IP函数

IPv4NumToString(num)

接受一个UInt32(大端)表示的IPv4的地址,返回相应IPv4的字符串表现形式,格式为A.B.C.D(以点分割的十进制数字)。

IPv4StringToNum(s)

与IPv4NumToString函数相反。如果IPv4地址格式无效,则返回0。

IPv4NumToStringClassC(num)

与IPv4NumToString类似,但使用xxx替换最后一个字节。

示例:

  1. SELECT
  2. IPv4NumToStringClassC(ClientIP) AS k,
  3. count() AS c
  4. FROM test.hits
  5. GROUP BY k
  6. ORDER BY c DESC
  7. LIMIT 10
  1. ┌─k──────────────┬─────c─┐
  2. 83.149.9.xxx 26238
  3. 217.118.81.xxx 26074
  4. 213.87.129.xxx 25481
  5. 83.149.8.xxx 24984
  6. 217.118.83.xxx 22797
  7. 78.25.120.xxx 22354
  8. 213.87.131.xxx 21285
  9. 78.25.121.xxx 20887
  10. 188.162.65.xxx 19694
  11. 83.149.48.xxx 17406
  12. └────────────────┴───────┘

由于使用’xxx’是不规范的,因此将来可能会更改。我们建议您不要依赖此格式。

IPv6NumToString(x)

接受FixedString(16)类型的二进制格式的IPv6地址。以文本格式返回此地址的字符串。
IPv6映射的IPv4地址以::ffff:111.222.33。例如:

  1. SELECT IPv6NumToString(toFixedString(unhex('2A0206B8000000000000000000000011'), 16)) AS addr
  1. ┌─addr─────────┐
  2. 2a02:6b8::11
  3. └──────────────┘
  1. SELECT
  2. IPv6NumToString(ClientIP6 AS k),
  3. count() AS c
  4. FROM hits_all
  5. WHERE EventDate = today() AND substring(ClientIP6, 1, 12) != unhex('00000000000000000000FFFF')
  6. GROUP BY k
  7. ORDER BY c DESC
  8. LIMIT 10
  1. ┌─IPv6NumToString(ClientIP6)──────────────┬─────c─┐
  2. 2a02:2168:aaa:bbbb::2 24695
  3. 2a02:2698:abcd:abcd:abcd:abcd:8888:5555 22408
  4. 2a02:6b8:0:fff::ff 16389
  5. 2a01:4f8:111:6666::2 16016
  6. 2a02:2168:888:222::1 15896
  7. 2a01:7e00::ffff:ffff:ffff:222 14774
  8. 2a02:8109:eee:ee:eeee:eeee:eeee:eeee 14443
  9. 2a02:810b:8888:888:8888:8888:8888:8888 14345
  10. 2a02:6b8:0:444:4444:4444:4444:4444 14279
  11. 2a01:7e00::ffff:ffff:ffff:ffff 13880
  12. └─────────────────────────────────────────┴───────┘
  1. SELECT
  2. IPv6NumToString(ClientIP6 AS k),
  3. count() AS c
  4. FROM hits_all
  5. WHERE EventDate = today()
  6. GROUP BY k
  7. ORDER BY c DESC
  8. LIMIT 10
  1. ┌─IPv6NumToString(ClientIP6)─┬──────c─┐
  2. ::ffff:94.26.111.111 747440
  3. ::ffff:37.143.222.4 529483
  4. ::ffff:5.166.111.99 317707
  5. ::ffff:46.38.11.77 263086
  6. ::ffff:79.105.111.111 186611
  7. ::ffff:93.92.111.88 176773
  8. ::ffff:84.53.111.33 158709
  9. ::ffff:217.118.11.22 154004
  10. ::ffff:217.118.11.33 148449
  11. ::ffff:217.118.11.44 148243
  12. └────────────────────────────┴────────┘

IPv6StringToNum(s)

与IPv6NumToString的相反。如果IPv6地址格式无效,则返回空字节字符串。
十六进制可以是大写的或小写的。

IPv4ToIPv6(x)

接受一个UInt32类型的IPv4地址,返回FixedString(16)类型的IPv6地址。例如:

  1. SELECT IPv6NumToString(IPv4ToIPv6(IPv4StringToNum('192.168.0.1'))) AS addr
  1. ┌─addr───────────────┐
  2. ::ffff:192.168.0.1
  3. └────────────────────┘

cutIPv6(x, bitsToCutForIPv6, bitsToCutForIPv4)

接受一个FixedString(16)类型的IPv6地址,返回一个String,这个String中包含了删除指定位之后的地址的文本格式。例如:

  1. WITH
  2. IPv6StringToNum('2001:0DB8:AC10:FE01:FEED:BABE:CAFE:F00D') AS ipv6,
  3. IPv4ToIPv6(IPv4StringToNum('192.168.0.1')) AS ipv4
  4. SELECT
  5. cutIPv6(ipv6, 2, 0),
  6. cutIPv6(ipv4, 0, 2)
  1. ┌─cutIPv6(ipv6, 2, 0)─────────────────┬─cutIPv6(ipv4, 0, 2)─┐
  2. 2001:db8:ac10:fe01:feed:babe:cafe:0 ::ffff:192.168.0.0
  3. └─────────────────────────────────────┴─────────────────────┘

IPv4CIDRToRange(ipv4, cidr),

接受一个IPv4地址以及一个UInt8类型的CIDR。返回包含子网最低范围以及最高范围的元组。

  1. SELECT IPv4CIDRToRange(toIPv4('192.168.5.2'), 16)
  1. ┌─IPv4CIDRToRange(toIPv4('192.168.5.2'), 16)─┐
  2. ('192.168.0.0','192.168.255.255')
  3. └────────────────────────────────────────────┘

IPv6CIDRToRange(ipv6, cidr),

接受一个IPv6地址以及一个UInt8类型的CIDR。返回包含子网最低范围以及最高范围的元组。

  1. SELECT IPv6CIDRToRange(toIPv6('2001:0db8:0000:85a3:0000:0000:ac1f:8001'), 32);
  1. ┌─IPv6CIDRToRange(toIPv6('2001:0db8:0000:85a3:0000:0000:ac1f:8001'), 32)─┐
  2. ('2001:db8::','2001:db8:ffff:ffff:ffff:ffff:ffff:ffff')
  3. └────────────────────────────────────────────────────────────────────────┘

toIPv4(string)

IPv4StringToNum()的别名,它采用字符串形式的IPv4地址并返回IPv4类型的值,该二进制值等于IPv4StringToNum()返回的值。

  1. WITH
  2. '171.225.130.45' as IPv4_string
  3. SELECT
  4. toTypeName(IPv4StringToNum(IPv4_string)),
  5. toTypeName(toIPv4(IPv4_string))
  1. ┌─toTypeName(IPv4StringToNum(IPv4_string))─┬─toTypeName(toIPv4(IPv4_string))─┐
  2. UInt32 IPv4
  3. └──────────────────────────────────────────┴─────────────────────────────────┘
  1. WITH
  2. '171.225.130.45' as IPv4_string
  3. SELECT
  4. hex(IPv4StringToNum(IPv4_string)),
  5. hex(toIPv4(IPv4_string))
  1. ┌─hex(IPv4StringToNum(IPv4_string))─┬─hex(toIPv4(IPv4_string))─┐
  2. ABE1822D ABE1822D
  3. └───────────────────────────────────┴──────────────────────────┘

toIPv6(string)

IPv6StringToNum()的别名,它采用字符串形式的IPv6地址并返回IPv6类型的值,该二进制值等于IPv6StringToNum()返回的值。

  1. WITH
  2. '2001:438:ffff::407d:1bc1' as IPv6_string
  3. SELECT
  4. toTypeName(IPv6StringToNum(IPv6_string)),
  5. toTypeName(toIPv6(IPv6_string))
  1. ┌─toTypeName(IPv6StringToNum(IPv6_string))─┬─toTypeName(toIPv6(IPv6_string))─┐
  2. FixedString(16) IPv6
  3. └──────────────────────────────────────────┴─────────────────────────────────┘
  1. WITH
  2. '2001:438:ffff::407d:1bc1' as IPv6_string
  3. SELECT
  4. hex(IPv6StringToNum(IPv6_string)),
  5. hex(toIPv6(IPv6_string))
  1. ┌─hex(IPv6StringToNum(IPv6_string))─┬─hex(toIPv6(IPv6_string))─────────┐
  2. 20010438FFFF000000000000407D1BC1 20010438FFFF000000000000407D1BC1
  3. └───────────────────────────────────┴──────────────────────────────────┘

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