There is an 16550-compatible UART on the market that I would like to configure. The Linux driver is provided by the manufacturer, and I have to configure the (multiple-)UART through an user-space program, persistently.
Persistence means that the configuration remains inside the chip even after my configurator exits.
The problem that I encountered is that the uart_ops operations in the kernel driver seems to affect the content of the MCR (Modem Control Register) through its .startup and .shutdown operations. The task at hand is to put the UART in Loopback mode, through setting the bit5 (from 0 to 7) of the MCR register to 1. I do that through a manufacturer-provided IOCTL (are there any other ways, BTW?), but to access the IOCTL, I have to provide a file descriptor: that means an open(). Then, when my configurator exits, the system close() the file descriptor.
As such, the uart_ops.shutdown() function is called and the content of my MCR is lost. Subsequent application do not see the UART in loopback mode, so no way to test.
How to do that? Open the port/associated device node, then enabling the loopback in MCR and then never closing the descriptor (through sleeping or infinite loop)? Is that an acceptable solution? Would subsequent application be able to see the UART in loopback mode?
How to avoid calling the uart_ops.shutdown function and the MCR-overwrite it performs before subsequent applications test the loopback mode?
The UART in question is Exar XR17D158 (http://www.exar.com/connectivity/uart-and-bridging-solutions/pci-uarts/pci-uarts-universal-3-3v-or-5v/xr17d158) and the driver is found here: http://www.exar.com/common/content/document.ashx?id=20639&languageid=1033 The serialxr_startup and serialxr_shutdown that are passed as uart_ops.startup and uart_ops.shutdown members are at lines 806 and 902 in the xr17c15x.c file.