As mentioned by Lundin, this question is open to many different answers. You have from small battery-powered memory-constrained bare metal embedded devices to more complex systems running Linux.
First of all, it's very important to be a flexible developer. You need to be able to adapt to changes as quickly as possible. You may need to do a concept-proof prototype in just a couple of weeks in a language you've never used before, or to start working in a legacy project to fix a bug very quickly.
It's very important to know about software architecture concepts, RTOS, event-driven systems (embedded systems are reactive by nature) and modeling too (UML). Maybe test-driven development (TDD). These are language-agnostic, and will help you to develop good firmware from the ground-up.
Regarding to languages, I think that C is used in both small and big systems, so having a good background in C is a must. Here I'm not talking about c programming at a novice-level. I'm talking about knowing what the processor and the compiler do behind the scenes. According to what you mentioned, you probably have these skills. This is very helpful in the case of small systems, where every byte of RAM and ROM counts.
Knowing something about MISRA-C rules will help you to develop safer C code.
Probably you will need some scripting programming to perform automated testing, data processing, code-generating tools, etc. I use Python for all of this, and also some linux shell scripting.
Being able to design PC-based applications is useful for creating test fixtures to test the embedded devices in the production line, or maybe because the embedded device just needs a pc software to work, like a pocket USB-based oscilloscope. In this case, I use Qt, since it's cross-platform, but you can use Visual Studio with C# if you only want to work in Windows.
In the case of embedded systems, it's better if you have a solid hardware background. Also, you need to be able to use an oscilloscope, a logic analyzer, a signal generator, etc. Sometimes you will need to fix hardware problems with software. :)
Here is a small list of books I find very useful:
- Practical UML Statecharts in C/C++.
- UML Distilled.
- Making Embedded Systems.
- Computers as components.
- Embedded Software Primer.
- Better Embedded Systems Software.
I hope it helps.