Protocol aware IPsec/TLS/MACsec/DTLS packet engine with classifier and in-line interface for multi-core server processors
5.40Gbps, programmable, maximum CPU offload by classifier, supports new and legacy crypto algorithms, streaming and AMBA interface
Supported by Driver development kit, QuickSec IPsec toolkit, Linaro ODP.
The PacketEngine-IP-197 (EIP-197) security packet engine is comprised of an in-line streaming interface, a look-aside bus interface, an IPsec classifier, a packet transform engine and an optional post decryption processor. The packet engine is used as a bus master in the data plane of the system and processes packets with very little CPU intervention. This engine supports an AXI streaming interface, an AMBA (AXI, AHB, TCM) SoC bus interface and can be delivered in different configurations to support multiple performance grades from 5 to 50Gbps, and cascadable up to 200Gbps. Compared to the PacketEngine-IP-98 it offers higher performance, in-line bump in the wire and bump in the stack systems, and it is able to handle extreme read latencies without performance loss. It has a variety of interfaces to cover many different use cases and integration options tailored to all the supported protocols.
PacketEngine-IP-197 is designed for systems requiring security protocol processing at extreme speeds, where CPU (farms) cannot handle the cryptographic workload due to performance or power limitations. The packet engine handles the security protocol operations and reduces power in high-end servers, communication and network processors for: network processors used in switch applications; data center processing and cloud computing; communication and high-end security gateways.
Performance @500Mhz (up to 1GHz possible):
- PacketEngine-IP-197b is 5Gbps/2.5Gbps (large/small packets), ~1.2M gates
- PacketEngine-IP-197c is 10Gbps/5Gbps (large/small packets), ~2.2M gates
- PacketEngine-IP-197d is 20Gbps/10Gbps (large/small packets), ~3.8M gates
- PacketEngine-IP-197e is 40Gbps/20Gbps (large/small packets), ~7.5M gates
- Multiple 197e engines can be cascades to support larger data rates
- Silicon-proven implementation
- Fast and easy to integrate into SoCs
- Flexible layered design
- Complete range of configurations
- World-class technical support
- Driver development kit
- IPsec-ESP header parsing to look-up a flow
- Fetch flow and corresponding transform record based on lookup result
- Update flow statistics
- Update transform statistics
- Support for IPv4 and IPv6
IPsec transformation (IPv4 and IPv6):
- Full IPsec packet ESP/AH transforms according to latest RFCs (2403, 2404, 2405, 2410, 3566, 3602, 3686, 4106, 4301, 4303, 4308, 4309, 4543, 4835, 4868, 4869, 6054, 6071 and 6379)
- IPsec ESP and AH tunnel & transport mode
- Autonomous IPsec ESP packet classification and s ecurity association selection (both inbound and outbound)
- Insert ESP/AH header for outbound packets, strip and verify ESP/AH header for inbound packets
- Full sequence number processing, including ESN and full anti-replay check with various mask sizes
- Calculate and insert integrity check value for outbound packets, strip and verify for inbound packets
- Append (outbound) / strip and verify (inbound) padding up to 255 bytes
- MACsec frame transforms according to IEEE 802.1AE-2006 and Draft 802.1AEbn/D1.0
- SecTAG insertion and removal,
- PN insertion, removal and verification
- ICV generation, insertion, removal and verification
SSL3.0 / TLS1.0 / TSL1.1 / TLS1.2 / DTLS1.0 / DTLS1.2:
- Full single pass packet transforms according to latest RFCs (246, 4346, 4347, 5246, 6101 and 6347).
- Full Header processing:
- Insert header for outbound packets,
- Strip and verify header for inbound packets,
- Anti-replay check.
- Trailer processing:
- Insert padding up to 255 bytes for outbound packets,
- Strip and verify padding up to 255 bytes for inbound packets,
- Calculate and insert Message Authentication Code for outbound packets, strip and verify for inbound packets.
SRTP packet transforms according to RFC3711:
- SRTP packet transforms according to RFC3711
- ROC insertion and removal,
- MKI insertion and removal,
- TAG generation and insertion.
Wireless Algorithms and SAR mode of operation
- Kasumi f8 and f9,
- SNOW 3G,
- ZUC. Storage algorithms
- AES-XTS (including CTS mode)
- Optimized Security Association format,
- Supports unlimited number of Security Associations.
The cryptographic engine supports the following cryptographic algorithms:
- (3)DES in ECB and CBC with (3x) 56-bit key,
- AES in ECB, CBC, ICM, CTR mode with 128/192/256 bit keys, GCM, GMAC and CCM modes,
- ARC4 in Stateful and Stateless mode, up to 128-bit key, (EIP-97is, EIP-97ies),
- Kasumi in basic and f8 mode (UEA1),
- SNOW3G in basic and 128-EEA1 mode (UEA2),
- ZUC in basic and 128-EEA3 mode (UEA3)
- AES in XTS mode.
The Hash engine supports the following algorithms:
- SHA-1, SHA-2-224, SHA-2-256, SHA-2-384, SHA-2-512, MD5,
- HMAC transforms for SHA-1, SHA-2, MD5,
- SSL-MAC transforms for SHA-1, MD5,
- AES-CCM, AES-XCBC-MAC, AES-CBC-MAC-PRF,
- GHASH, GCM, AES-GCM and AES-GMAC,
- Kasumi in f9 mode (UIA1)
- SNOW3G in basic and 128-EIA1 mode (UIA2),
- ZUC in basic and 128-EIA3 mode (UIA3).
The Pseudo Random Number Generator supports:
- ANSI X9.31 compliant; based on the AES cipher,
- Automatic IV generation.
The Host interface with DMA controller supports:
- Multiple Descriptor Rings with individual access for multiprocessor support,
- Scatter/Gather processing,
- Automatic arbitration and bus flow control,
- Supports big and little endian host systems.
- Decouples Packet Engine from system bus interface
Master and slave interface:
- Master/Slave interface: AXI/AXI or AXI/APB or AHB/AHB slave interface.
- Input and output buffers decouple Packet Engine from system bus interface,
- Convenient SW debug interface including halt mode.
- Clock switching interface for low power consumption.