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<?php // Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. namespace Google\Protobuf\Internal; class GPBWire { const TAG_TYPE_BITS = 3; const WIRETYPE_VARINT = 0; const WIRETYPE_FIXED64 = 1; const WIRETYPE_LENGTH_DELIMITED = 2; const WIRETYPE_START_GROUP = 3; const WIRETYPE_END_GROUP = 4; const WIRETYPE_FIXED32 = 5; const UNKNOWN = 0; const NORMAL_FORMAT = 1; const PACKED_FORMAT = 2; public static function getTagFieldNumber($tag) { // We have to mask because PHP has no arithmetic shift. return ($tag >> self::TAG_TYPE_BITS) & 0x1fffffff; } public static function getTagWireType($tag) { return $tag & 0x7; } public static function getWireType($type) { switch ($type) { case GPBType::FLOAT: case GPBType::FIXED32: case GPBType::SFIXED32: return self::WIRETYPE_FIXED32; case GPBType::DOUBLE: case GPBType::FIXED64: case GPBType::SFIXED64: return self::WIRETYPE_FIXED64; case GPBType::UINT32: case GPBType::UINT64: case GPBType::INT32: case GPBType::INT64: case GPBType::SINT32: case GPBType::SINT64: case GPBType::ENUM: case GPBType::BOOL: return self::WIRETYPE_VARINT; case GPBType::STRING: case GPBType::BYTES: case GPBType::MESSAGE: return self::WIRETYPE_LENGTH_DELIMITED; case GPBType::GROUP: user_error("Unsupported type."); return 0; default: user_error("Unsupported type."); return 0; } } // ZigZag Transform: Encodes signed integers so that they can be effectively // used with varint encoding. // // varint operates on unsigned integers, encoding smaller numbers into fewer // bytes. If you try to use it on a signed integer, it will treat this // number as a very large unsigned integer, which means that even small // signed numbers like -1 will take the maximum number of bytes (10) to // encode. zigZagEncode() maps signed integers to unsigned in such a way // that those with a small absolute value will have smaller encoded values, // making them appropriate for encoding using varint. // // int32 -> uint32 // ------------------------- // 0 -> 0 // -1 -> 1 // 1 -> 2 // -2 -> 3 // ... -> ... // 2147483647 -> 4294967294 // -2147483648 -> 4294967295 // // >> encode >> // << decode << public static function zigZagEncode32($int32) { if (PHP_INT_SIZE == 8) { $trim_int32 = $int32 & 0xFFFFFFFF; return (($trim_int32 << 1) ^ ($int32 << 32 >> 63)) & 0xFFFFFFFF; } else { return ($int32 << 1) ^ ($int32 >> 31); } } public static function zigZagDecode32($uint32) { // Fill high 32 bits. if (PHP_INT_SIZE === 8) { $uint32 |= ($uint32 & 0xFFFFFFFF); } $int32 = (($uint32 >> 1) & 0x7FFFFFFF) ^ (-($uint32 & 1)); return $int32; } public static function zigZagEncode64($int64) { if (PHP_INT_SIZE == 4) { if (bccomp($int64, 0) >= 0) { return bcmul($int64, 2); } else { return bcsub(bcmul(bcsub(0, $int64), 2), 1); } } else { return ((int)$int64 << 1) ^ ((int)$int64 >> 63); } } public static function zigZagDecode64($uint64) { if (PHP_INT_SIZE == 4) { if (bcmod($uint64, 2) == 0) { return bcdiv($uint64, 2, 0); } else { return bcsub(0, bcdiv(bcadd($uint64, 1), 2, 0)); } } else { return (($uint64 >> 1) & 0x7FFFFFFFFFFFFFFF) ^ (-($uint64 & 1)); } } public static function readInt32(&$input, &$value) { return $input->readVarint32($value); } public static function readInt64(&$input, &$value) { $success = $input->readVarint64($value); if (PHP_INT_SIZE == 4 && bccomp($value, "9223372036854775807") > 0) { $value = bcsub($value, "18446744073709551616"); } return $success; } public static function readUint32(&$input, &$value) { return self::readInt32($input, $value); } public static function readUint64(&$input, &$value) { return self::readInt64($input, $value); } public static function readSint32(&$input, &$value) { if (!$input->readVarint32($value)) { return false; } $value = GPBWire::zigZagDecode32($value); return true; } public static function readSint64(&$input, &$value) { if (!$input->readVarint64($value)) { return false; } $value = GPBWire::zigZagDecode64($value); return true; } public static function readFixed32(&$input, &$value) { return $input->readLittleEndian32($value); } public static function readFixed64(&$input, &$value) { return $input->readLittleEndian64($value); } public static function readSfixed32(&$input, &$value) { if (!self::readFixed32($input, $value)) { return false; } if (PHP_INT_SIZE === 8) { $value |= (-($value >> 31) << 32); } return true; } public static function readSfixed64(&$input, &$value) { $success = $input->readLittleEndian64($value); if (PHP_INT_SIZE == 4 && bccomp($value, "9223372036854775807") > 0) { $value = bcsub($value, "18446744073709551616"); } return $success; } public static function readFloat(&$input, &$value) { $data = null; if (!$input->readRaw(4, $data)) { return false; } $value = unpack('f', $data)[1]; return true; } public static function readDouble(&$input, &$value) { $data = null; if (!$input->readRaw(8, $data)) { return false; } $value = unpack('d', $data)[1]; return true; } public static function readBool(&$input, &$value) { if (!$input->readVarint64($value)) { return false; } if ($value == 0) { $value = false; } else { $value = true; } return true; } public static function readString(&$input, &$value) { $length = 0; return $input->readVarintSizeAsInt($length) && $input->readRaw($length, $value); } public static function readMessage(&$input, &$message) { $length = 0; if (!$input->readVarintSizeAsInt($length)) { return false; } $old_limit = 0; $recursion_limit = 0; $input->incrementRecursionDepthAndPushLimit( $length, $old_limit, $recursion_limit); if ($recursion_limit < 0 || !$message->parseFromStream($input)) { return false; } return $input->decrementRecursionDepthAndPopLimit($old_limit); } public static function writeTag(&$output, $tag) { return $output->writeTag($tag); } public static function writeInt32(&$output, $value) { return $output->writeVarint32($value, false); } public static function writeInt64(&$output, $value) { return $output->writeVarint64($value); } public static function writeUint32(&$output, $value) { return $output->writeVarint32($value, true); } public static function writeUint64(&$output, $value) { return $output->writeVarint64($value); } public static function writeSint32(&$output, $value) { $value = GPBWire::zigZagEncode32($value); return $output->writeVarint32($value, true); } public static function writeSint64(&$output, $value) { $value = GPBWire::zigZagEncode64($value); return $output->writeVarint64($value); } public static function writeFixed32(&$output, $value) { return $output->writeLittleEndian32($value); } public static function writeFixed64(&$output, $value) { return $output->writeLittleEndian64($value); } public static function writeSfixed32(&$output, $value) { return $output->writeLittleEndian32($value); } public static function writeSfixed64(&$output, $value) { return $output->writeLittleEndian64($value); } public static function writeBool(&$output, $value) { if ($value) { return $output->writeVarint32(1, true); } else { return $output->writeVarint32(0, true); } } public static function writeFloat(&$output, $value) { $data = pack("f", $value); return $output->writeRaw($data, 4); } public static function writeDouble(&$output, $value) { $data = pack("d", $value); return $output->writeRaw($data, 8); } public static function writeString(&$output, $value) { return self::writeBytes($output, $value); } public static function writeBytes(&$output, $value) { $size = strlen($value); if (!$output->writeVarint32($size, true)) { return false; } return $output->writeRaw($value, $size); } public static function writeMessage(&$output, $value) { $size = $value->byteSize(); if (!$output->writeVarint32($size, true)) { return false; } return $value->serializeToStream($output); } public static function makeTag($number, $type) { return ($number << 3) | self::getWireType($type); } public static function tagSize($field) { $tag = self::makeTag($field->getNumber(), $field->getType()); return self::varint32Size($tag); } public static function varint32Size($value, $sign_extended = false) { if ($value < 0) { if ($sign_extended) { return 10; } else { return 5; } } if ($value < (1 << 7)) { return 1; } if ($value < (1 << 14)) { return 2; } if ($value < (1 << 21)) { return 3; } if ($value < (1 << 28)) { return 4; } return 5; } public static function sint32Size($value) { $value = self::zigZagEncode32($value); return self::varint32Size($value); } public static function sint64Size($value) { $value = self::zigZagEncode64($value); return self::varint64Size($value); } public static function varint64Size($value) { if (PHP_INT_SIZE == 4) { if (bccomp($value, 0) < 0 || bccomp($value, "9223372036854775807") > 0) { return 10; } if (bccomp($value, 1 << 7) < 0) { return 1; } if (bccomp($value, 1 << 14) < 0) { return 2; } if (bccomp($value, 1 << 21) < 0) { return 3; } if (bccomp($value, 1 << 28) < 0) { return 4; } if (bccomp($value, '34359738368') < 0) { return 5; } if (bccomp($value, '4398046511104') < 0) { return 6; } if (bccomp($value, '562949953421312') < 0) { return 7; } if (bccomp($value, '72057594037927936') < 0) { return 8; } return 9; } else { if ($value < 0) { return 10; } if ($value < (1 << 7)) { return 1; } if ($value < (1 << 14)) { return 2; } if ($value < (1 << 21)) { return 3; } if ($value < (1 << 28)) { return 4; } if ($value < (1 << 35)) { return 5; } if ($value < (1 << 42)) { return 6; } if ($value < (1 << 49)) { return 7; } if ($value < (1 << 56)) { return 8; } return 9; } } public static function serializeFieldToStream( $value, $field, $need_tag, &$output) { if ($need_tag) { if (!GPBWire::writeTag( $output, self::makeTag( $field->getNumber(), $field->getType()))) { return false; } } switch ($field->getType()) { case GPBType::DOUBLE: if (!GPBWire::writeDouble($output, $value)) { return false; } break; case GPBType::FLOAT: if (!GPBWire::writeFloat($output, $value)) { return false; } break; case GPBType::INT64: if (!GPBWire::writeInt64($output, $value)) { return false; } break; case GPBType::UINT64: if (!GPBWire::writeUint64($output, $value)) { return false; } break; case GPBType::INT32: if (!GPBWire::writeInt32($output, $value)) { return false; } break; case GPBType::FIXED32: if (!GPBWire::writeFixed32($output, $value)) { return false; } break; case GPBType::FIXED64: if (!GPBWire::writeFixed64($output, $value)) { return false; } break; case GPBType::BOOL: if (!GPBWire::writeBool($output, $value)) { return false; } break; case GPBType::STRING: if (!GPBWire::writeString($output, $value)) { return false; } break; // case GPBType::GROUP: // echo "GROUP\xA"; // trigger_error("Not implemented.", E_ERROR); // break; case GPBType::MESSAGE: if (!GPBWire::writeMessage($output, $value)) { return false; } break; case GPBType::BYTES: if (!GPBWire::writeBytes($output, $value)) { return false; } break; case GPBType::UINT32: if (PHP_INT_SIZE === 8 && $value < 0) { $value += 4294967296; } if (!GPBWire::writeUint32($output, $value)) { return false; } break; case GPBType::ENUM: if (!GPBWire::writeInt32($output, $value)) { return false; } break; case GPBType::SFIXED32: if (!GPBWire::writeSfixed32($output, $value)) { return false; } break; case GPBType::SFIXED64: if (!GPBWire::writeSfixed64($output, $value)) { return false; } break; case GPBType::SINT32: if (!GPBWire::writeSint32($output, $value)) { return false; } break; case GPBType::SINT64: if (!GPBWire::writeSint64($output, $value)) { return false; } break; default: user_error("Unsupported type."); return false; } return true; } }