One area of concern that I come up against quite often is the issue of source code version control. At its most basic layer this is nothing more than being able to control what a version of your software consists of... version A versus version B, that sort of thing. This model works great and is well documented on smaller isolated applications but tends to blur a little when working with larger systems. Specifically we’ve had issues managing system dependencies, as well as change requirements on a larger application consisting of about roughly 50 assemblies. I’ll spend just a few minutes here putting pen to paper on how we’ve structured our development tree to accommodate this.

We’ll start at a pretty simple level; each major release is placed in a named folder based on the version name. Our first branch within that folder is named Major.Minor.Zero, Major and Minor are related to the version name while the Zero indicated this is the opening development branch. Here’s how that looks when we start a new major release... our friendly version name is Jupiler and the Major.Minor associated with this is 5.1.

Notice that within the 5.1.0 folder we have a number of sub-folders. These are what we call modules and basically relate to a VS.Net solution; each one consists of roughly 5-6 projects and can be thought of as a sub-system. These sub-systems collaborate to provide our applications functionality.

Now, when we release our major version, Jupiler, we’ll typically LOCK the 5.1.0 folder so that no further changes can be made. This code is set in stone and we want to force all new changes to be done in an isolated environment until they’re tested and ready to go. Invariable though, something critical comes up during rollout and we need to make code changes to address those concerns. When this situation arises we BRANCH into a new folder called Major.Minor.One. This code folder consists of all the new development changes required to add what we call a Service Pack to the release. Here’s how this looks.  

One interesting aspect of this layout is that we only branch the modules that require changes. These Service Pack’s generally don’t require a lot of wholesale change; they`re usually small isolated bugs/features which can be addressed in a single module. You can see in the above diagram that our 5.1.1 only has changes for Accounting, all the other modules are identical to how they were developed in 5.1.0. This gives us a few key benefits.

1.       It limits the amount of open source code.

2.       It makes it easier to identify what code is actively being changed for a service pack.

3.       It leaves the original branch open so that it can be reviewed/modified for OTHER unanticipated issues.

Final rollout of the new changes is done by releasing 5.1.1 of Accounting with all the previous versions of the other modules.

After logging in, be sure to visit all the options under Configuration in the Admin Menu Bar above. There are 26 themes to choose from, and you can also create your own.

Not that this is necessarily a good idea. But after way too much time googling this, I think I'll clear up the fact that it IS possible call the Microsoft RDP client with a username and password parameter.

Now, everyone out there will say, yeah - we know that. You key in the username and password and if you check off the "remember credentials" checkbox it will store that data.

Well the trick is that this data is stored in a place that's not easily accessed -Windows Stored UserNames and Passwords. This area is basically a secured area of windows where passwords are stored for remote connections. You can access this by going Control Panel\User Accounts\Manager your network passwords. Here's a screen snap.

Our management infrastructure tracks this username and password in a seperate secured database, and then when we call MSTSC.exe from our software we want to pass this information. Now, a little more information on how you can pass parameters to MSTSC is in order. When you call MSTSC you can pass as a parameter a .RDP file which contains information about how you want to connect to the remote computer. Same idea as every other document type in Windows, a .RDP file is associated with MSTSC and is used to contain information for that application. Fortunately the .RDP files are basically key value pairs. Check it out...

screen mode id:i:1
desktopwidth:i:1024
desktopheight:i:768
session bpp:i:16
winposstr:s:0,1,526,61,1566,865
full address:s:SomeIpAddress
compression:i:1
keyboardhook:i:2
audiomode:i:0
redirectdrives:i:0
redirectprinters:i:1
redirectcomports:i:0
redirectsmartcards:i:1
displayconnectionbar:i:0
autoreconnection enabled:i:1
alternate shell:s:
shell working directory:s:
disable wallpaper:i:0
disable full window drag:i:1
disable menu anims:i:1
disable themes:i:0
disable cursor setting:i:0
bitmapcachepersistenable:i:1
allow desktop composition:i:1
allow font smoothing:i:0
redirectclipboard:i:1
redirectposdevices:i:0
authentication level:i:2
prompt for credentials:i:0
negotiate security layer:i:1
remoteapplicationmode:i:0
gatewayhostname:s:
gatewayusagemethod:i:4
gatewaycredentialssource:i:4
gatewayprofileusagemethod:i:0
promptcredentialonce:i:1
drivestoredirect:s:

The imporant pieces here is the "full address" line... this points to the server we're connecting to.

Well... it turns out you can also pass parameters for domain, username, and password. You just need to add them to the bottom of your .rdp file like this

domain:s:MyDomain
username:s:MyUserName
password 51:b:MyPassword

But wait a second, saving a password in plain text in a .rdp file sounds like just about the worst security hole you could use! And you're right - you can't actually pass the password parameter as straight text. It needs to be encrypted binary.

(As an aside, that's what the second part of these key/value pairs is... the s, or b, or i character. That indicates whether the data is String, Binary or Integer).

Well it turns out that taking a straight text password and encrypting it ain't too bad. I'm not going to take credit for this code but the following vb dot net code uses the windows api to do just that.