sprintf() has no hardware dependencies, printf() is subject to your underlying low-level support for stdout. A naive implementation that pushes data to the UART and busy-waits for the transmit register or FIFO to become available would indeed have a "massive delay" as you say - but that would be a foolish implementation in a real-time system.
You would normally push the data to a ring-buffer, pipe or character queue, which is serviced by an interrupt routine. If the buffer is empty when you are about to push data to it, you would force the transmitter to start by buffering all but the first character then writing that directly to the UART. The UART interrupt will then keep the transmitter fed until the buffer is empty. From your application level, you are just writing data to memory, so the delay will be minimal and deterministic.
stdin can be implemented similarly, with the ISR writing and the application asynchronously reading.
By using an RTOS IPC mechanism such as a pipe or queue, or using synchronisation primitives such as semaphores you can implement blocking, baulking and timeout semantics on the data output.
If your UART supports DMA, you can potentially further reduce the interrupt rate and CPU overhead.