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最新IP地址数据库 二分逼近&二分查找 高效解析800万大数据之区域分布

作者:佚名      ASP.NET网站开发编辑:admin      更新时间:2022-07-23

最新ip地址数据库 二分逼近&二分查找 高效解析800万大数据之区域分布

最新IP地址数据库 来自 QQzeng.com

利用二分逼近(bisection method) ,解析800多万IP 只需几十秒,比较高效!

原来的顺序查找算法 效率比较低

 readonly string ipBinaryFilePath = "qqzengipdb.dat";        readonly byte[] dataBuffer, indexBuffer;        readonly uint[] index = new uint[256];        readonly int dataLength;        public IpLocation()        {            try            {                FileInfo file = new FileInfo(ipBinaryFilePath);                dataBuffer = new byte[file.Length];                using (var fin = new FileStream(file.FullName, FileMode.Open, Fileaccess.Read))                {                    fin.Read(dataBuffer, 0, dataBuffer.Length);                }                                var offset_len = BytesToLong(dataBuffer[0], dataBuffer[1], dataBuffer[2], dataBuffer[3]); //Big Endian                indexBuffer = new byte[offset_len];                Array.Copy(dataBuffer, 4, indexBuffer, 0, offset_len);                dataLength = (int)offset_len;                for (int loop = 0; loop < 256; loop++)                {                    //索引 四字节  LITTLE_ENDIAN                    index[loop] = BytesToLong(indexBuffer[loop * 4 + 3], indexBuffer[loop * 4 + 2], indexBuffer[loop * 4 + 1], indexBuffer[loop * 4]);                }            }            catch { }        }        public string[] Find(string ip)        {            var ips = ip.Split('.');            uint ip_PRefix = uint.Parse(ips[0]);            uint find_uint32 = BytesToLong(byte.Parse(ips[0]), byte.Parse(ips[1]), byte.Parse(ips[2]), byte.Parse(ips[3]));//BIG_ENDIAN                      // LITTLE_ENDIAN            int max_len = 0;                   int resultOffset =-1;            int resultLegth =-1;                        uint start = index[ip_prefix] * 8 + 1024;            if (ip_prefix != 255)            {                max_len = (int)index[ip_prefix + 1] * 8 + 1024;            }            else            {                max_len = (int)index[255] * 8 + 1024+1;            }               for (; start < max_len; start += 8)            {                // 前四位 结束ip   后三位 偏移  最后一位 内容长度                 uint endipNum = BytesToLong(indexBuffer[start + 0], indexBuffer[start + 1], indexBuffer[start + 2], indexBuffer[start + 3]);//BIG_ENDIAN                if (endipNum >= find_uint32)                {                    resultOffset =(int) BytesToLong((byte)0, indexBuffer[start + 6], indexBuffer[start + 5], indexBuffer[start + 4]);//LITTLE_ENDIAN                    resultLegth = 0xFF & indexBuffer[start + 7];// 长度                    break;                }                         }            if (resultOffset==-1||resultLegth==-1)            {                return new string[] {"N/A"};            }            var areaBytes = new byte[resultLegth];            Array.Copy(dataBuffer, dataLength + resultOffset - 1024, areaBytes, 0, resultLegth);            return Encoding.UTF8.GetString(areaBytes).Split(' ');        }             private static uint BytesToLong(byte a, byte b, byte c, byte d)        {                       return ((uint)a << 24) | ((uint)b << 16) | ((uint)c << 8) | (uint)d;        }        public static string long2IP(long longIP)        {            StringBuilder sb = new StringBuilder("");            sb.Append(longIP >> 24);            sb.Append(".");            //将高8位置0,然后右移16为            sb.Append((longIP & 0x00FFFFFF) >> 16);            sb.Append(".");            sb.Append((longIP & 0x0000FFFF) >> 8);            sb.Append(".");            sb.Append((longIP & 0x000000FF));            return sb.ToString();        }      }

改进版 采用二分逼近算法(类似二分查找,但又不同) 性能提升很大

  public string[] Find(string ip)        {            var ips = ip.Split('.');            uint ip_prefix = uint.Parse(ips[0]);            uint find_uint32 = BytesToLong(byte.Parse(ips[0]), byte.Parse(ips[1]), byte.Parse(ips[2]), byte.Parse(ips[3]));//BIG_ENDIAN            uint max_len = 0;            int resultOffset = -1;            int resultLegth = -1;            uint start = index[ip_prefix];            if (ip_prefix != 255)            {                max_len = index[ip_prefix + 1];            }            else            {                max_len = index[255];            }            uint num = max_len - start;            uint my_index = BinarySearch(start, max_len, find_uint32);            start = my_index * 8 + 1024;            resultOffset = (int)BytesToLong((byte)0, indexBuffer[start + 6], indexBuffer[start + 5], indexBuffer[start + 4]);//LITTLE_ENDIAN            resultLegth = 0xFF & indexBuffer[start + 7];// 长度            if (resultOffset == -1 || resultLegth == -1)            {                return new string[] { "N/A" };            }            var areaBytes = new byte[resultLegth];            Array.Copy(dataBuffer, dataLength + resultOffset - 1024, areaBytes, 0, resultLegth);            return Encoding.UTF8.GetString(areaBytes).Split(' ');        }        /// <summary>        /// 二分逼近        /// </summary>        public uint BinarySearch(uint low, uint high, uint k)        {            uint M = 0;            while (low <= high)            {                uint mid = (low + high) / 2;                uint endipNum = GetStartIp(mid);                if (endipNum >= k)                {                    M = mid; //mid有可能是解                    high = mid - 1;                }                else                    low = mid + 1;            }            return M;        }

有了上面高效算法 解析出来800多万数据 也很快 再用一个简单的ling 统计一下即可

  var cn_result= from r in list                        group r by r.cn into g                        select new { key = g.Key, cnt = g.Count() };

800多万数据 统计组图

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IP地址数据库:IP地址数据库