diff --git a/patches/server/1057-Replace-all-RegionFile-operations-with-SectorFile.patch b/patches/server/1057-Replace-all-RegionFile-operations-with-SectorFile.patch new file mode 100644 index 0000000000..351854051f --- /dev/null +++ b/patches/server/1057-Replace-all-RegionFile-operations-with-SectorFile.patch @@ -0,0 +1,5202 @@ +From 0000000000000000000000000000000000000000 Mon Sep 17 00:00:00 2001 +From: Spottedleaf +Date: Wed, 7 Feb 2024 18:21:14 -0800 +Subject: [PATCH] Replace all RegionFile operations with SectorFile + +Please see https://github.com/PaperMC/SectorTool +for details on the new format and how to use the tool to +convert the world or how to revert the conversion. + +This patch includes conversion logic to convert RegionFiles to +SectorFile on demand. If a SectorFile does not exist, it will +attempt to copy chunk/entity/poi data from existing RegionFiles. + +Included in this test patch is logic to dump SectorFile operation +tracing to file `sectorfile.tracer` in the root dir of a world. The +file is not compressed, and it is appended to only. As a result of +the lack of compression, when sending the file back for analysis +please compress it to reduce size usage. + +This tracing will be useful for later tests to perform parameter +scanning on some of the parameters of SectorFile: +1. The section shift +2. The sector size +3. SectorFile cache size + +diff --git a/build.gradle.kts b/build.gradle.kts +index 4998aff0b7cb084dcda15c6a18bbe45e99b6000a..4649e14d279ab63e07658addf840e6e5da25d387 100644 +--- a/build.gradle.kts ++++ b/build.gradle.kts +@@ -30,6 +30,8 @@ dependencies { + alsoShade(log4jPlugins.output) + implementation("io.netty:netty-codec-haproxy:4.1.97.Final") // Paper - Add support for proxy protocol + // Paper end ++ implementation("com.github.luben:zstd-jni:1.5.5-11") ++ implementation("org.lz4:lz4-java:1.8.0") + implementation("org.apache.logging.log4j:log4j-iostreams:2.22.1") // Paper - remove exclusion + implementation("org.ow2.asm:asm-commons:9.7") + implementation("org.spongepowered:configurate-yaml:4.2.0-SNAPSHOT") // Paper - config files +diff --git a/src/main/java/ca/spottedleaf/io/buffer/BufferChoices.java b/src/main/java/ca/spottedleaf/io/buffer/BufferChoices.java +new file mode 100644 +index 0000000000000000000000000000000000000000..01c4dd5a547bdf68a58a03ee76783425abd88b23 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/buffer/BufferChoices.java +@@ -0,0 +1,34 @@ ++package ca.spottedleaf.io.buffer; ++ ++import java.io.Closeable; ++ ++public record BufferChoices( ++ /* 16kb sized buffers */ ++ BufferTracker t16k, ++ /* 1mb sized buffers */ ++ BufferTracker t1m, ++ ++ ZstdTracker zstdCtxs ++) implements Closeable { ++ ++ public static BufferChoices createNew(final int maxPer) { ++ return new BufferChoices( ++ new SimpleBufferManager(maxPer, 16 * 1024).tracker(), ++ new SimpleBufferManager(maxPer, 1 * 1024 * 1024).tracker(), ++ new ZstdCtxManager(maxPer).tracker() ++ ); ++ } ++ ++ public BufferChoices scope() { ++ return new BufferChoices( ++ this.t16k.scope(), this.t1m.scope(), this.zstdCtxs.scope() ++ ); ++ } ++ ++ @Override ++ public void close() { ++ this.t16k.close(); ++ this.t1m.close(); ++ this.zstdCtxs.close(); ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/buffer/BufferTracker.java b/src/main/java/ca/spottedleaf/io/buffer/BufferTracker.java +new file mode 100644 +index 0000000000000000000000000000000000000000..ce5ea4eb4217aed766438564cf9ef127696695f4 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/buffer/BufferTracker.java +@@ -0,0 +1,58 @@ ++package ca.spottedleaf.io.buffer; ++ ++import java.io.Closeable; ++import java.nio.ByteBuffer; ++import java.util.ArrayList; ++import java.util.List; ++ ++public final class BufferTracker implements Closeable { ++ ++ private static final ByteBuffer[] EMPTY_BYTE_BUFFERS = new ByteBuffer[0]; ++ private static final byte[][] EMPTY_BYTE_ARRAYS = new byte[0][]; ++ ++ public final SimpleBufferManager bufferManager; ++ private final List directBuffers = new ArrayList<>(); ++ private final List javaBuffers = new ArrayList<>(); ++ ++ private boolean released; ++ ++ public BufferTracker(final SimpleBufferManager bufferManager) { ++ this.bufferManager = bufferManager; ++ } ++ ++ public BufferTracker scope() { ++ return new BufferTracker(this.bufferManager); ++ } ++ ++ public ByteBuffer acquireDirectBuffer() { ++ final ByteBuffer ret = this.bufferManager.acquireDirectBuffer(); ++ this.directBuffers.add(ret); ++ return ret; ++ } ++ ++ public byte[] acquireJavaBuffer() { ++ final byte[] ret = this.bufferManager.acquireJavaBuffer(); ++ this.javaBuffers.add(ret); ++ return ret; ++ } ++ ++ @Override ++ public void close() { ++ if (this.released) { ++ throw new IllegalStateException("Double-releasing buffers (incorrect class usage?)"); ++ } ++ this.released = true; ++ ++ final ByteBuffer[] directBuffers = this.directBuffers.toArray(EMPTY_BYTE_BUFFERS); ++ this.directBuffers.clear(); ++ for (final ByteBuffer buffer : directBuffers) { ++ this.bufferManager.returnDirectBuffer(buffer); ++ } ++ ++ final byte[][] javaBuffers = this.javaBuffers.toArray(EMPTY_BYTE_ARRAYS); ++ this.javaBuffers.clear(); ++ for (final byte[] buffer : javaBuffers) { ++ this.bufferManager.returnJavaBuffer(buffer); ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/buffer/SimpleBufferManager.java b/src/main/java/ca/spottedleaf/io/buffer/SimpleBufferManager.java +new file mode 100644 +index 0000000000000000000000000000000000000000..0b5d59c355582250ec0e2ce112ab504c74d346fe +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/buffer/SimpleBufferManager.java +@@ -0,0 +1,124 @@ ++package ca.spottedleaf.io.buffer; ++ ++import it.unimi.dsi.fastutil.objects.ReferenceOpenHashSet; ++import java.nio.ByteBuffer; ++import java.nio.ByteOrder; ++import java.util.ArrayDeque; ++ ++public final class SimpleBufferManager { ++ ++ private final int max; ++ private final int size; ++ ++ private final ReferenceOpenHashSet allocatedNativeBuffers; ++ private final ReferenceOpenHashSet allocatedJavaBuffers; ++ ++ private final ArrayDeque nativeBuffers; ++ // ByteBuffer.equals is not reference-based... ++ private final ReferenceOpenHashSet storedNativeBuffers; ++ private final ArrayDeque javaBuffers; ++ ++ public SimpleBufferManager(final int maxPer, final int size) { ++ this.max = maxPer; ++ this.size = size; ++ ++ if (maxPer < 0) { ++ throw new IllegalArgumentException("'Max per' is negative"); ++ } ++ ++ if (size < 0) { ++ throw new IllegalArgumentException("Size is negative"); ++ } ++ ++ final int alloc = Math.min(10, maxPer); ++ ++ this.allocatedNativeBuffers = new ReferenceOpenHashSet<>(alloc); ++ this.allocatedJavaBuffers = new ReferenceOpenHashSet<>(alloc); ++ ++ this.nativeBuffers = new ArrayDeque<>(alloc); ++ this.storedNativeBuffers = new ReferenceOpenHashSet<>(alloc); ++ this.javaBuffers = new ArrayDeque<>(alloc); ++ } ++ ++ public BufferTracker tracker() { ++ return new BufferTracker(this); ++ } ++ ++ public ByteBuffer acquireDirectBuffer() { ++ ByteBuffer ret; ++ synchronized (this) { ++ ret = this.nativeBuffers.poll(); ++ if (ret != null) { ++ this.storedNativeBuffers.remove(ret); ++ } ++ } ++ if (ret == null) { ++ ret = ByteBuffer.allocateDirect(this.size); ++ synchronized (this) { ++ this.allocatedNativeBuffers.add(ret); ++ } ++ } ++ ++ ret.order(ByteOrder.BIG_ENDIAN); ++ ret.limit(ret.capacity()); ++ ret.position(0); ++ ++ return ret; ++ } ++ ++ public synchronized void returnDirectBuffer(final ByteBuffer buffer) { ++ if (!this.allocatedNativeBuffers.contains(buffer)) { ++ throw new IllegalArgumentException("Buffer is not allocated from here"); ++ } ++ if (this.storedNativeBuffers.contains(buffer)) { ++ throw new IllegalArgumentException("Buffer is already returned"); ++ } ++ if (this.nativeBuffers.size() < this.max) { ++ this.nativeBuffers.addFirst(buffer); ++ this.storedNativeBuffers.add(buffer); ++ } else { ++ this.allocatedNativeBuffers.remove(buffer); ++ } ++ } ++ ++ public byte[] acquireJavaBuffer() { ++ byte[] ret; ++ synchronized (this) { ++ ret = this.javaBuffers.poll(); ++ } ++ if (ret == null) { ++ ret = new byte[this.size]; ++ synchronized (this) { ++ this.allocatedJavaBuffers.add(ret); ++ } ++ } ++ return ret; ++ } ++ ++ public synchronized void returnJavaBuffer(final byte[] buffer) { ++ if (!this.allocatedJavaBuffers.contains(buffer)) { ++ throw new IllegalArgumentException("Buffer is not allocated from here"); ++ } ++ if (this.javaBuffers.contains(buffer)) { ++ throw new IllegalArgumentException("Buffer is already returned"); ++ } ++ if (this.javaBuffers.size() < this.max) { ++ this.javaBuffers.addFirst(buffer); ++ } else { ++ this.allocatedJavaBuffers.remove(buffer); ++ } ++ } ++ ++ public synchronized void clearReturnedBuffers() { ++ this.allocatedNativeBuffers.removeAll(this.nativeBuffers); ++ this.storedNativeBuffers.removeAll(this.nativeBuffers); ++ this.nativeBuffers.clear(); ++ ++ this.allocatedJavaBuffers.removeAll(this.javaBuffers); ++ this.javaBuffers.clear(); ++ } ++ ++ public int getSize() { ++ return this.size; ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/buffer/ZstdCtxManager.java b/src/main/java/ca/spottedleaf/io/buffer/ZstdCtxManager.java +new file mode 100644 +index 0000000000000000000000000000000000000000..4bf3b899039a0f65229e517d79ece080a17cf9f7 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/buffer/ZstdCtxManager.java +@@ -0,0 +1,114 @@ ++package ca.spottedleaf.io.buffer; ++ ++import com.github.luben.zstd.ZstdCompressCtx; ++import com.github.luben.zstd.ZstdDecompressCtx; ++import it.unimi.dsi.fastutil.objects.ReferenceOpenHashSet; ++import java.util.ArrayDeque; ++import java.util.function.Supplier; ++ ++public final class ZstdCtxManager { ++ ++ private final int max; ++ ++ private final ReferenceOpenHashSet allocatedCompress; ++ private final ReferenceOpenHashSet allocatedDecompress; ++ ++ private final ArrayDeque compressors; ++ private final ArrayDeque decompressors; ++ ++ public ZstdCtxManager(final int maxPer) { ++ this.max = maxPer; ++ ++ if (maxPer < 0) { ++ throw new IllegalArgumentException("'Max per' is negative"); ++ } ++ ++ final int alloc = Math.min(10, maxPer); ++ ++ this.allocatedCompress = new ReferenceOpenHashSet<>(alloc); ++ this.allocatedDecompress = new ReferenceOpenHashSet<>(alloc); ++ ++ this.compressors = new ArrayDeque<>(alloc); ++ this.decompressors = new ArrayDeque<>(alloc); ++ } ++ ++ public ZstdTracker tracker() { ++ return new ZstdTracker(this); ++ } ++ ++ public ZstdCompressCtx acquireCompress() { ++ ZstdCompressCtx ret; ++ synchronized (this) { ++ ret = this.compressors.poll(); ++ } ++ if (ret == null) { ++ ret = new ZstdCompressCtx(); ++ synchronized (this) { ++ this.allocatedCompress.add(ret); ++ } ++ } ++ ++ ret.reset(); ++ ++ return ret; ++ } ++ ++ public synchronized void returnCompress(final ZstdCompressCtx compressor) { ++ if (!this.allocatedCompress.contains(compressor)) { ++ throw new IllegalArgumentException("Compressor is not allocated from here"); ++ } ++ if (this.compressors.contains(compressor)) { ++ throw new IllegalArgumentException("Compressor is already returned"); ++ } ++ if (this.compressors.size() < this.max) { ++ this.compressors.addFirst(compressor); ++ } else { ++ this.allocatedCompress.remove(compressor); ++ } ++ } ++ ++ public ZstdDecompressCtx acquireDecompress() { ++ ZstdDecompressCtx ret; ++ synchronized (this) { ++ ret = this.decompressors.poll(); ++ } ++ if (ret == null) { ++ ret = new ZstdDecompressCtx(); ++ synchronized (this) { ++ this.allocatedDecompress.add(ret); ++ } ++ } ++ ++ ret.reset(); ++ ++ return ret; ++ } ++ ++ public synchronized void returnDecompress(final ZstdDecompressCtx decompressor) { ++ if (!this.allocatedDecompress.contains(decompressor)) { ++ throw new IllegalArgumentException("Decompressor is not allocated from here"); ++ } ++ if (this.decompressors.contains(decompressor)) { ++ throw new IllegalArgumentException("Decompressor is already returned"); ++ } ++ if (this.decompressors.size() < this.max) { ++ this.decompressors.addFirst(decompressor); ++ } else { ++ this.allocatedDecompress.remove(decompressor); ++ } ++ } ++ ++ public synchronized void clearReturnedBuffers() { ++ this.allocatedCompress.removeAll(this.compressors); ++ ZstdCompressCtx compress; ++ while ((compress = this.compressors.poll()) != null) { ++ compress.close(); ++ } ++ ++ this.allocatedDecompress.removeAll(this.decompressors); ++ ZstdDecompressCtx decompress; ++ while ((decompress = this.decompressors.poll()) != null) { ++ decompress.close(); ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/buffer/ZstdTracker.java b/src/main/java/ca/spottedleaf/io/buffer/ZstdTracker.java +new file mode 100644 +index 0000000000000000000000000000000000000000..ad6d4e69fea8bb9dea42c2cc3389a1bdb86e25f7 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/buffer/ZstdTracker.java +@@ -0,0 +1,60 @@ ++package ca.spottedleaf.io.buffer; ++ ++import com.github.luben.zstd.ZstdCompressCtx; ++import com.github.luben.zstd.ZstdDecompressCtx; ++import java.io.Closeable; ++import java.util.ArrayList; ++import java.util.List; ++ ++public final class ZstdTracker implements Closeable { ++ ++ private static final ZstdCompressCtx[] EMPTY_COMPRESSORS = new ZstdCompressCtx[0]; ++ private static final ZstdDecompressCtx[] EMPTY_DECOMPRSSORS = new ZstdDecompressCtx[0]; ++ ++ public final ZstdCtxManager zstdCtxManager; ++ private final List compressors = new ArrayList<>(); ++ private final List decompressors = new ArrayList<>(); ++ ++ private boolean released; ++ ++ public ZstdTracker(final ZstdCtxManager zstdCtxManager) { ++ this.zstdCtxManager = zstdCtxManager; ++ } ++ ++ public ZstdTracker scope() { ++ return new ZstdTracker(this.zstdCtxManager); ++ } ++ ++ public ZstdCompressCtx acquireCompressor() { ++ final ZstdCompressCtx ret = this.zstdCtxManager.acquireCompress(); ++ this.compressors.add(ret); ++ return ret; ++ } ++ ++ public ZstdDecompressCtx acquireDecompressor() { ++ final ZstdDecompressCtx ret = this.zstdCtxManager.acquireDecompress(); ++ this.decompressors.add(ret); ++ return ret; ++ } ++ ++ @Override ++ public void close() { ++ if (this.released) { ++ throw new IllegalStateException("Double-releasing buffers (incorrect class usage?)"); ++ } ++ this.released = true; ++ ++ final ZstdCompressCtx[] compressors = this.compressors.toArray(EMPTY_COMPRESSORS); ++ this.compressors.clear(); ++ for (final ZstdCompressCtx compressor : compressors) { ++ this.zstdCtxManager.returnCompress(compressor); ++ } ++ ++ final ZstdDecompressCtx[] decompressors = this.decompressors.toArray(EMPTY_DECOMPRSSORS); ++ this.decompressors.clear(); ++ for (final ZstdDecompressCtx decompressor : decompressors) { ++ this.zstdCtxManager.returnDecompress(decompressor); ++ } ++ } ++ ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/ConversionRegionFile.java b/src/main/java/ca/spottedleaf/io/region/ConversionRegionFile.java +new file mode 100644 +index 0000000000000000000000000000000000000000..e1fa28ab159360b3886e7b8452ecd7101e772b98 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/ConversionRegionFile.java +@@ -0,0 +1,567 @@ ++package ca.spottedleaf.io.region; ++ ++import ca.spottedleaf.io.region.SectorFile; ++import ca.spottedleaf.io.region.io.bytebuffer.BufferedFileChannelInputStream; ++import ca.spottedleaf.io.region.io.bytebuffer.ByteBufferInputStream; ++import ca.spottedleaf.io.buffer.BufferChoices; ++import it.unimi.dsi.fastutil.ints.IntArrayList; ++import net.jpountz.lz4.LZ4BlockInputStream; ++import net.jpountz.lz4.LZ4BlockOutputStream; ++import java.io.ByteArrayOutputStream; ++import java.io.Closeable; ++import java.io.EOFException; ++import java.io.File; ++import java.io.FileOutputStream; ++import java.io.IOException; ++import java.io.InputStream; ++import java.io.OutputStream; ++import java.nio.ByteBuffer; ++import java.nio.ByteOrder; ++import java.nio.IntBuffer; ++import java.nio.channels.FileChannel; ++import java.nio.file.AtomicMoveNotSupportedException; ++import java.nio.file.Files; ++import java.nio.file.StandardCopyOption; ++import java.nio.file.StandardOpenOption; ++import java.util.zip.DeflaterOutputStream; ++import java.util.zip.GZIPInputStream; ++import java.util.zip.GZIPOutputStream; ++import java.util.zip.InflaterInputStream; ++ ++/** ++ * Read/write support of the region file format used by Minecraft ++ */ ++public final class ConversionRegionFile implements Closeable { ++ ++ /* Based on https://github.com/JosuaKrause/NBTEditor/blob/master/src/net/minecraft/world/level/chunk/storage/RegionFile.java */ ++ ++ public static final String ANVIL_EXTENSION = ".mca"; ++ public static final String MCREGION_EXTENSION = ".mcr"; ++ ++ private static final int SECTOR_SHIFT = 12; ++ private static final int SECTOR_SIZE = 1 << SECTOR_SHIFT; ++ ++ private static final int BYTE_SIZE = Byte.BYTES; ++ private static final int SHORT_SIZE = Short.BYTES; ++ private static final int INT_SIZE = Integer.BYTES; ++ private static final int LONG_SIZE = Long.BYTES; ++ private static final int FLOAT_SIZE = Float.BYTES; ++ private static final int DOUBLE_SIZE = Double.BYTES; ++ ++ private static final int DATA_METADATA_SIZE = BYTE_SIZE + INT_SIZE; ++ ++ private final int[] header = new int[SECTOR_SIZE / INT_SIZE]; ++ private final int[] timestamps = new int[SECTOR_SIZE / INT_SIZE]; ++ ++ public final File file; ++ public final int sectionX; ++ public final int sectionZ; ++ ++ private FileChannel channel; ++ private final boolean readOnly; ++ private final SectorFile.SectorAllocator sectorAllocator = new SectorFile.SectorAllocator(getLocationOffset(-1) - 1, getLocationSize(-1)); ++ { ++ this.sectorAllocator.allocate(2, false); ++ } ++ ++ private ByteBuffer raw; ++ ++ public ConversionRegionFile(final File file, final int sectionX, final int sectionZ, final BufferChoices unscopedBufferChoices, ++ final boolean readOnly) throws IOException { ++ this.file = file; ++ this.sectionX = sectionX; ++ this.sectionZ = sectionZ; ++ this.readOnly = readOnly; ++ ++ if (readOnly) { ++ this.channel = FileChannel.open(file.toPath(), StandardOpenOption.READ); ++ } else { ++ file.getParentFile().mkdirs(); ++ this.channel = FileChannel.open(file.toPath(), StandardOpenOption.READ, StandardOpenOption.WRITE, StandardOpenOption.CREATE); ++ } ++ ++ final long size = this.channel.size(); ++ ++ if (size != 0L) { ++ if (size < (2L * (long)SECTOR_SIZE)) { ++ System.err.println("Truncated header in file: " + file.getAbsolutePath()); ++ return; ++ } ++ ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer headerBuffer = scopedBufferChoices.t16k().acquireDirectBuffer(); ++ ++ headerBuffer.order(ByteOrder.BIG_ENDIAN); ++ headerBuffer.limit(2 * SECTOR_SIZE); ++ headerBuffer.position(0); ++ this.channel.read(headerBuffer, 0L); ++ headerBuffer.flip(); ++ ++ final IntBuffer headerIntBuffer = headerBuffer.asIntBuffer(); ++ ++ headerIntBuffer.get(0, this.header, 0, SECTOR_SIZE / INT_SIZE); ++ headerIntBuffer.get(0 + SECTOR_SIZE / INT_SIZE, this.timestamps, 0, SECTOR_SIZE / INT_SIZE); ++ ++ for (int i = 0; i < this.header.length; ++i) { ++ final int location = this.header[i]; ++ ++ if (location == 0) { ++ continue; ++ } ++ ++ if (!this.sectorAllocator.tryAllocateDirect(getLocationOffset(location), getLocationSize(location), false)) { ++ this.header[i] = 0; ++ System.err.println("Invalid sector allocation in regionfile '" + this.file.getAbsolutePath() + "': (" + i + "," + location + ")"); ++ } ++ } ++ } ++ } ++ } ++ ++ public void fillRaw(final BufferChoices unscopedBufferChoices) throws IOException { ++ if (this.raw != null) { ++ throw new IllegalStateException("Already filled raw"); ++ } ++ if (!this.readOnly) { ++ throw new IllegalStateException("Cannot fill raw in write mode"); ++ } ++ ++ final long length = Math.max(0L, this.channel.size()); ++ ++ final ByteBuffer raw = ByteBuffer.allocate((int)length); ++ ++ try (final BufferChoices scopedChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer buffer = scopedChoices.t1m().acquireDirectBuffer(); ++ ++ long offset = 0L; ++ ++ while (this.channel.read(buffer, offset) >= 0) { ++ final int read = buffer.position(); ++ ++ buffer.flip(); ++ ++ raw.put(buffer); ++ ++ buffer.limit(buffer.capacity()); ++ buffer.position(0); ++ ++ offset += read; ++ } ++ } ++ ++ raw.flip(); ++ ++ this.raw = raw; ++ } ++ ++ public int readRaw(final ByteBuffer dst, final long position) { ++ if (position < 0) { ++ throw new IllegalArgumentException(); ++ } ++ if (position >= (long)Integer.MAX_VALUE) { ++ return -1; ++ } ++ ++ final int tryRead = dst.remaining(); ++ final int remainingRaw = this.raw.limit() - (int)position; ++ ++ if (tryRead <= 0) { ++ return 0; ++ } ++ ++ if (remainingRaw <= 0) { ++ return -1; ++ } ++ ++ final int toRead = Math.min(tryRead, remainingRaw); ++ ++ dst.put(dst.position(), this.raw, (int)position, toRead); ++ dst.position(dst.position() + toRead); ++ ++ return toRead; ++ } ++ ++ private static int getLocationSize(final int location) { ++ return location & 255; ++ } ++ ++ private static int getLocationOffset(final int location) { ++ return location >>> 8; ++ } ++ ++ private static int makeLocation(final int offset, final int size) { ++ return (offset << 8) | (size & 255); ++ } ++ ++ public boolean has(final int x, final int z) { ++ return this.getLocation(x, z) != 0; ++ } ++ ++ private File getExternalFile(final int x, final int z) { ++ final int cx = (x & 31) | (this.sectionX << 5); ++ final int cz = (z & 31) | (this.sectionZ << 5); ++ ++ return new File(this.file.getParentFile(), "c." + cx + "." + cz + ".mcc"); ++ } ++ ++ public static record AllocationStats(long fileSectors, long allocatedSectors, long alternateAllocatedSectors, long alternateAllocatedSectorsPadded, long dataSizeBytes, int errors) {} ++ ++ private int[] getHeaderSorted() { ++ final IntArrayList list = new IntArrayList(this.header.length); ++ for (final int location : this.header) { ++ list.add(location); ++ } ++ ++ list.sort((a, b) -> Integer.compare(getLocationOffset(a), getLocationOffset(b))); ++ ++ return list.toArray(new int[this.header.length]); ++ } ++ ++ public AllocationStats computeStats(final BufferChoices unscopedBufferChoices, final int alternateSectorSize, ++ final int alternateHeaderSectors, ++ final int alternateOverhead) throws IOException { ++ final long fileSectors = (this.file.length() + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT; ++ ++ long allocatedSectors = Math.min(fileSectors, 2L); ++ long alternateAllocatedSectors = (long)alternateHeaderSectors; ++ int errors = 0; ++ long dataSize = 0L; ++ ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer ioBuffer = scopedBufferChoices.t16k().acquireDirectBuffer(); ++ ++ for (final int location : this.getHeaderSorted()) { ++ if (location == 0) { ++ continue; ++ } ++ ++ final int offset = getLocationOffset(location); ++ final int size = getLocationSize(location); ++ ++ if (offset <= 1 || size <= 0 || (offset + size) > fileSectors) { ++ // invalid ++ ++errors; ++ continue; ++ } ++ ++ ioBuffer.limit(INT_SIZE); ++ ioBuffer.position(0); ++ ++ this.channel.read(ioBuffer, (long)offset << SECTOR_SHIFT); ++ ++ if (ioBuffer.hasRemaining()) { ++ ++errors; ++ continue; ++ } ++ ++ final int rawSize = ioBuffer.getInt(0) + INT_SIZE; ++ ++ final int rawEnd = rawSize + (offset << SECTOR_SHIFT); ++ if (rawSize <= 0 || rawEnd <= 0 || ((rawSize + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT) > fileSectors) { ++ ++errors; ++ continue; ++ } ++ ++ final int compressedSize = rawSize - (INT_SIZE + BYTE_SIZE); ++ ++ final int alternateRawSize = (compressedSize + alternateOverhead); ++ ++ // support forge oversized by using data size ++ allocatedSectors += (long)((rawSize + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT); ++ dataSize += (long)compressedSize; ++ alternateAllocatedSectors += (long)((alternateRawSize + (alternateSectorSize - 1)) / alternateSectorSize); ++ } ++ } ++ ++ final long diff = SECTOR_SIZE / alternateSectorSize; ++ final long alternateAllocatedSectorsPadded = diff <= 1L ? alternateAllocatedSectors : ((alternateAllocatedSectors + (diff - 1L)) / diff) * diff; ++ ++ return new AllocationStats(fileSectors, allocatedSectors, alternateAllocatedSectors, alternateAllocatedSectorsPadded, dataSize, errors); ++ } ++ ++ public boolean read(final int x, final int z, final BufferChoices unscopedBufferChoices, final ConversionRegionFile.CustomByteArrayOutputStream decompressed) throws IOException { ++ return this.read(x, z, unscopedBufferChoices, decompressed, false) >= 0; ++ } ++ ++ public int read(final int x, final int z, final BufferChoices unscopedBufferChoices, final ConversionRegionFile.CustomByteArrayOutputStream decompressed, ++ final boolean raw) throws IOException { ++ final int location = this.getLocation(x, z); ++ ++ if (location == 0) { ++ // absent ++ return -1; ++ } ++ ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ ByteBuffer compressedData = scopedBufferChoices.t1m().acquireDirectBuffer(); ++ ++ final long foff = ((long)getLocationOffset(location) * (long)SECTOR_SIZE); ++ int fsize = (getLocationSize(location) * SECTOR_SIZE); ++ ++ if (fsize == (255 * SECTOR_SIZE)) { ++ // support for forge/spigot style oversized chunk format (pre 1.15) ++ final ByteBuffer extendedLen = ByteBuffer.allocate(INT_SIZE); ++ if (this.raw == null) { ++ this.channel.read(extendedLen, foff); ++ } else { ++ this.readRaw(extendedLen, foff); ++ } ++ fsize = extendedLen.getInt(0); ++ if (fsize > compressedData.capacity()) { ++ // do not use direct here, the read() will allocate one and free it immediately - which is something ++ // we cannot do with standard API ++ compressedData = ByteBuffer.allocate(fsize); ++ } ++ } ++ ++ compressedData.order(ByteOrder.BIG_ENDIAN); ++ compressedData.limit(fsize); ++ compressedData.position(0); ++ ++ int r = this.raw != null ? this.readRaw(compressedData, foff) : this.channel.read(compressedData, foff); ++ if (r < DATA_METADATA_SIZE) { ++ throw new IOException("Truncated data"); ++ } ++ compressedData.flip(); ++ ++ ++ final int length = compressedData.getInt(0) - BYTE_SIZE; ++ byte type = compressedData.get(0 + INT_SIZE); ++ compressedData.position(0 + INT_SIZE + BYTE_SIZE); ++ compressedData.limit(compressedData.getInt(0) + INT_SIZE); ++ ++ if (compressedData.remaining() < length) { ++ throw new EOFException("Truncated data"); ++ } ++ ++ final InputStream rawIn; ++ if ((type & 128) != 0) { ++ // stored externally ++ type = (byte)((int)type & 127); ++ ++ final File external = this.getExternalFile(x, z); ++ if (!external.isFile()) { ++ System.err.println("Externally stored chunk data '" + external.getAbsolutePath() + "' does not exist"); ++ return -1; ++ } ++ ++ rawIn = new BufferedFileChannelInputStream(scopedBufferChoices.t16k().acquireDirectBuffer(), this.getExternalFile(x, z)); ++ } else { ++ rawIn = new ByteBufferInputStream(compressedData); ++ } ++ ++ InputStream decompress = null; ++ ++ try { ++ if (!raw) { ++ switch (type) { ++ case 1: { // GZIP ++ decompress = new GZIPInputStream(rawIn); ++ break; ++ } ++ case 2: { // DEFLATE ++ decompress = new InflaterInputStream(rawIn); ++ break; ++ } ++ case 3: { // NONE ++ decompress = rawIn; ++ break; ++ } ++ case 4: { // LZ4 ++ decompress = new LZ4BlockInputStream(rawIn); ++ break; ++ } ++ default: { ++ throw new IOException("Unknown type: " + type); ++ } ++ } ++ } else { ++ if (type <= 0 || type > 4) { ++ throw new IOException("Unknown type: " + type); ++ } ++ decompress = rawIn; ++ } ++ ++ final byte[] tmp = scopedBufferChoices.t16k().acquireJavaBuffer(); ++ ++ while ((r = decompress.read(tmp)) >= 0) { ++ decompressed.write(tmp, 0, r); ++ } ++ ++ return type; ++ } finally { ++ if (decompress != null) { ++ decompress.close(); ++ } ++ } ++ } ++ } ++ ++ private void writeHeader(final BufferChoices unscopedBufferChoices) throws IOException { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer buffer = scopedBufferChoices.t16k().acquireDirectBuffer(); ++ ++ buffer.limit((this.header.length + this.timestamps.length) * INT_SIZE); ++ buffer.position(0); ++ ++ buffer.asIntBuffer().put(this.header).put(this.timestamps); ++ ++ this.channel.write(buffer, 0L << SECTOR_SHIFT); ++ } ++ } ++ ++ public void delete(final int x, final int z, final BufferChoices unscopedBufferChoices) throws IOException { ++ final int location = this.getLocation(x, z); ++ if (location == 0) { ++ return; ++ } ++ ++ this.setLocation(x, z, 0); ++ this.setTimestamp(x, z, 0); ++ this.getExternalFile(x, z).delete(); ++ ++ this.writeHeader(unscopedBufferChoices); ++ this.sectorAllocator.freeAllocation(getLocationOffset(location), getLocationSize(location)); ++ } ++ ++ public void write(final int x, final int z, final BufferChoices unscopedBufferChoices, final int compressType, ++ final byte[] data, final int off, final int len) throws IOException { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ final CustomByteArrayOutputStream rawStream = new CustomByteArrayOutputStream(scopedBufferChoices.t1m().acquireJavaBuffer()); ++ ++ for (int i = 0; i < (INT_SIZE + BYTE_SIZE); ++i) { ++ rawStream.write(0); ++ } ++ ++ final OutputStream out; ++ switch (compressType) { ++ case 1: { // GZIP ++ out = new GZIPOutputStream(rawStream); ++ break; ++ } ++ case 2: { // DEFLATE ++ out = new DeflaterOutputStream(rawStream); ++ break; ++ } ++ case 3: { // NONE ++ out = rawStream; ++ break; ++ } ++ case 4: { // LZ4 ++ out = new LZ4BlockOutputStream(rawStream); ++ break; ++ } ++ default: { ++ throw new IOException("Unknown type: " + compressType); ++ } ++ } ++ ++ out.write(data, off, len); ++ out.close(); ++ ++ ByteBuffer.wrap(rawStream.getBuffer(), 0, rawStream.size()) ++ .putInt(0, rawStream.size() - INT_SIZE) ++ .put(INT_SIZE, (byte)compressType); ++ ++ final int requiredSectors = (rawStream.size() + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT; ++ final ByteBuffer write; ++ ++ if (requiredSectors <= 255) { ++ write = ByteBuffer.wrap(rawStream.getBuffer(), 0, rawStream.size()); ++ } else { ++ write = ByteBuffer.allocate(INT_SIZE + BYTE_SIZE); ++ write.putInt(0, 1); ++ write.put(INT_SIZE, (byte)(128 | compressType)); ++ } ++ ++ final int internalSectors = (write.remaining() + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT; ++ final int internalOffset = this.sectorAllocator.allocate(internalSectors, true); ++ if (internalOffset <= 0) { ++ throw new IllegalStateException("Failed to allocate internally"); ++ } ++ ++ this.channel.write(write, (long)internalOffset << SECTOR_SHIFT); ++ ++ if (requiredSectors > 255) { ++ final File external = this.getExternalFile(x, z); ++ ++ System.out.println("Storing " + rawStream.size() + " bytes to " + external.getAbsolutePath()); ++ ++ final File externalTmp = new File(external.getParentFile(), external.getName() + ".tmp"); ++ externalTmp.delete(); ++ externalTmp.createNewFile(); ++ try (final FileOutputStream fout = new FileOutputStream(externalTmp)) { ++ fout.write(rawStream.getBuffer(), INT_SIZE + BYTE_SIZE, rawStream.size() - (INT_SIZE + BYTE_SIZE)); ++ } ++ ++ try { ++ Files.move(externalTmp.toPath(), external.toPath(), StandardCopyOption.REPLACE_EXISTING, StandardCopyOption.ATOMIC_MOVE); ++ } catch (final AtomicMoveNotSupportedException ex) { ++ Files.move(externalTmp.toPath(), external.toPath(), StandardCopyOption.REPLACE_EXISTING); ++ } ++ } else { ++ this.getExternalFile(x, z).delete(); ++ } ++ ++ final int oldLocation = this.getLocation(x, z); ++ ++ this.setLocation(x, z, makeLocation(internalOffset, internalSectors)); ++ this.setTimestamp(x, z, (int)(System.currentTimeMillis() / 1000L)); ++ ++ this.writeHeader(unscopedBufferChoices); ++ ++ if (oldLocation != 0) { ++ this.sectorAllocator.freeAllocation(getLocationOffset(oldLocation), getLocationSize(oldLocation)); ++ } ++ } ++ } ++ ++ private static int makeIndex(final int x, final int z) { ++ return (x & 31) | ((z & 31) << 5); ++ } ++ ++ public int getLocation(final int x, final int z) { ++ return this.header[makeIndex(x, z)]; ++ } ++ ++ private void setLocation(final int x, final int z, final int location) { ++ this.header[makeIndex(x, z)] = location; ++ } ++ ++ public int getTimestamp(final int x, final int z) { ++ return this.timestamps[makeIndex(x, z)]; ++ } ++ ++ private void setTimestamp(final int x, final int z, final int time) { ++ this.timestamps[makeIndex(x, z)] = time; ++ } ++ ++ @Override ++ public synchronized void close() throws IOException { ++ final FileChannel channel = this.channel; ++ if (channel != null) { ++ this.channel = null; ++ if (this.readOnly) { ++ channel.close(); ++ } else { ++ try { ++ channel.force(true); ++ } finally { ++ channel.close(); ++ } ++ } ++ } ++ } ++ ++ public static final class CustomByteArrayOutputStream extends ByteArrayOutputStream { ++ ++ public CustomByteArrayOutputStream(final byte[] bytes) { ++ super(0); ++ this.buf = bytes; ++ } ++ ++ public byte[] getBuffer() { ++ return this.buf; ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/MinecraftRegionFileType.java b/src/main/java/ca/spottedleaf/io/region/MinecraftRegionFileType.java +new file mode 100644 +index 0000000000000000000000000000000000000000..19fae8b8e76d0f1b4b0583ee5f496b70976452ac +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/MinecraftRegionFileType.java +@@ -0,0 +1,61 @@ ++package ca.spottedleaf.io.region; ++ ++import it.unimi.dsi.fastutil.ints.Int2ObjectLinkedOpenHashMap; ++import it.unimi.dsi.fastutil.ints.Int2ObjectMap; ++import it.unimi.dsi.fastutil.ints.Int2ObjectMaps; ++import java.util.Collections; ++ ++public final class MinecraftRegionFileType { ++ ++ private static final Int2ObjectLinkedOpenHashMap BY_ID = new Int2ObjectLinkedOpenHashMap<>(); ++ private static final Int2ObjectLinkedOpenHashMap NAME_TRANSLATION = new Int2ObjectLinkedOpenHashMap<>(); ++ private static final Int2ObjectMap TRANSLATION_TABLE = Int2ObjectMaps.unmodifiable(NAME_TRANSLATION); ++ ++ public static final MinecraftRegionFileType CHUNK = new MinecraftRegionFileType("region", 0, "chunk_data"); ++ public static final MinecraftRegionFileType POI = new MinecraftRegionFileType("poi", 1, "poi_chunk"); ++ public static final MinecraftRegionFileType ENTITY = new MinecraftRegionFileType("entities", 2, "entity_chunk"); ++ ++ private final String folder; ++ private final int id; ++ private final String name; ++ ++ public MinecraftRegionFileType(final String folder, final int id, final String name) { ++ if (BY_ID.putIfAbsent(id, this) != null) { ++ throw new IllegalStateException("Duplicate ids"); ++ } ++ NAME_TRANSLATION.put(id, name); ++ ++ this.folder = folder; ++ this.id = id; ++ this.name = name; ++ } ++ ++ public String getName() { ++ return this.name; ++ } ++ ++ public String getFolder() { ++ return this.folder; ++ } ++ ++ public int getNewId() { ++ return this.id; ++ } ++ ++ public static MinecraftRegionFileType byId(final int id) { ++ return BY_ID.get(id); ++ } ++ ++ public static String getName(final int id) { ++ final MinecraftRegionFileType type = byId(id); ++ return type == null ? null : type.getName(); ++ } ++ ++ public static Iterable getAll() { ++ return Collections.unmodifiableCollection(BY_ID.values()); ++ } ++ ++ public static Int2ObjectMap getTranslationTable() { ++ return TRANSLATION_TABLE; ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/SectorFile.java b/src/main/java/ca/spottedleaf/io/region/SectorFile.java +new file mode 100644 +index 0000000000000000000000000000000000000000..e94f927094c8d5a09bfaf491d623bfa7add0b435 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/SectorFile.java +@@ -0,0 +1,1925 @@ ++package ca.spottedleaf.io.region; ++ ++import ca.spottedleaf.io.region.io.bytebuffer.BufferedFileChannelInputStream; ++import ca.spottedleaf.io.region.io.bytebuffer.ByteBufferInputStream; ++import ca.spottedleaf.io.region.io.bytebuffer.ByteBufferOutputStream; ++import ca.spottedleaf.io.buffer.BufferChoices; ++import it.unimi.dsi.fastutil.ints.Int2ObjectLinkedOpenHashMap; ++import it.unimi.dsi.fastutil.ints.Int2ObjectMap; ++import it.unimi.dsi.fastutil.ints.IntIterator; ++import it.unimi.dsi.fastutil.ints.IntOpenHashSet; ++import it.unimi.dsi.fastutil.longs.LongBidirectionalIterator; ++import it.unimi.dsi.fastutil.longs.LongComparator; ++import it.unimi.dsi.fastutil.longs.LongRBTreeSet; ++import net.jpountz.xxhash.StreamingXXHash64; ++import net.jpountz.xxhash.XXHash64; ++import net.jpountz.xxhash.XXHashFactory; ++import org.slf4j.Logger; ++import org.slf4j.LoggerFactory; ++import java.io.Closeable; ++import java.io.DataInputStream; ++import java.io.DataOutputStream; ++import java.io.EOFException; ++import java.io.File; ++import java.io.IOException; ++import java.io.InputStream; ++import java.io.OutputStream; ++import java.nio.ByteBuffer; ++import java.nio.channels.FileChannel; ++import java.nio.file.AtomicMoveNotSupportedException; ++import java.nio.file.Files; ++import java.nio.file.StandardCopyOption; ++import java.nio.file.StandardOpenOption; ++import java.util.Arrays; ++import java.util.Iterator; ++import java.util.Random; ++ ++public final class SectorFile implements Closeable { ++ ++ private static final XXHashFactory XXHASH_FACTORY = XXHashFactory.fastestInstance(); ++ // Java instance is used for streaming hash instances, as streaming hash instances do not provide bytebuffer API ++ // Native instances would use GetPrimitiveArrayCritical and prevent GC on G1 ++ private static final XXHashFactory XXHASH_JAVA_FACTORY = XXHashFactory.fastestJavaInstance(); ++ private static final XXHash64 XXHASH64 = XXHASH_FACTORY.hash64(); ++ // did not find a use to change this from default, but just in case ++ private static final long XXHASH_SEED = 0L; ++ ++ private static final Logger LOGGER = LoggerFactory.getLogger(SectorFile.class); ++ ++ private static final int BYTE_SIZE = Byte.BYTES; ++ private static final int SHORT_SIZE = Short.BYTES; ++ private static final int INT_SIZE = Integer.BYTES; ++ private static final int LONG_SIZE = Long.BYTES; ++ private static final int FLOAT_SIZE = Float.BYTES; ++ private static final int DOUBLE_SIZE = Double.BYTES; ++ ++ public static final String FILE_EXTENSION = ".sf"; ++ public static final String FILE_EXTERNAL_EXTENSION = ".sfe"; ++ public static final String FILE_EXTERNAL_TMP_EXTENSION = FILE_EXTERNAL_EXTENSION + ".tmp"; ++ ++ public static String getFileName(final int sectionX, final int sectionZ) { ++ return sectionX + "." + sectionZ + FILE_EXTENSION; ++ } ++ ++ private static String getExternalBase(final int sectionX, final int sectionZ, ++ final int localX, final int localZ, ++ final int type) { ++ final int absoluteX = (sectionX << SECTION_SHIFT) | (localX & SECTION_MASK); ++ final int absoluteZ = (sectionZ << SECTION_SHIFT) | (localZ & SECTION_MASK); ++ ++ return absoluteX + "." + absoluteZ + "-" + type; ++ } ++ ++ public static String getExternalFileName(final int sectionX, final int sectionZ, ++ final int localX, final int localZ, ++ final int type) { ++ return getExternalBase(sectionX, sectionZ, localX, localZ, type) + FILE_EXTERNAL_EXTENSION; ++ } ++ ++ public static String getExternalTempFileName(final int sectionX, final int sectionZ, ++ final int localX, final int localZ, final int type) { ++ return getExternalBase(sectionX, sectionZ, localX, localZ, type) + FILE_EXTERNAL_TMP_EXTENSION; ++ } ++ ++ public static final int SECTOR_SHIFT = 9; ++ public static final int SECTOR_SIZE = 1 << SECTOR_SHIFT; ++ ++ public static final int SECTION_SHIFT = 5; ++ public static final int SECTION_SIZE = 1 << SECTION_SHIFT; ++ public static final int SECTION_MASK = SECTION_SIZE - 1; ++ ++ // General assumptions: Type header offsets are at least one sector in size ++ ++ /* ++ * File Header: ++ * First 8-bytes: XXHash64 of entire header data, excluding hash value ++ * Next 42x8 bytes: XXHash64 values for each type header ++ * Next 42x4 bytes: sector offsets of type headers ++ */ ++ private static final int FILE_HEADER_SECTOR = 0; ++ public static final int MAX_TYPES = 42; ++ ++ public static final class FileHeader { ++ ++ public static final int FILE_HEADER_SIZE_BYTES = LONG_SIZE + MAX_TYPES*(LONG_SIZE + INT_SIZE); ++ public static final int FILE_HEADER_TOTAL_SECTORS = (FILE_HEADER_SIZE_BYTES + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT; ++ ++ public final long[] xxHash64TypeHeader = new long[MAX_TYPES]; ++ public final int[] typeHeaderOffsets = new int[MAX_TYPES]; ++ ++ public FileHeader() { ++ if (ABSENT_HEADER_XXHASH64 != 0L || ABSENT_TYPE_HEADER_OFFSET != 0) { // arrays default initialise to 0 ++ this.reset(); ++ } ++ } ++ ++ public void reset() { ++ Arrays.fill(this.xxHash64TypeHeader, ABSENT_HEADER_XXHASH64); ++ Arrays.fill(this.typeHeaderOffsets, ABSENT_TYPE_HEADER_OFFSET); ++ } ++ ++ public void write(final ByteBuffer buffer) { ++ final int pos = buffer.position(); ++ ++ // reserve XXHash64 space ++ buffer.putLong(0L); ++ ++ buffer.asLongBuffer().put(0, this.xxHash64TypeHeader); ++ buffer.position(buffer.position() + MAX_TYPES * LONG_SIZE); ++ ++ buffer.asIntBuffer().put(0, this.typeHeaderOffsets); ++ buffer.position(buffer.position() + MAX_TYPES * INT_SIZE); ++ ++ final long hash = computeHash(buffer, pos); ++ ++ buffer.putLong(pos, hash); ++ } ++ ++ public static void read(final ByteBuffer buffer, final FileHeader fileHeader) { ++ buffer.duplicate().position(buffer.position() + LONG_SIZE).asLongBuffer().get(0, fileHeader.xxHash64TypeHeader); ++ ++ buffer.duplicate().position(buffer.position() + LONG_SIZE + LONG_SIZE * MAX_TYPES) ++ .asIntBuffer().get(0, fileHeader.typeHeaderOffsets); ++ ++ buffer.position(buffer.position() + FILE_HEADER_SIZE_BYTES); ++ } ++ ++ public static long computeHash(final ByteBuffer buffer, final int offset) { ++ return XXHASH64.hash(buffer, offset + LONG_SIZE, FILE_HEADER_SIZE_BYTES - LONG_SIZE, XXHASH_SEED); ++ } ++ ++ public static boolean validate(final ByteBuffer buffer, final int offset) { ++ final long expected = buffer.getLong(offset); ++ ++ return expected == computeHash(buffer, offset); ++ } ++ ++ public void copyFrom(final FileHeader src) { ++ System.arraycopy(src.xxHash64TypeHeader, 0, this.xxHash64TypeHeader, 0, MAX_TYPES); ++ System.arraycopy(src.typeHeaderOffsets, 0, this.typeHeaderOffsets, 0, MAX_TYPES); ++ } ++ } ++ ++ public static record DataHeader( ++ long xxhash64Header, ++ long xxhash64Data, ++ long timeWritten, ++ int compressedSize, ++ short index, ++ byte typeId, ++ byte compressionType ++ ) { ++ ++ public static void storeHeader(final ByteBuffer buffer, final XXHash64 xxHash64, ++ final long dataHash, final long timeWritten, ++ final int compressedSize, final short index, final byte typeId, ++ final byte compressionType) { ++ final int pos = buffer.position(); ++ ++ buffer.putLong(0L); // placeholder for header hash ++ buffer.putLong(dataHash); ++ buffer.putLong(timeWritten); ++ buffer.putInt(compressedSize); ++ buffer.putShort(index); ++ buffer.put(typeId); ++ buffer.put(compressionType); ++ ++ // replace placeholder for header hash with real hash ++ buffer.putLong(pos, computeHash(xxHash64, buffer, pos)); ++ } ++ ++ public static final int DATA_HEADER_LENGTH = LONG_SIZE + LONG_SIZE + LONG_SIZE + INT_SIZE + SHORT_SIZE + BYTE_SIZE + BYTE_SIZE; ++ ++ public static DataHeader read(final ByteBuffer buffer) { ++ if (buffer.remaining() < DATA_HEADER_LENGTH) { ++ return null; ++ } ++ ++ return new DataHeader( ++ buffer.getLong(), buffer.getLong(), buffer.getLong(), ++ buffer.getInt(), buffer.getShort(), buffer.get(), buffer.get() ++ ); ++ } ++ ++ public static DataHeader read(final ByteBufferInputStream input) throws IOException { ++ final ByteBuffer buffer = ByteBuffer.allocate(DATA_HEADER_LENGTH); ++ ++ // read = 0 when buffer is full ++ while (input.read(buffer) > 0); ++ ++ buffer.flip(); ++ return read(buffer); ++ } ++ ++ public static long computeHash(final XXHash64 xxHash64, final ByteBuffer header, final int offset) { ++ return xxHash64.hash(header, offset + LONG_SIZE, DATA_HEADER_LENGTH - LONG_SIZE, XXHASH_SEED); ++ } ++ ++ public static boolean validate(final XXHash64 xxHash64, final ByteBuffer header, final int offset) { ++ final long expectedSeed = header.getLong(offset); ++ final long computedSeed = computeHash(xxHash64, header, offset); ++ ++ return expectedSeed == computedSeed; ++ } ++ } ++ ++ private static final int SECTOR_LENGTH_BITS = 10; ++ private static final int SECTOR_OFFSET_BITS = 22; ++ static { ++ if ((SECTOR_OFFSET_BITS + SECTOR_LENGTH_BITS) != 32) { ++ throw new IllegalStateException(); ++ } ++ } ++ ++ private static final int MAX_NORMAL_SECTOR_OFFSET = (1 << SECTOR_OFFSET_BITS) - 2; // inclusive ++ private static final int MAX_NORMAL_SECTOR_LENGTH = (1 << SECTOR_LENGTH_BITS) - 1; ++ ++ private static final int MAX_INTERNAL_ALLOCATION_BYTES = SECTOR_SIZE * (1 << SECTOR_LENGTH_BITS); ++ ++ public static final int TYPE_HEADER_OFFSET_COUNT = SECTION_SIZE * SECTION_SIZE; // total number of offsets per type header ++ public static final int TYPE_HEADER_SECTORS = (TYPE_HEADER_OFFSET_COUNT * INT_SIZE) / SECTOR_SIZE; // total number of sectors used per type header ++ ++ // header location is just raw sector number ++ // so, we point to the header itself to indicate absence ++ private static final int ABSENT_TYPE_HEADER_OFFSET = FILE_HEADER_SECTOR; ++ private static final long ABSENT_HEADER_XXHASH64 = 0L; ++ ++ private static int makeLocation(final int sectorOffset, final int sectorLength) { ++ return (sectorOffset << SECTOR_LENGTH_BITS) | (sectorLength & ((1 << SECTOR_LENGTH_BITS) - 1)); ++ } ++ ++ // point to file header sector when absent, as we know that sector is allocated and will not conflict with any real allocation ++ private static final int ABSENT_LOCATION = makeLocation(FILE_HEADER_SECTOR, 0); ++ // point to outside the maximum allocatable range for external allocations, which will not conflict with any other ++ // data allocation (although, it may conflict with a type header allocation) ++ private static final int EXTERNAL_ALLOCATION_LOCATION = makeLocation(MAX_NORMAL_SECTOR_OFFSET + 1, 0); ++ ++ private static int getLocationOffset(final int location) { ++ return location >>> SECTOR_LENGTH_BITS; ++ } ++ ++ private static int getLocationLength(final int location) { ++ return location & ((1 << SECTOR_LENGTH_BITS) - 1); ++ } ++ ++ private static int getIndex(final int localX, final int localZ) { ++ return (localX & SECTION_MASK) | ((localZ & SECTION_MASK) << SECTION_SHIFT); ++ } ++ ++ private static int getLocalX(final int index) { ++ return index & SECTION_MASK; ++ } ++ ++ private static int getLocalZ(final int index) { ++ return (index >>> SECTION_SHIFT) & SECTION_MASK; ++ } ++ ++ public final File file; ++ public final int sectionX; ++ public final int sectionZ; ++ private final FileChannel channel; ++ private final boolean sync; ++ private final boolean readOnly; ++ private final SectorAllocator sectorAllocator = newSectorAllocator(); ++ private final SectorFileCompressionType compressionType; ++ ++ private static final class TypeHeader { ++ ++ public static final int TYPE_HEADER_SIZE_BYTES = TYPE_HEADER_OFFSET_COUNT * INT_SIZE; ++ ++ public final int[] locations; ++ ++ private TypeHeader() { ++ this.locations = new int[TYPE_HEADER_OFFSET_COUNT]; ++ if (ABSENT_LOCATION != 0) { ++ this.reset(); ++ } ++ } ++ ++ private TypeHeader(final int[] locations) { ++ this.locations = locations; ++ if (locations.length != TYPE_HEADER_OFFSET_COUNT) { ++ throw new IllegalArgumentException(); ++ } ++ } ++ ++ public void reset() { ++ Arrays.fill(this.locations, ABSENT_LOCATION); ++ } ++ ++ public static TypeHeader read(final ByteBuffer buffer) { ++ final int[] locations = new int[TYPE_HEADER_OFFSET_COUNT]; ++ buffer.asIntBuffer().get(0, locations, 0, TYPE_HEADER_OFFSET_COUNT); ++ ++ return new TypeHeader(locations); ++ } ++ ++ public void write(final ByteBuffer buffer) { ++ buffer.asIntBuffer().put(0, this.locations); ++ ++ buffer.position(buffer.position() + TYPE_HEADER_SIZE_BYTES); ++ } ++ ++ public static long computeHash(final ByteBuffer buffer, final int offset) { ++ return XXHASH64.hash(buffer, offset, TYPE_HEADER_SIZE_BYTES, XXHASH_SEED); ++ } ++ } ++ ++ private final Int2ObjectLinkedOpenHashMap typeHeaders = new Int2ObjectLinkedOpenHashMap<>(); ++ private final Int2ObjectMap typeTranslationTable; ++ private final FileHeader fileHeader = new FileHeader(); ++ ++ private void checkHeaderExists(final int type) { ++ // we want to error when a type is used which is not mapped ++ if (this.typeTranslationTable.get(type) == null) { ++ throw new IllegalArgumentException("Unknown type " + type); ++ } ++ } ++ ++ static { ++ final int smallBufferSize = 16 * 1024; // 16kb ++ if (FileHeader.FILE_HEADER_SIZE_BYTES > smallBufferSize) { ++ throw new IllegalStateException("Cannot read file header using single small buffer"); ++ } ++ if (TypeHeader.TYPE_HEADER_SIZE_BYTES > smallBufferSize) { ++ throw new IllegalStateException("Cannot read type header using single small buffer"); ++ } ++ } ++ ++ public static final int OPEN_FLAGS_READ_ONLY = 1 << 0; ++ public static final int OPEN_FLAGS_SYNC_WRITES = 1 << 1; ++ ++ public SectorFile(final File file, final int sectionX, final int sectionZ, ++ final SectorFileCompressionType defaultCompressionType, ++ final BufferChoices unscopedBufferChoices, final Int2ObjectMap typeTranslationTable, ++ final int openFlags) throws IOException { ++ final boolean readOnly = (openFlags & OPEN_FLAGS_READ_ONLY) != 0; ++ final boolean sync = (openFlags & OPEN_FLAGS_SYNC_WRITES) != 0; ++ ++ if (readOnly & sync) { ++ throw new IllegalArgumentException("Cannot set read-only and sync"); ++ } ++ this.file = file; ++ this.sectionX = sectionX; ++ this.sectionZ = sectionZ; ++ if (readOnly) { ++ this.channel = FileChannel.open(file.toPath(), StandardOpenOption.READ); ++ } else { ++ if (sync) { ++ this.channel = FileChannel.open(file.toPath(), StandardOpenOption.CREATE, StandardOpenOption.READ, StandardOpenOption.WRITE, StandardOpenOption.DSYNC); ++ } else { ++ this.channel = FileChannel.open(file.toPath(), StandardOpenOption.CREATE, StandardOpenOption.READ, StandardOpenOption.WRITE); ++ } ++ } ++ this.sync = sync; ++ this.readOnly = readOnly; ++ this.typeTranslationTable = typeTranslationTable; ++ this.compressionType = defaultCompressionType; ++ ++ if (this.channel.size() != 0L) { ++ this.readFileHeader(unscopedBufferChoices); ++ } ++ ++ // validate types ++ for (final IntIterator iterator = typeTranslationTable.keySet().iterator(); iterator.hasNext(); ) { ++ final int type = iterator.nextInt(); ++ ++ if (type < 0 || type >= MAX_TYPES) { ++ throw new IllegalStateException("Type translation table contains illegal type: " + type); ++ } ++ } ++ } ++ ++ private TypeHeader createTypeHeader(final int type, final BufferChoices unscopedBufferChoices) throws IOException { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer ioBuffer = scopedBufferChoices.t16k().acquireDirectBuffer(); ++ final int offset = this.sectorAllocator.allocate(TYPE_HEADER_SECTORS, false); // in sectors ++ if (offset <= 0) { ++ throw new IllegalStateException("Cannot allocate space for header " + this.debugType(type) + ":" + offset); ++ } ++ ++ final TypeHeader ret = new TypeHeader(); ++ ++ this.fileHeader.typeHeaderOffsets[type] = offset; ++ // hash will be computed by writeTypeHeader ++ this.typeHeaders.put(type, ret); ++ ++ this.writeTypeHeader(ioBuffer, type, true, true); ++ ++ return ret; ++ } ++ } ++ ++ public int forTestingAllocateSector(final int sectors) { ++ return this.sectorAllocator.allocate(sectors, true); ++ } ++ ++ private String debugType(final int type) { ++ final String name = this.typeTranslationTable.get(type); ++ return "{id=" + type + ",name=" + (name == null ? "unknown" : name) + "}"; ++ } ++ ++ private static SectorAllocator newSectorAllocator() { ++ final SectorAllocator newSectorAllocation = new SectorAllocator(MAX_NORMAL_SECTOR_OFFSET, MAX_NORMAL_SECTOR_LENGTH); ++ if (!newSectorAllocation.tryAllocateDirect(FILE_HEADER_SECTOR, FileHeader.FILE_HEADER_TOTAL_SECTORS, false)) { ++ throw new IllegalStateException("Cannot allocate initial header"); ++ } ++ return newSectorAllocation; ++ } ++ ++ private void makeBackup(final File target) throws IOException { ++ this.channel.force(true); ++ Files.copy(this.file.toPath(), target.toPath(), StandardCopyOption.COPY_ATTRIBUTES); ++ } ++ ++ public static final int RECALCULATE_FLAGS_NO_BACKUP = 1 << 0; ++ public static final int RECALCULATE_FLAGS_NO_LOG = 1 << 1; ++ ++ // returns whether any changes were made, useful for testing ++ public boolean recalculateFile(final BufferChoices unscopedBufferChoices, final int flags) throws IOException { ++ if (this.readOnly) { ++ return false; ++ } ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.error("An inconsistency has been detected in the headers for file '" + this.file.getAbsolutePath() + ++ "', recalculating the headers", new Throwable()); ++ } ++ // The headers are determined as incorrect, so we are going to rebuild it from the file ++ final SectorAllocator newSectorAllocation = newSectorAllocator(); ++ ++ if ((flags & RECALCULATE_FLAGS_NO_BACKUP) == 0) { ++ final File backup = new File(this.file.getParentFile(), this.file.getName() + "." + new Random().nextLong() + ".backup"); ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.info("Making backup of '" + this.file.getAbsolutePath() + "' to '" + backup.getAbsolutePath() + "'"); ++ } ++ this.makeBackup(backup); ++ } ++ ++ class TentativeTypeHeader { ++ final TypeHeader typeHeader = new TypeHeader(); ++ final long[] timestamps = new long[TYPE_HEADER_OFFSET_COUNT]; ++ } ++ ++ final Int2ObjectLinkedOpenHashMap newTypeHeaders = new Int2ObjectLinkedOpenHashMap<>(); ++ ++ // order of precedence of data found: ++ // newest timestamp, ++ // located internally, ++ // located closest to start internally ++ ++ // force creation tentative type headers for required headers, as we will later replace the current ones ++ for (final IntIterator iterator = this.typeTranslationTable.keySet().iterator(); iterator.hasNext();) { ++ newTypeHeaders.put(iterator.nextInt(), new TentativeTypeHeader()); ++ } ++ ++ // search for internal data ++ ++ try (final BufferChoices scopedChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer buffer = scopedChoices.t1m().acquireDirectBuffer(); ++ ++ final long fileSectors = (this.channel.size() + (long)(SECTOR_SIZE - 1)) >>> SECTOR_SHIFT; ++ for (long i = (long)(FILE_HEADER_SECTOR + FileHeader.FILE_HEADER_TOTAL_SECTORS); i <= Math.min(fileSectors, (long)MAX_NORMAL_SECTOR_OFFSET); ++i) { ++ buffer.limit(DataHeader.DATA_HEADER_LENGTH); ++ buffer.position(0); ++ ++ this.channel.read(buffer, i << SECTOR_SHIFT); ++ ++ if (buffer.hasRemaining()) { ++ // last sector, which is truncated ++ continue; ++ } ++ ++ buffer.flip(); ++ ++ if (!DataHeader.validate(XXHASH64, buffer, 0)) { ++ // no valid data allocated on this sector ++ continue; ++ } ++ ++ final DataHeader dataHeader = DataHeader.read(buffer); ++ // sector size = (compressed size + header size + SECTOR_SIZE-1) >> SECTOR_SHIFT ++ final int maxCompressedSize = (MAX_NORMAL_SECTOR_LENGTH << SECTOR_SHIFT) - DataHeader.DATA_HEADER_LENGTH; ++ ++ if (dataHeader.compressedSize > maxCompressedSize || dataHeader.compressedSize < 0) { ++ // invalid size ++ continue; ++ } ++ ++ final int typeId = (int)(dataHeader.typeId & 0xFF); ++ final int index = (int)(dataHeader.index & 0xFFFF); ++ ++ if (typeId < 0 || typeId >= MAX_TYPES) { ++ // type id is too large or small ++ continue; ++ } ++ ++ final TentativeTypeHeader typeHeader = newTypeHeaders.computeIfAbsent(typeId, (final int key) -> { ++ return new TentativeTypeHeader(); ++ }); ++ ++ final int prevLocation = typeHeader.typeHeader.locations[index]; ++ if (prevLocation != ABSENT_LOCATION) { ++ // try to skip data if the data is older ++ final long prevTimestamp = typeHeader.timestamps[index]; ++ ++ if ((dataHeader.timeWritten - prevTimestamp) <= 0L) { ++ // this data is older, skip it ++ // since we did not validate the data, we cannot skip over the sectors it says it has allocated ++ continue; ++ } ++ } ++ ++ // read remaining data ++ buffer.limit(dataHeader.compressedSize); ++ buffer.position(0); ++ this.channel.read(buffer, (i << SECTOR_SHIFT) + (long)DataHeader.DATA_HEADER_LENGTH); ++ ++ if (buffer.hasRemaining()) { ++ // data is truncated, skip ++ continue; ++ } ++ ++ buffer.flip(); ++ ++ // validate data against hash ++ final long gotHash = XXHASH64.hash(buffer, 0, dataHeader.compressedSize, XXHASH_SEED); ++ ++ if (gotHash != dataHeader.xxhash64Data) { ++ // not the data we expect ++ continue; ++ } ++ ++ // since we are a newer timestamp than prev, replace it ++ ++ final int sectorOffset = (int)i; // i <= MAX_NORMAL_SECTOR_OFFSET ++ final int sectorLength = (dataHeader.compressedSize + DataHeader.DATA_HEADER_LENGTH + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT; ++ final int newLocation = makeLocation(sectorOffset, sectorLength); ++ ++ if (!newSectorAllocation.tryAllocateDirect(sectorOffset, sectorLength, false)) { ++ throw new IllegalStateException("Unable to allocate sectors"); ++ } ++ ++ if (prevLocation != ABSENT_LOCATION && prevLocation != EXTERNAL_ALLOCATION_LOCATION) { ++ newSectorAllocation.freeAllocation(getLocationOffset(prevLocation), getLocationLength(prevLocation)); ++ } ++ ++ typeHeader.typeHeader.locations[index] = newLocation; ++ typeHeader.timestamps[index] = dataHeader.timeWritten; ++ ++ // skip over the sectors, we know they're good ++ i += (long)sectorLength; ++ --i; ++ continue; ++ } ++ } ++ ++ final IntOpenHashSet possibleTypes = new IntOpenHashSet(128); ++ possibleTypes.addAll(this.typeTranslationTable.keySet()); ++ possibleTypes.addAll(this.typeHeaders.keySet()); ++ possibleTypes.addAll(newTypeHeaders.keySet()); ++ ++ // search for external files ++ for (final IntIterator iterator = possibleTypes.iterator(); iterator.hasNext();) { ++ final int type = iterator.nextInt(); ++ for (int localZ = 0; localZ < SECTION_SIZE; ++localZ) { ++ for (int localX = 0; localX < SECTION_SIZE; ++localX) { ++ final File external = this.getExternalFile(localX, localZ, type); ++ if (!external.isFile()) { ++ continue; ++ } ++ ++ final int index = getIndex(localX, localZ); ++ ++ // read header ++ final DataHeader header; ++ try (final BufferChoices scopedChoices = unscopedBufferChoices.scope(); ++ final FileChannel input = FileChannel.open(external.toPath(), StandardOpenOption.READ)) { ++ final ByteBuffer buffer = scopedChoices.t16k().acquireDirectBuffer(); ++ ++ buffer.limit(DataHeader.DATA_HEADER_LENGTH); ++ buffer.position(0); ++ ++ input.read(buffer); ++ ++ buffer.flip(); ++ ++ header = DataHeader.read(buffer); ++ ++ if (header == null) { ++ // truncated ++ LOGGER.warn("Deleting truncated external file '" + external.getAbsolutePath() + "'"); ++ external.delete(); ++ continue; ++ } ++ ++ if (!DataHeader.validate(XXHASH64, buffer, 0)) { ++ LOGGER.warn("Failed to verify header hash for external file '" + external.getAbsolutePath() + "'"); ++ continue; ++ } ++ } catch (final IOException ex) { ++ LOGGER.warn("Failed to read header from external file '" + external.getAbsolutePath() + "'", ex); ++ continue; ++ } ++ ++ // verify the rest of the header ++ ++ if (type != ((int)header.typeId & 0xFF)) { ++ LOGGER.warn("Mismatch of type and expected type for external file '" + external.getAbsolutePath() + "'"); ++ continue; ++ } ++ ++ if (index != ((int)header.index & 0xFFFF)) { ++ LOGGER.warn("Mismatch of index and expected index for external file '" + external.getAbsolutePath() + "'"); ++ continue; ++ } ++ ++ if (external.length() != ((long)DataHeader.DATA_HEADER_LENGTH + (long)header.compressedSize)) { ++ LOGGER.warn("Mismatch of filesize and compressed size for external file '" + external.getAbsolutePath() + "'"); ++ continue; ++ } ++ ++ // we are mostly certain the data is valid, but need still to check the data hash ++ // we can test the timestamp against current data before the expensive data hash operation though ++ ++ final TentativeTypeHeader typeHeader = newTypeHeaders.computeIfAbsent(type, (final int key) -> { ++ return new TentativeTypeHeader(); ++ }); ++ ++ final int prevLocation = typeHeader.typeHeader.locations[index]; ++ final long prevTimestamp = typeHeader.timestamps[index]; ++ ++ if (prevLocation != ABSENT_LOCATION) { ++ if ((header.timeWritten - prevTimestamp) <= 0L) { ++ // this data is older, skip ++ continue; ++ } ++ } ++ ++ // now we can test the hash, after verifying everything else is correct ++ ++ try { ++ final Long externalHash = computeExternalHash(unscopedBufferChoices, external); ++ if (externalHash == null || externalHash.longValue() != header.xxhash64Data) { ++ LOGGER.warn("Failed to verify hash for external file '" + external.getAbsolutePath() + "'"); ++ continue; ++ } ++ } catch (final IOException ex) { ++ LOGGER.warn("Failed to compute hash for external file '" + external.getAbsolutePath() + "'", ex); ++ continue; ++ } ++ ++ if (prevLocation != ABSENT_LOCATION && prevLocation != EXTERNAL_ALLOCATION_LOCATION) { ++ newSectorAllocation.freeAllocation(getLocationOffset(prevLocation), getLocationLength(prevLocation)); ++ } ++ ++ typeHeader.typeHeader.locations[index] = EXTERNAL_ALLOCATION_LOCATION; ++ typeHeader.timestamps[index] = header.timeWritten; ++ } ++ } ++ } ++ ++ // now we can build the new headers ++ final Int2ObjectLinkedOpenHashMap newHeaders = new Int2ObjectLinkedOpenHashMap<>(newTypeHeaders.size()); ++ final FileHeader newFileHeader = new FileHeader(); ++ ++ for (final Iterator> iterator = newTypeHeaders.int2ObjectEntrySet().fastIterator(); iterator.hasNext();) { ++ final Int2ObjectMap.Entry entry = iterator.next(); ++ ++ final int type = entry.getIntKey(); ++ final TentativeTypeHeader tentativeTypeHeader = entry.getValue(); ++ ++ boolean hasData = false; ++ for (final int location : tentativeTypeHeader.typeHeader.locations) { ++ if (location != ABSENT_LOCATION) { ++ hasData = true; ++ break; ++ } ++ } ++ ++ if (!hasData) { ++ continue; ++ } ++ ++ final int sectorOffset = newSectorAllocation.allocate(TYPE_HEADER_SECTORS, false); ++ if (sectorOffset < 0) { ++ throw new IllegalStateException("Failed to allocate type header"); ++ } ++ ++ newHeaders.put(type, tentativeTypeHeader.typeHeader); ++ newFileHeader.typeHeaderOffsets[type] = sectorOffset; ++ // hash will be computed later by writeTypeHeader ++ } ++ ++ // now print the changes we're about to make ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.info("Summarizing header changes for sectorfile " + this.file.getAbsolutePath()); ++ } ++ ++ boolean changes = false; ++ ++ // make sure to use the tentative type headers, in case the tentative header was not allocated due to being empty ++ for (final Iterator> iterator = newTypeHeaders.int2ObjectEntrySet().fastIterator(); iterator.hasNext();) { ++ final Int2ObjectMap.Entry entry = iterator.next(); ++ final int type = entry.getIntKey(); ++ final TypeHeader newTypeHeader = entry.getValue().typeHeader; ++ final TypeHeader oldTypeHeader = this.typeHeaders.get(type); ++ ++ boolean hasChanges; ++ if (oldTypeHeader == null) { ++ hasChanges = false; ++ final int[] test = newTypeHeader.locations; ++ for (int i = 0; i < test.length; ++i) { ++ if (test[i] != ABSENT_LOCATION) { ++ hasChanges = true; ++ break; ++ } ++ } ++ } else { ++ hasChanges = !Arrays.equals(oldTypeHeader.locations, newTypeHeader.locations); ++ } ++ ++ if (!hasChanges) { ++ // make logs easier to read by only logging one line if there are no changes ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.info("No changes for type " + this.debugType(type) + " in sectorfile " + this.file.getAbsolutePath()); ++ } ++ continue; ++ } ++ ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.info("Changes for type " + this.debugType(type) + " in sectorfile '" + this.file.getAbsolutePath() + "':"); ++ } ++ ++ for (int localZ = 0; localZ < SECTION_SIZE; ++localZ) { ++ for (int localX = 0; localX < SECTION_SIZE; ++localX) { ++ final int index = getIndex(localX, localZ); ++ ++ final int oldLocation = oldTypeHeader == null ? ABSENT_LOCATION : oldTypeHeader.locations[index]; ++ final int newLocation = newTypeHeader.locations[index]; ++ ++ if (oldLocation == newLocation) { ++ continue; ++ } ++ ++ changes = true; ++ ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ if (oldLocation == ABSENT_LOCATION) { ++ // found new data ++ LOGGER.info("Found missing data for " + this.debugType(type) + " located at " + this.getAbsoluteCoordinate(index) + " in sectorfile " + this.file.getAbsolutePath()); ++ } else if (newLocation == ABSENT_LOCATION) { ++ // lost data ++ LOGGER.warn("Failed to find data for " + this.debugType(type) + " located at " + this.getAbsoluteCoordinate(index) + " in sectorfile " + this.file.getAbsolutePath()); ++ } else { ++ // changed to last correct data ++ LOGGER.info("Replaced with last good data for " + this.debugType(type) + " located at " + this.getAbsoluteCoordinate(index) + " in sectorfile " + this.file.getAbsolutePath()); ++ } ++ } ++ } ++ } ++ ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.info("End of changes for type " + this.debugType(type) + " in sectorfile " + this.file.getAbsolutePath()); ++ } ++ } ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.info("End of changes for sectorfile " + this.file.getAbsolutePath()); ++ } ++ ++ // replace-in memory ++ this.typeHeaders.clear(); ++ this.typeHeaders.putAll(newHeaders); ++ this.fileHeader.copyFrom(newFileHeader); ++ this.sectorAllocator.copyAllocations(newSectorAllocation); ++ ++ // write to disk ++ try { ++ // first, the type headers ++ for (final IntIterator iterator = newHeaders.keySet().iterator(); iterator.hasNext();) { ++ final int type = iterator.nextInt(); ++ try (final BufferChoices headerBuffers = unscopedBufferChoices.scope()) { ++ try { ++ this.writeTypeHeader(headerBuffers.t16k().acquireDirectBuffer(), type, true, false); ++ } catch (final IOException ex) { ++ // to ensure we update all the type header hashes, we need call writeTypeHeader for all type headers ++ // so, we need to catch any IO errors here ++ LOGGER.error("Failed to write type header " + this.debugType(type) + " to disk for sectorfile " + this.file.getAbsolutePath(), ex); ++ } ++ } ++ } ++ ++ // then we can write the main header ++ try (final BufferChoices headerBuffers = unscopedBufferChoices.scope()) { ++ this.writeFileHeader(headerBuffers.t16k().acquireDirectBuffer()); ++ } ++ ++ if ((flags & RECALCULATE_FLAGS_NO_LOG) == 0) { ++ LOGGER.info("Successfully wrote new headers to disk for sectorfile " + this.file.getAbsolutePath()); ++ } ++ } catch (final IOException ex) { ++ LOGGER.error("Failed to write new headers to disk for sectorfile " + this.file.getAbsolutePath(), ex); ++ } ++ ++ return changes; ++ } ++ ++ private String getAbsoluteCoordinate(final int index) { ++ return this.getAbsoluteCoordinate(getLocalX(index), getLocalZ(index)); ++ } ++ ++ private String getAbsoluteCoordinate(final int localX, final int localZ) { ++ return "(" + (localX | (this.sectionX << SECTION_SHIFT)) + "," + (localZ | (this.sectionZ << SECTION_SHIFT)) + ")"; ++ } ++ ++ private void write(final ByteBuffer buffer, long position) throws IOException { ++ int len = buffer.remaining(); ++ while (len > 0) { ++ final int written = this.channel.write(buffer, position); ++ len -= written; ++ position += (long)written; ++ } ++ } ++ ++ private void writeFileHeader(final ByteBuffer ioBuffer) throws IOException { ++ ioBuffer.limit(FileHeader.FILE_HEADER_SIZE_BYTES); ++ ioBuffer.position(0); ++ ++ this.fileHeader.write(ioBuffer.duplicate()); ++ ++ this.write(ioBuffer, (long)FILE_HEADER_SECTOR << SECTOR_SHIFT); ++ } ++ ++ private void readFileHeader(final BufferChoices unscopedBufferChoices) throws IOException { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer buffer = scopedBufferChoices.t16k().acquireDirectBuffer(); ++ ++ // reset sector allocations + headers for debug/testing ++ this.sectorAllocator.copyAllocations(newSectorAllocator()); ++ this.typeHeaders.clear(); ++ this.fileHeader.reset(); ++ ++ buffer.limit(FileHeader.FILE_HEADER_SIZE_BYTES); ++ buffer.position(0); ++ ++ final long fileLengthSectors = (this.channel.size() + (SECTOR_SIZE - 1L)) >> SECTOR_SHIFT; ++ ++ int read = this.channel.read(buffer, (long)FILE_HEADER_SECTOR << SECTOR_SHIFT); ++ ++ if (read != buffer.limit()) { ++ LOGGER.warn("File '" + this.file.getAbsolutePath() + "' has a truncated file header"); ++ // File is truncated ++ // All headers will initialise to default ++ return; ++ } ++ ++ buffer.position(0); ++ ++ if (!FileHeader.validate(buffer, 0)) { ++ LOGGER.warn("File '" + this.file.getAbsolutePath() + "' has file header with hash mismatch"); ++ if (!this.readOnly) { ++ this.recalculateFile(unscopedBufferChoices, 0); ++ return; ++ } // else: in read-only mode, try to parse the header still ++ } ++ ++ FileHeader.read(buffer, this.fileHeader); ++ ++ // delay recalculation so that the logs contain all errors found ++ boolean needsRecalculation = false; ++ ++ // try to allocate space for written type headers ++ for (int i = 0; i < MAX_TYPES; ++i) { ++ final int typeHeaderOffset = this.fileHeader.typeHeaderOffsets[i]; ++ if (typeHeaderOffset == ABSENT_TYPE_HEADER_OFFSET) { ++ // no data ++ continue; ++ } ++ // note: only the type headers can bypass the max limit, as the max limit is determined by SECTOR_OFFSET_BITS ++ // but the type offset is full 31 bits ++ if (typeHeaderOffset < 0 || !this.sectorAllocator.tryAllocateDirect(typeHeaderOffset, TYPE_HEADER_SECTORS, true)) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has bad or overlapping offset for type header " + this.debugType(i) + ": " + typeHeaderOffset); ++ needsRecalculation = true; ++ continue; ++ } ++ ++ if (!this.typeTranslationTable.containsKey(i)) { ++ LOGGER.warn("File '" + this.file.getAbsolutePath() + "' has an unknown type header: " + i); ++ } ++ ++ // parse header ++ buffer.position(0); ++ buffer.limit(TypeHeader.TYPE_HEADER_SIZE_BYTES); ++ read = this.channel.read(buffer, (long)typeHeaderOffset << SECTOR_SHIFT); ++ ++ if (read != buffer.limit()) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has type header " + this.debugType(i) + " pointing to outside of file: " + typeHeaderOffset); ++ needsRecalculation = true; ++ continue; ++ } ++ ++ final long expectedHash = this.fileHeader.xxHash64TypeHeader[i]; ++ final long gotHash = TypeHeader.computeHash(buffer, 0); ++ ++ if (expectedHash != gotHash) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has type header " + this.debugType(i) + " with a mismatched hash"); ++ needsRecalculation = true; ++ if (!this.readOnly) { ++ continue; ++ } // else: in read-only mode, try to parse the type header still ++ } ++ ++ final TypeHeader typeHeader = TypeHeader.read(buffer.flip()); ++ ++ final int[] locations = typeHeader.locations; ++ ++ // here, we now will try to allocate space for the data in the type header ++ // we need to do it even if we don't know what type we're dealing with ++ for (int k = 0; k < locations.length; ++k) { ++ final int location = locations[k]; ++ if (location == ABSENT_LOCATION || location == EXTERNAL_ALLOCATION_LOCATION) { ++ // no data or it is on the external file ++ continue; ++ } ++ ++ final int locationOffset = getLocationOffset(location); ++ final int locationLength = getLocationLength(location); ++ ++ if (locationOffset < 0) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has negative (o:" + locationOffset + ",l:" + locationLength + ") sector offset for type " + this.debugType(i) + " located at " + this.getAbsoluteCoordinate(k)); ++ needsRecalculation = true; ++ continue; ++ } else if (locationLength <= 0) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has negative (o:" + locationOffset + ",l:" + locationLength + ") length for type " + this.debugType(i) + " located at " + this.getAbsoluteCoordinate(k)); ++ needsRecalculation = true; ++ continue; ++ } else if ((locationOffset + locationLength) > fileLengthSectors || (locationOffset + locationLength) < 0) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has sector allocation (o:" + locationOffset + ",l:" + locationLength + ") pointing outside file for type " + this.debugType(i) + " located at " + this.getAbsoluteCoordinate(k)); ++ needsRecalculation = true; ++ continue; ++ } else if (!this.sectorAllocator.tryAllocateDirect(locationOffset, locationLength, false)) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has overlapping sector allocation (o:" + locationOffset + ",l:" + locationLength + ") for type " + this.debugType(i) + " located at " + this.getAbsoluteCoordinate(k)); ++ needsRecalculation = true; ++ continue; ++ } ++ } ++ ++ this.typeHeaders.put(i, typeHeader); ++ } ++ ++ if (needsRecalculation) { ++ this.recalculateFile(unscopedBufferChoices, 0); ++ return; ++ } ++ ++ return; ++ } ++ } ++ ++ private void writeTypeHeader(final ByteBuffer buffer, final int type, final boolean updateTypeHeaderHash, ++ final boolean writeFileHeader) throws IOException { ++ final TypeHeader headerData = this.typeHeaders.get(type); ++ if (headerData == null) { ++ throw new IllegalStateException("Unhandled type: " + type); ++ } ++ ++ if (writeFileHeader & !updateTypeHeaderHash) { ++ throw new IllegalArgumentException("Cannot write file header without updating type header hash"); ++ } ++ ++ final int offset = this.fileHeader.typeHeaderOffsets[type]; ++ ++ buffer.position(0); ++ buffer.limit(TypeHeader.TYPE_HEADER_SIZE_BYTES); ++ ++ headerData.write(buffer.duplicate()); ++ ++ final long hash; ++ if (updateTypeHeaderHash) { ++ hash = TypeHeader.computeHash(buffer, 0); ++ this.fileHeader.xxHash64TypeHeader[type] = hash; ++ } ++ ++ this.write(buffer, (long)offset << SECTOR_SHIFT); ++ ++ if (writeFileHeader) { ++ this.writeFileHeader(buffer); ++ } ++ } ++ ++ private void updateAndWriteTypeHeader(final ByteBuffer ioBuffer, final int type, final int index, final int to) throws IOException { ++ final TypeHeader headerData = this.typeHeaders.get(type); ++ if (headerData == null) { ++ throw new IllegalStateException("Unhandled type: " + type); ++ } ++ ++ headerData.locations[index] = to; ++ ++ this.writeTypeHeader(ioBuffer, type, true, true); ++ } ++ ++ private void deleteExternalFile(final int localX, final int localZ, final int type) throws IOException { ++ // use deleteIfExists for error reporting ++ Files.deleteIfExists(this.getExternalFile(localX, localZ, type).toPath()); ++ } ++ ++ private File getExternalFile(final int localX, final int localZ, final int type) { ++ return new File(this.file.getParentFile(), getExternalFileName(this.sectionX, this.sectionZ, localX, localZ, type)); ++ } ++ ++ private File getExternalTempFile(final int localX, final int localZ, final int type) { ++ return new File(this.file.getParentFile(), getExternalTempFileName(this.sectionX, this.sectionZ, localX, localZ, type)); ++ } ++ ++ public static Long computeExternalHash(final BufferChoices unscopedBufferChoices, final File externalFile) throws IOException { ++ if (!externalFile.isFile() || externalFile.length() < (long)DataHeader.DATA_HEADER_LENGTH) { ++ return null; ++ } ++ ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope(); ++ final StreamingXXHash64 streamingXXHash64 = XXHASH_JAVA_FACTORY.newStreamingHash64(XXHASH_SEED); ++ final InputStream fileInput = Files.newInputStream(externalFile.toPath(), StandardOpenOption.READ)) { ++ final byte[] bytes = scopedBufferChoices.t16k().acquireJavaBuffer(); ++ ++ // first, skip header ++ try { ++ fileInput.skipNBytes((long)DataHeader.DATA_HEADER_LENGTH); ++ } catch (final EOFException ex) { ++ return null; ++ } ++ ++ int r; ++ while ((r = fileInput.read(bytes)) >= 0) { ++ streamingXXHash64.update(bytes, 0, r); ++ } ++ ++ return streamingXXHash64.getValue(); ++ } ++ } ++ ++ public static final int READ_FLAG_CHECK_HEADER_HASH = 1 << 0; ++ public static final int READ_FLAG_CHECK_INTERNAL_DATA_HASH = 1 << 1; ++ public static final int READ_FLAG_CHECK_EXTERNAL_DATA_HASH = 1 << 2; ++ ++ // do not check external data hash, there is not much we can do if it is actually bad ++ public static final int RECOMMENDED_READ_FLAGS = READ_FLAG_CHECK_HEADER_HASH | READ_FLAG_CHECK_INTERNAL_DATA_HASH; ++ // checks external hash additionally, which requires a separate full file read ++ public static final int FULL_VALIDATION_FLAGS = READ_FLAG_CHECK_HEADER_HASH | READ_FLAG_CHECK_INTERNAL_DATA_HASH | READ_FLAG_CHECK_EXTERNAL_DATA_HASH; ++ ++ public boolean hasData(final int localX, final int localZ, final int type) { ++ if (localX < 0 || localX > SECTION_MASK) { ++ throw new IllegalArgumentException("X-coordinate out of range"); ++ } ++ if (localZ < 0 || localZ > SECTION_MASK) { ++ throw new IllegalArgumentException("Z-coordinate out of range"); ++ } ++ ++ final TypeHeader typeHeader = this.typeHeaders.get(type); ++ ++ if (typeHeader == null) { ++ this.checkHeaderExists(type); ++ return false; ++ } ++ ++ final int index = getIndex(localX, localZ); ++ final int location = typeHeader.locations[index]; ++ ++ return location != ABSENT_LOCATION; ++ } ++ ++ public static record SectorFileInput(DataInputStream data, boolean external) {} ++ ++ private static final SectorFileInput NULL_DATA = new SectorFileInput(null, false); ++ ++ public SectorFileInput read(final BufferChoices scopedBufferChoices, final int localX, final int localZ, final int type, final int readFlags) throws IOException { ++ return this.read(scopedBufferChoices, scopedBufferChoices.t1m().acquireDirectBuffer(), localX, localZ, type, readFlags); ++ } ++ ++ private SectorFileInput tryRecalculate(final String reason, final BufferChoices scopedBufferChoices, final ByteBuffer buffer, final int localX, final int localZ, final int type, final int readFlags) throws IOException { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has error at data for type " + this.debugType(type) + " located at " + this.getAbsoluteCoordinate(getIndex(localX, localZ)) + ": " + reason); ++ // attribute error to bad header data, which we can re-calculate and re-try ++ if (this.readOnly) { ++ // cannot re-calculate, so we can only return null ++ return NULL_DATA; ++ } ++ this.recalculateFile(scopedBufferChoices, 0); ++ // recalculate ensures valid data, so there will be no recursion ++ return this.read(scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ ++ private SectorFileInput read(final BufferChoices scopedBufferChoices, final ByteBuffer buffer, final int localX, final int localZ, final int type, final int readFlags) throws IOException { ++ if (localX < 0 || localX > SECTION_MASK) { ++ throw new IllegalArgumentException("X-coordinate out of range"); ++ } ++ if (localZ < 0 || localZ > SECTION_MASK) { ++ throw new IllegalArgumentException("Z-coordinate out of range"); ++ } ++ ++ if (buffer.capacity() < MAX_INTERNAL_ALLOCATION_BYTES) { ++ throw new IllegalArgumentException("Buffer size must be at least " + MAX_INTERNAL_ALLOCATION_BYTES + " bytes"); ++ } ++ ++ buffer.limit(buffer.capacity()); ++ buffer.position(0); ++ ++ final TypeHeader typeHeader = this.typeHeaders.get(type); ++ ++ if (typeHeader == null) { ++ this.checkHeaderExists(type); ++ return NULL_DATA; ++ } ++ ++ final int index = getIndex(localX, localZ); ++ ++ final int location = typeHeader.locations[index]; ++ ++ if (location == ABSENT_LOCATION) { ++ return NULL_DATA; ++ } ++ ++ final boolean external = location == EXTERNAL_ALLOCATION_LOCATION; ++ ++ final ByteBufferInputStream rawIn; ++ final File externalFile; ++ if (external) { ++ externalFile = this.getExternalFile(localX, localZ, type); ++ ++ rawIn = new BufferedFileChannelInputStream(buffer, externalFile); ++ } else { ++ externalFile = null; ++ ++ final int offset = getLocationOffset(location); ++ final int length = getLocationLength(location); ++ ++ buffer.limit(length << SECTOR_SHIFT); ++ this.channel.read(buffer, (long)offset << SECTOR_SHIFT); ++ buffer.flip(); ++ ++ rawIn = new ByteBufferInputStream(buffer); ++ } ++ ++ final DataHeader dataHeader = DataHeader.read(rawIn); ++ ++ if (dataHeader == null) { ++ rawIn.close(); ++ return this.tryRecalculate("truncated " + (external ? "external" : "internal") + " data header", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ ++ if ((readFlags & READ_FLAG_CHECK_HEADER_HASH) != 0) { ++ if (!DataHeader.validate(XXHASH64, buffer, 0)) { ++ rawIn.close(); ++ return this.tryRecalculate("mismatch of " + (external ? "external" : "internal") + " data header hash", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ } ++ ++ if ((int)(dataHeader.typeId & 0xFF) != type) { ++ rawIn.close(); ++ return this.tryRecalculate("mismatch of expected type and data header type", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ ++ if (((int)dataHeader.index & 0xFFFF) != index) { ++ rawIn.close(); ++ return this.tryRecalculate("mismatch of expected coordinates and data header coordinates", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ ++ // this is accurate for our implementations of BufferedFileChannelInputStream / ByteBufferInputStream ++ final int bytesAvailable = rawIn.available(); ++ ++ if (external) { ++ // for external files, the remaining size should exactly match the compressed size ++ if (bytesAvailable != dataHeader.compressedSize) { ++ rawIn.close(); ++ return this.tryRecalculate("mismatch of external size and data header size", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ } else { ++ // for non-external files, the remaining size should be >= compressed size AND the ++ // compressed size should be on the same sector ++ if (bytesAvailable < dataHeader.compressedSize || ((bytesAvailable + DataHeader.DATA_HEADER_LENGTH + (SECTOR_SIZE - 1)) >>> SECTOR_SHIFT) != ((dataHeader.compressedSize + DataHeader.DATA_HEADER_LENGTH + (SECTOR_SIZE - 1)) >>> SECTOR_SHIFT)) { ++ rawIn.close(); ++ return this.tryRecalculate("mismatch of internal size and data header size", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ // adjust max buffer to prevent reading over ++ buffer.limit(buffer.position() + dataHeader.compressedSize); ++ if (rawIn.available() != dataHeader.compressedSize) { ++ // should not be possible ++ rawIn.close(); ++ throw new IllegalStateException(); ++ } ++ } ++ ++ final byte compressType = dataHeader.compressionType; ++ final SectorFileCompressionType compressionType = SectorFileCompressionType.getById((int)compressType & 0xFF); ++ if (compressionType == null) { ++ LOGGER.error("File '" + this.file.getAbsolutePath() + "' has unrecognized compression type for data type " + this.debugType(type) + " located at " + this.getAbsoluteCoordinate(index)); ++ // recalculate will not clobber data types if the compression is unrecognized, so we can only return null here ++ rawIn.close(); ++ return NULL_DATA; ++ } ++ ++ if (!external && (readFlags & READ_FLAG_CHECK_INTERNAL_DATA_HASH) != 0) { ++ final long expectedHash = XXHASH64.hash(buffer, buffer.position(), dataHeader.compressedSize, XXHASH_SEED); ++ if (expectedHash != dataHeader.xxhash64Data) { ++ rawIn.close(); ++ return this.tryRecalculate("mismatch of internal data hash and data header hash", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ } else if (external && (readFlags & READ_FLAG_CHECK_EXTERNAL_DATA_HASH) != 0) { ++ final Long externalHash = computeExternalHash(scopedBufferChoices, externalFile); ++ if (externalHash == null || externalHash.longValue() != dataHeader.xxhash64Data) { ++ rawIn.close(); ++ return this.tryRecalculate("mismatch of external data hash and data header hash", scopedBufferChoices, buffer, localX, localZ, type, readFlags); ++ } ++ } ++ ++ return new SectorFileInput(new DataInputStream(compressionType.createInput(scopedBufferChoices, rawIn)), external); ++ } ++ ++ public boolean delete(final BufferChoices unscopedBufferChoices, final int localX, final int localZ, final int type) throws IOException { ++ if (localX < 0 || localX > SECTION_MASK) { ++ throw new IllegalArgumentException("X-coordinate out of range"); ++ } ++ if (localZ < 0 || localZ > SECTION_MASK) { ++ throw new IllegalArgumentException("Z-coordinate out of range"); ++ } ++ ++ if (this.readOnly) { ++ throw new UnsupportedOperationException("Sectorfile is read-only"); ++ } ++ ++ final TypeHeader typeHeader = this.typeHeaders.get(type); ++ ++ if (typeHeader == null) { ++ this.checkHeaderExists(type); ++ return false; ++ } ++ ++ final int index = getIndex(localX, localZ); ++ final int location = typeHeader.locations[index]; ++ ++ if (location == ABSENT_LOCATION) { ++ return false; ++ } ++ ++ // whether the location is external or internal, we delete from the type header before attempting anything else ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ this.updateAndWriteTypeHeader(scopedBufferChoices.t16k().acquireDirectBuffer(), type, index, ABSENT_LOCATION); ++ } ++ ++ // only proceed to try to delete sector allocation or external file if we succeed in deleting the type header entry ++ ++ if (location == EXTERNAL_ALLOCATION_LOCATION) { ++ // only try to delete if the header write may succeed ++ this.deleteExternalFile(localX, localZ, type); ++ ++ // no sector allocation to free ++ ++ return true; ++ } else { ++ final int offset = getLocationOffset(location); ++ final int length = getLocationLength(location); ++ ++ this.sectorAllocator.freeAllocation(offset, length); ++ ++ return true; ++ } ++ } ++ ++ // performs a sync as if the sync flag is used for creating the sectorfile ++ public static final int WRITE_FLAG_SYNC = 1 << 0; ++ // avoid compressing data, but store target compression type (use if the data is already compressed) ++ public static final int WRITE_FLAG_RAW = 1 << 1; ++ ++ public static record SectorFileOutput( ++ /* Must run save (before close()) to cause the data to be written to the file, close() will not do this */ ++ SectorFileOutputStream rawOutput, ++ /* Close is required to run on the outputstream to free resources, but will not commit the data */ ++ DataOutputStream outputStream ++ ) {} ++ ++ public SectorFileOutput write(final BufferChoices scopedBufferChoices, final int localX, final int localZ, final int type, ++ final SectorFileCompressionType forceCompressionType, final int writeFlags) throws IOException { ++ if (this.readOnly) { ++ throw new UnsupportedOperationException("Sectorfile is read-only"); ++ } ++ ++ if (!this.typeHeaders.containsKey(type) && !this.typeTranslationTable.containsKey(type)) { ++ throw new IllegalArgumentException("Unknown type " + type); ++ } ++ ++ final SectorFileCompressionType useCompressionType = forceCompressionType == null ? this.compressionType : forceCompressionType; ++ ++ final SectorFileOutputStream output = new SectorFileOutputStream( ++ scopedBufferChoices, localX, localZ, type, useCompressionType, writeFlags ++ ); ++ final OutputStream compressedOut = (writeFlags & WRITE_FLAG_RAW) != 0 ? output : useCompressionType.createOutput(scopedBufferChoices, output); ++ ++ return new SectorFileOutput(output, new DataOutputStream(compressedOut)); ++ } ++ ++ // expect buffer to be flipped (pos = 0, lim = written data) AND for the buffer to have the first DATA_HEADER_LENGTH ++ // allocated to the header ++ private void writeInternal(final BufferChoices unscopedBufferChoices, final ByteBuffer buffer, final int localX, ++ final int localZ, final int type, final long dataHash, ++ final SectorFileCompressionType compressionType, final int writeFlags) throws IOException { ++ final int totalSize = buffer.limit(); ++ final int compressedSize = totalSize - DataHeader.DATA_HEADER_LENGTH; ++ ++ final int index = getIndex(localX, localZ); ++ ++ DataHeader.storeHeader( ++ buffer.duplicate(), XXHASH64, dataHash, System.currentTimeMillis(), compressedSize, ++ (short)index, (byte)type, (byte)compressionType.getId() ++ ); ++ ++ final int requiredSectors = (totalSize + (SECTOR_SIZE - 1)) >> SECTOR_SHIFT; ++ ++ if (requiredSectors > MAX_NORMAL_SECTOR_LENGTH) { ++ throw new IllegalArgumentException("Provided data is too large for internal write"); ++ } ++ ++ // allocate new space, write to it, and only after that is successful free the old allocation if it exists ++ ++ final int sectorToStore = this.sectorAllocator.allocate(requiredSectors, true); ++ if (sectorToStore < 0) { ++ // no space left in this file, so we need to make an external allocation ++ ++ final File externalTmp = this.getExternalTempFile(localX, localZ, type); ++ LOGGER.error("Ran out of space in sectorfile '" + this.file.getAbsolutePath() + "', storing data externally to " + externalTmp.getAbsolutePath()); ++ Files.deleteIfExists(externalTmp.toPath()); ++ ++ final FileChannel channel = FileChannel.open(externalTmp.toPath(), StandardOpenOption.CREATE_NEW, StandardOpenOption.WRITE); ++ try { ++ // just need to dump the buffer to the file ++ final ByteBuffer bufferDuplicate = buffer.duplicate(); ++ while (bufferDuplicate.hasRemaining()) { ++ channel.write(bufferDuplicate); ++ } ++ ++ // this call will write the header again, but that's fine - it's the same data ++ this.finishExternalWrite( ++ unscopedBufferChoices, channel, externalTmp, compressedSize, localX, localZ, ++ type, dataHash, compressionType, writeFlags ++ ); ++ } finally { ++ channel.close(); ++ Files.deleteIfExists(externalTmp.toPath()); ++ } ++ ++ return; ++ } ++ ++ // write data to allocated space ++ this.write(buffer, (long)sectorToStore << SECTOR_SHIFT); ++ ++ final int prevLocation = this.typeHeaders.get(type).locations[index]; ++ ++ // update header on disk ++ final int newLocation = makeLocation(sectorToStore, requiredSectors); ++ ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ this.updateAndWriteTypeHeader(scopedBufferChoices.t16k().acquireDirectBuffer(), type, index, newLocation); ++ } ++ ++ // force disk updates if required ++ if (!this.sync && (writeFlags & WRITE_FLAG_SYNC) != 0) { ++ this.channel.force(false); ++ } ++ ++ // finally, now we are certain there are no references to the prev location, we can de-allocate ++ if (prevLocation != ABSENT_LOCATION) { ++ if (prevLocation == EXTERNAL_ALLOCATION_LOCATION) { ++ // de-allocation is done by deleting external file ++ this.deleteExternalFile(localX, localZ, type); ++ } else { ++ // just need to free the sector allocation ++ this.sectorAllocator.freeAllocation(getLocationOffset(prevLocation), getLocationLength(prevLocation)); ++ } ++ } // else: nothing to free ++ } ++ ++ private void finishExternalWrite(final BufferChoices unscopedBufferChoices, final FileChannel channel, final File externalTmp, ++ final int compressedSize, final int localX, final int localZ, final int type, final long dataHash, ++ final SectorFileCompressionType compressionType, final int writeFlags) throws IOException { ++ final int index = getIndex(localX, localZ); ++ ++ // update header for external file ++ try (final BufferChoices headerChoices = unscopedBufferChoices.scope()) { ++ final ByteBuffer buffer = headerChoices.t16k().acquireDirectBuffer(); ++ ++ buffer.limit(DataHeader.DATA_HEADER_LENGTH); ++ buffer.position(0); ++ ++ DataHeader.storeHeader( ++ buffer.duplicate(), XXHASH64, dataHash, System.currentTimeMillis(), compressedSize, ++ (short)index, (byte)type, (byte)compressionType.getId() ++ ); ++ ++ int offset = 0; ++ while (buffer.hasRemaining()) { ++ offset += channel.write(buffer, (long)offset); ++ } ++ } ++ ++ // replace existing external file ++ ++ final File external = this.getExternalFile(localX, localZ, type); ++ ++ if (this.sync || (writeFlags & WRITE_FLAG_SYNC) != 0) { ++ channel.force(true); ++ } ++ channel.close(); ++ try { ++ Files.move(externalTmp.toPath(), external.toPath(), StandardCopyOption.ATOMIC_MOVE, StandardCopyOption.REPLACE_EXISTING); ++ } catch (final AtomicMoveNotSupportedException ex) { ++ Files.move(externalTmp.toPath(), external.toPath(), StandardCopyOption.REPLACE_EXISTING); ++ } ++ ++ final int prevLocation = this.typeHeaders.get(type).locations[index]; ++ ++ // update header on disk if required ++ ++ if (prevLocation != EXTERNAL_ALLOCATION_LOCATION) { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ this.updateAndWriteTypeHeader(scopedBufferChoices.t16k().acquireDirectBuffer(), type, index, EXTERNAL_ALLOCATION_LOCATION); ++ } ++ ++ // force disk updates if required ++ if (!this.sync && (writeFlags & WRITE_FLAG_SYNC) != 0) { ++ this.channel.force(false); ++ } ++ } ++ ++ // finally, now we are certain there are no references to the prev location, we can de-allocate ++ if (prevLocation != ABSENT_LOCATION && prevLocation != EXTERNAL_ALLOCATION_LOCATION) { ++ this.sectorAllocator.freeAllocation(getLocationOffset(prevLocation), getLocationLength(prevLocation)); ++ } ++ ++ LOGGER.warn("Stored externally " + external.length() + " bytes for type " + this.debugType(type) + " to file " + external.getAbsolutePath()); ++ } ++ ++ public final class SectorFileOutputStream extends ByteBufferOutputStream { ++ private final BufferChoices scopedBufferChoices; ++ ++ private File externalFile; ++ private FileChannel externalChannel; ++ private StreamingXXHash64 externalHash; ++ private int totalCompressedSize; ++ ++ private final int localX; ++ private final int localZ; ++ private final int type; ++ private final SectorFileCompressionType compressionType; ++ private final int writeFlags; ++ ++ private SectorFileOutputStream(final BufferChoices scopedBufferChoices, ++ final int localX, final int localZ, final int type, ++ final SectorFileCompressionType compressionType, ++ final int writeFlags) { ++ super(scopedBufferChoices.t1m().acquireDirectBuffer()); ++ // we use a lower limit than capacity to force flush() to be invoked before ++ // the maximum internal size ++ this.buffer.limit(((MAX_NORMAL_SECTOR_LENGTH - 1) << SECTOR_SHIFT) + 1); ++ // make space for the header ++ for (int i = 0; i < DataHeader.DATA_HEADER_LENGTH; ++i) { ++ this.buffer.put(i, (byte)0); ++ } ++ this.buffer.position(DataHeader.DATA_HEADER_LENGTH); ++ ++ this.scopedBufferChoices = scopedBufferChoices; ++ ++ this.localX = localX; ++ this.localZ = localZ; ++ this.type = type; ++ this.compressionType = compressionType; ++ this.writeFlags = writeFlags; ++ } ++ ++ public int getTotalCompressedSize() { ++ return this.totalCompressedSize + (this.buffer == null ? 0 : this.buffer.position()); ++ } ++ ++ @Override ++ protected ByteBuffer flush(final ByteBuffer current) throws IOException { ++ if (this.externalFile == null && current.hasRemaining()) { ++ return current; ++ } ++ if (current.position() == 0) { ++ // nothing to do ++ return current; ++ } ++ ++ final boolean firstWrite = this.externalFile == null; ++ ++ if (firstWrite) { ++ final File externalTmpFile = SectorFile.this.getExternalTempFile(this.localX, this.localZ, this.type); ++ LOGGER.warn("Storing external data at " + externalTmpFile.getAbsolutePath()); ++ Files.deleteIfExists(externalTmpFile.toPath()); ++ ++ this.externalFile = externalTmpFile; ++ this.externalChannel = FileChannel.open(externalTmpFile.toPath(), StandardOpenOption.CREATE_NEW, StandardOpenOption.WRITE); ++ this.externalHash = XXHASH_JAVA_FACTORY.newStreamingHash64(XXHASH_SEED); ++ } ++ ++ this.totalCompressedSize += (firstWrite ? current.position() - DataHeader.DATA_HEADER_LENGTH : current.position()); ++ ++ if (this.totalCompressedSize < 0 || this.totalCompressedSize >= (Integer.MAX_VALUE - DataHeader.DATA_HEADER_LENGTH)) { ++ // too large ++ throw new IOException("External file length exceeds integer maximum"); ++ } ++ ++ current.flip(); ++ ++ // update data hash ++ try (final BufferChoices hashChoices = this.scopedBufferChoices.scope()) { ++ final byte[] bytes = hashChoices.t16k().acquireJavaBuffer(); ++ ++ int offset = firstWrite ? DataHeader.DATA_HEADER_LENGTH : 0; ++ final int len = current.limit(); ++ ++ while (offset < len) { ++ final int maxCopy = Math.min(len - offset, bytes.length); ++ ++ current.get(offset, bytes, 0, maxCopy); ++ offset += maxCopy; ++ ++ this.externalHash.update(bytes, 0, maxCopy); ++ } ++ } ++ ++ // update on disk ++ while (current.hasRemaining()) { ++ this.externalChannel.write(current); ++ } ++ ++ current.limit(current.capacity()); ++ current.position(0); ++ return current; ++ } ++ ++ private void checkAndCreateTypeHeader() throws IOException { ++ if (SectorFile.this.typeHeaders.get(this.type) == null) { ++ SectorFile.this.createTypeHeader(this.type, this.scopedBufferChoices); ++ } ++ } ++ ++ // assume flush() is called before this ++ private void save() throws IOException { ++ // lazily create type header ++ this.checkAndCreateTypeHeader(); ++ ++ if (this.externalFile == null) { ++ // avoid clobbering buffer positions/limits ++ final ByteBuffer buffer = this.buffer.duplicate(); ++ ++ buffer.flip(); ++ ++ final long dataHash = XXHASH64.hash( ++ buffer, DataHeader.DATA_HEADER_LENGTH, buffer.remaining() - DataHeader.DATA_HEADER_LENGTH, ++ XXHASH_SEED ++ ); ++ ++ SectorFile.this.writeInternal( ++ this.scopedBufferChoices, buffer, this.localX, this.localZ, ++ this.type, dataHash, this.compressionType, this.writeFlags ++ ); ++ } else { ++ SectorFile.this.finishExternalWrite( ++ this.scopedBufferChoices, this.externalChannel, this.externalFile, this.totalCompressedSize, ++ this.localX, this.localZ, this.type, this.externalHash.getValue(), this.compressionType, ++ this.writeFlags ++ ); ++ } ++ } ++ ++ public void freeResources() throws IOException { ++ if (this.externalHash != null) { ++ this.externalHash.close(); ++ this.externalHash = null; ++ } ++ if (this.externalChannel != null) { ++ this.externalChannel.close(); ++ this.externalChannel = null; ++ } ++ if (this.externalFile != null) { ++ // only deletes tmp file if we did not call save() ++ this.externalFile.delete(); ++ this.externalFile = null; ++ } ++ } ++ ++ @Override ++ public void close() throws IOException { ++ try { ++ this.flush(); ++ this.save(); ++ } finally { ++ try { ++ super.close(); ++ } finally { ++ this.freeResources(); ++ } ++ } ++ } ++ } ++ ++ public void flush() throws IOException { ++ if (!this.channel.isOpen()) { ++ return; ++ } ++ if (!this.readOnly) { ++ if (this.sync) { ++ this.channel.force(true); ++ } ++ } ++ } ++ ++ @Override ++ public void close() throws IOException { ++ if (!this.channel.isOpen()) { ++ return; ++ } ++ ++ try { ++ this.flush(); ++ } finally { ++ this.channel.close(); ++ } ++ } ++ ++ public static final class SectorAllocator { ++ ++ // smallest size first, then by lowest position in file ++ private final LongRBTreeSet freeBlocksBySize = new LongRBTreeSet((LongComparator)(final long a, final long b) -> { ++ final int sizeCompare = Integer.compare(getFreeBlockLength(a), getFreeBlockLength(b)); ++ if (sizeCompare != 0) { ++ return sizeCompare; ++ } ++ ++ return Integer.compare(getFreeBlockStart(a), getFreeBlockStart(b)); ++ }); ++ ++ private final LongRBTreeSet freeBlocksByOffset = new LongRBTreeSet((LongComparator)(final long a, final long b) -> { ++ return Integer.compare(getFreeBlockStart(a), getFreeBlockStart(b)); ++ }); ++ ++ private final int maxOffset; // inclusive ++ private final int maxLength; // inclusive ++ ++ private static final int MAX_ALLOCATION = (Integer.MAX_VALUE >>> 1) + 1; ++ private static final int MAX_LENGTH = (Integer.MAX_VALUE >>> 1) + 1; ++ ++ public SectorAllocator(final int maxOffset, final int maxLength) { ++ this.maxOffset = maxOffset; ++ this.maxLength = maxLength; ++ ++ this.reset(); ++ } ++ ++ public void reset() { ++ this.freeBlocksBySize.clear(); ++ this.freeBlocksByOffset.clear(); ++ ++ final long infiniteAllocation = makeFreeBlock(0, MAX_ALLOCATION); ++ this.freeBlocksBySize.add(infiniteAllocation); ++ this.freeBlocksByOffset.add(infiniteAllocation); ++ } ++ ++ public void copyAllocations(final SectorAllocator other) { ++ this.freeBlocksBySize.clear(); ++ this.freeBlocksBySize.addAll(other.freeBlocksBySize); ++ ++ this.freeBlocksByOffset.clear(); ++ this.freeBlocksByOffset.addAll(other.freeBlocksByOffset); ++ } ++ ++ public int getLastAllocatedBlock() { ++ if (this.freeBlocksByOffset.isEmpty()) { ++ // entire space is allocated ++ return MAX_ALLOCATION - 1; ++ } ++ ++ final long lastFreeBlock = this.freeBlocksByOffset.lastLong(); ++ final int lastFreeStart = getFreeBlockStart(lastFreeBlock); ++ final int lastFreeEnd = lastFreeStart + getFreeBlockLength(lastFreeBlock) - 1; ++ ++ if (lastFreeEnd == (MAX_ALLOCATION - 1)) { ++ // no allocations past this block, so the end must be before this block ++ // note: if lastFreeStart == 0, then we return - 1 which indicates no block has been allocated ++ return lastFreeStart - 1; ++ } ++ return MAX_ALLOCATION - 1; ++ } ++ ++ private static long makeFreeBlock(final int start, final int length) { ++ return ((start & 0xFFFFFFFFL) | ((long)length << 32)); ++ } ++ ++ private static int getFreeBlockStart(final long freeBlock) { ++ return (int)freeBlock; ++ } ++ ++ private static int getFreeBlockLength(final long freeBlock) { ++ return (int)(freeBlock >>> 32); ++ } ++ ++ private void splitBlock(final long fromBlock, final int allocStart, final int allocEnd) { ++ // allocEnd is inclusive ++ ++ // required to remove before adding again in case the split block's offset and/or length is the same ++ this.freeBlocksByOffset.remove(fromBlock); ++ this.freeBlocksBySize.remove(fromBlock); ++ ++ final int fromStart = getFreeBlockStart(fromBlock); ++ final int fromEnd = fromStart + getFreeBlockLength(fromBlock) - 1; ++ ++ if (fromStart != allocStart) { ++ // need to allocate free block to the left of the allocation ++ if (allocStart < fromStart) { ++ throw new IllegalStateException(); ++ } ++ final long leftBlock = makeFreeBlock(fromStart, allocStart - fromStart); ++ this.freeBlocksByOffset.add(leftBlock); ++ this.freeBlocksBySize.add(leftBlock); ++ } ++ ++ if (fromEnd != allocEnd) { ++ // need to allocate free block to the right of the allocation ++ if (allocEnd > fromEnd) { ++ throw new IllegalStateException(); ++ } ++ // fromEnd - allocEnd = (fromEnd + 1) - (allocEnd + 1) ++ final long rightBlock = makeFreeBlock(allocEnd + 1, fromEnd - allocEnd); ++ this.freeBlocksByOffset.add(rightBlock); ++ this.freeBlocksBySize.add(rightBlock); ++ } ++ } ++ ++ public boolean tryAllocateDirect(final int from, final int length, final boolean bypassMax) { ++ if (from < 0) { ++ throw new IllegalArgumentException("From must be >= 0"); ++ } ++ if (length <= 0) { ++ throw new IllegalArgumentException("Length must be > 0"); ++ } ++ ++ final int end = from + length - 1; // inclusive ++ ++ if (end < 0 || end >= MAX_ALLOCATION || length >= MAX_LENGTH) { ++ return false; ++ } ++ ++ if (!bypassMax && (from > this.maxOffset || length > this.maxLength || end > this.maxOffset)) { ++ return false; ++ } ++ ++ final LongBidirectionalIterator iterator = this.freeBlocksByOffset.iterator(makeFreeBlock(from, 0)); ++ // iterator.next > curr ++ // iterator.prev <= curr ++ ++ if (!iterator.hasPrevious()) { ++ // only free blocks starting at from+1, if any ++ return false; ++ } ++ ++ final long block = iterator.previousLong(); ++ final int blockStart = getFreeBlockStart(block); ++ final int blockLength = getFreeBlockLength(block); ++ final int blockEnd = blockStart + blockLength - 1; // inclusive ++ ++ if (from > blockEnd || end > blockEnd) { ++ return false; ++ } ++ ++ if (from < blockStart) { ++ throw new IllegalStateException(); ++ } ++ ++ this.splitBlock(block, from, end); ++ ++ return true; ++ } ++ ++ public void freeAllocation(final int from, final int length) { ++ if (from < 0) { ++ throw new IllegalArgumentException("From must be >= 0"); ++ } ++ if (length <= 0) { ++ throw new IllegalArgumentException("Length must be > 0"); ++ } ++ ++ final int end = from + length - 1; ++ if (end < 0 || end >= MAX_ALLOCATION || length >= MAX_LENGTH) { ++ throw new IllegalArgumentException("End sector must be in allocation range"); ++ } ++ ++ final LongBidirectionalIterator iterator = this.freeBlocksByOffset.iterator(makeFreeBlock(from, length)); ++ // iterator.next > curr ++ // iterator.prev <= curr ++ ++ long prev = -1L; ++ int prevStart = 0; ++ int prevEnd = 0; ++ ++ long next = -1L; ++ int nextStart = 0; ++ int nextEnd = 0; ++ ++ if (iterator.hasPrevious()) { ++ prev = iterator.previousLong(); ++ prevStart = getFreeBlockStart(prev); ++ prevEnd = prevStart + getFreeBlockLength(prev) - 1; ++ // advance back for next usage ++ iterator.nextLong(); ++ } ++ ++ if (iterator.hasNext()) { ++ next = iterator.nextLong(); ++ nextStart = getFreeBlockStart(next); ++ nextEnd = nextStart + getFreeBlockLength(next) - 1; ++ } ++ ++ // first, check that we are not trying to free area in another free block ++ if (prev != -1L) { ++ if (from <= prevEnd && end >= prevStart) { ++ throw new IllegalArgumentException("free call overlaps with already free block"); ++ } ++ } ++ ++ if (next != -1L) { ++ if (from <= nextEnd && end >= nextStart) { ++ throw new IllegalArgumentException("free call overlaps with already free block"); ++ } ++ } ++ ++ // try to merge with left & right free blocks ++ int adjustedStart = from; ++ int adjustedEnd = end; ++ if (prev != -1L && (prevEnd + 1) == from) { ++ adjustedStart = prevStart; ++ // delete merged block ++ this.freeBlocksByOffset.remove(prev); ++ this.freeBlocksBySize.remove(prev); ++ } ++ ++ if (next != -1L && nextStart == (end + 1)) { ++ adjustedEnd = nextEnd; ++ // delete merged block ++ this.freeBlocksByOffset.remove(next); ++ this.freeBlocksBySize.remove(next); ++ } ++ ++ final long block = makeFreeBlock(adjustedStart, adjustedEnd - adjustedStart + 1); ++ // add merged free block ++ this.freeBlocksByOffset.add(block); ++ this.freeBlocksBySize.add(block); ++ } ++ ++ // returns -1 if the allocation cannot be done due to length/position limitations ++ public int allocate(final int length, final boolean checkMaxOffset) { ++ if (length <= 0) { ++ throw new IllegalArgumentException("Length must be > 0"); ++ } ++ if (length > this.maxLength) { ++ return -1; ++ } ++ ++ if (this.freeBlocksBySize.isEmpty()) { ++ return -1; ++ } ++ ++ final LongBidirectionalIterator iterator = this.freeBlocksBySize.iterator(makeFreeBlock(-1, length)); ++ // iterator.next > curr ++ // iterator.prev <= curr ++ ++ // if we use start = -1, then no block retrieved is <= curr as offset < 0 is invalid. Then, the iterator next() ++ // returns >= makeFreeBlock(0, length) where the comparison is first by length then sector offset. ++ // Thus, we can just select next() as the block to split. This makes the allocation best-fit in that it selects ++ // first the smallest block that can fit the allocation, and that the smallest block selected offset is ++ // as close to 0 compared to the rest of the blocks at the same size ++ ++ final long block = iterator.nextLong(); ++ final int blockStart = getFreeBlockStart(block); ++ ++ final int allocStart = blockStart; ++ final int allocEnd = blockStart + length - 1; ++ ++ if (allocStart < 0) { ++ throw new IllegalStateException(); ++ } ++ ++ if (allocEnd < 0) { ++ // overflow ++ return -1; ++ } ++ ++ // note: we do not need to worry about overflow in splitBlock because the free blocks are only allocated ++ // in [0, MAX_ALLOCATION - 1] ++ ++ if (checkMaxOffset && (allocEnd > this.maxOffset)) { ++ return -1; ++ } ++ ++ this.splitBlock(block, allocStart, allocEnd); ++ ++ return blockStart; ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/SectorFileCache.java b/src/main/java/ca/spottedleaf/io/region/SectorFileCache.java +new file mode 100644 +index 0000000000000000000000000000000000000000..99779c6f7cd8cbaf2c4642ffd4ba50a16a5bb5c3 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/SectorFileCache.java +@@ -0,0 +1,396 @@ ++package ca.spottedleaf.io.region; ++ ++import ca.spottedleaf.io.buffer.BufferChoices; ++import io.papermc.paper.util.CoordinateUtils; ++import it.unimi.dsi.fastutil.longs.Long2ObjectLinkedOpenHashMap; ++import it.unimi.dsi.fastutil.longs.LongLinkedOpenHashSet; ++import net.minecraft.nbt.CompoundTag; ++import net.minecraft.nbt.NbtAccounter; ++import net.minecraft.nbt.NbtIo; ++import net.minecraft.nbt.StreamTagVisitor; ++import net.minecraft.util.ExceptionCollector; ++import org.slf4j.Logger; ++import org.slf4j.LoggerFactory; ++import java.io.DataInput; ++import java.io.DataInputStream; ++import java.io.DataOutput; ++import java.io.File; ++import java.io.IOException; ++import java.util.concurrent.CompletableFuture; ++ ++public final class SectorFileCache implements AutoCloseable { ++ ++ private static final Logger LOGGER = LoggerFactory.getLogger(SectorFileCache.class); ++ ++ private static final ThreadLocal BUFFER_CHOICES = ThreadLocal.withInitial(() -> BufferChoices.createNew(10)); ++ ++ public static BufferChoices getUnscopedBufferChoices() { ++ return BUFFER_CHOICES.get(); ++ } ++ ++ private final Long2ObjectLinkedOpenHashMap sectorCache = new Long2ObjectLinkedOpenHashMap<>(); ++ private final Long2ObjectLinkedOpenHashMap> conversions = new Long2ObjectLinkedOpenHashMap<>(); ++ private final File directory; ++ private final boolean sync; ++ private final SectorFileTracer tracer; ++ ++ private static final int MAX_NON_EXISTING_CACHE = 1024 * 64; ++ private final LongLinkedOpenHashSet nonExistingSectorFiles = new LongLinkedOpenHashSet(); ++ ++ private boolean doesSectorFilePossiblyExist(final long position) { ++ synchronized (this.nonExistingSectorFiles) { ++ if (this.nonExistingSectorFiles.contains(position)) { ++ this.nonExistingSectorFiles.addAndMoveToFirst(position); ++ return false; ++ } ++ return true; ++ } ++ } ++ ++ private void createSectorFile(final long position) { ++ synchronized (this.nonExistingSectorFiles) { ++ this.nonExistingSectorFiles.remove(position); ++ } ++ } ++ ++ private void markNonExisting(final long position) { ++ synchronized (this.nonExistingSectorFiles) { ++ if (this.nonExistingSectorFiles.addAndMoveToFirst(position)) { ++ while (this.nonExistingSectorFiles.size() >= MAX_NON_EXISTING_CACHE) { ++ this.nonExistingSectorFiles.removeLastLong(); ++ } ++ } ++ } ++ } ++ ++ public boolean doesSectorFileNotExistNoIO(final int chunkX, final int chunkZ) { ++ return !this.doesSectorFilePossiblyExist(CoordinateUtils.getChunkKey(chunkX, chunkZ)); ++ } ++ ++ public SectorFileCache(final File directory, final boolean sync) { ++ this.directory = directory; ++ this.sync = sync; ++ SectorFileTracer tracer = null; ++ try { ++ tracer = new SectorFileTracer(new File(directory.getParentFile(), "sectorfile.tracer")); ++ } catch (final IOException ex) { ++ LOGGER.error("Failed to start tracer", ex); ++ } ++ this.tracer = tracer; ++ } ++ ++ public synchronized SectorFile getRegionFileIfLoaded(final int chunkX, final int chunkZ) { ++ return this.sectorCache.getAndMoveToFirst(CoordinateUtils.getChunkKey(chunkX >> SectorFile.SECTION_SHIFT, chunkZ >> SectorFile.SECTION_SHIFT)); ++ } ++ ++ public synchronized boolean chunkExists(final BufferChoices unscopedBufferChoices, final int chunkX, final int chunkZ, final int type) throws IOException { ++ final SectorFile sectorFile = this.getSectorFile(unscopedBufferChoices, chunkX, chunkZ, true); ++ ++ return sectorFile != null && sectorFile.hasData(chunkX & SectorFile.SECTION_MASK, chunkZ & SectorFile.SECTION_MASK, type); ++ } ++ ++ private static ca.spottedleaf.io.region.SectorFileCompressionType getCompressionType() { ++ return switch (io.papermc.paper.configuration.GlobalConfiguration.get().unsupportedSettings.compressionFormat) { ++ case GZIP -> ca.spottedleaf.io.region.SectorFileCompressionType.GZIP; ++ case ZLIB -> ca.spottedleaf.io.region.SectorFileCompressionType.DEFLATE; ++ case NONE -> ca.spottedleaf.io.region.SectorFileCompressionType.NONE; ++ case LZ4 -> ca.spottedleaf.io.region.SectorFileCompressionType.LZ4; ++ case ZSTD -> ca.spottedleaf.io.region.SectorFileCompressionType.ZSTD; ++ }; ++ } ++ ++ public SectorFile getSectorFile(final BufferChoices unscopedBufferChoices, final int chunkX, final int chunkZ, boolean existingOnly) throws IOException { ++ final int sectionX = chunkX >> SectorFile.SECTION_SHIFT; ++ final int sectionZ = chunkZ >> SectorFile.SECTION_SHIFT; ++ ++ final long sectionKey = CoordinateUtils.getChunkKey(sectionX, sectionZ); ++ ++ final CompletableFuture complete; ++ final CompletableFuture existing; ++ synchronized (this) { ++ SectorFile ret = this.sectorCache.getAndMoveToFirst(sectionKey); ++ if (ret != null) { ++ return ret; ++ } ++ ++ if (existingOnly && !this.doesSectorFilePossiblyExist(sectionKey)) { ++ return null; ++ } ++ ++ final File file = new File(this.directory, SectorFile.getFileName(sectionX, sectionZ)); ++ ++ if (!this.conversions.containsKey(sectionKey) && file.isFile()) { ++ if (this.sectorCache.size() >= io.papermc.paper.configuration.GlobalConfiguration.get().misc.regionFileCacheSize) { ++ final SectorFile sectorFile = this.sectorCache.removeLast(); ++ sectorFile.close(); ++ if (this.tracer != null) { ++ this.tracer.add(new SectorFileTracer.FileEvent(SectorFileTracer.FileEventType.CLOSE, sectionX, sectionZ)); ++ } ++ } ++ ++ if (this.tracer != null) { ++ if (file.isFile()) { ++ this.tracer.add(new SectorFileTracer.FileEvent(SectorFileTracer.FileEventType.OPEN, sectionX, sectionZ)); ++ } else { ++ this.tracer.add(new SectorFileTracer.FileEvent(SectorFileTracer.FileEventType.CREATE, sectionX, sectionZ)); ++ } ++ } ++ ++ this.createSectorFile(sectionKey); ++ ++ this.directory.mkdirs(); ++ ++ ret = new SectorFile( ++ file, sectionX, sectionZ, getCompressionType(), unscopedBufferChoices, MinecraftRegionFileType.getTranslationTable(), ++ (this.sync ? SectorFile.OPEN_FLAGS_SYNC_WRITES : 0) ++ ); ++ ++ this.sectorCache.putAndMoveToFirst(sectionKey, ret); ++ ++ return ret; ++ } ++ ++ // try to convert old regionfiles ++ ++ complete = new CompletableFuture<>(); ++ existing = this.conversions.putIfAbsent(sectionKey, complete); ++ } ++ ++ if (existing != null) { ++ final SectorFile ret = existing.join(); ++ if (!existingOnly && ret == null) { ++ return this.getSectorFile(unscopedBufferChoices, chunkX, chunkZ, existingOnly); ++ } ++ ++ return ret; ++ } ++ ++ SectorFile ret = this.convert(unscopedBufferChoices, sectionX, sectionZ); ++ synchronized (this) { ++ this.conversions.remove(sectionKey); ++ ++ if (existingOnly && ret == null) { ++ this.markNonExisting(sectionKey); ++ complete.complete(ret); ++ return null; ++ } ++ ++ if (this.sectorCache.size() >= io.papermc.paper.configuration.GlobalConfiguration.get().misc.regionFileCacheSize) { ++ final SectorFile sectorFile = this.sectorCache.removeLast(); ++ sectorFile.close(); ++ if (this.tracer != null) { ++ this.tracer.add(new SectorFileTracer.FileEvent(SectorFileTracer.FileEventType.CLOSE, sectionX, sectionZ)); ++ } ++ } ++ ++ if (ret == null) { ++ this.directory.mkdirs(); ++ final File file = new File(this.directory, SectorFile.getFileName(sectionX, sectionZ)); ++ ret = new SectorFile( ++ file, sectionX, sectionZ, getCompressionType(), unscopedBufferChoices, MinecraftRegionFileType.getTranslationTable(), ++ (this.sync ? SectorFile.OPEN_FLAGS_SYNC_WRITES : 0) ++ ); ++ } ++ ++ this.sectorCache.putAndMoveToFirst(sectionKey, ret); ++ ++ complete.complete(ret); ++ ++ return ret; ++ } ++ } ++ ++ private SectorFile convert(final BufferChoices unscopedBufferChoices, final int sectionX, final int sectionZ) throws IOException { ++ this.directory.mkdirs(); ++ ++ SectorFile sectorFile = null; ++ final File root = this.directory.getParentFile(); ++ ++ for (final MinecraftRegionFileType type : MinecraftRegionFileType.getAll()) { ++ final File folder = new File(root, type.getFolder()); ++ ++ final File file = new File(folder, "r." + sectionX + "." + sectionZ + ".mca"); ++ ++ if (!file.isFile()) { ++ continue; ++ } ++ ++ if (sectorFile == null) { ++ sectorFile = new SectorFile( ++ new File(this.directory, SectorFile.getFileName(sectionX, sectionZ)), ++ sectionX, sectionZ, getCompressionType(), unscopedBufferChoices, MinecraftRegionFileType.getTranslationTable(), ++ (this.sync ? SectorFile.OPEN_FLAGS_SYNC_WRITES : 0) ++ ); ++ } ++ ++ final ConversionRegionFile regionFile = new ConversionRegionFile(file, sectionX, sectionZ, unscopedBufferChoices, true); ++ try { ++ regionFile.fillRaw(unscopedBufferChoices); ++ ++ try (final BufferChoices readScope = unscopedBufferChoices.scope()) { ++ final ConversionRegionFile.CustomByteArrayOutputStream decompressed = new ConversionRegionFile.CustomByteArrayOutputStream(readScope.t1m().acquireJavaBuffer()); ++ for (int i = 0; i < 32 * 32; ++i) { ++ final int chunkX = (i & 31); ++ final int chunkZ = ((i >>> 5) & 31); ++ ++ decompressed.reset(); ++ ++ int read = -1; ++ try { ++ read = regionFile.read(chunkX, chunkZ, readScope, decompressed, true); ++ } catch (final IOException ex) { ++ LOGGER.error("Failed to read " + type.getName() + " (" + chunkX + "," + chunkZ + ") from regionfile " + regionFile.file.getAbsolutePath() + ": ", ex); ++ } ++ ++ if (read < 0) { ++ continue; ++ } ++ ++ try (final BufferChoices writeScope = readScope.scope();) { ++ final SectorFile.SectorFileOutput output = sectorFile.write( ++ writeScope, chunkX, chunkZ, type.getNewId(), ++ SectorFileCompressionType.fromRegionFile(read), ++ SectorFile.WRITE_FLAG_RAW ++ ); ++ try { ++ decompressed.writeTo(output.outputStream()); ++ output.outputStream().close(); ++ } finally { ++ output.rawOutput().freeResources(); ++ } ++ } ++ } ++ } ++ } finally { ++ regionFile.close(); ++ } ++ } ++ ++ return sectorFile; ++ } ++ ++ public CompoundTag read(final BufferChoices unscopedBufferChoices, final int chunkX, final int chunkZ, final int type) throws IOException { ++ final SectorFile sectorFile = this.getSectorFile(unscopedBufferChoices, chunkX, chunkZ, true); ++ ++ if (sectorFile == null) { ++ return null; ++ } ++ ++ synchronized (sectorFile) { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope(); ++ final DataInputStream is = sectorFile.read( ++ scopedBufferChoices, chunkX & SectorFile.SECTION_MASK, chunkZ & SectorFile.SECTION_MASK, ++ type, SectorFile.RECOMMENDED_READ_FLAGS).data()) { ++ ++ if (this.tracer != null) { ++ // cannot estimate size, available() does not pass through some of the decompressors ++ this.tracer.add(new SectorFileTracer.DataEvent(SectorFileTracer.DataEventType.READ, chunkX, chunkZ, (byte)type, 0)); ++ } ++ ++ return is == null ? null : NbtIo.read((DataInput) is); ++ } ++ } ++ } ++ ++ public void scanChunk(final BufferChoices unscopedBufferChoices, final int chunkX, final int chunkZ, final int type, ++ final StreamTagVisitor scanner) throws IOException { ++ final SectorFile sectorFile = this.getSectorFile(unscopedBufferChoices, chunkX, chunkZ, true); ++ ++ if (sectorFile == null) { ++ return; ++ } ++ ++ synchronized (sectorFile) { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope(); ++ final DataInputStream is = sectorFile.read( ++ scopedBufferChoices, chunkX & SectorFile.SECTION_MASK, chunkZ & SectorFile.SECTION_MASK, ++ type, SectorFile.RECOMMENDED_READ_FLAGS).data()) { ++ ++ if (this.tracer != null) { ++ // cannot estimate size, available() does not pass through some of the decompressors ++ this.tracer.add(new SectorFileTracer.DataEvent(SectorFileTracer.DataEventType.READ, chunkX, chunkZ, (byte)type, 0)); ++ } ++ ++ if (is != null) { ++ NbtIo.parse(is, scanner, NbtAccounter.unlimitedHeap()); ++ } ++ } ++ } ++ } ++ ++ public void write(final BufferChoices unscopedBufferChoices, final int chunkX, final int chunkZ, final int type, final CompoundTag nbt) throws IOException { ++ final SectorFile sectorFile = this.getSectorFile(unscopedBufferChoices, chunkX, chunkZ, nbt == null); ++ if (nbt == null && sectorFile == null) { ++ return; ++ } ++ ++ synchronized (sectorFile) { ++ try (final BufferChoices scopedBufferChoices = unscopedBufferChoices.scope()) { ++ if (nbt == null) { ++ if (this.tracer != null) { ++ this.tracer.add(new SectorFileTracer.DataEvent(SectorFileTracer.DataEventType.DELETE, chunkX, chunkZ, (byte)type, 0)); ++ } ++ sectorFile.delete( ++ scopedBufferChoices, chunkX & SectorFile.SECTION_MASK, ++ chunkZ & SectorFile.SECTION_MASK, type ++ ); ++ } else { ++ final SectorFile.SectorFileOutput output = sectorFile.write( ++ scopedBufferChoices, chunkX & SectorFile.SECTION_MASK, chunkZ & SectorFile.SECTION_MASK, ++ type, null, 0 ++ ); ++ ++ try { ++ NbtIo.write(nbt, (DataOutput)output.outputStream()); ++ // need close() to force gzip/deflate/etc to write data through ++ output.outputStream().close(); ++ if (this.tracer != null) { ++ this.tracer.add(new SectorFileTracer.DataEvent(SectorFileTracer.DataEventType.WRITE, chunkX, chunkZ, (byte)type, output.rawOutput().getTotalCompressedSize())); ++ } ++ } finally { ++ output.rawOutput().freeResources(); ++ } ++ } ++ } ++ } ++ } ++ ++ @Override ++ public synchronized void close() throws IOException { ++ final ExceptionCollector collector = new ExceptionCollector<>(); ++ ++ for (final SectorFile sectorFile : this.sectorCache.values()) { ++ try { ++ synchronized (sectorFile) { ++ sectorFile.close(); ++ } ++ } catch (final IOException ex) { ++ collector.add(ex); ++ } ++ } ++ ++ this.sectorCache.clear(); ++ ++ if (this.tracer != null) { ++ this.tracer.close(); ++ } ++ ++ collector.throwIfPresent(); ++ } ++ ++ public synchronized void flush() throws IOException { ++ final ExceptionCollector collector = new ExceptionCollector<>(); ++ ++ for (final SectorFile sectorFile : this.sectorCache.values()) { ++ try { ++ synchronized (sectorFile) { ++ sectorFile.flush(); ++ } ++ } catch (final IOException ex) { ++ collector.add(ex); ++ } ++ } ++ ++ collector.throwIfPresent(); ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/SectorFileCompressionType.java b/src/main/java/ca/spottedleaf/io/region/SectorFileCompressionType.java +new file mode 100644 +index 0000000000000000000000000000000000000000..53de07063a7b434ab489ca7185dd563df176d9c0 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/SectorFileCompressionType.java +@@ -0,0 +1,129 @@ ++package ca.spottedleaf.io.region; ++ ++import ca.spottedleaf.io.region.io.bytebuffer.ByteBufferInputStream; ++import ca.spottedleaf.io.region.io.bytebuffer.ByteBufferOutputStream; ++import ca.spottedleaf.io.region.io.java.SimpleBufferedInputStream; ++import ca.spottedleaf.io.region.io.java.SimpleBufferedOutputStream; ++import ca.spottedleaf.io.region.io.zstd.ZSTDInputStream; ++import ca.spottedleaf.io.region.io.zstd.ZSTDOutputStream; ++import ca.spottedleaf.io.buffer.BufferChoices; ++import it.unimi.dsi.fastutil.ints.Int2ObjectMap; ++import it.unimi.dsi.fastutil.ints.Int2ObjectMaps; ++import it.unimi.dsi.fastutil.ints.Int2ObjectOpenHashMap; ++import net.jpountz.lz4.LZ4BlockInputStream; ++import net.jpountz.lz4.LZ4BlockOutputStream; ++import java.io.IOException; ++import java.io.InputStream; ++import java.io.OutputStream; ++import java.util.zip.DeflaterOutputStream; ++import java.util.zip.GZIPInputStream; ++import java.util.zip.GZIPOutputStream; ++import java.util.zip.InflaterInputStream; ++ ++public abstract class SectorFileCompressionType { ++ ++ private static final Int2ObjectMap BY_ID = Int2ObjectMaps.synchronize(new Int2ObjectOpenHashMap<>()); ++ ++ public static final SectorFileCompressionType GZIP = new SectorFileCompressionType(1) { ++ @Override ++ public InputStream createInput(final BufferChoices scopedBufferChoices, final ByteBufferInputStream input) throws IOException { ++ return new SimpleBufferedInputStream(new GZIPInputStream(input), scopedBufferChoices.t16k().acquireJavaBuffer()); ++ } ++ ++ @Override ++ public OutputStream createOutput(final BufferChoices scopedBufferChoices, final ByteBufferOutputStream output) throws IOException { ++ return new SimpleBufferedOutputStream(new GZIPOutputStream(output), scopedBufferChoices.t16k().acquireJavaBuffer()); ++ } ++ }; ++ public static final SectorFileCompressionType DEFLATE = new SectorFileCompressionType(2) { ++ @Override ++ public InputStream createInput(final BufferChoices scopedBufferChoices, final ByteBufferInputStream input) throws IOException { ++ return new SimpleBufferedInputStream(new InflaterInputStream(input), scopedBufferChoices.t16k().acquireJavaBuffer()); ++ } ++ ++ @Override ++ public OutputStream createOutput(final BufferChoices scopedBufferChoices, final ByteBufferOutputStream output) throws IOException { ++ return new SimpleBufferedOutputStream(new DeflaterOutputStream(output), scopedBufferChoices.t16k().acquireJavaBuffer()); ++ } ++ }; ++ public static final SectorFileCompressionType NONE = new SectorFileCompressionType(3) { ++ @Override ++ public InputStream createInput(final BufferChoices scopedBufferChoices, final ByteBufferInputStream input) throws IOException { ++ return input; ++ } ++ ++ @Override ++ public OutputStream createOutput(final BufferChoices scopedBufferChoices, final ByteBufferOutputStream output) throws IOException { ++ return output; ++ } ++ }; ++ public static final SectorFileCompressionType LZ4 = new SectorFileCompressionType(4) { ++ @Override ++ public InputStream createInput(final BufferChoices scopedBufferChoices, final ByteBufferInputStream input) throws IOException { ++ return new SimpleBufferedInputStream(new LZ4BlockInputStream(input), scopedBufferChoices.t16k().acquireJavaBuffer()); ++ } ++ ++ @Override ++ public OutputStream createOutput(final BufferChoices scopedBufferChoices, final ByteBufferOutputStream output) throws IOException { ++ return new SimpleBufferedOutputStream(new LZ4BlockOutputStream(output), scopedBufferChoices.t16k().acquireJavaBuffer()); ++ } ++ }; ++ public static final SectorFileCompressionType ZSTD = new SectorFileCompressionType(5) { ++ @Override ++ public InputStream createInput(final BufferChoices scopedBufferChoices, final ByteBufferInputStream input) throws IOException { ++ return new ZSTDInputStream( ++ scopedBufferChoices.t16k().acquireDirectBuffer(), scopedBufferChoices.t16k().acquireDirectBuffer(), ++ scopedBufferChoices.zstdCtxs().acquireDecompressor(), null, input ++ ); ++ } ++ ++ @Override ++ public OutputStream createOutput(final BufferChoices scopedBufferChoices, final ByteBufferOutputStream output) throws IOException { ++ return new ZSTDOutputStream( ++ scopedBufferChoices.t16k().acquireDirectBuffer(), scopedBufferChoices.t16k().acquireDirectBuffer(), ++ scopedBufferChoices.zstdCtxs().acquireCompressor(), null, output ++ ); ++ } ++ }; ++ ++ private final int id; ++ ++ protected SectorFileCompressionType(final int id) { ++ this.id = id; ++ if (BY_ID.putIfAbsent(id, this) != null) { ++ throw new IllegalArgumentException("Duplicate id"); ++ } ++ } ++ ++ public final int getId() { ++ return this.id; ++ } ++ ++ public abstract InputStream createInput(final BufferChoices scopedBufferChoices, final ByteBufferInputStream input) throws IOException; ++ ++ public abstract OutputStream createOutput(final BufferChoices scopedBufferChoices, final ByteBufferOutputStream output) throws IOException; ++ ++ public static SectorFileCompressionType getById(final int id) { ++ return BY_ID.get(id); ++ } ++ ++ public static SectorFileCompressionType fromRegionFile(final int id) { ++ switch (id) { ++ case 1: { // GZIP ++ return SectorFileCompressionType.GZIP; ++ } ++ case 2: { // DEFLATE ++ return SectorFileCompressionType.DEFLATE; ++ } ++ case 3: { // NONE ++ return SectorFileCompressionType.NONE; ++ } ++ case 4: { // LZ4 ++ return SectorFileCompressionType.LZ4; ++ } ++ default: { ++ throw new IllegalArgumentException(); ++ } ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/SectorFileTracer.java b/src/main/java/ca/spottedleaf/io/region/SectorFileTracer.java +new file mode 100644 +index 0000000000000000000000000000000000000000..cbf8effbddadefe4004e3e3824cd9436d4f1a61e +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/SectorFileTracer.java +@@ -0,0 +1,183 @@ ++package ca.spottedleaf.io.region; ++ ++import ca.spottedleaf.io.region.io.bytebuffer.BufferedFileChannelInputStream; ++import ca.spottedleaf.io.region.io.bytebuffer.BufferedFileChannelOutputStream; ++import ca.spottedleaf.io.region.io.java.SimpleBufferedInputStream; ++import ca.spottedleaf.io.region.io.java.SimpleBufferedOutputStream; ++import ca.spottedleaf.io.region.io.zstd.ZSTDOutputStream; ++import com.github.luben.zstd.ZstdCompressCtx; ++import org.slf4j.Logger; ++import org.slf4j.LoggerFactory; ++import java.io.Closeable; ++import java.io.DataInput; ++import java.io.DataInputStream; ++import java.io.DataOutput; ++import java.io.DataOutputStream; ++import java.io.File; ++import java.io.IOException; ++import java.io.InputStream; ++import java.nio.ByteBuffer; ++import java.util.ArrayDeque; ++import java.util.ArrayList; ++import java.util.List; ++ ++public final class SectorFileTracer implements Closeable { ++ ++ private static final Logger LOGGER = LoggerFactory.getLogger(SectorFileTracer.class); ++ ++ private final File file; ++ private final DataOutputStream out; ++ private final ArrayDeque objects = new ArrayDeque<>(); ++ ++ private static final int MAX_STORED_OBJECTS = 128; ++ private static final TraceEventType[] EVENT_TYPES = TraceEventType.values(); ++ ++ public SectorFileTracer(final File file) throws IOException { ++ this.file = file; ++ ++ file.getParentFile().mkdirs(); ++ file.delete(); ++ file.createNewFile(); ++ ++ final int bufferSize = 8 * 1024; ++ ++ this.out = new DataOutputStream( ++ new SimpleBufferedOutputStream( ++ new BufferedFileChannelOutputStream(ByteBuffer.allocateDirect(bufferSize), file.toPath(), true), ++ new byte[bufferSize] ++ ) ++ ); ++ } ++ ++ public synchronized void add(final Writable writable) { ++ this.objects.add(writable); ++ if (this.objects.size() >= MAX_STORED_OBJECTS) { ++ Writable polled = null; ++ try { ++ while ((polled = this.objects.poll()) != null) { ++ polled.write(this.out); ++ } ++ } catch (final IOException ex) { ++ LOGGER.error("Failed to write " + polled + ": ", ex); ++ } ++ } ++ } ++ ++ @Override ++ public synchronized void close() throws IOException { ++ try { ++ Writable polled; ++ while ((polled = this.objects.poll()) != null) { ++ polled.write(this.out); ++ } ++ } finally { ++ this.out.close(); ++ } ++ } ++ ++ private static Writable read(final DataInputStream input) throws IOException { ++ final int next = input.read(); ++ if (next == -1) { ++ return null; ++ } ++ ++ final TraceEventType event = EVENT_TYPES[next & 0xFF]; ++ ++ switch (event) { ++ case DATA: { ++ return DataEvent.read(input); ++ } ++ case FILE: { ++ return FileEvent.read(input); ++ } ++ default: { ++ throw new IllegalStateException("Unknown event: " + event); ++ } ++ } ++ } ++ ++ public static List read(final File file) throws IOException { ++ final List ret = new ArrayList<>(); ++ ++ final int bufferSize = 8 * 1024; ++ ++ try (final DataInputStream is = new DataInputStream( ++ new SimpleBufferedInputStream( ++ new BufferedFileChannelInputStream(ByteBuffer.allocateDirect(bufferSize), file), ++ new byte[bufferSize] ++ ) ++ )) { ++ Writable curr; ++ while ((curr = read(is)) != null) { ++ ret.add(curr); ++ } ++ ++ return ret; ++ } ++ } ++ ++ public static interface Writable { ++ public void write(final DataOutput out) throws IOException; ++ } ++ ++ public static enum TraceEventType { ++ FILE, DATA; ++ } ++ ++ public static enum FileEventType { ++ CREATE, OPEN, CLOSE; ++ } ++ ++ public static record FileEvent( ++ FileEventType eventType, int sectionX, int sectionZ ++ ) implements Writable { ++ private static final FileEventType[] TYPES = FileEventType.values(); ++ ++ @Override ++ public void write(final DataOutput out) throws IOException { ++ out.writeByte(TraceEventType.FILE.ordinal()); ++ out.writeByte(this.eventType().ordinal()); ++ out.writeInt(this.sectionX()); ++ out.writeInt(this.sectionZ()); ++ } ++ ++ public static FileEvent read(final DataInput input) throws IOException { ++ return new FileEvent( ++ TYPES[(int)input.readByte() & 0xFF], ++ input.readInt(), ++ input.readInt() ++ ); ++ } ++ } ++ ++ public static enum DataEventType { ++ READ, WRITE, DELETE; ++ } ++ ++ public static record DataEvent( ++ DataEventType eventType, int chunkX, int chunkZ, byte type, int size ++ ) implements Writable { ++ ++ private static final DataEventType[] TYPES = DataEventType.values(); ++ ++ @Override ++ public void write(final DataOutput out) throws IOException { ++ out.writeByte(TraceEventType.DATA.ordinal()); ++ out.writeByte(this.eventType().ordinal()); ++ out.writeInt(this.chunkX()); ++ out.writeInt(this.chunkZ()); ++ out.writeByte(this.type()); ++ out.writeInt(this.size()); ++ } ++ ++ public static DataEvent read(final DataInput input) throws IOException { ++ return new DataEvent( ++ TYPES[(int)input.readByte() & 0xFF], ++ input.readInt(), ++ input.readInt(), ++ input.readByte(), ++ input.readInt() ++ ); ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/BufferedFileChannelInputStream.java b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/BufferedFileChannelInputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..8c98cb471dddd19a6d7265a9abbc04aa971ede3d +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/BufferedFileChannelInputStream.java +@@ -0,0 +1,68 @@ ++package ca.spottedleaf.io.region.io.bytebuffer; ++ ++import java.io.File; ++import java.io.IOException; ++import java.nio.ByteBuffer; ++import java.nio.channels.FileChannel; ++import java.nio.file.Path; ++import java.nio.file.StandardOpenOption; ++ ++public class BufferedFileChannelInputStream extends ByteBufferInputStream { ++ ++ protected final FileChannel input; ++ ++ public BufferedFileChannelInputStream(final ByteBuffer buffer, final File file) throws IOException { ++ this(buffer, file.toPath()); ++ } ++ ++ public BufferedFileChannelInputStream(final ByteBuffer buffer, final Path path) throws IOException { ++ super(buffer); ++ ++ this.input = FileChannel.open(path, StandardOpenOption.READ); ++ ++ // ensure we can fully utilise the buffer ++ buffer.limit(buffer.capacity()); ++ buffer.position(buffer.capacity()); ++ } ++ ++ @Override ++ public int available() throws IOException { ++ final long avail = (long)super.available() + (this.input.size() - this.input.position()); ++ ++ final int ret; ++ if (avail < 0) { ++ ret = 0; ++ } else if (avail > (long)Integer.MAX_VALUE) { ++ ret = Integer.MAX_VALUE; ++ } else { ++ ret = (int)avail; ++ } ++ ++ return ret; ++ } ++ ++ @Override ++ protected ByteBuffer refill(final ByteBuffer current) throws IOException { ++ // note: limit = capacity ++ current.flip(); ++ ++ this.input.read(current); ++ ++ current.flip(); ++ ++ return current; ++ } ++ ++ @Override ++ public void close() throws IOException { ++ try { ++ super.close(); ++ } finally { ++ // force any read calls to go to refill() ++ this.buffer.limit(this.buffer.capacity()); ++ this.buffer.position(this.buffer.capacity()); ++ ++ this.input.close(); ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/BufferedFileChannelOutputStream.java b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/BufferedFileChannelOutputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..98c661a8bfac97a208cd0b20fe5a666f5d2e34de +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/BufferedFileChannelOutputStream.java +@@ -0,0 +1,45 @@ ++package ca.spottedleaf.io.region.io.bytebuffer; ++ ++import java.io.IOException; ++import java.nio.ByteBuffer; ++import java.nio.channels.FileChannel; ++import java.nio.file.Path; ++import java.nio.file.StandardOpenOption; ++ ++public class BufferedFileChannelOutputStream extends ByteBufferOutputStream { ++ ++ private final FileChannel channel; ++ ++ public BufferedFileChannelOutputStream(final ByteBuffer buffer, final Path path, final boolean append) throws IOException { ++ super(buffer); ++ ++ if (append) { ++ this.channel = FileChannel.open(path, StandardOpenOption.WRITE, StandardOpenOption.CREATE, StandardOpenOption.APPEND); ++ } else { ++ this.channel = FileChannel.open(path, StandardOpenOption.WRITE, StandardOpenOption.CREATE); ++ } ++ } ++ ++ @Override ++ protected ByteBuffer flush(final ByteBuffer current) throws IOException { ++ current.flip(); ++ ++ while (current.hasRemaining()) { ++ this.channel.write(current); ++ } ++ ++ current.limit(current.capacity()); ++ current.position(0); ++ ++ return current; ++ } ++ ++ @Override ++ public void close() throws IOException { ++ try { ++ super.close(); ++ } finally { ++ this.channel.close(); ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/ByteBufferInputStream.java b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/ByteBufferInputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..8ea05e286a43010afbf3bf4292bfe3d3f911d159 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/ByteBufferInputStream.java +@@ -0,0 +1,112 @@ ++package ca.spottedleaf.io.region.io.bytebuffer; ++ ++import java.io.IOException; ++import java.io.InputStream; ++import java.nio.ByteBuffer; ++ ++public class ByteBufferInputStream extends InputStream { ++ ++ protected ByteBuffer buffer; ++ ++ public ByteBufferInputStream(final ByteBuffer buffer) { ++ this.buffer = buffer; ++ } ++ ++ protected ByteBuffer refill(final ByteBuffer current) throws IOException { ++ return current; ++ } ++ ++ @Override ++ public int read() throws IOException { ++ if (this.buffer.hasRemaining()) { ++ return (int)this.buffer.get() & 0xFF; ++ } ++ ++ this.buffer = this.refill(this.buffer); ++ if (!this.buffer.hasRemaining()) { ++ return -1; ++ } ++ return (int)this.buffer.get() & 0xFF; ++ } ++ ++ @Override ++ public int read(final byte[] b) throws IOException { ++ return this.read(b, 0, b.length); ++ } ++ ++ @Override ++ public int read(final byte[] b, final int off, final int len) throws IOException { ++ if (((len | off) | (off + len) | (b.length - (off + len))) < 0) { ++ // length < 0 || off < 0 || (off + len) < 0 ++ throw new IndexOutOfBoundsException(); ++ } ++ ++ // only return 0 when len = 0 ++ if (len == 0) { ++ return 0; ++ } ++ ++ int remaining = this.buffer.remaining(); ++ if (remaining <= 0) { ++ this.buffer = this.refill(this.buffer); ++ remaining = this.buffer.remaining(); ++ ++ if (remaining <= 0) { ++ return -1; ++ } ++ } ++ ++ final int toRead = Math.min(remaining, len); ++ this.buffer.get(b, off, toRead); ++ ++ return toRead; ++ } ++ ++ public int read(final ByteBuffer dst) throws IOException { ++ final int off = dst.position(); ++ final int len = dst.remaining(); ++ ++ // assume buffer position/limits are valid ++ ++ if (len == 0) { ++ return 0; ++ } ++ ++ int remaining = this.buffer.remaining(); ++ if (remaining <= 0) { ++ this.buffer = this.refill(this.buffer); ++ remaining = this.buffer.remaining(); ++ ++ if (remaining <= 0) { ++ return -1; ++ } ++ } ++ ++ final int toRead = Math.min(remaining, len); ++ ++ dst.put(off, this.buffer, this.buffer.position(), toRead); ++ ++ this.buffer.position(this.buffer.position() + toRead); ++ dst.position(off + toRead); ++ ++ return toRead; ++ } ++ ++ @Override ++ public long skip(final long n) throws IOException { ++ final int remaining = this.buffer.remaining(); ++ ++ final long toSkip = Math.min(n, (long)remaining); ++ ++ if (toSkip > 0) { ++ this.buffer.position(this.buffer.position() + (int)toSkip); ++ } ++ ++ return Math.max(0, toSkip); ++ } ++ ++ @Override ++ public int available() throws IOException { ++ return this.buffer.remaining(); ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/ByteBufferOutputStream.java b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/ByteBufferOutputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..024e756a9d88981e44b027bfe5a7a7f26d069dd2 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/bytebuffer/ByteBufferOutputStream.java +@@ -0,0 +1,114 @@ ++package ca.spottedleaf.io.region.io.bytebuffer; ++ ++import java.io.IOException; ++import java.io.OutputStream; ++import java.nio.ByteBuffer; ++ ++public abstract class ByteBufferOutputStream extends OutputStream { ++ ++ protected ByteBuffer buffer; ++ ++ public ByteBufferOutputStream(final ByteBuffer buffer) { ++ this.buffer = buffer; ++ } ++ ++ // always returns a buffer with remaining > 0 ++ protected abstract ByteBuffer flush(final ByteBuffer current) throws IOException; ++ ++ @Override ++ public void write(final int b) throws IOException { ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ if (this.buffer.hasRemaining()) { ++ this.buffer.put((byte)b); ++ return; ++ } ++ ++ this.buffer = this.flush(this.buffer); ++ this.buffer.put((byte)b); ++ } ++ ++ @Override ++ public void write(final byte[] b) throws IOException { ++ this.write(b, 0, b.length); ++ } ++ ++ @Override ++ public void write(final byte[] b, int off, int len) throws IOException { ++ if (((len | off) | (off + len) | (b.length - (off + len))) < 0) { ++ // length < 0 || off < 0 || (off + len) < 0 ++ throw new IndexOutOfBoundsException(); ++ } ++ ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ while (len > 0) { ++ final int maxWrite = Math.min(this.buffer.remaining(), len); ++ ++ if (maxWrite == 0) { ++ this.buffer = this.flush(this.buffer); ++ continue; ++ } ++ ++ this.buffer.put(b, off, maxWrite); ++ ++ off += maxWrite; ++ len -= maxWrite; ++ } ++ } ++ ++ public void write(final ByteBuffer buffer) throws IOException { ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ int off = buffer.position(); ++ int remaining = buffer.remaining(); ++ ++ while (remaining > 0) { ++ final int maxWrite = Math.min(this.buffer.remaining(), remaining); ++ ++ if (maxWrite == 0) { ++ this.buffer = this.flush(this.buffer); ++ continue; ++ } ++ ++ final int thisOffset = this.buffer.position(); ++ ++ this.buffer.put(thisOffset, buffer, off, maxWrite); ++ ++ off += maxWrite; ++ remaining -= maxWrite; ++ ++ // update positions in case flush() throws or needs to be called ++ this.buffer.position(thisOffset + maxWrite); ++ buffer.position(off); ++ } ++ } ++ ++ @Override ++ public void flush() throws IOException { ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ this.buffer = this.flush(this.buffer); ++ } ++ ++ @Override ++ public void close() throws IOException { ++ if (this.buffer == null) { ++ return; ++ } ++ ++ try { ++ this.flush(); ++ } finally { ++ this.buffer = null; ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/java/SimpleBufferedInputStream.java b/src/main/java/ca/spottedleaf/io/region/io/java/SimpleBufferedInputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..7a53f69fcd13cc4b784244bc35a768cfbf0ffd41 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/java/SimpleBufferedInputStream.java +@@ -0,0 +1,137 @@ ++package ca.spottedleaf.io.region.io.java; ++ ++import java.io.IOException; ++import java.io.InputStream; ++ ++public class SimpleBufferedInputStream extends InputStream { ++ ++ protected static final int DEFAULT_BUFFER_SIZE = 8192; ++ ++ protected InputStream input; ++ protected byte[] buffer; ++ protected int pos; ++ protected int max; ++ ++ public SimpleBufferedInputStream(final InputStream input) { ++ this(input, DEFAULT_BUFFER_SIZE); ++ } ++ ++ public SimpleBufferedInputStream(final InputStream input, final int bufferSize) { ++ this(input, new byte[bufferSize]); ++ } ++ ++ public SimpleBufferedInputStream(final InputStream input, final byte[] buffer) { ++ if (buffer.length == 0) { ++ throw new IllegalArgumentException("Buffer size must be > 0"); ++ } ++ ++ this.input = input; ++ this.buffer = buffer; ++ this.pos = this.max = 0; ++ } ++ ++ private void fill() throws IOException { ++ if (this.max < 0) { ++ // already read EOF ++ return; ++ } ++ // assume pos = buffer.length ++ this.max = this.input.read(this.buffer, 0, this.buffer.length); ++ this.pos = 0; ++ } ++ ++ @Override ++ public int read() throws IOException { ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ if (this.pos < this.max) { ++ return (int)this.buffer[this.pos++] & 0xFF; ++ } ++ ++ this.fill(); ++ ++ if (this.pos < this.max) { ++ return (int)this.buffer[this.pos++] & 0xFF; ++ } ++ ++ return -1; ++ } ++ ++ @Override ++ public int read(final byte[] b) throws IOException { ++ return this.read(b, 0, b.length); ++ } ++ ++ @Override ++ public int read(final byte[] b, final int off, final int len) throws IOException { ++ if (((len | off) | (off + len) | (b.length - (off + len))) < 0) { ++ // length < 0 || off < 0 || (off + len) < 0 ++ throw new IndexOutOfBoundsException(); ++ } ++ ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ if (len == 0) { ++ return 0; ++ } ++ ++ if (this.pos >= this.max) { ++ if (len >= this.buffer.length) { ++ // bypass buffer ++ return this.input.read(b, off, len); ++ } ++ ++ this.fill(); ++ if (this.pos >= this.max) { ++ return -1; ++ } ++ } ++ ++ final int maxRead = Math.min(this.max - this.pos, len); ++ ++ System.arraycopy(this.buffer, this.pos, b, off, maxRead); ++ ++ this.pos += maxRead; ++ ++ return maxRead; ++ } ++ ++ @Override ++ public long skip(final long n) throws IOException { ++ final int remaining = this.max - this.pos; ++ ++ final long toSkip = Math.min(n, (long)remaining); ++ ++ if (toSkip > 0) { ++ this.pos += (int)toSkip; ++ } ++ ++ return Math.max(0, toSkip); ++ } ++ ++ @Override ++ public int available() throws IOException { ++ if (this.input == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ final int upper = Math.max(0, this.input.available()); ++ final int ret = upper + Math.max(0, this.max - this.pos); ++ ++ return ret < 0 ? Integer.MAX_VALUE : ret; // ret < 0 when overflow ++ } ++ ++ @Override ++ public void close() throws IOException { ++ try { ++ this.input.close(); ++ } finally { ++ this.input = null; ++ this.buffer = null; ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/java/SimpleBufferedOutputStream.java b/src/main/java/ca/spottedleaf/io/region/io/java/SimpleBufferedOutputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..a237b642b5f30d87098d43055fe044121473bcb1 +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/java/SimpleBufferedOutputStream.java +@@ -0,0 +1,113 @@ ++package ca.spottedleaf.io.region.io.java; ++ ++import java.io.IOException; ++import java.io.OutputStream; ++ ++public class SimpleBufferedOutputStream extends OutputStream { ++ ++ protected static final int DEFAULT_BUFFER_SIZE = 8192; ++ ++ protected OutputStream output; ++ protected byte[] buffer; ++ protected int pos; ++ ++ public SimpleBufferedOutputStream(final OutputStream output) { ++ this(output, DEFAULT_BUFFER_SIZE); ++ } ++ ++ public SimpleBufferedOutputStream(final OutputStream output, final int bufferSize) { ++ this(output, new byte[bufferSize]); ++ } ++ ++ public SimpleBufferedOutputStream(final OutputStream output, final byte[] buffer) { ++ if (buffer.length == 0) { ++ throw new IllegalArgumentException("Buffer size must be > 0"); ++ } ++ ++ this.output = output; ++ this.buffer = buffer; ++ this.pos = 0; ++ } ++ ++ protected void writeBuffer() throws IOException { ++ if (this.pos > 0) { ++ this.output.write(this.buffer, 0, this.pos); ++ this.pos = 0; ++ } ++ } ++ ++ @Override ++ public void write(final int b) throws IOException { ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ if (this.pos < this.buffer.length) { ++ this.buffer[this.pos++] = (byte)b; ++ } else { ++ this.writeBuffer(); ++ this.buffer[this.pos++] = (byte)b; ++ } ++ } ++ ++ @Override ++ public void write(final byte[] b) throws IOException { ++ this.write(b, 0, b.length); ++ } ++ ++ @Override ++ public void write(final byte[] b, int off, int len) throws IOException { ++ if (((len | off) | (off + len) | (b.length - (off + len))) < 0) { ++ // length < 0 || off < 0 || (off + len) < 0 ++ throw new IndexOutOfBoundsException(); ++ } ++ ++ if (this.buffer == null) { ++ throw new IOException("Closed stream"); ++ } ++ ++ while (len > 0) { ++ final int maxBuffer = Math.min(len, this.buffer.length - this.pos); ++ ++ if (maxBuffer == 0) { ++ this.writeBuffer(); ++ ++ if (len >= this.buffer.length) { ++ // bypass buffer ++ this.output.write(b, off, len); ++ return; ++ } ++ ++ continue; ++ } ++ ++ System.arraycopy(b, off, this.buffer, this.pos, maxBuffer); ++ this.pos += maxBuffer; ++ off += maxBuffer; ++ len -= maxBuffer; ++ } ++ } ++ ++ @Override ++ public void flush() throws IOException { ++ this.writeBuffer(); ++ } ++ ++ @Override ++ public void close() throws IOException { ++ if (this.buffer == null) { ++ return; ++ } ++ ++ try { ++ this.flush(); ++ } finally { ++ try { ++ this.output.close(); ++ } finally { ++ this.output = null; ++ this.buffer = null; ++ } ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/zstd/ZSTDInputStream.java b/src/main/java/ca/spottedleaf/io/region/io/zstd/ZSTDInputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..99d9ef991a715a7c06bf0ceee464ea1b9ce2b7dc +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/zstd/ZSTDInputStream.java +@@ -0,0 +1,148 @@ ++package ca.spottedleaf.io.region.io.zstd; ++ ++import ca.spottedleaf.io.region.io.bytebuffer.ByteBufferInputStream; ++import com.github.luben.zstd.Zstd; ++import com.github.luben.zstd.ZstdDecompressCtx; ++import com.github.luben.zstd.ZstdIOException; ++import java.io.EOFException; ++import java.io.IOException; ++import java.nio.ByteBuffer; ++import java.util.function.Consumer; ++ ++public class ZSTDInputStream extends ByteBufferInputStream { ++ ++ private ByteBuffer compressedBuffer; ++ private ZstdDecompressCtx decompressor; ++ private Consumer closeDecompressor; ++ private ByteBufferInputStream wrap; ++ private boolean lastDecompressFlushed; ++ private boolean done; ++ ++ public ZSTDInputStream(final ByteBuffer decompressedBuffer, final ByteBuffer compressedBuffer, ++ final ZstdDecompressCtx decompressor, ++ final Consumer closeDecompressor, ++ final ByteBufferInputStream wrap) { ++ super(decompressedBuffer); ++ ++ if (!decompressedBuffer.isDirect() || !compressedBuffer.isDirect()) { ++ throw new IllegalArgumentException("Buffers must be direct"); ++ } ++ ++ // set position to max so that we force the first read to go to wrap ++ ++ decompressedBuffer.limit(decompressedBuffer.capacity()); ++ decompressedBuffer.position(decompressedBuffer.capacity()); ++ ++ compressedBuffer.limit(compressedBuffer.capacity()); ++ compressedBuffer.position(compressedBuffer.capacity()); ++ ++ synchronized (this) { ++ this.decompressor = decompressor; ++ this.closeDecompressor = closeDecompressor; ++ this.compressedBuffer = compressedBuffer; ++ this.wrap = wrap; ++ } ++ } ++ ++ protected synchronized ByteBuffer refillCompressed(final ByteBuffer current) throws IOException { ++ current.limit(current.capacity()); ++ current.position(0); ++ ++ try { ++ this.wrap.read(current); ++ } finally { ++ current.flip(); ++ } ++ ++ return current; ++ } ++ ++ @Override ++ public synchronized int available() throws IOException { ++ if (this.decompressor == null) { ++ return 0; ++ } ++ ++ final long ret = (long)super.available() + (long)this.compressedBuffer.remaining() + (long)this.wrap.available(); ++ ++ if (ret < 0L) { ++ return 0; ++ } else if (ret > (long)Integer.MAX_VALUE) { ++ return Integer.MAX_VALUE; ++ } ++ ++ return (int)ret; ++ } ++ ++ @Override ++ protected synchronized final ByteBuffer refill(final ByteBuffer current) throws IOException { ++ if (this.decompressor == null) { ++ throw new EOFException(); ++ } ++ ++ if (this.done) { ++ return current; ++ } ++ ++ ByteBuffer compressedBuffer = this.compressedBuffer; ++ final ZstdDecompressCtx decompressor = this.decompressor; ++ ++ for (;;) { ++ if (!compressedBuffer.hasRemaining()) { ++ // try to read more data into source ++ this.compressedBuffer = compressedBuffer = this.refillCompressed(compressedBuffer); ++ ++ if (!compressedBuffer.hasRemaining()) { ++ // EOF ++ if (!this.lastDecompressFlushed) { ++ throw new ZstdIOException(Zstd.errCorruptionDetected(), "Truncated stream"); ++ } ++ return current; ++ } else { ++ // more data to decompress, so reset the last flushed ++ this.lastDecompressFlushed = false; ++ } ++ } ++ ++ current.limit(current.capacity()); ++ current.position(0); ++ ++ try { ++ this.lastDecompressFlushed = decompressor.decompressDirectByteBufferStream(current, compressedBuffer); ++ } finally { ++ // if decompressDirectByteBufferStream throws, then current.limit = position = 0 ++ current.flip(); ++ } ++ ++ if (current.hasRemaining()) { ++ return current; ++ } else if (this.lastDecompressFlushed) { ++ this.done = true; ++ return current; ++ } // else: need more data ++ } ++ } ++ ++ @Override ++ public synchronized void close() throws IOException { ++ if (this.decompressor == null) { ++ return; ++ } ++ ++ final ZstdDecompressCtx decompressor = this.decompressor; ++ final ByteBufferInputStream wrap = this.wrap; ++ final Consumer closeDecompressor = this.closeDecompressor; ++ this.decompressor = null; ++ this.compressedBuffer = null; ++ this.closeDecompressor = null; ++ this.wrap = null; ++ ++ try { ++ if (closeDecompressor != null) { ++ closeDecompressor.accept(decompressor); ++ } ++ } finally { ++ wrap.close(); ++ } ++ } ++} +diff --git a/src/main/java/ca/spottedleaf/io/region/io/zstd/ZSTDOutputStream.java b/src/main/java/ca/spottedleaf/io/region/io/zstd/ZSTDOutputStream.java +new file mode 100644 +index 0000000000000000000000000000000000000000..797f079800984607bb9022badf9ebb27b5d3043d +--- /dev/null ++++ b/src/main/java/ca/spottedleaf/io/region/io/zstd/ZSTDOutputStream.java +@@ -0,0 +1,141 @@ ++package ca.spottedleaf.io.region.io.zstd; ++ ++import ca.spottedleaf.io.region.io.bytebuffer.ByteBufferOutputStream; ++import com.github.luben.zstd.EndDirective; ++import com.github.luben.zstd.ZstdCompressCtx; ++import java.io.IOException; ++import java.nio.ByteBuffer; ++import java.util.function.Consumer; ++ ++public class ZSTDOutputStream extends ByteBufferOutputStream { ++ ++ protected static final ByteBuffer EMPTY_BUFFER = ByteBuffer.allocateDirect(0); ++ ++ private ByteBuffer compressedBuffer; ++ private ZstdCompressCtx compressor; ++ private Consumer closeCompressor; ++ private ByteBufferOutputStream wrap; ++ ++ public ZSTDOutputStream(final ByteBuffer decompressedBuffer, final ByteBuffer compressedBuffer, ++ final ZstdCompressCtx compressor, ++ final Consumer closeCompressor, ++ final ByteBufferOutputStream wrap) { ++ super(decompressedBuffer); ++ ++ if (!decompressedBuffer.isDirect() || !compressedBuffer.isDirect()) { ++ throw new IllegalArgumentException("Buffers must be direct"); ++ } ++ ++ decompressedBuffer.limit(decompressedBuffer.capacity()); ++ decompressedBuffer.position(0); ++ ++ compressedBuffer.limit(compressedBuffer.capacity()); ++ compressedBuffer.position(0); ++ ++ synchronized (this) { ++ this.compressedBuffer = compressedBuffer; ++ this.compressor = compressor; ++ this.closeCompressor = closeCompressor; ++ this.wrap = wrap; ++ } ++ } ++ ++ protected synchronized ByteBuffer emptyBuffer(final ByteBuffer toFlush) throws IOException { ++ toFlush.flip(); ++ ++ if (toFlush.hasRemaining()) { ++ this.wrap.write(toFlush); ++ } ++ ++ toFlush.limit(toFlush.capacity()); ++ toFlush.position(0); ++ ++ return toFlush; ++ } ++ ++ @Override ++ protected synchronized final ByteBuffer flush(final ByteBuffer current) throws IOException { ++ current.flip(); ++ ++ while (current.hasRemaining()) { ++ if (!this.compressedBuffer.hasRemaining()) { ++ this.compressedBuffer = this.emptyBuffer(this.compressedBuffer); ++ } ++ this.compressor.compressDirectByteBufferStream(this.compressedBuffer, current, EndDirective.CONTINUE); ++ } ++ ++ current.limit(current.capacity()); ++ current.position(0); ++ ++ return current; ++ } ++ ++ @Override ++ public synchronized void flush() throws IOException { ++ // flush all buffered data to zstd stream first ++ super.flush(); ++ ++ // now try to dump compressor buffers ++ do { ++ if (!this.compressedBuffer.hasRemaining()) { ++ this.compressedBuffer = this.emptyBuffer(this.compressedBuffer); ++ } ++ } while (!this.compressor.compressDirectByteBufferStream(this.compressedBuffer, EMPTY_BUFFER, EndDirective.FLUSH)); ++ ++ // empty compressed buffer into wrap ++ if (this.compressedBuffer.position() != 0) { ++ this.compressedBuffer = this.emptyBuffer(this.compressedBuffer); ++ } ++ ++ this.wrap.flush(); ++ } ++ ++ @Override ++ public synchronized void close() throws IOException { ++ if (this.compressor == null) { ++ // already closed ++ return; ++ } ++ ++ try { ++ // flush data to compressor ++ try { ++ super.flush(); ++ } finally { ++ // perform super.close ++ // the reason we inline this is so that we do not call our flush(), so that we do not perform ZSTD FLUSH + END, ++ // which is slightly more inefficient than just END ++ this.buffer = null; ++ } ++ ++ // perform end stream ++ do { ++ if (!this.compressedBuffer.hasRemaining()) { ++ this.compressedBuffer = this.emptyBuffer(this.compressedBuffer); ++ } ++ } while (!this.compressor.compressDirectByteBufferStream(this.compressedBuffer, EMPTY_BUFFER, EndDirective.END)); ++ ++ // flush compressed buffer ++ if (this.compressedBuffer.position() != 0) { ++ this.compressedBuffer = this.emptyBuffer(this.compressedBuffer); ++ } ++ ++ // try-finally will flush wrap ++ } finally { ++ try { ++ if (this.closeCompressor != null) { ++ this.closeCompressor.accept(this.compressor); ++ } ++ } finally { ++ try { ++ this.wrap.close(); ++ } finally { ++ this.compressor = null; ++ this.closeCompressor = null; ++ this.compressedBuffer = null; ++ this.wrap = null; ++ } ++ } ++ } ++ } ++} +diff --git a/src/main/java/io/papermc/paper/chunk/system/io/RegionFileIOThread.java b/src/main/java/io/papermc/paper/chunk/system/io/RegionFileIOThread.java +index 2096e57c025858519e7c46788993b9aac1ec60e8..7f5a5267f36b3076fbda35f581d3985ee04e6ee2 100644 +--- a/src/main/java/io/papermc/paper/chunk/system/io/RegionFileIOThread.java ++++ b/src/main/java/io/papermc/paper/chunk/system/io/RegionFileIOThread.java +@@ -6,6 +6,9 @@ import ca.spottedleaf.concurrentutil.executor.standard.PrioritisedExecutor; + import ca.spottedleaf.concurrentutil.executor.standard.PrioritisedQueueExecutorThread; + import ca.spottedleaf.concurrentutil.executor.standard.PrioritisedThreadedTaskQueue; + import ca.spottedleaf.concurrentutil.util.ConcurrentUtil; ++import ca.spottedleaf.io.region.MinecraftRegionFileType; ++import ca.spottedleaf.io.region.SectorFile; ++import ca.spottedleaf.io.region.SectorFileCache; + import com.mojang.logging.LogUtils; + import io.papermc.paper.util.CoordinateUtils; + import io.papermc.paper.util.TickThread; +@@ -50,9 +53,16 @@ public final class RegionFileIOThread extends PrioritisedQueueExecutorThread { + * getControllerFor is updated. + */ + public static enum RegionFileType { +- CHUNK_DATA, +- POI_DATA, +- ENTITY_DATA; ++ CHUNK_DATA(MinecraftRegionFileType.CHUNK), ++ POI_DATA(MinecraftRegionFileType.POI), ++ ENTITY_DATA(MinecraftRegionFileType.ENTITY); ++ ++ public final MinecraftRegionFileType regionFileType; ++ ++ private RegionFileType(final MinecraftRegionFileType regionType) { ++ this.regionFileType = regionType; ++ } ++ + } + + protected static final RegionFileType[] CACHED_REGIONFILE_TYPES = RegionFileType.values(); +@@ -1058,12 +1068,16 @@ public final class RegionFileIOThread extends PrioritisedQueueExecutorThread { + protected final ConcurrentHashMap tasks = new ConcurrentHashMap<>(8192, 0.10f); + + public final RegionFileType type; ++ public final ServerLevel world; + +- public ChunkDataController(final RegionFileType type) { ++ public ChunkDataController(final RegionFileType type, final ServerLevel world) { + this.type = type; ++ this.world = world; + } + +- public abstract RegionFileStorage getCache(); ++ private SectorFileCache getCache() { ++ return this.world.sectorFileCache; ++ } + + public abstract void writeData(final int chunkX, final int chunkZ, final CompoundTag compound) throws IOException; + +@@ -1074,46 +1088,31 @@ public final class RegionFileIOThread extends PrioritisedQueueExecutorThread { + } + + public boolean doesRegionFileNotExist(final int chunkX, final int chunkZ) { +- return this.getCache().doesRegionFileNotExistNoIO(new ChunkPos(chunkX, chunkZ)); ++ return this.getCache().doesSectorFileNotExistNoIO(chunkX, chunkZ); + } + +- public T computeForRegionFile(final int chunkX, final int chunkZ, final boolean existingOnly, final Function function) { +- final RegionFileStorage cache = this.getCache(); +- final RegionFile regionFile; ++ public T computeForSectorFile(final int chunkX, final int chunkZ, final boolean existingOnly, final BiFunction function) { ++ final SectorFileCache cache = this.getCache(); ++ final SectorFile regionFile; + synchronized (cache) { + try { +- regionFile = cache.getRegionFile(new ChunkPos(chunkX, chunkZ), existingOnly, true); ++ regionFile = cache.getSectorFile(SectorFileCache.getUnscopedBufferChoices(), chunkX, chunkZ, existingOnly); + } catch (final IOException ex) { + throw new RuntimeException(ex); + } + } + +- try { +- return function.apply(regionFile); +- } finally { +- if (regionFile != null) { +- regionFile.fileLock.unlock(); +- } +- } ++ return function.apply(this.type, regionFile); + } + +- public T computeForRegionFileIfLoaded(final int chunkX, final int chunkZ, final Function function) { +- final RegionFileStorage cache = this.getCache(); +- final RegionFile regionFile; ++ public T computeForRegionFileIfLoaded(final int chunkX, final int chunkZ, final BiFunction function) { ++ final SectorFileCache cache = this.getCache(); ++ final SectorFile regionFile; + + synchronized (cache) { +- regionFile = cache.getRegionFileIfLoaded(new ChunkPos(chunkX, chunkZ)); +- if (regionFile != null) { +- regionFile.fileLock.lock(); +- } +- } ++ regionFile = cache.getRegionFileIfLoaded(chunkX, chunkZ); + +- try { +- return function.apply(regionFile); +- } finally { +- if (regionFile != null) { +- regionFile.fileLock.unlock(); +- } ++ return function.apply(this.type, regionFile); + } + } + } +diff --git a/src/main/java/io/papermc/paper/chunk/system/scheduling/ChunkHolderManager.java b/src/main/java/io/papermc/paper/chunk/system/scheduling/ChunkHolderManager.java +index 6bc7c6f16a1649fc9e24e7cf90fca401e5bd4875..26aeafc36afb7b39638ac70959497694413a7d6d 100644 +--- a/src/main/java/io/papermc/paper/chunk/system/scheduling/ChunkHolderManager.java ++++ b/src/main/java/io/papermc/paper/chunk/system/scheduling/ChunkHolderManager.java +@@ -185,22 +185,12 @@ public final class ChunkHolderManager { + RegionFileIOThread.flush(); + } + +- // kill regionfile cache ++ // kill sectorfile cache + try { +- this.world.chunkDataControllerNew.getCache().close(); ++ this.world.sectorFileCache.close(); + } catch (final IOException ex) { + LOGGER.error("Failed to close chunk regionfile cache for world '" + this.world.getWorld().getName() + "'", ex); + } +- try { +- this.world.entityDataControllerNew.getCache().close(); +- } catch (final IOException ex) { +- LOGGER.error("Failed to close entity regionfile cache for world '" + this.world.getWorld().getName() + "'", ex); +- } +- try { +- this.world.poiDataControllerNew.getCache().close(); +- } catch (final IOException ex) { +- LOGGER.error("Failed to close poi regionfile cache for world '" + this.world.getWorld().getName() + "'", ex); +- } + } + + void ensureInAutosave(final NewChunkHolder holder) { +@@ -298,7 +288,7 @@ public final class ChunkHolderManager { + RegionFileIOThread.flush(); + if (this.world.paperConfig().chunks.flushRegionsOnSave) { + try { +- this.world.chunkSource.chunkMap.regionFileCache.flush(); ++ this.world.sectorFileCache.flush(); + } catch (IOException ex) { + LOGGER.error("Exception when flushing regions in world {}", this.world.getWorld().getName(), ex); + } +diff --git a/src/main/java/io/papermc/paper/configuration/GlobalConfiguration.java b/src/main/java/io/papermc/paper/configuration/GlobalConfiguration.java +index 0467ad99b144aa81a04baa45d4c8bbb2b70185a2..930af52b8dc9729b5b6d56c5bf3a92b63a219612 100644 +--- a/src/main/java/io/papermc/paper/configuration/GlobalConfiguration.java ++++ b/src/main/java/io/papermc/paper/configuration/GlobalConfiguration.java +@@ -191,7 +191,9 @@ public class GlobalConfiguration extends ConfigurationPart { + public enum CompressionFormat { + GZIP, + ZLIB, +- NONE ++ NONE, ++ LZ4, ++ ZSTD; + } + } + +diff --git a/src/main/java/net/minecraft/server/level/ChunkMap.java b/src/main/java/net/minecraft/server/level/ChunkMap.java +index 7fb9ba3dadb1eca4a1000ea8cf4d13fed2b7db1e..39ff3b4eaf6f41ecd7051a5fd930a1b46caf483c 100644 +--- a/src/main/java/net/minecraft/server/level/ChunkMap.java ++++ b/src/main/java/net/minecraft/server/level/ChunkMap.java +@@ -250,7 +250,7 @@ public class ChunkMap extends ChunkStorage implements ChunkHolder.PlayerProvider + // Paper end - optimise chunk tick iteration + + public ChunkMap(ServerLevel world, LevelStorageSource.LevelStorageAccess session, DataFixer dataFixer, StructureTemplateManager structureTemplateManager, Executor executor, BlockableEventLoop mainThreadExecutor, LightChunkGetter chunkProvider, ChunkGenerator chunkGenerator, ChunkProgressListener worldGenerationProgressListener, ChunkStatusUpdateListener chunkStatusChangeListener, Supplier persistentStateManagerFactory, int viewDistance, boolean dsync) { +- super(new RegionStorageInfo(session.getLevelId(), world.dimension(), "chunk"), session.getDimensionPath(world.dimension()).resolve("region"), dataFixer, dsync); ++ super(world.sectorFileCache, session.getDimensionPath(world.dimension()).resolve("region"), dataFixer, dsync); + // Paper - rewrite chunk system + this.tickingGenerated = new AtomicInteger(); + this.playerMap = new PlayerMap(); +@@ -889,34 +889,13 @@ public class ChunkMap extends ChunkStorage implements ChunkHolder.PlayerProvider + return nbttagcompound; + } + +- public ChunkStatus getChunkStatusOnDiskIfCached(ChunkPos chunkPos) { +- net.minecraft.world.level.chunk.storage.RegionFile regionFile = regionFileCache.getRegionFileIfLoaded(chunkPos); +- +- return regionFile == null ? null : regionFile.getStatusIfCached(chunkPos.x, chunkPos.z); +- } +- + public ChunkStatus getChunkStatusOnDisk(ChunkPos chunkPos) throws IOException { +- net.minecraft.world.level.chunk.storage.RegionFile regionFile = regionFileCache.getRegionFile(chunkPos, true); +- +- if (regionFile == null || !regionFileCache.chunkExists(chunkPos)) { +- return null; +- } +- +- ChunkStatus status = regionFile.getStatusIfCached(chunkPos.x, chunkPos.z); +- +- if (status != null) { +- return status; +- } +- +- this.readChunk(chunkPos); +- +- return regionFile.getStatusIfCached(chunkPos.x, chunkPos.z); ++ CompoundTag nbt = this.readConvertChunkSync(chunkPos); ++ return nbt == null ? null : ChunkSerializer.getStatus(nbt); + } + + public void updateChunkStatusOnDisk(ChunkPos chunkPos, @Nullable CompoundTag compound) throws IOException { +- net.minecraft.world.level.chunk.storage.RegionFile regionFile = regionFileCache.getRegionFile(chunkPos, false); + +- regionFile.setStatus(chunkPos.x, chunkPos.z, ChunkSerializer.getStatus(compound)); + } + + public ChunkAccess getUnloadingChunk(int chunkX, int chunkZ) { +diff --git a/src/main/java/net/minecraft/server/level/ServerLevel.java b/src/main/java/net/minecraft/server/level/ServerLevel.java +index ca56a0b596976448da6bb2a0e82b3d5cd4133e12..3ea9ba2481e1920e850169322909be1ff01f77fa 100644 +--- a/src/main/java/net/minecraft/server/level/ServerLevel.java ++++ b/src/main/java/net/minecraft/server/level/ServerLevel.java +@@ -364,14 +364,10 @@ public class ServerLevel extends Level implements WorldGenLevel { + } + + // Paper start - rewrite chunk system ++ public final ca.spottedleaf.io.region.SectorFileCache sectorFileCache; + public final io.papermc.paper.chunk.system.scheduling.ChunkTaskScheduler chunkTaskScheduler; + public final io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController chunkDataControllerNew +- = new io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController(io.papermc.paper.chunk.system.io.RegionFileIOThread.RegionFileType.CHUNK_DATA) { +- +- @Override +- public net.minecraft.world.level.chunk.storage.RegionFileStorage getCache() { +- return ServerLevel.this.getChunkSource().chunkMap.regionFileCache; +- } ++ = new io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController(io.papermc.paper.chunk.system.io.RegionFileIOThread.RegionFileType.CHUNK_DATA, this) { + + @Override + public void writeData(int chunkX, int chunkZ, net.minecraft.nbt.CompoundTag compound) throws IOException { +@@ -384,12 +380,7 @@ public class ServerLevel extends Level implements WorldGenLevel { + } + }; + public final io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController poiDataControllerNew +- = new io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController(io.papermc.paper.chunk.system.io.RegionFileIOThread.RegionFileType.POI_DATA) { +- +- @Override +- public net.minecraft.world.level.chunk.storage.RegionFileStorage getCache() { +- return ServerLevel.this.getChunkSource().chunkMap.getPoiManager(); +- } ++ = new io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController(io.papermc.paper.chunk.system.io.RegionFileIOThread.RegionFileType.POI_DATA, this) { + + @Override + public void writeData(int chunkX, int chunkZ, net.minecraft.nbt.CompoundTag compound) throws IOException { +@@ -402,12 +393,7 @@ public class ServerLevel extends Level implements WorldGenLevel { + } + }; + public final io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController entityDataControllerNew +- = new io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController(io.papermc.paper.chunk.system.io.RegionFileIOThread.RegionFileType.ENTITY_DATA) { +- +- @Override +- public net.minecraft.world.level.chunk.storage.RegionFileStorage getCache() { +- return ServerLevel.this.entityStorage; +- } ++ = new io.papermc.paper.chunk.system.io.RegionFileIOThread.ChunkDataController(io.papermc.paper.chunk.system.io.RegionFileIOThread.RegionFileType.ENTITY_DATA, this) { + + @Override + public void writeData(int chunkX, int chunkZ, net.minecraft.nbt.CompoundTag compound) throws IOException { +@@ -419,25 +405,6 @@ public class ServerLevel extends Level implements WorldGenLevel { + return ServerLevel.this.readEntityChunk(chunkX, chunkZ); + } + }; +- private final EntityRegionFileStorage entityStorage; +- +- private static final class EntityRegionFileStorage extends net.minecraft.world.level.chunk.storage.RegionFileStorage { +- +- public EntityRegionFileStorage(RegionStorageInfo storageKey, Path directory, boolean dsync) { +- super(storageKey, directory, dsync); +- } +- +- protected void write(ChunkPos pos, net.minecraft.nbt.CompoundTag nbt) throws IOException { +- ChunkPos nbtPos = nbt == null ? null : EntityStorage.readChunkPos(nbt); +- if (nbtPos != null && !pos.equals(nbtPos)) { +- throw new IllegalArgumentException( +- "Entity chunk coordinate and serialized data do not have matching coordinates, trying to serialize coordinate " + pos.toString() +- + " but compound says coordinate is " + nbtPos + " for world: " + this +- ); +- } +- super.write(pos, nbt); +- } +- } + + private void writeEntityChunk(int chunkX, int chunkZ, net.minecraft.nbt.CompoundTag compound) throws IOException { + if (!io.papermc.paper.chunk.system.io.RegionFileIOThread.isRegionFileThread()) { +@@ -446,7 +413,10 @@ public class ServerLevel extends Level implements WorldGenLevel { + io.papermc.paper.chunk.system.io.RegionFileIOThread.RegionFileType.ENTITY_DATA); + return; + } +- this.entityStorage.write(new ChunkPos(chunkX, chunkZ), compound); ++ this.sectorFileCache.write( ++ ca.spottedleaf.io.region.SectorFileCache.getUnscopedBufferChoices(), chunkX, chunkZ, ++ ca.spottedleaf.io.region.MinecraftRegionFileType.ENTITY.getNewId(), compound ++ ); + } + + private net.minecraft.nbt.CompoundTag readEntityChunk(int chunkX, int chunkZ) throws IOException { +@@ -456,7 +426,10 @@ public class ServerLevel extends Level implements WorldGenLevel { + io.papermc.paper.chunk.system.io.RegionFileIOThread.getIOBlockingPriorityForCurrentThread() + ); + } +- return this.entityStorage.read(new ChunkPos(chunkX, chunkZ)); ++ return this.sectorFileCache.read( ++ ca.spottedleaf.io.region.SectorFileCache.getUnscopedBufferChoices(), chunkX, chunkZ, ++ ca.spottedleaf.io.region.MinecraftRegionFileType.ENTITY.getNewId() ++ ); + } + + private final io.papermc.paper.chunk.system.entity.EntityLookup entityLookup; +@@ -734,7 +707,7 @@ public class ServerLevel extends Level implements WorldGenLevel { + // CraftBukkit end + boolean flag2 = minecraftserver.forceSynchronousWrites(); + DataFixer datafixer = minecraftserver.getFixerUpper(); +- this.entityStorage = new EntityRegionFileStorage(new RegionStorageInfo(convertable_conversionsession.getLevelId(), resourcekey, "entities"), convertable_conversionsession.getDimensionPath(resourcekey).resolve("entities"), flag2); // Paper - rewrite chunk system ++ this.sectorFileCache = new ca.spottedleaf.io.region.SectorFileCache(convertable_conversionsession.getDimensionPath(resourcekey).resolve("sectors").toFile(), flag2); + + // this.entityManager = new PersistentEntitySectionManager<>(Entity.class, new ServerLevel.EntityCallbacks(), entitypersistentstorage, this.entitySliceManager); // Paper // Paper - rewrite chunk system + StructureTemplateManager structuretemplatemanager = minecraftserver.getStructureManager(); +diff --git a/src/main/java/net/minecraft/util/worldupdate/WorldUpgrader.java b/src/main/java/net/minecraft/util/worldupdate/WorldUpgrader.java +index 954d468459fe167ede0e7fca5b9f99da565d59e1..74361ca5a43529650277e08b9e3532f9f748885d 100644 +--- a/src/main/java/net/minecraft/util/worldupdate/WorldUpgrader.java ++++ b/src/main/java/net/minecraft/util/worldupdate/WorldUpgrader.java +@@ -80,6 +80,7 @@ public class WorldUpgrader { + final DimensionDataStorage overworldDataStorage; + + public WorldUpgrader(LevelStorageSource.LevelStorageAccess session, DataFixer dataFixer, RegistryAccess dynamicRegistryManager, boolean eraseCache, boolean recreateRegionFiles) { ++ if (true) throw new UnsupportedOperationException(); + this.dimensions = dynamicRegistryManager.registryOrThrow(Registries.LEVEL_STEM); + this.levels = (Set) java.util.stream.Stream.of(session.dimensionType).map(Registries::levelStemToLevel).collect(Collectors.toUnmodifiableSet()); // CraftBukkit + this.eraseCache = eraseCache; +@@ -249,7 +250,7 @@ public class WorldUpgrader { + + @Override + protected ChunkStorage createStorage(RegionStorageInfo key, Path worldDirectory) { +- return (ChunkStorage) (WorldUpgrader.this.recreateRegionFiles ? new RecreatingChunkStorage(key.withTypeSuffix("source"), worldDirectory, key.withTypeSuffix("target"), WorldUpgrader.resolveRecreateDirectory(worldDirectory), WorldUpgrader.this.dataFixer, true) : new ChunkStorage(key, worldDirectory, WorldUpgrader.this.dataFixer, true)); ++ return (ChunkStorage) (WorldUpgrader.this.recreateRegionFiles ? new RecreatingChunkStorage(key.withTypeSuffix("source"), worldDirectory, key.withTypeSuffix("target"), WorldUpgrader.resolveRecreateDirectory(worldDirectory), WorldUpgrader.this.dataFixer, true) : new ChunkStorage(null, worldDirectory, WorldUpgrader.this.dataFixer, true)); + } + } + +diff --git a/src/main/java/net/minecraft/world/entity/ai/village/poi/PoiManager.java b/src/main/java/net/minecraft/world/entity/ai/village/poi/PoiManager.java +index c6f193339fdcbcc938d4eafdcad0b112cf1698d5..cc4380ef8b47d51c57a7ff4e022f2069279058ba 100644 +--- a/src/main/java/net/minecraft/world/entity/ai/village/poi/PoiManager.java ++++ b/src/main/java/net/minecraft/world/entity/ai/village/poi/PoiManager.java +@@ -438,7 +438,10 @@ public class PoiManager extends SectionStorage { + ); + } + // Paper end - rewrite chunk system +- return super.read(chunkcoordintpair); ++ return this.world.sectorFileCache.read( ++ ca.spottedleaf.io.region.SectorFileCache.getUnscopedBufferChoices(), chunkcoordintpair.x, chunkcoordintpair.z, ++ ca.spottedleaf.io.region.MinecraftRegionFileType.POI.getNewId() ++ ); + } + + @Override +@@ -451,7 +454,10 @@ public class PoiManager extends SectionStorage { + return; + } + // Paper end - rewrite chunk system +- super.write(chunkcoordintpair, nbttagcompound); ++ this.world.sectorFileCache.write( ++ ca.spottedleaf.io.region.SectorFileCache.getUnscopedBufferChoices(), chunkcoordintpair.x, chunkcoordintpair.z, ++ ca.spottedleaf.io.region.MinecraftRegionFileType.POI.getNewId(), nbttagcompound ++ ); + } + // Paper end + +diff --git a/src/main/java/net/minecraft/world/level/chunk/storage/ChunkStorage.java b/src/main/java/net/minecraft/world/level/chunk/storage/ChunkStorage.java +index 7801fac96d728f951989fca36f6a4890a0638c36..93825a9ee8805693f3890f2246b0341cf136e017 100644 +--- a/src/main/java/net/minecraft/world/level/chunk/storage/ChunkStorage.java ++++ b/src/main/java/net/minecraft/world/level/chunk/storage/ChunkStorage.java +@@ -33,15 +33,15 @@ public class ChunkStorage implements AutoCloseable { + public static final int LAST_MONOLYTH_STRUCTURE_DATA_VERSION = 1493; + // Paper start - rewrite chunk system; async chunk IO + private final Object persistentDataLock = new Object(); +- public final RegionFileStorage regionFileCache; + // Paper end - rewrite chunk system + protected final DataFixer fixerUpper; + @Nullable + private volatile LegacyStructureDataHandler legacyStructureHandler; ++ protected final ca.spottedleaf.io.region.SectorFileCache sectorCache; + +- public ChunkStorage(RegionStorageInfo storageKey, Path directory, DataFixer dataFixer, boolean dsync) { ++ public ChunkStorage(ca.spottedleaf.io.region.SectorFileCache sectorCache, Path directory, DataFixer dataFixer, boolean dsync) { + this.fixerUpper = dataFixer; +- this.regionFileCache = new RegionFileStorage(storageKey, directory, dsync, true); // Paper - rewrite chunk system; async chunk IO & Attempt to recalculate regionfile header if it is corrupt ++ this.sectorCache = sectorCache; + } + + public boolean isOldChunkAround(ChunkPos chunkPos, int checkRadius) { +@@ -181,7 +181,10 @@ public class ChunkStorage implements AutoCloseable { + } + @Nullable + public CompoundTag readSync(ChunkPos chunkPos) throws IOException { +- return this.regionFileCache.read(chunkPos); ++ return this.sectorCache.read( ++ ca.spottedleaf.io.region.SectorFileCache.getUnscopedBufferChoices(), ++ chunkPos.x, chunkPos.z, ca.spottedleaf.io.region.MinecraftRegionFileType.CHUNK.getNewId() ++ ); + } + // Paper end - async chunk io + +@@ -193,7 +196,10 @@ public class ChunkStorage implements AutoCloseable { + + " but compound says coordinate is " + ChunkSerializer.getChunkCoordinate(nbt) + (world == null ? " for an unknown world" : (" for world: " + world))); + } + // Paper end - guard against serializing mismatching coordinates +- this.regionFileCache.write(chunkPos, nbt); // Paper - rewrite chunk system; async chunk io, move above legacy structure index ++ this.sectorCache.write( ++ ca.spottedleaf.io.region.SectorFileCache.getUnscopedBufferChoices(), ++ chunkPos.x, chunkPos.z, ca.spottedleaf.io.region.MinecraftRegionFileType.CHUNK.getNewId(), nbt ++ ); + this.handleLegacyStructureIndex(chunkPos); + // Paper - rewrite chunk system; async chunk io, move above legacy structure index + return null; +@@ -213,14 +219,18 @@ public class ChunkStorage implements AutoCloseable { + } + + public void close() throws IOException { +- this.regionFileCache.close(); // Paper - nuke IO worker ++ + } + + public ChunkScanAccess chunkScanner() { + // Paper start - nuke IO worker + return ((chunkPos, streamTagVisitor) -> { + try { +- this.regionFileCache.scanChunk(chunkPos, streamTagVisitor); ++ this.sectorCache.scanChunk( ++ ca.spottedleaf.io.region.SectorFileCache.getUnscopedBufferChoices(), ++ chunkPos.x, chunkPos.z, ca.spottedleaf.io.region.MinecraftRegionFileType.CHUNK.getNewId(), ++ streamTagVisitor ++ ); + return java.util.concurrent.CompletableFuture.completedFuture(null); + } catch (IOException e) { + throw new RuntimeException(e); +diff --git a/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileVersion.java b/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileVersion.java +index f4a39f49b354c560d614483db1cd3dfc154e94b4..2bbea87a5ffe3986b5bfdbaf84e7dc7dccb9a7ec 100644 +--- a/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileVersion.java ++++ b/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileVersion.java +@@ -60,11 +60,7 @@ public class RegionFileVersion { + + // Paper start - Configurable region compression format + public static RegionFileVersion getCompressionFormat() { +- return switch (io.papermc.paper.configuration.GlobalConfiguration.get().unsupportedSettings.compressionFormat) { +- case GZIP -> VERSION_GZIP; +- case ZLIB -> VERSION_DEFLATE; +- case NONE -> VERSION_NONE; +- }; ++ throw new UnsupportedOperationException(); + } + // Paper end - Configurable region compression format + private RegionFileVersion( +diff --git a/src/main/java/net/minecraft/world/level/chunk/storage/SectionStorage.java b/src/main/java/net/minecraft/world/level/chunk/storage/SectionStorage.java +index a4a919d8373f1535e336de7e648d41a07efb1cba..6d411313379e2b64e76484ef003f9dc873629e5f 100644 +--- a/src/main/java/net/minecraft/world/level/chunk/storage/SectionStorage.java ++++ b/src/main/java/net/minecraft/world/level/chunk/storage/SectionStorage.java +@@ -32,7 +32,7 @@ import net.minecraft.world.level.ChunkPos; + import net.minecraft.world.level.LevelHeightAccessor; + import org.slf4j.Logger; + +-public class SectionStorage extends RegionFileStorage implements AutoCloseable { // Paper - nuke IOWorker ++public class SectionStorage implements AutoCloseable { // Paper - nuke IOWorker + private static final Logger LOGGER = LogUtils.getLogger(); + private static final String SECTIONS_TAG = "Sections"; + // Paper - remove mojang I/O thread +@@ -55,13 +55,20 @@ public class SectionStorage extends RegionFileStorage implements AutoCloseabl + RegistryAccess registryManager, + LevelHeightAccessor world + ) { +- super(regionStorageInfo, path, dsync); // Paper - remove mojang I/O thread + this.codec = codecFactory; + this.factory = factory; + this.registryAccess = registryManager; + this.levelHeightAccessor = world; + } + ++ protected CompoundTag read(ChunkPos pos) throws IOException { ++ throw new AbstractMethodError(); ++ } ++ ++ protected void write(ChunkPos pos, CompoundTag tag) throws IOException { ++ throw new AbstractMethodError(); ++ } ++ + protected void tick(BooleanSupplier shouldKeepTicking) { + while (this.hasWork() && shouldKeepTicking.getAsBoolean()) { + ChunkPos chunkPos = SectionPos.of(this.dirty.firstLong()).chunk(); +@@ -233,6 +240,6 @@ public class SectionStorage extends RegionFileStorage implements AutoCloseabl + + @Override + public void close() throws IOException { +- super.close(); // Paper - nuke I/O worker - don't call the worker ++ + } + } +diff --git a/src/main/java/org/bukkit/craftbukkit/CraftWorld.java b/src/main/java/org/bukkit/craftbukkit/CraftWorld.java +index 6303760f10af17f1da1d92d6c4dc7dd6f5778f94..6853341347ac35ab7c7d0da3715a2f79e1079311 100644 +--- a/src/main/java/org/bukkit/craftbukkit/CraftWorld.java ++++ b/src/main/java/org/bukkit/craftbukkit/CraftWorld.java +@@ -609,17 +609,6 @@ public class CraftWorld extends CraftRegionAccessor implements World { + world.getChunk(x, z); // make sure we're at ticket level 32 or lower + return true; + } +- net.minecraft.world.level.chunk.storage.RegionFile file; +- try { +- file = world.getChunkSource().chunkMap.regionFileCache.getRegionFile(chunkPos, false); +- } catch (java.io.IOException ex) { +- throw new RuntimeException(ex); +- } +- +- ChunkStatus status = file.getStatusIfCached(x, z); +- if (!file.hasChunk(chunkPos) || (status != null && status != ChunkStatus.FULL)) { +- return false; +- } + + ChunkAccess chunk = world.getChunkSource().getChunk(x, z, ChunkStatus.EMPTY, true); + if (!(chunk instanceof ImposterProtoChunk) && !(chunk instanceof net.minecraft.world.level.chunk.LevelChunk)) {