Java Code Examples for com.google.android.exoplayer2.util.ParsableByteArray#reset()
The following examples show how to use
com.google.android.exoplayer2.util.ParsableByteArray#reset() .
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Example 1
Source File: Ac4Util.java From MediaSDK with Apache License 2.0 | 5 votes |
/** Populates {@code buffer} with an AC-4 sample header for a sample of the specified size. */ public static void getAc4SampleHeader(int size, ParsableByteArray buffer) { // See ETSI TS 103 190-1 V1.3.1, Annex G. buffer.reset(/* limit= */ 7); buffer.data[0] = (byte) 0xAC; buffer.data[1] = 0x40; buffer.data[2] = (byte) 0xFF; buffer.data[3] = (byte) 0xFF; buffer.data[4] = (byte) ((size >> 16) & 0xFF); buffer.data[5] = (byte) ((size >> 8) & 0xFF); buffer.data[6] = (byte) (size & 0xFF); }
Example 2
Source File: Ac4Util.java From Telegram-FOSS with GNU General Public License v2.0 | 5 votes |
/** Populates {@code buffer} with an AC-4 sample header for a sample of the specified size. */ public static void getAc4SampleHeader(int size, ParsableByteArray buffer) { // See ETSI TS 103 190-1 V1.3.1, Annex G. buffer.reset(/* limit= */ 7); buffer.data[0] = (byte) 0xAC; buffer.data[1] = 0x40; buffer.data[2] = (byte) 0xFF; buffer.data[3] = (byte) 0xFF; buffer.data[4] = (byte) ((size >> 16) & 0xFF); buffer.data[5] = (byte) ((size >> 8) & 0xFF); buffer.data[6] = (byte) (size & 0xFF); }
Example 3
Source File: Ac4Util.java From Telegram with GNU General Public License v2.0 | 5 votes |
/** Populates {@code buffer} with an AC-4 sample header for a sample of the specified size. */ public static void getAc4SampleHeader(int size, ParsableByteArray buffer) { // See ETSI TS 103 190-1 V1.3.1, Annex G. buffer.reset(/* limit= */ 7); buffer.data[0] = (byte) 0xAC; buffer.data[1] = 0x40; buffer.data[2] = (byte) 0xFF; buffer.data[3] = (byte) 0xFF; buffer.data[4] = (byte) ((size >> 16) & 0xFF); buffer.data[5] = (byte) ((size >> 8) & 0xFF); buffer.data[6] = (byte) (size & 0xFF); }
Example 4
Source File: Sniffer.java From MediaSDK with Apache License 2.0 | 4 votes |
private static boolean sniffInternal(ExtractorInput input, boolean fragmented) throws IOException, InterruptedException { long inputLength = input.getLength(); int bytesToSearch = (int) (inputLength == C.LENGTH_UNSET || inputLength > SEARCH_LENGTH ? SEARCH_LENGTH : inputLength); ParsableByteArray buffer = new ParsableByteArray(64); int bytesSearched = 0; boolean foundGoodFileType = false; boolean isFragmented = false; while (bytesSearched < bytesToSearch) { // Read an atom header. int headerSize = Atom.HEADER_SIZE; buffer.reset(headerSize); input.peekFully(buffer.data, 0, headerSize); long atomSize = buffer.readUnsignedInt(); int atomType = buffer.readInt(); if (atomSize == Atom.DEFINES_LARGE_SIZE) { // Read the large atom size. headerSize = Atom.LONG_HEADER_SIZE; input.peekFully(buffer.data, Atom.HEADER_SIZE, Atom.LONG_HEADER_SIZE - Atom.HEADER_SIZE); buffer.setLimit(Atom.LONG_HEADER_SIZE); atomSize = buffer.readLong(); } else if (atomSize == Atom.EXTENDS_TO_END_SIZE) { // The atom extends to the end of the file. long fileEndPosition = input.getLength(); if (fileEndPosition != C.LENGTH_UNSET) { atomSize = fileEndPosition - input.getPeekPosition() + headerSize; } } if (atomSize < headerSize) { // The file is invalid because the atom size is too small for its header. return false; } bytesSearched += headerSize; if (atomType == Atom.TYPE_moov) { // We have seen the moov atom. We increase the search size to make sure we don't miss an // mvex atom because the moov's size exceeds the search length. bytesToSearch += (int) atomSize; if (inputLength != C.LENGTH_UNSET && bytesToSearch > inputLength) { // Make sure we don't exceed the file size. bytesToSearch = (int) inputLength; } // Check for an mvex atom inside the moov atom to identify whether the file is fragmented. continue; } if (atomType == Atom.TYPE_moof || atomType == Atom.TYPE_mvex) { // The movie is fragmented. Stop searching as we must have read any ftyp atom already. isFragmented = true; break; } if (bytesSearched + atomSize - headerSize >= bytesToSearch) { // Stop searching as peeking this atom would exceed the search limit. break; } int atomDataSize = (int) (atomSize - headerSize); bytesSearched += atomDataSize; if (atomType == Atom.TYPE_ftyp) { // Parse the atom and check the file type/brand is compatible with the extractors. if (atomDataSize < 8) { return false; } buffer.reset(atomDataSize); input.peekFully(buffer.data, 0, atomDataSize); int brandsCount = atomDataSize / 4; for (int i = 0; i < brandsCount; i++) { if (i == 1) { // This index refers to the minorVersion, not a brand, so skip it. buffer.skipBytes(4); } else if (isCompatibleBrand(buffer.readInt())) { foundGoodFileType = true; break; } } if (!foundGoodFileType) { // The types were not compatible and there is only one ftyp atom, so reject the file. return false; } } else if (atomDataSize != 0) { // Skip the atom. input.advancePeekPosition(atomDataSize); } } return foundGoodFileType && fragmented == isFragmented; }
Example 5
Source File: Sniffer.java From TelePlus-Android with GNU General Public License v2.0 | 4 votes |
private static boolean sniffInternal(ExtractorInput input, boolean fragmented) throws IOException, InterruptedException { long inputLength = input.getLength(); int bytesToSearch = (int) (inputLength == C.LENGTH_UNSET || inputLength > SEARCH_LENGTH ? SEARCH_LENGTH : inputLength); ParsableByteArray buffer = new ParsableByteArray(64); int bytesSearched = 0; boolean foundGoodFileType = false; boolean isFragmented = false; while (bytesSearched < bytesToSearch) { // Read an atom header. int headerSize = Atom.HEADER_SIZE; buffer.reset(headerSize); input.peekFully(buffer.data, 0, headerSize); long atomSize = buffer.readUnsignedInt(); int atomType = buffer.readInt(); if (atomSize == Atom.DEFINES_LARGE_SIZE) { // Read the large atom size. headerSize = Atom.LONG_HEADER_SIZE; input.peekFully(buffer.data, Atom.HEADER_SIZE, Atom.LONG_HEADER_SIZE - Atom.HEADER_SIZE); buffer.setLimit(Atom.LONG_HEADER_SIZE); atomSize = buffer.readUnsignedLongToLong(); } else if (atomSize == Atom.EXTENDS_TO_END_SIZE) { // The atom extends to the end of the file. long endPosition = input.getLength(); if (endPosition != C.LENGTH_UNSET) { atomSize = endPosition - input.getPosition() + headerSize; } } if (atomSize < headerSize) { // The file is invalid because the atom size is too small for its header. return false; } bytesSearched += headerSize; if (atomType == Atom.TYPE_moov) { // Check for an mvex atom inside the moov atom to identify whether the file is fragmented. continue; } if (atomType == Atom.TYPE_moof || atomType == Atom.TYPE_mvex) { // The movie is fragmented. Stop searching as we must have read any ftyp atom already. isFragmented = true; break; } if (bytesSearched + atomSize - headerSize >= bytesToSearch) { // Stop searching as peeking this atom would exceed the search limit. break; } int atomDataSize = (int) (atomSize - headerSize); bytesSearched += atomDataSize; if (atomType == Atom.TYPE_ftyp) { // Parse the atom and check the file type/brand is compatible with the extractors. if (atomDataSize < 8) { return false; } buffer.reset(atomDataSize); input.peekFully(buffer.data, 0, atomDataSize); int brandsCount = atomDataSize / 4; for (int i = 0; i < brandsCount; i++) { if (i == 1) { // This index refers to the minorVersion, not a brand, so skip it. buffer.skipBytes(4); } else if (isCompatibleBrand(buffer.readInt())) { foundGoodFileType = true; break; } } if (!foundGoodFileType) { // The types were not compatible and there is only one ftyp atom, so reject the file. return false; } } else if (atomDataSize != 0) { // Skip the atom. input.advancePeekPosition(atomDataSize); } } return foundGoodFileType && fragmented == isFragmented; }
Example 6
Source File: Sniffer.java From TelePlus-Android with GNU General Public License v2.0 | 4 votes |
private static boolean sniffInternal(ExtractorInput input, boolean fragmented) throws IOException, InterruptedException { long inputLength = input.getLength(); int bytesToSearch = (int) (inputLength == C.LENGTH_UNSET || inputLength > SEARCH_LENGTH ? SEARCH_LENGTH : inputLength); ParsableByteArray buffer = new ParsableByteArray(64); int bytesSearched = 0; boolean foundGoodFileType = false; boolean isFragmented = false; while (bytesSearched < bytesToSearch) { // Read an atom header. int headerSize = Atom.HEADER_SIZE; buffer.reset(headerSize); input.peekFully(buffer.data, 0, headerSize); long atomSize = buffer.readUnsignedInt(); int atomType = buffer.readInt(); if (atomSize == Atom.DEFINES_LARGE_SIZE) { // Read the large atom size. headerSize = Atom.LONG_HEADER_SIZE; input.peekFully(buffer.data, Atom.HEADER_SIZE, Atom.LONG_HEADER_SIZE - Atom.HEADER_SIZE); buffer.setLimit(Atom.LONG_HEADER_SIZE); atomSize = buffer.readUnsignedLongToLong(); } else if (atomSize == Atom.EXTENDS_TO_END_SIZE) { // The atom extends to the end of the file. long endPosition = input.getLength(); if (endPosition != C.LENGTH_UNSET) { atomSize = endPosition - input.getPosition() + headerSize; } } if (atomSize < headerSize) { // The file is invalid because the atom size is too small for its header. return false; } bytesSearched += headerSize; if (atomType == Atom.TYPE_moov) { // Check for an mvex atom inside the moov atom to identify whether the file is fragmented. continue; } if (atomType == Atom.TYPE_moof || atomType == Atom.TYPE_mvex) { // The movie is fragmented. Stop searching as we must have read any ftyp atom already. isFragmented = true; break; } if (bytesSearched + atomSize - headerSize >= bytesToSearch) { // Stop searching as peeking this atom would exceed the search limit. break; } int atomDataSize = (int) (atomSize - headerSize); bytesSearched += atomDataSize; if (atomType == Atom.TYPE_ftyp) { // Parse the atom and check the file type/brand is compatible with the extractors. if (atomDataSize < 8) { return false; } buffer.reset(atomDataSize); input.peekFully(buffer.data, 0, atomDataSize); int brandsCount = atomDataSize / 4; for (int i = 0; i < brandsCount; i++) { if (i == 1) { // This index refers to the minorVersion, not a brand, so skip it. buffer.skipBytes(4); } else if (isCompatibleBrand(buffer.readInt())) { foundGoodFileType = true; break; } } if (!foundGoodFileType) { // The types were not compatible and there is only one ftyp atom, so reject the file. return false; } } else if (atomDataSize != 0) { // Skip the atom. input.advancePeekPosition(atomDataSize); } } return foundGoodFileType && fragmented == isFragmented; }
Example 7
Source File: Sniffer.java From K-Sonic with MIT License | 4 votes |
private static boolean sniffInternal(ExtractorInput input, boolean fragmented) throws IOException, InterruptedException { long inputLength = input.getLength(); int bytesToSearch = (int) (inputLength == C.LENGTH_UNSET || inputLength > SEARCH_LENGTH ? SEARCH_LENGTH : inputLength); ParsableByteArray buffer = new ParsableByteArray(64); int bytesSearched = 0; boolean foundGoodFileType = false; boolean isFragmented = false; while (bytesSearched < bytesToSearch) { // Read an atom header. int headerSize = Atom.HEADER_SIZE; buffer.reset(headerSize); input.peekFully(buffer.data, 0, headerSize); long atomSize = buffer.readUnsignedInt(); int atomType = buffer.readInt(); if (atomSize == Atom.LONG_SIZE_PREFIX) { headerSize = Atom.LONG_HEADER_SIZE; input.peekFully(buffer.data, Atom.HEADER_SIZE, Atom.LONG_HEADER_SIZE - Atom.HEADER_SIZE); buffer.setLimit(Atom.LONG_HEADER_SIZE); atomSize = buffer.readUnsignedLongToLong(); } if (atomSize < headerSize) { // The file is invalid because the atom size is too small for its header. return false; } bytesSearched += headerSize; if (atomType == Atom.TYPE_moov) { // Check for an mvex atom inside the moov atom to identify whether the file is fragmented. continue; } if (atomType == Atom.TYPE_moof || atomType == Atom.TYPE_mvex) { // The movie is fragmented. Stop searching as we must have read any ftyp atom already. isFragmented = true; break; } if (bytesSearched + atomSize - headerSize >= bytesToSearch) { // Stop searching as peeking this atom would exceed the search limit. break; } int atomDataSize = (int) (atomSize - headerSize); bytesSearched += atomDataSize; if (atomType == Atom.TYPE_ftyp) { // Parse the atom and check the file type/brand is compatible with the extractors. if (atomDataSize < 8) { return false; } buffer.reset(atomDataSize); input.peekFully(buffer.data, 0, atomDataSize); int brandsCount = atomDataSize / 4; for (int i = 0; i < brandsCount; i++) { if (i == 1) { // This index refers to the minorVersion, not a brand, so skip it. buffer.skipBytes(4); } else if (isCompatibleBrand(buffer.readInt())) { foundGoodFileType = true; break; } } if (!foundGoodFileType) { // The types were not compatible and there is only one ftyp atom, so reject the file. return false; } } else if (atomDataSize != 0) { // Skip the atom. input.advancePeekPosition(atomDataSize); } } return foundGoodFileType && fragmented == isFragmented; }
Example 8
Source File: Sniffer.java From Telegram-FOSS with GNU General Public License v2.0 | 4 votes |
private static boolean sniffInternal(ExtractorInput input, boolean fragmented) throws IOException, InterruptedException { long inputLength = input.getLength(); int bytesToSearch = (int) (inputLength == C.LENGTH_UNSET || inputLength > SEARCH_LENGTH ? SEARCH_LENGTH : inputLength); ParsableByteArray buffer = new ParsableByteArray(64); int bytesSearched = 0; boolean foundGoodFileType = false; boolean isFragmented = false; while (bytesSearched < bytesToSearch) { // Read an atom header. int headerSize = Atom.HEADER_SIZE; buffer.reset(headerSize); input.peekFully(buffer.data, 0, headerSize); long atomSize = buffer.readUnsignedInt(); int atomType = buffer.readInt(); if (atomSize == Atom.DEFINES_LARGE_SIZE) { // Read the large atom size. headerSize = Atom.LONG_HEADER_SIZE; input.peekFully(buffer.data, Atom.HEADER_SIZE, Atom.LONG_HEADER_SIZE - Atom.HEADER_SIZE); buffer.setLimit(Atom.LONG_HEADER_SIZE); atomSize = buffer.readLong(); } else if (atomSize == Atom.EXTENDS_TO_END_SIZE) { // The atom extends to the end of the file. long fileEndPosition = input.getLength(); if (fileEndPosition != C.LENGTH_UNSET) { atomSize = fileEndPosition - input.getPeekPosition() + headerSize; } } if (inputLength != C.LENGTH_UNSET && bytesSearched + atomSize > inputLength + 10) { //added small trashhold for buggy files // The file is invalid because the atom extends past the end of the file. return false; } if (atomSize < headerSize) { // The file is invalid because the atom size is too small for its header. return false; } bytesSearched += headerSize; if (atomType == Atom.TYPE_moov) { // We have seen the moov atom. We increase the search size to make sure we don't miss an // mvex atom because the moov's size exceeds the search length. bytesToSearch += (int) atomSize; if (inputLength != C.LENGTH_UNSET && bytesToSearch > inputLength) { // Make sure we don't exceed the file size. bytesToSearch = (int) inputLength; } // Check for an mvex atom inside the moov atom to identify whether the file is fragmented. continue; } if (atomType == Atom.TYPE_moof || atomType == Atom.TYPE_mvex) { // The movie is fragmented. Stop searching as we must have read any ftyp atom already. isFragmented = true; break; } if (bytesSearched + atomSize - headerSize >= bytesToSearch) { // Stop searching as peeking this atom would exceed the search limit. break; } int atomDataSize = (int) (atomSize - headerSize); bytesSearched += atomDataSize; if (atomType == Atom.TYPE_ftyp) { // Parse the atom and check the file type/brand is compatible with the extractors. if (atomDataSize < 8) { return false; } buffer.reset(atomDataSize); input.peekFully(buffer.data, 0, atomDataSize); int brandsCount = atomDataSize / 4; for (int i = 0; i < brandsCount; i++) { if (i == 1) { // This index refers to the minorVersion, not a brand, so skip it. buffer.skipBytes(4); } else if (isCompatibleBrand(buffer.readInt())) { foundGoodFileType = true; break; } } if (!foundGoodFileType) { // The types were not compatible and there is only one ftyp atom, so reject the file. return false; } } else if (atomDataSize != 0) { // Skip the atom. input.advancePeekPosition(atomDataSize); } } return foundGoodFileType && fragmented == isFragmented; }
Example 9
Source File: Sniffer.java From Telegram with GNU General Public License v2.0 | 4 votes |
private static boolean sniffInternal(ExtractorInput input, boolean fragmented) throws IOException, InterruptedException { long inputLength = input.getLength(); int bytesToSearch = (int) (inputLength == C.LENGTH_UNSET || inputLength > SEARCH_LENGTH ? SEARCH_LENGTH : inputLength); ParsableByteArray buffer = new ParsableByteArray(64); int bytesSearched = 0; boolean foundGoodFileType = false; boolean isFragmented = false; while (bytesSearched < bytesToSearch) { // Read an atom header. int headerSize = Atom.HEADER_SIZE; buffer.reset(headerSize); input.peekFully(buffer.data, 0, headerSize); long atomSize = buffer.readUnsignedInt(); int atomType = buffer.readInt(); if (atomSize == Atom.DEFINES_LARGE_SIZE) { // Read the large atom size. headerSize = Atom.LONG_HEADER_SIZE; input.peekFully(buffer.data, Atom.HEADER_SIZE, Atom.LONG_HEADER_SIZE - Atom.HEADER_SIZE); buffer.setLimit(Atom.LONG_HEADER_SIZE); atomSize = buffer.readLong(); } else if (atomSize == Atom.EXTENDS_TO_END_SIZE) { // The atom extends to the end of the file. long fileEndPosition = input.getLength(); if (fileEndPosition != C.LENGTH_UNSET) { atomSize = fileEndPosition - input.getPeekPosition() + headerSize; } } if (inputLength != C.LENGTH_UNSET && bytesSearched + atomSize > inputLength + 10) { //added small trashhold for buggy files // The file is invalid because the atom extends past the end of the file. return false; } if (atomSize < headerSize) { // The file is invalid because the atom size is too small for its header. return false; } bytesSearched += headerSize; if (atomType == Atom.TYPE_moov) { // We have seen the moov atom. We increase the search size to make sure we don't miss an // mvex atom because the moov's size exceeds the search length. bytesToSearch += (int) atomSize; if (inputLength != C.LENGTH_UNSET && bytesToSearch > inputLength) { // Make sure we don't exceed the file size. bytesToSearch = (int) inputLength; } // Check for an mvex atom inside the moov atom to identify whether the file is fragmented. continue; } if (atomType == Atom.TYPE_moof || atomType == Atom.TYPE_mvex) { // The movie is fragmented. Stop searching as we must have read any ftyp atom already. isFragmented = true; break; } if (bytesSearched + atomSize - headerSize >= bytesToSearch) { // Stop searching as peeking this atom would exceed the search limit. break; } int atomDataSize = (int) (atomSize - headerSize); bytesSearched += atomDataSize; if (atomType == Atom.TYPE_ftyp) { // Parse the atom and check the file type/brand is compatible with the extractors. if (atomDataSize < 8) { return false; } buffer.reset(atomDataSize); input.peekFully(buffer.data, 0, atomDataSize); int brandsCount = atomDataSize / 4; for (int i = 0; i < brandsCount; i++) { if (i == 1) { // This index refers to the minorVersion, not a brand, so skip it. buffer.skipBytes(4); } else if (isCompatibleBrand(buffer.readInt())) { foundGoodFileType = true; break; } } if (!foundGoodFileType) { // The types were not compatible and there is only one ftyp atom, so reject the file. return false; } } else if (atomDataSize != 0) { // Skip the atom. input.advancePeekPosition(atomDataSize); } } return foundGoodFileType && fragmented == isFragmented; }