google-nomulus/java/google/registry/rdap/RdapDomainSearchAction.java

// Copyright 2016 The Nomulus Authors. All Rights Reserved.
//
// Licensed 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 google.registry.rdap;

import static google.registry.model.EppResourceUtils.loadByForeignKey;
import static google.registry.model.index.ForeignKeyIndex.loadAndGetKey;
import static google.registry.model.ofy.ObjectifyService.ofy;
import static google.registry.rdap.RdapIcannStandardInformation.TRUNCATION_NOTICES;
import static google.registry.request.Action.Method.GET;
import static google.registry.request.Action.Method.HEAD;
import static google.registry.util.DateTimeUtils.END_OF_TIME;

import com.google.common.base.Optional;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSortedSet;
import com.google.common.collect.Iterables;
import com.google.common.primitives.Booleans;
import com.googlecode.objectify.Key;
import com.googlecode.objectify.cmd.Query;
import google.registry.config.ConfigModule.Config;
import google.registry.model.EppResourceUtils;
import google.registry.model.domain.DomainResource;
import google.registry.model.host.HostResource;
import google.registry.rdap.RdapJsonFormatter.BoilerplateType;
import google.registry.rdap.RdapJsonFormatter.OutputDataType;
import google.registry.request.Action;
import google.registry.request.HttpException.BadRequestException;
import google.registry.request.HttpException.NotFoundException;
import google.registry.request.Parameter;
import google.registry.util.Clock;
import google.registry.util.Idn;
import java.net.InetAddress;
import java.util.ArrayList;
import java.util.LinkedHashSet;
import java.util.List;
import javax.inject.Inject;
import org.joda.time.DateTime;

/**
 * RDAP (new WHOIS) action for domain search requests.
 *
 * <p>All commands and responses conform to the RDAP spec as defined in RFCs 7480 through 7485.
 *
 * @see <a href="http://tools.ietf.org/html/rfc7482">
 *        RFC 7482: Registration Data Access Protocol (RDAP) Query Format</a>
 * @see <a href="http://tools.ietf.org/html/rfc7483">
 *        RFC 7483: JSON Responses for the Registration Data Access Protocol (RDAP)</a>
 */
@Action(path = RdapDomainSearchAction.PATH, method = {GET, HEAD}, isPrefix = true)
public class RdapDomainSearchAction extends RdapActionBase {

  public static final String PATH = "/rdap/domains";

  public static final int RESULT_SET_SIZE_SCALING_FACTOR = 30;

  @Inject Clock clock;
  @Inject @Parameter("name") Optional<String> nameParam;
  @Inject @Parameter("nsLdhName") Optional<String> nsLdhNameParam;
  @Inject @Parameter("nsIp") Optional<InetAddress> nsIpParam;
  @Inject @Config("rdapResultSetMaxSize") int rdapResultSetMaxSize;
  @Inject RdapDomainSearchAction() {}

  @Override
  public String getHumanReadableObjectTypeName() {
    return "domain search";
  }

  @Override
  public String getActionPath() {
    return PATH;
  }

  /** Parses the parameters and calls the appropriate search function. */
  @Override
  public ImmutableMap<String, Object> getJsonObjectForResource(
      String pathSearchString, boolean isHeadRequest, String linkBase) {
    DateTime now = clock.nowUtc();
    // RDAP syntax example: /rdap/domains?name=exam*.com.
    // The pathSearchString is not used by search commands.
    if (pathSearchString.length() > 0) {
      throw new BadRequestException("Unexpected path");
    }
    if (Booleans.countTrue(nameParam.isPresent(), nsLdhNameParam.isPresent(), nsIpParam.isPresent())
        != 1) {
      throw new BadRequestException(
          "You must specify either name=XXXX, nsLdhName=YYYY or nsIp=ZZZZ");
    }
    RdapSearchResults results;
    if (nameParam.isPresent()) {
      // syntax: /rdap/domains?name=exam*.com
      String asciiName;
      try {
        asciiName = Idn.toASCII(nameParam.get());
      } catch (Exception e) {
        throw new BadRequestException("Invalid value of nsLdhName parameter");
      }
      results = searchByDomainName(RdapSearchPattern.create(asciiName, true), now);
    } else if (nsLdhNameParam.isPresent()) {
      // syntax: /rdap/domains?nsLdhName=ns1.exam*.com
      // RFC 7482 appears to say that Unicode domains must be specified using punycode when
      // passed to nsLdhName, so IDN.toASCII is not called here.
      if (!LDH_PATTERN.matcher(nsLdhNameParam.get()).matches()) {
        throw new BadRequestException("Invalid value of nsLdhName parameter");
      }
      results = searchByNameserverLdhName(
          RdapSearchPattern.create(nsLdhNameParam.get(), true), now);
    } else {
      // syntax: /rdap/domains?nsIp=1.2.3.4
      results = searchByNameserverIp(nsIpParam.get(), now);
    }
    if (results.jsonList().isEmpty()) {
      throw new NotFoundException("No domains found");
    }
    ImmutableMap.Builder<String, Object> builder = new ImmutableMap.Builder<>();
    builder.put("domainSearchResults", results.jsonList());
    RdapJsonFormatter.addTopLevelEntries(
        builder,
        BoilerplateType.DOMAIN,
        results.isTruncated()
            ? TRUNCATION_NOTICES : ImmutableList.<ImmutableMap<String, Object>>of(),
        ImmutableList.<ImmutableMap<String, Object>>of(),
        rdapLinkBase);
    return builder.build();
  }

  /** Searches for domains by domain name, returning a JSON array of domain info maps. */
  private RdapSearchResults searchByDomainName(
      final RdapSearchPattern partialStringQuery, final DateTime now) {
    // Handle queries without a wildcard -- just load by foreign key.
    if (!partialStringQuery.getHasWildcard()) {
      DomainResource domainResource =
          loadByForeignKey(DomainResource.class, partialStringQuery.getInitialString(), now);
      ImmutableList<DomainResource> results = (domainResource == null)
          ? ImmutableList.<DomainResource>of()
          : ImmutableList.of(domainResource);
      return makeSearchResults(results, false, now);
    // Handle queries with a wildcard.
    } else {
      // We can't query for undeleted domains as part of the query itself; that would require an
      // inequality query on deletion time, and we are already using inequality queries on
      // fullyQualifiedDomainName. So we instead pick an arbitrary limit of
      // RESULT_SET_SIZE_SCALING_FACTOR times the result set size limit, fetch up to that many, and
      // weed out all deleted domains. If there still isn't a full result set's worth of domains, we
      // give up and return just the ones we found.
      // TODO(b/31546493): Add metrics to figure out how well this.
      List<DomainResource> domainList = new ArrayList<>();
      Query<DomainResource> query = ofy().load()
          .type(DomainResource.class)
          .filter("fullyQualifiedDomainName <", partialStringQuery.getNextInitialString())
          .filter("fullyQualifiedDomainName >=", partialStringQuery.getInitialString());
      if (partialStringQuery.getSuffix() != null) {
        query = query.filter("tld", partialStringQuery.getSuffix());
      }
      // TODO(mountford): Investigate fetching by foreign key instead of the domain itself.
      for (DomainResource domain :
          query.limit(RESULT_SET_SIZE_SCALING_FACTOR * rdapResultSetMaxSize)) {
        if (EppResourceUtils.isActive(domain, now)) {
          if (domainList.size() >= rdapResultSetMaxSize) {
            return makeSearchResults(ImmutableList.copyOf(domainList), true, now);
          }
          domainList.add(domain);
        }
      }
      return makeSearchResults(ImmutableList.copyOf(domainList), false, now);
    }
  }

  /** Searches for domains by nameserver name, returning a JSON array of domain info maps. */
  private RdapSearchResults searchByNameserverLdhName(
      final RdapSearchPattern partialStringQuery, final DateTime now) {
    Iterable<Key<HostResource>> hostKeys = getNameserverRefsByLdhName(partialStringQuery, now);
    if (Iterables.isEmpty(hostKeys)) {
      throw new NotFoundException("No matching nameservers found");
    }
    return searchByNameserverRefs(hostKeys, now);
  }

  /** Assembles a list of {@link HostResource} keys by name. */
  private Iterable<Key<HostResource>> getNameserverRefsByLdhName(
      final RdapSearchPattern partialStringQuery, final DateTime now) {
    // Handle queries without a wildcard; just load the host by foreign key in the usual way.
    if (!partialStringQuery.getHasWildcard()) {
      Key<HostResource> hostKey = loadAndGetKey(
          HostResource.class, partialStringQuery.getInitialString(), now);
      if (hostKey == null) {
        return ImmutableList.of();
      } else {
        return ImmutableList.of(hostKey);
      }
    // Handle queries with a wildcard, but no suffix. Query the host resources themselves, rather
    // than the foreign key index, because then we have an index on fully qualified host name and
    // deletion time, so we can check the deletion status in the query itself. There are no pending
    // deletes for hosts, so we can call queryUndeleted.
    } else if (partialStringQuery.getSuffix() == null) {
      // TODO (b/24463238): figure out how to limit the size of these queries effectively
      return queryUndeleted(HostResource.class, "fullyQualifiedHostName", partialStringQuery, 1000)
          .keys();
    // Handle queries with a wildcard and a suffix. In this case, it is more efficient to do things
    // differently. We use the suffix to look up the domain, then loop through the subordinate hosts
    // looking for matches.
    // TODO(mountford): This might not be ok; it will only find nameservers on domains we control
    } else {
      DomainResource domainResource = loadByForeignKey(
          DomainResource.class, partialStringQuery.getSuffix(), now);
      if (domainResource == null) {
        throw new NotFoundException("No domain found for specified nameserver suffix");
      }
      ImmutableList.Builder<Key<HostResource>> builder = new ImmutableList.Builder<>();
      for (String fqhn : ImmutableSortedSet.copyOf(domainResource.getSubordinateHosts())) {
        // We can't just check that the host name starts with the initial query string, because then
        // the query ns.exam*.example.com would match against nameserver ns.example.com.
        if (partialStringQuery.matches(fqhn)) {
          Key<HostResource> hostKey = loadAndGetKey(HostResource.class, fqhn, now);
          if (hostKey != null) {
            builder.add(hostKey);
          }
        }
      }
      return builder.build();
    }
  }

  /** Searches for domains by nameserver address, returning a JSON array of domain info maps. */
  private RdapSearchResults searchByNameserverIp(
      final InetAddress inetAddress, final DateTime now) {
    // In theory, we could filter on the deletion time being in the future. But we can't do that in
    // the query on nameserver name (because we're already using an inequality query), and it seems
    // dangerous and confusing to filter on deletion time differently between the two queries.
    // Find all domains that link to any of these hosts, and return information about them.
    // TODO (b/24463238): figure out how to limit the size of these queries effectively
    return searchByNameserverRefs(
        ofy()
            .load()
            .type(HostResource.class)
            .filter("inetAddresses", inetAddress.getHostAddress())
            .filter("deletionTime", END_OF_TIME)
            .limit(1000)
            .keys(),
        now);
  }

  /**
   * Locates all domains which are linked to a set of host keys.
   *
   * <p>This method is called by {@link #searchByNameserverLdhName} and
   * {@link #searchByNameserverIp} after they assemble the relevant host keys.
   */
  private RdapSearchResults searchByNameserverRefs(
      final Iterable<Key<HostResource>> hostKeys, final DateTime now) {
    // We must break the query up into chunks, because the in operator is limited to 30 subqueries.
    // Since it is possible for the same domain to show up more than once in our result list (if
    // we do a wildcard nameserver search that returns multiple nameservers used by the same
    // domain), we must create a set of resulting {@link DomainResource} objects. But we use a
    // LinkedHashSet to preserve the order in which we found the domains.
    LinkedHashSet<DomainResource> domains = new LinkedHashSet<>();
    for (List<Key<HostResource>> chunk : Iterables.partition(hostKeys, 30)) {
      for (DomainResource domain : ofy().load()
          .type(DomainResource.class)
          .filter("nsHosts in", chunk)
          .filter("deletionTime >", now)
          .limit(rdapResultSetMaxSize + 1)) {
        if (!domains.contains(domain)) {
          if (domains.size() >= rdapResultSetMaxSize) {
            return makeSearchResults(ImmutableList.copyOf(domains), true, now);
          }
          domains.add(domain);
        }
      }
    }
    return makeSearchResults(ImmutableList.copyOf(domains), false, now);
  }

  /**
   * Output JSON for a list of domains.
   *
   * <p>The isTruncated parameter should be true if the search found more results than are in the
   * list, meaning that the truncation notice should be added.
   */
  private RdapSearchResults makeSearchResults(
      ImmutableList<DomainResource> domains, boolean isTruncated, DateTime now) {
    OutputDataType outputDataType =
        (domains.size() > 1) ? OutputDataType.SUMMARY : OutputDataType.FULL;
    ImmutableList.Builder<ImmutableMap<String, Object>> jsonBuilder = new ImmutableList.Builder<>();
    for (DomainResource domain : domains) {
      jsonBuilder.add(
          RdapJsonFormatter.makeRdapJsonForDomain(
              domain, false, rdapLinkBase, rdapWhoisServer, now, outputDataType));
    }
    return RdapSearchResults.create(jsonBuilder.build(), isTruncated);
  }
}