1 /* 2 * Copyright (C) 2015 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 <algorithm> 18 #include <climits> 19 #include <iostream> 20 #include <iterator> 21 #include <sstream> 22 23 #include "Generator.h" 24 #include "Specification.h" 25 #include "Utilities.h" 26 27 using namespace std; 28 29 const unsigned int kMinimumApiLevelForTests = 11; 30 const unsigned int kApiLevelWithFirst64Bit = 21; 31 32 // Used to map the built-in types to their mangled representations 33 struct BuiltInMangling { 34 const char* token[3]; // The last two entries can be nullptr 35 const char* equivalence; // The mangled equivalent 36 }; 37 38 BuiltInMangling builtInMangling[] = { 39 {{"long", "long"}, "x"}, 40 {{"unsigned", "long", "long"}, "y"}, 41 {{"long"}, "l"}, 42 {{"unsigned", "long"}, "m"}, 43 {{"int"}, "i"}, 44 {{"unsigned", "int"}, "j"}, 45 {{"short"}, "s"}, 46 {{"unsigned", "short"}, "t"}, 47 {{"char"}, "c"}, 48 {{"unsigned", "char"}, "h"}, 49 {{"signed", "char"}, "a"}, 50 {{"void"}, "v"}, 51 {{"wchar_t"}, "w"}, 52 {{"bool"}, "b"}, 53 {{"__fp16"}, "Dh"}, 54 {{"float"}, "f"}, 55 {{"double"}, "d"}, 56 }; 57 58 /* For the given API level and bitness (e.g. 32 or 64 bit), try to find a 59 * substitution for the provided type name, as would be done (mostly) by a 60 * preprocessor. Returns empty string if there's no substitution. 61 */ 62 static string findSubstitute(const string& typeName, unsigned int apiLevel, int intSize) { 63 const auto& types = systemSpecification.getTypes(); 64 const auto type = types.find(typeName); 65 if (type != types.end()) { 66 for (TypeSpecification* spec : type->second->getSpecifications()) { 67 // Verify this specification applies 68 const VersionInfo info = spec->getVersionInfo(); 69 if (!info.includesVersion(apiLevel) || (info.intSize != 0 && info.intSize != intSize)) { 70 continue; 71 } 72 switch (spec->getKind()) { 73 case SIMPLE: { 74 return spec->getSimpleType(); 75 } 76 case RS_OBJECT: { 77 // Do nothing for RS object types. 78 break; 79 } 80 case STRUCT: { 81 return spec->getStructName(); 82 } 83 case ENUM: 84 // Do nothing 85 break; 86 } 87 } 88 } 89 return ""; 90 } 91 92 /* Expand the typedefs found in 'type' into their equivalents and tokenize 93 * the resulting list. 'apiLevel' and 'intSize' specifies the API level and bitness 94 * we are currently processing. 95 */ 96 list<string> expandTypedefs(const string type, unsigned int apiLevel, int intSize, string& vectorSize) { 97 // Split the string in tokens. 98 istringstream stream(type); 99 list<string> tokens{istream_iterator<string>{stream}, istream_iterator<string>{}}; 100 // Try to substitue each token. 101 for (auto i = tokens.begin(); i != tokens.end();) { 102 const string substitute = findSubstitute(*i, apiLevel, intSize); 103 if (substitute.empty()) { 104 // No substitution possible, just go to the next token. 105 i++; 106 } else { 107 // Split the replacement string in tokens. 108 istringstream stream(substitute); 109 110 /* Get the new vector size. This is for the case of the type being for example 111 * rs_quaternion* == float4*, where we need the vector size to be 4 for the 112 * purposes of mangling, although the parameter itself is not determined to be 113 * a vector. */ 114 string unused; 115 string newVectorSize; 116 getVectorSizeAndBaseType(*i, newVectorSize, unused); 117 118 istringstream vectorSizeBuf(vectorSize); 119 int vectorSizeVal; 120 vectorSizeBuf >> vectorSizeVal; 121 122 istringstream newVectorSizeBuf(newVectorSize); 123 int newVectorSizeVal; 124 newVectorSizeBuf >> newVectorSizeVal; 125 126 if (newVectorSizeVal > vectorSizeVal) 127 vectorSize = newVectorSize; 128 129 list<string> newTokens{istream_iterator<string>{stream}, istream_iterator<string>{}}; 130 // Replace the token with the substitution. Don't advance, as the new substitution 131 // might itself be replaced. 132 auto prev = i; 133 --prev; 134 tokens.insert(i, newTokens.begin(), newTokens.end()); 135 tokens.erase(i); 136 advance(i, -newTokens.size()); 137 } 138 } 139 return tokens; 140 } 141 142 // Remove the first element of the list if it equals 'prefix'. Return true in that case. 143 static bool eatFront(list<string>* tokens, const char* prefix) { 144 if (tokens->front() == prefix) { 145 tokens->pop_front(); 146 return true; 147 } 148 return false; 149 } 150 151 /* Search the table of translations for the built-ins for the mangling that 152 * corresponds to this list of tokens. If a match is found, consume these tokens 153 * and return a pointer to the string. If not, return nullptr. 154 */ 155 static const char* findManglingOfBuiltInType(list<string>* tokens) { 156 for (const BuiltInMangling& a : builtInMangling) { 157 auto t = tokens->begin(); 158 auto end = tokens->end(); 159 bool match = true; 160 // We match up to three tokens. 161 for (int i = 0; i < 3; i++) { 162 if (!a.token[i]) { 163 // No more tokens 164 break; 165 } 166 if (t == end || *t++ != a.token[i]) { 167 match = false; 168 } 169 } 170 if (match) { 171 tokens->erase(tokens->begin(), t); 172 return a.equivalence; 173 } 174 } 175 return nullptr; 176 } 177 178 // Mangle a long name by prefixing it with its length, e.g. "13rs_allocation". 179 static inline string mangleLongName(const string& name) { 180 return to_string(name.size()) + name; 181 } 182 183 /* Mangle the type name that's represented by the vector size and list of tokens. 184 * The mangling will be returned in full form in 'mangling'. 'compressedMangling' 185 * will have the compressed equivalent. This is built using the 'previousManglings' 186 * list. false is returned if an error is encountered. 187 * 188 * This function is recursive because compression is possible at each level of the definition. 189 * See http://mentorembedded.github.io/cxx-abi/abi.html#mangle.type for a description 190 * of the Itanium mangling used by llvm. 191 * 192 * This function mangles correctly the types currently used by RenderScript. It does 193 * not currently mangle more complicated types like function pointers, namespaces, 194 * or other C++ types. In particular, we don't deal correctly with parenthesis. 195 */ 196 static bool mangleType(string vectorSize, list<string>* tokens, vector<string>* previousManglings, 197 string* mangling, string* compressedMangling) { 198 string delta; // The part of the mangling we're generating for this recursion. 199 bool isTerminal = false; // True if this iteration parses a terminal node in the production. 200 bool canBeCompressed = true; // Will be false for manglings of builtins. 201 202 if (tokens->back() == "*") { 203 delta = "P"; 204 tokens->pop_back(); 205 } else if (eatFront(tokens, "const")) { 206 delta = "K"; 207 } else if (eatFront(tokens, "volatile")) { 208 delta = "V"; 209 } else if (vectorSize != "1" && vectorSize != "") { 210 // For vector, prefix with the abbreviation for a vector, including the size. 211 delta = "Dv" + vectorSize + "_"; 212 vectorSize.clear(); // Reset to mark the size as consumed. 213 } else if (eatFront(tokens, "struct")) { 214 // For a structure, we just use the structure name 215 if (tokens->size() == 0) { 216 cerr << "Expected a name after struct\n"; 217 return false; 218 } 219 delta = mangleLongName(tokens->front()); 220 isTerminal = true; 221 tokens->pop_front(); 222 } else if (eatFront(tokens, "...")) { 223 delta = "z"; 224 isTerminal = true; 225 } else { 226 const char* c = findManglingOfBuiltInType(tokens); 227 if (c) { 228 // It's a basic type. We don't use those directly for compression. 229 delta = c; 230 isTerminal = true; 231 canBeCompressed = false; 232 } else if (tokens->size() > 0) { 233 // It's a complex type name. 234 delta = mangleLongName(tokens->front()); 235 isTerminal = true; 236 tokens->pop_front(); 237 } 238 } 239 240 if (isTerminal) { 241 // If we're the terminal node, there should be nothing left to mangle. 242 if (tokens->size() > 0) { 243 cerr << "Expected nothing else but found"; 244 for (const auto& t : *tokens) { 245 cerr << " " << t; 246 } 247 cerr << "\n"; 248 return false; 249 } 250 *mangling = delta; 251 *compressedMangling = delta; 252 } else { 253 // We're not terminal. Recurse and prefix what we've translated this pass. 254 if (tokens->size() == 0) { 255 cerr << "Expected a more complete type\n"; 256 return false; 257 } 258 string rest, compressedRest; 259 if (!mangleType(vectorSize, tokens, previousManglings, &rest, &compressedRest)) { 260 return false; 261 } 262 *mangling = delta + rest; 263 *compressedMangling = delta + compressedRest; 264 } 265 266 /* If it's a built-in type, we don't look at previously emitted ones and we 267 * don't keep track of it. 268 */ 269 if (!canBeCompressed) { 270 return true; 271 } 272 273 // See if we've encountered this mangling before. 274 for (size_t i = 0; i < previousManglings->size(); ++i) { 275 if ((*previousManglings)[i] == *mangling) { 276 // We have a match, construct an index reference to that previously emitted mangling. 277 ostringstream stream2; 278 stream2 << 'S'; 279 if (i > 0) { 280 stream2 << (char)('0' + i - 1); 281 } 282 stream2 << '_'; 283 *compressedMangling = stream2.str(); 284 return true; 285 } 286 } 287 288 // We have not encountered this before. Add it to the list. 289 previousManglings->push_back(*mangling); 290 return true; 291 } 292 293 // Write to the stream the mangled representation of each parameter. 294 static bool writeParameters(ostringstream* stream, const std::vector<ParameterDefinition*>& params, 295 unsigned int apiLevel, int intSize) { 296 if (params.empty()) { 297 *stream << "v"; 298 return true; 299 } 300 /* We keep track of the previously generated parameter types, as type mangling 301 * is compressed by reusing previous manglings. 302 */ 303 vector<string> previousManglings; 304 for (ParameterDefinition* p : params) { 305 // Expand the typedefs and create a tokenized list. 306 string vectorSize = p->mVectorSize; 307 list<string> tokens = expandTypedefs(p->rsType, apiLevel, intSize, vectorSize); 308 if (p->isOutParameter) { 309 tokens.push_back("*"); 310 } 311 string mangling, compressedMangling; 312 313 if (!mangleType(vectorSize, &tokens, &previousManglings, &mangling, 314 &compressedMangling)) { 315 return false; 316 } 317 *stream << compressedMangling; 318 } 319 return true; 320 } 321 322 /* Add the mangling for this permutation of the function. apiLevel and intSize is used 323 * to select the correct type when expanding complex type. 324 */ 325 static bool addFunctionManglingToSet(const Function& function, 326 const FunctionPermutation& permutation, bool overloadable, 327 unsigned int apiLevel, int intSize, set<string>* allManglings) { 328 const string& functionName = permutation.getName(); 329 string mangling; 330 if (overloadable) { 331 ostringstream stream; 332 stream << "_Z" << mangleLongName(functionName); 333 if (!writeParameters(&stream, permutation.getParams(), apiLevel, intSize)) { 334 cerr << "Error mangling " << functionName << ". See above message.\n"; 335 return false; 336 } 337 mangling = stream.str(); 338 } else { 339 mangling = functionName; 340 } 341 allManglings->insert(mangling); 342 return true; 343 } 344 345 /* Add to the set the mangling of each function prototype that can be generated from this 346 * specification, i.e. for all the versions covered and for 32/64 bits. We call this 347 * for each API level because the implementation of a type may have changed in the range 348 * of API levels covered. 349 */ 350 static bool addManglingsForSpecification(const Function& function, 351 const FunctionSpecification& spec, unsigned int lastApiLevel, 352 set<string>* allManglings) { 353 // If the function is inlined, we won't generate an unresolved external for that. 354 if (spec.hasInline()) { 355 return true; 356 } 357 const VersionInfo info = spec.getVersionInfo(); 358 unsigned int minApiLevel, maxApiLevel; 359 minApiLevel = info.minVersion ? info.minVersion : kMinimumApiLevelForTests; 360 maxApiLevel = info.maxVersion ? info.maxVersion : lastApiLevel; 361 const bool overloadable = spec.isOverloadable(); 362 363 /* We track success rather than aborting early in case of failure so that we 364 * generate all the error messages. 365 */ 366 bool success = true; 367 // Use 64-bit integer here for the loop count to avoid overflow 368 // (minApiLevel == maxApiLevel == UINT_MAX for unreleased API) 369 for (int64_t apiLevel = minApiLevel; apiLevel <= maxApiLevel; ++apiLevel) { 370 for (auto permutation : spec.getPermutations()) { 371 if (info.intSize == 0 || info.intSize == 32) { 372 if (!addFunctionManglingToSet(function, *permutation, overloadable, apiLevel, 32, 373 allManglings)) { 374 success = false; 375 } 376 } 377 if (apiLevel >= kApiLevelWithFirst64Bit && (info.intSize == 0 || info.intSize == 64)) { 378 if (!addFunctionManglingToSet(function, *permutation, overloadable, apiLevel, 64, 379 allManglings)) { 380 success = false; 381 } 382 } 383 } 384 } 385 return success; 386 } 387 388 /* Generate the white list file of the mangled function prototypes. This generated list is used 389 * to validate unresolved external references. 'lastApiLevel' is the largest api level found in 390 * all spec files. 391 */ 392 static bool generateWhiteListFile(unsigned int lastApiLevel) { 393 bool success = true; 394 // We generate all the manglings in a set to remove duplicates and to order them. 395 set<string> allManglings; 396 for (auto f : systemSpecification.getFunctions()) { 397 const Function* function = f.second; 398 for (auto spec : function->getSpecifications()) { 399 // Compiler intrinsics are not runtime APIs. Do not include them in the whitelist. 400 if (spec->isIntrinsic()) { 401 continue; 402 } 403 if (!addManglingsForSpecification(*function, *spec, lastApiLevel, &allManglings)) { 404 success = false; // We continue so we can generate all errors. 405 } 406 } 407 } 408 409 if (success) { 410 GeneratedFile file; 411 if (!file.start(".", "RSStubsWhiteList.cpp")) { 412 return false; 413 } 414 415 file.writeNotices(); 416 file << "#include \"RSStubsWhiteList.h\"\n\n"; 417 file << "std::vector<std::string> stubList = {\n"; 418 for (const auto& e : allManglings) { 419 file << "\"" << e << "\",\n"; 420 } 421 file << "};\n"; 422 } 423 return success; 424 } 425 426 // Add a uniquely named variable definition to the file and return its name. 427 static const string addVariable(GeneratedFile* file, unsigned int* variableNumber) { 428 const string name = "buf" + to_string((*variableNumber)++); 429 /* Some data structures like rs_tm can't be exported. We'll just use a dumb buffer 430 * and cast its address later on. 431 */ 432 *file << "char " << name << "[200];\n"; 433 return name; 434 } 435 436 /* Write to the file the globals needed to make the call for this permutation. The actual 437 * call is stored in 'calls', as we'll need to generate all the global variable declarations 438 * before the function definition. 439 */ 440 static void generateTestCall(GeneratedFile* file, ostringstream* calls, 441 unsigned int* variableNumber, const Function& function, 442 const FunctionPermutation& permutation) { 443 *calls << " "; 444 445 // Handle the return type. 446 const auto ret = permutation.getReturn(); 447 if (ret && ret->rsType != "void" && ret->rsType != "const void") { 448 *calls << "*(" << ret->rsType << "*)" << addVariable(file, variableNumber) << " = "; 449 } 450 451 *calls << permutation.getName() << "("; 452 453 // Generate the arguments. 454 const char* separator = ""; 455 for (auto p : permutation.getParams()) { 456 *calls << separator; 457 if (p->rsType == "rs_kernel_context") { 458 // Special case for the kernel context, as it has a special existence. 459 *calls << "context"; 460 } else if (p->rsType == "...") { 461 // Special case for varargs. No need for casting. 462 *calls << addVariable(file, variableNumber); 463 } else if (p->isOutParameter) { 464 *calls << "(" << p->rsType << "*) " << addVariable(file, variableNumber); 465 } else { 466 *calls << "*(" << p->rsType << "*)" << addVariable(file, variableNumber); 467 } 468 separator = ", "; 469 } 470 *calls << ");\n"; 471 } 472 473 /* Generate a test file that will be used in the frameworks/compile/slang/tests unit tests. 474 * This file tests that all RenderScript APIs can be called for the specified API level. 475 * To avoid the compiler agressively pruning out our calls, we use globals as inputs and outputs. 476 * 477 * Since some structures can't be defined at the global level, we use casts of simple byte 478 * buffers to get around that restriction. 479 * 480 * This file can be used to verify the white list that's also generated in this file. To do so, 481 * run "llvm-nm -undefined-only -just-symbol-name" on the resulting bit code. 482 */ 483 static bool generateApiTesterFile(const string& slangTestDirectory, unsigned int apiLevel) { 484 GeneratedFile file; 485 if (!file.start(slangTestDirectory, "all" + to_string(apiLevel) + ".rs")) { 486 return false; 487 } 488 489 /* This unusual comment is used by slang/tests/test.py to know which parameter to pass 490 * to llvm-rs-cc when compiling the test. 491 */ 492 file << "// -target-api " << apiLevel << " -Wno-deprecated-declarations\n"; 493 494 file.writeNotices(); 495 file << "#pragma version(1)\n"; 496 file << "#pragma rs java_package_name(com.example.renderscript.testallapi)\n\n"; 497 if (apiLevel < 23) { // All rs_graphics APIs were deprecated in api level 23. 498 file << "#include \"rs_graphics.rsh\"\n\n"; 499 } 500 501 /* The code below emits globals and calls to functions in parallel. We store 502 * the calls in a stream so that we can emit them in the file in the proper order. 503 */ 504 ostringstream calls; 505 unsigned int variableNumber = 0; // Used to generate unique names. 506 for (auto f : systemSpecification.getFunctions()) { 507 const Function* function = f.second; 508 for (auto spec : function->getSpecifications()) { 509 // Do not include internal APIs in the API tests. 510 if (spec->isInternal()) { 511 continue; 512 } 513 VersionInfo info = spec->getVersionInfo(); 514 if (!info.includesVersion(apiLevel)) { 515 continue; 516 } 517 if (info.intSize == 32) { 518 calls << "#ifndef __LP64__\n"; 519 } else if (info.intSize == 64) { 520 calls << "#ifdef __LP64__\n"; 521 } 522 for (auto permutation : spec->getPermutations()) { 523 // http://b/27358969 Do not test rsForEach in the all-api test. 524 if (apiLevel >= 24 && permutation->getName().compare(0, 9, "rsForEach") == 0) 525 continue; 526 generateTestCall(&file, &calls, &variableNumber, *function, *permutation); 527 } 528 if (info.intSize != 0) { 529 calls << "#endif\n"; 530 } 531 } 532 } 533 file << "\n"; 534 535 // Modify the style of kernel as required by the API level. 536 if (apiLevel >= 23) { 537 file << "void RS_KERNEL test(int in, rs_kernel_context context) {\n"; 538 } else if (apiLevel >= 17) { 539 file << "void RS_KERNEL test(int in) {\n"; 540 } else { 541 file << "void root(const int* in) {\n"; 542 } 543 file << calls.str(); 544 file << "}\n"; 545 546 return true; 547 } 548 549 bool generateStubsWhiteList(const string& slangTestDirectory, unsigned int maxApiLevel) { 550 unsigned int lastApiLevel = min(systemSpecification.getMaximumApiLevel(), maxApiLevel); 551 if (!generateWhiteListFile(lastApiLevel)) { 552 return false; 553 } 554 // Generate a test file for each apiLevel. 555 for (unsigned int i = kMinimumApiLevelForTests; i <= lastApiLevel; ++i) { 556 if (!generateApiTesterFile(slangTestDirectory, i)) { 557 return false; 558 } 559 } 560 return true; 561 } 562
