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So a process is:

------DOS header/PE header

------executable code and statically linked libraries

------slack space?

------some dynamically linked libraries

------start of heap

------slack space

------top of stack

------bottom of stack

I am unsure of where the kernel mode stack and user mode stacks are relative to eachother in the virtual memory allocated for the process stack - also, when a new thread is spawned by a multithreaded process, where is the virtual memory allocated for it?

Thanks!

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That diagram is not correct. Everything in user-mode is all mixed together. The heap may be in multiple chunks with a stack stuck in between, etc. (It looks like that diagram was inspired by the memory layout of processes in 16-bit Windows, but I doubt that's what you're asking about.) –  Raymond Chen Feb 16 '13 at 17:03

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On x86 Windows, the kernel-mode modules are located in the (virtual) memory space from 0x80000000, which is not accessible from a user mode process, and all the user-mode modules are located in the memory space before 0x80000000.

When a new (user-mode) thread gets spawned, a new memory page is allocated for its stack in both the user-mode memory space (accessible from both user-mode and kernel-mode) and kernel-mode memory space (accessible only from the kernel mode). Note that there are some system threads that do not have a user mode context (thus no stack allocated in any of the user-mode processes). These threads purely run in the kernel and do not run under user-mode.

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Yea I knew about the highest 2GB being for kernel mode...so it just spawns a new page for each thread, whether kernel or user, and the thread exists as a stack data structure in that page with some kind of thread header (and CPU state for thread switching)? –  Andrew Feb 16 '13 at 16:21
    
@Andrew Oh, the metadata for the threads (e.g. thread contexts, priority, etc.), with the exception of TEB (thread environment block), lie entirely in the kernel (KTHREAD and ETHREAD structures). They are linked as a linked list and are used by the scheduler. –  JosephH Feb 16 '13 at 16:38
    
Thanks! This really helped clear up a lot of my confusion in my mental model of runtime memory management –  Andrew Feb 16 '13 at 16:40
    
I don't get it, so the user mode stack is in the process's stack space or just some random place ? –  zinking Aug 22 '13 at 7:34
    
@zinking Simply think of stack (both user and kernel modes) as a chunk of memory which the stack pointer (ESP register) points to. That chunk is allocated in the kernel space for kernel mode stack, and user space for user mode stack. –  JosephH Aug 24 '13 at 7:05

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