Convert ipv6 to ipv4

Author: m | 2025-04-24

The IPv4 to IPv6 tool convert the given IPv4 address into a IPv6 address notation. Enter an IPv4 Address: Convert IPv4 Address. IPv6 Presentation. An IPv6 address is represented in eight The IPv4 to IPv6 tool convert the given IPv4 address into a IPv6 address notation. Enter an IPv4 Address: Convert IPv4 Address. IPv6 Presentation. An IPv6 address is represented in eight

Converting IPv6 to IPv4: Convert IPv4 IPv6

Looks like no one’s replied in a while. To start the conversation again, simply ask a new question. how do I convert IPV6 to IPV4 for a single web site in Safari? ACCORDING TO VERIZON WIRELESS (MY IP PROVIDER) MY "INTERNET INSTALLED" CANTENNA/MODEM HAS TROUBLE DELIVERING LARGE-BIT IPV6 PACKETS AS IT WAS DESIGNED BACK IN 2010 WHEN IPV4 WAS THE NORM. THEY APPARENTLY HAVEN'T FIGURED OUT HOW TO UPGRADE THEIR HARDWARE/SOFTWARE AS OF YET. I KNOW THAT THERE IS A WAY TO ONVERT IPV6 TO IPV4 WITHIN PREFERENCES, BUT IT SEEMS TO BE FOR DEVICES ONLY. IS THERE A WAY TO CONVERT THE OUTGOING IPV6 TO AN IPV PACKET STRUCTURE FOR THE YAHOO MAIL SITE ONLY? iMac (27-inch, Late 2013), OS X El Capitan (10.11.6), Cat5e wired to router, router coax Posted on Sep 2, 2016 8:54 AM Posted on Sep 2, 2016 9:08 AM Please stop YELLING. It's rude.You don't "convert IPv6 to IPv4. Either whoever you're talking about at Verizon is completely clueless, or something is getting lost in translation.Why don't you start by explaining what your actual problem is and we'll work from there. how do I convert IPV6 to IPV4 for a single web site in Safari?

IPv4 to IPv6 Converter: Convert IPv4 address to IPv6

Skip to main contentSkip to in-page navigation This browser is no longer supported. Upgrade to Microsoft Edge to take advantage of the latest features, security updates, and technical support. --> IPAddress.MapToIPv4 Method Reference Definition Maps the IPAddress object to an IPv4 address. public: System::Net::IPAddress ^ MapToIPv4(); public System.Net.IPAddress MapToIPv4(); member this.MapToIPv4 : unit -> System.Net.IPAddress Public Function MapToIPv4 () As IPAddress Returns Returns IPAddress.An IPv4 address. Remarks Dual-stack sockets always require IPv6 addresses. The ability to interact with an IPv4 address requires the use of the IPv4-mapped IPv6 address format. Any IPv4 addresses must be represented in the IPv4-mapped IPv6 address format which enables an IPv6 only application to communicate with an IPv4 node. The IPv4-mapped IPv6 address format allows the IPv4 address of an IPv4 node to be represented as an IPv6 address. The IPv4 address is encoded into the low-order 32 bits of the IPv6 address, and the high-order 96 bits hold the fixed prefix 0:0:0:0:0:FFFF. The IPv4-mapped IPv6 address format is specified in RFC 4291. For more information, see www.ietf.org/rfc/rfc4291.txt.If you want to use MapToIPv4 to convert an IPv4 address from IPv6 format to IPv4 format, you must first ensure that you've got an IPv4 address. Call IsIPv4MappedToIPv6, which will return true if the IP address is originally IPv4 written as IPv6, or false otherwise. If IsIPv4MappedToIPv6 returns true, use MapToIPv4 to make the conversion. Applies to --> Collaborate with us on GitHub The source for this content can be found on GitHub, where you can also create and review issues and pull requests. For more information, see our contributor guide. Additional resources In this article

IPv4 to IPv6 Converter - IPv4-Mapped IPv6

IPv6Provider: 2.dnscrypt-cert.quad9.netIP: [2620:fe::fe:9]:8443Quad9 Secured w/ECS: Malware blocking, DNSSEC Validation, ECS enabledPreferred IPv4 DNS server 9.9.9.11Alternate IPv4 DNS server 149.112.112.11Preferred IPv6 DNS server 2620:fe::11Alternate IPv6 DNS server 2620:fe::fe:11DNS over TLS (DoT) tls://dns11.quad9.netDNS over HTTPS (DoH) Unsecured: No Malware blocking, no DNSSEC validation (for experts only!)Preferred IPv4 DNS server 9.9.9.10Alternate IPv4 DNS server 149.112.112.10Preferred IPv6 DNS server 2620:fe::10Alternate IPv6 DNS server 2620:fe::fe:10DNS over TLS (DoT) tls://dns10.quad9.netDNS over HTTPS (DoH) [AS36692]:Cisco OpenDNSPreferred IPv4 DNS server 208.67.222.222Alternate IPv4 DNS server 208.67.220.220 Preferred IPv6 DNS server 2620:119:35::35Alternate IPv6 DNS server 2620:119:53::53 DNSCrypt IPv4 Provider: 2.dnscrypt-cert.opendns.com IP: 208.67.220.220 DNSCrypt IPv6 Provider: 2.dnscrypt-cert.opendns.com IP: [2620:0:ccc::2]DNS over HTTPS (DoH) OpenDNS (FamilyShield)Preferred IPv4 DNS server 208.67.222.123Alternate IPv4 DNS server 208.67.220.123DNSCrypt IPv4Provider: 2.dnscrypt-cert.opendns.com IP: 208.67.220.123DNS over HTTPS (DoH) [AS205157]:CleanBrowsing (Family filter)Preferred IPv4 DNS server 185.228.168.168:853Alternate IPv4 DNS server 185.228.169.168:853Preferred IPv6 DNS server [2a0d:2a00:1::]:853Alternate IPv6 DNS server [2a0d:2a00:2::]:853DNS over TLS (DoT) tls://family-filter-dns.cleanbrowsing.orgDNS over HTTPS (DoH) (Adult filter)Preferred IPv4 DNS server 185.228.168.10:853Alternate IPv4 DNS server 185.228.169.11:853Preferred IPv6 DNS server [2a0d:2a00:1::1]:853Alternate IPv6 DNS server [2a0d:2a00:2::1]:853DNS over TLS (DoT) tls://adult-filter-dns.cleanbrowsing.orgDNS over HTTPS (DoH) (Security Filter)Preferred IPv4 DNS server 185.228.168.9:853Alternate IPv4 DNS server 185.228.169.9:853Preferred IPv6 DNS server [2a0d:2a00:1::2]:853Alternate IPv6 DNS server [2a0d:2a00:2::2]:853DNS over TLS (DoT) tls://security-filter-dns.cleanbrowsing.orgDNS over HTTPS (DoH) [AS13238]:Yandex.DNS (Basic)Preferred IPv4 DNS server 77.88.8.8Alternate IPv4 DNS server 77.88.8.1Preferred IPv6 DNS server 2a02:6b8::feed:0ffAlternate IPv6 DNS server 2a02:6b8:0:1::feed:0ffYandex.DNS (Safe)Preferred IPv4 DNS server 77.88.8.88Alternate IPv4 DNS server 77.88.8.2Preferred IPv6 DNS server 2a02:6b8::feed:badAlternate IPv6 DNS server 2a02:6b8:0:1::feed:badYandex.DNS (Family)Preferred IPv4 DNS server 77.88.8.7Alternate IPv4 DNS server 77.88.8.3Preferred IPv6 DNS server 2a02:6b8::feed:a11Alternate IPv6 DNS server 2a02:6b8:0:1::feed:a11Adguard [AS212772]:Adguard (Default)Preferred IPv4 DNS server 94.140.14.14Alternate IPv4 DNS server 94.140.15.15Preferred IPv6 DNS server 2a10:50c0::ad1:ffAlternate IPv6 DNS server 2a10:50c0::ad2:ffDNS over TLS (DoT) tls://dns.adguard.comDNS over HTTPS (DoH) quic://dns.adguard-dns.comAdguard (Family protection)Preferred IPv4 DNS server 94.140.14.15Alternate IPv4 DNS server 94.140.15.16Preferred IPv6 DNS server 2a10:50c0::bad1:ffAlternate IPv6 DNS server 2a10:50c0::bad2:ffDNS over TLS (DoT) tls://dns-family.adguard.comDNS over HTTPS (DoH) quic://family.adguard-dns.comAdguard (Non-filtering)Preferred IPv4. The IPv4 to IPv6 tool convert the given IPv4 address into a IPv6 address notation. Enter an IPv4 Address: Convert IPv4 Address. IPv6 Presentation. An IPv6 address is represented in eight

Convert IPv4 to IPv6 Use this IPv4 to IPv6 online converter

A string in the connection character set. INET_NTOA() returns NULL if it does not understand its argument. mysql> SELECT INET_NTOA(167773449); -> '10.0.5.9' INET6_ATON(expr) Given an IPv6 or IPv4 network address as a string, returns a binary string that represents the numeric value of the address in network byte order (big endian). Because numeric-format IPv6 addresses require more bytes than the largest integer type, the representation returned by this function has the VARBINARY data type: VARBINARY(16) for IPv6 addresses and VARBINARY(4) for IPv4 addresses. If the argument is not a valid address, or if it is NULL, INET6_ATON() returns NULL. The following examples use HEX() to display the INET6_ATON() result in printable form: mysql> SELECT HEX(INET6_ATON('fdfe::5a55:caff:fefa:9089')); -> 'FDFE0000000000005A55CAFFFEFA9089'mysql> SELECT HEX(INET6_ATON('10.0.5.9')); -> '0A000509' INET6_ATON() observes several constraints on valid arguments. These are given in the following list along with examples. A trailing zone ID is not permitted, as in fe80::3%1 or fe80::3%eth0. A trailing network mask is not permitted, as in 2001:45f:3:ba::/64 or 198.51.100.0/24. For values representing IPv4 addresses, only classless addresses are supported. Classful addresses such as 198.51.1 are rejected. A trailing port number is not permitted, as in 198.51.100.2:8080. Hexadecimal numbers in address components are not permitted, as in 198.0xa0.1.2. Octal numbers are not supported: 198.51.010.1 is treated as 198.51.10.1, not 198.51.8.1. These IPv4 constraints also apply to IPv6 addresses that have IPv4 address parts, such as IPv4-compatible or IPv4-mapped addresses. To convert an IPv4 address expr represented in numeric form as an INT value to an IPv6 address represented in numeric form as a VARBINARY value, use this expression: INET6_ATON(INET_NTOA(expr)) For example: mysql> SELECT HEX(INET6_ATON(INET_NTOA(167773449))); -> '0A000509' If INET6_ATON() is invoked from within the mysql client, binary strings display using hexadecimal notation, depending on the value of the --binary-as-hex. For more information about that option, see Section 6.5.1, “mysql — The MySQL Command-Line Client”. INET6_NTOA(expr) Given an IPv6 or IPv4 network address represented in numeric form as a binary string, returns the string representation of the address as a string in the connection character set. If the argument is not a valid address, or if it is NULL, INET6_NTOA()

IPv4 to IPv6 Converter: Convert IPv4 address to IPv6 address

IPv6 Addressing and Basic Connectivity” chapter of Cisco IOS IPv6 Configuration Library on Cisco.com. IPv6 Applications The switch has IPv6 support for these applications: Ping, traceroute, Telnet, TFTP, and FTP Secure Shell (SSH) over an IPv6 transport HTTP server access over IPv6 transport DNS resolver for AAAA over IPv4 transport Cisco Discovery Protocol (CDP) support for IPv6 addresses For more information about managing these applications, see the “Managing Cisco IOS Applications over IPv6” chapter and the “Implementing IPv6 Addressing and Basic Connectivity” chapter in the Cisco IOS IPv6 Configuration Library on Cisco.com. Dual IPv4 and IPv6 Protocol Stacks You must use the dual IPv4 and IPv6 template to allocate ternary content addressable memory (TCAM) usage to both IPv4 and IPv6 protocols. Dual IPv4 and IPv6 Support on an Interface shows a router forwarding both IPv4 and IPv6 traffic through the same interface, based on the IP packet and destination addresses. Figure 42-1 Dual IPv4 and IPv6 Support on an Interface Use the dual IPv4 and IPv6 switch database management (SDM) template to enable dual-stack environments (supporting both IPv4 and IPv6). For more information about the dual IPv4 and IPv6 SDM template, see Chapter11, “Configuring SDM Templates” The dual IPv4 and IPv6 templates allow the switch to be used in dual-stack environments. If you try to configure IPv6 without first selecting a dual IPv4 and IPv6 template, a warning message appears. In IPv4-only environments, the switch applies IPv4 QoS and ACLs in hardware. IPv6 packets are not supported. In dual IPv4 and IPv6 environments, the switch applies IPv4 QoS and ACLs in hardware. IPv6 QoS and ACLs are not supported. If you do not plan to use IPv6, do not use the dual-stack template because this template results in less TCAM capacity for each resource. For more information about IPv4 and

Free IPv6 to IPv4 and IPv4 to IPv6 converter - RapidSeedbox

Collection version 5.1.2Descriptionansible.utils Scenario GuidePlugin IndexDescriptionAnsible Collection with utilities to ease the management, manipulation, and validation of data within a playbookAuthor:Ansible CommunitySupported ansible-core versions:2.15.0 or newerIssue TrackerRepository (Sources)ansible.utils Scenario GuideUsing the ipaddr filterPlugin IndexThese are the plugins in the ansible.utils collection:Modulescli_parse module – Parse cli output or text using a variety of parsersfact_diff module – Find the difference between currently set factsupdate_fact module – Update currently set factsvalidate module – Validate data with provided criteriaFilter Pluginscidr_merge filter – This filter can be used to merge subnets or individual addresses.consolidate filter – Consolidate facts together on common attributes.fact_diff filter – Find the difference between currently set factsfrom_xml filter – Convert given XML string to native python dictionary.get_path filter – Retrieve the value in a variable using a pathhwaddr filter – HWaddr / MAC address filtersindex_of filter – Find the indices of items in a list matching some criteriaip4_hex filter – This filter is designed to convert IPv4 address to Hexadecimal notation with optional delimiter.ipaddr filter – This filter is designed to return the input value if a query is True, else False.ipcut filter – This filter is designed to get 1st or last few bits of IP address.ipmath filter – This filter is designed to do simple IP math/arithmetic.ipsubnet filter – This filter can be used to manipulate network subnets in several ways.ipv4 filter – To filter only Ipv4 addresses Ipv4 filter is used.ipv6 filter – To filter only Ipv6 addresses Ipv6 filter is used.ipv6form filter – This filter is designed to convert ipv6 address in different formats. For example expand, compressetc.ipwrap filter – This filter is designed to Wrap IPv6 addresses in [ ] brackets.keep_keys filter – Keep specific keys from a data recursively.macaddr filter – macaddr / MAC address filtersnetwork_in_network filter – This filter returns whether an address or a network passed as argument is in a network.network_in_usable filter – The network_in_usable filter returns whether an address passed as an argument is usable in a network.next_nth_usable filter – This filter returns the next nth usable ip within a network described by value.nthhost filter – This filter returns the nth host within a network described by value.param_list_compare filter – Generate the final param list combining/comparing base and provided parameters.previous_nth_usable filter – This filter returns the previous nth usable ip within a network described by value.reduce_on_network filter – This filter reduces a list of addresses to only the addresses that match

Free IPv6 to IPv4 and IPv4 to IPv6 converter - seedhost.net

$3,980 per year DB2 provides an IP geolocation solution to determine the country, and Internet Service Provider (ISP), or company name of IP address. Subscription License Type (1 Year) Server Quantity View Sample Data The IP address range covered by this demo is limited to a small range in the commercial database. Download IPv4 / Download IPv6 Request Free Sample Request free sample database and source codes for PHP, ASP.NET, ASP, C#, VB.NET, Microsoft SQL, and MySQL. Features Translates IP address (IPv4 or IPv6) to country, and Internet Service Provider (ISP), or company name. Current Version 2025-03-01 Update Frequency Semi-monthly Database Format Binary (BIN) ASCII Text File (CSV) IPv4 Database Size BIN: 121.94 MB CSV: 431.44 MB (6,046,585 Rows) IPv6 Database Size BIN: 148.18 MB CSV: 621.66 MB (7,098,197 Rows) Name Type Description ip_from INT(10) / Decimal(39,0) First IP address in netblock. ip_to INT(10) / Decimal(39,0) Last IP address in netblock. country_code CHAR(2) Two-character country code based on ISO 3166. country_name VARCHAR(64) Country name based on ISO 3166. isp VARCHAR(256) Internet Service Provider or company's name. 1. Retrieve Retrieve the IP address from the networking protocol or server-side variable of web server. 2. Convert Convert the IP address to an IP number in decimal format to speed up the database query. 3. Pinpoint Reverse lookup the IP number using geolocation database to pinpoint the exact geographical location. License Agreement: General Terms and Conditions for the database licensing. Server License: Comparison of Standard License, Site License and Redistribution License. IP2Location™ and IP2Proxy™ are registered trademarks of HEXASOFT. All other trademarks are the properties of their respective owners.. The IPv4 to IPv6 tool convert the given IPv4 address into a IPv6 address notation. Enter an IPv4 Address: Convert IPv4 Address. IPv6 Presentation. An IPv6 address is represented in eight The IPv4 to IPv6 tool convert the given IPv4 address into a IPv6 address notation. Enter an IPv4 Address: Convert IPv4 Address. IPv6 Presentation. An IPv6 address is represented in eight

IPv4 to IPv6 Converter - IPv4-Mapped IPv6 Addresses - IPLocation

DNS server 94.140.14.140Alternate IPv4 DNS server 94.140.14.141Preferred IPv6 DNS server 2a10:50c0::1:ffAlternate IPv6 DNS server 2a10:50c0::2:ffDNS over TLS (DoT) tls://unfiltered.adguard-dns.comDNS over HTTPS (DoH) quic://unfiltered.adguard-dns.comNeustar Recursive DNS [AS397223]:Neustar Recursive DNS (Reliability & Performance 1)Preferred IPv4 DNS server 156.154.70.1Alternate IPv4 DNS server 156.154.71.1 Preferred IPv6 DNS server 2610:a1:1018::1Alternate IPv6 DNS server 2610:a1:1019::1Neustar Recursive DNS (Reliability & Performance 2*)Preferred IPv4 DNS server 156.154.70.5Alternate IPv4 DNS server 156.154.71.5 Preferred IPv6 DNS server 2610:a1:1018::5Alternate IPv6 DNS server 2610:a1:1019::5Neustar Recursive DNS (Threat Protection)Preferred IPv4 DNS server 156.154.70.2Alternate IPv4 DNS server 156.154.71.2 Preferred IPv6 DNS server 2610:a1:1018::2Alternate IPv6 DNS server 2610:a1:1019::2Neustar Recursive DNS (Family Secure)Preferred IPv4 DNS server 156.154.70.3Alternate IPv4 DNS server 156.154.71.3 Preferred IPv6 DNS server 2610:a1:1018::3Alternate IPv6 DNS server 2610:a1:1019::3Neustar Recursive DNS (Business Secure)Preferred IPv4 DNS server 156.154.70.4Alternate IPv4 DNS server 156.154.71.4 Preferred IPv6 DNS server 2610:a1:1018::4Alternate IPv6 DNS server 2610:a1:1019::4Quad101 DNS [AS131621]:Preferred IPv4 DNS server 101.101.101.101Alternate IPv4 DNS server 101.102.103.104Preferred IPv6 DNS server 2001:de4::101Alternate IPv6 DNS server 2001:de4::102DNS.Watch [AS44066]:Preferred IPv4 DNS server 84.200.69.80Alternate IPv4 DNS server 84.200.70.40Preferred IPv6 DNS server 2001:1608:10:25::1c04:b12fAlternate IPv6 DNS server 2001:1608:10:25::9249:d69bComodo Secure DNS [AS23393]:Preferred IPv4 DNS server 8.26.56.26Alternate IPv4 DNS server 8.20.247.20Verisign Public DNS [AS19905]:Preferred IPv4 DNS server 64.6.64.6Alternate IPv4 DNS server 64.6.65.6Preferred IPv6 DNS server 2620:74:1b::1:1Alternate IPv6 DNS server 2620:74:1c::2:2Dnspod [AS132203]:Preferred IPv4 DNS server 119.29.29.29Alternate IPv4 DNS server 182.254.116.116 DNS over TLS (DoT) tls://doh.pubDNS over HTTPS (DoH) [AS198794]:Preferred IPv4 DNS server 91.239.100.100Alternate IPv4 DNS server 89.233.43.71Preferred IPv6 DNS server 2001:67c:28a4::Alternate IPv6 DNS server 2a01:3a0:53:53::DNS over TLS (DoT) tls://anycast.uncensoreddns.org:853DNS over HTTPS (DoH) over TLS (DoT) tls://unicast.uncensoreddns.org:853DNS over HTTPS (DoH)

Converting IPv6 to IPv4: Convert IPv4 IPv6

These leave the packet unchanged and are discarded when we enqueue the packet for forwarding to the next hop. Imposition MarkingUnder special circumstances, you can mark a header field that has not yet been added to a packet (we term this behavior imposition marking). The most common example of imposition marking is the application ofthe set mpls experimental imposition command - you can use it on an ingress interface where a packet may arrive containing an IP datagram and no multiprotocol label switching (MPLS) header. When and if the router encapsulates the datagram with a MPLS header, the EXP bits will be marked accordingly as specified by this command.Application of the set dscp tunnel and set precedence tunnel commands (for IPv4 only) represent another example of imposition marking. If an egress policy is applied on a tunnel interface, no tunnel header exists when the policy executes. This means that any marking would apply to the original (eventually inner) IP header. Using either command, you can mark the tunnel (outer) IP header and leave the original header unchanged. The following table lists the tunnel types and encapsulation variants that support these commands: Table 1 Supported DSCP and Precedence Tunnel Marking Configurations Name Outer Header (encapsulating) Inner Header (payload) Comments GRE (4 over 4) IPv4/GRE IPv4 Supported GRE (6 over 4) IPv4/GRE IPv6 Encapsulation not supported GREv6 (4 over 6) IPv6/GRE IPv4 Encapsulation not supported GREv6 (6 over 6) IPv6/GRE IPv6 Encapsulation not supported IP-IP IPv4 IPv4 Supported IPv6-IP IPv4 IPv6 Supported IPv6 (4 over 6) IPv6 IPv4 Encapsulation not supported IPv6 (6 over 6) IPv6 IPv6 Not supported IPSEC (4 over 4) IPv4/IPSEC IPv4 Not supported IPSEC (6 over 4) IPv4/IPSEC IPv6 Not supported IPSECv6 (4 over 6) IPv6/IPSEC IPv4 Encapsulation not supported IPSECv6 (6 over 6) IPv6/IPSEC IPv6 Not supported. The IPv4 to IPv6 tool convert the given IPv4 address into a IPv6 address notation. Enter an IPv4 Address: Convert IPv4 Address. IPv6 Presentation. An IPv6 address is represented in eight The IPv4 to IPv6 tool convert the given IPv4 address into a IPv6 address notation. Enter an IPv4 Address: Convert IPv4 Address. IPv6 Presentation. An IPv6 address is represented in eight

IPv4 to IPv6 Converter: Convert IPv4 address to IPv6

In order to mitigate distributed denial of service attacks. A flow specification rule consists of a matching part encoded in the BGP NLRI field and an action part encoded as BGP extended community as defined in the RFC 5575. A flow specification rule is a set of data (represented in an n-tuple) consisting of several matching criteria that can be applied to IP packet data. BGP flow specification rules are internally converted to equivalent Cisco Common Classification Policy Language (C3PL) representing corresponding match and action parameters. In Cisco IOS 15.5(S) release, Flowspec supports following functions for the BGP route reflector: Flowspec rules defined in RFC 5575 IPv6 extensions Redirect IP extensions BGP flowspec validation Matching Criteria The following table lists the various Flowspec tuples that are supported for BGP. BGP Flowspec NLRI Type QoS Matching Field (IPv6) QoS Matching Field (IPv4) Input Value Type 1 IPv6 destination address IPv4 destination address Prefix length Type 2 IPv6 source address IPv4 source address Prefix length Type 3 IPv6 next header IPv4 protocol Multi-value range Type 4 IPv6 source or destination port IPv4 source or destination port Multi-value range Type 5 IPv6 destination port IPv4 destination port Multi-value range Type 6 IPv6 source port IPv4 source port Multi-value range Type 7 IPv6 ICMP type IPv4 ICMP type Multi-value range Type 8 IPv6 ICMP code IPv4 ICMP code Multi-value range Type 9 IPv6 TCP flags IPv4 TCP flags (2 bytes include reserved bits) Bit mask Type 10 IPv6 packet length IPv4 packet length Multi-value range Type 11 IPv6 traffic class IPv4 DSCP Multi-value range Type 12 Reserved IPv4 fragment bits Bit mask Type 13 IPv6 flow label — Multi-value range How to Configure BGP FlowSpec Route-reflector SupportConfiguring BGP FlowSpec Route-reflector Support Perform this task to configure BGP FlowSpec on a route reflector. This task