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If I have some stupid code like this:

int nBlah = 123;
int* pnBlah = &nBlah;
pnBlah += 80000;
*pnBlah = 65;

Can I change another app's memory?

You have explained me this is evil, I know. But I was just interested.
And this isn't something to simply try. I don't know what would happen.


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up vote 13 down vote accepted

In C++ terms, this is undefined behavior. What will actually happen depends on many factors, but most importantly it depends on the operating system (OS) you are using. On modern memory-managed OS's, your application will be terminated with a "segmentation fault" (the actual term is OS-dependent) for attempting to access memory outside of your process address space. Some OS's however don't have this protection, and you can willy-nilly poke and destroy things that belong to other programs. This is also usually the case if your code is inside kernel space, e.g. in a device driver.

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+1 pointing out this is language independent and OS specific. Since "modern" operating systems keep being mentioned I also want to point out that ancient operating systems also did this -- "ancient" being defined as when I was in college in the early 1980s learning programming on a BSD Unix machine. Nice to know I'm still modern. – Stephen P Jun 4 '10 at 16:52
I should also say that there are indeed "modern" OS's without MMU protection. These are common in the embedded systems world. – Brian Neal Jun 4 '10 at 16:55
What about tools like "Cheat-o-Matic" that look through your memory for a specific value and then change it? – Malfist Jun 4 '10 at 18:01
@Malfist They probably use some OS-specific API to do that. But you can't do it with ordinary pointer arithmetic on an OS with virtual memory and address space protection. – Brian Neal Jun 4 '10 at 18:27
Paged virtual memory was first used in the Atlas in 1962. It's been rediscovered several times since. – Mike Seymour Jun 4 '10 at 21:07

Nope, it's not that simple. :)

Modern operating systems use virtual memory.

Every process is provided with a full virtual address space.

Every process is given its own "view" of all addresses (from 0x00000000 to 0xffffffff on a 32-bit system). Processes A and B can both write to the same address, without affecting each others, because they're not accessing physical memory addresses, but virtual addresses. When a process tries to access a virtual address, the OS translates that into some other physical address to avoid collisions.

Essentially, the OS keeps track of a table of allocate memory pages for every process. It tracks which address ranges have been allocated to a process, and which physical addresses they're mapped to. If a process tries to access an address not allocated to it, you get an access violation/segmentation fault. And if you try to access an address that is allocated to your process, you get your own data. So there is no way to read other processes data just by typing in the "wrong" address.

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+1. Many OS's (e.g. POSIX) allow you to setup shared memory segments which would allow two applications to share the same physical segment of memory. It is likely this segment would appear at different virtual addresses in each application. – Brian Neal Jun 4 '10 at 16:58
@Brian: Yep, there are usually mechanisms to allow memory to be shared between processes (although as you say, they might see the memory at different addresses), but it always depends on a system call first, to ask the OS to please map memory from that process into this process' address space. Simply manipulating pointers can never do it. – jalf Jun 4 '10 at 18:10

Under modern operating systems you don't get access to the real memory, but rather a virtual memory space of 4gb (under 32bit). Bottom 2gb for you to use, and top 2gb reserved for the operating system.

This does not reflect to actual memory bytes in the RAM.

Every app get's the same virtual address space, so there is no straight forward way of accessing another process's memory space.

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I think this would raise 0x00000005, access violation on windows

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Modern operating systems have various means of protecting against these kinds of exploits that write into the memory space of other programs. Your code wouldn't work either way, I don't think.

For more information, read up on Buffer Overflow exploits and how they gave Microsoft hell prior to the release of Windows XP SP2.

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This isn't an example of a buffer overflow, really. And buffer exploits still give OS vendors/creators hell. They didn't end with Windows XP SP2. – Brian Neal Jun 4 '10 at 16:52

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