package com.hypixel.hytale.protocol.packets.assets; import com.hypixel.hytale.protocol.BlockGroup; import com.hypixel.hytale.protocol.Packet; import com.hypixel.hytale.protocol.UpdateType; import com.hypixel.hytale.protocol.io.PacketIO; import com.hypixel.hytale.protocol.io.ProtocolException; import com.hypixel.hytale.protocol.io.ValidationResult; import com.hypixel.hytale.protocol.io.VarInt; import io.netty.buffer.ByteBuf; import java.util.HashMap; import java.util.Map; import java.util.Objects; import java.util.Map.Entry; import javax.annotation.Nonnull; import javax.annotation.Nullable; public class UpdateBlockGroups implements Packet { public static final int PACKET_ID = 78; public static final boolean IS_COMPRESSED = true; public static final int NULLABLE_BIT_FIELD_SIZE = 1; public static final int FIXED_BLOCK_SIZE = 2; public static final int VARIABLE_FIELD_COUNT = 1; public static final int VARIABLE_BLOCK_START = 2; public static final int MAX_SIZE = 1677721600; @Nonnull public UpdateType type = UpdateType.Init; @Nullable public Map groups; @Override public int getId() { return 78; } public UpdateBlockGroups() { } public UpdateBlockGroups(@Nonnull UpdateType type, @Nullable Map groups) { this.type = type; this.groups = groups; } public UpdateBlockGroups(@Nonnull UpdateBlockGroups other) { this.type = other.type; this.groups = other.groups; } @Nonnull public static UpdateBlockGroups deserialize(@Nonnull ByteBuf buf, int offset) { UpdateBlockGroups obj = new UpdateBlockGroups(); byte nullBits = buf.getByte(offset); obj.type = UpdateType.fromValue(buf.getByte(offset + 1)); int pos = offset + 2; if ((nullBits & 1) != 0) { int groupsCount = VarInt.peek(buf, pos); if (groupsCount < 0) { throw ProtocolException.negativeLength("Groups", groupsCount); } if (groupsCount > 4096000) { throw ProtocolException.dictionaryTooLarge("Groups", groupsCount, 4096000); } pos += VarInt.size(groupsCount); obj.groups = new HashMap<>(groupsCount); for (int i = 0; i < groupsCount; i++) { int keyLen = VarInt.peek(buf, pos); if (keyLen < 0) { throw ProtocolException.negativeLength("key", keyLen); } if (keyLen > 4096000) { throw ProtocolException.stringTooLong("key", keyLen, 4096000); } int keyVarLen = VarInt.length(buf, pos); String key = PacketIO.readVarString(buf, pos); pos += keyVarLen + keyLen; BlockGroup val = BlockGroup.deserialize(buf, pos); pos += BlockGroup.computeBytesConsumed(buf, pos); if (obj.groups.put(key, val) != null) { throw ProtocolException.duplicateKey("groups", key); } } } return obj; } public static int computeBytesConsumed(@Nonnull ByteBuf buf, int offset) { byte nullBits = buf.getByte(offset); int pos = offset + 2; if ((nullBits & 1) != 0) { int dictLen = VarInt.peek(buf, pos); pos += VarInt.length(buf, pos); for (int i = 0; i < dictLen; i++) { int sl = VarInt.peek(buf, pos); pos += VarInt.length(buf, pos) + sl; pos += BlockGroup.computeBytesConsumed(buf, pos); } } return pos - offset; } @Override public void serialize(@Nonnull ByteBuf buf) { byte nullBits = 0; if (this.groups != null) { nullBits = (byte)(nullBits | 1); } buf.writeByte(nullBits); buf.writeByte(this.type.getValue()); if (this.groups != null) { if (this.groups.size() > 4096000) { throw ProtocolException.dictionaryTooLarge("Groups", this.groups.size(), 4096000); } VarInt.write(buf, this.groups.size()); for (Entry e : this.groups.entrySet()) { PacketIO.writeVarString(buf, e.getKey(), 4096000); e.getValue().serialize(buf); } } } @Override public int computeSize() { int size = 2; if (this.groups != null) { int groupsSize = 0; for (Entry kvp : this.groups.entrySet()) { groupsSize += PacketIO.stringSize(kvp.getKey()) + kvp.getValue().computeSize(); } size += VarInt.size(this.groups.size()) + groupsSize; } return size; } public static ValidationResult validateStructure(@Nonnull ByteBuf buffer, int offset) { if (buffer.readableBytes() - offset < 2) { return ValidationResult.error("Buffer too small: expected at least 2 bytes"); } else { byte nullBits = buffer.getByte(offset); int pos = offset + 2; if ((nullBits & 1) != 0) { int groupsCount = VarInt.peek(buffer, pos); if (groupsCount < 0) { return ValidationResult.error("Invalid dictionary count for Groups"); } if (groupsCount > 4096000) { return ValidationResult.error("Groups exceeds max length 4096000"); } pos += VarInt.length(buffer, pos); for (int i = 0; i < groupsCount; i++) { int keyLen = VarInt.peek(buffer, pos); if (keyLen < 0) { return ValidationResult.error("Invalid string length for key"); } if (keyLen > 4096000) { return ValidationResult.error("key exceeds max length 4096000"); } pos += VarInt.length(buffer, pos); pos += keyLen; if (pos > buffer.writerIndex()) { return ValidationResult.error("Buffer overflow reading key"); } pos += BlockGroup.computeBytesConsumed(buffer, pos); } } return ValidationResult.OK; } } public UpdateBlockGroups clone() { UpdateBlockGroups copy = new UpdateBlockGroups(); copy.type = this.type; if (this.groups != null) { Map m = new HashMap<>(); for (Entry e : this.groups.entrySet()) { m.put(e.getKey(), e.getValue().clone()); } copy.groups = m; } return copy; } @Override public boolean equals(Object obj) { if (this == obj) { return true; } else { return !(obj instanceof UpdateBlockGroups other) ? false : Objects.equals(this.type, other.type) && Objects.equals(this.groups, other.groups); } } @Override public int hashCode() { return Objects.hash(this.type, this.groups); } }