"The Mu-4000 uses intelligent fuzzing logic to expose security weaknesses and performance issues in any device that talks to a network. Intelligent, wizard-driven workflow makes tests a snap to configure, and the security profiles produced are top notch. The Mu can even generate exploit binaries for newly discovered vulnerabilities. "

Roger Grimes
Analyst
InfoWorld

Service Level Traffic Variations by Protocol

Mu Dynamics has developed dynamic and stateful service level traffic variation mutations for the following list of protocols. For the most updated information about protocols supported, contact your Mu sales representative.   Service Level Traffic Variations/Protocols Listed in Alphabetical Order Service Level Traffic Variations/Protocols Listed by Family Service Level Traffic Variations/Protocols Listed by Customer Use Case   Service Level Traffic Variations/Protocols Listed by Family Core: Operators of network infrastructure devices are likely to need at least these protocols. ARP, BOOTP, CDP, DHCP, DHCPv6, Diameter, ICMPv4, ICMPv6, IGMP, IPv4, IPv6, MPLS, PPPoE, RADIUS, SSL-TLS, TACACS+, TCP, UDP Industrial Control Systems: Industrial Control System operators that perform service assurance know that their network products are robust. DNP3, ICMPv4, IEC-61850, IPv4, LLDP/LLDP-MED, MMS, MODBUS/TCP Large Financial Enterprise, Web Services: Network application users leverage this set of service level traffic variations. Diameter, FTP, H.323, ICMPv4, ICMPv6, IEEE 802.1Q-2005, IEEE 802.1x-2004, IEEE 802.1X-2004, IKEv2, IMAP, IPv4, IPv6, ISAKMP, LDAP, POP3, RADIUS, SMTP, TACACS+, TCP, TFTP, UDP, VRRP Management: These protocols facilitate management of networks and devices, in the broadest sense. BOOTP, DHCP, DHCPv6, Diameter, HTTP, ICMPv4, IKEv2, IPv4, ISAKMP, LLDP/LLDP-MED, RADIUS, SNMP, SNMPTRAP, SSDP, SSH, TCP, TELNET, UDP Media: Media-intensive devices and networks employing these protocols need to be analyzed deeply. H.248, H.323, ICMPv4, IPv4, LLDP/LLDP-MED, MGCP, RTSP, SCTP, SIP, TCP, UDP Metro Ethernet: Operators of any scale Ethernet networks should ensure that these protocol implementations are robust. ICMPv4, IEEE 802.1Q-2005, IEEE 802.1X-2004, IPv4, LLDP/LLDP-MED, MPLS, TCP, UDP Multicast: Devices that employ multicast technology need a well-implemented, solid foundation of these protocols. ICMPv4, ICMPv6, IGMP, IPv4, IPv6, MLD, PIM-DM/SM Routing: Network operators of all scales must ensure that their routers can tolerate a wide variety of invalid input. ARP, BGP, ICMPv4, ICMPv6, IPv4, IPv6, LDP, MPLS, OSPFv2, OSPFv3, PIM-SM/DM, PPPoE, RIPng, RIPv1/v2, TCP, UDP, VRRP Storage: In order to protect valuable data, protocols used to access stored data must be highly robust. CIFS, ICMPv4, IPv4, MOUNT, NFS, Portmap, TCP, UDP