Bug fix release

Dependents:   AntiTheftGPS XbeeReceive XbeeSend Superball_Ball2 ... more

MODSERIAL is an easy to use library that extends Serial to add fully buffered input and output.

The features of MODSERIAL include:-

/media/uploads/mbedofficial/serial_interfaces.png

Connecting up the MODSERIAL module

The starting point for using MODSERIAL is the Mbed's own handbook for Serial library object. MODSERIAL inherits Serial and adds extensions for buffering. So getting started is easy. Follow the Mbed instructions for Serial to get setup. Here's a reproduction of Serial's simple code starter:-

1  #include "mbed.h"
2
3  Serial pc(USBTX, USBRX); // tx, rx
4 
5  int main() {
6      pc.printf("Hello World!");
7      while(1) {
8          pc.putc(pc.getc() + 1);
9      }
10 }

All we need to do to use MODSERIAL is to add a #include and alter one line thus:-

1  #include "mbed.h"
2  #include "MODSERIAL.h"
3  MODSERIAL pc(USBTX, USBRX); // tx, rx
4 
5  int main() {
6      pc.printf("Hello World!");
7      while(1) {
8          pc.putc(pc.getc() + 1);
9      }
10 }

As we can see, all we have done is add the header at line 2 and changed line 3 to specify the use of MODSERIAL in replacement for Serial. The default settings for MODSERIAL are that both the TX and RX buffers are assigned 256 bytes each of storage space. This storage space is acquired from the heap using malloc.

The default buffer assignment can be manipulated in three ways. First is the compile time setting which alters the default parameters used when creating a MODSERIAL object. This is done thus:-

1  #include "mbed.h"
2
3  #define MODSERIAL_DEFAULT_RX_BUFFER_SIZE 512
4  #define MODSERIAL_DEFAULT_TX_BUFFER_SIZE 1024 
5  #include "MODSERIAL.h"
6
7  MODSERIAL pc(USBTX, USBRX); // tx, rx
8  ...

By defining the two #defines before the #include "MODSERIAL.h" alters the defaults MODSERIAL uses to create it's buffers.

The second method is the run-time version. To get TX at 1024 and RX buffer at 512 as above during run-time initialisation, alter the constructor thus:-

1  #include "mbed.h"
2  #include "MODSERIAL.h"
3
4  // Make TX buffer 1024bytes and RX buffer use 512bytes.
5  MODSERIAL pc(USBTX, USBRX, 1024, 512); // tx, rx
6  ...

If you supply only one numeric value, as shown below, both TX and RX will have the same buffer sizes assigned to them:-

1  #include "mbed.h"
2  #include "MODSERIAL.h"
3
4  // Make both TX and RX use a 512byte buffer.
5  MODSERIAL pc(USBTX, USBRX, 512); // tx, rx
6  ...

The third method is reassigning a new buffer while the program is running. This allows the program to grow and shrink either buffer as required. However, there are caveats to do this as will be shown below.

First, expanding the buffer involves increasing the buffer size. This is fairly straight forward and is accomplished thus:-

1  #include "mbed.h"
2  #include "MODSERIAL.h"
3  MODSERIAL pc(USBTX, USBRX); // tx, rx
4 
5  int main() {
6
7      // Increase the TX buffer from the default 256bytes to 1024bytes.
8      if (pc.txBufferSetSize(1024) != MODSERIAL::Ok) {
9         error("Failed to allocate memory for new buffer");
10     }
11
12     pc.printf("Hello World!");
13     while(1) {
14         pc.putc(pc.getc() + 1);
15     }
16 }

As can be seen, growing the buffer is fairly straight forward. However, how it is done should be understood by the user. First, a new buffer allocation is made using malloc. Once acquired the current buffer is checked for contents. If the current buffer is not empty it is copied to the new buffer so the old buffer contents is maintained after resizing. The last step is then to free() the old memory buffer.

The buffer can also be contracted to a smaller length buffer. Here's the code:-

1  #include "mbed.h"
2  #include "MODSERIAL.h"
3  MODSERIAL pc(USBTX, USBRX); // tx, rx
4 
5  int main() {
6      int result;
7
8      // Decrease the TX buffer from the default 256bytes to 32bytes.
9      result = pc.txBufferSetSize(32);
10     if (result != MODSERIAL::Ok) {
11         switch(result) {
12             case MODSERIAL::BufferOversize: 
13                 error("Contents too big to fit into new allocation");
14                 break;
15             case MODSERIAL::NoMemory: 
16                 error("Not enough memory for new allocation");
17                 break;
18         }
19     }
11
12     pc.printf("Hello World!");
13     while(1) {
14         pc.putc(pc.getc() + 1);
15     }
16 }

Since buffer resizing involves the copying over of any existing old buffer contents the possibility exists that the current buffer contains more bytes than will fit into the new requested buffer. In these conditions the user must handle the return value of the resize functions. If the contents are of no concern then calling txBufferFlush() to empty of the contents before resizing.

MODSERIAL Interrupts

Users of Serial will be familar with the fact that you can attach functions or methods to TxIrq or RxIrq. This attachment of callbacks allows users to have Interrupt Service Routines (ISR) for both the TX and RX channel of the Uart. MODSERIAL uses both of these callbacks to maintain it's buffers and so are not available to users. However, MODSERIAL does contain five potential callbacks the user can use. These are:-

  • TxIrq - This callback is used to inform the user's program that a character was transferred from the TX buffer to the Uart's TX THR FIFO.
  • RxIrq - This callback is used to inform the user's program that a character was transferred from the Uart's RX FIFO RBR to the RX buffer.
  • RxOvIrq - This callback is used to inform the user's program that a character in the Uart's RX FIFO RBR failed to transfer to the RX buffer because the RX buffer was full. The failed byte is availble via xxGetLastChar() methods.
  • TxOvIrq - As RX overflow above
  • TxEmpty - This callback is made when the last byte in the TX buffer is transferred to the Uart's TX THR FIFO. It informs the user's program that the TX buffer has become empty. However, it does not mean transmission is complete. See the example1.cpp example for more information.

Delineating "packets"

Many devices send information on RS232 interfaces in distinct "packets". As an example of this is NMEA information sent by many GPS modules. Each NMEA sentence is delineated by a '\n' newline character. Each sentence can be of vary length depending upon the information being sent, however, all are seperated by a '\n' newline. Detecting this if very simple with MODSERIAL. Here's an example:-

#include "mbed.h"
#include "MODSERIAL.h"

// Connect the TX of the GPS module to p10 RX input
MODSERIAL gps(NC, p10);

bool newline_detected = false;

// Called everytime a new character goes into
// the RX buffer. Test that character for \n
// Note, rxGetLastChar() gets the last char that
// we received but it does NOT remove it from
// the RX buffer.
void rxCallback(MODSERIAL_IRQ_INFO *q) {
    MODSERIAL *serial = q->serial;
    if ( serial->rxGetLastChar() == '\n') {
    	newline_detected = true;
    }
}

int main() {
    gps.baud(9600);
    gps.attach(&rxCallback, MODSERIAL::RxIrq);

    // Wait here until we detect the \n going into the buffer.
    while (! newline_detected ) ;    
    
    // When we get here the RX buffer now contains a NMEA sentence.
    // ...

}

Note, the txGetLastChar() and rxGetLastChar() methods only return the last character but they do not remove that character from the associated buffer.

If this is your first time using MODSERIAL or would just like to test it out then see the example.cpp that comes with the library.



Committer:
AjK
Date:
Wed Nov 24 00:33:40 2010 +0000
Revision:
11:a93a62eeeb9d
Parent:
10:725fe81aa9ff
Child:
12:8c7394e2ae7f
1.11

Who changed what in which revision?

UserRevisionLine numberNew contents of line
AjK 1:b7e435fbfe8e 1 /* $Id:$
AjK 2:b936b4acbd92 2
AjK 11:a93a62eeeb9d 3 1.11 - 23/11/2010
AjK 11:a93a62eeeb9d 4
AjK 11:a93a62eeeb9d 5 * Fixed a minor issue with 1.10 missed an alteration of name change.
AjK 11:a93a62eeeb9d 6
AjK 10:725fe81aa9ff 7 1.10 - 23/11/2010
AjK 10:725fe81aa9ff 8
AjK 10:725fe81aa9ff 9 * Reanme the DMA callback from attach_dma_complete() to attach_dmaSendComplete()
AjK 10:725fe81aa9ff 10
AjK 9:b3cdae80e7a9 11 1.9 - 23/11/2010
AjK 9:b3cdae80e7a9 12
AjK 9:b3cdae80e7a9 13 * Added support for DMA sending of characters. Required is
AjK 9:b3cdae80e7a9 14 the MODDMA library module:-
AjK 9:b3cdae80e7a9 15 http://mbed.org/users/AjK/libraries/MODDMA/latest
AjK 9:b3cdae80e7a9 16 See example_dma.cpp for more information.
AjK 9:b3cdae80e7a9 17
AjK 8:775f860e94d3 18 1.8 - 22/11/2010
AjK 8:775f860e94d3 19
AjK 8:775f860e94d3 20 * Added code so that if a buffer is set to zero length then
AjK 8:775f860e94d3 21 MODSERIAL defaults to just using the FIFO for that stream
AjK 8:775f860e94d3 22 thus making the library "fall back" to teh same operation
AjK 8:775f860e94d3 23 that the Mbed Serial library performs.
AjK 8:775f860e94d3 24 * Removed dmaSend() function that should have been removed
AjK 8:775f860e94d3 25 at 1.7
AjK 8:775f860e94d3 26
AjK 7:ffa4a7cb7f8d 27 1.7 - 21/11/2010
AjK 7:ffa4a7cb7f8d 28
AjK 7:ffa4a7cb7f8d 29 * Remove the DMA enum from MODSERIAL.h as it's not currently
AjK 7:ffa4a7cb7f8d 30 ready for release.
AjK 7:ffa4a7cb7f8d 31 * Added page doxygen comments.
AjK 7:ffa4a7cb7f8d 32
AjK 6:c8f77fe1cc10 33 1.6 - 21/11/2010
AjK 6:c8f77fe1cc10 34
AjK 6:c8f77fe1cc10 35 * Version 1.5 solved a blocking problem on putc() when called
AjK 6:c8f77fe1cc10 36 from another ISR. However, isr_tx() invokes a callback of it's
AjK 6:c8f77fe1cc10 37 own when a byte is tranferred from TX buffer to TX FIFO. User
AjK 6:c8f77fe1cc10 38 programs may interpret that as an IRQ callback. That's an ISR
AjK 6:c8f77fe1cc10 39 call from within an existing ISR which is not good. So the
AjK 6:c8f77fe1cc10 40 TxIrq callback from isr_tx is now conditional. It will only
AjK 6:c8f77fe1cc10 41 be called when isr_tx() is actually within it's own ISR and
AjK 6:c8f77fe1cc10 42 not when called from alternate ISR handlers.
AjK 6:c8f77fe1cc10 43
AjK 5:8365c4cf8f33 44 1.5 - 21/11/2010
AjK 5:8365c4cf8f33 45
AjK 5:8365c4cf8f33 46 * Calling putc() (or any derived function that uses it like
AjK 5:8365c4cf8f33 47 printf()) while inside an interrupt service routine can
AjK 5:8365c4cf8f33 48 cause the system to lock up if the TX buffer is full. This
AjK 5:8365c4cf8f33 49 is because bytes are only transferred from the TX buffer to
AjK 5:8365c4cf8f33 50 the TX FIFO via the TX ISR. If we are, say in an RX ISR already,
AjK 5:8365c4cf8f33 51 then the TX ISR will never trigger. The TX buffer stays full and
AjK 5:8365c4cf8f33 52 there is never space to putc() the byte. So, while putc() blocks
AjK 5:8365c4cf8f33 53 waiting for space it calls isr_tx() to ensure if TX FIFO space
AjK 5:8365c4cf8f33 54 becomes available it will move bytes from the TX buffer to TX
AjK 5:8365c4cf8f33 55 FIFO thus removing the blocking condition within putc().
AjK 5:8365c4cf8f33 56
AjK 4:28de979b77cf 57 1.4 - 21/11/2010
AjK 4:28de979b77cf 58
AjK 4:28de979b77cf 59 * Removed all the new DMA code. I wish mbed.org had proper SVN
AjK 4:28de979b77cf 60 versioning, I'm use to working in HEAD and BRANCHES after I've
AjK 4:28de979b77cf 61 released a project. Getting bug reports in current releases
AjK 4:28de979b77cf 62 while trying to dev new code is hard to manage without source
AjK 4:28de979b77cf 63 control of some type!
AjK 4:28de979b77cf 64
AjK 2:b936b4acbd92 65 1.3 - 21/11/2010
AjK 2:b936b4acbd92 66
AjK 2:b936b4acbd92 67 * Fixed a macro problem with txIsBusy()
AjK 2:b936b4acbd92 68 * Started adding code to use "block data" sending using DMA
AjK 3:0f10f536456e 69 * Removed #include "IOMACROS.h"
AjK 1:b7e435fbfe8e 70
AjK 2:b936b4acbd92 71 1.2 - 21/11/2010
AjK 2:b936b4acbd92 72
AjK 2:b936b4acbd92 73 * Removed unsed variables from flushBuffer()
AjK 2:b936b4acbd92 74 * Fixed a bug where both RX AND TX fifos are cleared/reset
AjK 2:b936b4acbd92 75 when just TX OR RX should be cleared.
AjK 2:b936b4acbd92 76 * Fixed a bug that cleared IIR when in fact it should be left
AjK 2:b936b4acbd92 77 alone so that any pending interrupt after flush is handled.
AjK 2:b936b4acbd92 78 * Merged setBase() into init() as it wasn't required anywhere else.
AjK 2:b936b4acbd92 79 * Changed init() to enforce _uidx is set by Serial to define the _base
AjK 2:b936b4acbd92 80 address of the Uart in use.
AjK 2:b936b4acbd92 81
AjK 1:b7e435fbfe8e 82 1.1 - 20/11/2010
AjK 1:b7e435fbfe8e 83
AjK 1:b7e435fbfe8e 84 * Added this file
AjK 1:b7e435fbfe8e 85 * Removed cruft from GETC.cpp
AjK 1:b7e435fbfe8e 86 * "teh" should be "the", why do my fingers do that?
AjK 1:b7e435fbfe8e 87
AjK 1:b7e435fbfe8e 88 1.0 - 20/11/2010
AjK 1:b7e435fbfe8e 89
AjK 1:b7e435fbfe8e 90 * First release.
AjK 1:b7e435fbfe8e 91
AjK 1:b7e435fbfe8e 92 */