HADOOP-16109. Parquet reading S3AFileSystem causes EOF

Nobody gets seek right. No matter how many times they think they have.

Reproducible test from: Dave Christianson
Fixed seek() logic: Steve Loughran
This commit is contained in:
Steve Loughran 2019-03-09 16:00:27 +00:00
parent c072458e5d
commit 0cbe9ad8c2
No known key found for this signature in database
GPG Key ID: D22CF846DBB162A0
3 changed files with 280 additions and 3 deletions

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@ -272,7 +272,7 @@ public void testSeekBigFile() throws Throwable {
describe("Seek round a large file and verify the bytes are what is expected"); describe("Seek round a large file and verify the bytes are what is expected");
Path testSeekFile = path("bigseekfile.txt"); Path testSeekFile = path("bigseekfile.txt");
byte[] block = dataset(100 * 1024, 0, 255); byte[] block = dataset(100 * 1024, 0, 255);
createFile(getFileSystem(), testSeekFile, false, block); createFile(getFileSystem(), testSeekFile, true, block);
instream = getFileSystem().open(testSeekFile); instream = getFileSystem().open(testSeekFile);
assertEquals(0, instream.getPos()); assertEquals(0, instream.getPos());
//expect that seek to 0 works //expect that seek to 0 works
@ -309,7 +309,7 @@ public void testPositionedBulkReadDoesntChangePosition() throws Throwable {
assumeSupportsPositionedReadable(); assumeSupportsPositionedReadable();
Path testSeekFile = path("bigseekfile.txt"); Path testSeekFile = path("bigseekfile.txt");
byte[] block = dataset(65536, 0, 255); byte[] block = dataset(65536, 0, 255);
createFile(getFileSystem(), testSeekFile, false, block); createFile(getFileSystem(), testSeekFile, true, block);
instream = getFileSystem().open(testSeekFile); instream = getFileSystem().open(testSeekFile);
instream.seek(39999); instream.seek(39999);
assertTrue(-1 != instream.read()); assertTrue(-1 != instream.read());

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@ -261,7 +261,7 @@ private void seekInStream(long targetPos, long length) throws IOException {
long forwardSeekLimit = Math.min(remainingInCurrentRequest, long forwardSeekLimit = Math.min(remainingInCurrentRequest,
forwardSeekRange); forwardSeekRange);
boolean skipForward = remainingInCurrentRequest > 0 boolean skipForward = remainingInCurrentRequest > 0
&& diff <= forwardSeekLimit; && diff < forwardSeekLimit;
if (skipForward) { if (skipForward) {
// the forward seek range is within the limits // the forward seek range is within the limits
LOG.debug("Forward seek on {}, of {} bytes", uri, diff); LOG.debug("Forward seek on {}, of {} bytes", uri, diff);
@ -275,6 +275,8 @@ private void seekInStream(long targetPos, long length) throws IOException {
if (pos == targetPos) { if (pos == targetPos) {
// all is well // all is well
LOG.debug("Now at {}: bytes remaining in current request: {}",
pos, remainingInCurrentRequest());
return; return;
} else { } else {
// log a warning; continue to attempt to re-open // log a warning; continue to attempt to re-open

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@ -18,19 +18,82 @@
package org.apache.hadoop.fs.contract.s3a; package org.apache.hadoop.fs.contract.s3a;
import java.io.IOException;
import java.net.URI;
import java.net.URISyntaxException;
import java.util.Arrays;
import java.util.Collection;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.Parameterized;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.hadoop.conf.Configuration; import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.FSDataInputStream;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.fs.contract.AbstractContractSeekTest; import org.apache.hadoop.fs.contract.AbstractContractSeekTest;
import org.apache.hadoop.fs.contract.AbstractFSContract; import org.apache.hadoop.fs.contract.AbstractFSContract;
import org.apache.hadoop.fs.contract.ContractTestUtils;
import org.apache.hadoop.fs.s3a.S3AFileSystem;
import org.apache.hadoop.fs.s3a.S3AInputPolicy;
import org.apache.hadoop.fs.s3a.S3ATestUtils;
import static com.google.common.base.Preconditions.checkNotNull;
import static org.apache.hadoop.fs.s3a.Constants.INPUT_FADVISE;
import static org.apache.hadoop.fs.s3a.Constants.INPUT_FADV_NORMAL;
import static org.apache.hadoop.fs.s3a.Constants.INPUT_FADV_RANDOM;
import static org.apache.hadoop.fs.s3a.Constants.INPUT_FADV_SEQUENTIAL;
import static org.apache.hadoop.fs.s3a.Constants.READAHEAD_RANGE;
import static org.apache.hadoop.fs.s3a.S3ATestConstants.FS_S3A_IMPL_DISABLE_CACHE;
import static org.apache.hadoop.fs.s3a.S3ATestUtils.maybeEnableS3Guard; import static org.apache.hadoop.fs.s3a.S3ATestUtils.maybeEnableS3Guard;
/** /**
* S3A contract tests covering file seek. * S3A contract tests covering file seek.
*/ */
@RunWith(Parameterized.class)
public class ITestS3AContractSeek extends AbstractContractSeekTest { public class ITestS3AContractSeek extends AbstractContractSeekTest {
private static final Logger LOG =
LoggerFactory.getLogger(ITestS3AContractSeek.class);
protected static final int READAHEAD = 1024;
private final String seekPolicy;
public static final int DATASET_LEN = READAHEAD * 2;
public static final byte[] DATASET = ContractTestUtils.dataset(DATASET_LEN, 'a', 32);
/**
* This test suite is parameterized for the different seek policies
* which S3A Supports.
* @return a list of seek policies to test.
*/
@Parameterized.Parameters
public static Collection<Object[]> params() {
return Arrays.asList(new Object[][]{
{INPUT_FADV_RANDOM},
{INPUT_FADV_NORMAL},
{INPUT_FADV_SEQUENTIAL},
});
}
/**
* Run the test with a chosen seek policy.
* @param seekPolicy fadvise policy to use.
*/
public ITestS3AContractSeek(final String seekPolicy) {
this.seekPolicy = seekPolicy;
}
/** /**
* Create a configuration, possibly patching in S3Guard options. * Create a configuration, possibly patching in S3Guard options.
* The FS is set to be uncached and the readahead and seek policies
* of the bucket itself are removed, so as to guarantee that the
* parameterized and test settings are
* @return a configuration * @return a configuration
*/ */
@Override @Override
@ -38,6 +101,19 @@ protected Configuration createConfiguration() {
Configuration conf = super.createConfiguration(); Configuration conf = super.createConfiguration();
// patch in S3Guard options // patch in S3Guard options
maybeEnableS3Guard(conf); maybeEnableS3Guard(conf);
// purge any per-bucket overrides.
try {
URI bucketURI = new URI(checkNotNull(conf.get("fs.contract.test.fs.s3a")));
S3ATestUtils.removeBucketOverrides(bucketURI.getHost(), conf,
READAHEAD_RANGE,
INPUT_FADVISE);
} catch (URISyntaxException e) {
throw new RuntimeException(e);
}
// the FS is uncached, so will need clearing in test teardowns.
S3ATestUtils.disableFilesystemCaching(conf);
conf.setInt(READAHEAD_RANGE, READAHEAD);
conf.set(INPUT_FADVISE, seekPolicy);
return conf; return conf;
} }
@ -45,4 +121,203 @@ protected Configuration createConfiguration() {
protected AbstractFSContract createContract(Configuration conf) { protected AbstractFSContract createContract(Configuration conf) {
return new S3AContract(conf); return new S3AContract(conf);
} }
@Override
public void teardown() throws Exception {
S3AFileSystem fs = getFileSystem();
if (fs.getConf().getBoolean(FS_S3A_IMPL_DISABLE_CACHE, false)) {
fs.close();
}
super.teardown();
}
/**
* This subclass of the {@code path(path)} operation adds the seek policy
* to the end to guarantee uniqueness across different calls of the same
* method.
*
* {@inheritDoc}
*/
@Override
protected Path path(final String filepath) throws IOException {
return super.path(filepath + "-" + seekPolicy);
}
/**
* Go to end, read then seek back to the previous position to force normal
* seek policy to switch to random IO.
* This will call readByte to trigger the second GET
* @param in input stream
* @return the byte read
* @throws IOException failure.
*/
private byte readAtEndAndReturn(final FSDataInputStream in)
throws IOException {
long pos = in.getPos();
in.seek(DATASET_LEN -1);
in.readByte();
// go back to start and force a new GET
in.seek(pos);
return in.readByte();
}
/**
* Assert that the data read matches the dataset at the given offset.
* This helps verify that the seek process is moving the read pointer
* to the correct location in the file.
* @param readOffset the offset in the file where the read began.
* @param operation operation name for the assertion.
* @param data data read in.
* @param length length of data to check.
*/
private void assertDatasetEquals(
final int readOffset, final String operation,
final byte[] data,
int length) {
for (int i = 0; i < length; i++) {
int o = readOffset + i;
assertEquals(operation + " with seek policy " + seekPolicy
+ "and read offset " + readOffset
+ ": data[" + i + "] != DATASET[" + o + "]",
DATASET[o], data[i]);
}
}
@Override
public S3AFileSystem getFileSystem() {
return (S3AFileSystem) super.getFileSystem();
}
@Test
public void testReadPolicyInFS() throws Throwable {
describe("Verify the read policy is being consistently set");
S3AFileSystem fs = getFileSystem();
assertEquals(S3AInputPolicy.getPolicy(seekPolicy), fs.getInputPolicy());
}
/**
* Test for HADOOP-16109: Parquet reading S3AFileSystem causes EOF.
* This sets up a read which will span the active readahead and,
* in random IO mode, a subsequent GET.
*/
@Test
public void testReadAcrossReadahead() throws Throwable {
describe("Sets up a read which will span the active readahead"
+ " and the rest of the file.");
Path path = path("testReadAcrossReadahead");
writeTestDataset(path);
FileSystem fs = getFileSystem();
// forward seek reading across readahead boundary
try (FSDataInputStream in = fs.open(path)) {
final byte[] temp = new byte[5];
in.readByte();
int offset = READAHEAD - 1;
in.readFully(offset, temp); // <-- works
assertDatasetEquals(offset, "read spanning boundary", temp, temp.length);
}
// Read exactly on the the boundary
try (FSDataInputStream in = fs.open(path)) {
final byte[] temp = new byte[5];
readAtEndAndReturn(in);
assertEquals("current position", 1, (int)(in.getPos()));
in.readFully(READAHEAD, temp);
assertDatasetEquals(READAHEAD, "read exactly on boundary",
temp, temp.length);
}
}
/**
* Read across the end of the read buffer using the readByte call,
* which will read a single byte only.
*/
@Test
public void testReadSingleByteAcrossReadahead() throws Throwable {
describe("Read over boundary using read()/readByte() calls.");
Path path = path("testReadSingleByteAcrossReadahead");
writeTestDataset(path);
FileSystem fs = getFileSystem();
try (FSDataInputStream in = fs.open(path)) {
final byte[] b0 = new byte[1];
readAtEndAndReturn(in);
in.seek(READAHEAD - 1);
b0[0] = in.readByte();
assertDatasetEquals(READAHEAD - 1, "read before end of boundary", b0,
b0.length);
b0[0] = in.readByte();
assertDatasetEquals(READAHEAD, "read at end of boundary", b0, b0.length);
b0[0] = in.readByte();
assertDatasetEquals(READAHEAD + 1, "read after end of boundary", b0,
b0.length);
}
}
@Test
public void testSeekToReadaheadAndRead() throws Throwable {
describe("Seek to just before readahead limit and call"
+ " InputStream.read(byte[])");
Path path = path("testSeekToReadaheadAndRead");
FileSystem fs = getFileSystem();
writeTestDataset(path);
try (FSDataInputStream in = fs.open(path)) {
readAtEndAndReturn(in);
final byte[] temp = new byte[5];
int offset = READAHEAD - 1;
in.seek(offset);
// expect to read at least one byte.
int l = in.read(temp);
assertTrue("Reading in temp data", l > 0);
LOG.info("Read of byte array at offset {} returned {} bytes", offset, l);
assertDatasetEquals(offset, "read at end of boundary", temp, l);
}
}
@Test
public void testSeekToReadaheadExactlyAndRead() throws Throwable {
describe("Seek to exactly the readahead limit and call"
+ " InputStream.read(byte[])");
Path path = path("testSeekToReadaheadExactlyAndRead");
FileSystem fs = getFileSystem();
writeTestDataset(path);
try (FSDataInputStream in = fs.open(path)) {
readAtEndAndReturn(in);
final byte[] temp = new byte[5];
int offset = READAHEAD;
in.seek(offset);
// expect to read at least one byte.
int l = in.read(temp);
LOG.info("Read of byte array at offset {} returned {} bytes", offset, l);
assertTrue("Reading in temp data", l > 0);
assertDatasetEquals(offset, "read at end of boundary", temp, l);
}
}
@Test
public void testSeekToReadaheadExactlyAndReadByte() throws Throwable {
describe("Seek to exactly the readahead limit and call"
+ " readByte()");
Path path = path("testSeekToReadaheadExactlyAndReadByte");
FileSystem fs = getFileSystem();
writeTestDataset(path);
try (FSDataInputStream in = fs.open(path)) {
readAtEndAndReturn(in);
final byte[] temp = new byte[1];
int offset = READAHEAD;
in.seek(offset);
// expect to read a byte successfully.
temp[0] = in.readByte();
assertDatasetEquals(READAHEAD, "read at end of boundary", temp, 1);
LOG.info("Read of byte at offset {} returned expected value", offset);
}
}
/**
* Write the standard {@link #DATASET} dataset to the given path.
* @param path path to write to.
* @throws IOException failure
*/
private void writeTestDataset(final Path path) throws IOException {
ContractTestUtils.writeDataset(getFileSystem(), path,
DATASET, DATASET_LEN, READAHEAD, true);
}
} }