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Server functionality for HBase
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hbase.security.access;
import com.google.protobuf.Message;
import com.google.protobuf.RpcCallback;
import com.google.protobuf.RpcController;
import com.google.protobuf.Service;
import java.io.IOException;
import java.security.PrivilegedExceptionAction;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Optional;
import java.util.Set;
import java.util.TreeMap;
import java.util.TreeSet;
import java.util.stream.Collectors;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hbase.ArrayBackedTag;
import org.apache.hadoop.hbase.Cell;
import org.apache.hadoop.hbase.CellScanner;
import org.apache.hadoop.hbase.CellUtil;
import org.apache.hadoop.hbase.CompareOperator;
import org.apache.hadoop.hbase.CompoundConfiguration;
import org.apache.hadoop.hbase.CoprocessorEnvironment;
import org.apache.hadoop.hbase.DoNotRetryIOException;
import org.apache.hadoop.hbase.HBaseInterfaceAudience;
import org.apache.hadoop.hbase.HConstants;
import org.apache.hadoop.hbase.KeyValue;
import org.apache.hadoop.hbase.KeyValue.Type;
import org.apache.hadoop.hbase.NamespaceDescriptor;
import org.apache.hadoop.hbase.PrivateCellUtil;
import org.apache.hadoop.hbase.ServerName;
import org.apache.hadoop.hbase.TableName;
import org.apache.hadoop.hbase.Tag;
import org.apache.hadoop.hbase.client.Admin;
import org.apache.hadoop.hbase.client.Append;
import org.apache.hadoop.hbase.client.BalanceRequest;
import org.apache.hadoop.hbase.client.ColumnFamilyDescriptor;
import org.apache.hadoop.hbase.client.ColumnFamilyDescriptorBuilder;
import org.apache.hadoop.hbase.client.Delete;
import org.apache.hadoop.hbase.client.Durability;
import org.apache.hadoop.hbase.client.Get;
import org.apache.hadoop.hbase.client.Increment;
import org.apache.hadoop.hbase.client.MasterSwitchType;
import org.apache.hadoop.hbase.client.Mutation;
import org.apache.hadoop.hbase.client.Put;
import org.apache.hadoop.hbase.client.Query;
import org.apache.hadoop.hbase.client.RegionInfo;
import org.apache.hadoop.hbase.client.Result;
import org.apache.hadoop.hbase.client.Scan;
import org.apache.hadoop.hbase.client.SnapshotDescription;
import org.apache.hadoop.hbase.client.Table;
import org.apache.hadoop.hbase.client.TableDescriptor;
import org.apache.hadoop.hbase.client.TableDescriptorBuilder;
import org.apache.hadoop.hbase.coprocessor.BulkLoadObserver;
import org.apache.hadoop.hbase.coprocessor.CoprocessorException;
import org.apache.hadoop.hbase.coprocessor.CoreCoprocessor;
import org.apache.hadoop.hbase.coprocessor.EndpointObserver;
import org.apache.hadoop.hbase.coprocessor.HasMasterServices;
import org.apache.hadoop.hbase.coprocessor.HasRegionServerServices;
import org.apache.hadoop.hbase.coprocessor.MasterCoprocessor;
import org.apache.hadoop.hbase.coprocessor.MasterCoprocessorEnvironment;
import org.apache.hadoop.hbase.coprocessor.MasterObserver;
import org.apache.hadoop.hbase.coprocessor.ObserverContext;
import org.apache.hadoop.hbase.coprocessor.RegionCoprocessor;
import org.apache.hadoop.hbase.coprocessor.RegionCoprocessorEnvironment;
import org.apache.hadoop.hbase.coprocessor.RegionObserver;
import org.apache.hadoop.hbase.coprocessor.RegionServerCoprocessor;
import org.apache.hadoop.hbase.coprocessor.RegionServerCoprocessorEnvironment;
import org.apache.hadoop.hbase.coprocessor.RegionServerObserver;
import org.apache.hadoop.hbase.filter.ByteArrayComparable;
import org.apache.hadoop.hbase.filter.Filter;
import org.apache.hadoop.hbase.filter.FilterList;
import org.apache.hadoop.hbase.io.hfile.HFile;
import org.apache.hadoop.hbase.ipc.CoprocessorRpcUtils;
import org.apache.hadoop.hbase.ipc.RpcServer;
import org.apache.hadoop.hbase.master.MasterServices;
import org.apache.hadoop.hbase.protobuf.ProtobufUtil;
import org.apache.hadoop.hbase.protobuf.generated.AccessControlProtos;
import org.apache.hadoop.hbase.protobuf.generated.AccessControlProtos.AccessControlService;
import org.apache.hadoop.hbase.protobuf.generated.AccessControlProtos.HasPermissionRequest;
import org.apache.hadoop.hbase.protobuf.generated.AccessControlProtos.HasPermissionResponse;
import org.apache.hadoop.hbase.quotas.GlobalQuotaSettings;
import org.apache.hadoop.hbase.regionserver.BloomType;
import org.apache.hadoop.hbase.regionserver.FlushLifeCycleTracker;
import org.apache.hadoop.hbase.regionserver.InternalScanner;
import org.apache.hadoop.hbase.regionserver.MiniBatchOperationInProgress;
import org.apache.hadoop.hbase.regionserver.Region;
import org.apache.hadoop.hbase.regionserver.RegionScanner;
import org.apache.hadoop.hbase.regionserver.RegionServerServices;
import org.apache.hadoop.hbase.regionserver.ScanType;
import org.apache.hadoop.hbase.regionserver.ScannerContext;
import org.apache.hadoop.hbase.regionserver.Store;
import org.apache.hadoop.hbase.regionserver.compactions.CompactionLifeCycleTracker;
import org.apache.hadoop.hbase.regionserver.compactions.CompactionRequest;
import org.apache.hadoop.hbase.replication.ReplicationEndpoint;
import org.apache.hadoop.hbase.replication.ReplicationPeerConfig;
import org.apache.hadoop.hbase.security.AccessDeniedException;
import org.apache.hadoop.hbase.security.Superusers;
import org.apache.hadoop.hbase.security.User;
import org.apache.hadoop.hbase.security.UserProvider;
import org.apache.hadoop.hbase.security.access.Permission.Action;
import org.apache.hadoop.hbase.snapshot.SnapshotDescriptionUtils;
import org.apache.hadoop.hbase.util.ByteRange;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.EnvironmentEdgeManager;
import org.apache.hadoop.hbase.util.Pair;
import org.apache.hadoop.hbase.util.SimpleMutableByteRange;
import org.apache.hadoop.hbase.wal.WALEdit;
import org.apache.yetus.audience.InterfaceAudience;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.hbase.thirdparty.com.google.common.collect.ImmutableSet;
import org.apache.hbase.thirdparty.com.google.common.collect.ListMultimap;
import org.apache.hbase.thirdparty.com.google.common.collect.Lists;
import org.apache.hbase.thirdparty.com.google.common.collect.MapMaker;
import org.apache.hbase.thirdparty.com.google.common.collect.Maps;
import org.apache.hadoop.hbase.shaded.protobuf.ResponseConverter;
/**
* Provides basic authorization checks for data access and administrative operations.
*
* {@code AccessController} performs authorization checks for HBase operations based on:
*
*
* - the identity of the user performing the operation
* - the scope over which the operation is performed, in increasing specificity: global, table,
* column family, or qualifier
* - the type of action being performed (as mapped to {@link Permission.Action} values)
*
*
* If the authorization check fails, an {@link AccessDeniedException} will be thrown for the
* operation.
*
*
* To perform authorization checks, {@code AccessController} relies on the RpcServerEngine being
* loaded to provide the user identities for remote requests.
*
*
* The access control lists used for authorization can be manipulated via the exposed
* {@link AccessControlService} Interface implementation, and the associated {@code grant},
* {@code revoke}, and {@code user_permission} HBase shell commands.
*
*/
@CoreCoprocessor
@InterfaceAudience.LimitedPrivate(HBaseInterfaceAudience.CONFIG)
public class AccessController implements MasterCoprocessor, RegionCoprocessor,
RegionServerCoprocessor, AccessControlService.Interface, MasterObserver, RegionObserver,
RegionServerObserver, EndpointObserver, BulkLoadObserver {
// TODO: encapsulate observer functions into separate class/sub-class.
private static final Logger LOG = LoggerFactory.getLogger(AccessController.class);
private static final Logger AUDITLOG =
LoggerFactory.getLogger("SecurityLogger." + AccessController.class.getName());
private static final String CHECK_COVERING_PERM = "check_covering_perm";
private static final String TAG_CHECK_PASSED = "tag_check_passed";
private static final byte[] TRUE = Bytes.toBytes(true);
private AccessChecker accessChecker;
private ZKPermissionWatcher zkPermissionWatcher;
/** flags if we are running on a region of the _acl_ table */
private boolean aclRegion = false;
/**
* defined only for Endpoint implementation, so it can have way to access region services
*/
private RegionCoprocessorEnvironment regionEnv;
/** Mapping of scanner instances to the user who created them */
private Map scannerOwners = new MapMaker().weakKeys().makeMap();
private Map> tableAcls;
/** Provider for mapping principal names to Users */
private UserProvider userProvider;
/**
* if we are active, usually false, only true if "hbase.security.authorization" has been set to
* true in site configuration
*/
private boolean authorizationEnabled;
/** if we are able to support cell ACLs */
private boolean cellFeaturesEnabled;
/** if we should check EXEC permissions */
private boolean shouldCheckExecPermission;
/**
* if we should terminate access checks early as soon as table or CF grants allow access; pre-0.98
* compatible behavior
*/
private boolean compatibleEarlyTermination;
/** if we have been successfully initialized */
private volatile boolean initialized = false;
/** if the ACL table is available, only relevant in the master */
private volatile boolean aclTabAvailable = false;
public static boolean isCellAuthorizationSupported(Configuration conf) {
return AccessChecker.isAuthorizationSupported(conf)
&& (HFile.getFormatVersion(conf) >= HFile.MIN_FORMAT_VERSION_WITH_TAGS);
}
public Region getRegion() {
return regionEnv != null ? regionEnv.getRegion() : null;
}
public AuthManager getAuthManager() {
return accessChecker.getAuthManager();
}
private void initialize(RegionCoprocessorEnvironment e) throws IOException {
final Region region = e.getRegion();
Configuration conf = e.getConfiguration();
Map> tables = PermissionStorage.loadAll(region);
// For each table, write out the table's permissions to the respective
// znode for that table.
for (Map.Entry> t : tables.entrySet()) {
byte[] entry = t.getKey();
ListMultimap perms = t.getValue();
byte[] serialized = PermissionStorage.writePermissionsAsBytes(perms, conf);
zkPermissionWatcher.writeToZookeeper(entry, serialized);
}
initialized = true;
}
/**
* Writes all table ACLs for the tables in the given Map up into ZooKeeper znodes. This is called
* to synchronize ACL changes following {@code _acl_} table updates.
*/
private void updateACL(RegionCoprocessorEnvironment e, final Map> familyMap) {
Set entries = new TreeSet<>(Bytes.BYTES_RAWCOMPARATOR);
for (Map.Entry> f : familyMap.entrySet()) {
List cells = f.getValue();
for (Cell cell : cells) {
if (CellUtil.matchingFamily(cell, PermissionStorage.ACL_LIST_FAMILY)) {
entries.add(CellUtil.cloneRow(cell));
}
}
}
Configuration conf = regionEnv.getConfiguration();
byte[] currentEntry = null;
// TODO: Here we are already on the ACL region. (And it is single
// region) We can even just get the region from the env and do get
// directly. The short circuit connection would avoid the RPC overhead
// so no socket communication, req write/read .. But we have the PB
// to and fro conversion overhead. get req is converted to PB req
// and results are converted to PB results 1st and then to POJOs
// again. We could have avoided such at least in ACL table context..
try (Table t = e.getConnection().getTable(PermissionStorage.ACL_TABLE_NAME)) {
for (byte[] entry : entries) {
currentEntry = entry;
ListMultimap perms =
PermissionStorage.getPermissions(conf, entry, t, null, null, null, false);
byte[] serialized = PermissionStorage.writePermissionsAsBytes(perms, conf);
zkPermissionWatcher.writeToZookeeper(entry, serialized);
}
} catch (IOException ex) {
LOG.error("Failed updating permissions mirror for '"
+ (currentEntry == null ? "null" : Bytes.toString(currentEntry)) + "'", ex);
}
}
/**
* Check the current user for authorization to perform a specific action against the given set of
* row data.
* @param opType the operation type
* @param user the user
* @param e the coprocessor environment
* @param families the map of column families to qualifiers present in the request
* @param actions the desired actions
* @return an authorization result
*/
private AuthResult permissionGranted(OpType opType, User user, RegionCoprocessorEnvironment e,
Map> families, Action... actions) {
AuthResult result = null;
for (Action action : actions) {
result = accessChecker.permissionGranted(opType.toString(), user, action,
e.getRegion().getRegionInfo().getTable(), families);
if (!result.isAllowed()) {
return result;
}
}
return result;
}
public void requireAccess(ObserverContext ctx, String request, TableName tableName,
Action... permissions) throws IOException {
accessChecker.requireAccess(getActiveUser(ctx), request, tableName, permissions);
}
public void requirePermission(ObserverContext ctx, String request, Action perm)
throws IOException {
accessChecker.requirePermission(getActiveUser(ctx), request, null, perm);
}
public void requireGlobalPermission(ObserverContext ctx, String request, Action perm,
TableName tableName, Map> familyMap) throws IOException {
accessChecker.requireGlobalPermission(getActiveUser(ctx), request, perm, tableName, familyMap,
null);
}
public void requireGlobalPermission(ObserverContext ctx, String request, Action perm,
String namespace) throws IOException {
accessChecker.requireGlobalPermission(getActiveUser(ctx), request, perm, namespace);
}
public void requireNamespacePermission(ObserverContext ctx, String request, String namespace,
Action... permissions) throws IOException {
accessChecker.requireNamespacePermission(getActiveUser(ctx), request, namespace, null,
permissions);
}
public void requireNamespacePermission(ObserverContext ctx, String request, String namespace,
TableName tableName, Map> familyMap, Action... permissions)
throws IOException {
accessChecker.requireNamespacePermission(getActiveUser(ctx), request, namespace, tableName,
familyMap, permissions);
}
public void requirePermission(ObserverContext ctx, String request, TableName tableName,
byte[] family, byte[] qualifier, Action... permissions) throws IOException {
accessChecker.requirePermission(getActiveUser(ctx), request, tableName, family, qualifier, null,
permissions);
}
public void requireTablePermission(ObserverContext ctx, String request, TableName tableName,
byte[] family, byte[] qualifier, Action... permissions) throws IOException {
accessChecker.requireTablePermission(getActiveUser(ctx), request, tableName, family, qualifier,
permissions);
}
public void checkLockPermissions(ObserverContext ctx, String namespace, TableName tableName,
RegionInfo[] regionInfos, String reason) throws IOException {
accessChecker.checkLockPermissions(getActiveUser(ctx), namespace, tableName, regionInfos,
reason);
}
/**
* Returns true if the current user is allowed the given action over at least one of
* the column qualifiers in the given column families.
*/
private boolean hasFamilyQualifierPermission(User user, Action perm,
RegionCoprocessorEnvironment env, Map> familyMap)
throws IOException {
RegionInfo hri = env.getRegion().getRegionInfo();
TableName tableName = hri.getTable();
if (user == null) {
return false;
}
if (familyMap != null && familyMap.size() > 0) {
// at least one family must be allowed
for (Map.Entry> family : familyMap.entrySet()) {
if (family.getValue() != null && !family.getValue().isEmpty()) {
for (byte[] qualifier : family.getValue()) {
if (
getAuthManager().authorizeUserTable(user, tableName, family.getKey(), qualifier, perm)
) {
return true;
}
}
} else {
if (getAuthManager().authorizeUserFamily(user, tableName, family.getKey(), perm)) {
return true;
}
}
}
} else if (LOG.isDebugEnabled()) {
LOG.debug("Empty family map passed for permission check");
}
return false;
}
private enum OpType {
GET("get"),
EXISTS("exists"),
SCAN("scan"),
PUT("put"),
DELETE("delete"),
CHECK_AND_PUT("checkAndPut"),
CHECK_AND_DELETE("checkAndDelete"),
APPEND("append"),
INCREMENT("increment");
private String type;
private OpType(String type) {
this.type = type;
}
@Override
public String toString() {
return type;
}
}
/**
* Determine if cell ACLs covered by the operation grant access. This is expensive.
* @return false if cell ACLs failed to grant access, true otherwise
*/
private boolean checkCoveringPermission(User user, OpType request, RegionCoprocessorEnvironment e,
byte[] row, Map> familyMap, long opTs, Action... actions)
throws IOException {
if (!cellFeaturesEnabled) {
return false;
}
long cellGrants = 0;
long latestCellTs = 0;
Get get = new Get(row);
// Only in case of Put/Delete op, consider TS within cell (if set for individual cells).
// When every cell, within a Mutation, can be linked with diff TS we can not rely on only one
// version. We have to get every cell version and check its TS against the TS asked for in
// Mutation and skip those Cells which is outside this Mutation TS.In case of Put, we have to
// consider only one such passing cell. In case of Delete we have to consider all the cell
// versions under this passing version. When Delete Mutation contains columns which are a
// version delete just consider only one version for those column cells.
boolean considerCellTs = (request == OpType.PUT || request == OpType.DELETE);
if (considerCellTs) {
get.setMaxVersions();
} else {
get.setMaxVersions(1);
}
boolean diffCellTsFromOpTs = false;
for (Map.Entry> entry : familyMap.entrySet()) {
byte[] col = entry.getKey();
// TODO: HBASE-7114 could possibly unify the collection type in family
// maps so we would not need to do this
if (entry.getValue() instanceof Set) {
Set set = (Set) entry.getValue();
if (set == null || set.isEmpty()) {
get.addFamily(col);
} else {
for (byte[] qual : set) {
get.addColumn(col, qual);
}
}
} else if (entry.getValue() instanceof List) {
List list = (List) entry.getValue();
if (list == null || list.isEmpty()) {
get.addFamily(col);
} else {
// In case of family delete, a Cell will be added into the list with Qualifier as null.
for (Cell cell : list) {
if (
cell.getQualifierLength() == 0 && (cell.getTypeByte() == Type.DeleteFamily.getCode()
|| cell.getTypeByte() == Type.DeleteFamilyVersion.getCode())
) {
get.addFamily(col);
} else {
get.addColumn(col, CellUtil.cloneQualifier(cell));
}
if (considerCellTs) {
long cellTs = cell.getTimestamp();
latestCellTs = Math.max(latestCellTs, cellTs);
diffCellTsFromOpTs = diffCellTsFromOpTs || (opTs != cellTs);
}
}
}
} else if (entry.getValue() == null) {
get.addFamily(col);
} else {
throw new RuntimeException(
"Unhandled collection type " + entry.getValue().getClass().getName());
}
}
// We want to avoid looking into the future. So, if the cells of the
// operation specify a timestamp, or the operation itself specifies a
// timestamp, then we use the maximum ts found. Otherwise, we bound
// the Get to the current server time. We add 1 to the timerange since
// the upper bound of a timerange is exclusive yet we need to examine
// any cells found there inclusively.
long latestTs = Math.max(opTs, latestCellTs);
if (latestTs == 0 || latestTs == HConstants.LATEST_TIMESTAMP) {
latestTs = EnvironmentEdgeManager.currentTime();
}
get.setTimeRange(0, latestTs + 1);
// In case of Put operation we set to read all versions. This was done to consider the case
// where columns are added with TS other than the Mutation TS. But normally this wont be the
// case with Put. There no need to get all versions but get latest version only.
if (!diffCellTsFromOpTs && request == OpType.PUT) {
get.setMaxVersions(1);
}
if (LOG.isTraceEnabled()) {
LOG.trace("Scanning for cells with " + get);
}
// This Map is identical to familyMap. The key is a BR rather than byte[].
// It will be easy to do gets over this new Map as we can create get keys over the Cell cf by
// new SimpleByteRange(cell.familyArray, cell.familyOffset, cell.familyLen)
Map> familyMap1 = new HashMap<>();
for (Entry> entry : familyMap.entrySet()) {
if (entry.getValue() instanceof List) {
familyMap1.put(new SimpleMutableByteRange(entry.getKey()), (List) entry.getValue());
}
}
RegionScanner scanner = getRegion(e).getScanner(new Scan(get));
List cells = Lists.newArrayList();
Cell prevCell = null;
ByteRange curFam = new SimpleMutableByteRange();
boolean curColAllVersions = (request == OpType.DELETE);
long curColCheckTs = opTs;
boolean foundColumn = false;
try {
boolean more = false;
ScannerContext scannerContext = ScannerContext.newBuilder().setBatchLimit(1).build();
do {
cells.clear();
// scan with limit as 1 to hold down memory use on wide rows
more = scanner.next(cells, scannerContext);
for (Cell cell : cells) {
if (LOG.isTraceEnabled()) {
LOG.trace("Found cell " + cell);
}
boolean colChange = prevCell == null || !CellUtil.matchingColumn(prevCell, cell);
if (colChange) foundColumn = false;
prevCell = cell;
if (!curColAllVersions && foundColumn) {
continue;
}
if (colChange && considerCellTs) {
curFam.set(cell.getFamilyArray(), cell.getFamilyOffset(), cell.getFamilyLength());
List cols = familyMap1.get(curFam);
for (Cell col : cols) {
// null/empty qualifier is used to denote a Family delete. The TS and delete type
// associated with this is applicable for all columns within the family. That is
// why the below (col.getQualifierLength() == 0) check.
if (
(col.getQualifierLength() == 0 && request == OpType.DELETE)
|| CellUtil.matchingQualifier(cell, col)
) {
byte type = col.getTypeByte();
if (considerCellTs) {
curColCheckTs = col.getTimestamp();
}
// For a Delete op we pass allVersions as true. When a Delete Mutation contains
// a version delete for a column no need to check all the covering cells within
// that column. Check all versions when Type is DeleteColumn or DeleteFamily
// One version delete types are Delete/DeleteFamilyVersion
curColAllVersions = (KeyValue.Type.DeleteColumn.getCode() == type)
|| (KeyValue.Type.DeleteFamily.getCode() == type);
break;
}
}
}
if (cell.getTimestamp() > curColCheckTs) {
// Just ignore this cell. This is not a covering cell.
continue;
}
foundColumn = true;
for (Action action : actions) {
// Are there permissions for this user for the cell?
if (!getAuthManager().authorizeCell(user, getTableName(e), cell, action)) {
// We can stop if the cell ACL denies access
return false;
}
}
cellGrants++;
}
} while (more);
} catch (AccessDeniedException ex) {
throw ex;
} catch (IOException ex) {
LOG.error("Exception while getting cells to calculate covering permission", ex);
} finally {
scanner.close();
}
// We should not authorize unless we have found one or more cell ACLs that
// grant access. This code is used to check for additional permissions
// after no table or CF grants are found.
return cellGrants > 0;
}
private static void addCellPermissions(final byte[] perms, Map> familyMap) {
// Iterate over the entries in the familyMap, replacing the cells therein
// with new cells including the ACL data
for (Map.Entry> e : familyMap.entrySet()) {
List newCells = Lists.newArrayList();
for (Cell cell : e.getValue()) {
// Prepend the supplied perms in a new ACL tag to an update list of tags for the cell
List tags = new ArrayList<>();
tags.add(new ArrayBackedTag(PermissionStorage.ACL_TAG_TYPE, perms));
Iterator tagIterator = PrivateCellUtil.tagsIterator(cell);
while (tagIterator.hasNext()) {
tags.add(tagIterator.next());
}
newCells.add(PrivateCellUtil.createCell(cell, tags));
}
// This is supposed to be safe, won't CME
e.setValue(newCells);
}
}
// Checks whether incoming cells contain any tag with type as ACL_TAG_TYPE. This tag
// type is reserved and should not be explicitly set by user.
private void checkForReservedTagPresence(User user, Mutation m) throws IOException {
// No need to check if we're not going to throw
if (!authorizationEnabled) {
m.setAttribute(TAG_CHECK_PASSED, TRUE);
return;
}
// Superusers are allowed to store cells unconditionally.
if (Superusers.isSuperUser(user)) {
m.setAttribute(TAG_CHECK_PASSED, TRUE);
return;
}
// We already checked (prePut vs preBatchMutation)
if (m.getAttribute(TAG_CHECK_PASSED) != null) {
return;
}
for (CellScanner cellScanner = m.cellScanner(); cellScanner.advance();) {
Iterator tagsItr = PrivateCellUtil.tagsIterator(cellScanner.current());
while (tagsItr.hasNext()) {
if (tagsItr.next().getType() == PermissionStorage.ACL_TAG_TYPE) {
throw new AccessDeniedException("Mutation contains cell with reserved type tag");
}
}
}
m.setAttribute(TAG_CHECK_PASSED, TRUE);
}
/* ---- MasterObserver implementation ---- */
@Override
public void start(CoprocessorEnvironment env) throws IOException {
CompoundConfiguration conf = new CompoundConfiguration();
conf.add(env.getConfiguration());
authorizationEnabled = AccessChecker.isAuthorizationSupported(conf);
if (!authorizationEnabled) {
LOG.warn("AccessController has been loaded with authorization checks DISABLED!");
}
shouldCheckExecPermission = conf.getBoolean(AccessControlConstants.EXEC_PERMISSION_CHECKS_KEY,
AccessControlConstants.DEFAULT_EXEC_PERMISSION_CHECKS);
cellFeaturesEnabled = (HFile.getFormatVersion(conf) >= HFile.MIN_FORMAT_VERSION_WITH_TAGS);
if (!cellFeaturesEnabled) {
LOG.info("A minimum HFile version of " + HFile.MIN_FORMAT_VERSION_WITH_TAGS
+ " is required to persist cell ACLs. Consider setting " + HFile.FORMAT_VERSION_KEY
+ " accordingly.");
}
if (env instanceof MasterCoprocessorEnvironment) {
// if running on HMaster
MasterCoprocessorEnvironment mEnv = (MasterCoprocessorEnvironment) env;
if (mEnv instanceof HasMasterServices) {
MasterServices masterServices = ((HasMasterServices) mEnv).getMasterServices();
zkPermissionWatcher = masterServices.getZKPermissionWatcher();
accessChecker = masterServices.getAccessChecker();
}
} else if (env instanceof RegionServerCoprocessorEnvironment) {
RegionServerCoprocessorEnvironment rsEnv = (RegionServerCoprocessorEnvironment) env;
if (rsEnv instanceof HasRegionServerServices) {
RegionServerServices rsServices =
((HasRegionServerServices) rsEnv).getRegionServerServices();
zkPermissionWatcher = rsServices.getZKPermissionWatcher();
accessChecker = rsServices.getAccessChecker();
}
} else if (env instanceof RegionCoprocessorEnvironment) {
// if running at region
regionEnv = (RegionCoprocessorEnvironment) env;
conf.addBytesMap(regionEnv.getRegion().getTableDescriptor().getValues());
compatibleEarlyTermination = conf.getBoolean(AccessControlConstants.CF_ATTRIBUTE_EARLY_OUT,
AccessControlConstants.DEFAULT_ATTRIBUTE_EARLY_OUT);
if (regionEnv instanceof HasRegionServerServices) {
RegionServerServices rsServices =
((HasRegionServerServices) regionEnv).getRegionServerServices();
zkPermissionWatcher = rsServices.getZKPermissionWatcher();
accessChecker = rsServices.getAccessChecker();
}
}
if (zkPermissionWatcher == null) {
throw new NullPointerException("ZKPermissionWatcher is null");
} else if (accessChecker == null) {
throw new NullPointerException("AccessChecker is null");
}
// set the user-provider.
this.userProvider = UserProvider.instantiate(env.getConfiguration());
tableAcls = new MapMaker().weakValues().makeMap();
}
@Override
public void stop(CoprocessorEnvironment env) {
}
/*********************************** Observer/Service Getters ***********************************/
@Override
public Optional getRegionObserver() {
return Optional.of(this);
}
@Override
public Optional getMasterObserver() {
return Optional.of(this);
}
@Override
public Optional getEndpointObserver() {
return Optional.of(this);
}
@Override
public Optional getBulkLoadObserver() {
return Optional.of(this);
}
@Override
public Optional getRegionServerObserver() {
return Optional.of(this);
}
@Override
public Iterable getServices() {
return Collections
.singleton(AccessControlProtos.AccessControlService.newReflectiveService(this));
}
/*********************************** Observer implementations ***********************************/
@Override
public void preCreateTable(ObserverContext c, TableDescriptor desc,
RegionInfo[] regions) throws IOException {
Set families = desc.getColumnFamilyNames();
Map> familyMap = new TreeMap<>(Bytes.BYTES_COMPARATOR);
for (byte[] family : families) {
familyMap.put(family, null);
}
requireNamespacePermission(c, "createTable", desc.getTableName().getNamespaceAsString(),
desc.getTableName(), familyMap, Action.ADMIN, Action.CREATE);
}
@Override
public void postCompletedCreateTableAction(final ObserverContext c,
final TableDescriptor desc, final RegionInfo[] regions) throws IOException {
// When AC is used, it should be configured as the 1st CP.
// In Master, the table operations like create, are handled by a Thread pool but the max size
// for this pool is 1. So if multiple CPs create tables on startup, these creations will happen
// sequentially only.
// Related code in HMaster#startServiceThreads
// {code}
// // We depend on there being only one instance of this executor running
// // at a time. To do concurrency, would need fencing of enable/disable of
// // tables.
// this.service.startExecutorService(ExecutorType.MASTER_TABLE_OPERATIONS, 1);
// {code}
// In future if we change this pool to have more threads, then there is a chance for thread,
// creating acl table, getting delayed and by that time another table creation got over and
// this hook is getting called. In such a case, we will need a wait logic here which will
// wait till the acl table is created.
if (PermissionStorage.isAclTable(desc)) {
this.aclTabAvailable = true;
} else if (!(TableName.NAMESPACE_TABLE_NAME.equals(desc.getTableName()))) {
if (!aclTabAvailable) {
LOG.warn("Not adding owner permission for table " + desc.getTableName() + ". "
+ PermissionStorage.ACL_TABLE_NAME + " is not yet created. " + getClass().getSimpleName()
+ " should be configured as the first Coprocessor");
} else {
String owner = desc.getOwnerString();
// default the table owner to current user, if not specified.
if (owner == null) owner = getActiveUser(c).getShortName();
final UserPermission userPermission = new UserPermission(owner,
Permission.newBuilder(desc.getTableName()).withActions(Action.values()).build());
// switch to the real hbase master user for doing the RPC on the ACL table
User.runAsLoginUser(new PrivilegedExceptionAction() {
@Override
public Void run() throws Exception {
try (Table table =
c.getEnvironment().getConnection().getTable(PermissionStorage.ACL_TABLE_NAME)) {
PermissionStorage.addUserPermission(c.getEnvironment().getConfiguration(),
userPermission, table);
}
return null;
}
});
}
}
}
@Override
public void preDeleteTable(ObserverContext c, TableName tableName)
throws IOException {
requirePermission(c, "deleteTable", tableName, null, null, Action.ADMIN, Action.CREATE);
}
@Override
public void postDeleteTable(ObserverContext c,
final TableName tableName) throws IOException {
final Configuration conf = c.getEnvironment().getConfiguration();
User.runAsLoginUser(new PrivilegedExceptionAction() {
@Override
public Void run() throws Exception {
try (Table table =
c.getEnvironment().getConnection().getTable(PermissionStorage.ACL_TABLE_NAME)) {
PermissionStorage.removeTablePermissions(conf, tableName, table);
}
return null;
}
});
zkPermissionWatcher.deleteTableACLNode(tableName);
}
@Override
public void preTruncateTable(ObserverContext c,
final TableName tableName) throws IOException {
requirePermission(c, "truncateTable", tableName, null, null, Action.ADMIN, Action.CREATE);
final Configuration conf = c.getEnvironment().getConfiguration();
User.runAsLoginUser(new PrivilegedExceptionAction() {
@Override
public Void run() throws Exception {
List acls =
PermissionStorage.getUserTablePermissions(conf, tableName, null, null, null, false);
if (acls != null) {
tableAcls.put(tableName, acls);
}
return null;
}
});
}
@Override
public void postTruncateTable(ObserverContext ctx,
final TableName tableName) throws IOException {
final Configuration conf = ctx.getEnvironment().getConfiguration();
User.runAsLoginUser(new PrivilegedExceptionAction() {
@Override
public Void run() throws Exception {
List perms = tableAcls.get(tableName);
if (perms != null) {
for (UserPermission perm : perms) {
try (Table table =
ctx.getEnvironment().getConnection().getTable(PermissionStorage.ACL_TABLE_NAME)) {
PermissionStorage.addUserPermission(conf, perm, table);
}
}
}
tableAcls.remove(tableName);
return null;
}
});
}
@Override
public TableDescriptor preModifyTable(ObserverContext c,
TableName tableName, TableDescriptor currentDesc, TableDescriptor newDesc) throws IOException {
// TODO: potentially check if this is a add/modify/delete column operation
requirePermission(c, "modifyTable", tableName, null, null, Action.ADMIN, Action.CREATE);
return newDesc;
}
@Override
public void postModifyTable(ObserverContext c, TableName tableName,
final TableDescriptor htd) throws IOException {
final Configuration conf = c.getEnvironment().getConfiguration();
// default the table owner to current user, if not specified.
final String owner =
(htd.getOwnerString() != null) ? htd.getOwnerString() : getActiveUser(c).getShortName();
User.runAsLoginUser(new PrivilegedExceptionAction() {
@Override
public Void run() throws Exception {
UserPermission userperm = new UserPermission(owner,
Permission.newBuilder(htd.getTableName()).withActions(Action.values()).build());
try (Table table =
c.getEnvironment().getConnection().getTable(PermissionStorage.ACL_TABLE_NAME)) {
PermissionStorage.addUserPermission(conf, userperm, table);
}
return null;
}
});
}
public String preModifyTableStoreFileTracker(ObserverContext c,
TableName tableName, String dstSFT) throws IOException {
requirePermission(c, "modifyTableStoreFileTracker", tableName, null, null, Action.ADMIN,
Action.CREATE);
return dstSFT;
}
@Override
public String preModifyColumnFamilyStoreFileTracker(
ObserverContext c, TableName tableName, byte[] family,
String dstSFT) throws IOException {
requirePermission(c, "modifyColumnFamilyStoreFileTracker", tableName, family, null,
Action.ADMIN, Action.CREATE);
return dstSFT;
}
@Override
public void preEnableTable(ObserverContext c, TableName tableName)
throws IOException {
requirePermission(c, "enableTable", tableName, null, null, Action.ADMIN, Action.CREATE);
}
@Override
public void preDisableTable(ObserverContext c, TableName tableName)
throws IOException {
if (Bytes.equals(tableName.getName(), PermissionStorage.ACL_GLOBAL_NAME)) {
// We have to unconditionally disallow disable of the ACL table when we are installed,
// even if not enforcing authorizations. We are still allowing grants and revocations,
// checking permissions and logging audit messages, etc. If the ACL table is not
// available we will fail random actions all over the place.
throw new AccessDeniedException("Not allowed to disable " + PermissionStorage.ACL_TABLE_NAME
+ " table with AccessController installed");
}
requirePermission(c, "disableTable", tableName, null, null, Action.ADMIN, Action.CREATE);
}
@Override
public void preAbortProcedure(ObserverContext ctx,
final long procId) throws IOException {
requirePermission(ctx, "abortProcedure", Action.ADMIN);
}
@Override
public void postAbortProcedure(ObserverContext ctx)
throws IOException {
// There is nothing to do at this time after the procedure abort request was sent.
}
@Override
public void preGetProcedures(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "getProcedure", Action.ADMIN);
}
@Override
public void preGetLocks(ObserverContext ctx) throws IOException {
User user = getActiveUser(ctx);
accessChecker.requirePermission(user, "getLocks", null, Action.ADMIN);
}
@Override
public void preMove(ObserverContext c, RegionInfo region,
ServerName srcServer, ServerName destServer) throws IOException {
requirePermission(c, "move", region.getTable(), null, null, Action.ADMIN);
}
@Override
public void preAssign(ObserverContext c, RegionInfo regionInfo)
throws IOException {
requirePermission(c, "assign", regionInfo.getTable(), null, null, Action.ADMIN);
}
@Override
public void preUnassign(ObserverContext c, RegionInfo regionInfo)
throws IOException {
requirePermission(c, "unassign", regionInfo.getTable(), null, null, Action.ADMIN);
}
@Override
public void preRegionOffline(ObserverContext c,
RegionInfo regionInfo) throws IOException {
requirePermission(c, "regionOffline", regionInfo.getTable(), null, null, Action.ADMIN);
}
@Override
public void preSetSplitOrMergeEnabled(final ObserverContext ctx,
final boolean newValue, final MasterSwitchType switchType) throws IOException {
requirePermission(ctx, "setSplitOrMergeEnabled", Action.ADMIN);
}
@Override
public void preBalance(ObserverContext c, BalanceRequest request)
throws IOException {
requirePermission(c, "balance", Action.ADMIN);
}
@Override
public void preBalanceSwitch(ObserverContext c, boolean newValue)
throws IOException {
requirePermission(c, "balanceSwitch", Action.ADMIN);
}
@Override
public void preShutdown(ObserverContext c) throws IOException {
requirePermission(c, "shutdown", Action.ADMIN);
}
@Override
public void preStopMaster(ObserverContext c) throws IOException {
requirePermission(c, "stopMaster", Action.ADMIN);
}
@Override
public void postStartMaster(ObserverContext ctx)
throws IOException {
try (Admin admin = ctx.getEnvironment().getConnection().getAdmin()) {
if (!admin.tableExists(PermissionStorage.ACL_TABLE_NAME)) {
createACLTable(admin);
} else {
this.aclTabAvailable = true;
}
}
}
/**
* Create the ACL table
*/
private static void createACLTable(Admin admin) throws IOException {
/** Table descriptor for ACL table */
ColumnFamilyDescriptor cfd =
ColumnFamilyDescriptorBuilder.newBuilder(PermissionStorage.ACL_LIST_FAMILY).setMaxVersions(1)
.setInMemory(true).setBlockCacheEnabled(true).setBlocksize(8 * 1024)
.setBloomFilterType(BloomType.NONE).setScope(HConstants.REPLICATION_SCOPE_LOCAL).build();
TableDescriptor td = TableDescriptorBuilder.newBuilder(PermissionStorage.ACL_TABLE_NAME)
.setColumnFamily(cfd).build();
admin.createTable(td);
}
@Override
public void preSnapshot(final ObserverContext ctx,
final SnapshotDescription snapshot, final TableDescriptor hTableDescriptor) throws IOException {
// Move this ACL check to SnapshotManager#checkPermissions as part of AC deprecation.
requirePermission(ctx, "snapshot " + snapshot.getName(), hTableDescriptor.getTableName(), null,
null, Permission.Action.ADMIN);
}
@Override
public void preListSnapshot(ObserverContext ctx,
final SnapshotDescription snapshot) throws IOException {
User user = getActiveUser(ctx);
if (SnapshotDescriptionUtils.isSnapshotOwner(snapshot, user)) {
// list it, if user is the owner of snapshot
AuthResult result = AuthResult.allow("listSnapshot " + snapshot.getName(),
"Snapshot owner check allowed", user, null, null, null);
AccessChecker.logResult(result);
} else {
accessChecker.requirePermission(user, "listSnapshot " + snapshot.getName(), null,
Action.ADMIN);
}
}
@Override
public void preCloneSnapshot(final ObserverContext ctx,
final SnapshotDescription snapshot, final TableDescriptor hTableDescriptor) throws IOException {
User user = getActiveUser(ctx);
if (
SnapshotDescriptionUtils.isSnapshotOwner(snapshot, user)
&& hTableDescriptor.getTableName().getNameAsString().equals(snapshot.getTable())
) {
// Snapshot owner is allowed to create a table with the same name as the snapshot he took
AuthResult result = AuthResult.allow("cloneSnapshot " + snapshot.getName(),
"Snapshot owner check allowed", user, null, hTableDescriptor.getTableName(), null);
AccessChecker.logResult(result);
} else {
accessChecker.requirePermission(user, "cloneSnapshot " + snapshot.getName(), null,
Action.ADMIN);
}
}
@Override
public void preRestoreSnapshot(final ObserverContext ctx,
final SnapshotDescription snapshot, final TableDescriptor hTableDescriptor) throws IOException {
User user = getActiveUser(ctx);
if (SnapshotDescriptionUtils.isSnapshotOwner(snapshot, user)) {
accessChecker.requirePermission(user, "restoreSnapshot " + snapshot.getName(),
hTableDescriptor.getTableName(), null, null, null, Permission.Action.ADMIN);
} else {
accessChecker.requirePermission(user, "restoreSnapshot " + snapshot.getName(), null,
Action.ADMIN);
}
}
@Override
public void preDeleteSnapshot(final ObserverContext ctx,
final SnapshotDescription snapshot) throws IOException {
User user = getActiveUser(ctx);
if (SnapshotDescriptionUtils.isSnapshotOwner(snapshot, user)) {
// Snapshot owner is allowed to delete the snapshot
AuthResult result = AuthResult.allow("deleteSnapshot " + snapshot.getName(),
"Snapshot owner check allowed", user, null, null, null);
AccessChecker.logResult(result);
} else {
accessChecker.requirePermission(user, "deleteSnapshot " + snapshot.getName(), null,
Action.ADMIN);
}
}
@Override
public void preCreateNamespace(ObserverContext ctx,
NamespaceDescriptor ns) throws IOException {
requireGlobalPermission(ctx, "createNamespace", Action.ADMIN, ns.getName());
}
@Override
public void preDeleteNamespace(ObserverContext ctx,
String namespace) throws IOException {
requireGlobalPermission(ctx, "deleteNamespace", Action.ADMIN, namespace);
}
@Override
public void postDeleteNamespace(ObserverContext ctx,
final String namespace) throws IOException {
final Configuration conf = ctx.getEnvironment().getConfiguration();
User.runAsLoginUser(new PrivilegedExceptionAction() {
@Override
public Void run() throws Exception {
try (Table table =
ctx.getEnvironment().getConnection().getTable(PermissionStorage.ACL_TABLE_NAME)) {
PermissionStorage.removeNamespacePermissions(conf, namespace, table);
}
return null;
}
});
zkPermissionWatcher.deleteNamespaceACLNode(namespace);
LOG.info(namespace + " entry deleted in " + PermissionStorage.ACL_TABLE_NAME + " table.");
}
@Override
public void preModifyNamespace(ObserverContext ctx,
NamespaceDescriptor ns) throws IOException {
// We require only global permission so that
// a user with NS admin cannot altering namespace configurations. i.e. namespace quota
requireGlobalPermission(ctx, "modifyNamespace", Action.ADMIN, ns.getName());
}
@Override
public void preGetNamespaceDescriptor(ObserverContext ctx,
String namespace) throws IOException {
requireNamespacePermission(ctx, "getNamespaceDescriptor", namespace, Action.ADMIN);
}
@Override
public void postListNamespaces(ObserverContext ctx,
List namespaces) throws IOException {
/* always allow namespace listing */
}
@Override
public void postListNamespaceDescriptors(ObserverContext ctx,
List descriptors) throws IOException {
// Retains only those which passes authorization checks, as the checks weren't done as part
// of preGetTableDescriptors.
Iterator itr = descriptors.iterator();
User user = getActiveUser(ctx);
while (itr.hasNext()) {
NamespaceDescriptor desc = itr.next();
try {
accessChecker.requireNamespacePermission(user, "listNamespaces", desc.getName(), null,
Action.ADMIN);
} catch (AccessDeniedException e) {
itr.remove();
}
}
}
@Override
public void preTableFlush(final ObserverContext ctx,
final TableName tableName) throws IOException {
// Move this ACL check to MasterFlushTableProcedureManager#checkPermissions as part of AC
// deprecation.
requirePermission(ctx, "flushTable", tableName, null, null, Action.ADMIN, Action.CREATE);
}
@Override
public void preSplitRegion(final ObserverContext ctx,
final TableName tableName, final byte[] splitRow) throws IOException {
requirePermission(ctx, "split", tableName, null, null, Action.ADMIN);
}
@Override
public void preClearDeadServers(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "clearDeadServers", Action.ADMIN);
}
@Override
public void preDecommissionRegionServers(ObserverContext ctx,
List servers, boolean offload) throws IOException {
requirePermission(ctx, "decommissionRegionServers", Action.ADMIN);
}
@Override
public void preListDecommissionedRegionServers(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "listDecommissionedRegionServers", Action.READ);
}
@Override
public void preRecommissionRegionServer(ObserverContext ctx,
ServerName server, List encodedRegionNames) throws IOException {
requirePermission(ctx, "recommissionRegionServers", Action.ADMIN);
}
/* ---- RegionObserver implementation ---- */
@Override
public void preOpen(ObserverContext c) throws IOException {
RegionCoprocessorEnvironment env = c.getEnvironment();
final Region region = env.getRegion();
if (region == null) {
LOG.error("NULL region from RegionCoprocessorEnvironment in preOpen()");
} else {
RegionInfo regionInfo = region.getRegionInfo();
if (regionInfo.getTable().isSystemTable()) {
checkSystemOrSuperUser(getActiveUser(c));
} else {
requirePermission(c, "preOpen", Action.ADMIN);
}
}
}
@Override
public void postOpen(ObserverContext c) {
RegionCoprocessorEnvironment env = c.getEnvironment();
final Region region = env.getRegion();
if (region == null) {
LOG.error("NULL region from RegionCoprocessorEnvironment in postOpen()");
return;
}
if (PermissionStorage.isAclRegion(region)) {
aclRegion = true;
try {
initialize(env);
} catch (IOException ex) {
// if we can't obtain permissions, it's better to fail
// than perform checks incorrectly
throw new RuntimeException("Failed to initialize permissions cache", ex);
}
} else {
initialized = true;
}
}
@Override
public void preFlush(ObserverContext c,
FlushLifeCycleTracker tracker) throws IOException {
requirePermission(c, "flush", getTableName(c.getEnvironment()), null, null, Action.ADMIN,
Action.CREATE);
}
@Override
public InternalScanner preCompact(ObserverContext c, Store store,
InternalScanner scanner, ScanType scanType, CompactionLifeCycleTracker tracker,
CompactionRequest request) throws IOException {
requirePermission(c, "compact", getTableName(c.getEnvironment()), null, null, Action.ADMIN,
Action.CREATE);
return scanner;
}
private void internalPreRead(final ObserverContext c,
final Query query, OpType opType) throws IOException {
Filter filter = query.getFilter();
// Don't wrap an AccessControlFilter
if (filter != null && filter instanceof AccessControlFilter) {
return;
}
User user = getActiveUser(c);
RegionCoprocessorEnvironment env = c.getEnvironment();
Map> families = null;
switch (opType) {
case GET:
case EXISTS:
families = ((Get) query).getFamilyMap();
break;
case SCAN:
families = ((Scan) query).getFamilyMap();
break;
default:
throw new RuntimeException("Unhandled operation " + opType);
}
AuthResult authResult = permissionGranted(opType, user, env, families, Action.READ);
Region region = getRegion(env);
TableName table = getTableName(region);
Map cfVsMaxVersions = Maps.newHashMap();
for (ColumnFamilyDescriptor hcd : region.getTableDescriptor().getColumnFamilies()) {
cfVsMaxVersions.put(new SimpleMutableByteRange(hcd.getName()), hcd.getMaxVersions());
}
if (!authResult.isAllowed()) {
if (!cellFeaturesEnabled || compatibleEarlyTermination) {
// Old behavior: Scan with only qualifier checks if we have partial
// permission. Backwards compatible behavior is to throw an
// AccessDeniedException immediately if there are no grants for table
// or CF or CF+qual. Only proceed with an injected filter if there are
// grants for qualifiers. Otherwise we will fall through below and log
// the result and throw an ADE. We may end up checking qualifier
// grants three times (permissionGranted above, here, and in the
// filter) but that's the price of backwards compatibility.
if (hasFamilyQualifierPermission(user, Action.READ, env, families)) {
authResult.setAllowed(true);
authResult.setReason("Access allowed with filter");
// Only wrap the filter if we are enforcing authorizations
if (authorizationEnabled) {
Filter ourFilter = new AccessControlFilter(getAuthManager(), user, table,
AccessControlFilter.Strategy.CHECK_TABLE_AND_CF_ONLY, cfVsMaxVersions);
// wrap any existing filter
if (filter != null) {
ourFilter = new FilterList(FilterList.Operator.MUST_PASS_ALL,
Lists.newArrayList(ourFilter, filter));
}
switch (opType) {
case GET:
case EXISTS:
((Get) query).setFilter(ourFilter);
break;
case SCAN:
((Scan) query).setFilter(ourFilter);
break;
default:
throw new RuntimeException("Unhandled operation " + opType);
}
}
}
} else {
// New behavior: Any access we might be granted is more fine-grained
// than whole table or CF. Simply inject a filter and return what is
// allowed. We will not throw an AccessDeniedException. This is a
// behavioral change since 0.96.
authResult.setAllowed(true);
authResult.setReason("Access allowed with filter");
// Only wrap the filter if we are enforcing authorizations
if (authorizationEnabled) {
Filter ourFilter = new AccessControlFilter(getAuthManager(), user, table,
AccessControlFilter.Strategy.CHECK_CELL_DEFAULT, cfVsMaxVersions);
// wrap any existing filter
if (filter != null) {
ourFilter = new FilterList(FilterList.Operator.MUST_PASS_ALL,
Lists.newArrayList(ourFilter, filter));
}
switch (opType) {
case GET:
case EXISTS:
((Get) query).setFilter(ourFilter);
break;
case SCAN:
((Scan) query).setFilter(ourFilter);
break;
default:
throw new RuntimeException("Unhandled operation " + opType);
}
}
}
}
AccessChecker.logResult(authResult);
if (authorizationEnabled && !authResult.isAllowed()) {
throw new AccessDeniedException("Insufficient permissions for user '"
+ (user != null ? user.getShortName() : "null") + "' (table=" + table + ", action=READ)");
}
}
@Override
public void preGetOp(final ObserverContext c, final Get get,
final List result) throws IOException {
internalPreRead(c, get, OpType.GET);
}
@Override
public boolean preExists(final ObserverContext c, final Get get,
final boolean exists) throws IOException {
internalPreRead(c, get, OpType.EXISTS);
return exists;
}
@Override
public void prePut(final ObserverContext c, final Put put,
final WALEdit edit, final Durability durability) throws IOException {
User user = getActiveUser(c);
checkForReservedTagPresence(user, put);
// Require WRITE permission to the table, CF, or top visible value, if any.
// NOTE: We don't need to check the permissions for any earlier Puts
// because we treat the ACLs in each Put as timestamped like any other
// HBase value. A new ACL in a new Put applies to that Put. It doesn't
// change the ACL of any previous Put. This allows simple evolution of
// security policy over time without requiring expensive updates.
RegionCoprocessorEnvironment env = c.getEnvironment();
Map> families = put.getFamilyCellMap();
AuthResult authResult = permissionGranted(OpType.PUT, user, env, families, Action.WRITE);
AccessChecker.logResult(authResult);
if (!authResult.isAllowed()) {
if (cellFeaturesEnabled && !compatibleEarlyTermination) {
put.setAttribute(CHECK_COVERING_PERM, TRUE);
} else if (authorizationEnabled) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
// Add cell ACLs from the operation to the cells themselves
byte[] bytes = put.getAttribute(AccessControlConstants.OP_ATTRIBUTE_ACL);
if (bytes != null) {
if (cellFeaturesEnabled) {
addCellPermissions(bytes, put.getFamilyCellMap());
} else {
throw new DoNotRetryIOException("Cell ACLs cannot be persisted");
}
}
}
@Override
public void postPut(final ObserverContext c, final Put put,
final WALEdit edit, final Durability durability) {
if (aclRegion) {
updateACL(c.getEnvironment(), put.getFamilyCellMap());
}
}
@Override
public void preDelete(final ObserverContext c, final Delete delete,
final WALEdit edit, final Durability durability) throws IOException {
// An ACL on a delete is useless, we shouldn't allow it
if (delete.getAttribute(AccessControlConstants.OP_ATTRIBUTE_ACL) != null) {
throw new DoNotRetryIOException("ACL on delete has no effect: " + delete.toString());
}
// Require WRITE permissions on all cells covered by the delete. Unlike
// for Puts we need to check all visible prior versions, because a major
// compaction could remove them. If the user doesn't have permission to
// overwrite any of the visible versions ('visible' defined as not covered
// by a tombstone already) then we have to disallow this operation.
RegionCoprocessorEnvironment env = c.getEnvironment();
Map> families = delete.getFamilyCellMap();
User user = getActiveUser(c);
AuthResult authResult = permissionGranted(OpType.DELETE, user, env, families, Action.WRITE);
AccessChecker.logResult(authResult);
if (!authResult.isAllowed()) {
if (cellFeaturesEnabled && !compatibleEarlyTermination) {
delete.setAttribute(CHECK_COVERING_PERM, TRUE);
} else if (authorizationEnabled) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
}
@Override
public void preBatchMutate(ObserverContext c,
MiniBatchOperationInProgress miniBatchOp) throws IOException {
if (cellFeaturesEnabled && !compatibleEarlyTermination) {
TableName table = c.getEnvironment().getRegion().getRegionInfo().getTable();
User user = getActiveUser(c);
for (int i = 0; i < miniBatchOp.size(); i++) {
Mutation m = miniBatchOp.getOperation(i);
if (m.getAttribute(CHECK_COVERING_PERM) != null) {
// We have a failure with table, cf and q perm checks and now giving a chance for cell
// perm check
OpType opType;
long timestamp;
if (m instanceof Put) {
checkForReservedTagPresence(user, m);
opType = OpType.PUT;
timestamp = m.getTimestamp();
} else if (m instanceof Delete) {
opType = OpType.DELETE;
timestamp = m.getTimestamp();
} else if (m instanceof Increment) {
opType = OpType.INCREMENT;
timestamp = ((Increment) m).getTimeRange().getMax();
} else if (m instanceof Append) {
opType = OpType.APPEND;
timestamp = ((Append) m).getTimeRange().getMax();
} else {
// If the operation type is not Put/Delete/Increment/Append, do nothing
continue;
}
AuthResult authResult = null;
if (
checkCoveringPermission(user, opType, c.getEnvironment(), m.getRow(),
m.getFamilyCellMap(), timestamp, Action.WRITE)
) {
authResult = AuthResult.allow(opType.toString(), "Covering cell set", user,
Action.WRITE, table, m.getFamilyCellMap());
} else {
authResult = AuthResult.deny(opType.toString(), "Covering cell set", user, Action.WRITE,
table, m.getFamilyCellMap());
}
AccessChecker.logResult(authResult);
if (authorizationEnabled && !authResult.isAllowed()) {
throw new AccessDeniedException(
"Insufficient permissions " + authResult.toContextString());
}
}
}
}
}
@Override
public void postDelete(final ObserverContext c, final Delete delete,
final WALEdit edit, final Durability durability) throws IOException {
if (aclRegion) {
updateACL(c.getEnvironment(), delete.getFamilyCellMap());
}
}
@Override
public boolean preCheckAndPut(final ObserverContext c,
final byte[] row, final byte[] family, final byte[] qualifier, final CompareOperator op,
final ByteArrayComparable comparator, final Put put, final boolean result) throws IOException {
User user = getActiveUser(c);
checkForReservedTagPresence(user, put);
// Require READ and WRITE permissions on the table, CF, and KV to update
RegionCoprocessorEnvironment env = c.getEnvironment();
Map> families = makeFamilyMap(family, qualifier);
AuthResult authResult =
permissionGranted(OpType.CHECK_AND_PUT, user, env, families, Action.READ, Action.WRITE);
AccessChecker.logResult(authResult);
if (!authResult.isAllowed()) {
if (cellFeaturesEnabled && !compatibleEarlyTermination) {
put.setAttribute(CHECK_COVERING_PERM, TRUE);
} else if (authorizationEnabled) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
byte[] bytes = put.getAttribute(AccessControlConstants.OP_ATTRIBUTE_ACL);
if (bytes != null) {
if (cellFeaturesEnabled) {
addCellPermissions(bytes, put.getFamilyCellMap());
} else {
throw new DoNotRetryIOException("Cell ACLs cannot be persisted");
}
}
return result;
}
@Override
public boolean preCheckAndPutAfterRowLock(final ObserverContext c,
final byte[] row, final byte[] family, final byte[] qualifier, final CompareOperator opp,
final ByteArrayComparable comparator, final Put put, final boolean result) throws IOException {
if (put.getAttribute(CHECK_COVERING_PERM) != null) {
// We had failure with table, cf and q perm checks and now giving a chance for cell
// perm check
TableName table = c.getEnvironment().getRegion().getRegionInfo().getTable();
Map> families = makeFamilyMap(family, qualifier);
AuthResult authResult = null;
User user = getActiveUser(c);
if (
checkCoveringPermission(user, OpType.CHECK_AND_PUT, c.getEnvironment(), row, families,
HConstants.LATEST_TIMESTAMP, Action.READ)
) {
authResult = AuthResult.allow(OpType.CHECK_AND_PUT.toString(), "Covering cell set", user,
Action.READ, table, families);
} else {
authResult = AuthResult.deny(OpType.CHECK_AND_PUT.toString(), "Covering cell set", user,
Action.READ, table, families);
}
AccessChecker.logResult(authResult);
if (authorizationEnabled && !authResult.isAllowed()) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
return result;
}
@Override
public boolean preCheckAndDelete(final ObserverContext c,
final byte[] row, final byte[] family, final byte[] qualifier, final CompareOperator op,
final ByteArrayComparable comparator, final Delete delete, final boolean result)
throws IOException {
// An ACL on a delete is useless, we shouldn't allow it
if (delete.getAttribute(AccessControlConstants.OP_ATTRIBUTE_ACL) != null) {
throw new DoNotRetryIOException("ACL on checkAndDelete has no effect: " + delete.toString());
}
// Require READ and WRITE permissions on the table, CF, and the KV covered
// by the delete
RegionCoprocessorEnvironment env = c.getEnvironment();
Map> families = makeFamilyMap(family, qualifier);
User user = getActiveUser(c);
AuthResult authResult =
permissionGranted(OpType.CHECK_AND_DELETE, user, env, families, Action.READ, Action.WRITE);
AccessChecker.logResult(authResult);
if (!authResult.isAllowed()) {
if (cellFeaturesEnabled && !compatibleEarlyTermination) {
delete.setAttribute(CHECK_COVERING_PERM, TRUE);
} else if (authorizationEnabled) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
return result;
}
@Override
public boolean preCheckAndDeleteAfterRowLock(
final ObserverContext c, final byte[] row, final byte[] family,
final byte[] qualifier, final CompareOperator op, final ByteArrayComparable comparator,
final Delete delete, final boolean result) throws IOException {
if (delete.getAttribute(CHECK_COVERING_PERM) != null) {
// We had failure with table, cf and q perm checks and now giving a chance for cell
// perm check
TableName table = c.getEnvironment().getRegion().getRegionInfo().getTable();
Map> families = makeFamilyMap(family, qualifier);
AuthResult authResult = null;
User user = getActiveUser(c);
if (
checkCoveringPermission(user, OpType.CHECK_AND_DELETE, c.getEnvironment(), row, families,
HConstants.LATEST_TIMESTAMP, Action.READ)
) {
authResult = AuthResult.allow(OpType.CHECK_AND_DELETE.toString(), "Covering cell set", user,
Action.READ, table, families);
} else {
authResult = AuthResult.deny(OpType.CHECK_AND_DELETE.toString(), "Covering cell set", user,
Action.READ, table, families);
}
AccessChecker.logResult(authResult);
if (authorizationEnabled && !authResult.isAllowed()) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
return result;
}
@Override
public Result preAppend(ObserverContext c, Append append)
throws IOException {
User user = getActiveUser(c);
checkForReservedTagPresence(user, append);
// Require WRITE permission to the table, CF, and the KV to be appended
RegionCoprocessorEnvironment env = c.getEnvironment();
Map> families = append.getFamilyCellMap();
AuthResult authResult = permissionGranted(OpType.APPEND, user, env, families, Action.WRITE);
AccessChecker.logResult(authResult);
if (!authResult.isAllowed()) {
if (cellFeaturesEnabled && !compatibleEarlyTermination) {
append.setAttribute(CHECK_COVERING_PERM, TRUE);
} else if (authorizationEnabled) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
byte[] bytes = append.getAttribute(AccessControlConstants.OP_ATTRIBUTE_ACL);
if (bytes != null) {
if (cellFeaturesEnabled) {
addCellPermissions(bytes, append.getFamilyCellMap());
} else {
throw new DoNotRetryIOException("Cell ACLs cannot be persisted");
}
}
return null;
}
@Override
public Result preIncrement(final ObserverContext c,
final Increment increment) throws IOException {
User user = getActiveUser(c);
checkForReservedTagPresence(user, increment);
// Require WRITE permission to the table, CF, and the KV to be replaced by
// the incremented value
RegionCoprocessorEnvironment env = c.getEnvironment();
Map> families = increment.getFamilyCellMap();
AuthResult authResult = permissionGranted(OpType.INCREMENT, user, env, families, Action.WRITE);
AccessChecker.logResult(authResult);
if (!authResult.isAllowed()) {
if (cellFeaturesEnabled && !compatibleEarlyTermination) {
increment.setAttribute(CHECK_COVERING_PERM, TRUE);
} else if (authorizationEnabled) {
throw new AccessDeniedException("Insufficient permissions " + authResult.toContextString());
}
}
byte[] bytes = increment.getAttribute(AccessControlConstants.OP_ATTRIBUTE_ACL);
if (bytes != null) {
if (cellFeaturesEnabled) {
addCellPermissions(bytes, increment.getFamilyCellMap());
} else {
throw new DoNotRetryIOException("Cell ACLs cannot be persisted");
}
}
return null;
}
@Override
public List> postIncrementBeforeWAL(
ObserverContext ctx, Mutation mutation,
List> cellPairs) throws IOException {
// If the HFile version is insufficient to persist tags, we won't have any
// work to do here
if (!cellFeaturesEnabled || mutation.getACL() == null) {
return cellPairs;
}
return cellPairs.stream()
.map(pair -> new Pair<>(pair.getFirst(),
createNewCellWithTags(mutation, pair.getFirst(), pair.getSecond())))
.collect(Collectors.toList());
}
@Override
public List> postAppendBeforeWAL(
ObserverContext ctx, Mutation mutation,
List> cellPairs) throws IOException {
// If the HFile version is insufficient to persist tags, we won't have any
// work to do here
if (!cellFeaturesEnabled || mutation.getACL() == null) {
return cellPairs;
}
return cellPairs.stream()
.map(pair -> new Pair<>(pair.getFirst(),
createNewCellWithTags(mutation, pair.getFirst(), pair.getSecond())))
.collect(Collectors.toList());
}
private Cell createNewCellWithTags(Mutation mutation, Cell oldCell, Cell newCell) {
// As Increment and Append operations have already copied the tags of oldCell to the newCell,
// there is no need to rewrite them again. Just extract non-acl tags of newCell if we need to
// add a new acl tag for the cell. Actually, oldCell is useless here.
List tags = Lists.newArrayList();
if (newCell != null) {
Iterator tagIterator = PrivateCellUtil.tagsIterator(newCell);
while (tagIterator.hasNext()) {
Tag tag = tagIterator.next();
if (tag.getType() != PermissionStorage.ACL_TAG_TYPE) {
// Not an ACL tag, just carry it through
if (LOG.isTraceEnabled()) {
LOG.trace("Carrying forward tag from " + newCell + ": type " + tag.getType()
+ " length " + tag.getValueLength());
}
tags.add(tag);
}
}
}
// We have checked the ACL tag of mutation is not null.
// So that the tags could not be empty.
tags.add(new ArrayBackedTag(PermissionStorage.ACL_TAG_TYPE, mutation.getACL()));
return PrivateCellUtil.createCell(newCell, tags);
}
@Override
public void preScannerOpen(final ObserverContext c, final Scan scan)
throws IOException {
internalPreRead(c, scan, OpType.SCAN);
}
@Override
public RegionScanner postScannerOpen(final ObserverContext c,
final Scan scan, final RegionScanner s) throws IOException {
User user = getActiveUser(c);
if (user != null && user.getShortName() != null) {
// store reference to scanner owner for later checks
scannerOwners.put(s, user.getShortName());
}
return s;
}
@Override
public boolean preScannerNext(final ObserverContext c,
final InternalScanner s, final List result, final int limit, final boolean hasNext)
throws IOException {
requireScannerOwner(s);
return hasNext;
}
@Override
public void preScannerClose(final ObserverContext c,
final InternalScanner s) throws IOException {
requireScannerOwner(s);
}
@Override
public void postScannerClose(final ObserverContext c,
final InternalScanner s) throws IOException {
// clean up any associated owner mapping
scannerOwners.remove(s);
}
/**
* Verify, when servicing an RPC, that the caller is the scanner owner. If so, we assume that
* access control is correctly enforced based on the checks performed in preScannerOpen()
*/
private void requireScannerOwner(InternalScanner s) throws AccessDeniedException {
if (!RpcServer.isInRpcCallContext()) {
return;
}
String requestUserName = RpcServer.getRequestUserName().orElse(null);
String owner = scannerOwners.get(s);
if (authorizationEnabled && owner != null && !owner.equals(requestUserName)) {
throw new AccessDeniedException("User '" + requestUserName + "' is not the scanner owner!");
}
}
/**
* Verifies user has CREATE or ADMIN privileges on the Column Families involved in the
* bulkLoadHFile request. Specific Column Write privileges are presently ignored.
*/
@Override
public void preBulkLoadHFile(ObserverContext ctx,
List> familyPaths) throws IOException {
User user = getActiveUser(ctx);
for (Pair el : familyPaths) {
accessChecker.requirePermission(user, "preBulkLoadHFile",
ctx.getEnvironment().getRegion().getTableDescriptor().getTableName(), el.getFirst(), null,
null, Action.ADMIN, Action.CREATE);
}
}
/**
* Authorization check for SecureBulkLoadProtocol.prepareBulkLoad()
* @param ctx the context
*/
@Override
public void prePrepareBulkLoad(ObserverContext ctx)
throws IOException {
requireAccess(ctx, "prePrepareBulkLoad",
ctx.getEnvironment().getRegion().getTableDescriptor().getTableName(), Action.ADMIN,
Action.CREATE);
}
/**
* Authorization security check for SecureBulkLoadProtocol.cleanupBulkLoad()
* @param ctx the context
*/
@Override
public void preCleanupBulkLoad(ObserverContext ctx)
throws IOException {
requireAccess(ctx, "preCleanupBulkLoad",
ctx.getEnvironment().getRegion().getTableDescriptor().getTableName(), Action.ADMIN,
Action.CREATE);
}
/* ---- EndpointObserver implementation ---- */
@Override
public Message preEndpointInvocation(ObserverContext ctx,
Service service, String methodName, Message request) throws IOException {
// Don't intercept calls to our own AccessControlService, we check for
// appropriate permissions in the service handlers
if (shouldCheckExecPermission && !(service instanceof AccessControlService)) {
requirePermission(ctx,
"invoke(" + service.getDescriptorForType().getName() + "." + methodName + ")",
getTableName(ctx.getEnvironment()), null, null, Action.EXEC);
}
return request;
}
@Override
public void postEndpointInvocation(ObserverContext ctx,
Service service, String methodName, Message request, Message.Builder responseBuilder)
throws IOException {
}
/* ---- Protobuf AccessControlService implementation ---- */
/**
* @deprecated since 2.2.0 and will be removed in 4.0.0. Use
* {@link Admin#grant(UserPermission, boolean)} instead.
* @see Admin#grant(UserPermission, boolean)
* @see HBASE-21739
*/
@Deprecated
@Override
public void grant(RpcController controller, AccessControlProtos.GrantRequest request,
RpcCallback done) {
final UserPermission perm = AccessControlUtil.toUserPermission(request.getUserPermission());
AccessControlProtos.GrantResponse response = null;
try {
// verify it's only running at .acl.
if (aclRegion) {
if (!initialized) {
throw new CoprocessorException("AccessController not yet initialized");
}
User caller = RpcServer.getRequestUser().orElse(null);
if (LOG.isDebugEnabled()) {
LOG.debug("Received request from {} to grant access permission {}", caller.getName(),
perm.toString());
}
preGrantOrRevoke(caller, "grant", perm);
// regionEnv is set at #start. Hopefully not null at this point.
regionEnv.getConnection().getAdmin().grant(
new UserPermission(perm.getUser(), perm.getPermission()),
request.getMergeExistingPermissions());
if (AUDITLOG.isTraceEnabled()) {
// audit log should store permission changes in addition to auth results
AUDITLOG.trace("Granted permission " + perm.toString());
}
} else {
throw new CoprocessorException(AccessController.class,
"This method " + "can only execute at " + PermissionStorage.ACL_TABLE_NAME + " table.");
}
response = AccessControlProtos.GrantResponse.getDefaultInstance();
} catch (IOException ioe) {
// pass exception back up
CoprocessorRpcUtils.setControllerException(controller, ioe);
}
done.run(response);
}
/**
* @deprecated since 2.2.0 and will be removed in 4.0.0. Use {@link Admin#revoke(UserPermission)}
* instead.
* @see Admin#revoke(UserPermission)
* @see HBASE-21739
*/
@Deprecated
@Override
public void revoke(RpcController controller, AccessControlProtos.RevokeRequest request,
RpcCallback done) {
final UserPermission perm = AccessControlUtil.toUserPermission(request.getUserPermission());
AccessControlProtos.RevokeResponse response = null;
try {
// only allowed to be called on _acl_ region
if (aclRegion) {
if (!initialized) {
throw new CoprocessorException("AccessController not yet initialized");
}
User caller = RpcServer.getRequestUser().orElse(null);
if (LOG.isDebugEnabled()) {
LOG.debug("Received request from {} to revoke access permission {}",
caller.getShortName(), perm.toString());
}
preGrantOrRevoke(caller, "revoke", perm);
// regionEnv is set at #start. Hopefully not null here.
regionEnv.getConnection().getAdmin()
.revoke(new UserPermission(perm.getUser(), perm.getPermission()));
if (AUDITLOG.isTraceEnabled()) {
// audit log should record all permission changes
AUDITLOG.trace("Revoked permission " + perm.toString());
}
} else {
throw new CoprocessorException(AccessController.class,
"This method " + "can only execute at " + PermissionStorage.ACL_TABLE_NAME + " table.");
}
response = AccessControlProtos.RevokeResponse.getDefaultInstance();
} catch (IOException ioe) {
// pass exception back up
CoprocessorRpcUtils.setControllerException(controller, ioe);
}
done.run(response);
}
/**
* @deprecated since 2.2.0 and will be removed in 4.0.0. Use
* {@link Admin#getUserPermissions(GetUserPermissionsRequest)} instead.
* @see Admin#getUserPermissions(GetUserPermissionsRequest)
* @see HBASE-21911
*/
@Deprecated
@Override
public void getUserPermissions(RpcController controller,
AccessControlProtos.GetUserPermissionsRequest request,
RpcCallback done) {
AccessControlProtos.GetUserPermissionsResponse response = null;
try {
// only allowed to be called on _acl_ region
if (aclRegion) {
if (!initialized) {
throw new CoprocessorException("AccessController not yet initialized");
}
User caller = RpcServer.getRequestUser().orElse(null);
final String userName = request.hasUserName() ? request.getUserName().toStringUtf8() : null;
final String namespace =
request.hasNamespaceName() ? request.getNamespaceName().toStringUtf8() : null;
final TableName table =
request.hasTableName() ? ProtobufUtil.toTableName(request.getTableName()) : null;
final byte[] cf =
request.hasColumnFamily() ? request.getColumnFamily().toByteArray() : null;
final byte[] cq =
request.hasColumnQualifier() ? request.getColumnQualifier().toByteArray() : null;
preGetUserPermissions(caller, userName, namespace, table, cf, cq);
GetUserPermissionsRequest getUserPermissionsRequest = null;
if (request.getType() == AccessControlProtos.Permission.Type.Table) {
getUserPermissionsRequest = GetUserPermissionsRequest.newBuilder(table).withFamily(cf)
.withQualifier(cq).withUserName(userName).build();
} else if (request.getType() == AccessControlProtos.Permission.Type.Namespace) {
getUserPermissionsRequest =
GetUserPermissionsRequest.newBuilder(namespace).withUserName(userName).build();
} else {
getUserPermissionsRequest =
GetUserPermissionsRequest.newBuilder().withUserName(userName).build();
}
List perms =
regionEnv.getConnection().getAdmin().getUserPermissions(getUserPermissionsRequest);
response = AccessControlUtil.buildGetUserPermissionsResponse(perms);
} else {
throw new CoprocessorException(AccessController.class,
"This method " + "can only execute at " + PermissionStorage.ACL_TABLE_NAME + " table.");
}
} catch (IOException ioe) {
// pass exception back up
CoprocessorRpcUtils.setControllerException(controller, ioe);
}
done.run(response);
}
/**
* @deprecated since 2.2.0 and will be removed 4.0.0. Use {@link Admin#hasUserPermissions(List)}
* instead.
* @see Admin#hasUserPermissions(List)
* @see HBASE-22117
*/
@Deprecated
@Override
public void checkPermissions(RpcController controller,
AccessControlProtos.CheckPermissionsRequest request,
RpcCallback done) {
AccessControlProtos.CheckPermissionsResponse response = null;
try {
User user = RpcServer.getRequestUser().orElse(null);
TableName tableName = regionEnv.getRegion().getTableDescriptor().getTableName();
List permissions = new ArrayList<>();
for (int i = 0; i < request.getPermissionCount(); i++) {
Permission permission = AccessControlUtil.toPermission(request.getPermission(i));
permissions.add(permission);
if (permission instanceof TablePermission) {
TablePermission tperm = (TablePermission) permission;
if (!tperm.getTableName().equals(tableName)) {
throw new CoprocessorException(AccessController.class,
String.format(
"This method can only execute at the table specified in "
+ "TablePermission. Table of the region:%s , requested table:%s",
tableName, tperm.getTableName()));
}
}
}
for (Permission permission : permissions) {
boolean hasPermission =
accessChecker.hasUserPermission(user, "checkPermissions", permission);
if (!hasPermission) {
throw new AccessDeniedException("Insufficient permissions " + permission.toString());
}
}
response = AccessControlProtos.CheckPermissionsResponse.getDefaultInstance();
} catch (IOException ioe) {
CoprocessorRpcUtils.setControllerException(controller, ioe);
}
done.run(response);
}
private Region getRegion(RegionCoprocessorEnvironment e) {
return e.getRegion();
}
private TableName getTableName(RegionCoprocessorEnvironment e) {
Region region = e.getRegion();
if (region != null) {
return getTableName(region);
}
return null;
}
private TableName getTableName(Region region) {
RegionInfo regionInfo = region.getRegionInfo();
if (regionInfo != null) {
return regionInfo.getTable();
}
return null;
}
@Override
public void preClose(ObserverContext c, boolean abortRequested)
throws IOException {
requirePermission(c, "preClose", Action.ADMIN);
}
private void checkSystemOrSuperUser(User activeUser) throws IOException {
// No need to check if we're not going to throw
if (!authorizationEnabled) {
return;
}
if (!Superusers.isSuperUser(activeUser)) {
throw new AccessDeniedException(
"User '" + (activeUser != null ? activeUser.getShortName() : "null")
+ "' is not system or super user.");
}
}
@Override
public void preStopRegionServer(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "preStopRegionServer", Action.ADMIN);
}
private Map> makeFamilyMap(byte[] family, byte[] qualifier) {
if (family == null) {
return null;
}
Map> familyMap = new TreeMap<>(Bytes.BYTES_COMPARATOR);
familyMap.put(family, qualifier != null ? ImmutableSet.of(qualifier) : null);
return familyMap;
}
@Override
public void preGetTableDescriptors(ObserverContext ctx,
List tableNamesList, List descriptors, String regex)
throws IOException {
// We are delegating the authorization check to postGetTableDescriptors as we don't have
// any concrete set of table names when a regex is present or the full list is requested.
if (regex == null && tableNamesList != null && !tableNamesList.isEmpty()) {
// Otherwise, if the requestor has ADMIN or CREATE privs for all listed tables, the
// request can be granted.
TableName[] sns = null;
try (Admin admin = ctx.getEnvironment().getConnection().getAdmin()) {
sns = admin.listTableNames();
if (sns == null) return;
for (TableName tableName : tableNamesList) {
// Skip checks for a table that does not exist
if (!admin.tableExists(tableName)) continue;
requirePermission(ctx, "getTableDescriptors", tableName, null, null, Action.ADMIN,
Action.CREATE);
}
}
}
}
@Override
public void postGetTableDescriptors(ObserverContext ctx,
List tableNamesList, List descriptors, String regex)
throws IOException {
// Skipping as checks in this case are already done by preGetTableDescriptors.
if (regex == null && tableNamesList != null && !tableNamesList.isEmpty()) {
return;
}
// Retains only those which passes authorization checks, as the checks weren't done as part
// of preGetTableDescriptors.
Iterator itr = descriptors.iterator();
while (itr.hasNext()) {
TableDescriptor htd = itr.next();
try {
requirePermission(ctx, "getTableDescriptors", htd.getTableName(), null, null, Action.ADMIN,
Action.CREATE);
} catch (AccessDeniedException e) {
itr.remove();
}
}
}
@Override
public void postGetTableNames(ObserverContext ctx,
List descriptors, String regex) throws IOException {
// Retains only those which passes authorization checks.
Iterator itr = descriptors.iterator();
while (itr.hasNext()) {
TableDescriptor htd = itr.next();
try {
requireAccess(ctx, "getTableNames", htd.getTableName(), Action.values());
} catch (AccessDeniedException e) {
itr.remove();
}
}
}
@Override
public void preMergeRegions(final ObserverContext ctx,
final RegionInfo[] regionsToMerge) throws IOException {
requirePermission(ctx, "mergeRegions", regionsToMerge[0].getTable(), null, null, Action.ADMIN);
}
@Override
public void preRollWALWriterRequest(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "preRollLogWriterRequest", Permission.Action.ADMIN);
}
@Override
public void postRollWALWriterRequest(ObserverContext ctx)
throws IOException {
}
@Override
public void preSetUserQuota(final ObserverContext ctx,
final String userName, final GlobalQuotaSettings quotas) throws IOException {
requirePermission(ctx, "setUserQuota", Action.ADMIN);
}
@Override
public void preSetUserQuota(final ObserverContext ctx,
final String userName, final TableName tableName, final GlobalQuotaSettings quotas)
throws IOException {
requirePermission(ctx, "setUserTableQuota", tableName, null, null, Action.ADMIN);
}
@Override
public void preSetUserQuota(final ObserverContext ctx,
final String userName, final String namespace, final GlobalQuotaSettings quotas)
throws IOException {
requirePermission(ctx, "setUserNamespaceQuota", Action.ADMIN);
}
@Override
public void preSetTableQuota(final ObserverContext ctx,
final TableName tableName, final GlobalQuotaSettings quotas) throws IOException {
requirePermission(ctx, "setTableQuota", tableName, null, null, Action.ADMIN);
}
@Override
public void preSetNamespaceQuota(final ObserverContext ctx,
final String namespace, final GlobalQuotaSettings quotas) throws IOException {
requirePermission(ctx, "setNamespaceQuota", Action.ADMIN);
}
@Override
public void preSetRegionServerQuota(ObserverContext ctx,
final String regionServer, GlobalQuotaSettings quotas) throws IOException {
requirePermission(ctx, "setRegionServerQuota", Action.ADMIN);
}
@Override
public ReplicationEndpoint postCreateReplicationEndPoint(
ObserverContext ctx, ReplicationEndpoint endpoint) {
return endpoint;
}
@Override
public void preReplicateLogEntries(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "replicateLogEntries", Action.WRITE);
}
@Override
public void preClearCompactionQueues(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "preClearCompactionQueues", Permission.Action.ADMIN);
}
@Override
public void preAddReplicationPeer(final ObserverContext ctx,
String peerId, ReplicationPeerConfig peerConfig) throws IOException {
requirePermission(ctx, "addReplicationPeer", Action.ADMIN);
}
@Override
public void preRemoveReplicationPeer(final ObserverContext ctx,
String peerId) throws IOException {
requirePermission(ctx, "removeReplicationPeer", Action.ADMIN);
}
@Override
public void preEnableReplicationPeer(final ObserverContext ctx,
String peerId) throws IOException {
requirePermission(ctx, "enableReplicationPeer", Action.ADMIN);
}
@Override
public void preDisableReplicationPeer(final ObserverContext ctx,
String peerId) throws IOException {
requirePermission(ctx, "disableReplicationPeer", Action.ADMIN);
}
@Override
public void preGetReplicationPeerConfig(final ObserverContext ctx,
String peerId) throws IOException {
requirePermission(ctx, "getReplicationPeerConfig", Action.ADMIN);
}
@Override
public void preUpdateReplicationPeerConfig(
final ObserverContext ctx, String peerId,
ReplicationPeerConfig peerConfig) throws IOException {
requirePermission(ctx, "updateReplicationPeerConfig", Action.ADMIN);
}
@Override
public void preListReplicationPeers(final ObserverContext ctx,
String regex) throws IOException {
requirePermission(ctx, "listReplicationPeers", Action.ADMIN);
}
@Override
public void preRequestLock(ObserverContext ctx, String namespace,
TableName tableName, RegionInfo[] regionInfos, String description) throws IOException {
// There are operations in the CREATE and ADMIN domain which may require lock, READ
// or WRITE. So for any lock request, we check for these two perms irrespective of lock type.
String reason = String.format("Description=%s", description);
checkLockPermissions(ctx, namespace, tableName, regionInfos, reason);
}
@Override
public void preLockHeartbeat(ObserverContext ctx,
TableName tableName, String description) throws IOException {
checkLockPermissions(ctx, null, tableName, null, description);
}
@Override
public void preExecuteProcedures(ObserverContext ctx)
throws IOException {
checkSystemOrSuperUser(getActiveUser(ctx));
}
@Override
public void preSwitchRpcThrottle(ObserverContext ctx,
boolean enable) throws IOException {
requirePermission(ctx, "switchRpcThrottle", Action.ADMIN);
}
@Override
public void preIsRpcThrottleEnabled(ObserverContext ctx)
throws IOException {
requirePermission(ctx, "isRpcThrottleEnabled", Action.ADMIN);
}
@Override
public void preSwitchExceedThrottleQuota(ObserverContext ctx,
boolean enable) throws IOException {
requirePermission(ctx, "switchExceedThrottleQuota", Action.ADMIN);
}
/**
* Returns the active user to which authorization checks should be applied. If we are in the
* context of an RPC call, the remote user is used, otherwise the currently logged in user is
* used.
*/
private User getActiveUser(ObserverContext ctx) throws IOException {
// for non-rpc handling, fallback to system user
Optional optionalUser = ctx.getCaller();
if (optionalUser.isPresent()) {
return optionalUser.get();
}
return userProvider.getCurrent();
}
/**
* @deprecated since 2.2.0 and will be removed in 4.0.0. Use
* {@link Admin#hasUserPermissions(String, List)} instead.
* @see Admin#hasUserPermissions(String, List)
* @see HBASE-22117
*/
@Deprecated
@Override
public void hasPermission(RpcController controller, HasPermissionRequest request,
RpcCallback done) {
// Converts proto to a TablePermission object.
TablePermission tPerm = AccessControlUtil.toTablePermission(request.getTablePermission());
// Check input user name
if (!request.hasUserName()) {
throw new IllegalStateException("Input username cannot be empty");
}
final String inputUserName = request.getUserName().toStringUtf8();
AccessControlProtos.HasPermissionResponse response = null;
try {
User caller = RpcServer.getRequestUser().orElse(null);
List permissions = Lists.newArrayList(tPerm);
preHasUserPermissions(caller, inputUserName, permissions);
boolean hasPermission =
regionEnv.getConnection().getAdmin().hasUserPermissions(inputUserName, permissions).get(0);
response = ResponseConverter.buildHasPermissionResponse(hasPermission);
} catch (IOException ioe) {
ResponseConverter.setControllerException(controller, ioe);
}
done.run(response);
}
@Override
public void preGrant(ObserverContext ctx,
UserPermission userPermission, boolean mergeExistingPermissions) throws IOException {
preGrantOrRevoke(getActiveUser(ctx), "grant", userPermission);
}
@Override
public void preRevoke(ObserverContext ctx,
UserPermission userPermission) throws IOException {
preGrantOrRevoke(getActiveUser(ctx), "revoke", userPermission);
}
private void preGrantOrRevoke(User caller, String request, UserPermission userPermission)
throws IOException {
switch (userPermission.getPermission().scope) {
case GLOBAL:
accessChecker.requireGlobalPermission(caller, request, Action.ADMIN, "");
break;
case NAMESPACE:
NamespacePermission namespacePerm = (NamespacePermission) userPermission.getPermission();
accessChecker.requireNamespacePermission(caller, request, namespacePerm.getNamespace(),
null, Action.ADMIN);
break;
case TABLE:
TablePermission tablePerm = (TablePermission) userPermission.getPermission();
accessChecker.requirePermission(caller, request, tablePerm.getTableName(),
tablePerm.getFamily(), tablePerm.getQualifier(), null, Action.ADMIN);
break;
default:
}
if (!Superusers.isSuperUser(caller)) {
accessChecker.performOnSuperuser(request, caller, userPermission.getUser());
}
}
@Override
public void preGetUserPermissions(ObserverContext ctx,
String userName, String namespace, TableName tableName, byte[] family, byte[] qualifier)
throws IOException {
preGetUserPermissions(getActiveUser(ctx), userName, namespace, tableName, family, qualifier);
}
private void preGetUserPermissions(User caller, String userName, String namespace,
TableName tableName, byte[] family, byte[] qualifier) throws IOException {
if (tableName != null) {
accessChecker.requirePermission(caller, "getUserPermissions", tableName, family, qualifier,
userName, Action.ADMIN);
} else if (namespace != null) {
accessChecker.requireNamespacePermission(caller, "getUserPermissions", namespace, userName,
Action.ADMIN);
} else {
accessChecker.requirePermission(caller, "getUserPermissions", userName, Action.ADMIN);
}
}
@Override
public void preHasUserPermissions(ObserverContext ctx,
String userName, List permissions) throws IOException {
preHasUserPermissions(getActiveUser(ctx), userName, permissions);
}
private void preHasUserPermissions(User caller, String userName, List permissions)
throws IOException {
String request = "hasUserPermissions";
for (Permission permission : permissions) {
if (!caller.getShortName().equals(userName)) {
// User should have admin privilege if checking permission for other users
if (permission instanceof TablePermission) {
TablePermission tPerm = (TablePermission) permission;
accessChecker.requirePermission(caller, request, tPerm.getTableName(), tPerm.getFamily(),
tPerm.getQualifier(), userName, Action.ADMIN);
} else if (permission instanceof NamespacePermission) {
NamespacePermission nsPerm = (NamespacePermission) permission;
accessChecker.requireNamespacePermission(caller, request, nsPerm.getNamespace(), userName,
Action.ADMIN);
} else {
accessChecker.requirePermission(caller, request, userName, Action.ADMIN);
}
} else {
// User don't need ADMIN privilege for self check.
// Setting action as null in AuthResult to display empty action in audit log
AuthResult result;
if (permission instanceof TablePermission) {
TablePermission tPerm = (TablePermission) permission;
result = AuthResult.allow(request, "Self user validation allowed", caller, null,
tPerm.getTableName(), tPerm.getFamily(), tPerm.getQualifier());
} else if (permission instanceof NamespacePermission) {
NamespacePermission nsPerm = (NamespacePermission) permission;
result = AuthResult.allow(request, "Self user validation allowed", caller, null,
nsPerm.getNamespace());
} else {
result = AuthResult.allow(request, "Self user validation allowed", caller, null, null,
null, null);
}
AccessChecker.logResult(result);
}
}
}
}
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