* [PATCH] doc/guides: add security document
@ 2024-11-13 4:38 Nandini Persad
2024-11-13 5:03 ` Stephen Hemminger
` (2 more replies)
0 siblings, 3 replies; 8+ messages in thread
From: Nandini Persad @ 2024-11-13 4:38 UTC (permalink / raw)
To: dev; +Cc: Thomas Monjalon, Stephen Hemminger
This is a new document covering security protocols implemented
in DPDK.
Signed-off-by: Nandini Persad <nandinipersad361@gmail.com>
Signed-off-by: Thomas Monjalon <thomas@monjalon.net>
Reviewed-by: Stephen Hemminger <stephen@networkplumber.org>
---
doc/guides/index.rst | 1 +
doc/guides/security/index.rst | 333 ++++++++++++++++++++++++++++++++++
2 files changed, 334 insertions(+)
create mode 100644 doc/guides/security/index.rst
diff --git a/doc/guides/index.rst b/doc/guides/index.rst
index 244b99624c..b8fddc56ae 100644
--- a/doc/guides/index.rst
+++ b/doc/guides/index.rst
@@ -13,6 +13,7 @@ DPDK documentation
sample_app_ug/index
prog_guide/index
howto/index
+ security/index
tools/index
testpmd_app_ug/index
nics/index
diff --git a/doc/guides/security/index.rst b/doc/guides/security/index.rst
new file mode 100644
index 0000000000..5547a93aec
--- /dev/null
+++ b/doc/guides/security/index.rst
@@ -0,0 +1,333 @@
+.. SPDX-License-Identifier: BSD-3-Clause
+
+Security Support Guide
+======================
+
+This document describes the security features available in the DPDK.
+This guide will provides information on each protocol,
+including supported algorithms, practical implementation details, and references.
+
+By detailing the supported algorithms and providing insights into each
+security protocol, this document serves as a resource for anyone looking
+to implement or enhance security measures within their DPDK-based environments.
+
+
+
+Related Documentation
+---------------------
+
+Here is a list of related documents that provide detail of each library,
+its capabilities and what level of support it currently has within DPDK.
+
+* :doc:`Crypto Device Drivers <../cryptodevs/index>`
+ This section contains information about all the crypto drivers in DPDK,
+ such as feature support availability, cipher algorithms and authentication
+ algorithms.
+
+* :doc:`Security Library <../prog_guide/rte_security>`
+ This library is the glue between ethdev and and crypto dev. It includes low-level supported protocols such as MACsec, TLS, IPSec, and PDCP.
+
+* Protocols: These include two supported protocols in DPDK.
+ * :doc:`IPSec Library <../prog_guide/ipsec_lib>`
+ * :doc:`PDCP Library <../prog_guide/pdcp_lib>`
+
+
+Protocols
+---------
+
+QUIC
+~~~~
+
+QUIC (Quick UDP Internet Connections) is a transport layer network
+protocol designed by Google to improve the speed and reliability of web connections.
+QUIC is built on top of the User Datagram Protocol (UDP) and uses a combination of
+encryption and multiplexing to achieve its goals. The protocol's main goal is to
+reduce latency compared to Transmission Control Protocol (TCP). QUIC also
+aims to make HTTP traffic more secure and eventually replace TCP and TLS on
+the web.
+
+Media over QUICK (MoQ) is a new live media protocol powered by QUIC. It is
+a TCP/UDP replacement designed for HTTP/3.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/QUIC
+
+**Standard Link**
+ * https://quic.video/
+
+**Level of Support in DPDK**
+ * Not supported in DPDK.
+
+**Pros**
+ * Useful for time-sensitive application like online gaming or video streaming.
+ * Can send multiple streams of data over a single channel.
+ * Automatically limits the packet transmission rate to counteract load peaks and avoid overload, even with low bandwidth connections.
+ * Uses TLS 1.3, which offers better security than others.
+ * Fast data transfer.
+ * Combines features of TCP, such as reliability and congestion control, with the speed and flexibility of UDP.
+
+**Cons**
+ * Has more complex protocol logic, which can result in higher CPU and memory usage compared to TCP.
+ * May result in poorer transmission rates.
+ * Requires changes to client and server, making it more challenging to deploy that TCP.
+ * Not yet as widely deployed as TCP.
+
+
+MACSec
+~~~~~~
+
+MACsec (accelerated by Marvell) is a network security standard that operates
+at the medium access control layer and defines connectionless data confidentiality
+and integrity for media access independent protocols. It is standardized by the
+IEEE 802.1 working group.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/IEEE_802.1AE
+
+**Standard Link**
+ * https://1.ieee802.org/security/802-1ae/
+
+**Level of Support in DPDK**
+ * Supported in DPDK + 'Sample Application <https://doc.dpdk.org/guides/sample_app_ug/l2_forward_macsec.html>'
+
+**Supported Algorithms**
+ * As specified by MACsec specification: AES-128-GCM, AES-256-GCM
+
+**Drivers**
+ * Marvell cnxk Ethernet PMD which supports inline MACsec
+
+**Facts**
+ * Uses the AES-GCM cryptography algorithm
+ * Works on layer 2 and protects all DHCP and ARP traffic
+ * Each MAC frame has a separate integrity verification code
+ * Prevents attackers from resending copied MAC frames into the network without being detected
+ * Commonly used in environments where securing Ethernet traffic between devices is critical, such as in enterprise networks, data centers and service provider networks
+ * Applications do not need modification to work with IPsec
+
+**Cons**
+ * Only operates at Layer 2, so it doesn't protect traffic beyond the local Ethernet segment or over Layer 3 networks or the internet
+ * Data is decrypted and re-encrypted at each network device,
+which could expose data at each point
+ * Can't detect rogue devices that operate on Layer 1
+ * Relies on hardware for encryption and decryption, so not all network devices can use it
+
+
+IPSec
+~~~~~
+
+IPsec (accelerated by Intel, Marvell, Netronome, NXP) allows secure communication
+over the internet by encrypting data traffic between two or more devices or networks.
+IPsec works on a different layer than MACsec, at layer 3.
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/IPsec
+
+**Standard Link**
+ * https://datatracker.ietf.org/wg/ipsec/about/
+
+**Level of Support in DPDK**
+ * Supported
+ * High-level library and sample application
+ * https://doc.dpdk.org/guides/sample_app_ug/ipsec_secgw.html
+
+**Supported Algorithms**
+ * AES-GCM and ChaCha20-Poly1305
+ * AES CBC and AES-CTR
+ * HMAC-SHA1/SHA2 for integrity protection and authenticity
+
+**Pros**
+ * Uses public keys to create an encrypted, authenticated tunnel to resources
+ * Offers strong security, scalability, and interoperability
+ * IPsec can work across routers
+ * Applications do not need modification to work with IPsec
+
+**Cons**
+ * Can be simple to apply but complex to use. It can also be difficult to configure and place an administrative burden on network administrators
+ * Can impact network performance because it encrypts all traffic and uses strict authentication processes, both of which consume network bandwidth and increase data usage
+ * IPsec relies on the security of public keys. Key management protocol is not part of DPDK but DPDK provides asymmetric crypto APIs which are required for key generation
+
+
+TLS
+~~~
+
+Transport Layer Security (TLS) is a cryptographic protocol that operates at the fifth application layer.
+It encrypts data sent between web applications and servers, such as when a web browser loads a website.
+TLS can also be used to encrypt other types of communication, including: Email, Voice over IP (VoIP),
+File transfers, Video/audio conferencing, and Internet services like DNS and NTP.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446 - TLS 1.3
+ * https://datatracker.ietf.org/doc/html/rfc5246 - TLS 1.2
+ * https://datatracker.ietf.org/doc/html/rfc9147/ - DTLS 1.3
+
+**Level of Support in DPDK**
+ * DPDK supports TLS/DTLS record processing via rte_security APIs
+
+**Pros**
+ * Considered one of the strongest encryption protocols available
+ * Doesn't require parties to encrypt the content they exchange
+ * Universally deployable, doesn't rely on specific operating systems or applications
+ * Can reduce the risk of phishing attacks
+
+**Cons**
+ * May not work with complex proxy caching systems
+ * Adding a server to handle encryption before it gets to the caching server can require additional costs
+ * TLS can be vulnerable to attacks and data leaks, including downgrade attacks, weak ciphers, and programming errors
+ * The added layer of security that TLS provides can come at the cost of speed
+
+
+TLS Handshake
+~~~~~~~~~~~~~
+
+TLS Handshake is the process that kicks off a communication session that uses TLS.
+During a TLS handshake, the two communicating sides exchange messages to acknowledge
+each other, verify each other, establish the cryptographic algorithms they will use,
+and agree on session keys.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security#TLS_handshake
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446#section-4
+
+**Level of Support in DPDK**
+ * Handshake as protocol is not implemented in DPDK. However, it supports asymmetric crypto APIs, which can be used by the protocol.
+
+**Pros**
+ * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all.
+
+**Cons**
+ * Unknown.
+
+
+TLS Record
+~~~~~~~~~~
+
+TLS Record (accelerated by Marvell) Protocol is a layer of the TLS protocol
+that protects application data using keys created during the TLS handshake.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security (Scroll to TLS Record)
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446#section-5
+
+**Level of Support in DPDK**
+ * Supported.
+
+**Supported Algorithms**
+ * TLS 1.3 - AES-GCM-128, AES-GCM-256, CHACHA20-POLY130
+ * TLS1.2/DTLS 1.2 - AES-GCM-128, AES-GCM-256, AES-CBC-128-SHA1,
+ * AES-128-CBC-SHA256, AES-256-CBC-SHA1, AES-256-CBC-SHA256, AES-256-CBC-SHA384, 3DES-CBC-SHA1-HMAC, NULL-SHA1-HMAC, CHACHA20-POLY1305
+
+**Pros**
+ * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all
+
+**Cons**
+ * Unknown if this differs from cons listed under TLS.
+
+
+PDCP
+~~~~
+
+Packet Data Convergence Protocol (PDCP) is a sublayer in the LTE radio protocol stack
+that provides security and integrity protections to Protocol Data Units (PDU) in both
+the control and data planes. PDCP is located between the Radio Link Control (RLC) layer
+and the upper layers of the network, such as the IP layer.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Packet_Data_Convergence_Protocol
+
+**Standard Link**
+ * https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=1177
+
+**Level of Support in DPDK**
+ * Supported. High-level library.
+ * rte_security based PDCP sessions are also supported
+
+**Supported Algorithms**
+ * Encryption algo - NULL, AES-CTR, SNOW, ZUC
+ * Authentication algo - NULL, AES-CMAC, SNOW, ZUC
+
+**Supported Drivers**
+ * Drivers supporting rte_security PDCP:
+ * XPdpaa2_sec, dpaa_sec
+ * Drivers supporting pdcp lib
+ * Marvell cnxk
+ * Intel - QAT, ipsec_mb
+
+**Pros**
+ * Compresses the IP header of user plane packets to reduce overhead and optimize bandwidth usage over the radio interface. This is particularly important in mobile networks where radio resources are limited and efficiency is critical
+ * PDCP encrypts and decrypts user plane data to ensure confidentiality and integrity of data transmitted over the air interface
+ * Has the option of interoperability between different generations of mobile networks (e.g., LTE and 5G) and compatibility with IP-based networks
+
+**Cons**
+ * Limitations currently unclear
+
+
+PSP
+~~~
+
+PSP is a TLS-like protocol created by Google for encrypting data in transit between data centers.
+It uses concepts from IPsec ESP to create an encryption layer on top of IP, and supports non-TCP
+protocols like UDP. Google uses PSP along with other protocols, such as TLS and IPsec, depending on the use case.
+
+
+**Standard Links**
+ * https://cloud.google.com/blog/products/identity-security/announcing-psp-security-protocol-is-now-open-source?hl=en
+ * https://github.com/google/psp
+
+**Level of Support in DPDK**
+ * Not supported in DPDK, but algorithms are supported.
+ * rte_security based PDCP sessions are also supported
+
+**Supported Algorithms**
+ * AES-GCM-128
+ * AES-GCM-256
+ * AES-GMAC
+
+**Pros**
+ * PSP is transport-independent and can be offloaded to hardware
+ * It does not mandate a specific key exchange protocol
+ * Enables per-connection security by allowing an encryption key per layer-4 connection (such as a TCP connection)
+
+**Cons**
+ * Offers few choices for the packet format and the cryptographic algorithms
+
+
+Wireguard
+~~~~~~~~~
+
+Wireguard is a open-source tunneling protocol.
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/WireGuard
+
+**Standard Link**
+ * https://www.wireguard.com/
+
+**Level of Support in DPDK**
+ * Not supported at this time, but algorithms are supported.
+
+**Supported Algorithms**
+ * ChachaPoly SW Driver
+
+**Pros**
+ * Faster than most VPNs
+ * straightforward with a lean codebase
+ * Works with various operating systems such as Linux, Windows, macOS, Android, and iOS
+ * Quick connections (good for mobile environments)
+
+**Cons**
+ * Has been rapidly adopted, but still a new, young protocol.
+ * May not have the same level of extensive real-world testing and deployment as other VPNs.
+ * Widely supported, but compatibility may still be an issue.
--
2.45.2
^ permalink raw reply [flat|nested] 8+ messages in thread
* Re: [PATCH] doc/guides: add security document
2024-11-13 4:38 [PATCH] doc/guides: add security document Nandini Persad
@ 2024-11-13 5:03 ` Stephen Hemminger
2024-11-13 5:12 ` Hemant Agrawal
2024-11-18 17:13 ` [PATCH v2] doc: " Nandini Persad
2 siblings, 0 replies; 8+ messages in thread
From: Stephen Hemminger @ 2024-11-13 5:03 UTC (permalink / raw)
To: Nandini Persad; +Cc: dev, Thomas Monjalon
On Tue, 12 Nov 2024 20:38:13 -0800
Nandini Persad <nandinipersad361@gmail.com> wrote:
> This is a new document covering security protocols implemented
> in DPDK.
>
> Signed-off-by: Nandini Persad <nandinipersad361@gmail.com>
> Signed-off-by: Thomas Monjalon <thomas@monjalon.net>
> Reviewed-by: Stephen Hemminger <stephen@networkplumber.org>
The patch has trailing whitespace on some lines.
The part for doc/guide/index.rst needs to be updated.
Also looks like it is Windows formatted.
Links to other parts of DPDK doc should use internal link format :doc:
rather than web links to https://doc.dpdk.org/
^ permalink raw reply [flat|nested] 8+ messages in thread
* Re: [PATCH] doc/guides: add security document
2024-11-13 4:38 [PATCH] doc/guides: add security document Nandini Persad
2024-11-13 5:03 ` Stephen Hemminger
@ 2024-11-13 5:12 ` Hemant Agrawal
2024-11-18 17:13 ` [PATCH v2] doc: " Nandini Persad
2 siblings, 0 replies; 8+ messages in thread
From: Hemant Agrawal @ 2024-11-13 5:12 UTC (permalink / raw)
To: Nandini Persad, dev; +Cc: Thomas Monjalon, Stephen Hemminger
Hi Nandini,
On 13-11-2024 10:08, Nandini Persad wrote:
> This is a new document covering security protocols implemented
>
> in DPDK.
>
>
>
> Signed-off-by: Nandini Persad <nandinipersad361@gmail.com>
>
> Signed-off-by: Thomas Monjalon <thomas@monjalon.net>
>
> Reviewed-by: Stephen Hemminger <stephen@networkplumber.org>
>
> ---
>
> doc/guides/index.rst | 1 +
>
> doc/guides/security/index.rst | 333 ++++++++++++++++++++++++++++++++++
>
> 2 files changed, 334 insertions(+)
>
> create mode 100644 doc/guides/security/index.rst
>
>
>
> diff --git a/doc/guides/index.rst b/doc/guides/index.rst
>
> index 244b99624c..b8fddc56ae 100644
>
> --- a/doc/guides/index.rst
>
> +++ b/doc/guides/index.rst
>
> @@ -13,6 +13,7 @@ DPDK documentation
>
> sample_app_ug/index
>
> prog_guide/index
>
> howto/index
>
> + security/index
>
> tools/index
>
> testpmd_app_ug/index
>
> nics/index
>
> diff --git a/doc/guides/security/index.rst b/doc/guides/security/index.rst
>
> new file mode 100644
>
> index 0000000000..5547a93aec
>
> --- /dev/null
>
> +++ b/doc/guides/security/index.rst
>
> @@ -0,0 +1,333 @@
>
> +.. SPDX-License-Identifier: BSD-3-Clause
>
> +
>
> +Security Support Guide
>
> +======================
>
> +
>
> +This document describes the security features available in the DPDK.
>
> +This guide will provides information on each protocol,
>
> +including supported algorithms, practical implementation details, and references.
>
> +
>
> +By detailing the supported algorithms and providing insights into each
>
> +security protocol, this document serves as a resource for anyone looking
>
> +to implement or enhance security measures within their DPDK-based environments.
>
> +
>
> +
>
> +
>
> +Related Documentation
>
> +---------------------
>
> +
>
> +Here is a list of related documents that provide detail of each library,
>
> +its capabilities and what level of support it currently has within DPDK.
>
> +
>
> +* :doc:`Crypto Device Drivers <../cryptodevs/index>`
>
> + This section contains information about all the crypto drivers in DPDK,
>
> + such as feature support availability, cipher algorithms and authentication
>
> + algorithms.
>
> +
>
> +* :doc:`Security Library <../prog_guide/rte_security>`
>
> + This library is the glue between ethdev and and crypto dev. It includes low-level supported protocols such as MACsec, TLS, IPSec, and PDCP.
>
> +
>
> +* Protocols: These include two supported protocols in DPDK.
>
> + * :doc:`IPSec Library <../prog_guide/ipsec_lib>`
>
> + * :doc:`PDCP Library <../prog_guide/pdcp_lib>`
>
> +
>
> +
>
> +Protocols
>
> +---------
>
> +
>
> +QUIC
>
> +~~~~
>
> +
should we move the non-dpdk supported protocols towards ends?
>
> +QUIC (Quick UDP Internet Connections) is a transport layer network
>
> +protocol designed by Google to improve the speed and reliability of web connections.
>
> +QUIC is built on top of the User Datagram Protocol (UDP) and uses a combination of
>
> +encryption and multiplexing to achieve its goals. The protocol's main goal is to
>
> +reduce latency compared to Transmission Control Protocol (TCP). QUIC also
>
> +aims to make HTTP traffic more secure and eventually replace TCP and TLS on
>
> +the web.
>
> +
>
> +Media over QUICK (MoQ) is a new live media protocol powered by QUIC. It is
>
> +a TCP/UDP replacement designed for HTTP/3.
>
> +
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/QUIC
>
> +
>
> +**Standard Link**
>
> + * https://quic.video/
>
> +
>
> +**Level of Support in DPDK**
>
> + * Not supported in DPDK.
>
> +
>
> +**Pros**
>
> + * Useful for time-sensitive application like online gaming or video streaming.
>
> + * Can send multiple streams of data over a single channel.
>
> + * Automatically limits the packet transmission rate to counteract load peaks and avoid overload, even with low bandwidth connections.
>
> + * Uses TLS 1.3, which offers better security than others.
>
> + * Fast data transfer.
>
> + * Combines features of TCP, such as reliability and congestion control, with the speed and flexibility of UDP.
>
> +
>
> +**Cons**
>
> + * Has more complex protocol logic, which can result in higher CPU and memory usage compared to TCP.
>
> + * May result in poorer transmission rates.
>
> + * Requires changes to client and server, making it more challenging to deploy that TCP.
>
> + * Not yet as widely deployed as TCP.
>
> +
>
> +
>
> +MACSec
>
> +~~~~~~
>
> +
>
> +MACsec (accelerated by Marvell) is a network security standard that operates
>
> +at the medium access control layer and defines connectionless data confidentiality
>
> +and integrity for media access independent protocols. It is standardized by the
>
> +IEEE 802.1 working group.
>
> +
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/IEEE_802.1AE
>
> +
>
> +**Standard Link**
>
> + * https://1.ieee802.org/security/802-1ae/
>
> +
>
> +**Level of Support in DPDK**
>
> + * Supported in DPDK + 'Sample Application <https://doc.dpdk.org/guides/sample_app_ug/l2_forward_macsec.html>'
>
> +
>
> +**Supported Algorithms**
>
> + * As specified by MACsec specification: AES-128-GCM, AES-256-GCM
>
> +
>
> +**Drivers**
>
> + * Marvell cnxk Ethernet PMD which supports inline MACsec
>
> +
>
> +**Facts**
>
> + * Uses the AES-GCM cryptography algorithm
>
> + * Works on layer 2 and protects all DHCP and ARP traffic
>
> + * Each MAC frame has a separate integrity verification code
>
> + * Prevents attackers from resending copied MAC frames into the network without being detected
>
> + * Commonly used in environments where securing Ethernet traffic between devices is critical, such as in enterprise networks, data centers and service provider networks
>
> + * Applications do not need modification to work with IPsec
>
> +
>
> +**Cons**
>
> + * Only operates at Layer 2, so it doesn't protect traffic beyond the local Ethernet segment or over Layer 3 networks or the internet
>
> + * Data is decrypted and re-encrypted at each network device,
>
> +which could expose data at each point
>
> + * Can't detect rogue devices that operate on Layer 1
>
> + * Relies on hardware for encryption and decryption, so not all network devices can use it
>
> +
>
> +
>
> +IPSec
>
> +~~~~~
>
> +
>
> +IPsec (accelerated by Intel, Marvell, Netronome, NXP) allows secure communication
>
> +over the internet by encrypting data traffic between two or more devices or networks.
>
> +IPsec works on a different layer than MACsec, at layer 3.
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/IPsec
>
> +
>
> +**Standard Link**
>
> + * https://datatracker.ietf.org/wg/ipsec/about/
>
> +
>
> +**Level of Support in DPDK**
>
> + * Supported
>
> + * High-level library and sample application
https://doc.dpdk.org/guides/prog_guide/ipsec_lib.html
>
> + * https://doc.dpdk.org/guides/sample_app_ug/ipsec_secgw.html
>
> +
>
> +**Supported Algorithms**
>
> + * AES-GCM and ChaCha20-Poly1305
>
> + * AES CBC and AES-CTR
>
> + * HMAC-SHA1/SHA2 for integrity protection and authenticity
>
> +
>
> +**Pros**
>
> + * Uses public keys to create an encrypted, authenticated tunnel to resources
>
> + * Offers strong security, scalability, and interoperability
>
> + * IPsec can work across routers
>
> + * Applications do not need modification to work with IPsec
>
> +
>
> +**Cons**
>
> + * Can be simple to apply but complex to use. It can also be difficult to configure and place an administrative burden on network administrators
>
> + * Can impact network performance because it encrypts all traffic and uses strict authentication processes, both of which consume network bandwidth and increase data usage
>
> + * IPsec relies on the security of public keys. Key management protocol is not part of DPDK but DPDK provides asymmetric crypto APIs which are required for key generation
>
> +
>
> +
>
> +TLS
>
> +~~~
>
> +
>
> +Transport Layer Security (TLS) is a cryptographic protocol that operates at the fifth application layer.
>
> +It encrypts data sent between web applications and servers, such as when a web browser loads a website.
>
> +TLS can also be used to encrypt other types of communication, including: Email, Voice over IP (VoIP),
>
> +File transfers, Video/audio conferencing, and Internet services like DNS and NTP.
>
> +
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/Transport_Layer_Security
>
> +
>
> +**Standard Link**
>
> + * https://datatracker.ietf.org/doc/html/rfc8446 - TLS 1.3
>
> + * https://datatracker.ietf.org/doc/html/rfc5246 - TLS 1.2
>
> + * https://datatracker.ietf.org/doc/html/rfc9147/ - DTLS 1.3
>
> +
>
> +**Level of Support in DPDK**
>
> + * DPDK supports TLS/DTLS record processing via rte_security APIs
>
> +
>
> +**Pros**
>
> + * Considered one of the strongest encryption protocols available
>
> + * Doesn't require parties to encrypt the content they exchange
>
> + * Universally deployable, doesn't rely on specific operating systems or applications
>
> + * Can reduce the risk of phishing attacks
>
> +
>
> +**Cons**
>
> + * May not work with complex proxy caching systems
>
> + * Adding a server to handle encryption before it gets to the caching server can require additional costs
>
> + * TLS can be vulnerable to attacks and data leaks, including downgrade attacks, weak ciphers, and programming errors
>
> + * The added layer of security that TLS provides can come at the cost of speed
>
> +
>
> +
>
> +TLS Handshake
>
> +~~~~~~~~~~~~~
>
> +
>
> +TLS Handshake is the process that kicks off a communication session that uses TLS.
>
> +During a TLS handshake, the two communicating sides exchange messages to acknowledge
>
> +each other, verify each other, establish the cryptographic algorithms they will use,
>
> +and agree on session keys.
>
> +
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/Transport_Layer_Security#TLS_handshake
>
> +
>
> +**Standard Link**
>
> + * https://datatracker.ietf.org/doc/html/rfc8446#section-4
>
> +
>
> +**Level of Support in DPDK**
>
> + * Handshake as protocol is not implemented in DPDK. However, it supports asymmetric crypto APIs, which can be used by the protocol.
>
> +
>
> +**Pros**
>
> + * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all.
>
> +
>
> +**Cons**
>
> + * Unknown.
>
> +
>
> +
>
> +TLS Record
>
> +~~~~~~~~~~
>
> +
>
> +TLS Record (accelerated by Marvell) Protocol is a layer of the TLS protocol
>
> +that protects application data using keys created during the TLS handshake.
>
> +
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/Transport_Layer_Security (Scroll to TLS Record)
>
> +
>
> +**Standard Link**
>
> + * https://datatracker.ietf.org/doc/html/rfc8446#section-5
>
> +
>
> +**Level of Support in DPDK**
>
> + * Supported.
>
> +
>
> +**Supported Algorithms**
>
> + * TLS 1.3 - AES-GCM-128, AES-GCM-256, CHACHA20-POLY130
>
> + * TLS1.2/DTLS 1.2 - AES-GCM-128, AES-GCM-256, AES-CBC-128-SHA1,
>
> + * AES-128-CBC-SHA256, AES-256-CBC-SHA1, AES-256-CBC-SHA256, AES-256-CBC-SHA384, 3DES-CBC-SHA1-HMAC, NULL-SHA1-HMAC, CHACHA20-POLY1305
>
> +
>
> +**Pros**
>
> + * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all
>
> +
>
> +**Cons**
>
> + * Unknown if this differs from cons listed under TLS.
>
> +
>
> +
>
> +PDCP
>
> +~~~~
>
> +
>
> +Packet Data Convergence Protocol (PDCP) is a sublayer in the LTE radio protocol stack
LTE/5G
>
> +that provides security and integrity protections to Protocol Data Units (PDU) in both
>
> +the control and data planes. PDCP is located between the Radio Link Control (RLC) layer
>
> +and the upper layers of the network, such as the IP layer.
>
> +
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/Packet_Data_Convergence_Protocol
>
> +
>
> +**Standard Link**
>
> + * https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=1177
>
> +
>
> +**Level of Support in DPDK**
>
> + * Supported. High-level library.
Please also provide dpdk link here:
https://doc.dpdk.org/guides/prog_guide/pdcp_lib.html
>
> + * rte_security based PDCP sessions are also supported
>
> +
>
> +**Supported Algorithms**
>
> + * Encryption algo - NULL, AES-CTR, SNOW, ZUC
>
> + * Authentication algo - NULL, AES-CMAC, SNOW, ZUC
>
> +
>
> +**Supported Drivers**
>
> + * Drivers supporting rte_security PDCP:
>
> + * XPdpaa2_sec, dpaa_sec
NXP dpaa2_sec, dpaa_sec
>
> + * Drivers supporting pdcp lib
>
> + * Marvell cnxk
>
> + * Intel - QAT, ipsec_mb
+
> +**Pros**
>
> + * Compresses the IP header of user plane packets to reduce overhead and optimize bandwidth usage over the radio interface. This is particularly important in mobile networks where radio resources are limited and efficiency is critical
>
> + * PDCP encrypts and decrypts user plane data to ensure confidentiality and integrity of data transmitted over the air interface
>
> + * Has the option of interoperability between different generations of mobile networks (e.g., LTE and 5G) and compatibility with IP-based networks
>
> +
>
> +**Cons**
>
> + * Limitations currently unclear
>
> +
>
> +
>
> +PSP
>
> +~~~
>
> +
>
> +PSP is a TLS-like protocol created by Google for encrypting data in transit between data centers.
>
> +It uses concepts from IPsec ESP to create an encryption layer on top of IP, and supports non-TCP
>
> +protocols like UDP. Google uses PSP along with other protocols, such as TLS and IPsec, depending on the use case.
>
> +
>
> +
>
> +**Standard Links**
>
> + * https://cloud.google.com/blog/products/identity-security/announcing-psp-security-protocol-is-now-open-source?hl=en
>
> + * https://github.com/google/psp
>
> +
>
> +**Level of Support in DPDK**
>
> + * Not supported in DPDK, but algorithms are supported.
>
> + * rte_security based PDCP sessions are also supported
>
> +
>
> +**Supported Algorithms**
>
> + * AES-GCM-128
>
> + * AES-GCM-256
>
> + * AES-GMAC
>
> +
>
> +**Pros**
>
> + * PSP is transport-independent and can be offloaded to hardware
>
> + * It does not mandate a specific key exchange protocol
>
> + * Enables per-connection security by allowing an encryption key per layer-4 connection (such as a TCP connection)
>
> +
>
> +**Cons**
>
> + * Offers few choices for the packet format and the cryptographic algorithms
>
> +
>
> +
>
> +Wireguard
>
> +~~~~~~~~~
>
> +
>
> +Wireguard is a open-source tunneling protocol.
>
> +
>
> +**Wikipedia Link**
>
> + * https://en.wikipedia.org/wiki/WireGuard
>
> +
>
> +**Standard Link**
>
> + * https://www.wireguard.com/
>
> +
>
> +**Level of Support in DPDK**
>
> + * Not supported at this time, but algorithms are supported.
>
> +
>
> +**Supported Algorithms**
>
> + * ChachaPoly SW Driver
>
> +
>
> +**Pros**
>
> + * Faster than most VPNs
>
> + * straightforward with a lean codebase
>
> + * Works with various operating systems such as Linux, Windows, macOS, Android, and iOS
>
> + * Quick connections (good for mobile environments)
>
> +
>
> +**Cons**
>
> + * Has been rapidly adopted, but still a new, young protocol.
>
> + * May not have the same level of extensive real-world testing and deployment as other VPNs.
>
> + * Widely supported, but compatibility may still be an issue.
>
^ permalink raw reply [flat|nested] 8+ messages in thread
* [PATCH v2] doc: add security document
2024-11-13 4:38 [PATCH] doc/guides: add security document Nandini Persad
2024-11-13 5:03 ` Stephen Hemminger
2024-11-13 5:12 ` Hemant Agrawal
@ 2024-11-18 17:13 ` Nandini Persad
2024-11-19 5:01 ` Hemant Agrawal
2024-11-20 3:12 ` [PATCH v3] " Nandini Persad
2 siblings, 2 replies; 8+ messages in thread
From: Nandini Persad @ 2024-11-18 17:13 UTC (permalink / raw)
To: dev; +Cc: Thomas Monjalon, Stephen Hemminger
This is a new document covering security protocols
implemented in DPDK.
Signed-off-by: Nandini Persad <nandinipersad361@gmail.com>
Signed-off-by: Thomas Monjalon <thomas@monjalon.net>
Reviewed-by: Stephen Hemminger <stephen@networkplumber.org>
---
V2 - incorporate review feedback
doc/guides/index.rst | 1 +
doc/guides/security/security.rst | 337 +++++++++++++++++++++++++++++++
2 files changed, 338 insertions(+)
create mode 100644 doc/guides/security/security.rst
diff --git a/doc/guides/index.rst b/doc/guides/index.rst
index 244b99624c..b8fddc56ae 100644
--- a/doc/guides/index.rst
+++ b/doc/guides/index.rst
@@ -13,6 +13,7 @@ DPDK documentation
sample_app_ug/index
prog_guide/index
howto/index
+ security/index
tools/index
testpmd_app_ug/index
nics/index
diff --git a/doc/guides/security/security.rst b/doc/guides/security/security.rst
new file mode 100644
index 0000000000..ab2dfa4a4a
--- /dev/null
+++ b/doc/guides/security/security.rst
@@ -0,0 +1,337 @@
+.. SPDX-License-Identifier: BSD-3-Clause
+
+Security Support Guide
+======================
+
+This document describes the security features available in the DPDK.
+This guide will provides information on each protocol,
+including supported algorithms, practical implementation details, and references.
+
+By detailing the supported algorithms and providing insights into each
+security protocol, this document serves as a resource for anyone looking
+to implement or enhance security measures within their DPDK-based environments.
+
+
+
+Related Documentation
+---------------------
+
+Here is a list of related documents that provide detail of each library,
+its capabilities and what level of support it currently has within DPDK.
+
+* :doc:`Crypto Device Drivers <../cryptodevs/index>`
+ This section contains information about all the crypto drivers in DPDK,
+ such as feature support availability, cipher algorithms and authentication
+ algorithms.
+
+* :doc:`Security Library <../prog_guide/rte_security>`
+ This library is the glue between ethdev and crypto dev. It includes low-level supported protocols such as MACsec, TLS, IPSec, and PDCP.
+
+* Protocols: These include two supported protocols in DPDK.
+ * :doc:`IPSec Library <../prog_guide/ipsec_lib>`
+ * :doc:`PDCP Library <../prog_guide/pdcp_lib>`
+
+
+Protocols
+---------
+
+
+MACSec
+~~~~~~
+
+MACsec (accelerated by Marvell) is a network security standard that operates
+at the medium access control layer and defines connectionless data confidentiality
+and integrity for media access independent protocols. It is standardized by the
+IEEE 802.1 working group.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/IEEE_802.1AE
+
+**Standard Link**
+ * https://1.ieee802.org/security/802-1ae/
+
+**Level of Support in DPDK**
+ * Supported in DPDK + Sample Application :doc:`MACSec Sample Application <../sample_app_ug/l2_forward_macsec.html>>`
+
+**Supported Algorithms**
+ * As specified by MACsec specification: AES-128-GCM, AES-256-GCM
+
+**Drivers**
+ * Marvell cnxk Ethernet PMD which supports inline MACsec
+
+**Facts**
+ * Uses the AES-GCM cryptography algorithm
+ * Works on layer 2 and protects all DHCP and ARP traffic
+ * Each MAC frame has a separate integrity verification code
+ * Prevents attackers from resending copied MAC frames into the network without being detected
+ * Commonly used in environments where securing Ethernet traffic between devices is critical, such as in enterprise networks, data centers and service provider networks
+ * Applications do not need modification to work with IPsec
+
+**Cons**
+ * Only operates at Layer 2, so it doesn't protect traffic beyond the local Ethernet segment or over Layer 3 networks or the internet
+ * Data is decrypted and re-encrypted at each network device,
+which could expose data at each point
+ * Can't detect rogue devices that operate on Layer 1
+ * Relies on hardware for encryption and decryption, so not all network devices can use it
+
+
+IPSec
+~~~~~
+
+IPsec (accelerated by Intel, Marvell, Netronome, NXP) allows secure communication
+over the internet by encrypting data traffic between two or more devices or networks.
+IPsec works on a different layer than MACsec, at layer 3.
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/IPsec
+
+**Standard Link**
+ * https://datatracker.ietf.org/wg/ipsec/about/
+
+**Level of Support in DPDK**
+ * Supported
+ * High-level library and sample application
+ * :doc:`IPSec Library <../prog_guide/ipsec_lib>`
+ * :doc:`IPSec Sample Application <../sample_app_ug/ipsec_secgw>`
+
+**Supported Algorithms**
+ * AES-GCM and ChaCha20-Poly1305
+ * AES CBC and AES-CTR
+ * HMAC-SHA1/SHA2 for integrity protection and authenticity
+
+**Pros**
+ * Uses public keys to create an encrypted, authenticated tunnel to resources
+ * Offers strong security, scalability, and interoperability
+ * IPsec can work across routers
+ * Applications do not need modification to work with IPsec
+
+**Cons**
+ * Can be simple to apply but complex to use. It can also be difficult to configure and place an administrative burden on network administrators
+ * Can impact network performance because it encrypts all traffic and uses strict authentication processes, both of which consume network bandwidth and increase data usage
+ * IPsec relies on the security of public keys. Key management protocol is not part of DPDK but DPDK provides asymmetric crypto APIs which are required for key generation
+
+
+TLS
+~~~
+
+Transport Layer Security (TLS) is a cryptographic protocol that operates at the fifth application layer.
+It encrypts data sent between web applications and servers, such as when a web browser loads a website.
+TLS can also be used to encrypt other types of communication, including: Email, Voice over IP (VoIP),
+File transfers, Video/audio conferencing, and Internet services like DNS and NTP.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446 - TLS 1.3
+ * https://datatracker.ietf.org/doc/html/rfc5246 - TLS 1.2
+ * https://datatracker.ietf.org/doc/html/rfc9147/ - DTLS 1.3
+
+**Level of Support in DPDK**
+ * DPDK supports TLS/DTLS record processing via rte_security APIs
+
+**Pros**
+ * Considered one of the strongest encryption protocols available
+ * Doesn't require parties to encrypt the content they exchange
+ * Universally deployable, doesn't rely on specific operating systems or applications
+ * Can reduce the risk of phishing attacks
+
+**Cons**
+ * May not work with complex proxy caching systems
+ * Adding a server to handle encryption before it gets to the caching server can require additional costs
+ * TLS can be vulnerable to attacks and data leaks, including downgrade attacks, weak ciphers, and programming errors
+ * The added layer of security that TLS provides can come at the cost of speed
+
+
+TLS Handshake
+~~~~~~~~~~~~~
+
+TLS Handshake is the process that kicks off a communication session that uses TLS.
+During a TLS handshake, the two communicating sides exchange messages to acknowledge
+each other, verify each other, establish the cryptographic algorithms they will use,
+and agree on session keys.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security#TLS_handshake
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446#section-4
+
+**Level of Support in DPDK**
+ * Handshake as protocol is not implemented in DPDK. However, it supports asymmetric crypto APIs, which can be used by the protocol.
+
+**Pros**
+ * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all.
+
+**Cons**
+ * Unknown.
+
+
+TLS Record
+~~~~~~~~~~
+
+TLS Record (accelerated by Marvell) Protocol is a layer of the TLS protocol
+that protects application data using keys created during the TLS handshake.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security (Scroll to TLS Record)
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446#section-5
+
+**Level of Support in DPDK**
+ * Supported.
+
+**Supported Algorithms**
+ * TLS 1.3 - AES-GCM-128, AES-GCM-256, CHACHA20-POLY130
+ * TLS1.2/DTLS 1.2 - AES-GCM-128, AES-GCM-256, AES-CBC-128-SHA1,
+ * AES-128-CBC-SHA256, AES-256-CBC-SHA1, AES-256-CBC-SHA256, AES-256-CBC-SHA384, 3DES-CBC-SHA1-HMAC, NULL-SHA1-HMAC, CHACHA20-POLY1305
+
+**Pros**
+ * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all
+
+**Cons**
+ * Unknown if this differs from cons listed under TLS.
+
+
+PDCP
+~~~~
+
+Packet Data Convergence Protocol (PDCP) is a sublayer in the LTE radio protocol stack
+that provides security and integrity protections to Protocol Data Units (PDU) in both
+the control and data planes. PDCP is located between the Radio Link Control (RLC) layer
+and the upper layers of the network, such as the IP layer.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Packet_Data_Convergence_Protocol
+
+**Standard Link**
+ * https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=1177
+
+**Level of Support in DPDK**
+ * Supported. High-level library: :doc:`PDCP Library <../prog_guide/pdcp_lib>`
+ * rte_security based PDCP sessions are also supported
+
+**Supported Algorithms**
+ * Encryption algo - NULL, AES-CTR, SNOW, ZUC
+ * Authentication algo - NULL, AES-CMAC, SNOW, ZUC
+
+
+**Supported Drivers**
+ * Drivers supporting rte_security PDCP:
+ * XPdpaa2_sec, dpaa_sec
+ * Drivers supporting pdcp lib:
+ * NXP dpaa2_sec, dpaa_sec
+ * Marvell cnxk
+ * Intel - QAT, ipsec_mb
+
+**Pros**
+ * Compresses the IP header of user plane packets to reduce overhead and optimize bandwidth usage over the radio interface. This is particularly important in mobile networks where radio resources are limited and efficiency is critical
+ * PDCP encrypts and decrypts user plane data to ensure confidentiality and integrity of data transmitted over the air interface
+ * Has the option of interoperability between different generations of mobile networks (e.g., LTE and 5G) and compatibility with IP-based networks
+
+**Cons**
+ * Limitations currently unclear
+
+
+PSP
+~~~
+
+PSP is a TLS-like protocol created by Google for encrypting data in transit between data centers.
+It uses concepts from IPsec ESP to create an encryption layer on top of IP, and supports non-TCP
+protocols like UDP. Google uses PSP along with other protocols, such as TLS and IPsec, depending on the use case.
+
+
+**Standard Links**
+ * https://cloud.google.com/blog/products/identity-security/announcing-psp-security-protocol-is-now-open-source?hl=en
+ * https://github.com/google/psp
+
+**Level of Support in DPDK**
+ * Not supported in DPDK, but algorithms are supported.
+ * rte_security based PDCP sessions are also supported
+
+**Supported Algorithms**
+ * AES-GCM-128
+ * AES-GCM-256
+ * AES-GMAC
+
+**Pros**
+ * PSP is transport-independent and can be offloaded to hardware
+ * It does not mandate a specific key exchange protocol
+ * Enables per-connection security by allowing an encryption key per layer-4 connection (such as a TCP connection)
+
+**Cons**
+ * Offers few choices for the packet format and the cryptographic algorithms
+
+
+Wireguard
+~~~~~~~~~
+
+Wireguard is a open-source tunneling protocol.
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/WireGuard
+
+**Standard Link**
+ * https://www.wireguard.com/
+
+**Level of Support in DPDK**
+ * Not supported at this time, but algorithms are supported.
+
+**Supported Algorithms**
+ * ChachaPoly SW Driver
+
+**Pros**
+ * Faster than most VPNs
+ * straightforward with a lean codebase
+ * Works with various operating systems such as Linux, Windows, macOS, Android, and iOS
+ * Quick connections (good for mobile environments)
+
+**Cons**
+ * Has been rapidly adopted, but still a new, young protocol.
+ * May not have the same level of extensive real-world testing and deployment as other VPNs.
+ * Widely supported, but compatibility may still be an issue.
+
+
+QUIC
+~~~~
+
+QUIC (Quick UDP Internet Connections) is a transport layer network
+protocol designed by Google to improve the speed and reliability of web connections.
+QUIC is built on top of the User Datagram Protocol (UDP) and uses a combination of
+encryption and multiplexing to achieve its goals. The protocol's main goal is to
+reduce latency compared to Transmission Control Protocol (TCP). QUIC also
+aims to make HTTP traffic more secure and eventually replace TCP and TLS on
+the web.
+
+Media over QUICK (MoQ) is a new live media protocol powered by QUIC. It is
+a TCP/UDP replacement designed for HTTP/3.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/QUIC
+
+**Standard Link**
+ * https://quic.video/
+
+**Level of Support in DPDK**
+ * Not supported in DPDK.
+
+**Pros**
+ * Useful for time-sensitive application like online gaming or video streaming.
+ * Can send multiple streams of data over a single channel.
+ * Automatically limits the packet transmission rate to counteract load peaks and avoid overload, even with low bandwidth connections.
+ * Uses TLS 1.3, which offers better security than others.
+ * Fast data transfer.
+ * Combines features of TCP, such as reliability and congestion control, with the speed and flexibility of UDP.
+
+**Cons**
+ * Has more complex protocol logic, which can result in higher CPU and memory usage compared to TCP.
+ * May result in poorer transmission rates.
+ * Requires changes to client and server, making it more challenging to deploy that TCP.
+ * Not yet as widely deployed as TCP.
--
2.34.1
^ permalink raw reply [flat|nested] 8+ messages in thread
* Re: [PATCH v2] doc: add security document
2024-11-18 17:13 ` [PATCH v2] doc: " Nandini Persad
@ 2024-11-19 5:01 ` Hemant Agrawal
2024-11-20 3:12 ` [PATCH v3] " Nandini Persad
1 sibling, 0 replies; 8+ messages in thread
From: Hemant Agrawal @ 2024-11-19 5:01 UTC (permalink / raw)
To: Nandini Persad, dev; +Cc: Thomas Monjalon, Stephen Hemminger
Hi Nandini,
One minor comment..
- Hemant
On 18-11-2024 22:43, Nandini Persad wrote:
> This is a new document covering security protocols
> implemented in DPDK.
>
> +PDCP
> +~~~~
> +
> +Packet Data Convergence Protocol (PDCP) is a sublayer in the LTE radio protocol stack
> +that provides security and integrity protections to Protocol Data Units (PDU) in both
> +the control and data planes. PDCP is located between the Radio Link Control (RLC) layer
> +and the upper layers of the network, such as the IP layer.
> +
> +
> +**Wikipedia Link**
> + * https://en.wikipedia.org/wiki/Packet_Data_Convergence_Protocol
> +
> +**Standard Link**
> + * https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=1177
> +
> +**Level of Support in DPDK**
> + * Supported. High-level library: :doc:`PDCP Library <../prog_guide/pdcp_lib>`
> + * rte_security based PDCP sessions are also supported
> +
> +**Supported Algorithms**
> + * Encryption algo - NULL, AES-CTR, SNOW, ZUC
> + * Authentication algo - NULL, AES-CMAC, SNOW, ZUC
> +
> +
> +**Supported Drivers**
> + * Drivers supporting rte_security PDCP:
> + * XPdpaa2_sec, dpaa_sec
Change it to NXP dpaa2_sec, dpaa_sec
^ permalink raw reply [flat|nested] 8+ messages in thread
* [PATCH v3] doc: add security document
2024-11-18 17:13 ` [PATCH v2] doc: " Nandini Persad
2024-11-19 5:01 ` Hemant Agrawal
@ 2024-11-20 3:12 ` Nandini Persad
2024-11-22 7:41 ` Hemant Agrawal
2024-11-30 21:11 ` Thomas Monjalon
1 sibling, 2 replies; 8+ messages in thread
From: Nandini Persad @ 2024-11-20 3:12 UTC (permalink / raw)
To: dev; +Cc: Thomas Monjalon, Stephen Hemminger
This is a new document covering security protocols
implemented in DPDK.
Signed-off-by: Nandini Persad <nandinipersad361@gmail.com>
Signed-off-by: Thomas Monjalon <thomas@monjalon.net>
Reviewed-by: Stephen Hemminger <stephen@networkplumber.org>
---
doc/guides/index.rst | 1 +
doc/guides/security/index.rst | 336 ++++++++++++++++++++++++++++++++++
2 files changed, 337 insertions(+)
create mode 100644 doc/guides/security/index.rst
diff --git a/doc/guides/index.rst b/doc/guides/index.rst
index 244b99624c..b8fddc56ae 100644
--- a/doc/guides/index.rst
+++ b/doc/guides/index.rst
@@ -13,6 +13,7 @@ DPDK documentation
sample_app_ug/index
prog_guide/index
howto/index
+ security/index
tools/index
testpmd_app_ug/index
nics/index
diff --git a/doc/guides/security/index.rst b/doc/guides/security/index.rst
new file mode 100644
index 0000000000..efe04066b8
--- /dev/null
+++ b/doc/guides/security/index.rst
@@ -0,0 +1,336 @@
+.. SPDX-License-Identifier: BSD-3-Clause
+
+Security Support Guide
+======================
+
+This document describes the security features available in the DPDK.
+This guide will provides information on each protocol,
+including supported algorithms, practical implementation details, and references.
+
+By detailing the supported algorithms and providing insights into each
+security protocol, this document serves as a resource for anyone looking
+to implement or enhance security measures within their DPDK-based environments.
+
+
+
+Related Documentation
+---------------------
+
+Here is a list of related documents that provide detail of each library,
+its capabilities and what level of support it currently has within DPDK.
+
+* :doc:`Crypto Device Drivers <../cryptodevs/index>`
+ This section contains information about all the crypto drivers in DPDK,
+ such as feature support availability, cipher algorithms and authentication
+ algorithms.
+
+* :doc:`Security Library <../prog_guide/rte_security>`
+ This library is the glue between ethdev and crypto dev. It includes low-level supported protocols such as MACsec, TLS, IPSec, and PDCP.
+
+* Protocols: These include two supported protocols in DPDK.
+ * :doc:`IPSec Library <../prog_guide/ipsec_lib>`
+ * :doc:`PDCP Library <../prog_guide/pdcp_lib>`
+
+
+Protocols
+---------
+
+
+MACSec
+~~~~~~
+
+MACsec (accelerated by Marvell) is a network security standard that operates
+at the medium access control layer and defines connectionless data confidentiality
+and integrity for media access independent protocols. It is standardized by the
+IEEE 802.1 working group.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/IEEE_802.1AE
+
+**Standard Link**
+ * https://1.ieee802.org/security/802-1ae/
+
+**Level of Support in DPDK**
+ * Supported in DPDK + Sample Application :doc:`MACSec Sample Application <../sample_app_ug/l2_forward_macsec>`
+
+**Supported Algorithms**
+ * As specified by MACsec specification: AES-128-GCM, AES-256-GCM
+
+**Drivers**
+ * Marvell cnxk Ethernet PMD which supports inline MACsec
+
+**Facts**
+ * Uses the AES-GCM cryptography algorithm
+ * Works on layer 2 and protects all DHCP and ARP traffic
+ * Each MAC frame has a separate integrity verification code
+ * Prevents attackers from resending copied MAC frames into the network without being detected
+ * Commonly used in environments where securing Ethernet traffic between devices is critical, such as in enterprise networks, data centers and service provider networks
+ * Applications do not need modification to work with IPsec
+
+**Cons**
+ * Only operates at Layer 2, so it doesn't protect traffic beyond the local Ethernet segment or over Layer 3 networks or the internet
+ * Data is decrypted and re-encrypted at each network device,
+which could expose data at each point
+ * Can't detect rogue devices that operate on Layer 1
+ * Relies on hardware for encryption and decryption, so not all network devices can use it
+
+
+IPSec
+~~~~~
+
+IPsec (accelerated by Intel, Marvell, Netronome, NXP) allows secure communication
+over the internet by encrypting data traffic between two or more devices or networks.
+IPsec works on a different layer than MACsec, at layer 3.
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/IPsec
+
+**Standard Link**
+ * https://datatracker.ietf.org/wg/ipsec/about/
+
+**Level of Support in DPDK**
+ * Supported
+ * High-level library and sample application
+ * :doc:`IPSec Library <../prog_guide/ipsec_lib>`
+ * :doc:`IPSec Sample Application <../sample_app_ug/ipsec_secgw>`
+
+**Supported Algorithms**
+ * AES-GCM and ChaCha20-Poly1305
+ * AES CBC and AES-CTR
+ * HMAC-SHA1/SHA2 for integrity protection and authenticity
+
+**Pros**
+ * Uses public keys to create an encrypted, authenticated tunnel to resources
+ * Offers strong security, scalability, and interoperability
+ * IPsec can work across routers
+ * Applications do not need modification to work with IPsec
+
+**Cons**
+ * Can be simple to apply but complex to use. It can also be difficult to configure and place an administrative burden on network administrators
+ * Can impact network performance because it encrypts all traffic and uses strict authentication processes, both of which consume network bandwidth and increase data usage
+ * IPsec relies on the security of public keys. Key management protocol is not part of DPDK but DPDK provides asymmetric crypto APIs which are required for key generation
+
+
+TLS
+~~~
+
+Transport Layer Security (TLS) is a cryptographic protocol that operates at the fifth application layer.
+It encrypts data sent between web applications and servers, such as when a web browser loads a website.
+TLS can also be used to encrypt other types of communication, including: Email, Voice over IP (VoIP),
+File transfers, Video/audio conferencing, and Internet services like DNS and NTP.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446 - TLS 1.3
+ * https://datatracker.ietf.org/doc/html/rfc5246 - TLS 1.2
+ * https://datatracker.ietf.org/doc/html/rfc9147/ - DTLS 1.3
+
+**Level of Support in DPDK**
+ * DPDK supports TLS/DTLS record processing via rte_security APIs
+
+**Pros**
+ * Considered one of the strongest encryption protocols available
+ * Doesn't require parties to encrypt the content they exchange
+ * Universally deployable, doesn't rely on specific operating systems or applications
+ * Can reduce the risk of phishing attacks
+
+**Cons**
+ * May not work with complex proxy caching systems
+ * Adding a server to handle encryption before it gets to the caching server can require additional costs
+ * TLS can be vulnerable to attacks and data leaks, including downgrade attacks, weak ciphers, and programming errors
+ * The added layer of security that TLS provides can come at the cost of speed
+
+
+TLS Handshake
+~~~~~~~~~~~~~
+
+TLS Handshake is the process that kicks off a communication session that uses TLS.
+During a TLS handshake, the two communicating sides exchange messages to acknowledge
+each other, verify each other, establish the cryptographic algorithms they will use,
+and agree on session keys.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security#TLS_handshake
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446#section-4
+
+**Level of Support in DPDK**
+ * Handshake as protocol is not implemented in DPDK. However, it supports asymmetric crypto APIs, which can be used by the protocol.
+
+**Pros**
+ * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all.
+
+**Cons**
+ * Unknown.
+
+
+TLS Record
+~~~~~~~~~~
+
+TLS Record (accelerated by Marvell) Protocol is a layer of the TLS protocol
+that protects application data using keys created during the TLS handshake.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Transport_Layer_Security (Scroll to TLS Record)
+
+**Standard Link**
+ * https://datatracker.ietf.org/doc/html/rfc8446#section-5
+
+**Level of Support in DPDK**
+ * Supported.
+
+**Supported Algorithms**
+ * TLS 1.3 - AES-GCM-128, AES-GCM-256, CHACHA20-POLY130
+ * TLS1.2/DTLS 1.2 - AES-GCM-128, AES-GCM-256, AES-CBC-128-SHA1,
+ * AES-128-CBC-SHA256, AES-256-CBC-SHA1, AES-256-CBC-SHA256, AES-256-CBC-SHA384, 3DES-CBC-SHA1-HMAC, NULL-SHA1-HMAC, CHACHA20-POLY1305
+
+**Pros**
+ * TLS 1.3 also supports an even faster version of the TLS handshake that does not require any round trips, or back-and-forth communication between client and server, at all
+
+**Cons**
+ * Unknown if this differs from cons listed under TLS.
+
+
+PDCP
+~~~~
+
+Packet Data Convergence Protocol (PDCP) is a sublayer in the LTE radio protocol stack
+that provides security and integrity protections to Protocol Data Units (PDU) in both
+the control and data planes. PDCP is located between the Radio Link Control (RLC) layer
+and the upper layers of the network, such as the IP layer.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/Packet_Data_Convergence_Protocol
+
+**Standard Link**
+ * https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=1177
+
+**Level of Support in DPDK**
+ * Supported. High-level library: :doc:`PDCP Library <../prog_guide/pdcp_lib>`
+ * rte_security based PDCP sessions are also supported
+
+**Supported Algorithms**
+ * Encryption algo - NULL, AES-CTR, SNOW, ZUC
+ * Authentication algo - NULL, AES-CMAC, SNOW, ZUC
+
+**Supported Drivers**
+ * Drivers supporting rte_security PDCP:
+ * NXP dpaa2_sec, dpaa_sec
+ * Drivers supporting pdcp lib:
+ * NXP dpaa2_sec, dpaa_sec
+ * Marvell cnxk
+ * Intel - QAT, ipsec_mb
+
+**Pros**
+ * Compresses the IP header of user plane packets to reduce overhead and optimize bandwidth usage over the radio interface. This is particularly important in mobile networks where radio resources are limited and efficiency is critical
+ * PDCP encrypts and decrypts user plane data to ensure confidentiality and integrity of data transmitted over the air interface
+ * Has the option of interoperability between different generations of mobile networks (e.g., LTE and 5G) and compatibility with IP-based networks
+
+**Cons**
+ * Limitations currently unclear
+
+
+PSP
+~~~
+
+PSP is a TLS-like protocol created by Google for encrypting data in transit between data centers.
+It uses concepts from IPsec ESP to create an encryption layer on top of IP, and supports non-TCP
+protocols like UDP. Google uses PSP along with other protocols, such as TLS and IPsec, depending on the use case.
+
+
+**Standard Links**
+ * https://cloud.google.com/blog/products/identity-security/announcing-psp-security-protocol-is-now-open-source?hl=en
+ * https://github.com/google/psp
+
+**Level of Support in DPDK**
+ * Not supported in DPDK, but algorithms are supported.
+ * rte_security based PDCP sessions are also supported
+
+**Supported Algorithms**
+ * AES-GCM-128
+ * AES-GCM-256
+ * AES-GMAC
+
+**Pros**
+ * PSP is transport-independent and can be offloaded to hardware
+ * It does not mandate a specific key exchange protocol
+ * Enables per-connection security by allowing an encryption key per layer-4 connection (such as a TCP connection)
+
+**Cons**
+ * Offers few choices for the packet format and the cryptographic algorithms
+
+
+Wireguard
+~~~~~~~~~
+
+Wireguard is a open-source tunneling protocol.
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/WireGuard
+
+**Standard Link**
+ * https://www.wireguard.com/
+
+**Level of Support in DPDK**
+ * Not supported at this time, but algorithms are supported.
+
+**Supported Algorithms**
+ * ChachaPoly SW Driver
+
+**Pros**
+ * Faster than most VPNs
+ * straightforward with a lean codebase
+ * Works with various operating systems such as Linux, Windows, macOS, Android, and iOS
+ * Quick connections (good for mobile environments)
+
+**Cons**
+ * Has been rapidly adopted, but still a new, young protocol.
+ * May not have the same level of extensive real-world testing and deployment as other VPNs.
+ * Widely supported, but compatibility may still be an issue.
+
+
+QUIC
+~~~~
+
+QUIC (Quick UDP Internet Connections) is a transport layer network
+protocol designed by Google to improve the speed and reliability of web connections.
+QUIC is built on top of the User Datagram Protocol (UDP) and uses a combination of
+encryption and multiplexing to achieve its goals. The protocol's main goal is to
+reduce latency compared to Transmission Control Protocol (TCP). QUIC also
+aims to make HTTP traffic more secure and eventually replace TCP and TLS on
+the web.
+
+Media over QUICK (MoQ) is a new live media protocol powered by QUIC. It is
+a TCP/UDP replacement designed for HTTP/3.
+
+
+**Wikipedia Link**
+ * https://en.wikipedia.org/wiki/QUIC
+
+**Standard Link**
+ * https://quic.video/
+
+**Level of Support in DPDK**
+ * Not supported in DPDK.
+
+**Pros**
+ * Useful for time-sensitive application like online gaming or video streaming.
+ * Can send multiple streams of data over a single channel.
+ * Automatically limits the packet transmission rate to counteract load peaks and avoid overload, even with low bandwidth connections.
+ * Uses TLS 1.3, which offers better security than others.
+ * Fast data transfer.
+ * Combines features of TCP, such as reliability and congestion control, with the speed and flexibility of UDP.
+
+**Cons**
+ * Has more complex protocol logic, which can result in higher CPU and memory usage compared to TCP.
+ * May result in poorer transmission rates.
+ * Requires changes to client and server, making it more challenging to deploy that TCP.
+ * Not yet as widely deployed as TCP.
--
2.34.1
^ permalink raw reply [flat|nested] 8+ messages in thread
* Re: [PATCH v3] doc: add security document
2024-11-20 3:12 ` [PATCH v3] " Nandini Persad
@ 2024-11-22 7:41 ` Hemant Agrawal
2024-11-30 21:11 ` Thomas Monjalon
1 sibling, 0 replies; 8+ messages in thread
From: Hemant Agrawal @ 2024-11-22 7:41 UTC (permalink / raw)
To: Nandini Persad, dev; +Cc: Thomas Monjalon, Stephen Hemminger
On 20-11-2024 08:42, Nandini Persad wrote:
> This is a new document covering security protocols
> implemented in DPDK.
>
> Signed-off-by: Nandini Persad <nandinipersad361@gmail.com>
> Signed-off-by: Thomas Monjalon <thomas@monjalon.net>
> Reviewed-by: Stephen Hemminger <stephen@networkplumber.org>
> ---
> doc/guides/index.rst | 1 +
> doc/guides/security/index.rst | 336 ++++++++++++++++++++++++++++++++++
> 2 files changed, 337 insertions(+)
> create mode 100644 doc/guides/security/index.rst
Reviewed-by: Hemant Agrawal <hemant.agrawal@nxp.com>
^ permalink raw reply [flat|nested] 8+ messages in thread
* Re: [PATCH v3] doc: add security document
2024-11-20 3:12 ` [PATCH v3] " Nandini Persad
2024-11-22 7:41 ` Hemant Agrawal
@ 2024-11-30 21:11 ` Thomas Monjalon
1 sibling, 0 replies; 8+ messages in thread
From: Thomas Monjalon @ 2024-11-30 21:11 UTC (permalink / raw)
To: Nandini Persad; +Cc: dev, Stephen Hemminger
20/11/2024 04:12, Nandini Persad:
> This is a new document covering security protocols
> implemented in DPDK.
>
> Signed-off-by: Nandini Persad <nandinipersad361@gmail.com>
> Signed-off-by: Thomas Monjalon <thomas@monjalon.net>
> Reviewed-by: Stephen Hemminger <stephen@networkplumber.org>
Moved to howto section where the usage of other libs and drivers are explained.
Added to MAINTAINERS.
Linked from security and cryptodev guides.
Added link to the cryptodev doc.
Reworded other related links.
Rewrapped lines logically.
Added periods consistently.
Reformatted lists.
Fixed some typos.
Removed application considerations which don't apply to DPDK.
Nested TLS sub-sections.
Added more drivers.
Applied, thanks.
^ permalink raw reply [flat|nested] 8+ messages in thread
end of thread, other threads:[~2024-11-30 21:11 UTC | newest]
Thread overview: 8+ messages (download: mbox.gz / follow: Atom feed)
-- links below jump to the message on this page --
2024-11-13 4:38 [PATCH] doc/guides: add security document Nandini Persad
2024-11-13 5:03 ` Stephen Hemminger
2024-11-13 5:12 ` Hemant Agrawal
2024-11-18 17:13 ` [PATCH v2] doc: " Nandini Persad
2024-11-19 5:01 ` Hemant Agrawal
2024-11-20 3:12 ` [PATCH v3] " Nandini Persad
2024-11-22 7:41 ` Hemant Agrawal
2024-11-30 21:11 ` Thomas Monjalon
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