/* * Copyright (C) 2019 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 */ package android.net.netlink; import java.net.InetAddress; import java.net.UnknownHostException; import java.nio.ByteOrder; import java.nio.ByteBuffer; /** * struct nlattr * * see: <linux_src>/include/uapi/linux/netlink.h * * @hide */ public class StructNlAttr { // Already aligned. public static final int NLA_HEADERLEN = 4; public static final int NLA_F_NESTED = (1 << 15); public static short makeNestedType(short type) { return (short) (type | NLA_F_NESTED); } // Return a (length, type) object only, without consuming any bytes in // |byteBuffer| and without copying or interpreting any value bytes. // This is used for scanning over a packed set of struct nlattr's, // looking for instances of a particular type. public static StructNlAttr peek(ByteBuffer byteBuffer) { if (byteBuffer == null || byteBuffer.remaining() < NLA_HEADERLEN) { return null; } final int baseOffset = byteBuffer.position(); // Assume the byte order of the buffer is the expected byte order of the value. final StructNlAttr struct = new StructNlAttr(byteBuffer.order()); // The byte order of nla_len and nla_type is always native. final ByteOrder originalOrder = byteBuffer.order(); byteBuffer.order(ByteOrder.nativeOrder()); try { struct.nla_len = byteBuffer.getShort(); struct.nla_type = byteBuffer.getShort(); } finally { byteBuffer.order(originalOrder); } byteBuffer.position(baseOffset); if (struct.nla_len < NLA_HEADERLEN) { // Malformed. return null; } return struct; } public static StructNlAttr parse(ByteBuffer byteBuffer) { final StructNlAttr struct = peek(byteBuffer); if (struct == null || byteBuffer.remaining() < struct.getAlignedLength()) { return null; } final int baseOffset = byteBuffer.position(); byteBuffer.position(baseOffset + NLA_HEADERLEN); int valueLen = ((int) struct.nla_len) & 0xffff; valueLen -= NLA_HEADERLEN; if (valueLen > 0) { struct.nla_value = new byte[valueLen]; byteBuffer.get(struct.nla_value, 0, valueLen); byteBuffer.position(baseOffset + struct.getAlignedLength()); } return struct; } public short nla_len = (short) NLA_HEADERLEN; public short nla_type; public byte[] nla_value; // The byte order used to read/write the value member. Netlink length and // type members are always read/written in native order. private ByteOrder mByteOrder = ByteOrder.nativeOrder(); public StructNlAttr() {} public StructNlAttr(ByteOrder byteOrder) { mByteOrder = byteOrder; } public StructNlAttr(short type, byte value) { nla_type = type; setValue(new byte[1]); nla_value[0] = value; } public StructNlAttr(short type, short value) { this(type, value, ByteOrder.nativeOrder()); } public StructNlAttr(short type, short value, ByteOrder order) { this(order); nla_type = type; setValue(new byte[Short.BYTES]); getValueAsByteBuffer().putShort(value); } public StructNlAttr(short type, int value) { this(type, value, ByteOrder.nativeOrder()); } public StructNlAttr(short type, int value, ByteOrder order) { this(order); nla_type = type; setValue(new byte[Integer.BYTES]); getValueAsByteBuffer().putInt(value); } public StructNlAttr(short type, InetAddress ip) { nla_type = type; setValue(ip.getAddress()); } public StructNlAttr(short type, StructNlAttr... nested) { this(); nla_type = makeNestedType(type); int payloadLength = 0; for (StructNlAttr nla : nested) payloadLength += nla.getAlignedLength(); setValue(new byte[payloadLength]); final ByteBuffer buf = getValueAsByteBuffer(); for (StructNlAttr nla : nested) { nla.pack(buf); } } public int getAlignedLength() { return NetlinkConstants.alignedLengthOf(nla_len); } public ByteBuffer getValueAsByteBuffer() { if (nla_value == null) { return null; } final ByteBuffer byteBuffer = ByteBuffer.wrap(nla_value); byteBuffer.order(mByteOrder); return byteBuffer; } public int getValueAsInt(int defaultValue) { final ByteBuffer byteBuffer = getValueAsByteBuffer(); if (byteBuffer == null || byteBuffer.remaining() != Integer.BYTES) { return defaultValue; } return getValueAsByteBuffer().getInt(); } public InetAddress getValueAsInetAddress() { if (nla_value == null) { return null; } try { return InetAddress.getByAddress(nla_value); } catch (UnknownHostException ignored) { return null; } } public void pack(ByteBuffer byteBuffer) { final ByteOrder originalOrder = byteBuffer.order(); final int originalPosition = byteBuffer.position(); byteBuffer.order(ByteOrder.nativeOrder()); try { byteBuffer.putShort(nla_len); byteBuffer.putShort(nla_type); if (nla_value != null) byteBuffer.put(nla_value); } finally { byteBuffer.order(originalOrder); } byteBuffer.position(originalPosition + getAlignedLength()); } private void setValue(byte[] value) { nla_value = value; nla_len = (short) (NLA_HEADERLEN + ((nla_value != null) ? nla_value.length : 0)); } @Override public String toString() { return "StructNlAttr{ " + "nla_len{" + nla_len + "}, " + "nla_type{" + nla_type + "}, " + "nla_value{" + NetlinkConstants.hexify(nla_value) + "}, " + "}"; } }