Paper/patches/server/1045-Attempt-to-recalculate-regionfile-header-if-it-is-co.patch
Spottedleaf 8c5b837e05 Rework async chunk api implementation
Firstly, the old methods all routed to the CompletableFuture method.
However, the CF method could not guarantee that if the caller
was off-main that the future would be "completed" on-main. Since
the callback methods used the CF one, this meant that the callback
methods did not guarantee that the callbacks were to be called on
the main thread.

Now, all methods route to getChunkAtAsync(x, z, gen, urgent, cb)
so that the methods with the callback are guaranteed to invoke
the callback on the main thread. The CF behavior remains unchanged;
it may still appear to complete on main if invoked off-main.

Secondly, remove the scheduleOnMain invocation in the async
chunk completion. This unnecessarily delays the callback
by 1 tick.

Thirdly, add getChunksAtAsync(minX, minZ, maxX, maxZ, ...) which
will load chunks within an area. This method is provided as a helper
as keeping all chunks loaded within an area can be complicated to
implement for plugins (due to the lacking ticket API), and is
already implemented internally anyways.

Fourthly, remove the ticket addition that occured with getChunkAt
and getChunkAtAsync. The ticket addition may delay the unloading
of the chunk unnecessarily. It also fixes a very rare timing bug
where the future/callback would be completed after the chunk
unloads.
2024-11-18 23:00:59 -08:00

745 lines
40 KiB
Diff

From 0000000000000000000000000000000000000000 Mon Sep 17 00:00:00 2001
From: Spottedleaf <Spottedleaf@users.noreply.github.com>
Date: Sun, 2 Feb 2020 02:25:10 -0800
Subject: [PATCH] Attempt to recalculate regionfile header if it is corrupt
Instead of trying to relocate the chunk, which is seems to never
be the correct choice, so we end up duplicating or swapping chunks,
we instead drop the current regionfile header and recalculate -
hoping that at least then we don't swap chunks, and maybe recover
them all.
Feature patch
diff --git a/src/main/java/net/minecraft/world/level/chunk/storage/RegionBitmap.java b/src/main/java/net/minecraft/world/level/chunk/storage/RegionBitmap.java
index a23dc2f8f4475de1ee35bf18a7a8a53233ccac12..226af44fd469053451a0403a95ffb446face9530 100644
--- a/src/main/java/net/minecraft/world/level/chunk/storage/RegionBitmap.java
+++ b/src/main/java/net/minecraft/world/level/chunk/storage/RegionBitmap.java
@@ -9,6 +9,27 @@ import java.util.BitSet;
public class RegionBitmap {
private final BitSet used = new BitSet();
+ // Paper start - Attempt to recalculate regionfile header if it is corrupt
+ public final void copyFrom(RegionBitmap other) {
+ BitSet thisBitset = this.used;
+ BitSet otherBitset = other.used;
+
+ for (int i = 0; i < Math.max(thisBitset.size(), otherBitset.size()); ++i) {
+ thisBitset.set(i, otherBitset.get(i));
+ }
+ }
+
+ public final boolean tryAllocate(int from, int length) {
+ BitSet bitset = this.used;
+ int firstSet = bitset.nextSetBit(from);
+ if (firstSet > 0 && firstSet < (from + length)) {
+ return false;
+ }
+ bitset.set(from, from + length);
+ return true;
+ }
+ // Paper end - Attempt to recalculate regionfile header if it is corrupt
+
public void force(int start, int size) {
this.used.set(start, start + size);
}
diff --git a/src/main/java/net/minecraft/world/level/chunk/storage/RegionFile.java b/src/main/java/net/minecraft/world/level/chunk/storage/RegionFile.java
index e9e1ab1a5be996bc648a53dc4d4123a6b966c437..6a465d9b12c92b5385c394fef7456630be97c04d 100644
--- a/src/main/java/net/minecraft/world/level/chunk/storage/RegionFile.java
+++ b/src/main/java/net/minecraft/world/level/chunk/storage/RegionFile.java
@@ -51,6 +51,354 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
private final IntBuffer timestamps;
@VisibleForTesting
protected final RegionBitmap usedSectors;
+ // Paper start - Attempt to recalculate regionfile header if it is corrupt
+ private static long roundToSectors(long bytes) {
+ long sectors = bytes >>> 12; // 4096 = 2^12
+ long remainingBytes = bytes & 4095;
+ long sign = -remainingBytes; // sign is 1 if nonzero
+ return sectors + (sign >>> 63);
+ }
+
+ private static final CompoundTag OVERSIZED_COMPOUND = new CompoundTag();
+
+ private CompoundTag attemptRead(long sector, int chunkDataLength, long fileLength) throws IOException {
+ try {
+ if (chunkDataLength < 0) {
+ return null;
+ }
+
+ long offset = sector * 4096L + 4L; // offset for chunk data
+
+ if ((offset + chunkDataLength) > fileLength) {
+ return null;
+ }
+
+ ByteBuffer chunkData = ByteBuffer.allocate(chunkDataLength);
+ if (chunkDataLength != this.file.read(chunkData, offset)) {
+ return null;
+ }
+
+ ((java.nio.Buffer)chunkData).flip();
+
+ byte compressionType = chunkData.get();
+ if (compressionType < 0) { // compressionType & 128 != 0
+ // oversized chunk
+ return OVERSIZED_COMPOUND;
+ }
+
+ RegionFileVersion compression = RegionFileVersion.fromId(compressionType);
+ if (compression == null) {
+ return null;
+ }
+
+ InputStream input = compression.wrap(new ByteArrayInputStream(chunkData.array(), chunkData.position(), chunkDataLength - chunkData.position()));
+
+ return NbtIo.read(new DataInputStream(input));
+ } catch (Exception ex) {
+ return null;
+ }
+ }
+
+ private int getLength(long sector) throws IOException {
+ ByteBuffer length = ByteBuffer.allocate(4);
+ if (4 != this.file.read(length, sector * 4096L)) {
+ return -1;
+ }
+
+ return length.getInt(0);
+ }
+
+ private void backupRegionFile() {
+ Path backup = this.path.getParent().resolve(this.path.getFileName() + "." + new java.util.Random().nextLong() + ".backup");
+ this.backupRegionFile(backup);
+ }
+
+ private void backupRegionFile(Path to) {
+ try {
+ this.file.force(true);
+ LOGGER.warn("Backing up regionfile \"" + this.path.toAbsolutePath() + "\" to " + to.toAbsolutePath());
+ java.nio.file.Files.copy(this.path, to, java.nio.file.StandardCopyOption.COPY_ATTRIBUTES);
+ LOGGER.warn("Backed up the regionfile to " + to.toAbsolutePath());
+ } catch (IOException ex) {
+ LOGGER.error("Failed to backup to " + to.toAbsolutePath(), ex);
+ }
+ }
+
+ private static boolean inSameRegionfile(ChunkPos first, ChunkPos second) {
+ return (first.x & ~31) == (second.x & ~31) && (first.z & ~31) == (second.z & ~31);
+ }
+
+ // note: only call for CHUNK regionfiles
+ boolean recalculateHeader() throws IOException {
+ if (!this.canRecalcHeader) {
+ return false;
+ }
+ ChunkPos ourLowerLeftPosition = RegionFileStorage.getRegionFileCoordinates(this.path);
+ if (ourLowerLeftPosition == null) {
+ LOGGER.error("Unable to get chunk location of regionfile " + this.path.toAbsolutePath() + ", cannot recover header");
+ return false;
+ }
+ synchronized (this) {
+ LOGGER.warn("Corrupt regionfile header detected! Attempting to re-calculate header offsets for regionfile " + this.path.toAbsolutePath(), new Throwable());
+
+ // try to backup file so maybe it could be sent to us for further investigation
+
+ this.backupRegionFile();
+ CompoundTag[] compounds = new CompoundTag[32 * 32]; // only in the regionfile (i.e exclude mojang/aikar oversized data)
+ int[] rawLengths = new int[32 * 32]; // length of chunk data including 4 byte length field, bytes
+ int[] sectorOffsets = new int[32 * 32]; // in sectors
+ boolean[] hasAikarOversized = new boolean[32 * 32];
+
+ long fileLength = this.file.size();
+ long totalSectors = roundToSectors(fileLength);
+
+ // search the regionfile from start to finish for the most up-to-date chunk data
+
+ for (long i = 2, maxSector = Math.min((long)(Integer.MAX_VALUE >>> 8), totalSectors); i < maxSector; ++i) { // first two sectors are header, skip
+ int chunkDataLength = this.getLength(i);
+ CompoundTag compound = this.attemptRead(i, chunkDataLength, fileLength);
+ if (compound == null || compound == OVERSIZED_COMPOUND) {
+ continue;
+ }
+
+ ChunkPos chunkPos = SerializableChunkData.getChunkCoordinate(compound);
+ if (!inSameRegionfile(ourLowerLeftPosition, chunkPos)) {
+ LOGGER.error("Ignoring absolute chunk " + chunkPos + " in regionfile as it is not contained in the bounds of the regionfile '" + this.path.toAbsolutePath() + "'. It should be in regionfile (" + (chunkPos.x >> 5) + "," + (chunkPos.z >> 5) + ")");
+ continue;
+ }
+ int location = (chunkPos.x & 31) | ((chunkPos.z & 31) << 5);
+
+ CompoundTag otherCompound = compounds[location];
+
+ if (otherCompound != null && SerializableChunkData.getLastWorldSaveTime(otherCompound) > SerializableChunkData.getLastWorldSaveTime(compound)) {
+ continue; // don't overwrite newer data.
+ }
+
+ // aikar oversized?
+ Path aikarOversizedFile = this.getOversizedFile(chunkPos.x, chunkPos.z);
+ boolean isAikarOversized = false;
+ if (Files.exists(aikarOversizedFile)) {
+ try {
+ CompoundTag aikarOversizedCompound = this.getOversizedData(chunkPos.x, chunkPos.z);
+ if (SerializableChunkData.getLastWorldSaveTime(compound) == SerializableChunkData.getLastWorldSaveTime(aikarOversizedCompound)) {
+ // best we got for an id. hope it's good enough
+ isAikarOversized = true;
+ }
+ } catch (Exception ex) {
+ LOGGER.error("Failed to read aikar oversized data for absolute chunk (" + chunkPos.x + "," + chunkPos.z + ") in regionfile " + this.path.toAbsolutePath() + ", oversized data for this chunk will be lost", ex);
+ // fall through, if we can't read aikar oversized we can't risk corrupting chunk data
+ }
+ }
+
+ hasAikarOversized[location] = isAikarOversized;
+ compounds[location] = compound;
+ rawLengths[location] = chunkDataLength + 4;
+ sectorOffsets[location] = (int)i;
+
+ int chunkSectorLength = (int)roundToSectors(rawLengths[location]);
+ i += chunkSectorLength;
+ --i; // gets incremented next iteration
+ }
+
+ // forge style oversized data is already handled by the local search, and aikar data we just hope
+ // we get it right as aikar data has no identifiers we could use to try and find its corresponding
+ // local data compound
+
+ java.nio.file.Path containingFolder = this.externalFileDir;
+ Path[] regionFiles = Files.list(containingFolder).toArray(Path[]::new);
+ boolean[] oversized = new boolean[32 * 32];
+ RegionFileVersion[] oversizedCompressionTypes = new RegionFileVersion[32 * 32];
+
+ if (regionFiles != null) {
+ int lowerXBound = ourLowerLeftPosition.x; // inclusive
+ int lowerZBound = ourLowerLeftPosition.z; // inclusive
+ int upperXBound = lowerXBound + 32 - 1; // inclusive
+ int upperZBound = lowerZBound + 32 - 1; // inclusive
+
+ // read mojang oversized data
+ for (Path regionFile : regionFiles) {
+ ChunkPos oversizedCoords = getOversizedChunkPair(regionFile);
+ if (oversizedCoords == null) {
+ continue;
+ }
+
+ if ((oversizedCoords.x < lowerXBound || oversizedCoords.x > upperXBound) || (oversizedCoords.z < lowerZBound || oversizedCoords.z > upperZBound)) {
+ continue; // not in our regionfile
+ }
+
+ // ensure oversized data is valid & is newer than data in the regionfile
+
+ int location = (oversizedCoords.x & 31) | ((oversizedCoords.z & 31) << 5);
+
+ byte[] chunkData;
+ try {
+ chunkData = Files.readAllBytes(regionFile);
+ } catch (Exception ex) {
+ LOGGER.error("Failed to read oversized chunk data in file " + regionFile.toAbsolutePath() + ", data will be lost", ex);
+ continue;
+ }
+
+ CompoundTag compound = null;
+
+ // We do not know the compression type, as it's stored in the regionfile. So we need to try all of them
+ RegionFileVersion compression = null;
+ for (RegionFileVersion compressionType : RegionFileVersion.VERSIONS.values()) {
+ try {
+ DataInputStream in = new DataInputStream(compressionType.wrap(new ByteArrayInputStream(chunkData))); // typical java
+ compound = NbtIo.read((java.io.DataInput)in);
+ compression = compressionType;
+ break; // reaches here iff readNBT does not throw
+ } catch (Exception ex) {
+ continue;
+ }
+ }
+
+ if (compound == null) {
+ LOGGER.error("Failed to read oversized chunk data in file " + regionFile.toAbsolutePath() + ", it's corrupt. Its data will be lost");
+ continue;
+ }
+
+ if (!SerializableChunkData.getChunkCoordinate(compound).equals(oversizedCoords)) {
+ LOGGER.error("Can't use oversized chunk stored in " + regionFile.toAbsolutePath() + ", got absolute chunkpos: " + SerializableChunkData.getChunkCoordinate(compound) + ", expected " + oversizedCoords);
+ continue;
+ }
+
+ if (compounds[location] == null || SerializableChunkData.getLastWorldSaveTime(compound) > SerializableChunkData.getLastWorldSaveTime(compounds[location])) {
+ oversized[location] = true;
+ oversizedCompressionTypes[location] = compression;
+ }
+ }
+ }
+
+ // now we need to calculate a new offset header
+
+ int[] calculatedOffsets = new int[32 * 32];
+ RegionBitmap newSectorAllocations = new RegionBitmap();
+ newSectorAllocations.force(0, 2); // make space for header
+
+ // allocate sectors for normal chunks
+
+ for (int chunkX = 0; chunkX < 32; ++chunkX) {
+ for (int chunkZ = 0; chunkZ < 32; ++chunkZ) {
+ int location = chunkX | (chunkZ << 5);
+
+ if (oversized[location]) {
+ continue;
+ }
+
+ int rawLength = rawLengths[location]; // bytes
+ int sectorOffset = sectorOffsets[location]; // sectors
+ int sectorLength = (int)roundToSectors(rawLength);
+
+ if (newSectorAllocations.tryAllocate(sectorOffset, sectorLength)) {
+ calculatedOffsets[location] = sectorOffset << 8 | (sectorLength > 255 ? 255 : sectorLength); // support forge style oversized
+ } else {
+ LOGGER.error("Failed to allocate space for local chunk (overlapping data??) at (" + chunkX + "," + chunkZ + ") in regionfile " + this.path.toAbsolutePath() + ", chunk will be regenerated");
+ }
+ }
+ }
+
+ // allocate sectors for oversized chunks
+
+ for (int chunkX = 0; chunkX < 32; ++chunkX) {
+ for (int chunkZ = 0; chunkZ < 32; ++chunkZ) {
+ int location = chunkX | (chunkZ << 5);
+
+ if (!oversized[location]) {
+ continue;
+ }
+
+ int sectorOffset = newSectorAllocations.allocate(1);
+ int sectorLength = 1;
+
+ try {
+ this.file.write(this.createExternalStub(oversizedCompressionTypes[location]), sectorOffset * 4096);
+ // only allocate in the new offsets if the write succeeds
+ calculatedOffsets[location] = sectorOffset << 8 | (sectorLength > 255 ? 255 : sectorLength); // support forge style oversized
+ } catch (IOException ex) {
+ newSectorAllocations.free(sectorOffset, sectorLength);
+ LOGGER.error("Failed to write new oversized chunk data holder, local chunk at (" + chunkX + "," + chunkZ + ") in regionfile " + this.path.toAbsolutePath() + " will be regenerated");
+ }
+ }
+ }
+
+ // rewrite aikar oversized data
+
+ this.oversizedCount = 0;
+ for (int chunkX = 0; chunkX < 32; ++chunkX) {
+ for (int chunkZ = 0; chunkZ < 32; ++chunkZ) {
+ int location = chunkX | (chunkZ << 5);
+ int isAikarOversized = hasAikarOversized[location] ? 1 : 0;
+
+ this.oversizedCount += isAikarOversized;
+ this.oversized[location] = (byte)isAikarOversized;
+ }
+ }
+
+ if (this.oversizedCount > 0) {
+ try {
+ this.writeOversizedMeta();
+ } catch (Exception ex) {
+ LOGGER.error("Failed to write aikar oversized chunk meta, all aikar style oversized chunk data will be lost for regionfile " + this.path.toAbsolutePath(), ex);
+ Files.deleteIfExists(this.getOversizedMetaFile());
+ }
+ } else {
+ Files.deleteIfExists(this.getOversizedMetaFile());
+ }
+
+ this.usedSectors.copyFrom(newSectorAllocations);
+
+ // before we overwrite the old sectors, print a summary of the chunks that got changed.
+
+ LOGGER.info("Starting summary of changes for regionfile " + this.path.toAbsolutePath());
+
+ for (int chunkX = 0; chunkX < 32; ++chunkX) {
+ for (int chunkZ = 0; chunkZ < 32; ++chunkZ) {
+ int location = chunkX | (chunkZ << 5);
+
+ int oldOffset = this.offsets.get(location);
+ int newOffset = calculatedOffsets[location];
+
+ if (oldOffset == newOffset) {
+ continue;
+ }
+
+ this.offsets.put(location, newOffset); // overwrite incorrect offset
+
+ if (oldOffset == 0) {
+ // found lost data
+ LOGGER.info("Found missing data for local chunk (" + chunkX + "," + chunkZ + ") in regionfile " + this.path.toAbsolutePath());
+ } else if (newOffset == 0) {
+ LOGGER.warn("Data for local chunk (" + chunkX + "," + chunkZ + ") could not be recovered in regionfile " + this.path.toAbsolutePath() + ", it will be regenerated");
+ } else {
+ LOGGER.info("Local chunk (" + chunkX + "," + chunkZ + ") changed to point to newer data or correct chunk in regionfile " + this.path.toAbsolutePath());
+ }
+ }
+ }
+
+ LOGGER.info("End of change summary for regionfile " + this.path.toAbsolutePath());
+
+ // simply destroy the timestamp header, it's not used
+
+ for (int i = 0; i < 32 * 32; ++i) {
+ this.timestamps.put(i, calculatedOffsets[i] != 0 ? RegionFile.getTimestamp() : 0); // write a valid timestamp for valid chunks, I do not want to find out whatever dumb program actually checks this
+ }
+
+ // write new header
+ try {
+ this.flush();
+ this.file.force(true); // try to ensure it goes through...
+ LOGGER.info("Successfully wrote new header to disk for regionfile " + this.path.toAbsolutePath());
+ } catch (IOException ex) {
+ LOGGER.error("Failed to write new header to disk for regionfile " + this.path.toAbsolutePath(), ex);
+ }
+ }
+
+ return true;
+ }
+
+ final boolean canRecalcHeader; // final forces compile fail on new constructor
+ // Paper end - Attempt to recalculate regionfile header if it is corrupt
// Paper start - rewrite chunk system
@Override
@@ -82,6 +430,7 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
throw new IllegalArgumentException("Expected directory, got " + String.valueOf(directory.toAbsolutePath()));
} else {
this.externalFileDir = directory;
+ this.canRecalcHeader = RegionFileStorage.isChunkDataFolder(this.externalFileDir); // Paper - add can recalc flag
this.offsets = this.header.asIntBuffer();
((java.nio.Buffer) this.offsets).limit(1024); // CraftBukkit - decompile error
((java.nio.Buffer) this.header).position(4096); // CraftBukkit - decompile error
@@ -101,14 +450,16 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
RegionFile.LOGGER.warn("Region file {} has truncated header: {}", path, i);
}
- long j = Files.size(path);
+ final long j = Files.size(path); final long regionFileSize = j; // Paper - recalculate header on header corruption
- for (int k = 0; k < 1024; ++k) {
- int l = this.offsets.get(k);
+ boolean needsHeaderRecalc = false; // Paper - recalculate header on header corruption
+ boolean hasBackedUp = false; // Paper - recalculate header on header corruption
+ for (int k = 0; k < 1024; ++k) { final int headerLocation = k; // Paper - we expect this to be the header location
+ final int l = this.offsets.get(k);
if (l != 0) {
- int i1 = RegionFile.getSectorNumber(l);
- int j1 = RegionFile.getNumSectors(l);
+ final int i1 = RegionFile.getSectorNumber(l); final int offset = i1; // Paper - we expect this to be offset in file in sectors
+ int j1 = RegionFile.getNumSectors(l); final int sectorLength; // Paper - diff on change, we expect this to be sector length of region - watch out for reassignments
// Spigot start
if (j1 == 255) {
// We're maxed out, so we need to read the proper length from the section
@@ -117,21 +468,66 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
j1 = (realLen.getInt(0) + 4) / 4096 + 1;
}
// Spigot end
+ sectorLength = j1; // Paper - diff on change, we expect this to be sector length of region
if (i1 < 2) {
RegionFile.LOGGER.warn("Region file {} has invalid sector at index: {}; sector {} overlaps with header", new Object[]{path, k, i1});
- this.offsets.put(k, 0);
+ //this.offsets.put(k, 0); // Paper - we catch this, but need it in the header for the summary change
} else if (j1 == 0) {
RegionFile.LOGGER.warn("Region file {} has an invalid sector at index: {}; size has to be > 0", path, k);
- this.offsets.put(k, 0);
+ //this.offsets.put(k, 0); // Paper - we catch this, but need it in the header for the summary change
} else if ((long) i1 * 4096L > j) {
RegionFile.LOGGER.warn("Region file {} has an invalid sector at index: {}; sector {} is out of bounds", new Object[]{path, k, i1});
- this.offsets.put(k, 0);
+ //this.offsets.put(k, 0); // Paper - we catch this, but need it in the header for the summary change
} else {
- this.usedSectors.force(i1, j1);
+ //this.usedSectors.force(i1, j1); // Paper - move this down so we can check if it fails to allocate
+ }
+ // Paper start - recalculate header on header corruption
+ if (offset < 2 || sectorLength <= 0 || ((long)offset * 4096L) > regionFileSize) {
+ if (canRecalcHeader) {
+ LOGGER.error("Detected invalid header for regionfile " + this.path.toAbsolutePath() + "! Recalculating header...");
+ needsHeaderRecalc = true;
+ break;
+ } else {
+ // location = chunkX | (chunkZ << 5);
+ LOGGER.error("Detected invalid header for regionfile " + this.path.toAbsolutePath() +
+ "! Cannot recalculate, removing local chunk (" + (headerLocation & 31) + "," + (headerLocation >>> 5) + ") from header");
+ if (!hasBackedUp) {
+ hasBackedUp = true;
+ this.backupRegionFile();
+ }
+ this.timestamps.put(headerLocation, 0); // be consistent, delete the timestamp too
+ this.offsets.put(headerLocation, 0); // delete the entry from header
+ continue;
+ }
+ }
+ boolean failedToAllocate = !this.usedSectors.tryAllocate(offset, sectorLength);
+ if (failedToAllocate) {
+ LOGGER.error("Overlapping allocation by local chunk (" + (headerLocation & 31) + "," + (headerLocation >>> 5) + ") in regionfile " + this.path.toAbsolutePath());
}
+ if (failedToAllocate & !canRecalcHeader) {
+ // location = chunkX | (chunkZ << 5);
+ LOGGER.error("Detected invalid header for regionfile " + this.path.toAbsolutePath() +
+ "! Cannot recalculate, removing local chunk (" + (headerLocation & 31) + "," + (headerLocation >>> 5) + ") from header");
+ if (!hasBackedUp) {
+ hasBackedUp = true;
+ this.backupRegionFile();
+ }
+ this.timestamps.put(headerLocation, 0); // be consistent, delete the timestamp too
+ this.offsets.put(headerLocation, 0); // delete the entry from header
+ continue;
+ }
+ needsHeaderRecalc |= failedToAllocate;
+ // Paper end - recalculate header on header corruption
}
}
+ // Paper start - recalculate header on header corruption
+ // we move the recalc here so comparison to old header is correct when logging to console
+ if (needsHeaderRecalc) { // true if header gave us overlapping allocations or had other issues
+ LOGGER.error("Recalculating regionfile " + this.path.toAbsolutePath() + ", header gave erroneous offsets & locations");
+ this.recalculateHeader();
+ }
+ // Paper end
}
}
@@ -142,11 +538,36 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
}
private Path getExternalChunkPath(ChunkPos chunkPos) {
- String s = "c." + chunkPos.x + "." + chunkPos.z + ".mcc";
+ String s = "c." + chunkPos.x + "." + chunkPos.z + ".mcc"; // Paper - diff on change
return this.externalFileDir.resolve(s);
}
+ // Paper start
+ private static ChunkPos getOversizedChunkPair(Path file) {
+ String fileName = file.getFileName().toString();
+
+ if (!fileName.startsWith("c.") || !fileName.endsWith(".mcc")) {
+ return null;
+ }
+
+ String[] split = fileName.split("\\.");
+
+ if (split.length != 4) {
+ return null;
+ }
+
+ try {
+ int x = Integer.parseInt(split[1]);
+ int z = Integer.parseInt(split[2]);
+
+ return new ChunkPos(x, z);
+ } catch (NumberFormatException ex) {
+ return null;
+ }
+ }
+ // Paper end
+
@Nullable
public synchronized DataInputStream getChunkDataInputStream(ChunkPos pos) throws IOException {
int i = this.getOffset(pos);
@@ -170,6 +591,11 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
((java.nio.Buffer) bytebuffer).flip(); // CraftBukkit - decompile error
if (bytebuffer.remaining() < 5) {
RegionFile.LOGGER.error("Chunk {} header is truncated: expected {} but read {}", new Object[]{pos, l, bytebuffer.remaining()});
+ // Paper start - recalculate header on regionfile corruption
+ if (this.canRecalcHeader && this.recalculateHeader()) {
+ return this.getChunkDataInputStream(pos);
+ }
+ // Paper end - recalculate header on regionfile corruption
return null;
} else {
int i1 = bytebuffer.getInt();
@@ -177,6 +603,11 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
if (i1 == 0) {
RegionFile.LOGGER.warn("Chunk {} is allocated, but stream is missing", pos);
+ // Paper start - recalculate header on regionfile corruption
+ if (this.canRecalcHeader && this.recalculateHeader()) {
+ return this.getChunkDataInputStream(pos);
+ }
+ // Paper end - recalculate header on regionfile corruption
return null;
} else {
int j1 = i1 - 1;
@@ -184,18 +615,45 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
if (RegionFile.isExternalStreamChunk(b0)) {
if (j1 != 0) {
RegionFile.LOGGER.warn("Chunk has both internal and external streams");
+ // Paper start - recalculate header on regionfile corruption
+ if (this.canRecalcHeader && this.recalculateHeader()) {
+ return this.getChunkDataInputStream(pos);
+ }
+ // Paper end - recalculate header on regionfile corruption
}
- return this.createExternalChunkInputStream(pos, RegionFile.getExternalChunkVersion(b0));
+ // Paper start - recalculate header on regionfile corruption
+ final DataInputStream ret = this.createExternalChunkInputStream(pos, RegionFile.getExternalChunkVersion(b0));
+ if (ret == null && this.canRecalcHeader && this.recalculateHeader()) {
+ return this.getChunkDataInputStream(pos);
+ }
+ return ret;
+ // Paper end - recalculate header on regionfile corruption
} else if (j1 > bytebuffer.remaining()) {
RegionFile.LOGGER.error("Chunk {} stream is truncated: expected {} but read {}", new Object[]{pos, j1, bytebuffer.remaining()});
+ // Paper start - recalculate header on regionfile corruption
+ if (this.canRecalcHeader && this.recalculateHeader()) {
+ return this.getChunkDataInputStream(pos);
+ }
+ // Paper end - recalculate header on regionfile corruption
return null;
} else if (j1 < 0) {
RegionFile.LOGGER.error("Declared size {} of chunk {} is negative", i1, pos);
+ // Paper start - recalculate header on regionfile corruption
+ if (this.canRecalcHeader && this.recalculateHeader()) {
+ return this.getChunkDataInputStream(pos);
+ }
+ // Paper end - recalculate header on regionfile corruption
return null;
} else {
JvmProfiler.INSTANCE.onRegionFileRead(this.info, pos, this.version, j1);
- return this.createChunkInputStream(pos, b0, RegionFile.createStream(bytebuffer, j1));
+ // Paper start - recalculate header on regionfile corruption
+ final DataInputStream ret = this.createChunkInputStream(pos, b0, RegionFile.createStream(bytebuffer, j1));
+ if (ret == null && this.canRecalcHeader && this.recalculateHeader()) {
+ return this.getChunkDataInputStream(pos);
+ }
+ return ret;
+ // Paper end - recalculate header on regionfile corruption
}
}
}
@@ -391,10 +849,15 @@ public class RegionFile implements AutoCloseable, ca.spottedleaf.moonrise.patche
}
private ByteBuffer createExternalStub() {
+ // Paper start - add version param
+ return this.createExternalStub(this.version);
+ }
+ private ByteBuffer createExternalStub(RegionFileVersion version) {
+ // Paper end - add version param
ByteBuffer bytebuffer = ByteBuffer.allocate(5);
bytebuffer.putInt(1);
- bytebuffer.put((byte) (this.version.getId() | 128));
+ bytebuffer.put((byte) (version.getId() | 128)); // Paper - replace with version param
((java.nio.Buffer) bytebuffer).flip(); // CraftBukkit - decompile error
return bytebuffer;
}
diff --git a/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileStorage.java b/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileStorage.java
index 2d5c1b91b814316bf9f2f22bcd30adacc8970b01..78922c3e9a69db1774dd846047b79e9523d7cf41 100644
--- a/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileStorage.java
+++ b/src/main/java/net/minecraft/world/level/chunk/storage/RegionFileStorage.java
@@ -196,11 +196,42 @@ public class RegionFileStorage implements AutoCloseable, ca.spottedleaf.moonrise
}
}
// Paper end - rewrite chunk system
+ // Paper start - recalculate region file headers
+ private final boolean isChunkData;
+
+ public static boolean isChunkDataFolder(Path path) {
+ return path.toFile().getName().equalsIgnoreCase("region");
+ }
+
+ @Nullable
+ public static ChunkPos getRegionFileCoordinates(Path file) {
+ String fileName = file.getFileName().toString();
+ if (!fileName.startsWith("r.") || !fileName.endsWith(".mca")) {
+ return null;
+ }
+
+ String[] split = fileName.split("\\.");
+
+ if (split.length != 4) {
+ return null;
+ }
+
+ try {
+ int x = Integer.parseInt(split[1]);
+ int z = Integer.parseInt(split[2]);
+
+ return new ChunkPos(x << 5, z << 5);
+ } catch (NumberFormatException ex) {
+ return null;
+ }
+ }
+ // Paper end
protected RegionFileStorage(RegionStorageInfo storageKey, Path directory, boolean dsync) { // Paper - protected
this.folder = directory;
this.sync = dsync;
this.info = storageKey;
+ this.isChunkData = isChunkDataFolder(this.folder); // Paper - recalculate region file headers
}
// Paper start - rewrite chunk system
@@ -300,6 +331,19 @@ public class RegionFileStorage implements AutoCloseable, ca.spottedleaf.moonrise
try {
if (datainputstream != null) {
nbttagcompound = NbtIo.read((DataInput) datainputstream);
+ // Paper start - recover from corrupt regionfile header
+ if (this.isChunkData) {
+ ChunkPos chunkPos = SerializableChunkData.getChunkCoordinate(nbttagcompound);
+ if (!chunkPos.equals(pos)) {
+ net.minecraft.server.MinecraftServer.LOGGER.error("Attempting to read chunk data at " + pos + " but got chunk data for " + chunkPos + " instead! Attempting regionfile recalculation for regionfile " + regionfile.getPath().toAbsolutePath());
+ if (regionfile.recalculateHeader()) {
+ return this.read(pos);
+ }
+ net.minecraft.server.MinecraftServer.LOGGER.error("Can't recalculate regionfile header, regenerating chunk " + pos + " for " + regionfile.getPath().toAbsolutePath());
+ return null;
+ }
+ }
+ // Paper end - recover from corrupt regionfile header
break label43;
}
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 ef68b57ef1d8d7cb317c417569dd23a777fba4ad..f4a39f49b354c560d614483db1cd3dfc154e94b4 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
@@ -21,7 +21,7 @@ import org.slf4j.Logger;
public class RegionFileVersion {
private static final Logger LOGGER = LogUtils.getLogger();
- private static final Int2ObjectMap<RegionFileVersion> VERSIONS = new Int2ObjectOpenHashMap<>();
+ public static final Int2ObjectMap<RegionFileVersion> VERSIONS = new Int2ObjectOpenHashMap<>(); // Paper - private -> public
private static final Object2ObjectMap<String, RegionFileVersion> VERSIONS_BY_NAME = new Object2ObjectOpenHashMap<>();
public static final RegionFileVersion VERSION_GZIP = register(
new RegionFileVersion(
diff --git a/src/main/java/net/minecraft/world/level/chunk/storage/SerializableChunkData.java b/src/main/java/net/minecraft/world/level/chunk/storage/SerializableChunkData.java
index 0296f52fb2c871adbf2ce73a64d8f77fab826cd7..018b24d7611c3fd11536441431abf8f125850129 100644
--- a/src/main/java/net/minecraft/world/level/chunk/storage/SerializableChunkData.java
+++ b/src/main/java/net/minecraft/world/level/chunk/storage/SerializableChunkData.java
@@ -103,6 +103,18 @@ public record SerializableChunkData(Registry<Biome> biomeRegistry, ChunkPos chun
}
}
// Paper end - guard against serializing mismatching coordinates
+ // Paper start - Attempt to recalculate regionfile header if it is corrupt
+ // TODO: Check on update
+ public static long getLastWorldSaveTime(final CompoundTag chunkData) {
+ final int dataVersion = ChunkStorage.getVersion(chunkData);
+ if (dataVersion < 2842) { // Level tag is removed after this version
+ final CompoundTag levelData = chunkData.getCompound("Level");
+ return levelData.getLong("LastUpdate");
+ } else {
+ return chunkData.getLong("LastUpdate");
+ }
+ }
+ // Paper end - Attempt to recalculate regionfile header if it is corrupt
// Paper start - Do not let the server load chunks from newer versions
private static final int CURRENT_DATA_VERSION = net.minecraft.SharedConstants.getCurrentVersion().getDataVersion().getVersion();
@@ -575,7 +587,7 @@ public record SerializableChunkData(Registry<Biome> biomeRegistry, ChunkPos chun
nbttagcompound.putInt("xPos", this.chunkPos.x);
nbttagcompound.putInt("yPos", this.minSectionY);
nbttagcompound.putInt("zPos", this.chunkPos.z);
- nbttagcompound.putLong("LastUpdate", this.lastUpdateTime);
+ nbttagcompound.putLong("LastUpdate", this.lastUpdateTime); // Paper - Diff on change
nbttagcompound.putLong("InhabitedTime", this.inhabitedTime);
nbttagcompound.putString("Status", BuiltInRegistries.CHUNK_STATUS.getKey(this.chunkStatus).toString());
DataResult<Tag> dataresult; // CraftBukkit - decompile error