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  • AntiDDoS12000 pc

    Huawei HiSecEngine AntiDDoS12000 Series DDoS Defense System

    Superb performance, millisecond-level response, precise protection, intelligent mitigation

Overview

  • Overview
  • Features
  • Specifications
  • Resources
AntiDDoS12000

Huawei HiSecEngine AntiDDoS12000 Series DDoS Defense System

Huawei HiSecEngine AntiDDoS12000 series provides up to 2.4Tbps security protection performance and service expansion capabilities, ideal for mitigating heavy-traffic DDoS attacks. It can also effectively defend against and block hundreds of complex attacks in seconds or even milliseconds, ensuring customers' service continuity.

Converged Forwarding

Superb performance

NP-boosted defense acceleration, ensuring up to 2.4Tbps defense for a single device.

Intelligent O&M

Millisecond-level response

Millisecond-level response to attacks, causing no impact to services.

Continuous Security

Precise protection

Per-packet detection capability for all traffic and unique defense engine that allows online upgrade, fast blocking 100+ DDoS attacks.

Smart Brain

Intelligent mitigation

Policy templates that combine extensive expert experience, and automatic policy tuning, implementing automatic driving during defense.

Specifications

Model AntiDDoS12004 AntiDDoS12008 AntiDDoS12016
Max Defense Bandwidth 400 Gbps 1.2 Tbps 2.4 Tbps
Max Defense Packet Rate 300 Mpps 900 Mpps 1800 Mpps
Expansion Slots 4 8 16
Expansion Interfaces • 24-port 10GBase-SFP+ + 2-port 40G/100GBase-QSFP28
• 48-port 10GBase-SFP+
• 24-port 10GBase-SFP+ + 2-port 40G/100GBase-QSFP28
• 48-port 10GBase-SFP+
• 4-port 400GBase-QSFP
• 12-port 40G/100GBase-QSFP28
(Only four ports are provided by default. If needed, you can purchase 100G interface expansion RTUs for capacity expansion. Only a maximum of two ports can be added.)
• 24-port 10GBase-SFP+ + 2-port 40G/100GBase-QSFP28
• 48-port 10GBase-SFP+
• 4-port 400GBase-QSFP
• 12-port 40G/100GBase-QSFP28
(Only four ports are provided by default. If needed, you can purchase 100G interface expansion RTUs for capacity expansion. Only a maximum of two ports can be added.)
Dimensions (H x W x D) 438 mm × 442 mm × 874 mm (9.8U) 703 mm x 442 mm × 874 mm (15.8U) 1436 mm x 442 mm x 1033 mm (32.3U)
DDoS Defense Specifications • Defense against malformed-packet attacks

Defense against LAND, Fraggle, Smurf, WinNuke, Ping of Death, Teardrop, and TCP error flag attacks


• Defense against scanning and sniffing attacks

Defense against port scan and IP sweep attacks, and attacks using Tracert packets and IP options, such as IP source route, IP timestamp, and IP route record options


• Defense against network-layer flood attacks

Defense against common network-layer flood attacks, such as SYN flood, SYN-ACK flood, ACK flood, FIN flood, RST flood, TCP Fragment flood, TCP Malformed flood, UDP flood, UDP Malformed, UDP Fragment flood, IP flood, ICMP Fragment flood, ICMP flood, Other flood, carpet-bombing flood, and pulse-wave attacks


• Defense against session-layer attacks

Defense against common session-layer attacks, such as real-source SYN flood, real-source ACK flood, TCP connection exhaustion, sockstress, and TCP null connection attacks


• Defense against UDP reflection attacks

Static rules for filtering common UDP amplification attacks, such as NTP, DNS, SSDP, CLDAP, Memcached, Chargen, SNMP and WSD
Dynamic generation of filtering rules to defend against new UDP amplification attacks


• Defense against TCP reflection attacks

Static filtering rules that are created based on network-layer characteristics
TCP reflection attack filtering rules that are dynamically generated


• Defense against TCP replay attacks

Static filtering rules that are created based on network-layer characteristics
TCP replay attack filtering rules that are dynamically generated


• Defense against application-layer attacks (HTTP)

Defense against high-frequency application-layer attacks (HTTP and HTTP CC attacks) based on behavior analysis
Defense against low-frequency application-layer attacks (HTTP and HTTP CC attacks) based on machine learning
Defense against slow-rate HTTP attacks based on behavior analysis, including HTTP slow header, HTTP slow post, RUDY, LOIC, HTTP multi-methods, HTTP Range request amplification, and HTTP null connection attacks


• Defense against HTTPS/TLS encrypted application-layer attacks

Defense against high-frequency HTTPS/TLS encrypted attacks
Defense against slow-rate incomplete TLS session and null connection attacks


• Defense against application-layer attacks (DNS)

Defense against DNS Malformed, DNS query flood, NXDomain flood, DNS reply flood, and DNS cache poisoning attacks
Source-based rate limiting and domain name–based rate limiting


• Defense against application-layer attacks (SIP)

Defense against SIP flood/SIP methods flood attacks, including Register, Deregistration, Authentication, and Call flood attacks
Source-based rate limiting


• User-defined filtering rules

User-defined filtering rules for local software and hardware, as well as BGP FlowSpec rules for remote filtering. The fields can be customized, including source/destination IP address, packet length, IP protocol, IP payload, source/destination port, TCP flag bit, TCP payload, UDP payload, ICMP payload, DNS domain name, HTTP URI, HTTP field user-agent, as well as caller and callee in the SIP protocol.


• Geographical location filtering

The blocking policy can be customized. For countries outside china, blocking policies can be customized based on country. In China, blocking policies can be customized based on province.


• Dual-stack defense

IPv4/IPv6 dual-stack defense against DDoS attacks


• Automatic tuning of defense policies

Attack traffic snapshot, defense effect evaluation, and automatic tuning of defense policies
Automatic attack evidence collection


• Baseline learning

Support for dynamic traffic baseline learning and learning period configuration


• Packet capture-based evidence collection

Automatic packet capture based on attack events and user-defined ACLs for packet capture
Online parsing and analysis, source tracing, and local analysis after downloading for captured packets


Model AntiDDoS12004-F AntiDDoS12008-F
Max Defense Bandwidth 300 Gbps 600 Gbps
Max Defense Packet Rate 200 Mpps 400 Mpps
Slots of Main Control Unit 2
Main Control Unit Supports 1*100GE QSFP28/2*40GE QSFP+/4*25G SFP28/8*10G SFP+ ports
Expansion Slots 4 8
Expansion Interfaces 2 x 40G/100GBase-QSFP28 + 12 x 100M/1G/10GBase-SFP+
24 x 100M/1G/10GBase-SFP+
Dimensions (H x W x D) 352.8mm x 442mm x 515.5mm (8U) 575mm x 442mm x 515.5mm (13U)
DDoS Defense Specifications • Defense against malformed-packet attacks

Defense against LAND, Fraggle, Smurf, WinNuke, Ping of Death, Teardrop, and TCP error flag attacks


• Defense against scanning and sniffing attacks

Defense against port scan and IP sweep attacks, and attacks using Tracert packets and IP options, such as IP source route, IP timestamp, and IP route record options


• Defense against network-layer flood attacks

Defense against common network-layer flood attacks, such as SYN flood, SYN-ACK flood, ACK flood, FIN flood, RST flood, TCP Fragment flood, TCP Malformed flood, UDP flood, UDP Malformed, UDP Fragment flood, IP flood, ICMP Fragment flood, ICMP flood, Other flood, carpet-bombing flood, and pulse-wave attacks


• Defense against session-layer attacks

Defense against common session-layer attacks, such as real-source SYN flood, real-source ACK flood, TCP connection exhaustion, sockstress, and TCP null connection attacks


• Defense against UDP reflection attacks

Static rules for filtering common UDP amplification attacks, such as NTP, DNS, SSDP, CLDAP, Memcached, Chargen, SNMP and WSD
Dynamic generation of filtering rules to defend against new UDP amplification attacks


• Defense against TCP reflection attacks

Static filtering rules that are created based on network-layer characteristics
TCP reflection attack filtering rules that are dynamically generated


• Defense against TCP replay attacks

Static filtering rules that are created based on network-layer characteristics
TCP replay attack filtering rules that are dynamically generated


• Defense against application-layer attacks (HTTP)

Defense against high-frequency application-layer attacks (HTTP and HTTP CC attacks) based on behavior analysis
Defense against low-frequency application-layer attacks (HTTP and HTTP CC attacks) based on machine learning
Defense against slow-rate HTTP attacks based on behavior analysis, including HTTP slow header, HTTP slow post, RUDY, LOIC, HTTP multi-methods, HTTP Range request amplification, and HTTP null connection attacks


• Defense against HTTPS/TLS encrypted application-layer attacks

Defense against high-frequency HTTPS/TLS encrypted attacks
Defense against slow-rate incomplete TLS session and null connection attacks


• Defense against application-layer attacks (DNS)

Defense against DNS Malformed, DNS query flood, NXDomain flood, DNS reply flood, and DNS cache poisoning attacks
Source-based rate limiting and domain name–based rate limiting


• Defense against application-layer attacks (SIP)

Defense against SIP flood/SIP methods flood attacks, including Register, Deregistration, Authentication, and Call flood attacks
Source-based rate limiting


• User-defined filtering rules

User-defined filtering rules for local software and hardware, as well as BGP FlowSpec rules for remote filtering. The fields can be customized, including source/destination IP address, packet length, IP protocol, IP payload, source/destination port, TCP flag bit, TCP payload, UDP payload, ICMP payload, DNS domain name, HTTP URI, HTTP field user-agent, as well as caller and callee in the SIP protocol.


• Dual-stack defense

IPv4/IPv6 dual-stack defense against DDoS attacks


• Automatic tuning of defense policies

Attack traffic snapshot, defense effect evaluation, and automatic tuning of defense policies
Automatic attack evidence collection


• Baseline learning

Support for dynamic traffic baseline learning and learning period configuration


• Packet capture-based evidence collection

Automatic packet capture based on attack events and user-defined ACLs for packet capture
Online parsing and analysis, source tracing, and local analysis after downloading for captured packets


Resources

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