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I need a serial port driver for an embedded device (LPC 1769) running FreeRtos.

It needs to handle:

  • 1 start bit
  • 8 data bits
  • 1 "mode" bit
  • 1 stop bit

11 bits total.

I don't know much (if anything) about device drivers, but I reckon I could hack an existing driver and change the handling of the Parity bit to be the "mode" bit.

The problem is that when Parity bit is used, the majority of serial port device drivers only handle 7 data bits. If you ant the 8th then there is no parity bit.

That is to say that normally there are 10 bits per "byte"/"character"/"datum" and I need some code that deals with 11, so that 90% of the code (the bit which I don't really understand) is done and I can just tweak the code wrt the "mode" bit.

Does anyone know of some FOSS, coded in C, which will do this? Thanks

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2 Answers

up vote 3 down vote accepted

bit 3 of the uart line control register U1LCR, U2LCR, etc is the parity enable, when set enables generation and checking of a parity bit. bits 5:4 are the parity select 00 odd, 01 even 10, forced 1, 11 forced 0. Unless you go so far as to change the parity select for each byte and wait for it to leave you really dont get 9 bits, you get 8 bits plus parity. The timing diagrams in the lpc17xx users manual do show 8 data bits and a parity bit slot, so they dont take away a data bit when you ask for parity with this uart.

Find the code in freertos that initializes the uart and either modify it to set the above bits as desired, or you may find if they already have a mechanism for doing that and initialize the uart with that mechanism (function call parameter, compile option, etc).

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+1 I doubt that I understood half of that, but it gives me hope :-) I will check out the code & get back asap. Thanks a 1,000,000 –  Mawg Jan 4 '12 at 9:02
    
"Unless you go so far as to change the parity select for each byte and wait for it to leave you really dont get 9" - sounds like that is what I would have to do. –  Mawg Jan 4 '12 at 9:06
    
or you can bit bang a serial interface and have as many bits as you want, a little harder to maintain timing with an rtos but likely doable. –  dwelch Jan 4 '12 at 20:18
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Sorry but with a LPC 1769 you can handle this only in a hacking way.

user.manual.LPC17xx: Chapter 14.2 Uart0/2/3 Features
- Data sizes of 5, 6, 7, and 8 bits.

Like dwelch said, you could set the parity bit for each byte and wait for transmit empty.
Also you need to receive the parity bits, by scanning each byte for parity or parity error.
You will lose the ability of using the large FIFO (16Bytes).

But this should be no problem, as you only operate with 9600Baud and the NXP is really fast.
For the transmits, there should be enough time to switch between odd/even parity after each byte, without running into the 5ms communication timeout.

Even the receiver should be fast enough to receive a single byte and reset a parity error, before the next byte is received.

Or you could use an external UART-chip with direct 9Bit support, or use a secondary mcu like one of the Renesas M16C family (supports 7,8 and 9 databits ).

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+1 Thanks a 1,000,000 –  Mawg Jan 7 '12 at 2:10
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