Cisco MACSec Notes


A while back I did notes for MACSec on Juniper devices and here’s the Cisco equivalent of the 802.1AE (“MAC Sec”) implementation

  1. Your Cisco device needs to be running either an IP Base or IP Services image. MACSec is not happening otherwise.
  2. switch# cts credentials id trustsec password mypassword
  3. en then, conf t, then int Gig1/1 (or whatever)
  4. switch(config-if)# cts man
    % Enabling macsec on Gi1/1 (may take a few seconds)…
    switch(config-if-cts-manual)#no propagate sgt
    switch(config-if-cts-manual)#sap pmk abc123 mode-list gcm-encrypt
    switch(config-if-cts-manual)#no shut

Where abc123 is your shared secret. I believe this is analogous to Juniper’s cak. You can do this to aggregated links (“port-channel” for you Cisco folks) but you have to do it before you aggregate the trunks together into a single logical interface. E.g., do this on Gig1/1 and Gig1/2 and then create int Port-channel1 (channel-group 1 mode on in the interface config)


mode-list options are:

  • gcm-encrypt (authentication and encryption)
  • gmac (auth, no encrypt)
  • null (encapsulation only; no auth, no encryption)



  • to use 802.1x (cts dot1x) as opposed to cts man above, you have to enable 802.1x globally on each device.
  • if you select gcm as the sap mode, you need an additional macsec license from cisco (as well as the ipbase or ipservices image/license). if you select gcm without the license, the interface goes into link-down state.


show cts credentials

show macsec summary

show macsec interface

show authentication sessions interface gigabitethernet1/1


Additional reading:

The actual Cisco doc (this is for a cat4500 but translates well most places) (here’s one for 3750/3560)


Juniper MACSec Notes


MACSec is kind of neat (TL;DR for the impatient: layer-1 crypto on links).

Media Access Control Security (MACsec) is an industry-standard security technology that provides secure communication for all traffic on Ethernet links. MACsec provides point-to-point security on Ethernet links between directly connected nodes and is capable of identifying and preventing most security threats, including denial of service, intrusion, man-in-the-middle, masquerading, passive wiretapping, and playback attacks. MACsec is standardized in IEEE 802.1AE.

MACsec allows you to secure an Ethernet link for almost all traffic, including frames from the Link Layer Discovery Protocol (LLDP), Link Aggregation Control Protocol (LACP), Dynamic Host Configuration Protocol (DHCP), Address Resolution Protocol (ARP), and other protocols that are not typically secured on an Ethernet link because of limitations with other security solutions. MACsec can be used in combination with other security protocols such as IP Security (IPsec) and Secure Sockets Layer (SSL) to provide end-to-end network security.

CLI config:

#create an association:
set security macsec connectivity-association ca1

#choose a mode (static cak recommended — see here for why)
set security macsec connectivity-association ca1 security-mode static-cak

#ckn needs to be a 64-digit number in hex, but any empty space is padded w/ 0’s
set security macsec connectivity-association ca1 pre-shared-key ckn deadbeef99

#cak needs to be a 32-digit number in hex, but any empty space is padded w/ 0’s
set security macsec connectivity-association ca1 pre-shared-key cak deadbeef11

# set to 255 to make it “less likely” to be chosen as key server, 0 for “more likely”
set security macsec connectivity-association ca1 mka key-server-priority 0

# set to 6000 for high-traffic environment. default to 2000.
set security macsec connectivity-association ca1 mka transmit-interval 6000

#this leaves headers unencrypted for troubleshooting, set to 0 for full encryption, set to 50 for unencrypted ipv6 headers
set security macsec connectivity-association ca1 offset 30

# replay protection, set to 0 to enforce all packets coming in order
set security macsec connectivity-association ca1 replay-protect replay-window-size 5

# exclude a protocol
set exclude-protocol lldp

#enable macsec
set security macsec interfaces xe-0/1/0 connectivity-association ca1

show security macsec statistics interface xe-0/1/0 detail

additional reading:
(Cisco version:


There’s a Cisco version of this here:

Categories : HowTo  Networking  Security

Linux / Unix / VMS equivalencies


So you’re dumped in Brazil (VMS) and all you speak is English (Windows) and Spanish (Linux), how do you get by?

A universal translator, of course:


There’s also a VMS to Unix cheat-sheet:

and another:

setting security/ownership in VMS:

tiny gotchas that you might not expect:

  • case insensitive
  • no
  • VMS has no set mount points, so you have to explicitly state which disk is being referenced in a command:
$ create/directory [.tmp]
$ copy dsa0: [.tmp]x.tmp
$ copy dsa0: [.tmp]y.tmp
$ copy dsa0: [.tmp]z.tmp

This creates a directory, .tmp, and three files inside it, x.tmp, y.tmp, z.tmp.


AIX Cheat-sheet:

AIX Cheat-sheet: [PDF]

AIX Cheat-sheet:

AIX documentation: 

AIX Admin’s blog, full of AIX tips and tricks: (I haven’t used it but it’s the type of quick and to-the-point howto that I find most useful.)

a text file cheat-sheet — quick and dirty, no-nonsense:



The biggest caveat when going to Solaris from Linux is that a lot of the tools you expect are missing (ie, not installed by default) or different (ie, you’re expecting GNU versions). The easiest way to deal is to install the gnu tools and set them in your path. That said, Solaris 10 is less of a PITA than older versions (9, 8….or heaven forfend: SunOS).

Here is a fast and dirty “why doesn’t this work / how do I do this?” for Solaris:

IBM redbooks, learn it, love it: [PDF]

Lesser Known Solaris Features:


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