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I am writing a program that reads the data from the serial port on Linux. The data are sent by another device with the following frame format:

|start | Command | Data               | CRC  | End |
|0x02  | 0x41    | (0-127 octets)     |      | 0x03|
----------------------------------------------------

The Data field contains 127 octets as shown and octet 1,2 contains one type of data; octet 3,4 contains another data. I need to get these data

I know how to write and read data to and from a serial port in Linux, but it is just to write and read a simple string (like "ABD")

My issue is that I do not know how to parse the data frame formatted as above so that I can:

  • get the data in octet 1,2 in the Data field
  • get the data in octet 3,4 in the Data field
  • get the value in CRC field to check the consistency of the data

Here the sample snip code that read and write a simple string from and to a serial port in Linux:

int writeport(int fd, char *chars) {
    int len = strlen(chars);
    chars[len] = 0x0d; // stick a <CR> after the command
    chars[len+1] = 0x00; // terminate the string properly
    int n = write(fd, chars, strlen(chars));
    if (n < 0) {
        fputs("write failed!\n", stderr);
        return 0;
    }
    return 1;                                                                                                           
}

int readport(int fd, char *result) {
    int iIn = read(fd, result, 254);
    result[iIn-1] = 0x00;
    if (iIn < 0) {
        if (errno == EAGAIN) {
            printf("SERIAL EAGAIN ERROR\n");
            return 0;
        } else {
            printf("SERIAL read error %d %s\n", errno, strerror(errno));
            return 0;
        }
    }                    
    return 1;
}

Does anyone please have some ideas? Thanks all.

share|improve this question
    
put your code in a 'code' block, it will be easier to read. –  KevinDTimm Mar 23 '10 at 14:16

2 Answers 2

result is an array of chars, which are 1 octet wide.

to read octet n use:

char octet_n = result[n];

So to do what you want you need:

// skip the start and command fields
char *data_field = result + 2; 

int octet_1_2 = data_field[1] | (data_field[2] << 8);
int octet_3_4 = data_field[3] | (data_field[4] << 8);

// crc is at byte 128 + 2 = 130
int crc = result[130];

Edit: An explanation for this line:

int octet_1_2 = data_field[1] | (data_field[2] << 8);

You want to read two consecutive octets into one 16-bit word:

            1
       bits 5        8 7       0
            --------------------
octet_1_2 = | octet 2 | octet 1|
            --------------------

So you want to take bits 7:0 of octet 1 and put them in bits 7:0 of octet_1_2:

octet_1_2 = data_field[1];

Then you want to take bits 7:0 of octet 2 and put them in bits 15:8 of octet_1_2. You do this by shifting octet 2 8 bits to the left, and OR'ing the result into octet_1_2:

octet_1_2 |= data_field[2] << 8;

These two lines can be merged into one as I did above.

share|improve this answer
1  
Also, one needs to know the endianness of the byte-stream. @Nathan is assuming little-endian in his answer. –  Judge Maygarden Mar 23 '10 at 16:13
    
Good point. If it is big-endian simply reverse the indeces. –  Nathan Fellman Mar 23 '10 at 18:45
    
Thank you very much for your answer. I want to ask another one: Could you please explain more how can I get data by doing this: int octet_1_2 = data_field[1] | (data_field[2] << 8); int octet_3_4 = data_field[3] | (data_field[4] << 8); I really do not understand. Thanks a lot. –  ipkiss Mar 24 '10 at 7:14
    
Thank you very much for your very clear explanation. –  ipkiss Mar 24 '10 at 8:02
    
Won't data_field[2] << 8 compute to 0, given that data_field[2] is 8 bits wide? I'd do octet_1_2 = data_field[2]; octet_1_2 <<= 8; octet_1_2 |= data_field[1]; or cast it to an int before shifting: ((int)data_field[2]) << 8. –  falstro Mar 24 '10 at 9:05

The best thing to read formatted data in C is to read a structure. Given the frame format you have I would do the following.


typedef struct special_data
{
    char first_data[2];
    char second data[2];
} special_data_t;

union data_u
{
    special_data_t my_special_data;
    char           whole_data[128];
};

typedef struct data_frame
{
    unsigned char start;
    unsigned char cmd;
    union data_u  data;
    unsigned char crc;
    unsigned char end;
} data_frame_t;

void func_read(int fd)
{
    data_frame_t my_data;

    if (read(fd, &my_data, sizeof(my_data)) != -1)
    {
        // Do something
    }
    return;
}

This way you may access the data you need through the structure fields. The first structure and the union are just helpers to access the bytes you need in the data field of the frame.

share|improve this answer
3  
Sometimes the compiler adds padding between members in a struct to improve access performance. I'd add some compiler pragmas that guarantee no padding is used before going with an approach like this. Google #pragma pack for more info about it. –  Laserallan Mar 23 '10 at 14:48
    
+1 laserallan - reading structs in this case is not a good idea –  KevinDTimm Mar 23 '10 at 15:34
    
@laserallan; the only reason a compiler would have to pad the structure is alignment, isn't it? Why would it need to align chars? I'm not saying this answer is good. Just saying it's not necessarily wrong, with the addition that it's all chars. –  falstro Mar 23 '10 at 17:07
    
Actually, based on the example in the question, both the sender and the receiver are under his control. If they both can share a header file, they can share the definition of the struct, so there's no need to worry about padding and endianness, since both sides have the same. –  Nathan Fellman Mar 23 '10 at 18:46
1  
@nathan it is not under his control if he doesn't choose the compiler on the both sides himself, packing conventions is hardware and compiler dependent. He's explicitly writing that the data is being sent by another device. @roe most likely it's not a problem in this particular case. It's just about being defensive in the coding. If someone not familiar with the issue finds it a good idea to introduce a word in the struct it may break the whole thing in a non obvious way. –  Laserallan Mar 23 '10 at 22:40

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