocation(location) ? SingleShortEntrySize() : SingleLargeEntrySize();
359   }
360 
SingleShortEntrySize()361   static size_t SingleShortEntrySize() {
362     return sizeof(ShortLocation);
363   }
364 
SingleLargeEntrySize()365   static size_t SingleLargeEntrySize() {
366     return sizeof(DexRegisterLocation::Kind) + sizeof(int32_t);
367   }
368 
Size()369   size_t Size() const {
370     return region_.size();
371   }
372 
373   void Dump(VariableIndentationOutputStream* vios,
374             const CodeInfo& code_info);
375 
376   // Special (invalid) Dex register location catalog entry index meaning
377   // that there is no location for a given Dex register (i.e., it is
378   // mapped to a DexRegisterLocation::Kind::kNone location).
379   static constexpr size_t kNoLocationEntryIndex = -1;
380 
381  private:
382   static constexpr int kFixedSize = 0;
383 
384   // Width of the kind "field" in a short location, in bits.
385   static constexpr size_t kKindBits = 3;
386   // Width of the value "field" in a short location, in bits.
387   static constexpr size_t kValueBits = 5;
388 
389   static constexpr uint8_t kKindMask = (1 << kKindBits) - 1;
390   static constexpr int32_t kValueMask = (1 << kValueBits) - 1;
391   static constexpr size_t kKindOffset = 0;
392   static constexpr size_t kValueOffset = kKindBits;
393 
IsShortStackOffsetValue(int32_t value)394   static bool IsShortStackOffsetValue(int32_t value) {
395     DCHECK_EQ(value % kFrameSlotSize, 0);
396     return IsShortValue(value / kFrameSlotSize);
397   }
398 
IsShortConstantValue(int32_t value)399   static bool IsShortConstantValue(int32_t value) {
400     return IsShortValue(value);
401   }
402 
IsShortValue(int32_t value)403   static bool IsShortValue(int32_t value) {
404     return IsUint<kValueBits>(value);
405   }
406 
MakeShortLocation(DexRegisterLocation::Kind kind,int32_t value)407   static ShortLocation MakeShortLocation(DexRegisterLocation::Kind kind, int32_t value) {
408     uint8_t kind_integer_value = static_cast<uint8_t>(kind);
409     DCHECK(IsUint<kKindBits>(kind_integer_value)) << kind_integer_value;
410     DCHECK(IsShortValue(value)) << value;
411     return (kind_integer_value & kKindMask) << kKindOffset
412         | (value & kValueMask) << kValueOffset;
413   }
414 
ExtractKindFromShortLocation(ShortLocation location)415   static DexRegisterLocation::Kind ExtractKindFromShortLocation(ShortLocation location) {
416     uint8_t kind = (location >> kKindOffset) & kKindMask;
417     DCHECK_LE(kind, static_cast<uint8_t>(DexRegisterLocation::Kind::kLastLocationKind));
418     // We do not encode kNone locations in the stack map.
419     DCHECK_NE(kind, static_cast<uint8_t>(DexRegisterLocation::Kind::kNone));
420     return static_cast<DexRegisterLocation::Kind>(kind);
421   }
422 
ExtractValueFromShortLocation(ShortLocation location)423   static int32_t ExtractValueFromShortLocation(ShortLocation location) {
424     return (location >> kValueOffset) & kValueMask;
425   }
426 
427   // Extract a location kind from the byte at position `offset`.
ExtractKindAtOffset(size_t offset)428   DexRegisterLocation::Kind ExtractKindAtOffset(size_t offset) const {
429     ShortLocation first_byte = region_.LoadUnaligned<ShortLocation>(offset);
430     return ExtractKindFromShortLocation(first_byte);
431   }
432 
433   MemoryRegion region_;
434 
435   friend class CodeInfo;
436   friend class StackMapStream;
437 };
438 
439 /* Information on Dex register locations for a specific PC, mapping a
440  * stack map's Dex register to a location entry in a DexRegisterLocationCatalog.
441  * The information is of the form:
442  *
443  *   [live_bit_mask, entries*]
444  *
445  * where entries are concatenated unsigned integer values encoded on a number
446  * of bits (fixed per DexRegisterMap instances of a CodeInfo object) depending
447  * on the number of entries in the Dex register location catalog
448  * (see DexRegisterMap::SingleEntrySizeInBits).  The map is 1-byte aligned.
449  */
450 class DexRegisterMap {
451  public:
DexRegisterMap(MemoryRegion region)452   explicit DexRegisterMap(MemoryRegion region) : region_(region) {}
DexRegisterMap()453   DexRegisterMap() {}
454 
IsValid()455   bool IsValid() const { return region_.pointer() != nullptr; }
456 
457   // Get the surface kind of Dex register `dex_register_number`.
GetLocationKind(uint16_t dex_register_number,uint16_t number_of_dex_registers,const CodeInfo & code_info,const CodeInfoEncoding & enc)458   DexRegisterLocation::Kind GetLocationKind(uint16_t dex_register_number,
459                                             uint16_t number_of_dex_registers,
460                                             const CodeInfo& code_info,
461                                             const CodeInfoEncoding& enc) const {
462     return DexRegisterLocation::ConvertToSurfaceKind(
463         GetLocationInternalKind(dex_register_number, number_of_dex_registers, code_info, enc));
464   }
465 
466   // Get the internal kind of Dex register `dex_register_number`.
467   DexRegisterLocation::Kind GetLocationInternalKind(uint16_t dex_register_number,
468                                                     uint16_t number_of_dex_registers,
469                                                     const CodeInfo& code_info,
470                                                     const CodeInfoEncoding& enc) const;
471 
472   // Get the Dex register location `dex_register_number`.
473   DexRegisterLocation GetDexRegisterLocation(uint16_t dex_register_number,
474                                              uint16_t number_of_dex_registers,
475                                              const CodeInfo& code_info,
476                                              const CodeInfoEncoding& enc) const;
477 
GetStackOffsetInBytes(uint16_t dex_register_number,uint16_t number_of_dex_registers,const CodeInfo & code_info,const CodeInfoEncoding & enc)478   int32_t GetStackOffsetInBytes(uint16_t dex_register_number,
479                                 uint16_t number_of_dex_registers,
480                                 const CodeInfo& code_info,
481                                 const CodeInfoEncoding& enc) const {
482     DexRegisterLocation location =
483         GetDexRegisterLocation(dex_register_number, number_of_dex_registers, code_info, enc);
484     DCHECK(location.GetKind() == DexRegisterLocation::Kind::kInStack);
485     // GetDexRegisterLocation returns the offset in bytes.
486     return location.GetValue();
487   }
488 
GetConstant(uint16_t dex_register_number,uint16_t number_of_dex_registers,const CodeInfo & code_info,const CodeInfoEncoding & enc)489   int32_t GetConstant(uint16_t dex_register_number,
490                       uint16_t number_of_dex_registers,
491                       const CodeInfo& code_info,
492                       const CodeInfoEncoding& enc) const {
493     DexRegisterLocation location =
494         GetDexRegisterLocation(dex_register_number, number_of_dex_registers, code_info, enc);
495     DCHECK_EQ(location.GetKind(), DexRegisterLocation::Kind::kConstant);
496     return location.GetValue();
497   }
498 
GetMachineRegister(uint16_t dex_register_number,uint16_t number_of_dex_registers,const CodeInfo & code_info,const CodeInfoEncoding & enc)499   int32_t GetMachineRegister(uint16_t dex_register_number,
500                              uint16_t number_of_dex_registers,
501                              const CodeInfo& code_info,
502                              const CodeInfoEncoding& enc) const {
503     DexRegisterLocation location =
504         GetDexRegisterLocation(dex_register_number, number_of_dex_registers, code_info, enc);
505     DCHECK(location.GetInternalKind() == DexRegisterLocation::Kind::kInRegister ||
506            location.GetInternalKind() == DexRegisterLocation::Kind::kInRegisterHigh ||
507            location.GetInternalKind() == DexRegisterLocation::Kind::kInFpuRegister ||
508            location.GetInternalKind() == DexRegisterLocation::Kind::kInFpuRegisterHigh)
509         << location.GetInternalKind();
510     return location.GetValue();
511   }
512 
513   // Get the index of the entry in the Dex register location catalog
514   // corresponding to `dex_register_number`.
GetLocationCatalogEntryIndex(uint16_t dex_register_number,uint16_t number_of_dex_registers,size_t number_of_location_catalog_entries)515   size_t GetLocationCatalogEntryIndex(uint16_t dex_register_number,
516                                       uint16_t number_of_dex_registers,
517                                       size_t number_of_location_catalog_entries) const {
518     if (!IsDexRegisterLive(dex_register_number)) {
519       return DexRegisterLocationCatalog::kNoLocationEntryIndex;
520     }
521 
522     if (number_of_location_catalog_entries == 1) {
523       // We do not allocate space for location maps in the case of a
524       // single-entry location catalog, as it is useless.  The only valid
525       // entry index is 0;
526       return 0;
527     }
528 
529     // The bit offset of the beginning of the map locations.
530     size_t map_locations_offset_in_bits =
531         GetLocationMappingDataOffset(number_of_dex_registers) * kBitsPerByte;
532     size_t index_in_dex_register_map = GetIndexInDexRegisterMap(dex_register_number);
533     DCHECK_LT(index_in_dex_register_map, GetNumberOfLiveDexRegisters(number_of_dex_registers));
534     // The bit size of an entry.
535     size_t map_entry_size_in_bits = SingleEntrySizeInBits(number_of_location_catalog_entries);
536     // The bit offset where `index_in_dex_register_map` is located.
537     size_t entry_offset_in_bits =
538         map_locations_offset_in_bits + index_in_dex_register_map * map_entry_size_in_bits;
539     size_t location_catalog_entry_index =
540         region_.LoadBits(entry_offset_in_bits, map_entry_size_in_bits);
541     DCHECK_LT(location_catalog_entry_index, number_of_location_catalog_entries);
542     return location_catalog_entry_index;
543   }
544 
545   // Map entry at `index_in_dex_register_map` to `location_catalog_entry_index`.
SetLocationCatalogEntryIndex(size_t index_in_dex_register_map,size_t location_catalog_entry_index,uint16_t number_of_dex_registers,size_t number_of_location_catalog_entries)546   void SetLocationCatalogEntryIndex(size_t index_in_dex_register_map,
547                                     size_t location_catalog_entry_index,
548                                     uint16_t number_of_dex_registers,
549                                     size_t number_of_location_catalog_entries) {
550     DCHECK_LT(index_in_dex_register_map, GetNumberOfLiveDexRegisters(number_of_dex_registers));
551     DCHECK_LT(location_catalog_entry_index, number_of_location_catalog_entries);
552 
553     if (number_of_location_catalog_entries == 1) {
554       // We do not allocate space for location maps in the case of a
555       // single-entry location catalog, as it is useless.
556       return;
557     }
558 
559     // The bit offset of the beginning of the map locations.
560     size_t map_locations_offset_in_bits =
561         GetLocationMappingDataOffset(number_of_dex_registers) * kBitsPerByte;
562     // The bit size of an entry.
563     size_t map_entry_size_in_bits = SingleEntrySizeInBits(number_of_location_catalog_entries);
564     // The bit offset where `index_in_dex_register_map` is located.
565     size_t entry_offset_in_bits =
566         map_locations_offset_in_bits + index_in_dex_register_map * map_entry_size_in_bits;
567     region_.StoreBits(entry_offset_in_bits, location_catalog_entry_index, map_entry_size_in_bits);
568   }
569 
SetLiveBitMask(uint16_t number_of_dex_registers,const BitVector & live_dex_registers_mask)570   void SetLiveBitMask(uint16_t number_of_dex_registers,
571                       const BitVector& live_dex_registers_mask) {
572     size_t live_bit_mask_offset_in_bits = GetLiveBitMaskOffset() * kBitsPerByte;
573     for (uint16_t i = 0; i < number_of_dex_registers; ++i) {
574       region_.StoreBit(live_bit_mask_offset_in_bits + i, live_dex_registers_mask.IsBitSet(i));
575     }
576   }
577 
IsDexRegisterLive(uint16_t dex_register_number)578   ALWAYS_INLINE bool IsDexRegisterLive(uint16_t dex_register_number) const {
579     size_t live_bit_mask_offset_in_bits = GetLiveBitMaskOffset() * kBitsPerByte;
580     return region_.LoadBit(live_bit_mask_offset_in_bits + dex_register_number);
581   }
582 
GetNumberOfLiveDexRegisters(uint16_t number_of_dex_registers)583   size_t GetNumberOfLiveDexRegisters(uint16_t number_of_dex_registers) const {
584     size_t number_of_live_dex_registers = 0;
585     for (size_t i = 0; i < number_of_dex_registers; ++i) {
586       if (IsDexRegisterLive(i)) {
587         ++number_of_live_dex_registers;
588       }
589     }
590     return number_of_live_dex_registers;
591   }
592 
GetLiveBitMaskOffset()593   static size_t GetLiveBitMaskOffset() {
594     return kFixedSize;
595   }
596 
597   // Compute the size of the live register bit mask (in bytes), for a
598   // method having `number_of_dex_registers` Dex registers.
GetLiveBitMaskSize(uint16_t number_of_dex_registers)599   static size_t GetLiveBitMaskSize(uint16_t number_of_dex_registers) {
600     return RoundUp(number_of_dex_registers, kBitsPerByte) / kBitsPerByte;
601   }
602 
GetLocationMappingDataOffset(uint16_t number_of_dex_registers)603   static size_t GetLocationMappingDataOffset(uint16_t number_of_dex_registers) {
604     return GetLiveBitMaskOffset() + GetLiveBitMaskSize(number_of_dex_registers);
605   }
606 
GetLocationMappingDataSize(uint16_t number_of_dex_registers,size_t number_of_location_catalog_entries)607   size_t GetLocationMappingDataSize(uint16_t number_of_dex_registers,
608                                     size_t number_of_location_catalog_entries) const {
609     size_t location_mapping_data_size_in_bits =
610         GetNumberOfLiveDexRegisters(number_of_dex_registers)
611         * SingleEntrySizeInBits(number_of_location_catalog_entries);
612     return RoundUp(location_mapping_data_size_in_bits, kBitsPerByte) / kBitsPerByte;
613   }
614 
615   // Return the size of a map entry in bits.  Note that if
616   // `number_of_location_catalog_entries` equals 1, this function returns 0,
617   // which is fine, as there is no need to allocate a map for a
618   // single-entry location catalog; the only valid location catalog entry index
619   // for a live register in this case is 0 and there is no need to
620   // store it.
SingleEntrySizeInBits(size_t number_of_location_catalog_entries)621   static size_t SingleEntrySizeInBits(size_t number_of_location_catalog_entries) {
622     // Handle the case of 0, as we cannot pass 0 to art::WhichPowerOf2.
623     return number_of_location_catalog_entries == 0
624         ? 0u
625         : WhichPowerOf2(RoundUpToPowerOfTwo(number_of_location_catalog_entries));
626   }
627 
628   // Return the size of the DexRegisterMap object, in bytes.
Size()629   size_t Size() const {
630     return region_.size();
631   }
632 
633   void Dump(VariableIndentationOutputStream* vios,
634             const CodeInfo& code_info, uint16_t number_of_dex_registers) const;
635 
636  private:
637   // Return the index in the Dex register map corresponding to the Dex
638   // register number `dex_register_number`.
GetIndexInDexRegisterMap(uint16_t dex_register_number)639   size_t GetIndexInDexRegisterMap(uint16_t dex_register_number) const {
640     if (!IsDexRegisterLive(dex_register_number)) {
641       return kInvalidIndexInDexRegisterMap;
642     }
643     return GetNumberOfLiveDexRegisters(dex_register_number);
644   }
645 
646   // Special (invalid) Dex register map entry index meaning that there
647   // is no index in the map for a given Dex register (i.e., it must
648   // have been mapped to a DexRegisterLocation::Kind::kNone location).
649   static constexpr size_t kInvalidIndexInDexRegisterMap = -1;
650 
651   static constexpr int kFixedSize = 0;
652 
653   MemoryRegion region_;
654 
655   friend class CodeInfo;
656   friend class StackMapStream;
657 };
658 
659 // Represents bit range of bit-packed integer field.
660 // We reuse the idea from ULEB128p1 to support encoding of -1 (aka 0xFFFFFFFF).
661 // If min_value is set to -1, we implicitly subtract one from any loaded value,
662 // and add one to any stored value. This is generalized to any negative values.
663 // In other words, min_value acts as a base and the stored value is added to it.
664 struct FieldEncoding {
665   FieldEncoding(size_t start_offset, size_t end_offset, int32_t min_value = 0)
start_offset_FieldEncoding666       : start_offset_(start_offset), end_offset_(end_offset), min_value_(min_value) {
667     DCHECK_LE(start_offset_, end_offset_);
668     DCHECK_LE(BitSize(), 32u);
669   }
670 
BitSizeFieldEncoding671   ALWAYS_INLINE size_t BitSize() const { return end_offset_ - start_offset_; }
672 
673   template <typename Region>
LoadFieldEncoding674   ALWAYS_INLINE int32_t Load(const Region& region) const {
675     DCHECK_LE(end_offset_, region.size_in_bits());
676     return static_cast<int32_t>(region.LoadBits(start_offset_, BitSize())) + min_value_;
677   }
678 
679   template <typename Region>
StoreFieldEncoding680   ALWAYS_INLINE void Store(Region region, int32_t value) const {
681     region.StoreBits(start_offset_, value - min_value_, BitSize());
682     DCHECK_EQ(Load(region), value);
683   }
684 
685  private:
686   size_t start_offset_;
687   size_t end_offset_;
688   int32_t min_value_;
689 };
690 
691 class StackMapEncoding {
692  public:
StackMapEncoding()693   StackMapEncoding()
694       : dex_pc_bit_offset_(0),
695         dex_register_map_bit_offset_(0),
696         inline_info_bit_offset_(0),
697         register_mask_index_bit_offset_(0),
698         stack_mask_index_bit_offset_(0),
699         total_bit_size_(0) {}
700 
701   // Set stack map bit layout based on given sizes.
702   // Returns the size of stack map in bits.
SetFromSizes(size_t native_pc_max,size_t dex_pc_max,size_t dex_register_map_size,size_t number_of_inline_info,size_t number_of_register_masks,size_t number_of_stack_masks)703   size_t SetFromSizes(size_t native_pc_max,
704                       size_t dex_pc_max,
705                       size_t dex_register_map_size,
706                       size_t number_of_inline_info,
707                       size_t number_of_register_masks,
708                       size_t number_of_stack_masks) {
709     total_bit_size_ = 0;
710     DCHECK_EQ(kNativePcBitOffset, total_bit_size_);
711     total_bit_size_ += MinimumBitsToStore(native_pc_max);
712 
713     dex_pc_bit_offset_ = total_bit_size_;
714     total_bit_size_ += MinimumBitsToStore(1 /* kNoDexPc */ + dex_pc_max);
715 
716     // We also need +1 for kNoDexRegisterMap, but since the size is strictly
717     // greater than any offset we might try to encode, we already implicitly have it.
718     dex_register_map_bit_offset_ = total_bit_size_;
719     total_bit_size_ += MinimumBitsToStore(dex_register_map_size);
720 
721     // We also need +1 for kNoInlineInfo, but since the inline_info_size is strictly
722     // greater than the offset we might try to encode, we already implicitly have it.
723     // If inline_info_size is zero, we can encode only kNoInlineInfo (in zero bits).
724     inline_info_bit_offset_ = total_bit_size_;
725     total_bit_size_ += MinimumBitsToStore(number_of_inline_info);
726 
727     register_mask_index_bit_offset_ = total_bit_size_;
728     total_bit_size_ += MinimumBitsToStore(number_of_register_masks);
729 
730     stack_mask_index_bit_offset_ = total_bit_size_;
731     total_bit_size_ += MinimumBitsToStore(number_of_stack_masks);
732 
733     return total_bit_size_;
734   }
735 
GetNativePcEncoding()736   ALWAYS_INLINE FieldEncoding GetNativePcEncoding() const {
737     return FieldEncoding(kNativePcBitOffset, dex_pc_bit_offset_);
738   }
GetDexPcEncoding()739   ALWAYS_INLINE FieldEncoding GetDexPcEncoding() const {
740     return FieldEncoding(dex_pc_bit_offset_, dex_register_map_bit_offset_, -1 /* min_value */);
741   }
GetDexRegisterMapEncoding()742   ALWAYS_INLINE FieldEncoding GetDexRegisterMapEncoding() const {
743     return FieldEncoding(dex_register_map_bit_offset_, inline_info_bit_offset_, -1 /* min_value */);
744   }
GetInlineInfoEncoding()745   ALWAYS_INLINE FieldEncoding GetInlineInfoEncoding() const {
746     return FieldEncoding(inline_info_bit_offset_,
747                          register_mask_index_bit_offset_,
748                          -1 /* min_value */);
749   }
GetRegisterMaskIndexEncoding()750   ALWAYS_INLINE FieldEncoding GetRegisterMaskIndexEncoding() const {
751     return FieldEncoding(register_mask_index_bit_offset_, stack_mask_index_bit_offset_);
752   }
GetStackMaskIndexEncoding()753   ALWAYS_INLINE FieldEncoding GetStackMaskIndexEncoding() const {
754     return FieldEncoding(stack_mask_index_bit_offset_, total_bit_size_);
755   }
BitSize()756   ALWAYS_INLINE size_t BitSize() const {
757     return total_bit_size_;
758   }
759 
760   // Encode the encoding into the vector.
761   template<typename Vector>
Encode(Vector * dest)762   void Encode(Vector* dest) const {
763     static_assert(alignof(StackMapEncoding) == 1, "Should not require alignment");
764     const uint8_t* ptr = reinterpret_cast<const uint8_t*>(this);
765     dest->insert(dest->end(), ptr, ptr + sizeof(*this));
766   }
767 
768   // Decode the encoding from a pointer, updates the pointer.
Decode(const uint8_t ** ptr)769   void Decode(const uint8_t** ptr) {
770     *this = *reinterpret_cast<const StackMapEncoding*>(*ptr);
771     *ptr += sizeof(*this);
772   }
773 
774   void Dump(VariableIndentationOutputStream* vios) const;
775 
776  private:
777   static constexpr size_t kNativePcBitOffset = 0;
778   uint8_t dex_pc_bit_offset_;
779   uint8_t dex_register_map_bit_offset_;
780   uint8_t inline_info_bit_offset_;
781   uint8_t register_mask_index_bit_offset_;
782   uint8_t stack_mask_index_bit_offset_;
783   uint8_t total_bit_size_;
784 };
785 
786 /**
787  * A Stack Map holds compilation information for a specific PC necessary for:
788  * - Mapping it to a dex PC,
789  * - Knowing which stack entries are objects,
790  * - Knowing which registers hold objects,
791  * - Knowing the inlining information,
792  * - Knowing the values of dex registers.
793  *
794  * The information is of the form:
795  *
796  *   [native_pc_offset, dex_pc, dex_register_map_offset, inlining_info_index, register_mask_index,
797  *   stack_mask_index].
798  */
799 class StackMap {
800  public:
StackMap()801   StackMap() {}
StackMap(BitMemoryRegion region)802   explicit StackMap(BitMemoryRegion region) : region_(region) {}
803 
IsValid()804   ALWAYS_INLINE bool IsValid() const { return region_.pointer() != nullptr; }
805 
GetDexPc(const StackMapEncoding & encoding)806   ALWAYS_INLINE uint32_t GetDexPc(const StackMapEncoding& encoding) const {
807     return encoding.GetDexPcEncoding().Load(region_);
808   }
809 
SetDexPc(const StackMapEncoding & encoding,uint32_t dex_pc)810   ALWAYS_INLINE void SetDexPc(const StackMapEncoding& encoding, uint32_t dex_pc) {
811     encoding.GetDexPcEncoding().Store(region_, dex_pc);
812   }
813 
GetNativePcOffset(const StackMapEncoding & encoding,InstructionSet instruction_set)814   ALWAYS_INLINE uint32_t GetNativePcOffset(const StackMapEncoding& encoding,
815                                            InstructionSet instruction_set) const {
816     CodeOffset offset(
817         CodeOffset::FromCompressedOffset(encoding.GetNativePcEncoding().Load(region_)));
818     return offset.Uint32Value(instruction_set);
819   }
820 
SetNativePcCodeOffset(const StackMapEncoding & encoding,CodeOffset native_pc_offset)821   ALWAYS_INLINE void SetNativePcCodeOffset(const StackMapEncoding& encoding,
822                                            CodeOffset native_pc_offset) {
823     encoding.GetNativePcEncoding().Store(region_, native_pc_offset.CompressedValue());
824   }
825 
GetDexRegisterMapOffset(const StackMapEncoding & encoding)826   ALWAYS_INLINE uint32_t GetDexRegisterMapOffset(const StackMapEncoding& encoding) const {
827     return encoding.GetDexRegisterMapEncoding().Load(region_);
828   }
829 
SetDexRegisterMapOffset(const StackMapEncoding & encoding,uint32_t offset)830   ALWAYS_INLINE void SetDexRegisterMapOffset(const StackMapEncoding& encoding, uint32_t offset) {
831     encoding.GetDexRegisterMapEncoding().Store(region_, offset);
832   }
833 
GetInlineInfoIndex(const StackMapEncoding & encoding)834   ALWAYS_INLINE uint32_t GetInlineInfoIndex(const StackMapEncoding& encoding) const {
835     return encoding.GetInlineInfoEncoding().Load(region_);
836   }
837 
SetInlineInfoIndex(const StackMapEncoding & encoding,uint32_t index)838   ALWAYS_INLINE void SetInlineInfoIndex(const StackMapEncoding& encoding, uint32_t index) {
839     encoding.GetInlineInfoEncoding().Store(region_, index);
840   }
841 
GetRegisterMaskIndex(const StackMapEncoding & encoding)842   ALWAYS_INLINE uint32_t GetRegisterMaskIndex(const StackMapEncoding& encoding) const {
843     return encoding.GetRegisterMaskIndexEncoding().Load(region_);
844   }
845 
SetRegisterMaskIndex(const StackMapEncoding & encoding,uint32_t mask)846   ALWAYS_INLINE void SetRegisterMaskIndex(const StackMapEncoding& encoding, uint32_t mask) {
847     encoding.GetRegisterMaskIndexEncoding().Store(region_, mask);
848   }
849 
GetStackMaskIndex(const StackMapEncoding & encoding)850   ALWAYS_INLINE uint32_t GetStackMaskIndex(const StackMapEncoding& encoding) const {
851     return encoding.GetStackMaskIndexEncoding().Load(region_);
852   }
853 
SetStackMaskIndex(const StackMapEncoding & encoding,uint32_t mask)854   ALWAYS_INLINE void SetStackMaskIndex(const StackMapEncoding& encoding, uint32_t mask) {
855     encoding.GetStackMaskIndexEncoding().Store(region_, mask);
856   }
857 
HasDexRegisterMap(const StackMapEncoding & encoding)858   ALWAYS_INLINE bool HasDexRegisterMap(const StackMapEncoding& encoding) const {
859     return GetDexRegisterMapOffset(encoding) != kNoDexRegisterMap;
860   }
861 
HasInlineInfo(const StackMapEncoding & encoding)862   ALWAYS_INLINE bool HasInlineInfo(const StackMapEncoding& encoding) const {
863     return GetInlineInfoIndex(encoding) != kNoInlineInfo;
864   }
865 
Equals(const StackMap & other)866   ALWAYS_INLINE bool Equals(const StackMap& other) const {
867     return region_.pointer() == other.region_.pointer() &&
868            region_.size() == other.region_.size() &&
869            region_.BitOffset() == other.region_.BitOffset();
870   }
871 
872   void Dump(VariableIndentationOutputStream* vios,
873             const CodeInfo& code_info,
874             const CodeInfoEncoding& encoding,
875             const MethodInfo& method_info,
876             uint32_t code_offset,
877             uint16_t number_of_dex_registers,
878             InstructionSet instruction_set,
879             const std::string& header_suffix = "") const;
880 
881   // Special (invalid) offset for the DexRegisterMapOffset field meaning
882   // that there is no Dex register map for this stack map.
883   static constexpr uint32_t kNoDexRegisterMap = -1;
884 
885   // Special (invalid) offset for the InlineDescriptorOffset field meaning
886   // that there is no inline info for this stack map.
887   static constexpr uint32_t kNoInlineInfo = -1;
888 
889  private:
890   static constexpr int kFixedSize = 0;
891 
892   BitMemoryRegion region_;
893 
894   friend class StackMapStream;
895 };
896 
897 class InlineInfoEncoding {
898  public:
SetFromSizes(size_t method_index_idx_max,size_t dex_pc_max,size_t extra_data_max,size_t dex_register_map_size)899   void SetFromSizes(size_t method_index_idx_max,
900                     size_t dex_pc_max,
901                     size_t extra_data_max,
902                     size_t dex_register_map_size) {
903     total_bit_size_ = kMethodIndexBitOffset;
904     total_bit_size_ += MinimumBitsToStore(method_index_idx_max);
905 
906     dex_pc_bit_offset_ = dchecked_integral_cast<uint8_t>(total_bit_size_);
907     // Note: We're not encoding the dex pc if there is none. That's the case
908     // for an intrinsified native method, such as String.charAt().
909     if (dex_pc_max != DexFile::kDexNoIndex) {
910       total_bit_size_ += MinimumBitsToStore(1 /* kNoDexPc */ + dex_pc_max);
911     }
912 
913     extra_data_bit_offset_ = dchecked_integral_cast<uint8_t>(total_bit_size_);
914     total_bit_size_ += MinimumBitsToStore(extra_data_max);
915 
916     // We also need +1 for kNoDexRegisterMap, but since the size is strictly
917     // greater than any offset we might try to encode, we already implicitly have it.
918     dex_register_map_bit_offset_ = dchecked_integral_cast<uint8_t>(total_bit_size_);
919     total_bit_size_ += MinimumBitsToStore(dex_register_map_size);
920   }
921 
GetMethodIndexIdxEncoding()922   ALWAYS_INLINE FieldEncoding GetMethodIndexIdxEncoding() const {
923     return FieldEncoding(kMethodIndexBitOffset, dex_pc_bit_offset_);
924   }
GetDexPcEncoding()925   ALWAYS_INLINE FieldEncoding GetDexPcEncoding() const {
926     return FieldEncoding(dex_pc_bit_offset_, extra_data_bit_offset_, -1 /* min_value */);
927   }
GetExtraDataEncoding()928   ALWAYS_INLINE FieldEncoding GetExtraDataEncoding() const {
929     return FieldEncoding(extra_data_bit_offset_, dex_register_map_bit_offset_);
930   }
GetDexRegisterMapEncoding()931   ALWAYS_INLINE FieldEncoding GetDexRegisterMapEncoding() const {
932     return FieldEncoding(dex_register_map_bit_offset_, total_bit_size_, -1 /* min_value */);
933   }
BitSize()934   ALWAYS_INLINE size_t BitSize() const {
935     return total_bit_size_;
936   }
937 
938   void Dump(VariableIndentationOutputStream* vios) const;
939 
940   // Encode the encoding into the vector.
941   template<typename Vector>
Encode(Vector * dest)942   void Encode(Vector* dest) const {
943     static_assert(alignof(InlineInfoEncoding) == 1, "Should not require alignment");
944     const uint8_t* ptr = reinterpret_cast<const uint8_t*>(this);
945     dest->insert(dest->end(), ptr, ptr + sizeof(*this));
946   }
947 
948   // Decode the encoding from a pointer, updates the pointer.
Decode(const uint8_t ** ptr)949   void Decode(const uint8_t** ptr) {
950     *this = *reinterpret_cast<const InlineInfoEncoding*>(*ptr);
951     *ptr += sizeof(*this);
952   }
953 
954  private:
955   static constexpr uint8_t kIsLastBitOffset = 0;
956   static constexpr uint8_t kMethodIndexBitOffset = 1;
957   uint8_t dex_pc_bit_offset_;
958   uint8_t extra_data_bit_offset_;
959   uint8_t dex_register_map_bit_offset_;
960   uint8_t total_bit_size_;
961 };
962 
963 /**
964  * Inline information for a specific PC. The information is of the form:
965  *
966  *   [is_last,
967  *    method_index (or ArtMethod high bits),
968  *    dex_pc,
969  *    extra_data (ArtMethod low bits or 1),
970  *    dex_register_map_offset]+.
971  */
972 class InlineInfo {
973  public:
InlineInfo(BitMemoryRegion region)974   explicit InlineInfo(BitMemoryRegion region) : region_(region) {}
975 
GetDepth(const InlineInfoEncoding & encoding)976   ALWAYS_INLINE uint32_t GetDepth(const InlineInfoEncoding& encoding) const {
977     size_t depth = 0;
978     while (!GetRegionAtDepth(encoding, depth++).LoadBit(0)) { }  // Check is_last bit.
979     return depth;
980   }
981 
SetDepth(const InlineInfoEncoding & encoding,uint32_t depth)982   ALWAYS_INLINE void SetDepth(const InlineInfoEncoding& encoding, uint32_t depth) {
983     DCHECK_GT(depth, 0u);
984     for (size_t d = 0; d < depth; ++d) {
985       GetRegionAtDepth(encoding, d).StoreBit(0, d == depth - 1);  // Set is_last bit.
986     }
987   }
988 
GetMethodIndexIdxAtDepth(const InlineInfoEncoding & encoding,uint32_t depth)989   ALWAYS_INLINE uint32_t GetMethodIndexIdxAtDepth(const InlineInfoEncoding& encoding,
990                                                   uint32_t depth) const {
991     DCHECK(!EncodesArtMethodAtDepth(encoding, depth));
992     return encoding.GetMethodIndexIdxEncoding().Load(GetRegionAtDepth(encoding, depth));
993   }
994 
SetMethodIndexIdxAtDepth(const InlineInfoEncoding & encoding,uint32_t depth,uint32_t index)995   ALWAYS_INLINE void SetMethodIndexIdxAtDepth(const InlineInfoEncoding& encoding,
996                                               uint32_t depth,
997                                               uint32_t index) {
998     encoding.GetMethodIndexIdxEncoding().Store(GetRegionAtDepth(encoding, depth), index);
999   }
1000 
1001 
GetMethodIndexAtDepth(const InlineInfoEncoding & encoding,const MethodInfo & method_info,uint32_t depth)1002   ALWAYS_INLINE uint32_t GetMethodIndexAtDepth(const InlineInfoEncoding& encoding,
1003                                                const MethodInfo& method_info,
1004                                                uint32_t depth) const {
1005     return method_info.GetMethodIndex(GetMethodIndexIdxAtDepth(encoding, depth));
1006   }
1007 
GetDexPcAtDepth(const InlineInfoEncoding & encoding,uint32_t depth)1008   ALWAYS_INLINE uint32_t GetDexPcAtDepth(const InlineInfoEncoding& encoding,
1009                                          uint32_t depth) const {
1010     return encoding.GetDexPcEncoding().Load(GetRegionAtDepth(encoding, depth));
1011   }
1012 
SetDexPcAtDepth(const InlineInfoEncoding & encoding,uint32_t depth,uint32_t dex_pc)1013   ALWAYS_INLINE void SetDexPcAtDepth(const InlineInfoEncoding& encoding,
1014                                      uint32_t depth,
1015                                      uint32_t dex_pc) {
1016     encoding.GetDexPcEncoding().Store(GetRegionAtDepth(encoding, depth), dex_pc);
1017   }
1018 
EncodesArtMethodAtDepth(const InlineInfoEncoding & encoding,uint32_t depth)1019   ALWAYS_INLINE bool EncodesArtMethodAtDepth(const InlineInfoEncoding& encoding,
1020                                              uint32_t depth) const {
1021     return (encoding.GetExtraDataEncoding().Load(GetRegionAtDepth(encoding, depth)) & 1) == 0;
1022   }
1023 
SetExtraDataAtDepth(const InlineInfoEncoding & encoding,uint32_t depth,uint32_t extra_data)1024   ALWAYS_INLINE void SetExtraDataAtDepth(const InlineInfoEncoding& encoding,
1025                                          uint32_t depth,
1026                                          uint32_t extra_data) {
1027     encoding.GetExtraDataEncoding().Store(GetRegionAtDepth(encoding, depth), extra_data);
1028   }
1029 
GetArtMethodAtDepth(const InlineInfoEncoding & encoding,uint32_t depth)1030   ALWAYS_INLINE ArtMethod* GetArtMethodAtDepth(const InlineInfoEncoding& encoding,
1031                                                uint32_t depth) const {
1032     uint32_t low_bits = encoding.GetExtraDataEncoding().Load(GetRegionAtDepth(encoding, depth));
1033     uint32_t high_bits = encoding.GetMethodIndexIdxEncoding().Load(
1034         GetRegionAtDepth(encoding, depth));
1035     if (high_bits == 0) {
1036       return reinterpret_cast<ArtMethod*>(low_bits);
1037     } else {
1038       uint64_t address = high_bits;
1039       address = address << 32;
1040       return reinterpret_cast<ArtMethod*>(address | low_bits);
1041     }
1042   }
1043 
GetDexRegisterMapOffsetAtDepth(const InlineInfoEncoding & encoding,uint32_t depth)1044   ALWAYS_INLINE uint32_t GetDexRegisterMapOffsetAtDepth(const InlineInfoEncoding& encoding,
1045                                                         uint32_t depth) const {
1046     return encoding.GetDexRegisterMapEncoding().Load(GetRegionAtDepth(encoding, depth));
1047   }
1048 
SetDexRegisterMapOffsetAtDepth(const InlineInfoEncoding & encoding,uint32_t depth,uint32_t offset)1049   ALWAYS_INLINE void SetDexRegisterMapOffsetAtDepth(const InlineInfoEncoding& encoding,
1050                                                     uint32_t depth,
1051                                                     uint32_t offset) {
1052     encoding.GetDexRegisterMapEncoding().Store(GetRegionAtDepth(encoding, depth), offset);
1053   }
1054 
HasDexRegisterMapAtDepth(const InlineInfoEncoding & encoding,uint32_t depth)1055   ALWAYS_INLINE bool HasDexRegisterMapAtDepth(const InlineInfoEncoding& encoding,
1056                                               uint32_t depth) const {
1057     return GetDexRegisterMapOffsetAtDepth(encoding, depth) != StackMap::kNoDexRegisterMap;
1058   }
1059 
1060   void Dump(VariableIndentationOutputStream* vios,
1061             const CodeInfo& info,
1062             const MethodInfo& method_info,
1063             uint16_t* number_of_dex_registers) const;
1064 
1065  private:
GetRegionAtDepth(const InlineInfoEncoding & encoding,uint32_t depth)1066   ALWAYS_INLINE BitMemoryRegion GetRegionAtDepth(const InlineInfoEncoding& encoding,
1067                                                  uint32_t depth) const {
1068     size_t entry_size = encoding.BitSize();
1069     DCHECK_GT(entry_size, 0u);
1070     return region_.Subregion(depth * entry_size, entry_size);
1071   }
1072 
1073   BitMemoryRegion region_;
1074 };
1075 
1076 // Bit sized region encoding, may be more than 255 bits.
1077 class BitRegionEncoding {
1078  public:
1079   uint32_t num_bits = 0;
1080 
BitSize()1081   ALWAYS_INLINE size_t BitSize() const {
1082     return num_bits;
1083   }
1084 
1085   template<typename Vector>
Encode(Vector * dest)1086   void Encode(Vector* dest) const {
1087     EncodeUnsignedLeb128(dest, num_bits);  // Use leb in case num_bits is greater than 255.
1088   }
1089 
Decode(const uint8_t ** ptr)1090   void Decode(const uint8_t** ptr) {
1091     num_bits = DecodeUnsignedLeb128(ptr);
1092   }
1093 };
1094 
1095 // A table of bit sized encodings.
1096 template <typename Encoding>
1097 struct BitEncodingTable {
1098   static constexpr size_t kInvalidOffset = static_cast<size_t>(-1);
1099   // How the encoding is laid out (serialized).
1100   Encoding encoding;
1101 
1102   // Number of entries in the table (serialized).
1103   size_t num_entries;
1104 
1105   // Bit offset for the base of the table (computed).
1106   size_t bit_offset = kInvalidOffset;
1107 
1108   template<typename Vector>
EncodeBitEncodingTable1109   void Encode(Vector* dest) const {
1110     EncodeUnsignedLeb128(dest, num_entries);
1111     encoding.Encode(dest);
1112   }
1113 
DecodeBitEncodingTable1114   ALWAYS_INLINE void Decode(const uint8_t** ptr) {
1115     num_entries = DecodeUnsignedLeb128(ptr);
1116     encoding.Decode(ptr);
1117   }
1118 
1119   // Set the bit offset in the table and adds the space used by the table to offset.
UpdateBitOffsetBitEncodingTable1120   void UpdateBitOffset(size_t* offset) {
1121     DCHECK(offset != nullptr);
1122     bit_offset = *offset;
1123     *offset += encoding.BitSize() * num_entries;
1124   }
1125 
1126   // Return the bit region for the map at index i.
BitRegionBitEncodingTable1127   ALWAYS_INLINE BitMemoryRegion BitRegion(MemoryRegion region, size_t index) const {
1128     DCHECK_NE(bit_offset, kInvalidOffset) << "Invalid table offset";
1129     DCHECK_LT(index, num_entries);
1130     const size_t map_size = encoding.BitSize();
1131     return BitMemoryRegion(region, bit_offset + index * map_size, map_size);
1132   }
1133 };
1134 
1135 // A byte sized table of possible variable sized encodings.
1136 struct ByteSizedTable {
1137   static constexpr size_t kInvalidOffset = static_cast<size_t>(-1);
1138 
1139   // Number of entries in the table (serialized).
1140   size_t num_entries = 0;
1141 
1142   // Number of bytes of the table (serialized).
1143   size_t num_bytes;
1144 
1145   // Bit offset for the base of the table (computed).
1146   size_t byte_offset = kInvalidOffset;
1147 
1148   template<typename Vector>
EncodeByteSizedTable1149   void Encode(Vector* dest) const {
1150     EncodeUnsignedLeb128(dest, num_entries);
1151     EncodeUnsignedLeb128(dest, num_bytes);
1152   }
1153 
DecodeByteSizedTable1154   ALWAYS_INLINE void Decode(const uint8_t** ptr) {
1155     num_entries = DecodeUnsignedLeb128(ptr);
1156     num_bytes = DecodeUnsignedLeb128(ptr);
1157   }
1158 
1159   // Set the bit offset of the table. Adds the total bit size of the table to offset.
UpdateBitOffsetByteSizedTable1160   void UpdateBitOffset(size_t* offset) {
1161     DCHECK(offset != nullptr);
1162     DCHECK_ALIGNED(*offset, kBitsPerByte);
1163     byte_offset = *offset / kBitsPerByte;
1164     *offset += num_bytes * kBitsPerByte;
1165   }
1166 };
1167 
1168 // Format is [native pc, invoke type, method index].
1169 class InvokeInfoEncoding {
1170  public:
SetFromSizes(size_t native_pc_max,size_t invoke_type_max,size_t method_index_max)1171   void SetFromSizes(size_t native_pc_max,
1172                     size_t invoke_type_max,
1173                     size_t method_index_max) {
1174     total_bit_size_ = 0;
1175     DCHECK_EQ(kNativePcBitOffset, total_bit_size_);
1176     total_bit_size_ += MinimumBitsToStore(native_pc_max);
1177     invoke_type_bit_offset_ = total_bit_size_;
1178     total_bit_size_ += MinimumBitsToStore(invoke_type_max);
1179     method_index_bit_offset_ = total_bit_size_;
1180     total_bit_size_ += MinimumBitsToStore(method_index_max);
1181   }
1182 
GetNativePcEncoding()1183   ALWAYS_INLINE FieldEncoding GetNativePcEncoding() const {
1184     return FieldEncoding(kNativePcBitOffset, invoke_type_bit_offset_);
1185   }
1186 
GetInvokeTypeEncoding()1187   ALWAYS_INLINE FieldEncoding GetInvokeTypeEncoding() const {
1188     return FieldEncoding(invoke_type_bit_offset_, method_index_bit_offset_);
1189   }
1190 
GetMethodIndexEncoding()1191   ALWAYS_INLINE FieldEncoding GetMethodIndexEncoding() const {
1192     return FieldEncoding(method_index_bit_offset_, total_bit_size_);
1193   }
1194 
BitSize()1195   ALWAYS_INLINE size_t BitSize() const {
1196     return total_bit_size_;
1197   }
1198 
1199   template<typename Vector>
Encode(Vector * dest)1200   void Encode(Vector* dest) const {
1201     static_assert(alignof(InvokeInfoEncoding) == 1, "Should not require alignment");
1202     const uint8_t* ptr = reinterpret_cast<const uint8_t*>(this);
1203     dest->insert(dest->end(), ptr, ptr + sizeof(*this));
1204   }
1205 
Decode(const uint8_t ** ptr)1206   void Decode(const uint8_t** ptr) {
1207     *this = *reinterpret_cast<const InvokeInfoEncoding*>(*ptr);
1208     *ptr += sizeof(*this);
1209   }
1210 
1211  private:
1212   static constexpr uint8_t kNativePcBitOffset = 0;
1213   uint8_t invoke_type_bit_offset_;
1214   uint8_t method_index_bit_offset_;
1215   uint8_t total_bit_size_;
1216 };
1217 
1218 class InvokeInfo {
1219  public:
InvokeInfo(BitMemoryRegion region)1220   explicit InvokeInfo(BitMemoryRegion region) : region_(region) {}
1221 
GetNativePcOffset(const InvokeInfoEncoding & encoding,InstructionSet instruction_set)1222   ALWAYS_INLINE uint32_t GetNativePcOffset(const InvokeInfoEncoding& encoding,
1223                                            InstructionSet instruction_set) const {
1224     CodeOffset offset(
1225         CodeOffset::FromCompressedOffset(encoding.GetNativePcEncoding().Load(region_)));
1226     return offset.Uint32Value(instruction_set);
1227   }
1228 
SetNativePcCodeOffset(const InvokeInfoEncoding & encoding,CodeOffset native_pc_offset)1229   ALWAYS_INLINE void SetNativePcCodeOffset(const InvokeInfoEncoding& encoding,
1230                                            CodeOffset native_pc_offset) {
1231     encoding.GetNativePcEncoding().Store(region_, native_pc_offset.CompressedValue());
1232   }
1233 
GetInvokeType(const InvokeInfoEncoding & encoding)1234   ALWAYS_INLINE uint32_t GetInvokeType(const InvokeInfoEncoding& encoding) const {
1235     return encoding.GetInvokeTypeEncoding().Load(region_);
1236   }
1237 
SetInvokeType(const InvokeInfoEncoding & encoding,uint32_t invoke_type)1238   ALWAYS_INLINE void SetInvokeType(const InvokeInfoEncoding& encoding, uint32_t invoke_type) {
1239     encoding.GetInvokeTypeEncoding().Store(region_, invoke_type);
1240   }
1241 
GetMethodIndexIdx(const InvokeInfoEncoding & encoding)1242   ALWAYS_INLINE uint32_t GetMethodIndexIdx(const InvokeInfoEncoding& encoding) const {
1243     return encoding.GetMethodIndexEncoding().Load(region_);
1244   }
1245 
SetMethodIndexIdx(const InvokeInfoEncoding & encoding,uint32_t method_index_idx)1246   ALWAYS_INLINE void SetMethodIndexIdx(const InvokeInfoEncoding& encoding,
1247                                        uint32_t method_index_idx) {
1248     encoding.GetMethodIndexEncoding().Store(region_, method_index_idx);
1249   }
1250 
GetMethodIndex(const InvokeInfoEncoding & encoding,MethodInfo method_info)1251   ALWAYS_INLINE uint32_t GetMethodIndex(const InvokeInfoEncoding& encoding,
1252                                         MethodInfo method_info) const {
1253     return method_info.GetMethodIndex(GetMethodIndexIdx(encoding));
1254   }
1255 
IsValid()1256   bool IsValid() const { return region_.pointer() != nullptr; }
1257 
1258  private:
1259   BitMemoryRegion region_;
1260 };
1261 
1262 // Most of the fields are encoded as ULEB128 to save space.
1263 struct CodeInfoEncoding {
1264   using SizeType = uint32_t;
1265 
1266   static constexpr SizeType kInvalidSize = std::numeric_limits<SizeType>::max();
1267 
1268   // Byte sized tables go first to avoid unnecessary alignment bits.
1269   ByteSizedTable dex_register_map;
1270   ByteSizedTable location_catalog;
1271   BitEncodingTable<StackMapEncoding> stack_map;
1272   BitEncodingTable<BitRegionEncoding> register_mask;
1273   BitEncodingTable<BitRegionEncoding> stack_mask;
1274   BitEncodingTable<InvokeInfoEncoding> invoke_info;
1275   BitEncodingTable<InlineInfoEncoding> inline_info;
1276 
CodeInfoEncodingCodeInfoEncoding1277   CodeInfoEncoding() {}
1278 
CodeInfoEncodingCodeInfoEncoding1279   explicit CodeInfoEncoding(const void* data) {
1280     const uint8_t* ptr = reinterpret_cast<const uint8_t*>(data);
1281     dex_register_map.Decode(&ptr);
1282     location_catalog.Decode(&ptr);
1283     stack_map.Decode(&ptr);
1284     register_mask.Decode(&ptr);
1285     stack_mask.Decode(&ptr);
1286     invoke_info.Decode(&ptr);
1287     if (stack_map.encoding.GetInlineInfoEncoding().BitSize() > 0) {
1288       inline_info.Decode(&ptr);
1289     } else {
1290       inline_info = BitEncodingTable<InlineInfoEncoding>();
1291     }
1292     cache_header_size =
1293         dchecked_integral_cast<SizeType>(ptr - reinterpret_cast<const uint8_t*>(data));
1294     ComputeTableOffsets();
1295   }
1296 
1297   // Compress is not const since it calculates cache_header_size. This is used by PrepareForFillIn.
1298   template<typename Vector>
CompressCodeInfoEncoding1299   void Compress(Vector* dest) {
1300     dex_register_map.Encode(dest);
1301     location_catalog.Encode(dest);
1302     stack_map.Encode(dest);
1303     register_mask.Encode(dest);
1304     stack_mask.Encode(dest);
1305     invoke_info.Encode(dest);
1306     if (stack_map.encoding.GetInlineInfoEncoding().BitSize() > 0) {
1307       inline_info.Encode(dest);
1308     }
1309     cache_header_size = dest->size();
1310   }
1311 
ComputeTableOffsetsCodeInfoEncoding1312   ALWAYS_INLINE void ComputeTableOffsets() {
1313     // Skip the header.
1314     size_t bit_offset = HeaderSize() * kBitsPerByte;
1315     // The byte tables must be aligned so they must go first.
1316     dex_register_map.UpdateBitOffset(&bit_offset);
1317     location_catalog.UpdateBitOffset(&bit_offset);
1318     // Other tables don't require alignment.
1319     stack_map.UpdateBitOffset(&bit_offset);
1320     register_mask.UpdateBitOffset(&bit_offset);
1321     stack_mask.UpdateBitOffset(&bit_offset);
1322     invoke_info.UpdateBitOffset(&bit_offset);
1323     inline_info.UpdateBitOffset(&bit_offset);
1324     cache_non_header_size = RoundUp(bit_offset, kBitsPerByte) / kBitsPerByte - HeaderSize();
1325   }
1326 
HeaderSizeCodeInfoEncoding1327   ALWAYS_INLINE size_t HeaderSize() const {
1328     DCHECK_NE(cache_header_size, kInvalidSize) << "Uninitialized";
1329     return cache_header_size;
1330   }
1331 
NonHeaderSizeCodeInfoEncoding1332   ALWAYS_INLINE size_t NonHeaderSize() const {
1333     DCHECK_NE(cache_non_header_size, kInvalidSize) << "Uninitialized";
1334     return cache_non_header_size;
1335   }
1336 
1337  private:
1338   // Computed fields (not serialized).
1339   // Header size in bytes, cached to avoid needing to re-decoding the encoding in HeaderSize.
1340   SizeType cache_header_size = kInvalidSize;
1341   // Non header size in bytes, cached to avoid needing to re-decoding the encoding in NonHeaderSize.
1342   SizeType cache_non_header_size = kInvalidSize;
1343 };
1344 
1345 /**
1346  * Wrapper around all compiler information collected for a method.
1347  * The information is of the form:
1348  *
1349  *   [CodeInfoEncoding, DexRegisterMap+, DexLocationCatalog+, StackMap+, RegisterMask+, StackMask+,
1350  *    InlineInfo*]
1351  *
1352  * where CodeInfoEncoding is of the form:
1353  *
1354  *   [ByteSizedTable(dex_register_map), ByteSizedTable(location_catalog),
1355  *    BitEncodingTable<StackMapEncoding>, BitEncodingTable<BitRegionEncoding>,
1356  *    BitEncodingTable<BitRegionEncoding>, BitEncodingTable<InlineInfoEncoding>]
1357  */
1358 class CodeInfo {
1359  public:
CodeInfo(MemoryRegion region)1360   explicit CodeInfo(MemoryRegion region) : region_(region) {
1361   }
1362 
CodeInfo(const void * data)1363   explicit CodeInfo(const void* data) {
1364     CodeInfoEncoding encoding = CodeInfoEncoding(data);
1365     region_ = MemoryRegion(const_cast<void*>(data),
1366                            encoding.HeaderSize() + encoding.NonHeaderSize());
1367   }
1368 
ExtractEncoding()1369   CodeInfoEncoding ExtractEncoding() const {
1370     CodeInfoEncoding encoding(region_.begin());
1371     AssertValidStackMap(encoding);
1372     return encoding;
1373   }
1374 
HasInlineInfo(const CodeInfoEncoding & encoding)1375   bool HasInlineInfo(const CodeInfoEncoding& encoding) const {
1376     return encoding.stack_map.encoding.GetInlineInfoEncoding().BitSize() > 0;
1377   }
1378 
GetDexRegisterLocationCatalog(const CodeInfoEncoding & encoding)1379   DexRegisterLocationCatalog GetDexRegisterLocationCatalog(const CodeInfoEncoding& encoding) const {
1380     return DexRegisterLocationCatalog(region_.Subregion(encoding.location_catalog.byte_offset,
1381                                                         encoding.location_catalog.num_bytes));
1382   }
1383 
GetNumberOfStackMaskBits(const CodeInfoEncoding & encoding)1384   ALWAYS_INLINE size_t GetNumberOfStackMaskBits(const CodeInfoEncoding& encoding) const {
1385     return encoding.stack_mask.encoding.BitSize();
1386   }
1387 
GetStackMapAt(size_t index,const CodeInfoEncoding & encoding)1388   ALWAYS_INLINE StackMap GetStackMapAt(size_t index, const CodeInfoEncoding& encoding) const {
1389     return StackMap(encoding.stack_map.BitRegion(region_, index));
1390   }
1391 
GetStackMask(size_t index,const CodeInfoEncoding & encoding)1392   BitMemoryRegion GetStackMask(size_t index, const CodeInfoEncoding& encoding) const {
1393     return encoding.stack_mask.BitRegion(region_, index);
1394   }
1395 
GetStackMaskOf(const CodeInfoEncoding & encoding,const StackMap & stack_map)1396   BitMemoryRegion GetStackMaskOf(const CodeInfoEncoding& encoding,
1397                                  const StackMap& stack_map) const {
1398     return GetStackMask(stack_map.GetStackMaskIndex(encoding.stack_map.encoding), encoding);
1399   }
1400 
GetRegisterMask(size_t index,const CodeInfoEncoding & encoding)1401   BitMemoryRegion GetRegisterMask(size_t index, const CodeInfoEncoding& encoding) const {
1402     return encoding.register_mask.BitRegion(region_, index);
1403   }
1404 
GetRegisterMaskOf(const CodeInfoEncoding & encoding,const StackMap & stack_map)1405   uint32_t GetRegisterMaskOf(const CodeInfoEncoding& encoding, const StackMap& stack_map) const {
1406     size_t index = stack_map.GetRegisterMaskIndex(encoding.stack_map.encoding);
1407     return GetRegisterMask(index, encoding).LoadBits(0u, encoding.register_mask.encoding.BitSize());
1408   }
1409 
GetNumberOfLocationCatalogEntries(const CodeInfoEncoding & encoding)1410   uint32_t GetNumberOfLocationCatalogEntries(const CodeInfoEncoding& encoding) const {
1411     return encoding.location_catalog.num_entries;
1412   }
1413 
GetDexRegisterLocationCatalogSize(const CodeInfoEncoding & encoding)1414   uint32_t GetDexRegisterLocationCatalogSize(const CodeInfoEncoding& encoding) const {
1415     return encoding.location_catalog.num_bytes;
1416   }
1417 
GetNumberOfStackMaps(const CodeInfoEncoding & encoding)1418   uint32_t GetNumberOfStackMaps(const CodeInfoEncoding& encoding) const {
1419     return encoding.stack_map.num_entries;
1420   }
1421 
1422   // Get the size of all the stack maps of this CodeInfo object, in bits. Not byte aligned.
GetStackMapsSizeInBits(const CodeInfoEncoding & encoding)1423   ALWAYS_INLINE size_t GetStackMapsSizeInBits(const CodeInfoEncoding& encoding) const {
1424     return encoding.stack_map.encoding.BitSize() * GetNumberOfStackMaps(encoding);
1425   }
1426 
GetInvokeInfo(const CodeInfoEncoding & encoding,size_t index)1427   InvokeInfo GetInvokeInfo(const CodeInfoEncoding& encoding, size_t index) const {
1428     return InvokeInfo(encoding.invoke_info.BitRegion(region_, index));
1429   }
1430 
GetDexRegisterMapOf(StackMap stack_map,const CodeInfoEncoding & encoding,size_t number_of_dex_registers)1431   DexRegisterMap GetDexRegisterMapOf(StackMap stack_map,
1432                                      const CodeInfoEncoding& encoding,
1433                                      size_t number_of_dex_registers) const {
1434     if (!stack_map.HasDexRegisterMap(encoding.stack_map.encoding)) {
1435       return DexRegisterMap();
1436     }
1437     const uint32_t offset = encoding.dex_register_map.byte_offset +
1438         stack_map.GetDexRegisterMapOffset(encoding.stack_map.encoding);
1439     size_t size = ComputeDexRegisterMapSizeOf(encoding, offset, number_of_dex_registers);
1440     return DexRegisterMap(region_.Subregion(offset, size));
1441   }
1442 
GetDexRegisterMapsSize(const CodeInfoEncoding & encoding,uint32_t number_of_dex_registers)1443   size_t GetDexRegisterMapsSize(const CodeInfoEncoding& encoding,
1444                                 uint32_t number_of_dex_registers) const {
1445     size_t total = 0;
1446     for (size_t i = 0, e = GetNumberOfStackMaps(encoding); i < e; ++i) {
1447       StackMap stack_map = GetStackMapAt(i, encoding);
1448       DexRegisterMap map(GetDexRegisterMapOf(stack_map, encoding, number_of_dex_registers));
1449       total += map.Size();
1450     }
1451     return total;
1452   }
1453 
1454   // Return the `DexRegisterMap` pointed by `inline_info` at depth `depth`.
GetDexRegisterMapAtDepth(uint8_t depth,InlineInfo inline_info,const CodeInfoEncoding & encoding,uint32_t number_of_dex_registers)1455   DexRegisterMap GetDexRegisterMapAtDepth(uint8_t depth,
1456                                           InlineInfo inline_info,
1457                                           const CodeInfoEncoding& encoding,
1458                                           uint32_t number_of_dex_registers) const {
1459     if (!inline_info.HasDexRegisterMapAtDepth(encoding.inline_info.encoding, depth)) {
1460       return DexRegisterMap();
1461     } else {
1462       uint32_t offset = encoding.dex_register_map.byte_offset +
1463           inline_info.GetDexRegisterMapOffsetAtDepth(encoding.inline_info.encoding, depth);
1464       size_t size = ComputeDexRegisterMapSizeOf(encoding, offset, number_of_dex_registers);
1465       return DexRegisterMap(region_.Subregion(offset, size));
1466     }
1467   }
1468 
GetInlineInfo(size_t index,const CodeInfoEncoding & encoding)1469   InlineInfo GetInlineInfo(size_t index, const CodeInfoEncoding& encoding) const {
1470     // Since we do not know the depth, we just return the whole remaining map. The caller may
1471     // access the inline info for arbitrary depths. To return the precise inline info we would need
1472     // to count the depth before returning.
1473     // TODO: Clean this up.
1474     const size_t bit_offset = encoding.inline_info.bit_offset +
1475         index * encoding.inline_info.encoding.BitSize();
1476     return InlineInfo(BitMemoryRegion(region_, bit_offset, region_.size_in_bits() - bit_offset));
1477   }
1478 
GetInlineInfoOf(StackMap stack_map,const CodeInfoEncoding & encoding)1479   InlineInfo GetInlineInfoOf(StackMap stack_map, const CodeInfoEncoding& encoding) const {
1480     DCHECK(stack_map.HasInlineInfo(encoding.stack_map.encoding));
1481     uint32_t index = stack_map.GetInlineInfoIndex(encoding.stack_map.encoding);
1482     return GetInlineInfo(index, encoding);
1483   }
1484 
GetStackMapForDexPc(uint32_t dex_pc,const CodeInfoEncoding & encoding)1485   StackMap GetStackMapForDexPc(uint32_t dex_pc, const CodeInfoEncoding& encoding) const {
1486     for (size_t i = 0, e = GetNumberOfStackMaps(encoding); i < e; ++i) {
1487       StackMap stack_map = GetStackMapAt(i, encoding);
1488       if (stack_map.GetDexPc(encoding.stack_map.encoding) == dex_pc) {
1489         return stack_map;
1490       }
1491     }
1492     return StackMap();
1493   }
1494 
1495   // Searches the stack map list backwards because catch stack maps are stored
1496   // at the end.
GetCatchStackMapForDexPc(uint32_t dex_pc,const CodeInfoEncoding & encoding)1497   StackMap GetCatchStackMapForDexPc(uint32_t dex_pc, const CodeInfoEncoding& encoding) const {
1498     for (size_t i = GetNumberOfStackMaps(encoding); i > 0; --i) {
1499       StackMap stack_map = GetStackMapAt(i - 1, encoding);
1500       if (stack_map.GetDexPc(encoding.stack_map.encoding) == dex_pc) {
1501         return stack_map;
1502       }
1503     }
1504     return StackMap();
1505   }
1506 
GetOsrStackMapForDexPc(uint32_t dex_pc,const CodeInfoEncoding & encoding)1507   StackMap GetOsrStackMapForDexPc(uint32_t dex_pc, const CodeInfoEncoding& encoding) const {
1508     size_t e = GetNumberOfStackMaps(encoding);
1509     if (e == 0) {
1510       // There cannot be OSR stack map if there is no stack map.
1511       return StackMap();
1512     }
1513     // Walk over all stack maps. If two consecutive stack maps are identical, then we
1514     // have found a stack map suitable for OSR.
1515     const StackMapEncoding& stack_map_encoding = encoding.stack_map.encoding;
1516     for (size_t i = 0; i < e - 1; ++i) {
1517       StackMap stack_map = GetStackMapAt(i, encoding);
1518       if (stack_map.GetDexPc(stack_map_encoding) == dex_pc) {
1519         StackMap other = GetStackMapAt(i + 1, encoding);
1520         if (other.GetDexPc(stack_map_encoding) == dex_pc &&
1521             other.GetNativePcOffset(stack_map_encoding, kRuntimeISA) ==
1522                 stack_map.GetNativePcOffset(stack_map_encoding, kRuntimeISA)) {
1523           DCHECK_EQ(other.GetDexRegisterMapOffset(stack_map_encoding),
1524                     stack_map.GetDexRegisterMapOffset(stack_map_encoding));
1525           DCHECK(!stack_map.HasInlineInfo(stack_map_encoding));
1526           if (i < e - 2) {
1527             // Make sure there are not three identical stack maps following each other.
1528             DCHECK_NE(
1529                 stack_map.GetNativePcOffset(stack_map_encoding, kRuntimeISA),
1530                 GetStackMapAt(i + 2, encoding).GetNativePcOffset(stack_map_encoding, kRuntimeISA));
1531           }
1532           return stack_map;
1533         }
1534       }
1535     }
1536     return StackMap();
1537   }
1538 
GetStackMapForNativePcOffset(uint32_t native_pc_offset,const CodeInfoEncoding & encoding)1539   StackMap GetStackMapForNativePcOffset(uint32_t native_pc_offset,
1540                                         const CodeInfoEncoding& encoding) const {
1541     // TODO: Safepoint stack maps are sorted by native_pc_offset but catch stack
1542     //       maps are not. If we knew that the method does not have try/catch,
1543     //       we could do binary search.
1544     for (size_t i = 0, e = GetNumberOfStackMaps(encoding); i < e; ++i) {
1545       StackMap stack_map = GetStackMapAt(i, encoding);
1546       if (stack_map.GetNativePcOffset(encoding.stack_map.encoding, kRuntimeISA) ==
1547           native_pc_offset) {
1548         return stack_map;
1549       }
1550     }
1551     return StackMap();
1552   }
1553 
GetInvokeInfoForNativePcOffset(uint32_t native_pc_offset,const CodeInfoEncoding & encoding)1554   InvokeInfo GetInvokeInfoForNativePcOffset(uint32_t native_pc_offset,
1555                                             const CodeInfoEncoding& encoding) {
1556     for (size_t index = 0; index < encoding.invoke_info.num_entries; index++) {
1557       InvokeInfo item = GetInvokeInfo(encoding, index);
1558       if (item.GetNativePcOffset(encoding.invoke_info.encoding, kRuntimeISA) == native_pc_offset) {
1559         return item;
1560       }
1561     }
1562     return InvokeInfo(BitMemoryRegion());
1563   }
1564 
1565   // Dump this CodeInfo object on `os`.  `code_offset` is the (absolute)
1566   // native PC of the compiled method and `number_of_dex_registers` the
1567   // number of Dex virtual registers used in this method.  If
1568   // `dump_stack_maps` is true, also dump the stack maps and the
1569   // associated Dex register maps.
1570   void Dump(VariableIndentationOutputStream* vios,
1571             uint32_t code_offset,
1572             uint16_t number_of_dex_registers,
1573             bool dump_stack_maps,
1574             InstructionSet instruction_set,
1575             const MethodInfo& method_info) const;
1576 
1577   // Check that the code info has valid stack map and abort if it does not.
AssertValidStackMap(const CodeInfoEncoding & encoding)1578   void AssertValidStackMap(const CodeInfoEncoding& encoding) const {
1579     if (region_.size() != 0 && region_.size_in_bits() < GetStackMapsSizeInBits(encoding)) {
1580       LOG(FATAL) << region_.size() << "\n"
1581                  << encoding.HeaderSize() << "\n"
1582                  << encoding.NonHeaderSize() << "\n"
1583                  << encoding.location_catalog.num_entries << "\n"
1584                  << encoding.stack_map.num_entries << "\n"
1585                  << encoding.stack_map.encoding.BitSize();
1586     }
1587   }
1588 
1589  private:
1590   // Compute the size of the Dex register map associated to the stack map at
1591   // `dex_register_map_offset_in_code_info`.
ComputeDexRegisterMapSizeOf(const CodeInfoEncoding & encoding,uint32_t dex_register_map_offset_in_code_info,uint16_t number_of_dex_registers)1592   size_t ComputeDexRegisterMapSizeOf(const CodeInfoEncoding& encoding,
1593                                      uint32_t dex_register_map_offset_in_code_info,
1594                                      uint16_t number_of_dex_registers) const {
1595     // Offset where the actual mapping data starts within art::DexRegisterMap.
1596     size_t location_mapping_data_offset_in_dex_register_map =
1597         DexRegisterMap::GetLocationMappingDataOffset(number_of_dex_registers);
1598     // Create a temporary art::DexRegisterMap to be able to call
1599     // art::DexRegisterMap::GetNumberOfLiveDexRegisters and
1600     DexRegisterMap dex_register_map_without_locations(
1601         MemoryRegion(region_.Subregion(dex_register_map_offset_in_code_info,
1602                                        location_mapping_data_offset_in_dex_register_map)));
1603     size_t number_of_live_dex_registers =
1604         dex_register_map_without_locations.GetNumberOfLiveDexRegisters(number_of_dex_registers);
1605     size_t location_mapping_data_size_in_bits =
1606         DexRegisterMap::SingleEntrySizeInBits(GetNumberOfLocationCatalogEntries(encoding))
1607         * number_of_live_dex_registers;
1608     size_t location_mapping_data_size_in_bytes =
1609         RoundUp(location_mapping_data_size_in_bits, kBitsPerByte) / kBitsPerByte;
1610     size_t dex_register_map_size =
1611         location_mapping_data_offset_in_dex_register_map + location_mapping_data_size_in_bytes;
1612     return dex_register_map_size;
1613   }
1614 
1615   // Compute the size of a Dex register location catalog starting at offset `origin`
1616   // in `region_` and containing `number_of_dex_locations` entries.
ComputeDexRegisterLocationCatalogSize(uint32_t origin,uint32_t number_of_dex_locations)1617   size_t ComputeDexRegisterLocationCatalogSize(uint32_t origin,
1618                                                uint32_t number_of_dex_locations) const {
1619     // TODO: Ideally, we would like to use art::DexRegisterLocationCatalog::Size or
1620     // art::DexRegisterLocationCatalog::FindLocationOffset, but the
1621     // DexRegisterLocationCatalog is not yet built.  Try to factor common code.
1622     size_t offset = origin + DexRegisterLocationCatalog::kFixedSize;
1623 
1624     // Skip the first `number_of_dex_locations - 1` entries.
1625     for (uint16_t i = 0; i < number_of_dex_locations; ++i) {
1626       // Read the first next byte and inspect its first 3 bits to decide
1627       // whether it is a short or a large location.
1628       DexRegisterLocationCatalog::ShortLocation first_byte =
1629           region_.LoadUnaligned<DexRegisterLocationCatalog::ShortLocation>(offset);
1630       DexRegisterLocation::Kind kind =
1631           DexRegisterLocationCatalog::ExtractKindFromShortLocation(first_byte);
1632       if (DexRegisterLocation::IsShortLocationKind(kind)) {
1633         // Short location.  Skip the current byte.
1634         offset += DexRegisterLocationCatalog::SingleShortEntrySize();
1635       } else {
1636         // Large location.  Skip the 5 next bytes.
1637         offset += DexRegisterLocationCatalog::SingleLargeEntrySize();
1638       }
1639     }
1640     size_t size = offset - origin;
1641     return size;
1642   }
1643 
1644   MemoryRegion region_;
1645   friend class StackMapStream;
1646 };
1647 
1648 #undef ELEMENT_BYTE_OFFSET_AFTER
1649 #undef ELEMENT_BIT_OFFSET_AFTER
1650 
1651 }  // namespace art
1652 
1653 #endif  // ART_RUNTIME_STACK_MAP_H_
1654