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1 /* | 1 /* |
2 * This file is part of Adblock Plus <https://adblockplus.org/>, | 2 * This file is part of Adblock Plus <https://adblockplus.org/>, |
3 * Copyright (C) 2006-2017 eyeo GmbH | 3 * Copyright (C) 2006-2017 eyeo GmbH |
4 * | 4 * |
5 * Adblock Plus is free software: you can redistribute it and/or modify | 5 * Adblock Plus is free software: you can redistribute it and/or modify |
6 * it under the terms of the GNU General Public License version 3 as | 6 * it under the terms of the GNU General Public License version 3 as |
7 * published by the Free Software Foundation. | 7 * published by the Free Software Foundation. |
8 * | 8 * |
9 * Adblock Plus is distributed in the hope that it will be useful, | 9 * Adblock Plus is distributed in the hope that it will be useful, |
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of | 10 * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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36 | 36 |
37 namespace bindings_internal | 37 namespace bindings_internal |
38 { | 38 { |
39 typedef void* TYPEID; | 39 typedef void* TYPEID; |
40 | 40 |
41 enum class TypeCategory | 41 enum class TypeCategory |
42 { | 42 { |
43 UNKNOWN, | 43 UNKNOWN, |
44 VOID, | 44 VOID, |
45 INT, | 45 INT, |
46 INT64, | |
46 FLOAT, | 47 FLOAT, |
48 DOUBLE, | |
47 DEPENDENT_STRING, | 49 DEPENDENT_STRING, |
48 OWNED_STRING, | 50 OWNED_STRING, |
49 STRING_REF, | 51 STRING_REF, |
50 CLASS_PTR | 52 CLASS_PTR |
51 }; | 53 }; |
52 | 54 |
53 template<typename T> | 55 template<typename T> |
54 struct TypeInfo | 56 struct TypeInfo |
55 { | 57 { |
56 /* | 58 /* |
57 * Since TypeInfo is a templated type, in practice the compiler will define | 59 * Since TypeInfo is a templated type, in practice the compiler will define |
58 * a new type for each possible template parameter value. We use that fact | 60 * a new type for each possible template parameter value. We use that fact |
59 * to generate type identifiers: each of these TypeInfo types has a | 61 * to generate type identifiers: each of these TypeInfo types has a |
60 * different s_typeIDHelper member, so we use a pointer to that static | 62 * different s_typeIDHelper member, so we use a pointer to that static |
61 * variable as a type identifier - it will be different for each template | 63 * variable as a type identifier - it will be different for each template |
62 * parameter. | 64 * parameter. |
63 */ | 65 */ |
64 static char s_typeIDHelper; | 66 static char s_typeIDHelper; |
65 constexpr operator TYPEID() const | 67 constexpr operator TYPEID() const |
66 { | 68 { |
67 return &s_typeIDHelper; | 69 return &s_typeIDHelper; |
68 } | 70 } |
69 | 71 |
70 constexpr operator TypeCategory() const | 72 constexpr operator TypeCategory() const |
71 { | 73 { |
72 if (std::is_void<T>()) | 74 if (std::is_void<T>()) |
73 return TypeCategory::VOID; | 75 return TypeCategory::VOID; |
74 | 76 |
77 if (std::is_same<T, uint64_t>()) | |
78 return TypeCategory::INT64; | |
79 | |
75 if (std::is_integral<T>() || std::is_enum<T>()) | 80 if (std::is_integral<T>() || std::is_enum<T>()) |
76 return TypeCategory::INT; | 81 return TypeCategory::INT; |
77 | 82 |
78 if (std::is_floating_point<T>()) | 83 if (std::is_same<T, float>()) |
79 return TypeCategory::FLOAT; | 84 return TypeCategory::FLOAT; |
85 | |
86 if (std::is_same<T, double>()) | |
87 return TypeCategory::DOUBLE; | |
80 | 88 |
81 if (std::is_same<DependentString, T>() || std::is_same<const DependentStri ng, T>()) | 89 if (std::is_same<DependentString, T>() || std::is_same<const DependentStri ng, T>()) |
82 return TypeCategory::DEPENDENT_STRING; | 90 return TypeCategory::DEPENDENT_STRING; |
83 | 91 |
84 if (std::is_same<OwnedString, T>() || std::is_same<const OwnedString, T>() ) | 92 if (std::is_same<OwnedString, T>() || std::is_same<const OwnedString, T>() ) |
85 return TypeCategory::OWNED_STRING; | 93 return TypeCategory::OWNED_STRING; |
86 | 94 |
87 if (std::is_same<String&, T>() || std::is_same<const String&, T>() || | 95 if (std::is_same<String&, T>() || std::is_same<const String&, T>() || |
88 std::is_same<DependentString&, T>()) | 96 std::is_same<DependentString&, T>()) |
89 { | 97 { |
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130 instance_function(instance_function) | 138 instance_function(instance_function) |
131 { | 139 { |
132 name[0] = '\0'; | 140 name[0] = '\0'; |
133 | 141 |
134 // The function parameter is a pointer to the function pointer. | 142 // The function parameter is a pointer to the function pointer. |
135 // Emscripten's "function pointers" are actually integers indicating the | 143 // Emscripten's "function pointers" are actually integers indicating the |
136 // position in the call table. 0 represents nullptr. | 144 // position in the call table. 0 represents nullptr. |
137 if (!*reinterpret_cast<int*>(function)) | 145 if (!*reinterpret_cast<int*>(function)) |
138 return; | 146 return; |
139 | 147 |
140 char signature[256]; | 148 std::string signature; |
141 int pos = 0; | 149 |
142 if (returnType == TypeCategory::DEPENDENT_STRING || | 150 // Add return type to the signature. Similar logic in Emscripten: |
143 returnType == TypeCategory::OWNED_STRING) | 151 // https://github.com/kripken/emscripten/blob/1.37.3/src/modules.js#L46 |
144 { | 152 switch (returnType) |
145 // Objects aren't really returned but passed as parameter. Note that | 153 { |
146 // this pointer might come before it but we don't care because both | 154 case TypeCategory::DEPENDENT_STRING: |
147 // are integers (pointers) as far as Emscripten is concerned. | 155 case TypeCategory::OWNED_STRING: |
148 signature[pos++] = 'v'; | 156 // Technically, objects aren't really returned with clang. The caller |
149 signature[pos++] = 'i'; | 157 // instead adds the reference to the resulting object as an implicit |
150 } | 158 // parameter. |
151 else if (returnType == TypeCategory::VOID) | 159 signature += "vi"; |
152 signature[pos++] = 'v'; | 160 break; |
153 else if (returnType == TypeCategory::FLOAT) | 161 case TypeCategory::VOID: |
154 signature[pos++] = 'd'; | 162 signature += 'v'; |
155 else if (returnType == TypeCategory::INT || | 163 break; |
156 returnType == TypeCategory::STRING_REF || | 164 case TypeCategory::FLOAT: |
157 returnType == TypeCategory::CLASS_PTR) | 165 signature += 'f'; |
158 { | 166 break; |
159 signature[pos++] = 'i'; | 167 case TypeCategory::DOUBLE: |
160 } | 168 signature += 'd'; |
161 else | 169 break; |
162 throw std::runtime_error("Unexpected function return type"); | 170 case TypeCategory::INT: |
163 | 171 case TypeCategory::INT64: |
172 case TypeCategory::STRING_REF: | |
173 case TypeCategory::CLASS_PTR: | |
174 signature += 'i'; | |
175 break; | |
176 default: | |
177 throw std::runtime_error("Unexpected function return type"); | |
178 } | |
179 | |
180 // `this` pointer is an implicit parameter with clang and should be added | |
181 // to the signature. | |
164 if (instance_function) | 182 if (instance_function) |
165 { | 183 signature += 'i'; |
166 // this pointer is an implicit parameter | 184 |
167 signature[pos++] = 'i'; | 185 // Add explicit parameters to the signature, Similar logic in Emscripten: |
168 } | 186 // https://github.com/kripken/emscripten/blob/1.37.3/src/modules.js#L67 |
169 | 187 for (const auto& type : argTypes) |
170 for (const auto& item : argTypes) | 188 { |
171 { | 189 switch (type) |
172 if (item == TypeCategory::INT || item == TypeCategory::STRING_REF || | 190 { |
173 item == TypeCategory::CLASS_PTR) | 191 case TypeCategory::INT: |
174 { | 192 case TypeCategory::STRING_REF: |
175 signature[pos++] = 'i'; | 193 case TypeCategory::CLASS_PTR: |
194 signature += 'i'; | |
195 break; | |
196 case TypeCategory::INT64: | |
197 // See https://github.com/kripken/emscripten/blob/1.37.3/src/modules .js#L73, | |
198 // numerical types larger than 32-bit are split into multiple | |
199 // 32-bit parameters. | |
200 signature += "ii"; | |
201 break; | |
202 case TypeCategory::FLOAT: | |
203 signature += 'f'; | |
204 break; | |
205 case TypeCategory::DOUBLE: | |
206 signature += 'd'; | |
207 break; | |
208 default: | |
209 throw std::runtime_error("Unexpected function argument type"); | |
176 } | 210 } |
177 else if (item == TypeCategory::FLOAT) | 211 args.push_back(type); |
178 signature[pos++] = 'd'; | 212 } |
179 else | 213 |
180 throw std::runtime_error("Unexpected function argument type"); | 214 get_function_name(function, signature.c_str()); |
181 args.push_back(item); | |
182 } | |
183 | |
184 signature[pos] = 0; | |
185 | |
186 get_function_name(function, signature); | |
187 } | 215 } |
188 | 216 |
189 template<typename ReturnType, typename... Args> | 217 template<typename ReturnType, typename... Args> |
190 FunctionInfo(ReturnType (*function)(Args...)) | 218 FunctionInfo(ReturnType (*function)(Args...)) |
191 : FunctionInfo(TypeInfo<ReturnType>(), | 219 : FunctionInfo(TypeInfo<ReturnType>(), |
192 TypeInfo<ReturnType>().pointer_type(), { TypeInfo<Args>()... }, false, | 220 TypeInfo<ReturnType>().pointer_type(), { TypeInfo<Args>()... }, false, |
193 &function) | 221 &function) |
194 { | 222 { |
195 } | 223 } |
196 | 224 |
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208 TypeInfo<ReturnType>().pointer_type(), { TypeInfo<Args>()... }, true, | 236 TypeInfo<ReturnType>().pointer_type(), { TypeInfo<Args>()... }, true, |
209 &function) | 237 &function) |
210 { | 238 { |
211 } | 239 } |
212 | 240 |
213 bool empty() const | 241 bool empty() const |
214 { | 242 { |
215 return name[0] == '\0'; | 243 return name[0] == '\0'; |
216 } | 244 } |
217 | 245 |
218 void get_function_name(void* ptr, char* signature) | 246 void get_function_name(void* ptr, const char* signature) |
219 { | 247 { |
220 // This is a hack, C++ won't let us get the mangled function name. | 248 // This is a hack, C++ won't let us get the mangled function name. |
221 // JavaScript is more dynamic so we pass the pointer to our function | 249 // JavaScript is more dynamic so we pass the pointer to our function |
222 // there. With that and the function signature we can call the function - | 250 // there. With that and the function signature we can call the function - |
223 // with a full stack so that we will cause it to abort. Sometimes the | 251 // with a full stack so that we will cause it to abort. Sometimes the |
224 // function we are calling will also be missing from the build. The result | 252 // function we are calling will also be missing from the build. The result |
225 // is the same: abort() is called which in turn calls stackTrace(). By | 253 // is the same: abort() is called which in turn calls stackTrace(). By |
226 // replacing stackTrace() we get access to the call stack and search it | 254 // replacing stackTrace() we get access to the call stack and search it |
227 // for the name of our function. | 255 // for the name of our function. |
228 | 256 |
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309 std::string name; | 337 std::string name; |
310 std::vector<PropertyInfo> properties; | 338 std::vector<PropertyInfo> properties; |
311 std::vector<MethodInfo> methods; | 339 std::vector<MethodInfo> methods; |
312 DifferentiatorInfo subclass_differentiator; | 340 DifferentiatorInfo subclass_differentiator; |
313 ptrdiff_t ref_counted_offset; | 341 ptrdiff_t ref_counted_offset; |
314 }; | 342 }; |
315 | 343 |
316 typedef std::function<void()> CustomGenerator; | 344 typedef std::function<void()> CustomGenerator; |
317 | 345 |
318 std::map<TYPEID, ClassInfo> classes; | 346 std::map<TYPEID, ClassInfo> classes; |
319 std::vector<CustomGenerator> customGenerators; | 347 std::vector<CustomGenerator> customGenerators; |
sergei
2017/04/11 16:29:20
These global variables can also contribute into li
Wladimir Palant
2017/04/11 18:22:44
Ok, I can see your point. Yes, they are currently
| |
320 | 348 |
321 void register_class(const char* name, TYPEID classID, TYPEID baseClassID, | 349 void register_class(const char* name, TYPEID classID, TYPEID baseClassID, |
322 ptrdiff_t ref_counted_offset) | 350 ptrdiff_t ref_counted_offset) |
323 { | 351 { |
324 auto it = classes.find(classID); | 352 auto it = classes.find(classID); |
325 if (it != classes.end()) | 353 if (it != classes.end()) |
326 throw std::runtime_error(std::string("Duplicate definition for class ") + name); | 354 throw std::runtime_error(std::string("Duplicate definition for class ") + name); |
327 | 355 |
328 ClassInfo* baseClass = nullptr; | 356 ClassInfo* baseClass = nullptr; |
329 if (baseClassID != TypeInfo<NoBaseClass>()) | 357 if (baseClassID != TypeInfo<NoBaseClass>()) |
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399 std::string call_str(call.name); | 427 std::string call_str(call.name); |
400 call_str += "("; | 428 call_str += "("; |
401 for (int i = 0; i < params.size(); i++) | 429 for (int i = 0; i < params.size(); i++) |
402 { | 430 { |
403 if (i > 0) | 431 if (i > 0) |
404 call_str += ", "; | 432 call_str += ", "; |
405 call_str += params[i]; | 433 call_str += params[i]; |
406 } | 434 } |
407 call_str += ")"; | 435 call_str += ")"; |
408 | 436 |
409 if (call.returnType == TypeCategory::VOID) | 437 switch (call.returnType) |
410 return " " + call_str + ";\n"; | 438 { |
411 else if (call.returnType == TypeCategory::INT || | 439 case TypeCategory::VOID: |
412 call.returnType == TypeCategory::FLOAT) | 440 return " " + call_str + ";\n"; |
413 { | 441 case TypeCategory::INT: |
414 return " var result = " + call_str + ";\n"; | 442 case TypeCategory::FLOAT: |
415 } | 443 case TypeCategory::DOUBLE: |
416 else if (call.returnType == TypeCategory::DEPENDENT_STRING || | 444 return " var result = " + call_str + ";\n"; |
417 call.returnType == TypeCategory::OWNED_STRING) | 445 case TypeCategory::INT64: |
418 { | 446 return " var result = Runtime.makeBigInt(" + call_str + ", " + |
419 std::string result; | 447 "Runtime.getTempRet0(), " + |
420 result += " var string = createString();\n"; | 448 "true);\n"; |
421 result += " " + call_str + ";\n"; | 449 case TypeCategory::DEPENDENT_STRING: |
422 result += " var result = readString(string);\n"; | 450 case TypeCategory::OWNED_STRING: |
423 if (call.returnType == TypeCategory::OWNED_STRING) | 451 { |
424 result += " Module._DestroyString(string);\n"; | 452 std::string result; |
425 return result; | 453 result += " var string = createString();\n"; |
426 } | 454 result += " " + call_str + ";\n"; |
427 else if (call.returnType == TypeCategory::STRING_REF) | 455 result += " var result = readString(string);\n"; |
428 { | 456 if (call.returnType == TypeCategory::OWNED_STRING) |
429 return " var result = readString(" + call_str + ");\n"; | 457 result += " Module._DestroyString(string);\n"; |
430 } | 458 return result; |
431 else if (call.returnType == TypeCategory::CLASS_PTR) | 459 } |
432 { | 460 case TypeCategory::STRING_REF: |
433 std::string result; | 461 return " var result = readString(" + call_str + ");\n"; |
434 result += " var result = " + call_str + ";\n"; | 462 case TypeCategory::CLASS_PTR: |
435 result += " if (result)\n"; | 463 { |
436 result += " {\n"; | 464 std::string result; |
437 | 465 result += " var result = " + call_str + ";\n"; |
438 auto it = classes.find(call.pointerType); | 466 result += " if (result)\n"; |
439 if (it == classes.end()) | 467 result += " {\n"; |
440 throw std::runtime_error("Function " + std::string(call.name) + " return s pointer to unknown class"); | 468 |
441 | 469 auto it = classes.find(call.pointerType); |
442 const ClassInfo& cls = it->second; | 470 if (it == classes.end()) |
443 auto offset = cls.subclass_differentiator.offset; | 471 throw std::runtime_error("Function " + std::string(call.name) + " retu rns pointer to unknown class"); |
444 if (offset == SIZE_MAX) | 472 |
445 result += " result = " + cls.name + "(result);\n"; | 473 const ClassInfo& cls = it->second; |
446 else | 474 auto offset = cls.subclass_differentiator.offset; |
447 { | 475 if (offset == SIZE_MAX) |
448 result += " var type = HEAP32[result + " + std::to_string(offset)+ " >> 2];\n"; | 476 result += " result = " + cls.name + "(result);\n"; |
449 result += " if (type in " + cls.name + "_mapping)\n"; | 477 else |
450 result += " result = new (exports[" + cls.name + "_mapping[type]])( result);\n"; | 478 { |
451 result += " else\n"; | 479 result += " var type = HEAP32[result + " + std::to_string(offset)+ " >> 2];\n"; |
452 result += " throw new Error('Unexpected " + cls.name + " type: ' + type);\n"; | 480 result += " if (type in " + cls.name + "_mapping)\n"; |
453 } | 481 result += " result = new (exports[" + cls.name + "_mapping[type]] )(result);\n"; |
454 | 482 result += " else\n"; |
455 result += " }\n"; | 483 result += " throw new Error('Unexpected " + cls.name + " type: ' + type);\n"; |
456 result += " else\n"; | 484 } |
457 result += " result = null;\n"; | 485 |
458 return result; | 486 result += " }\n"; |
459 } | 487 result += " else\n"; |
460 else | 488 result += " result = null;\n"; |
461 throw std::runtime_error("Unexpected return type for " + std::string(call. name)); | 489 return result; |
490 } | |
491 default: | |
492 throw std::runtime_error("Unexpected return type for " + std::string(cal l.name)); | |
493 } | |
462 } | 494 } |
463 | 495 |
464 const std::string wrapCall(const FunctionInfo& call) | 496 const std::string wrapCall(const FunctionInfo& call) |
465 { | 497 { |
466 char buffer[20]; | |
467 bool hasStringArgs = false; | 498 bool hasStringArgs = false; |
468 std::vector<std::string> params; | 499 std::vector<std::string> params; |
469 std::string prefix = "function("; | 500 std::string prefix = "function("; |
470 for (int i = 0; i < call.args.size(); i++) | 501 for (int i = 0; i < call.args.size(); i++) |
471 { | 502 { |
472 sprintf(buffer, "arg%i", i); | 503 std::string argName("arg" + std::to_string(i)); |
473 if (i > 0) | 504 if (i > 0) |
474 prefix += ", "; | 505 prefix += ", "; |
475 prefix += buffer; | 506 prefix += argName; |
476 | 507 |
477 if (call.args[i] == TypeCategory::STRING_REF) | 508 if (call.args[i] == TypeCategory::STRING_REF) |
478 { | 509 { |
479 hasStringArgs = true; | 510 hasStringArgs = true; |
480 params.push_back(std::string("createString(") + buffer + ")"); | 511 params.push_back(std::string("createString(") + argName + ")"); |
481 } | 512 } |
482 else if (call.args[i] == TypeCategory::CLASS_PTR) | 513 else if (call.args[i] == TypeCategory::CLASS_PTR) |
483 params.push_back(std::string(buffer) + "._pointer"); | 514 params.push_back(argName + "._pointer"); |
515 else if (call.args[i] == TypeCategory::INT64) | |
516 { | |
517 // 64-bit integers are passed as two integer parameters | |
518 params.push_back(argName + " >>> 0"); | |
519 params.push_back(argName + " / 0x100000000 >>> 0"); | |
520 } | |
484 else | 521 else |
485 params.push_back(buffer); | 522 params.push_back(argName); |
486 } | 523 } |
487 prefix += ")\n{\n"; | 524 prefix += ")\n{\n"; |
488 | 525 |
489 std::string suffix = "}"; | 526 std::string suffix = "}"; |
490 if (call.returnType != TypeCategory::VOID) | 527 if (call.returnType != TypeCategory::VOID) |
491 suffix = " return result;\n" + suffix; | 528 suffix = " return result;\n" + suffix; |
492 | 529 |
493 if (call.returnType == TypeCategory::DEPENDENT_STRING || | 530 if (call.returnType == TypeCategory::DEPENDENT_STRING || |
494 call.returnType == TypeCategory::OWNED_STRING || hasStringArgs) | 531 call.returnType == TypeCategory::OWNED_STRING || hasStringArgs) |
495 { | 532 { |
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749 bindings_internal::register_differentiator( | 786 bindings_internal::register_differentiator( |
750 bindings_internal::TypeInfo<ClassType>(), offset, mapping); | 787 bindings_internal::TypeInfo<ClassType>(), offset, mapping); |
751 return *this; | 788 return *this; |
752 } | 789 } |
753 }; | 790 }; |
754 | 791 |
755 void custom_generator(bindings_internal::CustomGenerator generator) | 792 void custom_generator(bindings_internal::CustomGenerator generator) |
756 { | 793 { |
757 bindings_internal::customGenerators.push_back(generator); | 794 bindings_internal::customGenerators.push_back(generator); |
758 } | 795 } |
LEFT | RIGHT |