1 /*
2  * Copyright (C) 2018, The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *     http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #include "aidl_typenames.h"
18 #include "aidl_language.h"
19 #include "logging.h"
20 
21 #include <android-base/strings.h>
22 
23 #include <map>
24 #include <memory>
25 #include <set>
26 #include <string>
27 #include <utility>
28 #include <vector>
29 
30 using android::base::Split;
31 
32 using std::make_pair;
33 using std::map;
34 using std::pair;
35 using std::set;
36 using std::string;
37 using std::unique_ptr;
38 using std::vector;
39 
40 namespace android {
41 namespace aidl {
42 
43 // The built-in AIDL types..
44 static const set<string> kBuiltinTypes = {"void",
45                                           "boolean",
46                                           "byte",
47                                           "char",
48                                           "int",
49                                           "long",
50                                           "float",
51                                           "double",
52                                           "String",
53                                           "List",
54                                           "Map",
55                                           "IBinder",
56                                           "FileDescriptor",
57                                           "CharSequence",
58                                           "ParcelFileDescriptor",
59                                           "ParcelableHolder"};
60 
61 static const set<string> kPrimitiveTypes = {"void", "boolean", "byte",  "char",
62                                             "int",  "long",    "float", "double"};
63 
64 // Note: these types may look wrong because they look like Java
65 // types, but they have long been supported from the time when Java
66 // was the only target language of this compiler. They are added here for
67 // backwards compatibility, but we internally treat them as List and Map,
68 // respectively.
69 static const map<string, string> kJavaLikeTypeToAidlType = {
70     {"java.util.List", "List"},
71     {"java.util.Map", "Map"},
72     {"android.os.ParcelFileDescriptor", "ParcelFileDescriptor"},
73 };
74 
75 // Package name and type name can't be one of these as they are keywords
76 // in Java and C++. Using these names will eventually cause compilation error,
77 // so checking this here is not a must have, but early detection of errors
78 // is always better.
79 static const set<string> kCppOrJavaReservedWord = {
80     "break",  "case",   "catch", "char",     "class",  "continue", "default",
81     "do",     "double", "else",  "enum",     "false",  "float",    "for",
82     "goto",   "if",     "int",   "long",     "new",    "private",  "protected",
83     "public", "return", "short", "static",   "switch", "this",     "throw",
84     "true",   "try",    "void",  "volatile", "while"};
85 
HasValidNameComponents(const AidlDefinedType & defined)86 static bool HasValidNameComponents(const AidlDefinedType& defined) {
87   bool success = true;
88   vector<string> pieces = Split(defined.GetCanonicalName(), ".");
89   for (const string& piece : pieces) {
90     if (kCppOrJavaReservedWord.find(piece) != kCppOrJavaReservedWord.end()) {
91       AIDL_ERROR(defined) << defined.GetCanonicalName() << " is an invalid name because '" << piece
92                           << "' is a Java or C++ identifier.";
93       success = false;
94     }
95     // not checking kJavaLikeTypeToAidl, since that wouldn't make sense here
96     if (kBuiltinTypes.find(piece) != kBuiltinTypes.end()) {
97       AIDL_ERROR(defined) << defined.GetCanonicalName() << " is an invalid name because '" << piece
98                           << "' is a built-in AIDL type.";
99       success = false;
100     }
101   }
102   return success;
103 }
104 
IsIgnorableImport(const string & import) const105 bool AidlTypenames::IsIgnorableImport(const string& import) const {
106   static set<string> ignore_import = {
107       "android.os.IInterface",   "android.os.IBinder", "android.os.Parcelable", "android.os.Parcel",
108       "android.content.Context", "java.lang.String",   "java.lang.CharSequence"};
109   // these known built-in types don't need to be imported
110   const bool in_ignore_import = ignore_import.find(import) != ignore_import.end();
111   // an already defined type doesn't need to be imported again unless it is from
112   // the preprocessed file
113   auto ret = TryGetDefinedTypeImpl(import);
114   const bool defined_type_not_from_preprocessed = ret.type != nullptr && !ret.from_preprocessed;
115   return in_ignore_import || defined_type_not_from_preprocessed;
116 }
117 
AddDocument(std::unique_ptr<AidlDocument> doc)118 bool AidlTypenames::AddDocument(std::unique_ptr<AidlDocument> doc) {
119   for (const auto& type : doc->DefinedTypes()) {
120     if (defined_types_.find(type->GetCanonicalName()) != defined_types_.end()) {
121       return false;
122     }
123     if (!HasValidNameComponents(*type)) {
124       return false;
125     }
126   }
127   documents_.push_back(std::move(doc));
128   for (const auto& type : documents_.back()->DefinedTypes()) {
129     defined_types_.emplace(type->GetCanonicalName(), type.get());
130   }
131   return true;
132 }
133 
GetDocumentFor(const AidlDefinedType * type) const134 const AidlDocument* AidlTypenames::GetDocumentFor(const AidlDefinedType* type) const {
135   for (const auto& doc : AllDocuments()) {
136     for (const auto& defined_type : doc->DefinedTypes()) {
137       if (defined_type.get() == type) {
138         return doc.get();
139       }
140     }
141   }
142   return nullptr;
143 }
144 
MainDocument() const145 const AidlDocument& AidlTypenames::MainDocument() const {
146   AIDL_FATAL_IF(documents_.size() == 0, AIDL_LOCATION_HERE) << "Main document doesn't exist";
147   return *(documents_[0]);
148 }
149 
AddPreprocessedType(unique_ptr<AidlDefinedType> type)150 bool AidlTypenames::AddPreprocessedType(unique_ptr<AidlDefinedType> type) {
151   const string name = type->GetCanonicalName();
152   if (preprocessed_types_.find(name) != preprocessed_types_.end()) {
153     return false;
154   }
155   if (!HasValidNameComponents(*type)) {
156     return false;
157   }
158   preprocessed_types_.insert(make_pair(name, std::move(type)));
159   return true;
160 }
161 
IsBuiltinTypename(const string & type_name)162 bool AidlTypenames::IsBuiltinTypename(const string& type_name) {
163   return kBuiltinTypes.find(type_name) != kBuiltinTypes.end() ||
164       kJavaLikeTypeToAidlType.find(type_name) != kJavaLikeTypeToAidlType.end();
165 }
166 
IsPrimitiveTypename(const string & type_name)167 bool AidlTypenames::IsPrimitiveTypename(const string& type_name) {
168   return kPrimitiveTypes.find(type_name) != kPrimitiveTypes.end();
169 }
170 
IsParcelable(const string & type_name) const171 bool AidlTypenames::IsParcelable(const string& type_name) const {
172   if (IsBuiltinTypename(type_name)) {
173     return type_name == "ParcelableHolder" || type_name == "ParcelFileDescriptor";
174   }
175   if (auto defined_type = TryGetDefinedType(type_name); defined_type) {
176     return defined_type->AsParcelable() != nullptr;
177   }
178   return false;
179 }
180 
TryGetDefinedType(const string & type_name) const181 const AidlDefinedType* AidlTypenames::TryGetDefinedType(const string& type_name) const {
182   return TryGetDefinedTypeImpl(type_name).type;
183 }
184 
TryGetDefinedTypeImpl(const string & type_name) const185 AidlTypenames::DefinedImplResult AidlTypenames::TryGetDefinedTypeImpl(
186     const string& type_name) const {
187   // Do the exact match first.
188   auto found_def = defined_types_.find(type_name);
189   if (found_def != defined_types_.end()) {
190     return DefinedImplResult(found_def->second, false);
191   }
192 
193   auto found_prep = preprocessed_types_.find(type_name);
194   if (found_prep != preprocessed_types_.end()) {
195     return DefinedImplResult(found_prep->second.get(), true);
196   }
197 
198   // Then match with the class name. Defined types has higher priority than
199   // types from the preprocessed file.
200   for (auto it = defined_types_.begin(); it != defined_types_.end(); it++) {
201     if (it->second->GetName() == type_name) {
202       return DefinedImplResult(it->second, false);
203     }
204   }
205 
206   for (auto it = preprocessed_types_.begin(); it != preprocessed_types_.end(); it++) {
207     if (it->second->GetName() == type_name) {
208       return DefinedImplResult(it->second.get(), true);
209     }
210   }
211 
212   return DefinedImplResult(nullptr, false);
213 }
214 
AllDefinedTypes() const215 std::vector<AidlDefinedType*> AidlTypenames::AllDefinedTypes() const {
216   std::vector<AidlDefinedType*> res;
217   for (const auto& d : AllDocuments()) {
218     for (const auto& t : d->DefinedTypes()) {
219       res.push_back(t.get());
220     }
221   }
222   return res;
223 }
224 
ResolveTypename(const string & type_name) const225 AidlTypenames::ResolvedTypename AidlTypenames::ResolveTypename(const string& type_name) const {
226   if (IsBuiltinTypename(type_name)) {
227     auto found = kJavaLikeTypeToAidlType.find(type_name);
228     if (found != kJavaLikeTypeToAidlType.end()) {
229       return {found->second, true, nullptr};
230     }
231     return {type_name, true, nullptr};
232   }
233   const AidlDefinedType* defined_type = TryGetDefinedType(type_name);
234   if (defined_type != nullptr) {
235     return {defined_type->GetCanonicalName(), true, defined_type};
236   } else {
237     return {type_name, false, nullptr};
238   }
239 }
240 
241 // Only immutable Parcelable, primitive type, and String, and List, Map, array of the types can be
242 // immutable.
CanBeJavaOnlyImmutable(const AidlTypeSpecifier & type) const243 bool AidlTypenames::CanBeJavaOnlyImmutable(const AidlTypeSpecifier& type) const {
244   const string& name = type.GetName();
245   if (type.IsGeneric()) {
246     if (type.GetName() == "List" || type.GetName() == "Map") {
247       const auto& types = type.GetTypeParameters();
248       return std::all_of(types.begin(), types.end(),
249                          [this](const auto& t) { return CanBeJavaOnlyImmutable(*t); });
250     }
251     AIDL_ERROR(type) << "For a generic type, an immutable parcelable can contain only List or Map.";
252     return false;
253   }
254   if (IsPrimitiveTypename(name) || name == "String") {
255     return true;
256   }
257   const AidlDefinedType* t = TryGetDefinedType(type.GetName());
258   if (t == nullptr) {
259     AIDL_ERROR(type) << "An immutable parcelable can contain only immutable Parcelable, primitive "
260                         "type, and String.";
261     return false;
262   }
263   if (t->AsEnumDeclaration()) {
264     return true;
265   }
266   return t->IsJavaOnlyImmutable();
267 }
268 
269 // Only FixedSize Parcelable, primitive types, and enum types can be FixedSize.
CanBeFixedSize(const AidlTypeSpecifier & type) const270 bool AidlTypenames::CanBeFixedSize(const AidlTypeSpecifier& type) const {
271   const string& name = type.GetName();
272   if (type.IsGeneric() || type.IsArray()) {
273     return false;
274   }
275   if (IsPrimitiveTypename(name)) {
276     return true;
277   }
278   if (IsBuiltinTypename(name)) {
279     return false;
280   }
281   const AidlDefinedType* t = TryGetDefinedType(type.GetName());
282   AIDL_FATAL_IF(t == nullptr, type)
283       << "Failed to look up type. Cannot determine if it can be fixed size: " << type.GetName();
284 
285   if (t->AsEnumDeclaration()) {
286     return true;
287   }
288   return t->IsFixedSize();
289 }
290 
IsList(const AidlTypeSpecifier & type)291 bool AidlTypenames::IsList(const AidlTypeSpecifier& type) {
292   return type.GetName() == "List";
293 }
294 
GetArgumentAspect(const AidlTypeSpecifier & type) const295 ArgumentAspect AidlTypenames::GetArgumentAspect(const AidlTypeSpecifier& type) const {
296   if (type.IsArray()) {
297     return {"array",
298             {AidlArgument::Direction::IN_DIR, AidlArgument::Direction::OUT_DIR,
299              AidlArgument::Direction::INOUT_DIR}};
300   }
301   const string& name = type.GetName();
302   if (IsBuiltinTypename(name)) {
303     if (name == "List" || name == "Map") {
304       return {name,
305               {AidlArgument::Direction::IN_DIR, AidlArgument::Direction::OUT_DIR,
306                AidlArgument::Direction::INOUT_DIR}};
307     } else if (name == "ParcelFileDescriptor") {
308       // "out ParcelFileDescriptor" is not allowed because ParcelFileDescriptor is not
309       // default-constructible.
310       return {name, {AidlArgument::Direction::IN_DIR, AidlArgument::Direction::INOUT_DIR}};
311     } else if (name == "ParcelableHolder") {
312       // TODO(b/156872582): Support it when ParcelableHolder supports every backend.
313       return {name, {}};
314     } else {
315       return {name, {AidlArgument::Direction::IN_DIR}};
316     }
317   }
318 
319   const AidlDefinedType* t = TryGetDefinedType(name);
320   AIDL_FATAL_IF(t == nullptr, type) << "Unrecognized type: '" << name << "'";
321 
322   // An 'out' field is passed as an argument, so it doesn't make sense if it is immutable.
323   if (t->AsParcelable() != nullptr) {
324     if (t->IsJavaOnlyImmutable()) {
325       return {"@JavaOnlyImmutable", {AidlArgument::Direction::IN_DIR}};
326     }
327     return {"parcelable/union",
328             {AidlArgument::Direction::IN_DIR, AidlArgument::Direction::OUT_DIR,
329              AidlArgument::Direction::INOUT_DIR}};
330   }
331 
332   return {t->GetPreprocessDeclarationName(), {AidlArgument::Direction::IN_DIR}};
333 }
334 
GetEnumDeclaration(const AidlTypeSpecifier & type) const335 const AidlEnumDeclaration* AidlTypenames::GetEnumDeclaration(const AidlTypeSpecifier& type) const {
336   if (auto defined_type = TryGetDefinedType(type.GetName()); defined_type != nullptr) {
337     if (auto enum_decl = defined_type->AsEnumDeclaration(); enum_decl != nullptr) {
338       return enum_decl;
339     }
340   }
341   return nullptr;
342 }
343 
GetInterface(const AidlTypeSpecifier & type) const344 const AidlInterface* AidlTypenames::GetInterface(const AidlTypeSpecifier& type) const {
345   if (auto defined_type = TryGetDefinedType(type.GetName()); defined_type != nullptr) {
346     if (auto intf = defined_type->AsInterface(); intf != nullptr) {
347       return intf;
348     }
349   }
350   return nullptr;
351 }
352 
GetParcelable(const AidlTypeSpecifier & type) const353 const AidlParcelable* AidlTypenames::GetParcelable(const AidlTypeSpecifier& type) const {
354   if (auto defined_type = TryGetDefinedType(type.GetName()); defined_type != nullptr) {
355     if (auto parcelable = defined_type->AsParcelable(); parcelable != nullptr) {
356       return parcelable;
357     }
358   }
359   return nullptr;
360 }
361 
IterateTypes(const std::function<void (const AidlDefinedType &)> & body) const362 void AidlTypenames::IterateTypes(const std::function<void(const AidlDefinedType&)>& body) const {
363   for (const auto& kv : defined_types_) {
364     body(*kv.second);
365   }
366   for (const auto& kv : preprocessed_types_) {
367     body(*kv.second);
368   }
369 }
370 
Autofill() const371 bool AidlTypenames::Autofill() const {
372   bool success = true;
373   IterateTypes([&](const AidlDefinedType& type) {
374     // BackingType is filled in for all known enums, including imported enums,
375     // because other types that may use enums, such as Interface or
376     // StructuredParcelable, need to know the enum BackingType when
377     // generating code.
378     if (auto enum_decl = const_cast<AidlDefinedType&>(type).AsEnumDeclaration(); enum_decl) {
379       if (!enum_decl->Autofill(*this)) {
380         success = false;
381       }
382     }
383   });
384   return success;
385 }
386 
387 }  // namespace aidl
388 }  // namespace android
389