My latest issue is that when I try to decrypt a string I'm getting an "IMac codes failed to equal" exception.
This message does not appear to be part of the current BC distro:
$ cd bouncy-castle-153
$ grep -IR "IMac codes failed to equal" *
It does appear to be part of someone's GitHub; see PassKit IesEngine.cs.
It may have been part of a past BC distro.
Does BC add some sort of MAC to the cipher text?
IesEngine.cs tells me its an Integrated Encryption Scheme. They are not well known and often not used, but they are very good schemes. They combine a lot of primitives into one, and that makes it easy to use correctly and hard to use incorrectly. More technically, the are IND-CCA2 which is a strong notion of security.
There are two types of schemes I am aware. The first is an IES over integers, and the second is an IES over elliptic curves. The one over integers is also known as Discrete Logarithm Integrated Encryption Scheme, and the one over elliptic curves is usually called Elliptic Curve Integrated Encryption Scheme. Libraries like Crypto++ and Bouncy Castle provides both of them.
To get back to your question, one of the things an integrated encryption scheme provides is a MAC over the ciphertext.
Any one know what could be causing this?
Unfortunately, there are a number of things that could be causing this. Most IES are incompatible due to each committee tweaking a scheme. To make matters worse, I have never seen a set of test vectors published. You have to work hard at getting things to interoperate.
In the case of Crypto++ and Bouncy Castle, each suffered a mild bug because there were no test vectors, so each did things a little differently. That meant the ECIES schemes did not interoperate well (or more correctly, at all). You can read about the details at Bouncy Castle Patch on the Crypto++ wiki.
Moving forward, Crypto++ 5.7 will interop with Bouncy Castle 1.54 out of the box. In the future, the classes needed for BC will be documented at the Crypto++ wiki and the Crypto++ manual.