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I'm designing a simple shell but I have a problem with advanced redirection.

I am able to do this : ls -al > a.txt

But i couldn't do this : wc < a.txt > b.txt

How can i do that?

Here is where i perform my i/o redirection :

char *inpu=NULL; //Inpu is a global variable.
#define MAXCHARNUM 128 
#define MAXARGNUM 32 

char *argsexec[MAXARGNUM]; /*This stores my executable arguments like cd ls.*/

void ioredirection(int f){
   int k,i,m;
   int input=-1;
   int output=-1;
   int append=-1;   
   int fdin,fdout;    

        for(k=0; k<f; k++){
                input=k;  // argument place of "<"
            else if(strcmp(argsexec[k],">")==0){
                output=k; // argument place of ">"
            else if(strcmp(argsexec[k],">>")==0){
                append=k; // argument place of ">>"

            int inp1;

            fdout = open(argsexec[output+1], CREATE_FLAGS, CREATE_MODE);
            dup2 (fdout, STDOUT_FILENO);

        fdout = open(argsexec[append+1], CREATE_FLAGS1, CREATE_MODE) ;
            dup2 (fdout, STDOUT_FILENO);

b is changing like this :

inpu=strtok(str," ");
  inpu = strtok(NULL, " ");

And i'm calling it with child process.

if (pid==0){  

I hope it is clear to understand, my full is code really long i tried to cut it like this. Any suggestion will be appreciated.

share|improve this question
Do you use both tabs or spaces? Code formatting is really inconsistent and code is very hard to read. –  Ivan Smirnov Dec 8 '13 at 19:15
Actually tonight i have a deadline for this school project.That's why i couldn't format it properly sorry for that. –  Mertcan Dec 8 '13 at 19:17
JFYI good formatted and well-structured code is usually much easier to support and debug even when the deadline is close. –  Ivan Smirnov Dec 8 '13 at 19:20
This doesn't help with your current question, but pretty much every major IDE I've used has some sort of auto-formatter. When your project is done, look up "Beautify" or "Pretty Print" or "Format Code" for your particular development environment. Then, you don't really have to worry about it. Just run the tool and it will be consistent. :-) –  kmort Dec 8 '13 at 19:46

1 Answer 1

up vote 3 down vote accepted

I ran your code through a formatter and got (greatly simplified):

void ioredirection(int f) {
    for (k over all arguments) {
        set m based on argsexec[k]
    test m against 1, 2, and 3

Thus, if there are two (or more) "re-direction" operations, the loop (for k) will set m two (or more) times. Then, the loop having terminated, you (finally) test m once against each of three possible values.

The first problem should now be clear (but since this is a school project I'm not going to solve it for you :-) ).

The second problem is clear only in looking at the three tests performed on m. Looking at just one will suffice here:

    if (m == 1) {
        int inp1;
        fdin = open(argsexec[input + 1], O_RDONLY, CREATE_MODE);
        dup2(fdin, STDIN_FILENO);
        inp1 = execlp(argsexec[0], argsexec[0], NULL);

(The other two use execvp rather than execlp.1) If an exec* family function call succeeds, the current process will be replaced immediately, so that the exec* never returns. So if you need to redirect two (or more) *_FILENO values, the eventual exec* call has to be put off until after all other redirections are also done.

1One of these is not the appropriate function. OK, no dancing around here: execvp is the proper choice. :-)

A third problem occurs if a redirect is not followed by a file name (see below).

The last two potential problems with this code snippet is much less obvious and needs looking at the whole thing. Whether one is a "real bug" depends on how simple your shell is meant to be.

The argsexec array can hold up to 128 char * pointer values. The entry in argsexec[0] should be the name of the binary to run—it's supplied to execvp after all—and to use execvp, argsexec[0] must be the first of however many char *s in sequence:

  • argsexec[0] becomes argv[0] (in the program you invoke),
  • argsexec[1] becomes argv[1] (the program's first argument),
  • argsexec[2] becomes argv[2],
  • and so on ... until:
  • argsexec[i], for the smallest integer i, is NULL: and that tells the execv* family of functions: "OK, you can stop copying now."

Let's skip over definite bug #3 for a bit longer, and talk about potential bug #4: It's not clear here whether any argsexec[i] has been set to NULL. The argument f to iodirection is the last i for which argsexec[i] must not be NULL; we can't tell, from this code fragment, whether some (presumably the f+1th) argsexec[i] is NULL. To use the execvp function, it will need to be NULL.

If there are some I/O redirections, you will set some argsexec[i] to NULL. That will terminate the array and make the execvp call work correctly. If not ... ?

This leads to potential bug #5: In "real" Unix shells you can place I/O redirections "in the middle" of a command:

prog > stdout arg1 2> stderr arg2 < stdin arg3

This runs prog with three arguments (arg1, arg2, and arg3). In fact, you can even put the redirections first:

<stdin >stdout 2>stderr prog arg1 arg2 arg3

and in some shells you can "re-direct" more than once (and then not even bother running a command, if you don't want one):

$ ls
$ > foo > bar > baz
$ ls
bar     baz     foo

(but other shells forbid it:

$ rm *; exec csh -f
% > foo > bar > baz
Ambiguous output redirect.

not that csh is anything to emulate. :-) )

If—this is a big "if"—you want to allow this or something similar, you'll need to "execute and remove" each I/O redirection as it appears, moving remaining arguments down so that argsexec remains "densely populated" with the various char * values that are to be supplied to the program. For instance, if len is the length of the valid, non-NULL entries in the array, so that argsexec[len] is NULL, and you need to "remove" argsexec[j] and argsexec[j + 1] (which contain a redirection like ">", and a file name, respectively), then:

for (i = j + 2; i <= len; i++) {
    argsexec[i - 2] = argsexec[i];

would do the trick (the loop runs to i <= len so that it copies the terminating NULL as well).

So, finally, definite bug #3: what happens if a redirect is at the very last position, argsexec[f - 1]? The for (k ...) loop runs k from 0 to f - 1 inclusive. If, when k == f - 1, argsexec[k] is a redirect, the file name must be in argsexec[f].

But we just noted (above) that argsexec[f] needs to be NULL. That is, if someone tries:

ls >

then argsexec[] should contain "ls", ">", and NULL.

Here's what the "real shells" sh and csh do in that case:

$ ls >
Syntax error: newline unexpected

% ls >
Missing name for redirect.

You'll need something similar: a way to reject the attempt, if the file name after the redirection is missing.

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