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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 #ifndef ART_RUNTIME_VERIFIER_REGISTER_LINE_H_
18 #define ART_RUNTIME_VERIFIER_REGISTER_LINE_H_
19 
20 #include <memory>
21 #include <vector>
22 
23 #include "safe_map.h"
24 
25 namespace art {
26 
27 class Instruction;
28 
29 namespace verifier {
30 
31 class MethodVerifier;
32 class RegType;
33 
34 /*
35  * Register type categories, for type checking.
36  *
37  * The spec says category 1 includes boolean, byte, char, short, int, float, reference, and
38  * returnAddress. Category 2 includes long and double.
39  *
40  * We treat object references separately, so we have "category1nr". We don't support jsr/ret, so
41  * there is no "returnAddress" type.
42  */
43 enum TypeCategory {
44   kTypeCategoryUnknown = 0,
45   kTypeCategory1nr = 1,         // boolean, byte, char, short, int, float
46   kTypeCategory2 = 2,           // long, double
47   kTypeCategoryRef = 3,         // object reference
48 };
49 
50 // During verification, we associate one of these with every "interesting" instruction. We track
51 // the status of all registers, and (if the method has any monitor-enter instructions) maintain a
52 // stack of entered monitors (identified by code unit offset).
53 class RegisterLine {
54  public:
Create(size_t num_regs,MethodVerifier * verifier)55   static RegisterLine* Create(size_t num_regs, MethodVerifier* verifier) {
56     void* memory = operator new(sizeof(RegisterLine) + (num_regs * sizeof(uint16_t)));
57     RegisterLine* rl = new (memory) RegisterLine(num_regs, verifier);
58     return rl;
59   }
60 
61   // Implement category-1 "move" instructions. Copy a 32-bit value from "vsrc" to "vdst".
62   void CopyRegister1(MethodVerifier* verifier, uint32_t vdst, uint32_t vsrc, TypeCategory cat)
63       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
64 
65   // Implement category-2 "move" instructions. Copy a 64-bit value from "vsrc" to "vdst". This
66   // copies both halves of the register.
67   void CopyRegister2(MethodVerifier* verifier, uint32_t vdst, uint32_t vsrc)
68       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
69 
70   // Implement "move-result". Copy the category-1 value from the result register to another
71   // register, and reset the result register.
72   void CopyResultRegister1(MethodVerifier* verifier, uint32_t vdst, bool is_reference)
73       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
74 
75   // Implement "move-result-wide". Copy the category-2 value from the result register to another
76   // register, and reset the result register.
77   void CopyResultRegister2(MethodVerifier* verifier, uint32_t vdst)
78       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
79 
80   // Set the invisible result register to unknown
81   void SetResultTypeToUnknown(MethodVerifier* verifier) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
82 
83   // Set the type of register N, verifying that the register is valid.  If "newType" is the "Lo"
84   // part of a 64-bit value, register N+1 will be set to "newType+1".
85   // The register index was validated during the static pass, so we don't need to check it here.
86   ALWAYS_INLINE bool SetRegisterType(MethodVerifier* verifier, uint32_t vdst,
87                                      const RegType& new_type)
88       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
89 
90   bool SetRegisterTypeWide(MethodVerifier* verifier, uint32_t vdst, const RegType& new_type1,
91                            const RegType& new_type2)
92       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
93 
94   /* Set the type of the "result" register. */
95   void SetResultRegisterType(MethodVerifier* verifier, const RegType& new_type)
96       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
97 
98   void SetResultRegisterTypeWide(const RegType& new_type1, const RegType& new_type2)
99       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
100 
101   // Get the type of register vsrc.
102   const RegType& GetRegisterType(MethodVerifier* verifier, uint32_t vsrc) const;
103 
104   ALWAYS_INLINE bool VerifyRegisterType(MethodVerifier* verifier, uint32_t vsrc,
105                                         const RegType& check_type)
106       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
107 
108   bool VerifyRegisterTypeWide(MethodVerifier* verifier, uint32_t vsrc, const RegType& check_type1,
109                               const RegType& check_type2)
110       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
111 
CopyFromLine(const RegisterLine * src)112   void CopyFromLine(const RegisterLine* src) {
113     DCHECK_EQ(num_regs_, src->num_regs_);
114     memcpy(&line_, &src->line_, num_regs_ * sizeof(uint16_t));
115     monitors_ = src->monitors_;
116     reg_to_lock_depths_ = src->reg_to_lock_depths_;
117     this_initialized_ = src->this_initialized_;
118   }
119 
120   std::string Dump(MethodVerifier* verifier) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
121 
FillWithGarbage()122   void FillWithGarbage() {
123     memset(&line_, 0xf1, num_regs_ * sizeof(uint16_t));
124     monitors_.clear();
125     reg_to_lock_depths_.clear();
126   }
127 
128   /*
129    * We're creating a new instance of class C at address A. Any registers holding instances
130    * previously created at address A must be initialized by now. If not, we mark them as "conflict"
131    * to prevent them from being used (otherwise, MarkRefsAsInitialized would mark the old ones and
132    * the new ones at the same time).
133    */
134   void MarkUninitRefsAsInvalid(MethodVerifier* verifier, const RegType& uninit_type)
135       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
136 
137   /*
138    * Update all registers holding "uninit_type" to instead hold the corresponding initialized
139    * reference type. This is called when an appropriate constructor is invoked -- all copies of
140    * the reference must be marked as initialized.
141    */
142   void MarkRefsAsInitialized(MethodVerifier* verifier, const RegType& uninit_type,
143                              uint32_t this_reg, uint32_t dex_pc)
144       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
145 
146   /*
147    * Update all registers to be Conflict except vsrc.
148    */
149   void MarkAllRegistersAsConflicts(MethodVerifier* verifier);
150   void MarkAllRegistersAsConflictsExcept(MethodVerifier* verifier, uint32_t vsrc);
151   void MarkAllRegistersAsConflictsExceptWide(MethodVerifier* verifier, uint32_t vsrc);
152 
SetThisInitialized()153   void SetThisInitialized() {
154     this_initialized_ = true;
155   }
156 
CopyThisInitialized(const RegisterLine & src)157   void CopyThisInitialized(const RegisterLine& src) {
158     this_initialized_ = src.this_initialized_;
159   }
160 
161   /*
162    * Check constraints on constructor return. Specifically, make sure that the "this" argument got
163    * initialized.
164    * The "this" argument to <init> uses code offset kUninitThisArgAddr, which puts it at the start
165    * of the list in slot 0. If we see a register with an uninitialized slot 0 reference, we know it
166    * somehow didn't get initialized.
167    */
168   bool CheckConstructorReturn(MethodVerifier* verifier) const;
169 
170   // Compare two register lines. Returns 0 if they match.
171   // Using this for a sort is unwise, since the value can change based on machine endianness.
CompareLine(const RegisterLine * line2)172   int CompareLine(const RegisterLine* line2) const {
173     DCHECK(monitors_ == line2->monitors_);
174     // TODO: DCHECK(reg_to_lock_depths_ == line2->reg_to_lock_depths_);
175     return memcmp(&line_, &line2->line_, num_regs_ * sizeof(uint16_t));
176   }
177 
NumRegs()178   size_t NumRegs() const {
179     return num_regs_;
180   }
181 
182   /*
183    * Get the "this" pointer from a non-static method invocation. This returns the RegType so the
184    * caller can decide whether it needs the reference to be initialized or not. (Can also return
185    * kRegTypeZero if the reference can only be zero at this point.)
186    *
187    * The argument count is in vA, and the first argument is in vC, for both "simple" and "range"
188    * versions. We just need to make sure vA is >= 1 and then return vC.
189    * allow_failure will return Conflict() instead of causing a verification failure if there is an
190    * error.
191    */
192   const RegType& GetInvocationThis(MethodVerifier* verifier, const Instruction* inst,
193                                    bool is_range, bool allow_failure = false)
194       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
195 
196   /*
197    * Verify types for a simple two-register instruction (e.g. "neg-int").
198    * "dst_type" is stored into vA, and "src_type" is verified against vB.
199    */
200   void CheckUnaryOp(MethodVerifier* verifier, const Instruction* inst, const RegType& dst_type,
201                     const RegType& src_type)
202       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
203 
204   void CheckUnaryOpWide(MethodVerifier* verifier, const Instruction* inst,
205                         const RegType& dst_type1, const RegType& dst_type2,
206                         const RegType& src_type1, const RegType& src_type2)
207       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
208 
209   void CheckUnaryOpToWide(MethodVerifier* verifier, const Instruction* inst,
210                           const RegType& dst_type1, const RegType& dst_type2,
211                           const RegType& src_type)
212       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
213 
214   void CheckUnaryOpFromWide(MethodVerifier* verifier, const Instruction* inst,
215                             const RegType& dst_type,
216                             const RegType& src_type1, const RegType& src_type2)
217       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
218 
219   /*
220    * Verify types for a simple three-register instruction (e.g. "add-int").
221    * "dst_type" is stored into vA, and "src_type1"/"src_type2" are verified
222    * against vB/vC.
223    */
224   void CheckBinaryOp(MethodVerifier* verifier, const Instruction* inst,
225                      const RegType& dst_type, const RegType& src_type1, const RegType& src_type2,
226                      bool check_boolean_op)
227       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
228 
229   void CheckBinaryOpWide(MethodVerifier* verifier, const Instruction* inst,
230                          const RegType& dst_type1, const RegType& dst_type2,
231                          const RegType& src_type1_1, const RegType& src_type1_2,
232                          const RegType& src_type2_1, const RegType& src_type2_2)
233       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
234 
235   void CheckBinaryOpWideShift(MethodVerifier* verifier, const Instruction* inst,
236                               const RegType& long_lo_type, const RegType& long_hi_type,
237                               const RegType& int_type)
238       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
239 
240   /*
241    * Verify types for a binary "2addr" operation. "src_type1"/"src_type2"
242    * are verified against vA/vB, then "dst_type" is stored into vA.
243    */
244   void CheckBinaryOp2addr(MethodVerifier* verifier, const Instruction* inst,
245                           const RegType& dst_type,
246                           const RegType& src_type1, const RegType& src_type2,
247                           bool check_boolean_op)
248       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
249 
250   void CheckBinaryOp2addrWide(MethodVerifier* verifier, const Instruction* inst,
251                               const RegType& dst_type1, const RegType& dst_type2,
252                               const RegType& src_type1_1, const RegType& src_type1_2,
253                               const RegType& src_type2_1, const RegType& src_type2_2)
254       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
255 
256   void CheckBinaryOp2addrWideShift(MethodVerifier* verifier, const Instruction* inst,
257                                    const RegType& long_lo_type, const RegType& long_hi_type,
258                                    const RegType& int_type)
259       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
260 
261   /*
262    * Verify types for A two-register instruction with a literal constant (e.g. "add-int/lit8").
263    * "dst_type" is stored into vA, and "src_type" is verified against vB.
264    *
265    * If "check_boolean_op" is set, we use the constant value in vC.
266    */
267   void CheckLiteralOp(MethodVerifier* verifier, const Instruction* inst,
268                       const RegType& dst_type, const RegType& src_type,
269                       bool check_boolean_op, bool is_lit16)
270       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
271 
272   // Verify/push monitor onto the monitor stack, locking the value in reg_idx at location insn_idx.
273   void PushMonitor(MethodVerifier* verifier, uint32_t reg_idx, int32_t insn_idx)
274       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
275 
276   // Verify/pop monitor from monitor stack ensuring that we believe the monitor is locked
277   void PopMonitor(MethodVerifier* verifier, uint32_t reg_idx)
278       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
279 
280   // Stack of currently held monitors and where they were locked
MonitorStackDepth()281   size_t MonitorStackDepth() const {
282     return monitors_.size();
283   }
284 
285   // We expect no monitors to be held at certain points, such a method returns. Verify the stack
286   // is empty, failing and returning false if not.
287   bool VerifyMonitorStackEmpty(MethodVerifier* verifier) const;
288 
289   bool MergeRegisters(MethodVerifier* verifier, const RegisterLine* incoming_line)
290       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
291 
292   size_t GetMaxNonZeroReferenceReg(MethodVerifier* verifier, size_t max_ref_reg) const;
293 
294   // Write a bit at each register location that holds a reference.
295   void WriteReferenceBitMap(MethodVerifier* verifier, std::vector<uint8_t>* data, size_t max_bytes);
296 
GetMonitorEnterCount()297   size_t GetMonitorEnterCount() {
298     return monitors_.size();
299   }
300 
GetMonitorEnterDexPc(size_t i)301   uint32_t GetMonitorEnterDexPc(size_t i) {
302     return monitors_[i];
303   }
304 
305  private:
CopyRegToLockDepth(size_t dst,size_t src)306   void CopyRegToLockDepth(size_t dst, size_t src) {
307     auto it = reg_to_lock_depths_.find(src);
308     if (it != reg_to_lock_depths_.end()) {
309       reg_to_lock_depths_.Put(dst, it->second);
310     }
311   }
312 
IsSetLockDepth(size_t reg,size_t depth)313   bool IsSetLockDepth(size_t reg, size_t depth) {
314     auto it = reg_to_lock_depths_.find(reg);
315     if (it != reg_to_lock_depths_.end()) {
316       return (it->second & (1 << depth)) != 0;
317     } else {
318       return false;
319     }
320   }
321 
SetRegToLockDepth(size_t reg,size_t depth)322   bool SetRegToLockDepth(size_t reg, size_t depth) {
323     CHECK_LT(depth, 32u);
324     if (IsSetLockDepth(reg, depth)) {
325       return false;  // Register already holds lock so locking twice is erroneous.
326     }
327     auto it = reg_to_lock_depths_.find(reg);
328     if (it == reg_to_lock_depths_.end()) {
329       reg_to_lock_depths_.Put(reg, 1 << depth);
330     } else {
331       it->second |= (1 << depth);
332     }
333     return true;
334   }
335 
ClearRegToLockDepth(size_t reg,size_t depth)336   void ClearRegToLockDepth(size_t reg, size_t depth) {
337     CHECK_LT(depth, 32u);
338     DCHECK(IsSetLockDepth(reg, depth));
339     auto it = reg_to_lock_depths_.find(reg);
340     DCHECK(it != reg_to_lock_depths_.end());
341     uint32_t depths = it->second ^ (1 << depth);
342     if (depths != 0) {
343       it->second = depths;
344     } else {
345       reg_to_lock_depths_.erase(it);
346     }
347   }
348 
ClearAllRegToLockDepths(size_t reg)349   void ClearAllRegToLockDepths(size_t reg) {
350     reg_to_lock_depths_.erase(reg);
351   }
352 
RegisterLine(size_t num_regs,MethodVerifier * verifier)353   RegisterLine(size_t num_regs, MethodVerifier* verifier)
354       : num_regs_(num_regs), this_initialized_(false) {
355     memset(&line_, 0, num_regs_ * sizeof(uint16_t));
356     SetResultTypeToUnknown(verifier);
357   }
358 
359   // Storage for the result register's type, valid after an invocation.
360   uint16_t result_[2];
361 
362   // Length of reg_types_
363   const uint32_t num_regs_;
364 
365   // A stack of monitor enter locations.
366   std::vector<uint32_t, TrackingAllocator<uint32_t, kAllocatorTagVerifier>> monitors_;
367   // A map from register to a bit vector of indices into the monitors_ stack. As we pop the monitor
368   // stack we verify that monitor-enter/exit are correctly nested. That is, if there was a
369   // monitor-enter on v5 and then on v6, we expect the monitor-exit to be on v6 then on v5.
370   AllocationTrackingSafeMap<uint32_t, uint32_t, kAllocatorTagVerifier> reg_to_lock_depths_;
371 
372   // Whether "this" initialization (a constructor supercall) has happened.
373   bool this_initialized_;
374 
375   // An array of RegType Ids associated with each dex register.
376   uint16_t line_[0];
377 
378   DISALLOW_COPY_AND_ASSIGN(RegisterLine);
379 };
380 
381 }  // namespace verifier
382 }  // namespace art
383 
384 #endif  // ART_RUNTIME_VERIFIER_REGISTER_LINE_H_
385