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Tony Pearson is a Master Inventor, Senior IT Architect and Event Content Manager for [IBM Systems for IBM Systems Technical University] events. With over 30 years with IBM Systems, Tony is frequent traveler, speaking to clients at events throughout the world.
Lloyd Dean is an IBM Senior Certified Executive IT Architect in Infrastructure Architecture. Lloyd has held numerous senior technical roles at IBM during his 19 plus years at IBM. Lloyd most recently has been leading efforts across the Communication/CSI Market as a senior Storage Solution Architect/CTS covering the Kansas City territory. In prior years Lloyd supported the industry accounts as a Storage Solution architect and prior to that as a Storage Software Solutions specialist during his time in the ATS organization.
Lloyd currently supports North America storage sales teams in his Storage Software Solution Architecture SME role in the Washington Systems Center team. His current focus is with IBM Cloud Private and he will be delivering and supporting sessions at Think2019, and Storage Technical University on the Value of IBM storage in this high value IBM solution a part of the IBM Cloud strategy. Lloyd maintains a Subject Matter Expert status across the IBM Spectrum Storage Software solutions. You can follow Lloyd on Twitter @ldean0558 and LinkedIn Lloyd Dean.
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Normally, when EMC fails, it is worth a giggle. Companies are run by humans, and nobody is perfect. However, their latest one, failing to defend their RSA SecurID two-factor website, is no laughing matter. Breaches like this undermine the trust needed for business and commerce to be done with Information Technology, so it affects the entire IT industry.
(FTC Disclosure: I do not work or have any financial investments in either EMC nor ENC Security Systems. Neither EMC nor ENC Security Systems paid me to mention them on this blog. Their mention in this blog is not an endorsement of either company or their products. Information about EMC was based solely on publicly available information made available by EMC and others. My friends at ENC Security Systems provided me an evaluation license for their latest software release so that I could confirm the use cases posed in this post.)
Of course, EMC did the right thing by making this breach public in an [Open Letter to RSA Customers]. While this may affect their revenues, as clients question whether they should do business with EMC, or affect their stock price, as investors question whether they should invest in EMC, they were very clear and public that the breach occurred. As far as I know, none of the executives of the RSA security division have stepped down. The disclosure of the breach was the right thing to do, and required by law from the [US Securities Exchange Commission]. This law was created to prevent companies from trying to hide breaches that expose external client information.
The breach does not affect RSA public/private key pairs used by IBM and most every other large company. Rather, this breach was targeted to RSA SecurID two-factor authentication. I explained two-factor authentication in my blog post [Day 5 Grid, SOA and Cloud Computing - System x KVM solutions], but basically it is an added level of security, requiring something you know (your password) with something you have (such as a magnetic card or key fob). Both are required to gain access to the system.
Breaches happen. Recently, [Hackers found vulnerabilities in the McAfee.com website]. Last month, fellow blogger Chuck Hollis from EMC had a blog post on [Understanding Advanced Persistent Threats (APT)] in the week leading up to their RSA Conference. It was precisely an APT that hit RSA, so the irony of this breach was not lost on the blogosphere. Perhaps Chuck's blog post gave hackers the idea to do this, like saying "I hope terrorists don't bomb this building that hold all of our chemical weapons..." or "I hope bank robbers don't rob this repository where we keep all the cash..."
(The sinister counter-theory, that EMC staged this breach as a marketing stunt to undermine trust in hybrid or public cloud offerings, such as those offered by IBM, Amazon or Salesforce.com, offers an interesting twist. While computer breaches in general are fodder for [Luddites] to argue we should not use computers at all, this particular breach could be used by EMC salesmen to encourage their customers to choose private cloud over hybrid cloud or public cloud deployments. Given all the extra work that RSA SecurID customers have to now do to harden their environments, that would be in bad taste.)
Today, March 31, is World Backup Day. This is because many viruses are triggered to operate on April 1. Just like checking the batteries in your smoke alarms every year, you should ensure that your backup methodology remains valid.
Back in 2008, I was a volunteer for the One Laptop Per Child (OLPC) initiative, and built an XS server to be used for Uruguay. I shipped [this baby off to school] to be the central server that all the student and teacher laptops connected to. It was the gateway to the Internet, as well as the [repository for the blogs of each student]. The blogs were accessible to the public, so that parents could read what their students were writing.
Unfortunately, this public access resulted in my little XS server being attacked by hackers, with IP addresses in Russia and China. Why anyone from either of those two countries wanted to ruin the hopes and dreams of small school children in Uruguay was beyond me. Fortunately, I had planned for remote administration. Backups were taken by me weekly to a second drive that was only mounted when I was dialed in to take the backup. The rest of the time, it was offline, so as not to be written to by hackers.
I also shipped along with the server a bootable DVD that contained a modified version of [System Rescue CD], scripts to start up SSHD daemon, and pre-populated for use with public/private RSA keys for me and eight other administrators located in various countries. To effect repairs, the local operator would reboot to the DVD, and then I could login via "ssh" and restore the operating system, programs and data. Sadly, this meant that the students might have lost some of their most recent blog posts since the last backup.
Please consider reviewing your own backup strategies. If your security were compromised, data was corrupted or lost, would you be able to recover from your backups?
Use Encryption where Appropriate
If you plan to travel this Summer, you may want to consider encryption to protect yourself. ENC Security Systems has just released their latest [Encrypt Stick] which is a USB memory stick pre-loaded with software that provides three features:
Encryption for your files
A secure web browser for accessing sensitive websites
Secure password manager
Many hotels now offer computers for use by the guests. These are typically running some flavor of Windows operating system. Encrypt Stick comes with an EXE file that you can run to browse the web securely, and have access to your encrypted files and passwords, leaving no trace on the hotel lobby computer.
Friends and Family
What if you are visiting friends and family, and they have a Mac instead? No problem, as Encrypt Stick has a DMG file to use on Mac OS X operating system. While you may not be worried about your siblings hacking into your bank account, you may not want them necessarily seeing what sites you visited.
I have been to several airport lounges now that use Linux for their public computers. Makes sense to me, as there are fewer viruses for Linux, and updating Linux is relatively straightforward. However, Encrypt Stick does not support Linux. For my Linux-knowledgeable readers, you can build your own with [Unetbootin] bootable USB memory stick to launch your favorite Linux browser in memory on whatever system you are using. The [Gparted Magic] utility rescue tool includes [TrueCrypt] to encrypt your files. Lastly, you can use [MyPasswordSafe] to hold all of your passwords securely.
Several clients have asked if any of the IBM data-at-rest encrypted disks or tapes are affected by this breach. IBM uses AES encryption for the actual disk and tape media, but we do use RSA keys to encrypt the generated keys used on the TS1120 and TS1130 drives. However, these were not affected by the RSA SecurID breach, and your tapes are safely protected.
Advanced Persistent Threats, viruses and other malware are no laughing matter. If you are concerned about security, contact IBM to help you assess your current environment and help you plan a robust protection strategy.
Continuing my discussion of this week's announcements of IBM storage products, I will cover the announcements that double storage capacity per footprint.
Linear Tape Open - Generation 5
IBM announced [LTO-5 drives], the TS2250 half-height and the TS2350 full-height drives, as well as support for LTO-5 drives in its various tape libraries: TS3100, TS3200, and TS3500. The native 1.5TB capacity of the LTO-5 cartridge is nearly double the 800GB capacity of the LTO-4 predecessor. With 2:1 compression, that's 3TB of data per cartridge! Performance-wise, the data transfer rate is 140 MB/sec, about 17 percent improvement over the 120MB/sec of the LTO-4 technology. The TS2250, TS2350, TS3100 and TS3200 now all offer dual-SAS ports for higher availability.
LTO-5 carries forward many of the advancements of past generations. For example, LTO-5 continues the G-2/G-1 "backward compatibility" architecture, which means that the LTO-5 drive can read LTO-3 and LTO-4 cartridges, and can write LTO-4 cartridges. Like the LTO-3 and LTO-4, the same LTO-5 drive can read and write WORM or regular rewriteable cartridges. Like the LTO-4, the LTO-5 offers drive-level data-at-rest encryption. These use a symmetric 256-bit AES key, managed by IBM Tivoli Key Lifecycle Manager (TKLM).
One thing that is new in LTO-5 is the Long Term File System [LTFS] available on the TS2250 and TS2350, which allows you to treat the tape as a hierarchical file system, with files and folders, that you can drag and drop like any other file system.
XIV storage system
IBM [doubles the capacity of the XIV storage system] by supporting 2TB SATA drives. A full 15-module frame can hold up to 161TB of usable capacity. The smallest 6-module system with 2TB can hold up to 55TB of usable capacity. At this time, all of the drives in an XIV must be the same type, so we do not yet allow intermix of 1TB and 2TB in the same frame. The 2TB are more energy efficient, with a full 15-module frame consuming on average 6.7 kVA, compared to 7.8 kVA for the 1TB drives. The performance is roughly the same, so if, for example, your application workload got 3700 IOPS per module with 1TB drives, it will get about the same 3700 IOPS per module with 2TB drives.
The EXN1000 and EXN3000 can now double in capacity with 2TB SATA drives. These can be attached to the N3000 entry-level models, such as the N3400.
DS3000 disk system
The DS3200, DS3300 and DS3400, as well as their related expansion drawers, now supports 2TB SATA drives. This means that a single control unit with three expansion drawers can hold up to 96TB of raw capacity (48 drives).
DS8700 disk system
The DS8700 also now supports 2TB SATA drives, for a maximum raw capacity over 2PB, as well as new 600GB Fibre Channel drives. Now that IBM offers [Easy Tier] functionality, pairing Solid State Drives with slower, energy-efficient SATA disk makes a lot of financial sense.
That's a lot of announcements! As always, feel free to dig into each of the links to learn more about each product.
It's Tuesday, and that means more IBM announcements!
I haven't even finished blogging about all the other stuff that got announced last week, and here we are with more announcements. Since IBM's big [Pulse 2010 Conference] is next week, I thought I would cover this week's announcement on Tivoli Storage Manager (TSM) v6.2 release. Here are the highlights:
Client-Side Data Deduplication
This is sometimes referred to as "source-side" deduplication, as storage admins can get confused on which servers are clients in a TSM client-server deployment. The idea is to identify duplicates at the TSM client node, before sending to the TSM server. This is done at the block level, so even files that are similar but not identical, such as slight variations from a master copy, can benefit. The dedupe process is based on a shared index across all clients, and the TSM server, so if you have a file that is similar to a file on a different node, the duplicate blocks that are identical in both would be deduplicated.
This feature is available for both backup and archive data, and can also be useful for archives using the IBM System Storage Archive Manager (SSAM) v6.2 interface.
Simplified management of Server virtualization
TSM 6.2 improves its support of VMware guests by adding auto-discovery. Now, when you spontaneously create a new virtual machine OS guest image, you won't have to tell TSM, it will discover this automatically! TSM's legendary support of VMware Consolidated Backup (VCB) now eliminates the manual process of keeping track of guest images. TSM also added support of the Vstorage API for file level backup and recovery.
While IBM is the #1 reseller of VMware, we also support other forms of server virtualization. In this release, IBM adds support for Microsoft Hyper-V, including support using Microsoft's Volume Shadow Copy Services (VSS).
Automated Client Deployment
Do you have clients at all different levels of TSM backup-archive client code deployed all over the place? TSM v6.2 can upgrade these clients up to the latest client level automatically, using push technology, from any client running v5.4 and above. This can be scheduled so that only certain clients are upgraded at a time.
Simultaneous Background Tasks
The TSM server has many background administrative tasks:
Migration of data from one storage pool to another, based on policies, such as moving backups and archives on a disk pool over to a tape pools to make room for new incoming data.
Storage pool backup, typically data on a disk pool is copied to a tape pool to be kept off-site.
Copy active data. In TSM terminology, if you have multiple backup versions, the most recent version is called the active version, and the older versions are called inactive. TSM can copy just the active versions to a separate, smaller disk pool.
In previous releases, these were done one at a time, so it could make for a long service window. With TSM v6.2, these three tasks are now run simultaneously, in parallel, so that they all get done in less time, greatly reducing the server maintenance window, and freeing up tape drives for incoming backup and archive data. Often, the same file on a disk pool is going to be processed by two or more of these scheduled tasks, so it makes sense to read it once and do all the copies and migrations at one time while the data is in buffer memory.
Enhanced Security during Data Transmission
Previous releases of TSM offered secure in-flight transmission of data for Windows and AIX clients. This security uses Secure Socket Layer (SSL) with 256-bit AES encryption. With TSM v6.2, this feature is expanded to support Linux, HP-UX and Solaris.
Improved support for Enterprise Resource Planning (ERP) applications
I remember back when we used to call these TDPs (Tivoli Data Protectors). TSM for ERP allows backup of ERP applications, seemlessly integrating with database-specific tools like IBM DB2, Oracle RMAN, and SAP BR*Tools. This allows one-to-many and many-to-one configurations between SAP servers and TSM servers. In other words, you can have one SAP server backup to several TSM servers, or several SAP servers backup to a single TSM server. This is done by splitting up data bases into "sub-database objects", and then process each object separately. This can be extremely helpful if you have databases over 1TB in size. In the event that backing up an object fails and has to be re-started, it does not impact the backup of the other objects.