1 /*
2 * Copyright (C) 2013 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_INL_H_
18 #define ART_RUNTIME_VERIFIER_REGISTER_LINE_INL_H_
19
20 #include "register_line.h"
21
22 #include "method_verifier.h"
23 #include "reg_type_cache-inl.h"
24
25 namespace art {
26 namespace verifier {
27
GetRegisterType(MethodVerifier * verifier,uint32_t vsrc)28 inline const RegType& RegisterLine::GetRegisterType(MethodVerifier* verifier, uint32_t vsrc) const {
29 // The register index was validated during the static pass, so we don't need to check it here.
30 DCHECK_LT(vsrc, num_regs_);
31 return verifier->GetRegTypeCache()->GetFromId(line_[vsrc]);
32 }
33
SetRegisterType(MethodVerifier * verifier,uint32_t vdst,const RegType & new_type)34 inline bool RegisterLine::SetRegisterType(MethodVerifier* verifier, uint32_t vdst,
35 const RegType& new_type) {
36 DCHECK_LT(vdst, num_regs_);
37 if (new_type.IsLowHalf() || new_type.IsHighHalf()) {
38 verifier->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "Expected category1 register type not '"
39 << new_type << "'";
40 return false;
41 } else {
42 // Note: previously we failed when asked to set a conflict. However, conflicts are OK as long
43 // as they are not accessed, and our backends can handle this nowadays.
44 line_[vdst] = new_type.GetId();
45 }
46 // Clear the monitor entry bits for this register.
47 ClearAllRegToLockDepths(vdst);
48 return true;
49 }
50
SetRegisterTypeWide(MethodVerifier * verifier,uint32_t vdst,const RegType & new_type1,const RegType & new_type2)51 inline bool RegisterLine::SetRegisterTypeWide(MethodVerifier* verifier, uint32_t vdst,
52 const RegType& new_type1,
53 const RegType& new_type2) {
54 DCHECK_LT(vdst + 1, num_regs_);
55 if (!new_type1.CheckWidePair(new_type2)) {
56 verifier->Fail(VERIFY_ERROR_BAD_CLASS_SOFT) << "Invalid wide pair '"
57 << new_type1 << "' '" << new_type2 << "'";
58 return false;
59 } else {
60 line_[vdst] = new_type1.GetId();
61 line_[vdst + 1] = new_type2.GetId();
62 }
63 // Clear the monitor entry bits for this register.
64 ClearAllRegToLockDepths(vdst);
65 ClearAllRegToLockDepths(vdst + 1);
66 return true;
67 }
68
SetResultTypeToUnknown(MethodVerifier * verifier)69 inline void RegisterLine::SetResultTypeToUnknown(MethodVerifier* verifier) {
70 result_[0] = verifier->GetRegTypeCache()->Undefined().GetId();
71 result_[1] = result_[0];
72 }
73
SetResultRegisterType(MethodVerifier * verifier,const RegType & new_type)74 inline void RegisterLine::SetResultRegisterType(MethodVerifier* verifier, const RegType& new_type) {
75 DCHECK(!new_type.IsLowHalf());
76 DCHECK(!new_type.IsHighHalf());
77 result_[0] = new_type.GetId();
78 result_[1] = verifier->GetRegTypeCache()->Undefined().GetId();
79 }
80
SetResultRegisterTypeWide(const RegType & new_type1,const RegType & new_type2)81 inline void RegisterLine::SetResultRegisterTypeWide(const RegType& new_type1,
82 const RegType& new_type2) {
83 DCHECK(new_type1.CheckWidePair(new_type2));
84 result_[0] = new_type1.GetId();
85 result_[1] = new_type2.GetId();
86 }
87
CopyRegister1(MethodVerifier * verifier,uint32_t vdst,uint32_t vsrc,TypeCategory cat)88 inline void RegisterLine::CopyRegister1(MethodVerifier* verifier, uint32_t vdst, uint32_t vsrc,
89 TypeCategory cat) {
90 DCHECK(cat == kTypeCategory1nr || cat == kTypeCategoryRef);
91 const RegType& type = GetRegisterType(verifier, vsrc);
92 if (!SetRegisterType(verifier, vdst, type)) {
93 return;
94 }
95 if (!type.IsConflict() && // Allow conflicts to be copied around.
96 ((cat == kTypeCategory1nr && !type.IsCategory1Types()) ||
97 (cat == kTypeCategoryRef && !type.IsReferenceTypes()))) {
98 verifier->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "copy1 v" << vdst << "<-v" << vsrc << " type=" << type
99 << " cat=" << static_cast<int>(cat);
100 } else if (cat == kTypeCategoryRef) {
101 CopyRegToLockDepth(vdst, vsrc);
102 }
103 }
104
CopyRegister2(MethodVerifier * verifier,uint32_t vdst,uint32_t vsrc)105 inline void RegisterLine::CopyRegister2(MethodVerifier* verifier, uint32_t vdst, uint32_t vsrc) {
106 const RegType& type_l = GetRegisterType(verifier, vsrc);
107 const RegType& type_h = GetRegisterType(verifier, vsrc + 1);
108
109 if (!type_l.CheckWidePair(type_h)) {
110 verifier->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "copy2 v" << vdst << "<-v" << vsrc
111 << " type=" << type_l << "/" << type_h;
112 } else {
113 SetRegisterTypeWide(verifier, vdst, type_l, type_h);
114 }
115 }
116
GetMaxNonZeroReferenceReg(MethodVerifier * verifier,size_t max_ref_reg)117 inline size_t RegisterLine::GetMaxNonZeroReferenceReg(MethodVerifier* verifier,
118 size_t max_ref_reg) const {
119 size_t i = static_cast<int>(max_ref_reg) < 0 ? 0 : max_ref_reg;
120 for (; i < num_regs_; i++) {
121 if (GetRegisterType(verifier, i).IsNonZeroReferenceTypes()) {
122 max_ref_reg = i;
123 }
124 }
125 return max_ref_reg;
126 }
127
VerifyRegisterType(MethodVerifier * verifier,uint32_t vsrc,const RegType & check_type)128 inline bool RegisterLine::VerifyRegisterType(MethodVerifier* verifier, uint32_t vsrc,
129 const RegType& check_type) {
130 // Verify the src register type against the check type refining the type of the register
131 const RegType& src_type = GetRegisterType(verifier, vsrc);
132 if (UNLIKELY(!check_type.IsAssignableFrom(src_type))) {
133 enum VerifyError fail_type;
134 if (!check_type.IsNonZeroReferenceTypes() || !src_type.IsNonZeroReferenceTypes()) {
135 // Hard fail if one of the types is primitive, since they are concretely known.
136 fail_type = VERIFY_ERROR_BAD_CLASS_HARD;
137 } else if (check_type.IsUnresolvedTypes() || src_type.IsUnresolvedTypes()) {
138 fail_type = VERIFY_ERROR_NO_CLASS;
139 } else {
140 fail_type = VERIFY_ERROR_BAD_CLASS_SOFT;
141 }
142 verifier->Fail(fail_type) << "register v" << vsrc << " has type "
143 << src_type << " but expected " << check_type;
144 return false;
145 }
146 if (check_type.IsLowHalf()) {
147 const RegType& src_type_h = GetRegisterType(verifier, vsrc + 1);
148 if (UNLIKELY(!src_type.CheckWidePair(src_type_h))) {
149 verifier->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "wide register v" << vsrc << " has type "
150 << src_type << "/" << src_type_h;
151 return false;
152 }
153 }
154 // The register at vsrc has a defined type, we know the lower-upper-bound, but this is less
155 // precise than the subtype in vsrc so leave it for reference types. For primitive types
156 // if they are a defined type then they are as precise as we can get, however, for constant
157 // types we may wish to refine them. Unfortunately constant propagation has rendered this useless.
158 return true;
159 }
160
VerifyMonitorStackEmpty(MethodVerifier * verifier)161 inline bool RegisterLine::VerifyMonitorStackEmpty(MethodVerifier* verifier) const {
162 if (MonitorStackDepth() != 0) {
163 verifier->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "expected empty monitor stack";
164 return false;
165 } else {
166 return true;
167 }
168 }
169
170 } // namespace verifier
171 } // namespace art
172
173 #endif // ART_RUNTIME_VERIFIER_REGISTER_LINE_INL_H_
174