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I am reading the book named "Code Complete". In the book, there is an explanation of "dog-tag field".

Use dog-tag fields to check for corrupted memory. A "tag field" or "dog tag" is a field you add to a structure solely for the purpose of error checking.

Have you ever seen the actual usage of the "dog-tag" field in your software or in some software used by many users?

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It's used in memory heaps to detect buffer overruns. –  Captain Obvlious May 20 at 23:29
    
this might be at a different level of abstraction, but canary values on the stack sound like they fit the description of a "dog-tag field" –  guest May 20 at 23:30
    
en.wikipedia.org/wiki/Portable_Network_Graphics#File_header According to wikipedia, the header structure of a PNG file has "A Unix-style line ending (LF) to detect Unix-DOS line ending conversion." –  guest May 20 at 23:31
2  
The lower level systems often use this, e.g. guard pages, stack protectors, stack canaries... Don't do this in C++. Write proper code instead. You can always use debuggers to help you find errors (both static and dynamic ones, e.g. msan, ubsan, valgrind...) –  Kerrek SB May 20 at 23:33
    
@ Captain Obvlious: @Kerrek SB: @ 2guests: Thank you for your comments. –  sevenOfNine May 21 at 2:04

3 Answers 3

up vote 2 down vote accepted

What McConnell calls "dog-tags" is simply putting a field in a data structure that you initialize with a recognizable value. When the structure is freed, the tag field should be 'erased'.

struct foo {
    unsigned int tag;
    int bar;
    char baz[20];
    char* qux;
};

enum {
    tag_freed = 0xcfcfcfcf,
    tag_foo = 0x206f6f66,   // "foo " in little-endian
};

struct foo* foo_alloc(void)
{
    struct foo template = {tag_foo};

    struct foo* p = malloc(sizeof struct foo);
    if (p) {
        *p = template;
    }

    return p;
}


int foo_validate(struct foo* p)
{
    return p && (p->tag == tag_foo);
}

void foo_free(struct foo* p)
{
    if (p) {
        if (!foo_validate(p)) error_handler(/* ... */);

        p->tag = tag_freed;
        free(p);
    } 
}

There are several nice things about these kinds of tags:

  • they're pretty inexpensive
  • when dumping raw memory in a debugger you can get a clue what's in the raw memory. This can be handy for memory leaks.
  • some minimal detection of memory corruption
  • can help find pointers that end up pointing to no longer valid objects

The Windows kernel provides built in support for tagged memory allocations for drivers (in which case the tag is managed by the kernel pool manager and is external to the structure defined in the driver source code):

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@ Michael Burr: Thank you for the code example, and good things about "dog-tag", and the link. –  sevenOfNine May 21 at 2:06

The "dog-tag" fields, or checksums, are still in use. They are primarily used in data transmission.

The memory in most computers, embedded and desktop, has improved in quality. There are fewer checks on memory and those checks are quick tests performed during power-up of a computer.

If your data is very critical and important data, you may want to use a 'dog-tag' or checksum field. This could prove useful when writing to hard drives.

Some error checking schemes store values that will help reconstruct the data if there is any corruption.

The field will need to be updated if any data member in the structure is intentionally changed. This will negatively impact the performance of your program.

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5  
I don't think phyical memory failure is the main use of such checks (and I'm not sure it ever was). Rather it's a way of detecting memory corruption caused by incorrectly executing code. –  Keith Thompson May 21 at 0:01
2  
@KeithThompson: Long ago, memory was less reliable. I've seen and demonstrated RAM that was changing or bits that were stuck. But modern times, I rarely see that, even in embedded systems. –  Thomas Matthews May 21 at 0:04
    
Sure, but "dog-tag" fields are still useful to guard against software memory corruption (e.g., a stray pointer or array index causing the wrong data to be clobbered), a point that your answer doesn't mention. –  Keith Thompson May 21 at 0:10
    
@ Thomas Matthews: @Keith Thompson: Thank you for your comments. –  sevenOfNine May 21 at 2:05
    
@KeithThompson: so the dog-tag is used for "software memory corruption" rather than "hardware memory corruption (less reliable memory). –  sevenOfNine May 21 at 2:11

Modern C/C++ runtimes often give you the option to allocate extra space after an allocation, filled with a special sentinel value, and then check that value later to make sure it hasn't been overwritten.

Doing this manually is a lot of work for questionable benefit. I certainly wouldn't do it until I suspected that there was an actual memory overrun bug... and then only if, for some strange reason, I couldn't just do range checking in the accessor functions.

There are exceptions, relating to inter-processor communication utilities for certain unusual computer architectures, but in general I would not make such checking an explicit part of a class.

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1  
Seconded. Profilers like valgrind, etc., make this advice obsolete for development. For security, compiler-level stack protection does this transparently already (e.g., -fstack-protector in gcc). –  Jeff May 20 at 23:37
    
@ Sneftel: @ Jeff: Thank you for your reply and comments. –  sevenOfNine May 21 at 2:07
    
@Sneftel: So, when to use the dog-tag depends. –  sevenOfNine May 21 at 2:14

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