/* * Copyright 2011-2012, The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // This file corresponds to the standalone bcinfo tool. It prints a variety of // information about a supplied bitcode input file. std::string inFile; std::string outFile; std::string infoFile; extern int opterr; extern int optind; bool translateFlag = false; bool infoFlag = false; bool verbose = true; static int parseOption(int argc, char** argv) { int c; while ((c = getopt(argc, argv, "itv")) != -1) { opterr = 0; switch(c) { case '?': // ignore any error break; case 't': translateFlag = true; break; case 'i': // Turn off verbose so that we only generate the .info file. infoFlag = true; verbose = false; break; case 'v': verbose = true; break; default: // Critical error occurs return 0; break; } } if(optind >= argc) { fprintf(stderr, "input file required\n"); return 0; } inFile = argv[optind]; int l = inFile.length(); if (l > 3 && inFile[l-3] == '.' && inFile[l-2] == 'b' && inFile[l-1] == 'c') { outFile = std::string(inFile.begin(), inFile.end() - 3) + ".ll"; infoFile = std::string(inFile.begin(), inFile.end() - 3) + ".bcinfo"; } else { outFile = inFile + ".ll"; infoFile = inFile + ".bcinfo"; } return 1; } static void dumpReduceInfo(FILE *info, const char *Kind, const char *Name) { if (Name) fprintf(info, " %s(%s)\n", Kind, Name); } static int dumpInfo(bcinfo::MetadataExtractor *ME) { if (!ME) { return 1; } FILE *info = fopen(infoFile.c_str(), "w"); if (!info) { fprintf(stderr, "Could not open info file %s\n", infoFile.c_str()); return 2; } fprintf(info, "exportVarCount: %zu\n", ME->getExportVarCount()); const char **varNameList = ME->getExportVarNameList(); for (size_t i = 0; i < ME->getExportVarCount(); i++) { fprintf(info, "%s\n", varNameList[i]); } fprintf(info, "exportFuncCount: %zu\n", ME->getExportFuncCount()); const char **funcNameList = ME->getExportFuncNameList(); for (size_t i = 0; i < ME->getExportFuncCount(); i++) { fprintf(info, "%s\n", funcNameList[i]); } fprintf(info, "exportForEachCount: %zu\n", ME->getExportForEachSignatureCount()); const char **nameList = ME->getExportForEachNameList(); const uint32_t *sigList = ME->getExportForEachSignatureList(); const uint32_t *inputCountList = ME->getExportForEachInputCountList(); for (size_t i = 0; i < ME->getExportForEachSignatureCount(); i++) { fprintf(info, "%u - %s - %u\n", sigList[i], nameList[i], inputCountList[i]); } fprintf(info, "exportReduceCount: %zu\n", ME->getExportReduceCount()); const bcinfo::MetadataExtractor::Reduce *reduceList = ME->getExportReduceList(); for (size_t i = 0; i < ME->getExportReduceCount(); i++) { const bcinfo::MetadataExtractor::Reduce &reduce = reduceList[i]; fprintf(info, "%u - %s - %u - %u\n", reduce.mSignature, reduce.mReduceName, reduce.mInputCount, reduce.mAccumulatorDataSize); dumpReduceInfo(info, "initializer", reduce.mInitializerName); dumpReduceInfo(info, "accumulator", reduce.mAccumulatorName); dumpReduceInfo(info, "combiner", reduce.mCombinerName); dumpReduceInfo(info, "outconverter", reduce.mOutConverterName); dumpReduceInfo(info, "halter", reduce.mHalterName); } fprintf(info, "objectSlotCount: %zu\n", ME->getObjectSlotCount()); const uint32_t *slotList = ME->getObjectSlotList(); for (size_t i = 0; i < ME->getObjectSlotCount(); i++) { fprintf(info, "%u\n", slotList[i]); } fclose(info); return 0; } static void dumpMetadata(bcinfo::MetadataExtractor *ME) { if (!ME) { return; } printf("RSFloatPrecision: "); switch (ME->getRSFloatPrecision()) { case bcinfo::RS_FP_Full: printf("Full\n\n"); break; case bcinfo::RS_FP_Relaxed: printf("Relaxed\n\n"); break; default: printf("UNKNOWN\n\n"); break; } printf("exportVarCount: %zu\n", ME->getExportVarCount()); const char **varNameList = ME->getExportVarNameList(); for (size_t i = 0; i < ME->getExportVarCount(); i++) { printf("var[%zu]: %s\n", i, varNameList[i]); } printf("\n"); printf("exportFuncCount: %zu\n", ME->getExportFuncCount()); const char **funcNameList = ME->getExportFuncNameList(); for (size_t i = 0; i < ME->getExportFuncCount(); i++) { printf("func[%zu]: %s\n", i, funcNameList[i]); } printf("\n"); printf("exportForEachSignatureCount: %zu\n", ME->getExportForEachSignatureCount()); const char **nameList = ME->getExportForEachNameList(); const uint32_t *sigList = ME->getExportForEachSignatureList(); const uint32_t *inputCountList = ME->getExportForEachInputCountList(); for (size_t i = 0; i < ME->getExportForEachSignatureCount(); i++) { printf("exportForEachSignatureList[%zu]: %s - 0x%08x - %u\n", i, nameList[i], sigList[i], inputCountList[i]); } printf("\n"); printf("exportReduceCount: %zu\n", ME->getExportReduceCount()); const bcinfo::MetadataExtractor::Reduce *reduceList = ME->getExportReduceList(); for (size_t i = 0; i < ME->getExportReduceCount(); i++) { const bcinfo::MetadataExtractor::Reduce &reduce = reduceList[i]; printf("exportReduceList[%zu]: %s - 0x%08x - %u - %u\n", i, reduce.mReduceName, reduce.mSignature, reduce.mInputCount, reduce.mAccumulatorDataSize); dumpReduceInfo(stdout, "initializer", reduce.mInitializerName); dumpReduceInfo(stdout, "accumulator", reduce.mAccumulatorName); dumpReduceInfo(stdout, "combiner", reduce.mCombinerName); dumpReduceInfo(stdout, "outconverter", reduce.mOutConverterName); dumpReduceInfo(stdout, "halter", reduce.mHalterName); } printf("\n"); printf("pragmaCount: %zu\n", ME->getPragmaCount()); const char **keyList = ME->getPragmaKeyList(); const char **valueList = ME->getPragmaValueList(); for (size_t i = 0; i < ME->getPragmaCount(); i++) { printf("pragma[%zu]: %s - %s\n", i, keyList[i], valueList[i]); } printf("\n"); printf("objectSlotCount: %zu\n", ME->getObjectSlotCount()); const uint32_t *slotList = ME->getObjectSlotList(); for (size_t i = 0; i < ME->getObjectSlotCount(); i++) { printf("objectSlotList[%zu]: %u\n", i, slotList[i]); } printf("\n"); return; } static size_t readBitcode(const char **bitcode) { if (!inFile.length()) { fprintf(stderr, "input file required\n"); return 0; } struct stat statInFile; if (stat(inFile.c_str(), &statInFile) < 0) { fprintf(stderr, "Unable to stat input file: %s\n", strerror(errno)); return 0; } if (!S_ISREG(statInFile.st_mode)) { fprintf(stderr, "Input file should be a regular file.\n"); return 0; } FILE *in = fopen(inFile.c_str(), "r"); if (!in) { fprintf(stderr, "Could not open input file %s\n", inFile.c_str()); return 0; } size_t bitcodeSize = statInFile.st_size; *bitcode = (const char*) calloc(1, bitcodeSize + 1); size_t nread = fread((void*) *bitcode, 1, bitcodeSize, in); if (nread != bitcodeSize) fprintf(stderr, "Could not read all of file %s\n", inFile.c_str()); fclose(in); return nread; } static void releaseBitcode(const char **bitcode) { if (bitcode && *bitcode) { free((void*) *bitcode); *bitcode = nullptr; } return; } int main(int argc, char** argv) { if(!parseOption(argc, argv)) { fprintf(stderr, "failed to parse option\n"); return 1; } const char *bitcode = nullptr; size_t bitcodeSize = readBitcode(&bitcode); unsigned int version = 0; bcinfo::BitcodeWrapper bcWrapper((const char *)bitcode, bitcodeSize); if (bcWrapper.getBCFileType() == bcinfo::BC_WRAPPER) { version = bcWrapper.getTargetAPI(); if (verbose) { printf("Found bitcodeWrapper\n"); } } else if (translateFlag) { version = 12; } if (verbose) { printf("targetAPI: %u\n", version); printf("compilerVersion: %u\n", bcWrapper.getCompilerVersion()); printf("optimizationLevel: %u\n\n", bcWrapper.getOptimizationLevel()); } std::unique_ptr BT; BT.reset(new bcinfo::BitcodeTranslator(bitcode, bitcodeSize, version)); if (!BT->translate()) { fprintf(stderr, "failed to translate bitcode\n"); return 3; } std::unique_ptr ME; ME.reset(new bcinfo::MetadataExtractor(BT->getTranslatedBitcode(), BT->getTranslatedBitcodeSize())); if (!ME->extract()) { fprintf(stderr, "failed to get metadata\n"); return 4; } if (verbose) { dumpMetadata(ME.get()); const char *translatedBitcode = BT->getTranslatedBitcode(); size_t translatedBitcodeSize = BT->getTranslatedBitcodeSize(); llvm::LLVMContext &ctx = llvm::getGlobalContext(); llvm::llvm_shutdown_obj called_on_exit; std::unique_ptr mem; mem = llvm::MemoryBuffer::getMemBuffer( llvm::StringRef(translatedBitcode, translatedBitcodeSize), inFile.c_str(), false); std::unique_ptr module; llvm::ErrorOr > moduleOrError = llvm::parseBitcodeFile(mem.get()->getMemBufferRef(), ctx); std::error_code ec = moduleOrError.getError(); if (!ec) { module = std::move(moduleOrError.get()); ec = module->materializeAll(); } std::string errmsg; if (ec) { errmsg = ec.message(); module.reset(); if (errmsg.size()) { fprintf(stderr, "error: %s\n", errmsg.c_str()); } else { fprintf(stderr, "error: failed to parse bitcode file\n"); } return 5; } std::unique_ptr tof( new llvm::tool_output_file(outFile.c_str(), ec, llvm::sys::fs::F_None)); std::unique_ptr ann; module->print(tof->os(), ann.get()); tof->keep(); } if (infoFlag) { if (dumpInfo(ME.get()) != 0) { fprintf(stderr, "Error dumping info file\n"); return 6; } } releaseBitcode(&bitcode); return 0; }