dip/vendor/github.com/oschwald/geoip2-golang/reader.go
Paul Lecuq 7a3fd4e400
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feat: refactor
* updated dependencies
* add json indent to replies
* misc refactor
2024-07-14 14:40:59 +02:00

421 lines
15 KiB
Go

// Package geoip2 provides an easy-to-use API for the MaxMind GeoIP2 and
// GeoLite2 databases; this package does not support GeoIP Legacy databases.
//
// The structs provided by this package match the internal structure of
// the data in the MaxMind databases.
//
// See github.com/oschwald/maxminddb-golang for more advanced used cases.
package geoip2
import (
"fmt"
"net"
"github.com/oschwald/maxminddb-golang"
)
// The Enterprise struct corresponds to the data in the GeoIP2 Enterprise
// database.
type Enterprise struct {
Continent struct {
Names map[string]string `maxminddb:"names"`
Code string `maxminddb:"code"`
GeoNameID uint `maxminddb:"geoname_id"`
} `maxminddb:"continent"`
City struct {
Names map[string]string `maxminddb:"names"`
GeoNameID uint `maxminddb:"geoname_id"`
Confidence uint8 `maxminddb:"confidence"`
} `maxminddb:"city"`
Postal struct {
Code string `maxminddb:"code"`
Confidence uint8 `maxminddb:"confidence"`
} `maxminddb:"postal"`
Subdivisions []struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
Confidence uint8 `maxminddb:"confidence"`
} `maxminddb:"subdivisions"`
RepresentedCountry struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
Type string `maxminddb:"type"`
GeoNameID uint `maxminddb:"geoname_id"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"represented_country"`
Country struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
Confidence uint8 `maxminddb:"confidence"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"country"`
RegisteredCountry struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
Confidence uint8 `maxminddb:"confidence"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"registered_country"`
Traits struct {
AutonomousSystemOrganization string `maxminddb:"autonomous_system_organization"`
ConnectionType string `maxminddb:"connection_type"`
Domain string `maxminddb:"domain"`
ISP string `maxminddb:"isp"`
MobileCountryCode string `maxminddb:"mobile_country_code"`
MobileNetworkCode string `maxminddb:"mobile_network_code"`
Organization string `maxminddb:"organization"`
UserType string `maxminddb:"user_type"`
AutonomousSystemNumber uint `maxminddb:"autonomous_system_number"`
StaticIPScore float64 `maxminddb:"static_ip_score"`
IsAnonymousProxy bool `maxminddb:"is_anonymous_proxy"`
IsAnycast bool `maxminddb:"is_anycast"`
IsLegitimateProxy bool `maxminddb:"is_legitimate_proxy"`
IsSatelliteProvider bool `maxminddb:"is_satellite_provider"`
} `maxminddb:"traits"`
Location struct {
TimeZone string `maxminddb:"time_zone"`
Latitude float64 `maxminddb:"latitude"`
Longitude float64 `maxminddb:"longitude"`
MetroCode uint `maxminddb:"metro_code"`
AccuracyRadius uint16 `maxminddb:"accuracy_radius"`
} `maxminddb:"location"`
}
// The City struct corresponds to the data in the GeoIP2/GeoLite2 City
// databases.
type City struct {
City struct {
Names map[string]string `maxminddb:"names"`
GeoNameID uint `maxminddb:"geoname_id"`
} `maxminddb:"city"`
Postal struct {
Code string `maxminddb:"code"`
} `maxminddb:"postal"`
Continent struct {
Names map[string]string `maxminddb:"names"`
Code string `maxminddb:"code"`
GeoNameID uint `maxminddb:"geoname_id"`
} `maxminddb:"continent"`
Subdivisions []struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
} `maxminddb:"subdivisions"`
RepresentedCountry struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
Type string `maxminddb:"type"`
GeoNameID uint `maxminddb:"geoname_id"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"represented_country"`
Country struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"country"`
RegisteredCountry struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"registered_country"`
Location struct {
TimeZone string `maxminddb:"time_zone"`
Latitude float64 `maxminddb:"latitude"`
Longitude float64 `maxminddb:"longitude"`
MetroCode uint `maxminddb:"metro_code"`
AccuracyRadius uint16 `maxminddb:"accuracy_radius"`
} `maxminddb:"location"`
Traits struct {
IsAnonymousProxy bool `maxminddb:"is_anonymous_proxy"`
IsAnycast bool `maxminddb:"is_anycast"`
IsSatelliteProvider bool `maxminddb:"is_satellite_provider"`
} `maxminddb:"traits"`
}
// The Country struct corresponds to the data in the GeoIP2/GeoLite2
// Country databases.
type Country struct {
Continent struct {
Names map[string]string `maxminddb:"names"`
Code string `maxminddb:"code"`
GeoNameID uint `maxminddb:"geoname_id"`
} `maxminddb:"continent"`
Country struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"country"`
RegisteredCountry struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
GeoNameID uint `maxminddb:"geoname_id"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"registered_country"`
RepresentedCountry struct {
Names map[string]string `maxminddb:"names"`
IsoCode string `maxminddb:"iso_code"`
Type string `maxminddb:"type"`
GeoNameID uint `maxminddb:"geoname_id"`
IsInEuropeanUnion bool `maxminddb:"is_in_european_union"`
} `maxminddb:"represented_country"`
Traits struct {
IsAnonymousProxy bool `maxminddb:"is_anonymous_proxy"`
IsAnycast bool `maxminddb:"is_anycast"`
IsSatelliteProvider bool `maxminddb:"is_satellite_provider"`
} `maxminddb:"traits"`
}
// The AnonymousIP struct corresponds to the data in the GeoIP2
// Anonymous IP database.
type AnonymousIP struct {
IsAnonymous bool `maxminddb:"is_anonymous"`
IsAnonymousVPN bool `maxminddb:"is_anonymous_vpn"`
IsHostingProvider bool `maxminddb:"is_hosting_provider"`
IsPublicProxy bool `maxminddb:"is_public_proxy"`
IsResidentialProxy bool `maxminddb:"is_residential_proxy"`
IsTorExitNode bool `maxminddb:"is_tor_exit_node"`
}
// The ASN struct corresponds to the data in the GeoLite2 ASN database.
type ASN struct {
AutonomousSystemOrganization string `maxminddb:"autonomous_system_organization"`
AutonomousSystemNumber uint `maxminddb:"autonomous_system_number"`
}
// The ConnectionType struct corresponds to the data in the GeoIP2
// Connection-Type database.
type ConnectionType struct {
ConnectionType string `maxminddb:"connection_type"`
}
// The Domain struct corresponds to the data in the GeoIP2 Domain database.
type Domain struct {
Domain string `maxminddb:"domain"`
}
// The ISP struct corresponds to the data in the GeoIP2 ISP database.
type ISP struct {
AutonomousSystemOrganization string `maxminddb:"autonomous_system_organization"`
ISP string `maxminddb:"isp"`
MobileCountryCode string `maxminddb:"mobile_country_code"`
MobileNetworkCode string `maxminddb:"mobile_network_code"`
Organization string `maxminddb:"organization"`
AutonomousSystemNumber uint `maxminddb:"autonomous_system_number"`
}
type databaseType int
const (
isAnonymousIP = 1 << iota
isASN
isCity
isConnectionType
isCountry
isDomain
isEnterprise
isISP
)
// Reader holds the maxminddb.Reader struct. It can be created using the
// Open and FromBytes functions.
type Reader struct {
mmdbReader *maxminddb.Reader
databaseType databaseType
}
// InvalidMethodError is returned when a lookup method is called on a
// database that it does not support. For instance, calling the ISP method
// on a City database.
type InvalidMethodError struct {
Method string
DatabaseType string
}
func (e InvalidMethodError) Error() string {
return fmt.Sprintf(`geoip2: the %s method does not support the %s database`,
e.Method, e.DatabaseType)
}
// UnknownDatabaseTypeError is returned when an unknown database type is
// opened.
type UnknownDatabaseTypeError struct {
DatabaseType string
}
func (e UnknownDatabaseTypeError) Error() string {
return fmt.Sprintf(`geoip2: reader does not support the %q database type`,
e.DatabaseType)
}
// Open takes a string path to a file and returns a Reader struct or an error.
// The database file is opened using a memory map. Use the Close method on the
// Reader object to return the resources to the system.
func Open(file string) (*Reader, error) {
reader, err := maxminddb.Open(file)
if err != nil {
return nil, err
}
dbType, err := getDBType(reader)
return &Reader{reader, dbType}, err
}
// FromBytes takes a byte slice corresponding to a GeoIP2/GeoLite2 database
// file and returns a Reader struct or an error. Note that the byte slice is
// used directly; any modification of it after opening the database will result
// in errors while reading from the database.
func FromBytes(bytes []byte) (*Reader, error) {
reader, err := maxminddb.FromBytes(bytes)
if err != nil {
return nil, err
}
dbType, err := getDBType(reader)
return &Reader{reader, dbType}, err
}
func getDBType(reader *maxminddb.Reader) (databaseType, error) {
switch reader.Metadata.DatabaseType {
case "GeoIP2-Anonymous-IP":
return isAnonymousIP, nil
case "DBIP-ASN-Lite (compat=GeoLite2-ASN)",
"GeoLite2-ASN":
return isASN, nil
// We allow City lookups on Country for back compat
case "DBIP-City-Lite",
"DBIP-Country-Lite",
"DBIP-Country",
"DBIP-Location (compat=City)",
"GeoLite2-City",
"GeoIP2-City",
"GeoIP2-City-Africa",
"GeoIP2-City-Asia-Pacific",
"GeoIP2-City-Europe",
"GeoIP2-City-North-America",
"GeoIP2-City-South-America",
"GeoIP2-Precision-City",
"GeoLite2-Country",
"GeoIP2-Country":
return isCity | isCountry, nil
case "GeoIP2-Connection-Type":
return isConnectionType, nil
case "GeoIP2-Domain":
return isDomain, nil
case "DBIP-ISP (compat=Enterprise)",
"DBIP-Location-ISP (compat=Enterprise)",
"GeoIP2-Enterprise":
return isEnterprise | isCity | isCountry, nil
case "GeoIP2-ISP", "GeoIP2-Precision-ISP":
return isISP | isASN, nil
default:
return 0, UnknownDatabaseTypeError{reader.Metadata.DatabaseType}
}
}
// Enterprise takes an IP address as a net.IP struct and returns an Enterprise
// struct and/or an error. This is intended to be used with the GeoIP2
// Enterprise database.
func (r *Reader) Enterprise(ipAddress net.IP) (*Enterprise, error) {
if isEnterprise&r.databaseType == 0 {
return nil, InvalidMethodError{"Enterprise", r.Metadata().DatabaseType}
}
var enterprise Enterprise
err := r.mmdbReader.Lookup(ipAddress, &enterprise)
return &enterprise, err
}
// City takes an IP address as a net.IP struct and returns a City struct
// and/or an error. Although this can be used with other databases, this
// method generally should be used with the GeoIP2 or GeoLite2 City databases.
func (r *Reader) City(ipAddress net.IP) (*City, error) {
if isCity&r.databaseType == 0 {
return nil, InvalidMethodError{"City", r.Metadata().DatabaseType}
}
var city City
err := r.mmdbReader.Lookup(ipAddress, &city)
return &city, err
}
// Country takes an IP address as a net.IP struct and returns a Country struct
// and/or an error. Although this can be used with other databases, this
// method generally should be used with the GeoIP2 or GeoLite2 Country
// databases.
func (r *Reader) Country(ipAddress net.IP) (*Country, error) {
if isCountry&r.databaseType == 0 {
return nil, InvalidMethodError{"Country", r.Metadata().DatabaseType}
}
var country Country
err := r.mmdbReader.Lookup(ipAddress, &country)
return &country, err
}
// AnonymousIP takes an IP address as a net.IP struct and returns a
// AnonymousIP struct and/or an error.
func (r *Reader) AnonymousIP(ipAddress net.IP) (*AnonymousIP, error) {
if isAnonymousIP&r.databaseType == 0 {
return nil, InvalidMethodError{"AnonymousIP", r.Metadata().DatabaseType}
}
var anonIP AnonymousIP
err := r.mmdbReader.Lookup(ipAddress, &anonIP)
return &anonIP, err
}
// ASN takes an IP address as a net.IP struct and returns a ASN struct and/or
// an error.
func (r *Reader) ASN(ipAddress net.IP) (*ASN, error) {
if isASN&r.databaseType == 0 {
return nil, InvalidMethodError{"ASN", r.Metadata().DatabaseType}
}
var val ASN
err := r.mmdbReader.Lookup(ipAddress, &val)
return &val, err
}
// ConnectionType takes an IP address as a net.IP struct and returns a
// ConnectionType struct and/or an error.
func (r *Reader) ConnectionType(ipAddress net.IP) (*ConnectionType, error) {
if isConnectionType&r.databaseType == 0 {
return nil, InvalidMethodError{"ConnectionType", r.Metadata().DatabaseType}
}
var val ConnectionType
err := r.mmdbReader.Lookup(ipAddress, &val)
return &val, err
}
// Domain takes an IP address as a net.IP struct and returns a
// Domain struct and/or an error.
func (r *Reader) Domain(ipAddress net.IP) (*Domain, error) {
if isDomain&r.databaseType == 0 {
return nil, InvalidMethodError{"Domain", r.Metadata().DatabaseType}
}
var val Domain
err := r.mmdbReader.Lookup(ipAddress, &val)
return &val, err
}
// ISP takes an IP address as a net.IP struct and returns a ISP struct and/or
// an error.
func (r *Reader) ISP(ipAddress net.IP) (*ISP, error) {
if isISP&r.databaseType == 0 {
return nil, InvalidMethodError{"ISP", r.Metadata().DatabaseType}
}
var val ISP
err := r.mmdbReader.Lookup(ipAddress, &val)
return &val, err
}
// Metadata takes no arguments and returns a struct containing metadata about
// the MaxMind database in use by the Reader.
func (r *Reader) Metadata() maxminddb.Metadata {
return r.mmdbReader.Metadata
}
// Close unmaps the database file from virtual memory and returns the
// resources to the system.
func (r *Reader) Close() error {
return r.mmdbReader.Close()
}