Secure Web Applications without compromising performance
The SonicWall SMA100 series Web Application Firewall (WAF) enables a defense-in-depth strategy by augmenting perimeter security to protect your web applications running in a private, public or hybrid cloud environment. SMA100 series WAF offers web application protection and information disclosure protection while accelerating web application delivery capabilities that enable application-aware load balancing, SSL offloading for resilience and an enhanced digital engagement and experience.
Prevents data theft via data masking and page-blocking techniques
Bar attackers from gaining access to users’ accounts and all accounts on web servers with extensive access security controls
Forbid invalidated redirects that send users to unsafe webpages and unauthorized page forward to restricted pages
Restrict access to internal resources based on host, subnet, protocol, URL path, and port
ACCELERATE APPLICATION DELIVERY
Enable caching, compression and other HTTP/TCP optimizations to accelerate application delivery
Reduce workload and boost performance by offloading SSL transactions
Perform Layer-7 load balancing to distribute the load across clustered web servers
Monitor health of the web servers and failover traffic to ensure high availability
CROSS-VECTOR THREAT INTELLIGENCE
Leverage SonicWall Capture Labs which gathers, analyzes, and vets cross-vector threat information from a variety of sources, including a million globally placed sensors. This culminates in our ability to stop cross-vector threats across our broad product portfolio including SonicWall WAF. Coupled with Capture ATP, we defend your web applications from known and unknown threats.
CAPTURE ADVANCED THREAT PROTECTION (ATP)
Revolutionizes advanced threat detection and sandboxing with a cloud-based, multi-engine solution for stopping unknown and zero-day attacks at the gateway, and with automated remediation. Leverages the RTDMI engine which proactively blocks mass-market, zero-day threats and unknown malware accurately utilizing real-time memory-based inspection techniques.