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119 lines
3.6 KiB
Plaintext
119 lines
3.6 KiB
Plaintext
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libubb: SWUART - a software-implemented UART
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============================================
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libubb also provides a UART implemented in software. This UART uses
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signals of UBB and runs in user space.
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To comply with the relatively tight bit timing requirements of the
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serial protocol, the UART's transfer function disables interrupts
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while sending or receiving data, and it uses hardware timer 7.
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The format is always 8 data bits, no parity, one stop bit.
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Installation, compiling, and linking
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------------------------------------
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Compiler and linker settings are the same as for general use of
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UBB.
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Skeleton program
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----------------
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This program fragment illustrates the key elements the SWUART:
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1 #include <ubb/ubb.h>
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2 #include <ubb/swuart.h>
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3
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4 ...
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5 #define TX UBB_DAT0
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6 #define RX UBB_DAT1
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7 ...
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8
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9 char buf[200];
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10 int got;
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11
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12 if (ubb_open(0) < 0) {
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13 perror("ubb_open");
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14 exit(1);
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15 }
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16
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17 if (swuart_open(TX, RX, 38400) < 0) {
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18 perror("swuart_open");
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19 exit(1);
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20 }
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21
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22 got = swuart_trx("hello\n", 6, buf, sizeof(buf), 40000, 20000);
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23 fwrite(buf, 1, got, stdout);
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24
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25 swuart_close();
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26 ubb_close(0);
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Until line 15 we have the usual UBB setup, with the difference that
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we also include ubb/swuart.h
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Note that we don't call ubb_power in this example. If power has to
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be supplied to the device connected to UBB, such a call would have
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to be made.
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Lines 17 to 19 prepare the UART. TX and RX are the bits used to send
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or receive, respectively. If sending or receiving is not needed, set
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the respective value to zero. The bit rate should be in the range
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from 110 to 115200.
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swuart_open return 0 on success. In case of an error, it returns a
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negative value and sets "errno".
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The call to swuart_trx in line 22 is the heart of SWUART: it first
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sends the six bytes of "hello\n" and then wait for up to 40000 bit
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times (i.e., about one second) for a response. The response is assume
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to have ended once 20000 bit times (about half a second) have passed
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since the last time a byte has been successfully received and stored.
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swuart_trx returns the number of bytes that have been received. If
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there was no response, it returns 0.
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Line 23 writes anything that has been received to standard output.
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Lines 25 and 26 shut down everything. It is not necessary to call
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swuart_close if the process simply exits.
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Errors
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------
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The functions swuart_get_errors and swuart_clear_errors access the
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receiver error counters. See include/ubb/swuart.h for details.
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The following error conditions are detected:
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- glitch: any falling edges that look like a start bit but where
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the signal returns to "1" in the middle of the bit. The receiver
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does not try to receive the rest of such a byte.
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- framing: bytes with a stop bit that is not "1". Such bytes are
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discarded.
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- overflow: bytes received when the buffer is already full.
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Reception of data when the buffer is full will not restart the
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idle timeout but swuart_trx will still wait for the specified
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amount of time to pass.
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Duplex limitations
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------------------
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While a reception can start while swuart_trx is still sending and
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the bit boundaries of sender and receiver do not need to coincide,
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this still isn't entirely full-duplex.
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For example, data arriving before the first call to swuart_trx or
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between calls to swuart_trx is lost. If swuart_trx is invoked
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while data is arriving, it may misinterpret data bits as start
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bits and thus receive garbage.
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Furthermore, swuart_trx disables interrupts while running. This
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means that the entire Ben will be unresponsive during that time.
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Therefore, the idle intervals should be as short as possible.
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