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I am having a linked list of nodes modified(added and deleted) dynamically from a user space program. What are the chances that the allocation of nodes are always in user space?

Usual Linked list node,

struct node {
  int x;
  struct node *next;

I got this question since when I traverse through the list, the kernel sends a SIGSEGV signal to this user space process.Also I have done the NULL pointer check whenever I create a new node.

Also I know that the kernel sends SIGSEGV signal if the process tries accessing kernel memory.

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closed as not a real question by bmargulies, Jonathan Leffler, brian d foy, competent_tech, Graviton Jan 21 '13 at 4:48

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You're doing something wrong, otherwise you wouldn't be getting the SIGSEGV. –  cnicutar Sep 7 '12 at 11:06
Doesn't it mean that I am trying to access an address of kernel? –  sr01853 Sep 7 '12 at 11:08
Or something simply not mapped. –  cnicutar Sep 7 '12 at 11:09
Show us the code. –  cnicutar Sep 7 '12 at 11:13
@Sibi Because you can address any memory of a computer, or at least any memory inside the virtual memory range visible to the program. Try to run this program: *(int*)0 = 0; and you'll get the same error. As for why it is allocated, who knows, there is a lot of things in the RAM of a computer. Perhaps that is where your program itself is running, for example. –  Lundin Sep 7 '12 at 11:46

3 Answers 3

up vote 1 down vote accepted

What are the chances that the allocation of nodes are always in user space?

100% certain.

when I traverse through the list, the kernel sends a SIGSEGV signal

It means there is a bug in your program trying to access la-la-land.

Also I know that the kernel sends SIGSEGV signal if the process tries accessing kernel memory.

SIGSEGV is a POSIX standard signal sent when the program tries to access forbidden memory. So not necessarily just kernel memory, but rather any memory anywhere outside the space that your process has access to.

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Yes, all the allocation stays in user space. Kernel space is not directly visible from a user program. –  Basile Starynkevitch Sep 7 '12 at 12:10
@Lundin Thanks.Whatever address the process is trying to access, is it not going to in the range of 4 GB of virtual memory(say 32 bit) allocated for the process. And my understanding of virtual memory is that it is the combination of just kernel and process memory. –  sr01853 Sep 7 '12 at 13:02
@Sibi No, virtual memory is something laying on top of the physical memory addresses, preventing you from doing crazy things like overwriting the memory of other processes (such as the kernel processes) but also restricting direct access to physical hardware registers. I don't know much about Linux specifically, but the virtual memory mapping is typically even closer to the hardware than the OS itself: The CPU provides ways to map virtual memory segments by writing to CPU hardware registers at boot up. –  Lundin Sep 7 '12 at 13:44
(So without being a x86/Linux/POSIX expert, I'm guessing SIGSEGV is really a hardware exception tossed deep down from the CPU memory mapping peripheral hardware, into the OS, which then adds some flavour on top of it and passes it on, in the form of a software signal. Maybe some x86 guru is willing to provide more detailed info of what is going on underneath the hood.) –  Lundin Sep 7 '12 at 13:50
@Lundin Thanks again. From this image whatever address in the range 0x00000000 to 0xFFFFFFFF , its corresponding code or data is either available in either memory or disk. At the maximum, it can cause a page fault in case the process is referring to some virtual address from the disk. My doubt is where is the forbidden memory coming from? –  sr01853 Sep 7 '12 at 14:00

SIGSEGV is a segmentation fault. What this means is that your program is trying to access memory in a region that is not inside of the programs allotted memory range, or segment. Segmentation was an ugly system that people used to have to deal with directly, but not so much anymore. What it means for you today is that your code is most likely deferencing either a null pointer or some un-initialized value.

What you should do is hook your debugger up to your program and see what address is causing the SIGSEGV to be thrown. As soon as you see it, it will most likely be 0x0, or some garbage value such as 0xDEADC0DE or something.

Probably you are not setting all the pointers in your nodes to 0x0. Do this inside the constructor and double check your addNode() removeNode() function to be sure you don't have dangling pointers hanging around.

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SIGSEGV has not much to do with the dreaded "x86 segmentation" of ages past; it's a signal that every UN*X OS, whether on x86 or any other architecture, will create for any attempt to access memory at an invalid address. Invalid address in this case means no MMU mapping exists, unlike the other possible case of a bad pointer where such a mapping exists but isn't accessible - that results in SIGBUS instead (try mmap'ing readonly and then writing to that mem). The "Segmentation Violation" name is merely historical coincidence. –  FrankH. Sep 7 '12 at 13:19
en.wikipedia.org/wiki/SIGSEGV –  Lundin Sep 7 '12 at 13:54

Do not forget to set next=NULL; in node constructor, or just after node creation. And yes, allocation is always done in user space

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