using Microsoft.AspNetCore.Http; using System; using System.Net; using System.Net.Sockets; namespace Teknik.Utilities { public static class RequestHelper { // based on http://www.grantburton.com/2008/11/30/fix-for-incorrect-ip-addresses-in-wordpress-comments/ public static string ClientIPFromRequest(this HttpRequest request, bool skipPrivate) { foreach (var item in s_HeaderItems) { var ipString = request.Headers[item.Key].ToString(); if (String.IsNullOrEmpty(ipString)) continue; if (item.Split) { foreach (var ip in ipString.Split(',')) if (ValidIP(ip, skipPrivate)) return ip; } else { if (ValidIP(ipString, skipPrivate)) return ipString; } } return request.Host.Value; } private static bool ValidIP(string ip, bool skipPrivate) { IPAddress ipAddr; ip = ip == null ? String.Empty : ip.Trim(); if (0 == ip.Length || false == IPAddress.TryParse(ip, out ipAddr) || (ipAddr.AddressFamily != AddressFamily.InterNetwork && ipAddr.AddressFamily != AddressFamily.InterNetworkV6)) return false; if (skipPrivate && ipAddr.AddressFamily == AddressFamily.InterNetwork) { var addr = IpRange.AddrToUInt64(ipAddr); foreach (var range in s_PrivateRanges) { if (range.Encompasses(addr)) return false; } } return true; } /// /// Provides a simple class that understands how to parse and /// compare IP addresses (IPV4) ranges. /// private sealed class IpRange { private readonly UInt64 _start; private readonly UInt64 _end; public IpRange(string startStr, string endStr) { _start = ParseToUInt64(startStr); _end = ParseToUInt64(endStr); } public static UInt64 AddrToUInt64(IPAddress ip) { var ipBytes = ip.GetAddressBytes(); UInt64 value = 0; foreach (var abyte in ipBytes) { value <<= 8; // shift value += abyte; } return value; } public static UInt64 ParseToUInt64(string ipStr) { var ip = IPAddress.Parse(ipStr); return AddrToUInt64(ip); } public bool Encompasses(UInt64 addrValue) { return _start <= addrValue && addrValue <= _end; } public bool Encompasses(IPAddress addr) { var value = AddrToUInt64(addr); return Encompasses(value); } }; private static readonly IpRange[] s_PrivateRanges = new IpRange[] { new IpRange("0.0.0.0","2.255.255.255"), new IpRange("10.0.0.0","10.255.255.255"), new IpRange("127.0.0.0","127.255.255.255"), new IpRange("169.254.0.0","169.254.255.255"), new IpRange("172.16.0.0","172.31.255.255"), new IpRange("192.0.2.0","192.0.2.255"), new IpRange("192.168.0.0","192.168.255.255"), new IpRange("255.255.255.0","255.255.255.255") }; /// /// Describes a header item (key) and if it is expected to be /// a comma-delimited string /// private sealed class HeaderItem { public readonly string Key; public readonly bool Split; public HeaderItem(string key, bool split) { Key = key; Split = split; } } // order is in trust/use order top to bottom private static readonly HeaderItem[] s_HeaderItems = new HeaderItem[] { new HeaderItem("HTTP_CLIENT_IP",false), new HeaderItem("HTTP_X_FORWARDED_FOR",true), new HeaderItem("HTTP_X_FORWARDED",false), new HeaderItem("HTTP_X_CLUSTER_CLIENT_IP",false), new HeaderItem("HTTP_FORWARDED_FOR",false), new HeaderItem("HTTP_FORWARDED",false), new HeaderItem("HTTP_VIA",false), new HeaderItem("REMOTE_ADDR",false) }; } }