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org.apache.cassandra.auth.CassandraRoleManager Maven / Gradle / Ivy
/*
* 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.cassandra.auth;
import java.util.*;
import java.util.concurrent.Callable;
import java.util.concurrent.TimeUnit;
import com.google.common.base.*;
import com.google.common.base.Objects;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import org.apache.commons.lang3.StringUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import org.apache.cassandra.concurrent.ScheduledExecutors;
import org.apache.cassandra.config.Config;
import org.apache.cassandra.config.DatabaseDescriptor;
import org.apache.cassandra.config.Schema;
import org.apache.cassandra.config.SchemaConstants;
import org.apache.cassandra.cql3.*;
import org.apache.cassandra.cql3.statements.SelectStatement;
import org.apache.cassandra.db.ConsistencyLevel;
import org.apache.cassandra.db.marshal.UTF8Type;
import org.apache.cassandra.exceptions.*;
import org.apache.cassandra.net.MessagingService;
import org.apache.cassandra.service.ClientState;
import org.apache.cassandra.service.QueryState;
import org.apache.cassandra.service.StorageService;
import org.apache.cassandra.transport.messages.ResultMessage;
import org.apache.cassandra.utils.ByteBufferUtil;
import org.mindrot.jbcrypt.BCrypt;
/**
* Responsible for the creation, maintenance and deletion of roles
* for the purposes of authentication and authorization.
* Role data is stored internally, using the roles and role_members tables
* in the system_auth keyspace.
*
* Additionally, if org.apache.cassandra.auth.PasswordAuthenticator is used,
* encrypted passwords are also stored in the system_auth.roles table. This
* coupling between the IAuthenticator and IRoleManager implementations exists
* because setting a role's password via CQL is done with a CREATE ROLE or
* ALTER ROLE statement, the processing of which is handled by IRoleManager.
* As IAuthenticator is concerned only with credentials checking and has no
* means to modify passwords, PasswordAuthenticator depends on
* CassandraRoleManager for those functions.
*
* Alternative IAuthenticator implementations may be used in conjunction with
* CassandraRoleManager, but WITH PASSWORD = 'password' will not be supported
* in CREATE/ALTER ROLE statements.
*
* Such a configuration could be implemented using a custom IRoleManager that
* extends CassandraRoleManager and which includes Option.PASSWORD in the {@code Set}
* returned from supportedOptions/alterableOptions. Any additional processing
* of the password itself (such as storing it in an alternative location) would
* be added in overridden createRole and alterRole implementations.
*/
public class CassandraRoleManager implements IRoleManager
{
private static final Logger logger = LoggerFactory.getLogger(CassandraRoleManager.class);
static final String DEFAULT_SUPERUSER_NAME = "cassandra";
static final String DEFAULT_SUPERUSER_PASSWORD = "cassandra";
// Transform a row in the AuthKeyspace.ROLES to a Role instance
private static final Function ROW_TO_ROLE = new Function()
{
public Role apply(UntypedResultSet.Row row)
{
try
{
return new Role(row.getString("role"),
row.getBoolean("is_superuser"),
row.getBoolean("can_login"),
row.has("member_of") ? row.getSet("member_of", UTF8Type.instance)
: Collections.emptySet());
}
// Failing to deserialize a boolean in is_superuser or can_login will throw an NPE
catch (NullPointerException e)
{
logger.warn("An invalid value has been detected in the {} table for role {}. If you are " +
"unable to login, you may need to disable authentication and confirm " +
"that values in that table are accurate", AuthKeyspace.ROLES, row.getString("role"));
throw new RuntimeException(String.format("Invalid metadata has been detected for role %s", row.getString("role")), e);
}
}
};
public static final String LEGACY_USERS_TABLE = "users";
// Transform a row in the legacy system_auth.users table to a Role instance,
// used to fallback to previous schema on a mixed cluster during an upgrade
private static final Function LEGACY_ROW_TO_ROLE = new Function()
{
public Role apply(UntypedResultSet.Row row)
{
return new Role(row.getString("name"),
row.getBoolean("super"),
true,
Collections.emptySet());
}
};
// 2 ** GENSALT_LOG2_ROUNDS rounds of hashing will be performed.
private static final String GENSALT_LOG2_ROUNDS_PROPERTY = Config.PROPERTY_PREFIX + "auth_bcrypt_gensalt_log2_rounds";
private static final int GENSALT_LOG2_ROUNDS = getGensaltLogRounds();
static int getGensaltLogRounds()
{
int rounds = Integer.getInteger(GENSALT_LOG2_ROUNDS_PROPERTY, 10);
if (rounds < 4 || rounds > 31)
throw new ConfigurationException(String.format("Bad value for system property -D%s." +
"Please use a value between 4 and 31 inclusively",
GENSALT_LOG2_ROUNDS_PROPERTY));
return rounds;
}
// NullObject returned when a supplied role name not found in AuthKeyspace.ROLES
private static final Role NULL_ROLE = new Role(null, false, false, Collections.emptySet());
private SelectStatement loadRoleStatement;
private SelectStatement legacySelectUserStatement;
private final Set supportedOptions;
private final Set alterableOptions;
// Will be set to true when all nodes in the cluster are on a version which supports roles (i.e. 2.2+)
private volatile boolean isClusterReady = false;
public CassandraRoleManager()
{
supportedOptions = DatabaseDescriptor.getAuthenticator().getClass() == PasswordAuthenticator.class
? ImmutableSet.of(Option.LOGIN, Option.SUPERUSER, Option.PASSWORD)
: ImmutableSet.of(Option.LOGIN, Option.SUPERUSER);
alterableOptions = DatabaseDescriptor.getAuthenticator().getClass().equals(PasswordAuthenticator.class)
? ImmutableSet.of(Option.PASSWORD)
: ImmutableSet. of();
}
public void setup()
{
loadRoleStatement = (SelectStatement) prepare("SELECT * from %s.%s WHERE role = ?",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES);
// If the old users table exists, we may need to migrate the legacy authn
// data to the new table. We also need to prepare a statement to read from
// it, so we can continue to use the old tables while the cluster is upgraded.
// Otherwise, we may need to create a default superuser role to enable others
// to be added.
if (Schema.instance.getCFMetaData(SchemaConstants.AUTH_KEYSPACE_NAME, "users") != null)
{
legacySelectUserStatement = prepareLegacySelectUserStatement();
scheduleSetupTask(() -> {
convertLegacyData();
return null;
});
}
else
{
scheduleSetupTask(() -> {
setupDefaultRole();
return null;
});
}
}
public Set supportedOptions()
{
return supportedOptions;
}
public Set alterableOptions()
{
return alterableOptions;
}
public void createRole(AuthenticatedUser performer, RoleResource role, RoleOptions options)
throws RequestValidationException, RequestExecutionException
{
String insertCql = options.getPassword().isPresent()
? String.format("INSERT INTO %s.%s (role, is_superuser, can_login, salted_hash) VALUES ('%s', %s, %s, '%s')",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES,
escape(role.getRoleName()),
options.getSuperuser().or(false),
options.getLogin().or(false),
escape(hashpw(options.getPassword().get())))
: String.format("INSERT INTO %s.%s (role, is_superuser, can_login) VALUES ('%s', %s, %s)",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES,
escape(role.getRoleName()),
options.getSuperuser().or(false),
options.getLogin().or(false));
process(insertCql, consistencyForRole(role.getRoleName()));
}
public void dropRole(AuthenticatedUser performer, RoleResource role) throws RequestValidationException, RequestExecutionException
{
process(String.format("DELETE FROM %s.%s WHERE role = '%s'",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES,
escape(role.getRoleName())),
consistencyForRole(role.getRoleName()));
removeAllMembers(role.getRoleName());
}
public void alterRole(AuthenticatedUser performer, RoleResource role, RoleOptions options)
{
// Unlike most of the other data access methods here, this does not use a
// prepared statement in order to allow the set of assignments to be variable.
String assignments = Joiner.on(',').join(Iterables.filter(optionsToAssignments(options.getOptions()),
Predicates.notNull()));
if (!Strings.isNullOrEmpty(assignments))
{
process(String.format("UPDATE %s.%s SET %s WHERE role = '%s'",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES,
assignments,
escape(role.getRoleName())),
consistencyForRole(role.getRoleName()));
}
}
public void grantRole(AuthenticatedUser performer, RoleResource role, RoleResource grantee)
throws RequestValidationException, RequestExecutionException
{
if (getRoles(grantee, true).contains(role))
throw new InvalidRequestException(String.format("%s is a member of %s",
grantee.getRoleName(),
role.getRoleName()));
if (getRoles(role, true).contains(grantee))
throw new InvalidRequestException(String.format("%s is a member of %s",
role.getRoleName(),
grantee.getRoleName()));
modifyRoleMembership(grantee.getRoleName(), role.getRoleName(), "+");
process(String.format("INSERT INTO %s.%s (role, member) values ('%s', '%s')",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLE_MEMBERS,
escape(role.getRoleName()),
escape(grantee.getRoleName())),
consistencyForRole(role.getRoleName()));
}
public void revokeRole(AuthenticatedUser performer, RoleResource role, RoleResource revokee)
throws RequestValidationException, RequestExecutionException
{
if (!getRoles(revokee, false).contains(role))
throw new InvalidRequestException(String.format("%s is not a member of %s",
revokee.getRoleName(),
role.getRoleName()));
modifyRoleMembership(revokee.getRoleName(), role.getRoleName(), "-");
process(String.format("DELETE FROM %s.%s WHERE role = '%s' and member = '%s'",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLE_MEMBERS,
escape(role.getRoleName()),
escape(revokee.getRoleName())),
consistencyForRole(role.getRoleName()));
}
public Set getRoles(RoleResource grantee, boolean includeInherited) throws RequestValidationException, RequestExecutionException
{
Set roles = new HashSet<>();
Role role = getRole(grantee.getRoleName());
if (!role.equals(NULL_ROLE))
{
roles.add(RoleResource.role(role.name));
collectRoles(role, roles, includeInherited);
}
return roles;
}
public Set getAllRoles() throws RequestValidationException, RequestExecutionException
{
UntypedResultSet rows = process(String.format("SELECT role from %s.%s", SchemaConstants.AUTH_KEYSPACE_NAME, AuthKeyspace.ROLES), ConsistencyLevel.QUORUM);
Iterable roles = Iterables.transform(rows, new Function()
{
public RoleResource apply(UntypedResultSet.Row row)
{
return RoleResource.role(row.getString("role"));
}
});
return ImmutableSet.builder().addAll(roles).build();
}
public boolean isSuper(RoleResource role)
{
return getRole(role.getRoleName()).isSuper;
}
public boolean canLogin(RoleResource role)
{
return getRole(role.getRoleName()).canLogin;
}
public Map getCustomOptions(RoleResource role)
{
return Collections.emptyMap();
}
public boolean isExistingRole(RoleResource role)
{
return getRole(role.getRoleName()) != NULL_ROLE;
}
public Set extends IResource> protectedResources()
{
return ImmutableSet.of(DataResource.table(SchemaConstants.AUTH_KEYSPACE_NAME, AuthKeyspace.ROLES),
DataResource.table(SchemaConstants.AUTH_KEYSPACE_NAME, AuthKeyspace.ROLE_MEMBERS));
}
public void validateConfiguration() throws ConfigurationException
{
}
/*
* Create the default superuser role to bootstrap role creation on a clean system. Preemptively
* gives the role the default password so PasswordAuthenticator can be used to log in (if
* configured)
*/
private static void setupDefaultRole()
{
if (StorageService.instance.getTokenMetadata().sortedTokens().isEmpty())
throw new IllegalStateException("CassandraRoleManager skipped default role setup: no known tokens in ring");
try
{
if (!hasExistingRoles())
{
QueryProcessor.process(String.format("INSERT INTO %s.%s (role, is_superuser, can_login, salted_hash) " +
"VALUES ('%s', true, true, '%s')",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES,
DEFAULT_SUPERUSER_NAME,
escape(hashpw(DEFAULT_SUPERUSER_PASSWORD))),
consistencyForRole(DEFAULT_SUPERUSER_NAME));
logger.info("Created default superuser role '{}'", DEFAULT_SUPERUSER_NAME);
}
}
catch (RequestExecutionException e)
{
logger.warn("CassandraRoleManager skipped default role setup: some nodes were not ready");
throw e;
}
}
private static boolean hasExistingRoles() throws RequestExecutionException
{
// Try looking up the 'cassandra' default role first, to avoid the range query if possible.
String defaultSUQuery = String.format("SELECT * FROM %s.%s WHERE role = '%s'", SchemaConstants.AUTH_KEYSPACE_NAME, AuthKeyspace.ROLES, DEFAULT_SUPERUSER_NAME);
String allUsersQuery = String.format("SELECT * FROM %s.%s LIMIT 1", SchemaConstants.AUTH_KEYSPACE_NAME, AuthKeyspace.ROLES);
return !QueryProcessor.process(defaultSUQuery, ConsistencyLevel.ONE).isEmpty()
|| !QueryProcessor.process(defaultSUQuery, ConsistencyLevel.QUORUM).isEmpty()
|| !QueryProcessor.process(allUsersQuery, ConsistencyLevel.QUORUM).isEmpty();
}
private void scheduleSetupTask(final Callable setupTask)
{
// The delay is to give the node a chance to see its peers before attempting the operation
ScheduledExecutors.optionalTasks.schedule(new Runnable()
{
public void run()
{
// If not all nodes are on 2.2, we don't want to initialize the role manager as this will confuse 2.1
// nodes (see CASSANDRA-9761 for details). So we re-schedule the setup for later, hoping that the upgrade
// will be finished by then.
if (!MessagingService.instance().areAllNodesAtLeast22())
{
logger.trace("Not all nodes are upgraded to a version that supports Roles yet, rescheduling setup task");
scheduleSetupTask(setupTask);
return;
}
isClusterReady = true;
try
{
setupTask.call();
}
catch (Exception e)
{
logger.info("Setup task failed with error, rescheduling");
scheduleSetupTask(setupTask);
}
}
}, AuthKeyspace.SUPERUSER_SETUP_DELAY, TimeUnit.MILLISECONDS);
}
/*
* Copy legacy auth data from the system_auth.users & system_auth.credentials tables to
* the new system_auth.roles table. This setup is not performed if AllowAllAuthenticator
* is configured (see Auth#setup).
*/
private void convertLegacyData() throws Exception
{
try
{
// read old data at QUORUM as it may contain the data for the default superuser
if (Schema.instance.getCFMetaData("system_auth", "users") != null)
{
logger.info("Converting legacy users");
UntypedResultSet users = QueryProcessor.process("SELECT * FROM system_auth.users",
ConsistencyLevel.QUORUM);
for (UntypedResultSet.Row row : users)
{
RoleOptions options = new RoleOptions();
options.setOption(Option.SUPERUSER, row.getBoolean("super"));
options.setOption(Option.LOGIN, true);
createRole(null, RoleResource.role(row.getString("name")), options);
}
logger.info("Completed conversion of legacy users");
}
if (Schema.instance.getCFMetaData("system_auth", "credentials") != null)
{
logger.info("Migrating legacy credentials data to new system table");
UntypedResultSet credentials = QueryProcessor.process("SELECT * FROM system_auth.credentials",
ConsistencyLevel.QUORUM);
for (UntypedResultSet.Row row : credentials)
{
// Write the password directly into the table to avoid doubly encrypting it
QueryProcessor.process(String.format("UPDATE %s.%s SET salted_hash = '%s' WHERE role = '%s'",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES,
row.getString("salted_hash"),
row.getString("username")),
consistencyForRole(row.getString("username")));
}
logger.info("Completed conversion of legacy credentials");
}
}
catch (Exception e)
{
logger.info("Unable to complete conversion of legacy auth data (perhaps not enough nodes are upgraded yet). " +
"Conversion should not be considered complete");
logger.trace("Conversion error", e);
throw e;
}
}
private SelectStatement prepareLegacySelectUserStatement()
{
return (SelectStatement) prepare("SELECT * FROM %s.%s WHERE name = ?",
SchemaConstants.AUTH_KEYSPACE_NAME,
LEGACY_USERS_TABLE);
}
private CQLStatement prepare(String template, String keyspace, String table)
{
try
{
return QueryProcessor.parseStatement(String.format(template, keyspace, table)).prepare(ClientState.forInternalCalls()).statement;
}
catch (RequestValidationException e)
{
throw new AssertionError(e); // not supposed to happen
}
}
/*
* Retrieve all roles granted to the given role. includeInherited specifies
* whether to include only those roles granted directly or all inherited roles.
*/
private void collectRoles(Role role, Set collected, boolean includeInherited) throws RequestValidationException, RequestExecutionException
{
for (String memberOf : role.memberOf)
{
Role granted = getRole(memberOf);
if (granted.equals(NULL_ROLE))
continue;
collected.add(RoleResource.role(granted.name));
if (includeInherited)
collectRoles(granted, collected, true);
}
}
/*
* Get a single Role instance given the role name. This never returns null, instead it
* uses the null object NULL_ROLE when a role with the given name cannot be found. So
* it's always safe to call methods on the returned object without risk of NPE.
*/
private Role getRole(String name)
{
try
{
// If it exists, try the legacy users table in case the cluster
// is in the process of being upgraded and so is running with mixed
// versions of the authn schema.
if (Schema.instance.getCFMetaData(SchemaConstants.AUTH_KEYSPACE_NAME, "users") == null)
return getRoleFromTable(name, loadRoleStatement, ROW_TO_ROLE);
else
{
if (legacySelectUserStatement == null)
legacySelectUserStatement = prepareLegacySelectUserStatement();
return getRoleFromTable(name, legacySelectUserStatement, LEGACY_ROW_TO_ROLE);
}
}
catch (RequestExecutionException | RequestValidationException e)
{
throw new RuntimeException(e);
}
}
private Role getRoleFromTable(String name, SelectStatement statement, Function function)
throws RequestExecutionException, RequestValidationException
{
ResultMessage.Rows rows =
statement.execute(QueryState.forInternalCalls(),
QueryOptions.forInternalCalls(consistencyForRole(name),
Collections.singletonList(ByteBufferUtil.bytes(name))),
System.nanoTime());
if (rows.result.isEmpty())
return NULL_ROLE;
return function.apply(UntypedResultSet.create(rows.result).one());
}
/*
* Adds or removes a role name from the membership list of an entry in the roles table table
* (adds if op is "+", removes if op is "-")
*/
private void modifyRoleMembership(String grantee, String role, String op)
throws RequestExecutionException
{
process(String.format("UPDATE %s.%s SET member_of = member_of %s {'%s'} WHERE role = '%s'",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLES,
op,
escape(role),
escape(grantee)),
consistencyForRole(grantee));
}
/*
* Clear the membership list of the given role
*/
private void removeAllMembers(String role) throws RequestValidationException, RequestExecutionException
{
// Get the membership list of the the given role
UntypedResultSet rows = process(String.format("SELECT member FROM %s.%s WHERE role = '%s'",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLE_MEMBERS,
escape(role)),
consistencyForRole(role));
if (rows.isEmpty())
return;
// Update each member in the list, removing this role from its own list of granted roles
for (UntypedResultSet.Row row : rows)
modifyRoleMembership(row.getString("member"), role, "-");
// Finally, remove the membership list for the dropped role
process(String.format("DELETE FROM %s.%s WHERE role = '%s'",
SchemaConstants.AUTH_KEYSPACE_NAME,
AuthKeyspace.ROLE_MEMBERS,
escape(role)),
consistencyForRole(role));
}
/*
* Convert a map of Options from a CREATE/ALTER statement into
* assignment clauses used to construct a CQL UPDATE statement
*/
private Iterable optionsToAssignments(Map options)
{
return Iterables.transform(
options.entrySet(),
new Function, String>()
{
public String apply(Map.Entry entry)
{
switch (entry.getKey())
{
case LOGIN:
return String.format("can_login = %s", entry.getValue());
case SUPERUSER:
return String.format("is_superuser = %s", entry.getValue());
case PASSWORD:
return String.format("salted_hash = '%s'", escape(hashpw((String) entry.getValue())));
default:
return null;
}
}
});
}
protected static ConsistencyLevel consistencyForRole(String role)
{
if (role.equals(DEFAULT_SUPERUSER_NAME))
return ConsistencyLevel.QUORUM;
else
return ConsistencyLevel.LOCAL_ONE;
}
private static String hashpw(String password)
{
return BCrypt.hashpw(password, BCrypt.gensalt(GENSALT_LOG2_ROUNDS));
}
private static String escape(String name)
{
return StringUtils.replace(name, "'", "''");
}
/**
* Executes the provided query.
* This shouldn't be used during setup as this will directly return an error if the manager is not setup yet. Setup tasks
* should use QueryProcessor.process directly.
*/
private UntypedResultSet process(String query, ConsistencyLevel consistencyLevel) throws RequestValidationException, RequestExecutionException
{
if (!isClusterReady)
throw new InvalidRequestException("Cannot process role related query as the role manager isn't yet setup. "
+ "This is likely because some of nodes in the cluster are on version 2.1 or earlier. "
+ "You need to upgrade all nodes to Cassandra 2.2 or more to use roles.");
return QueryProcessor.process(query, consistencyLevel);
}
private static final class Role
{
private String name;
private final boolean isSuper;
private final boolean canLogin;
private Set memberOf;
private Role(String name, boolean isSuper, boolean canLogin, Set memberOf)
{
this.name = name;
this.isSuper = isSuper;
this.canLogin = canLogin;
this.memberOf = memberOf;
}
public boolean equals(Object o)
{
if (this == o)
return true;
if (!(o instanceof Role))
return false;
Role r = (Role) o;
return Objects.equal(name, r.name);
}
public int hashCode()
{
return Objects.hashCode(name);
}
}
}