This distribution provides an API for the GeoIP2 Precision web services and databases. The API also works with the free GeoLite2 databases.
We recommend installing this package with Maven. To do this, add the dependency to your pom.xml:
<dependency>
<groupId>com.maxmind.geoip2</groupId>
<artifactId>geoip2</artifactId>
<version>2.13.0</version>
</dependency>
Add the following to your build.gradle
file:
repositories {
mavenCentral()
}
dependencies {
compile 'com.maxmind.geoip2:geoip2:2.13.0'
}
If you are unable to use Maven or Gradle, you may include the geoip2.jar
file and its dependencies in your classpath. Download the JAR files from the
GitHub Releases page.
IP geolocation is inherently imprecise. Locations are often near the center of the population. Any location provided by a GeoIP2 database or web service should not be used to identify a particular address or household.
To use the web service API, you must create a new WebServiceClient
using the
WebServiceClient.Builder
. You must provide the Builder
constructor your
MaxMind accountId
and licenseKey
. You may also set a timeout
, specify a
specific host
, or set the locales
fallback order using the methods on the
Builder
. After you have created the WebServiceClient
, you may then call
the method corresponding to a specific end point, passing it the IP address
you want to look up.
If the request succeeds, the method call will return a model class for the end point you called. This model in turn contains multiple record classes, each of which represents part of the data returned by the web service.
If the request fails, the client class throws an exception.
The WebServiceClient
object is safe to share across threads. If you are
making multiple requests, the object should be reused so that new connections
are not created for each request. Once you have finished making requests, you
should close the object to ensure the connections are closed and any
resources are promptly returned to the system.
See the API documentation for more details.
// This creates a WebServiceClient object that is thread-safe and can be
// reused across requests. Reusing the object will allow it to keep
// connections alive for future requests. The object is closeable, but
// it should not be closed until you are finished making requests with it.
//
// Replace "42" with your account ID and "license_key" with your license key.
try (WebServiceClient client = new WebServiceClient.Builder(42, "license_key")
.build()) {
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
// Do the lookup
CountryResponse response = client.country(ipAddress);
Country country = response.getCountry();
System.out.println(country.getIsoCode()); // 'US'
System.out.println(country.getName()); // 'United States'
System.out.println(country.getNames().get("zh-CN")); // '美国'
}
// This creates a WebServiceClient object that is thread-safe and can be
// reused across requests. Reusing the object will allow it to keep
// connections alive for future requests. The object is closeable, but
// it should not be closed until you are finished making requests with it.
//
// Replace "42" with your account ID and "license_key" with your license key.
try (WebServiceClient client = new WebServiceClient.Builder(42, "license_key")
.build()) {
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
// Do the lookup
CityResponse response = client.city(ipAddress);
Country country = response.getCountry();
System.out.println(country.getIsoCode()); // 'US'
System.out.println(country.getName()); // 'United States'
System.out.println(country.getNames().get("zh-CN")); // '美国'
Subdivision subdivision = response.getMostSpecificSubdivision();
System.out.println(subdivision.getName()); // 'Minnesota'
System.out.println(subdivision.getIsoCode()); // 'MN'
City city = response.getCity();
System.out.println(city.getName()); // 'Minneapolis'
Postal postal = response.getPostal();
System.out.println(postal.getCode()); // '55455'
Location location = response.getLocation();
System.out.println(location.getLatitude()); // 44.9733
System.out.println(location.getLongitude()); // -93.2323
}
// This creates a WebServiceClient object that is thread-safe and can be
// reused across requests. Reusing the object will allow it to keep
// connections alive for future requests. The object is closeable, but
// it should not be closed until you are finished making requests with it.
//
// Replace "42" with your account ID and "license_key" with your license key.
try (WebServiceClient client = new WebServiceClient.Builder(42, "license_key")
.build()) {
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
// Do the lookup
InsightsResponse response = client.insights(ipAddress);
Country country = response.getCountry();
System.out.println(country.getIsoCode()); // 'US'
System.out.println(country.getName()); // 'United States'
System.out.println(country.getNames().get("zh-CN")); // '美国'
System.out.println(country.getConfidence()); // 99
Subdivision subdivision = response.getMostSpecificSubdivision();
System.out.println(subdivision.getName()); // 'Minnesota'
System.out.println(subdivision.getIsoCode()); // 'MN'
System.out.println(subdivision.getConfidence()); // 90
City city = response.getCity();
System.out.println(city.getName()); // 'Minneapolis'
System.out.println(city.getConfidence()); // 50
Postal postal = response.getPostal();
System.out.println(postal.getCode()); // '55455'
System.out.println(postal.getConfidence()); // 40
Location location = response.getLocation();
System.out.println(location.getLatitude()); // 44.9733
System.out.println(location.getLongitude()); // -93.2323
System.out.println(location.getAccuracyRadius()); // 3
System.out.println(location.getTimeZone()); // 'America/Chicago'
System.out.println(response.getTraits().getUserType()); // 'college'
}
To use the database API, you must create a new DatabaseReader
using the
DatabaseReader.Builder
. You must provide the Builder
constructor either an
InputStream
or File
for your GeoIP2 database. You may also specify the
fileMode
and the locales
fallback order using the methods on the Builder
object.
After you have created the DatabaseReader
, you may then call one of the
appropriate methods, e.g., city
or tryCity
, for your database. These
methods take the IP address to be looked up. The methods with the try
prefix return an Optional
object, which will be empty if the value is
not present in the database. The method without the prefix will throw an
AddressNotFoundException
if the address is not in the database. If you
are looking up many IPs that are not contained in the database, the try
method will be slightly faster as they do not need to construct and throw
an exception. These methods otherwise behave the same.
If the lookup succeeds, the method call will return a response class for the GeoIP2 lookup. The class in turn contains multiple record classes, each of which represents part of the data returned by the database.
We recommend reusing the DatabaseReader
object rather than creating a new
one for each lookup. The creation of this object is relatively expensive as it
must read in metadata for the file. It is safe to share the object across
threads.
See the API documentation for more details.
The database API supports pluggable caching (by default, no caching is
performed). A simple implementation is provided by com.maxmind.db.CHMCache
.
Using this cache, lookup performance is significantly improved at the cost of
a small (~2MB) memory overhead.
Usage:
new DatabaseReader.Builder(file).withCache(new CHMCache()).build();
If you are packaging the database file as a resource in a JAR file using
Maven, you must
disable binary file filtering.
Failure to do so will result in InvalidDatabaseException
exceptions being
thrown when querying the database.
// A File object pointing to your GeoIP2 or GeoLite2 database
File database = new File("/path/to/GeoIP2-City.mmdb");
// This creates the DatabaseReader object. To improve performance, reuse
// the object across lookups. The object is thread-safe.
DatabaseReader reader = new DatabaseReader.Builder(database).build();
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
// Replace "city" with the appropriate method for your database, e.g.,
// "country".
CityResponse response = reader.city(ipAddress);
Country country = response.getCountry();
System.out.println(country.getIsoCode()); // 'US'
System.out.println(country.getName()); // 'United States'
System.out.println(country.getNames().get("zh-CN")); // '美国'
Subdivision subdivision = response.getMostSpecificSubdivision();
System.out.println(subdivision.getName()); // 'Minnesota'
System.out.println(subdivision.getIsoCode()); // 'MN'
City city = response.getCity();
System.out.println(city.getName()); // 'Minneapolis'
Postal postal = response.getPostal();
System.out.println(postal.getCode()); // '55455'
Location location = response.getLocation();
System.out.println(location.getLatitude()); // 44.9733
System.out.println(location.getLongitude()); // -93.2323
// A File object pointing to your GeoIP2 Anonymous IP database
File database = new File("/path/to/GeoIP2-Anonymous-IP.mmdb");
// This creates the DatabaseReader object. To improve performance, reuse
// the object across lookups. The object is thread-safe.
DatabaseReader reader = new DatabaseReader.Builder(database).build();
try {
InetAddress ipAddress = InetAddress.getByName("85.25.43.84");
AnonymousIpResponse response = reader.anonymousIp(ipAddress);
System.out.println(response.isAnonymous()); // true
System.out.println(response.isAnonymousVpn()); // false
System.out.println(response.isHostingProvider()); // false
System.out.println(response.isPublicProxy()); // false
System.out.println(response.isTorExitNode()); //true
} finally {
reader.close();
}
// A File object pointing to your GeoLite2 ASN database
File database = new File("/path/to/GeoLite2-ASN.mmdb");
// This creates the DatabaseReader object. To improve performance, reuse
// the object across lookups. The object is thread-safe.
try (DatabaseReader reader = new DatabaseReader.Builder(database).build()) {
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
AsnResponse response = reader.asn(ipAddress);
System.out.println(response.getAutonomousSystemNumber()); // 217
System.out.println(response.getAutonomousSystemOrganization()); // 'University of Minnesota'
}
// A File object pointing to your GeoIP2 Connection-Type database
File database = new File("/path/to/GeoIP2-Connection-Type.mmdb");
// This creates the DatabaseReader object. To improve performance, reuse
// the object across lookups. The object is thread-safe.
DatabaseReader reader = new DatabaseReader.Builder(database).build();
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
ConnectionTypeResponse response = reader.connectionType(ipAddress);
// getConnectionType() returns a ConnectionType enum
ConnectionType type = response.getConnectionType();
System.out.println(type); // 'Corporate'
// A File object pointing to your GeoIP2 Domain database
File database = new File("/path/to/GeoIP2-Domain.mmdb");
// This creates the DatabaseReader object. To improve performance, reuse
// the object across lookups. The object is thread-safe.
DatabaseReader reader = new DatabaseReader.Builder(database).build();
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
DomainResponse response = reader.domain(ipAddress);
System.out.println(response.getDomain()); // 'Corporate'
// A File object pointing to your GeoIP2 Enterprise database
File database = new File("/path/to/GeoIP2-Enterprise.mmdb");
// This creates the DatabaseReader object. To improve performance, reuse
// the object across lookups. The object is thread-safe.
try (DatabaseReader reader = new DatabaseReader.Builder(database).build()) {
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
// Use the enterprise(ip) method to do a lookup in the Enterprise database
EnterpriseResponse response = reader.enterprise(ipAddress);
Country country = response.getCountry();
System.out.println(country.getIsoCode()); // 'US'
System.out.println(country.getName()); // 'United States'
System.out.println(country.getNames().get("zh-CN")); // '美国'
System.out.println(country.getConfidence()); // 99
Subdivision subdivision = response.getMostSpecificSubdivision();
System.out.println(subdivision.getName()); // 'Minnesota'
System.out.println(subdivision.getIsoCode()); // 'MN'
System.out.println(subdivision.getConfidence()); // 77
City city = response.getCity();
System.out.println(city.getName()); // 'Minneapolis'
System.out.println(city.getConfidence()); // 11
Postal postal = response.getPostal();
System.out.println(postal.getCode()); // '55455'
System.out.println(postal.getConfidence()); // 5
Location location = response.getLocation();
System.out.println(location.getLatitude()); // 44.9733
System.out.println(location.getLongitude()); // -93.2323
System.out.println(location.getAccuracyRadius()); // 50
}
// A File object pointing to your GeoIP2 ISP database
File database = new File("/path/to/GeoIP2-ISP.mmdb");
// This creates the DatabaseReader object. To improve performance, reuse
// the object across lookups. The object is thread-safe.
DatabaseReader reader = new DatabaseReader.Builder(database).build();
InetAddress ipAddress = InetAddress.getByName("128.101.101.101");
IspResponse response = reader.isp(ipAddress);
System.out.println(response.getAutonomousSystemNumber()); // 217
System.out.println(response.getAutonomousSystemOrganization()); // 'University of Minnesota'
System.out.println(response.getIsp()); // 'University of Minnesota'
System.out.println(response.getOrganization()); // 'University of Minnesota'
For details on the possible errors returned by the web service itself, see the GeoIP2 Precision web service documentation.
If the web service returns an explicit error document, this is thrown as an
AddressNotFoundException
, an AuthenticationException
, an
InvalidRequestException
, or an OutOfQueriesException
.
If some sort of transport error occurs, an HttpException
is thrown. This
is thrown when some sort of unanticipated error occurs, such as the web
service returning a 500 or an invalid error document. If the web service
request returns any status code besides 200, 4xx, or 5xx, this also becomes
an HttpException
.
Finally, if the web service returns a 200 but the body is invalid, the client
throws a GeoIp2Exception
. This exception also is the parent exception to
the above exceptions.
We strongly discourage you from using a value from any getNames
method as
a key in a database or map.
These names may change between releases. Instead we recommend using one of the following:
com.maxmind.geoip2.record.City
-City.getGeoNameId
com.maxmind.geoip2.record.Continent
-Continent.getCode
orContinent.getGeoNameId
com.maxmind.geoip2.record.Country
andcom.maxmind.geoip2.record.RepresentedCountry
-Country.getIsoCode
orCountry.getGeoNameId
com.maxmind.geoip2.record.Subdivision
-Subdivision.getIsoCode
orSubdivision.getGeoNameId
This API fully supports use in multi-threaded applications. When using the
DatabaseReader
or the WebServiceClient
in a multi-threaded application,
we suggest creating one object and sharing that across threads.
While many of the end points return the same basic records, the attributes which can be populated vary between end points. In addition, while an end point may offer a particular piece of data, MaxMind does not always have every piece of data for any given IP address.
Because of these factors, it is possible for any end point to return a record where some or all of the attributes are unpopulated.
See our web-service developer documentation for details on what data each end point may return.
The only piece of data which is always returned is the ip_address
available at lookup.getTraits().getIpAddress()
.
Every record class attribute has a corresponding predicate method so you can check to see if the attribute is set.
GeoNames offers web services and downloadable
databases with data on geographical features around the world, including
populated places. They offer both free and paid premium data. Each
feature is uniquely identified by a geonameId
, which is an integer.
Many of the records returned by the GeoIP2 web services and databases
include a getGeoNameId()
method. This is the ID of a geographical
feature (city, region, country, etc.) in the GeoNames database.
Some of the data that MaxMind provides is also sourced from GeoNames. We source things like place names, ISO codes, and other similar data from the GeoNames premium data set.
If the problem you find is that an IP address is incorrectly mapped, please submit your correction to MaxMind.
If you find some other sort of mistake, like an incorrect spelling, please check the GeoNames site first. Once you've searched for a place and found it on the GeoNames map view, there are a number of links you can use to correct data ("move", "edit", "alternate names", etc.). Once the correction is part of the GeoNames data set, it will be automatically incorporated into future MaxMind releases.
If you are a paying MaxMind customer and you're not sure where to submit a correction, please [contact MaxMind support] (https://www.maxmind.com/en/support) for help.
Please report all issues with this code using the GitHub issue tracker.
If you are having an issue with a MaxMind service that is not specific to the client API, please contact MaxMind support.
MaxMind has tested this API with Java 7 and above.
Patches and pull requests are encouraged. Please include unit tests whenever possible.
The GeoIP2 Java API uses Semantic Versioning.
This software is Copyright (c) 2013-2019 by MaxMind, Inc.
This is free software, licensed under the Apache License, Version 2.0.