Searched refs:Binary (Results 1 – 14 of 14) sorted by relevance
| /system/extras/simpleperf/ |
| D | RecordReadThread_test.cpp | 85 memcpy(&header, record->Binary(), sizeof(header)); in TEST()
87 memcpy(dest, record->Binary() + pos, size); in TEST()
184 memcpy(&buffer[data_pos], records[0]->Binary(), 4); in TEST()
185 memcpy(&buffer[0], records[0]->Binary() + 4, records[0]->size() - 4); in TEST()
188 memcpy(&buffer[pos], records[i]->Binary(), records[i]->size()); in TEST()
208 ASSERT_EQ(0, memcmp(&data[0], records[i]->Binary(), records[i]->size())); in TEST()
221 buffer.insert(buffer.end(), records_[i]->Binary(), in CreateFakeEventFds()
222 records_[i]->Binary() + records_[i]->size()); in CreateFakeEventFds()
288 memcmp(r->Binary(), expected->Binary(), r->size()) != 0) { in TEST_F()
372 if (r->size() != expected->size() || memcmp(r->Binary(), expected->Binary(), r->size()) != 0) { in TEST_F()
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| D | etm_branch_list.proto | 23 message Binary { message
65 repeated Binary binaries = 2;
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| D | record_file_writer.cpp | 135 bool result = WriteData(record.Binary(), record.size()); in WriteRecord()
143 const char* p = record.Binary(); in WriteRecord()
257 if (!Write(record.Binary(), record.size())) { in WriteBuildIdFeature()
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| D | MapRecordReader.cpp | 134 if (fwrite(record->Binary(), record->size(), 1, fp_.get()) != 1) { in WriteRecordToFile()
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| D | RecordReadThread.cpp | 310 auxtrace->location.addr = r->Binary() + r->size(); in GetRecord()
600 MoveToBinaryFormat(auxtrace.Binary(), auxtrace.size(), p); in ReadAuxDataFromKernelBuffer()
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| D | record.h | 253 const char* Binary() const { return binary_; } in Binary() function
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| D | read_elf.cpp | 145 std::unique_ptr<llvm::object::Binary> binary;
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| /system/bt/gd/rust/facade/ |
| D | Cargo.toml | 35 # Binary-only deps
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| /system/sepolicy/private/ |
| D | odsign.te | 4 # odsign - Binary for signing ART artifacts.
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| /system/sepolicy/prebuilts/api/31.0/private/ |
| D | odsign.te | 4 # odsign - Binary for signing ART artifacts.
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| /system/chre/doc/ |
| D | compatibility.md | 16 * **Binary compatibility**, which means that a nanoapp binary which has been
73 ## Binary Backward Compatibility and the NSL
123 ## Binary Forward Compatibility and Framework Requirements
149 CHRE does not define a standard Application Binary Interface (ABI) - this is
192 * Binary compatibility at this stage must be maintained. For example the NSL
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| D | nanoapp_developer_guide.md | 47 ### Building the Nanoapp Binary
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| /system/bt/gd/docs/testing/ |
| D | gtest.md | 17 ### Test Binary
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| /system/chre/pal/doc/ |
| D | Doxyfile | 35 PROJECT_NAME = "CHRE Binary PAL API"
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