I had to do the same thing myself in an OpenGL ES application, which I describe in a writeup about it here. The original crude approach read the current model view matrix and manipulated it to produce the desired effect:

```
GLfloat currentModelViewMatrix[16];
glGetFloatv(GL_MODELVIEW_MATRIX, currentModelViewMatrix);
glRotatef(xRotation, currentModelViewMatrix[1], currentModelViewMatrix[5], currentModelViewMatrix[9]);
glGetFloatv(GL_MODELVIEW_MATRIX, currentModelViewMatrix);
glRotatef(yRotation, currentModelViewMatrix[0], currentModelViewMatrix[4], currentModelViewMatrix[8]);
```

This will work, but be aware that the two `glGetFloatv()`

calls will slow your rendering by halting the pipeline. I've since replaced this code with calculations that I perform on my own internal copy of the model view matrix, then I simply write the internally manipulated model view matrix after each rotation. This removes the need to do the expensive matrix read operations.