Korduma kippuvad küsimused

Korduma kippuvad küsimused

Pakume kahte erinevat andmebaasivormingut (CSV ja BIN).

Esimene andmebaasivorming on tuntud kui komadega eraldatud väärtused (CSV). See on tekstifail ja kõik väljad on eraldatud komaga, kus mõlemal väljal on topeltpakkumine. Iga rida on andmebaasi kirje.

Teine andmebaasivorming on tuntud kui binaarne (BIN). See on binaarfail, mis sisaldab andmebaasi teavet. Arendajatele on juurdepääs BIN-failidele, kasutades IP2Location API-d, mis on saadaval mitmes keeles.

Saate andmebaasi IP2Location LITE automatiseerida, kasutades allalaadimisklienti või tavalisi HTTP-rakendusi, näiteks wget või curl. Uuendame IP2Location andmebaase kalendrikuu esimesel päeval. Võrgu ülekoormuse vältimiseks laadige andmebaas alla juhusliku päeva jooksul üks kord kuus kalendrikuu esimesest nädalast. Keelame mis tahes LITE konto, kui tuvastatakse konto jagamine või ulatuslik allalaadimine.

./download.pl -package DB11LITE -token DOWNLOAD_TOKEN

Package Code Description
DB11LITE IP2Location LITE DB11 - IPV4 - CSV
DB11LITEBIN IP2Location LITE DB11 - IPV4 - BIN
DB11LITE IP2Location LITE DB11 - IPV6 - CSV
DB11LITEBINIPV6 IP2Location LITE DB11 - IPV6 - BIN

IP-aadress (IPV4) on jagatud 4 alamplokiks. Igal alamplokil on erinev kaalunumber, millest igaüks töötab 256. Andmebaasis kasutatakse IP-numbrit, kuna andmebaasi numbrivahemiku vahel on otsimine tõhusam.

Algus-IP-number ja Lõpp-IP-number arvutatakse järgmise valemi põhjal:

IP Number = 16777216*w + 65536*x + 256*y + z     (1)

where

IP Address = w.x.y.z


For example, if the IP address is "202.186.13.4", then its IP Number will be "3401190660", based on the formula (1).

IP Address = 202.186.13.4

So, w = 202, x = 186, y = 13 and z = 4

IP Number = 16777216*202 + 65536*186 + 256*13 + 4
		  = 3388997632 + 12189696 + 3328 + 4
		  = 3401190660

Näidiskood erinevates programmeerimiskeeltes

Function Dot2LongIP (ByVal DottedIP)
	Dim i, pos
	Dim PrevPos, num

	If DottedIP = "" Then
		Dot2LongIP = 0
	Else
		For i = 1 To 4
			pos = InStr(PrevPos + 1, DottedIP, ".", 1)

			If i = 4 Then
				pos = Len(DottedIP) + 1
			End If

			num = Int(Mid(DottedIP, PrevPos + 1, pos - PrevPos - 1))
			PrevPos = pos
			Dot2LongIP = ((num Mod 256) * (256 ^ (4 - i))) + Dot2LongIP
		Next
	End If
End Function
function Dot2LongIP($IPaddr)
{
	if ($IPaddr == "") {
		return 0;
	} else {
		$ips = explode(".", "$IPaddr");
		return ($ips[3] + $ips[2] * 256 + $ips[1] * 256 * 256 + $ips[0] * 256 * 256 * 256);
	}
}
long Dot2LongIP(String ipstring) {
	String[] ipAddressInArray = ipstring.split("\\.");
	long result = 0;
	long ip = 0;

	for (int x = 3; x >= 0; x--) {
		ip = Long.parseLong(ipAddressInArray[3 - x]);
		result |= ip << (x << 3);
	}
	return result;
}
function Dot2LongIP(ipAddress)
{
	if (arguments.ipAddress EQ "") {
		return 0;
	} else {
		ips = ListToArray( arguments.ipAddress, "." );
		return( ( 16777216 * ips[1] ) + ( 65536 * ips[2] ) + ( 256 * ips[3] ) + ips[4] );
	}
}
public double Dot2LongIP(string DottedIP)
{
	int i;
	string [] arrDec;
	double num = 0;

	if (DottedIP == "") {
		return 0;
	} else {
		arrDec = DottedIP.Split(".");
		for (i = arrDec.Length - 1; i >= 0 ; i --) {
			num += ((int.Parse(arrDec[i])%256) * Math.Pow(256 ,(3 - i )));
		}

		return num;
	}
}
Public Function Dot2LongIP(ByVal DottedIP As String) As Double
	Dim arrDec() As String
	Dim i As Integer
	Dim intResult As Long

	If DottedIP = "" then
		Dot2LongIP = 0
	Else
		arrDec = DottedIP.Split(".")

		For i = arrDec.Length - 1 To 0 Step -1
			intResult = intResult + ((Int(arrDec(i)) Mod 256) * Math.Pow(256, 3 -i))
		Next

		Dot2LongIP = intResult
	End If
End function
use Socket;

sub dot2LongIP {
	my $ip_address = shift(@_);
	return unpack("N",inet_aton($ip_address));
}
require 'ipaddr'

def dot2LongIP(ip)
ipnum = IPAddr.new(ip)
return ipnum.to_i
end
import ipaddress

def dot2LongIP(ip):
return int(ipaddress.IPv4Address(ip))
uint32_t Dot2LongIP(char* ipstring)
{
	uint32_t ip = inet_addr(ipstring);
	uint8_t *ptr = (uint8_t *) &ip;
	uint32_t a = 0;

	if (ipstring != NULL) {
		a =  (uint8_t)(ptr[3]);
		a += (uint8_t)(ptr[2]) * 256;
		a += (uint8_t)(ptr[1]) * 256 * 256;
		a += (uint8_t)(ptr[0]) * 256 * 256 * 256;
	}

	return a;
}
CREATE FUNCTION Dot2LongIP (ip text)
	RETURNS bigint
	BEGIN
	DECLARE ipnum bigint;
	SET ipnum = (SELECT INET_ATON(ip));
	RETURN ipnum;
END
CREATE FUNCTION [dbo].[Dot2LongIP]( @IP VarChar(15) )
RETURNS BigInt
AS
BEGIN
DECLARE @ipA BigInt,
	 @ipB BigInt,
	 @ipC BigInt,
	 @ipD BigInt,
	 @ipE BigInt
SELECT @ipA = LEFT(@ip, PATINDEX('%.%', @ip) - 1 )
SELECT @ip = RIGHT(@ip, LEN(@ip) - LEN(@ipA) - 1 )

SELECT @ipB = LEFT(@ip, PATINDEX('%.%', @ip) - 1 )
SELECT @ip = RIGHT(@ip, LEN(@ip) - LEN(@ipB) - 1 )

SELECT @ipC = LEFT(@ip, PATINDEX('%.%', @ip) - 1 )
SELECT @ip = RIGHT(@ip, LEN(@ip) - LEN(@ipC) - 1 )

SELECT @ipD = @ip
SELECT @ipE = ( @ipA * 256*256*256 ) + ( @ipB * 256*256 ) + ( @ipC * 256 ) + @ipD

RETURN @ipE
END
CREATE OR REPLACE FUNCTION Dot2LongIP(text) RETURNS BIGINT AS '
SELECT
	split_part($1,''.'',1)::int8*(256*256*256)+
	split_part($1,''.'',2)::int8*(256*256)+
	split_part($1,''.'',3)::int8*256+
	split_part($1,''.'',4)::int8;'
LANGUAGE SQL;
Convert IPv4 IP Address to IP Number in Decimal Integer (IPv4 IP Address is in cell A1):
=((VALUE(LEFT(A1, FIND(".", A1)-1)))*256^3)+((VALUE(MID(A1, FIND(".", A1)+1, FIND(".", A1, FIND(".", A1)+1)-FIND(".", A1)-1)))*256^2)+((VALUE(MID(A1, FIND(".", A1, FIND(".", A1)+1)+1, FIND(".", A1, FIND(".", A1, FIND(".", A1)+1)+1)-FIND(".", A1, FIND(".", A1)+1)-1)))*256)+(VALUE(RIGHT(A1, LEN(A1)-FIND(".", A1, FIND(".", A1, FIND(".", A1)+1)+1))))

IP Address = w.x.y.z

To reverse IP number to IP address,

w = int ( IP Number / 16777216 ) % 256
x = int ( IP Number / 65536    ) % 256
y = int ( IP Number / 256      ) % 256
z = int ( IP Number            ) % 256


where
%
is the modulus operator and
int
returns the integer part of the division.

Näidiskood erinevates programmeerimiskeeltes

Function Modulus(Value1, Value2)
	Modulus = Value1 - (Int(Value1 / Value2) * Value2)
	End Function

	Function Long2DotIP (ByVal IPNum)
	Long2DotIP = Modulus(Int(IPNum / 16777216), 256) & "." & Modulus(Int(IPNum / 65536), 256) & "." & Modulus(Int(IPNum / 256), 256) & "." & Modulus(IPNum, 256)
End Function
function Long2DotIP ($IPNum)
{
	if ($IPNum == "") {
		return "0.0.0.0";
	} else {
		return (($IPNum / 16777216) % 256) . "." . (($IPNum / 65536) % 256) . "." . (($IPNum / 256) % 256) . "." . ($IPNum % 256);
	}
}
String Long2DotIP(long ipnum) {
	String result = "";
	result = ((ipnum / 16777216) % 256) + "." + ((ipnum / 65536) % 256) + "." + ((ipnum / 256) % 256) + "." + (ipnum % 256);
	return result;
}
function Modulus(value1, value2) {
	return arguments.value1 - (floor(arguments.value1 / arguments.value2) * arguments.value2);
}

function Long2DotIP(ipNum) {
	return (Modulus(floor(arguments.ipNum / 16777216), 256)) & "." & (Modulus(floor(arguments.ipNum / 65536), 256)) & "." & (Modulus(floor(arguments.ipNum / 256), 256)) & "." & (Modulus(floor(arguments.ipNum), 256));
}
public string Long2DotIP(long IPNum)
{
	string result = "";
	result = ((IPNum / 16777216) % 256) + "." + ((IPNum / 65536) % 256) + "." + ((IPNum / 256) % 256) + "." + (IPNum % 256);
	return result;
}
Public Function Long2DotIP(ByVal IPNum As Long) As String
	Dim result As String = ""
	result = (Int(IPNum / 16777216) Mod 256) & "." & (Int(IPNum / 65536) Mod 256) & "." & (Int(IPNum / 256) Mod 256) & "." & (IPNum Mod 256)
	Return result
End Function
use Socket;

sub long2DotIP {
	my $ip_number = shift(@_);
	return inet_ntoa(pack("N*", $ip_number));
}
def long2DotIP(ipnum)
	return ((ipnum / 16777216) % 256).to_s + "." + ((ipnum / 65536) % 256).to_s + "." + ((ipnum / 256) % 256).to_s + "." + (ipnum % 256).to_s
end
def long2DotIP(ipnum):
return str(int(ipnum / 16777216) % 256) + "." + str(int(ipnum / 65536) % 256) + "." + str(int(ipnum / 256) % 256) + "." + str(ipnum % 256)
char* Long2DotIP(uint32_t ipnum)
{
	uint8_t bytes[4];
	char* buf = malloc (sizeof (char) * 16);
	bytes[0] = (ipnum >> 24) & 0xFF;
	bytes[1] = (ipnum >> 16) & 0xFF;
	bytes[2] = (ipnum >> 8) & 0xFF;
	bytes[3] = ipnum & 0xFF;

	snprintf(buf, (sizeof (char) * 16), "%d.%d.%d.%d", bytes[0], bytes[1], bytes[2], bytes[3]);

	return buf;
}
CREATE FUNCTION Long2DotIP (ipnum bigint)
	RETURNS text
	BEGIN
	DECLARE ip text;
	SET ip = (SELECT INET_NTOA(ipnum));
	RETURN ip;
END
CREATE FUNCTION [dbo].[Long2DotIP]( @IPNum BigInt )
	RETURNS VARCHAR(15)
	AS
	BEGIN
	RETURN CAST(((@IPNum / 16777216) % 256) AS VARCHAR(3)) +  + CAST(((@IPNum / 65536) % 256) AS VARCHAR(3)) +  + CAST(((@IPNum / 256) % 256) AS VARCHAR(3)) +  + CAST((@IPNum % 256) AS VARCHAR(3))
END
CREATE OR REPLACE FUNCTION Long2DotIP(BIGINT) RETURNS TEXT AS '
SELECT
CONCAT(($1 >> 24) % 256, ''.'', ($1 >> 16) % 256, ''.'', ($1 >> 8) % 256, ''.'', $1 % 256);'
LANGUAGE SQL;
Convert IP Number in Decimal Integer to IPv4 IP Address (Decimal Integer is in cell A1):
=IF(A1<>"", CONCATENATE(MOD(BITRSHIFT(A1, 24), 256), ".", MOD(BITRSHIFT(A1, 16), 256), ".", MOD(BITRSHIFT(A1, 8), 256), ".", MOD(A1, 256)), "")

IP-aadress (IPv6) on jagatud 8 nelja neljateistkümnendkohalise rühma rühma eraldajana kooloniga. Igal rühmal on erinev kaalunumber, millest igaüks on 65536. Andmebaasis kasutatakse IP-numbrit, kuna andmebaasis olevate arvude vahemiku vahel on parem otsida.

Kuidas teisendada IP-number IPv6-aadressiks?

IP Number = (65536^7)*a + (65536^6)*b + (65536^5)*c + (65536^4)*d + (65536^3)*e + (65536^2)*f + 65536*g + h     (1)

where

IP Address = a:b:c:d:e:f:g:h


For example, if the IP address is "2001:0db8:0000:0042:0000:8a2e:0370:7334", then its IP Number will be "42540766411282594074389245746715063092", based on the formula (1).

IP Address (in hexadecimal) = 2001:0db8:0000:0042:0000:8a2e:0370:7334
IP Address (in decimal)     = 8193:3512:0:66:0:35374:880:29492

IP Number = (65536^7)*8193 + (65536^6)*3512 + (65536^5)*0 + (65536^4)*66 + (65536^3)*0 + (65536^2)*35374 + 65536*880 + 29492
          = 5192296858534827628530496329220096*8193 + 79228162514264337593543950336*3512 + 1208925819614629174706176*0 + 18446744073709551616*66 + 281474976710656*0 + 4294967296*35374 + 57671680 + 29492
          = 42540488161975842760550356425300246528 + 278249306750096353628526353580032 + 0 + 1217485108864830406656 + 0 + 151930173128704 + 57671680 + 29492
          = 42540766411282594074389245746715063092

Näidiskood erinevates programmeerimiskeeltes

function Dot2LongIP($ipv6) {
	return (string) gmp_import(inet_pton($ipv6));
}
java.math.BigInteger Dot2LongIP(String ipv6) {
	java.net.InetAddress ia = java.net.InetAddress.getByName(ipv6);
	byte byteArr[] = ia.getAddress();

	if (ia instanceof java.net.Inet6Address) {
		java.math.BigInteger ipnumber = new java.math.BigInteger(1, byteArr);
		return ipnumber;
	}
}
function Dot2LongIP(ipv6)
{
	if (arguments.ipv6 eq "") {
		return 0;
	} else {
		IPV6Long = CreateObject("java","java.math.BigInteger");
		IPV6NetAddress = CreateObject("java","java.net.InetAddress");
		newIp = IPV6NetAddress.getByName(arguments.ipv6);
		bytes = newIp.getAddress();
		bigInt = IPV6Long.init(1, bytes).toString();
		return bigInt;
	}
}
public System.Numerics.BigInteger Dot2LongIP(string ipv6)
{
	System.Net.IPAddress address;
	System.Numerics.BigInteger ipnum;

	if (System.Net.IPAddress.TryParse(ipv6, out address)) {
		byte[] addrBytes = address.GetAddressBytes();

		if (System.BitConverter.IsLittleEndian) {
			System.Collections.Generic.List<byte> byteList = new System.Collections.Generic.List<byte>(addrBytes);
			byteList.Reverse();
			addrBytes = byteList.ToArray();
		}

		if (addrBytes.Length > 8) {
			//IPv6
			ipnum = System.BitConverter.ToUInt64(addrBytes, 8);
			ipnum <<= 64;
			ipnum += System.BitConverter.ToUInt64(addrBytes, 0);
		} else {
			//IPv4
			ipnum = System.BitConverter.ToUInt32(addrBytes, 0);
		}
		return ipnum;
	}
}
Public Function Dot2LongIP(ByVal ipv6 As String) As System.Numerics.BigInteger
	Dim address As System.Net.IPAddress
	Dim ipnum As System.Numerics.BigInteger

	If System.Net.IPAddress.TryParse(ipv6, address) Then
		Dim addrBytes() As Byte = address.GetAddressBytes()

		If System.BitConverter.IsLittleEndian Then
			Dim byteList As New System.Collections.Generic.List(Of Byte)(addrBytes)
			byteList.Reverse()
			addrBytes = byteList.ToArray()
		End If

		If addrBytes.Length > 8 Then
			'IPv6
			ipnum = System.BitConverter.ToUInt64(addrBytes, 8)
			ipnum <<= 64
			ipnum += System.BitConverter.ToUInt64(addrBytes, 0)
		Else
			'IPv4
			ipnum = System.BitConverter.ToUInt32(addrBytes, 0)
		End If
	End If
	Dot2LongIP = ipnum
End Function
use NetAddr::IP;

sub dot2LongIP {
	my $ip_address = shift(@_);
	my $ip_number = NetAddr::IP->new($ip_address) or die;
	return $ip_number->bigint;
}
require 'ipaddr'

def dot2LongIP(ipv6)
	ipnum = IPAddr.new(ipv6)
	return ipnum.to_i
end
import ipaddress

def dot2LongIP(ipv6):
	return int(ipaddress.IPv6Address(ipv6))
#include <arpa/inet.h>
#include <inttypes.h>

typedef unsigned __int128 uint128_t;

uint128_t Dot2LongIP(const char* ipv6) {
	struct sockaddr_in6 sa;
	inet_pton(AF_INET6, ipv6, &(sa.sin6_addr));
	uint128_t ipnum = 0;
	uint128_t octet = 0;
	int i;
	for (i = 0; i < (sizeof(sa.sin6_addr.s6_addr) / sizeof(sa.sin6_addr.s6_addr[0])); i++) {
		octet = ((uint128_t)sa.sin6_addr.s6_addr[i] << ((uint128_t)(15 - i) * 8));
		ipnum = ipnum + octet;
	}
	return ipnum;
}

IP Address = a:b:c:d:e:f:g:h

To reverse IP number to IP address,

a = int ( IP Number / (65536^7) ) % 65536
b = int ( IP Number / (65536^6) ) % 65536
c = int ( IP Number / (65536^5) ) % 65536
d = int ( IP Number / (65536^4) ) % 65536
e = int ( IP Number / (65536^3) ) % 65536
f = int ( IP Number / (65536^2) ) % 65536
g = int ( IP Number / 65536 ) % 65536
h = IP Number % 65536


where
%
is the modulus operator and
int
returns the integer part of the division.

NOTE: All parts need to be converted into hexadecimal to be part of the IPv6 address.

Näidiskood erinevates programmeerimiskeeltes

function Long2DotIP($integer) {
	return inet_ntop(str_pad(gmp_export($integer), 16, "\0", STR_PAD_LEFT));
}
String Long2DotIP(String integer)
{
	String ipstr = new java.math.BigInteger(integer).toString(16);
	String padding = new String(new char[32 - ipstr.length()]).replace("\0", "0");
	String retval = padding + ipstr;
	retval = retval.replaceAll("(.{4})", "$1:").substring(0, 39);
	return retval;
}
function Long2DotIP(integer)
{
	if (arguments.integer eq "") {
		return 0;
	} else {
		retval = "";
		bigobj = CreateObject("java","java.math.BigInteger");
		intval = bigobj.init(integer).toString(16);
		padding = repeatstring("0", 32 - len(intval));
		retval = padding & intval;
		retval = rereplace(rereplace(retval, "(.{4})", "\1:", "ALL"), ":$", "");
		return retval;
	}
}
public string Long2DotIP(string bigint)
{
	string retval = "";
	System.Numerics.BigInteger intval = System.Numerics.BigInteger.Zero;

	if (System.Numerics.BigInteger.TryParse(bigint, out intval)) {
		retval = intval.ToString("x").PadLeft(32, '0');
		char[] trimme = new[] { ':' };
		retval = System.Text.RegularExpressions.Regex.Replace(retval, "(.{4})", "$1:").TrimEnd(trimme);
	}

	return retval;
}
Public Function Long2DotIP(ByVal bigint As String) As String
	Dim retval As String = ""
	Dim intval As System.Numerics.BigInteger = System.Numerics.BigInteger.Zero

	If System.Numerics.BigInteger.TryParse(bigint, intval) Then
		retval = intval.ToString("x").PadLeft(32, "0"c)
		Dim trimme As Char() = {":"c}
		retval = System.Text.RegularExpressions.Regex.Replace(retval, "(.{4})", "$1:").TrimEnd(trimme)
	End If

	Return retval
End Function
use Math::BigInt;

sub long2DotIP {
	my $ipnumstr = shift(@_);
	my $ipnum = Math::BigInt->new($ipnumstr);
	my $iphex = $ipnum->as_hex();
	$iphex =~ s/^0x//;
	my $ipv6 = ('0' x (32 - length($iphex))) . $iphex;
	$ipv6 =~ s/(.{4})/$1:/g;
	$ipv6 =~ s/:$//;

	return $ipv6;
}
def long2DotIP(integer)
	return integer.to_s(16).rjust(32, '0').gsub(/(.{4})/, "\1:").sub(/:$/, "")
end
import re

def long2DotIP(integer):
	retval = format(integer, 'x')
	retval = retval.zfill(32)
	retval = re.sub(r"(.{4})", r"\1:", retval)
	retval = re.sub(r":$", "", retval)
	return retval
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <gmp.h>

char* Long2DotIP(char* ipnum)
{
	mpz_t bigint;
	char* buf = malloc (sizeof (char) * 33);
	char* buf2 = malloc (sizeof (char) * 40);
	int i = 0;
	int parts = 8;
	int partsize = 5;
	char **arr;
	arr = calloc(parts, sizeof *arr);

	for (i = 0; i < parts; i++)
	{
		arr[i] = calloc(partsize, sizeof *arr[i]);
	}
	mpz_init_set_str(bigint, ipnum, 10);
	gmp_snprintf(buf, (sizeof (char) * 33), "%032Zx", bigint);

	for (i = 0; i < parts; i++)
	{
		memcpy(arr[i], buf + (i * 4), 4);
	}

	snprintf(buf2, (sizeof (char) * 40), "%s:%s:%s:%s:%s:%s:%s:%s", arr[0], arr[1], arr[2], arr[3], arr[4], arr[5], arr[6], arr[7]);
	free(buf);
	free(arr);
	return buf2;
}

Esiteks teisendage IP-aadress IP-numbri vorminguks. Otsige IP-riigi andmebaasist, kasutades IP-numbrit, et sobitada kirje, millel on IP-number algava IP-numbri ja lõpu-IP-numbri vahel.

Näiteks on IP-aadressi IP-aadress "72.77.138.60" "1213041212". See sobis andmebaasis järgmise kirjekomplektiga.

"1213041208","1213041215","US","UNITED STATES"

Kui IP-aadresside vahemik pole veel üheski riigis jaotatud, kuvatakse IP2Location riigis väli "-". Seda nimetatakse ka reserveeritud IP-aadressivahemikuks.

Kõigepealt importige see andmebaas oma MSSQL-i, MS-ACCESS-i, PL / SQL-i, MYSQL-i või muusse RDMS-i. Sobiva kirjekomplekti saamiseks kasutage SQL-päringut.

SQL-päringu (MSSQL) näide

SELECT [COUNTRY NAME COLUMN], [REGION NAME COLUMN], [CITY NAME COLUMN], [LATITUDE COLUMN], [LONGITUDE COLUMN], [ZIP CODE COLUMN], [TIME ZONE COLUMN], [ISP COLUMN], [DOMAIN NAME COLUMN], [NETSPEED COLUMN], [IDD CODE COLUMN], [AREA CODE COLUMN], [WEATHER STATION CODE COLUMN], [WEATHER STATION NAME COLUMN], [MCC COLUMN], [MNC COLUMN], [BRAND NAME COLUMN]
FROM [IP-COUNTRY-REGION-CITY-LATITUDE-LONGITUDE-ZIPCODE-TIMEZONE-ISP-DOMAIN-NETSPEED-AREACODE-WEATHER-MOBILE TABLE]
WHERE [SEARCH IP NO] BETWEEN [IP FROM COLUMN] AND [IP TO COLUMN]

SQL-päringu (MYSQL) näide

SELECT [COUNTRY NAME COLUMN], [REGION NAME COLUMN], [CITY NAME COLUMN], [LATITUDE COLUMN], [LONGITUDE COLUMN], [ZIP CODE COLUMN], [TIME ZONE COLUMN], [ISP COLUMN], [DOMAIN NAME COLUMN], [NETSPEED COLUMN], [IDD CODE COLUMN], [AREA CODE COLUMN], [WEATHER STATION CODE COLUMN], [WEATHER STATION NAME COLUMN], [MCC COLUMN], [MNC COLUMN], [BRAND NAME COLUMN]
FROM [IP-COUNTRY-REGION-CITY-LATITUDE-LONGITUDE-ZIPCODE-TIMEZONE-ISP-DOMAIN-NETSPEED-AREACODE-WEATHER-MOBILE TABLE]
WHERE ([IP FROM COLUMN] <= [SEARCH IP NO]) AND ([IP TO COLUMN] >= [SEARCH IP NO])

Ilma puhverserveri tuvastamiseta
<%
ipaddress = Request.ServerVariables("REMOTE_ADDR")
%>
<?
$ipaddress = getenv('REMOTE_ADDR');
?>
<%
String ipaddress = request.getRemoteAddr();
%>
<CFCOMPONENT>
<CFSET ipaddress="#CGI.Remote_Addr#">
</CFCOMPONENT>
Public Function IpAddress()
	IpAddress = Request.ServerVariables("HTTP_X_FORWARDED_FOR")
End Function
Puhverserveri tuvastamisega
<%
ipaddress = Request.ServerVariables("HTTP_X_FORWARDED_FOR")
if ipaddress = "" then
	ipaddress = Request.ServerVariables("REMOTE_ADDR")
end if
%>
<?
if (getenv('HTTP_X_FORWARDED_FOR')) {
	$ipaddress = getenv('HTTP_X_FORWARDED_FOR');
} else {
	$ipaddress = getenv('REMOTE_ADDR');
}
?>
<%
if (request.getHeader("X_FORWARDED_FOR") == null) {
	String ipaddress = request.getRemoteAddr();
} else {
	String ipaddress = request.getHeader("X_FORWARDED_FOR");
}
%>
<CFCOMPONENT>
<CFIF #CGI.HTTP_X_Forwarded_For# EQ "">
<CFSET ipaddress="#CGI.Remote_Addr#">
<CFELSE>
<CFSET ipaddress="#CGI.HTTP_X_Forwarded_For#">
</CFIF>
</CFCOMPONENT>
public string IpAddress()
{
	string strIp;
	strIp = Request.ServerVariables["HTTP_X_FORWARDED_FOR"];

	if (strIp == null) {
		strIp = Request.ServerVariables["REMOTE_ADDR"];
	}
	return strIp;
}
Public Function IpAddress()
	Dim strIp As String
	strIp = Request.ServerVariables("HTTP_X_FORWARDED_FOR")

	If strIp = "" Then
		strIp = Request.ServerVariables("REMOTE_ADDR")
	End If

	IpAddress = strIp
End Function

Jah, edastame teate e-posti teel, kui värskendus on allalaadimisalal saadaval.

Lisateabe saamiseks külastage funktsioonide võrdlust.

IP-aadresside omandiõigus vahetab aeg-ajalt omanikku. Seetõttu tuleb igal aastal värskendada väikest protsenti IP-aadressiplokkidest. Meie täisversiooni andmebaasi uuendatakse iga kuu, et veenduda, et see on alati täpne.

Võite külastada veebisaiti ip2location.com ja teha ostu. Teise võimalusena saate uuendada ka LITE väljaandest konto piirkonnas. Me loome unikaalse sisselogimise / parooli, mis võimaldab teil andmebaasi ühe aasta jooksul pärast tellimuse töötlemist alla laadida.

Saate oma sisselogimise ja parooli e-posti teel kohe pärast makse kinnitamist. Andmekogu meie veebisaidilt saate igal ajal oma volituste abil alla laadida. Teie ribalaiuse ja allalaadimisaja säästmiseks on andmebaas tihendatud ZIP-vormingus.

LITE andmebaasi ühe eksemplari saate omistamisega oma rakendusega edasi jagada. Igakuiste värskenduste allalaadimiseks peate siiski teavitama kõiki kasutajaid, et nad registreeruksid individuaalse litsentsi saidil https: //lite.ip2location.com. Kolmanda osapoole andmebaasi hoidla pole lubatud.

LocaProxy.com. See pakub mitme asukoha HTTP puhverservereid, mis aitavad ettevõtetel geolokatsioonirakendusi testida. See lahendus vähendab testimise kogukulusid, pakkudes hajutatud infrastruktuuri teenusena.

IP2Location ei paku tasuta IP2Location LITE andmebaaside kliendituge. Kui teil on nende andmebaaside kasutamise kohta programmeerimisega seotud küsimusi, millele KKK-des pole vastust, soovitame teil küsida Stack Overflow.