"Inplace blurring" is something a CPU can do, but using a GPU, which generally does things in parallel, you must have another image buffer as render target.
Even with new shaders, reads and writes from/to the same buffer can lead to corruption because they can be done reordered. A similar issue is, that a gaussian blurring kernel, which can handle blurring in one pass, depends on neighbor fragments which could have been modified by the kernel applied at their fragment coordinate.
If you don't have the 'framebuffer_object' extension available for rendering into renderbuffers or even textures (additionally requires 'render_texture' extension),
you have to render into the back buffer as in the example and then do
glReadPixels() to get the image back for uploading it to the source texture, or do a fast and direct
glCopyTexImage2D() (OpenGL* 1.1 have this).
If the render target is too small, you can render multiple tiles.