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First off, sorry about the title. I wasn't really too sure how to phrase it.

In C, I have a 2D string array, declared and allocated as follows:

char ** args = malloc(50*(num_args+1));
for (int i = 0; i < num_args+1; i++){
    args[i] = malloc(50);

I am using this in sort of a "rudimentary shell" type program, mimicking some of the features of bash, hence the num_args variable.

Compiled and run on multiple machines, the address at args[4] is always out of bounds. Here is the relevant gdb output:

(gdb) print args[0]
$2 = 0x609140 "gcc"
(gdb) print args[1]
$3 = 0x609180 ""
(gdb) print args[2]
$4 = 0x6091c0 ""
(gdb) print args[3]
$5 = 0x609200 ""
(gdb) print args[4]
$6 = 0x636367 <Address 0x636367 out of bounds>
(gdb) print args[5]
$7 = 0x609280 ""

As you can see, addresses before and after args[4] are valid. How can this one address be out of bounds?

The entire function where this code is used is here and below:

void parse(const char * command){
    // first parse built-ins (ie, not a call to the OS)
    if (strcmp(command, "history") == 0){
        show_history();
        return;
    }
    if (strcmp(command, "exit") == 0){
        exit(0);
    }

    hist_add(command);

    // copy 'command' into arg_string, while ignoring any possible comments
    char * arg_str;
    int num_args = 1;
    arg_str = malloc(strlen(command));
    for (int i = 0; i < strlen(command); i++){
        if (command[i] == '#' || command[i] == '\n') break;
        if (command[i] == ' ') num_args++;
        arg_str[i] = command[i];
    }

    // split arg_str into a string array where each string is an argument
    // to the command
    char ** args = malloc(num_args+1);
    for (int i = 0; i < num_args+1; i++){
        args[i] = malloc(50);
    }
    int tokens = 0;
    const char token = ' ';
    char * next = strtok(arg_str, &token);
    while (next != NULL){
        strcpy(args[tokens++], next);
        next = strtok(NULL, &token);
        if (next == NULL)
            args[tokens] = (char *)NULL;
    }

    exec_command(args);
}
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What is the value of num_args for the debugging statements you show? –  Levon Jun 7 '12 at 3:35
    
Something copied the letters 'ccg' (or perhaps 'gcc') over your pointer. The code you show isn't the source of the trouble. –  Jonathan Leffler Jun 7 '12 at 3:42
    
Sorry, I should have added that while debugging the program was in the middle of parsing through a string of text. "gcc" is there intentionally. The code for the full function shows where num_args comes from (pastebin link). –  turnip_head Jun 7 '12 at 3:52

3 Answers 3

up vote 4 down vote accepted

The answer to your question lies in the fact that it's not a 2D array. Instead, args contains a pointer to the first element of a 1D array of pointers, and each of those elements can itself point to an element of a 1D array of char (this is often called a "ragged array", because those 1D arrays can be of different lengths).

So the reason that the one address args[4] can be out-of-bounds, even though args[3] and args[5] are not, is that the three pointers args[3], args[4] and args[5] are completely independent values.

It is quite likely that args[4] is being overwritten with an incorrect value because it actually lies outside your allocated area - you are not allocating sufficient space for the array pointed to by args. Your malloc() call requests num_args + 1 bytes, but you want sufficient space for num_args + 1 pointers, each of which takes up more than one byte. I suggest changing your malloc() call to:

char ** args = calloc(num_args + 1, sizeof args[0]);

(Rather than using calloc() you can of course multiply num_args + 1 by sizeof args[0] yourself and call malloc(), but if you do this then you need to check to make sure that the multiplication doesn't overflow SIZE_MAX. calloc() should handle that for you).

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Thanks for the well explained answer. I wasn't aware of calloc, and I'm actually quite new to manual memory management (as well as C). This works perfectly. –  turnip_head Jun 7 '12 at 4:07

The argument to malloc() is the number of bytes to allocate. I'm guessing num_args is not sufficient to hold all the pointers of type char * and 50 is not sufficient given your string lengths either. I haven't looked in detail at your full code, but you probably need to do malloc(sizeof(char *) * num_args) to allocate all the pointers to the argument strings. Then loop through and allocate enough space for each string (if they're being copied) with malloc(sizeof(char) * len), where len is the maximum length of the string you'll need to store.

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You're right about adding sizeof(char **) * num_args, (or simply (char*) ), as a pointer to a pointer is the same size as a pointer). However, isn't the size of a char always 1 byte? I should add that the mysterious args[4] memory address is still not addressable. –  turnip_head Jun 7 '12 at 3:54
    
What is the value of num_args? Because if it's less than 5, you won't have sufficient space allocated for args[4]. –  Greg E. Jun 7 '12 at 3:58
    
Disregard the last part of my last message. I had edited the code on one machine, and ran the old binary on a machine I was ssh'd to. Additionally, I was thinking of the initial call to malloc as in "how many pointers should I reserve?" instead of how many bytes. Thanks for clearing it up. –  turnip_head Jun 7 '12 at 4:06
    
@callinyouin, no problem. Also, to answer your other question: yes, I believe sizeof(char) is guaranteed by the C standard to return 1, but a pointer to a char could be larger than that. Nevertheless, I think it's good practice to use sizeof with the appropriate type argument, if only for code clarity. Of course, malloc(sizeof(char)) and malloc(1) should always be identical according to the standard, but the former looks clearer to me. –  Greg E. Jun 7 '12 at 4:08

You have a probable memory allocation error and a performance bug in the following lines:

arg_str = malloc(strlen(command));
for (int i = 0; i < strlen(command); i++){

There's often a function strdup() available to duplicate a string. When it is not available, you use:

char *arg_str = malloc(strlen(command) + 1);

to allow enough space for the terminal null '\0' too.

The performance bug is that evaluating strlen() on each iteration of the loop is costly if the strings are long. Calculate the length once and reuse that — unless the length of the string varies on each iteration.

You are not null terminating your strings; it is crucial that you do so.

int len = strlen(command);
int i;  // Must be in scope after the loop ends
for (i = 0; i < len; i++){
    if (command[i] == '#' || command[i] == '\n') break;
    if (command[i] == ' ') num_args++;
    arg_str[i] = command[i];
}

// i is out of scope if you use for (int i = 0;...
arg_str[i] = '\0';

The lack of null termination probably accounts for your other problems. In case of doubt, print things as you go, but be careful while you don't have your strings null terminated.

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