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What is the difference between the kernel space and the user space? Do kernel space, kernel threads, kernel processes and kernel stack mean the same thing? Also, why do we need this differentiation?

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No its not homework. Its something I am confused about. so decided to post here. –  kc3 May 10 '11 at 23:23
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@Mehrdad - Your first point could be made about 75% of the questions on this site that deal with concepts. Constructive answers to questions like this that benefit all are indeed possible. –  Matt Feb 3 '13 at 18:28

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The really simplified answer is that the kernel runs in kernel space, and normal programs run in user space. User space is basically a form of sand-boxing -- it restricts user programs so they can't mess with memory (and other resources) owned by other programs or by the OS kernel. This limits (but usually doesn't entirely eliminate) their ability to do bad things like crashing the machine.

The kernel is the core of the operating system. It normally has full access to all memory and machine hardware (and everything else on the machine. To keep the machine as stable as possible, you normally want only the most trusted, well-tested code to run in kernel mode/kernel space.

The stack is just another part of memory, so naturally it's segregated right along with the rest of memory.

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SO say if I have like 10 processes in my system. Is it that each process has its own stack which is divided into a user stack and a kernel stack OR all the processes share a single kernel stack? –  kc3 May 10 '11 at 23:35
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@kc3: that's at least partly up to the OS, but I believe most have a kernel-mode stack for each process that's used when the kernel is doing things on behalf of a process (e.g., I/O) and at least one more kernel stack that's exclusively for internal use by the kernel (e.g., for scheduling). –  Jerry Coffin May 10 '11 at 23:38

Kernel space and user space is the separation of the privileged operating system functions and the restricted user applications. The separation is necessary to prevent user applications from ransacking your computer. It would be a bad thing if any old user program could start writing random data to your hard drive or read memory from another user program's memory space.

User space programs cannot access system resources directly so access is handled on the program's behalf by the operating system kernel. The user space programs typically make such requests of the operating system through system calls.

Kernel threads, processes, stack do not mean the same thing. They are analogous constructs for kernel space as their counterparts in user space.

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Each process has its own 4GB of virtual memory which maps to the physical memory through page tables. The virtual memory is mostly split in two parts: 3 GB for the use of the process and 1 GB for the use of the Kernel. Most of the variables you create lie in the first part of the address space. That part is called user space. The last part is where the kernel resides and is common for all the processes. This is called Kernel space and most of this space is mapped to the starting locations of physical memory where the kernel image is loaded at boot time.

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your answer is specific to Windows; you should clarify that. –  Matt Feb 3 '13 at 18:26
    
You saying that for every process out of 4GB virtual memory, 1 GB is Kernel space which is same for every process and just holds mapping.. I cannot understand why!!, why 1GB is required just for mapping to starting location ? –  VISHAL DAGA Sep 9 '13 at 13:01

The random access memory (RAM) can be divided into two distinct regions namely - the kernel space and the user space.

The kernel runs in the part of memory entitled to it. This part of memory cannot be accessed directly by the processes of the normal users, while as the kernel can access all parts of the memory. To access some part of the kernel, the user processes have to use the predefined system calls i.e. open, read, write etc. Also, the C library functions like printf call the system call write in turn.

The system calls act as an interface between the user processes and the kernel processes. The access rights are placed on the kernel space in order to stop the users from messing up with the kernel, unknowingly.

So, when a system call occurs, a software interrupt is sent to the kernel. The CPU may hand over the control temporarily to the associated interrupt handler routine. The kernel process which was halted by the interrupt resumes after the interrupt handler routine finishes its job.

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In Linux there are two space 1st is user space and another one is kernal space. user space consist of only user application which u want to run. as the kernal service there is process management, file management, signal handling, memory management, thread management, and so many services are present there. if u run the application from the user space that appliction interact with only kernal service. and that service is interact with device driver which is present between hardware and kernal. the main benefit of kernal space and user space seperation is we can acchive a security by the virus.bcaz of all user application present in user space, and service is present in kernal space. thats why linux doesn,t affect from the virus.

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Beside the fact that it is "kernel" not "kernal" your answer is not entirely correct. Modern viruses (and with modern I mean everything after Windows 98) don't interact with the "kernel service" at all, everything's done within the user space. The fact that Linux has not much viruses (there are of course viruses for Linux) is that it has a pretty good permission management and - the most important fact - the most Linux users aren't those: "omaigosh JustinBieber.NewSong.exe! I MUST hear it NAO!!!1111" users which click and install everything without any clue. –  akluth Oct 26 '12 at 8:06
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Also, Linux is not that much used as Windows - writing viruses for it would not cause as much damage as the authors of viruses want to achieve. User space applications don't communicate with the kernel service, they call special functions provided by the kernel called syscalls. –  akluth Oct 26 '12 at 8:09

By Sunil Yadav, on Quora:

The Linux Kernel refers to everything that runs in Kernel mode and is made up of several distinct layers. At the lowest layer, the Kernel interacts with the hardware via the HAL. At the middle level, the UNIX Kernel is divided into 4 distinct areas. The first of the four areas handles character devices, raw and cooked TTY and terminal handling. The second area handles network device drivers, routing protocols and sockets. The third area handles disk device drivers, page and buffer caches, file system, virtual memory, file naming and mapping. The fourth and last area handles process dispatching, scheduling, creation and termination as well as signal handling. Above all this we have the top layer of the Kernel which includes system calls, interrupts and traps. This level serves as the interface to each of the lower level functions. A programmer uses the various system calls and interrupts to interact with the features of the operating system.

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Briefly : Kernel runs in Kernel Space, the kernel space has full access to all memory and resources, you can say the memory divide into two parts, part for kernel , and part for user own process, (user space) runs normal programs, user space cannot access directly to kernel space so it request from kernel to use resources. by syscall (predefined system call in glibc)

there is a statement that simplify the different "User Space is Just a test load for the Kernel " ...

To be very clear : processor architecture allow CPU to operate in two mode, Kernel Mode and User Mode, the Hardware instruction allow switching from one mode to the other.

memory can be marked as being part of user space or kernel space.

When CPU running in User Mode, the CPU can access only memory that is being in user space, while cpu attempts to access memory in Kernel space the result is a "hardware exception", when CPU running in Kernel mode, the CPU can access directly to both kernel space and user space ...

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Trying to give a very simplified explanation

Virtual Memory is divided into kernel space and the user space. Kernel space is that area of virtual memory where kernel processes will run and user space is that area of virtual memory where user processes will be running.

This division is required for memory access protections.

Whenever a bootloader starts a kernel after loading it to a location in RAM, (on an ARM based controller typically)it needs to make sure that the controller is in supervisor mode with FIQ's and IRQ's disabled.

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IN short kernel space is the portion of memory where linux kernel runs (top 1 GB virtual space in case of linux) and user space is the portion of memory where user application runs( bottom 3 GB of virtual memory in case of Lunux. If you wanna know more the see the link given below :)

http://learnlinuxconcepts.blogspot.in/2014/02/kernel-space-and-user-space.html

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The kernel space means a memory space can only be touched by kernel. On 32bit linux it is 1G(from 0xC0000000 to 0xffffffff as virtual memory address).Every process created by kernel is also a kernel thread, So for one process, there are two stacks: one stack in user space for this process and another in kernel space for kernel thread.

the kernel stack occupied 2 pages(8k in 32bit linux), include a task_struct(about 1k) and the real stack(about 7k). The latter is used to store some auto variables or function call params or function address in kernel functions. Here is the code(Processor.h (linux\include\asm-i386)):

#define THREAD_SIZE (2*PAGE_SIZE)
#define alloc_task_struct() ((struct task_struct *) __get_free_pages(GFP_KERNEL,1))
#define free_task_struct(p) free_pages((unsigned long) (p), 1)

__get_free_pages(GFP_KERNEL,1)) means alloc memory as 2^1=2 pages.

But the process stack is another thing, its address is just bellow 0xC0000000(32bit linux), the size of it can be quite bigger, used for the user space function calls.

So here is a question come for system call, it is running in kernel space but was called by process in user space, how does it work? Will linux put its params and function address in kernel stack or process stack? Linux's solution: all system call are triggered by software interruption INT 0x80. Defined in entry.S (linux\arch\i386\kernel), here is some lines for example:

ENTRY(sys_call_table)
.long SYMBOL_NAME(sys_ni_syscall)   /* 0  -  old "setup()" system call*/
.long SYMBOL_NAME(sys_exit)
.long SYMBOL_NAME(sys_fork)
.long SYMBOL_NAME(sys_read)
.long SYMBOL_NAME(sys_write)
.long SYMBOL_NAME(sys_open)     /* 5 */
.long SYMBOL_NAME(sys_close)
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Kernel space & virtual space are concepts of virtual memory....it doesn't mean Ram(your actual memory) is divided into kernel & User space. Each process is given virtual memory which is divided into kernel & user space.

So saying "The random access memory (RAM) can be divided into two distinct regions namely - the kernel space and the user space." is wrong.

& regarding "kernel space vs user space" thing

When a process is created and its virtual memory is divided into user-space and a kernel-space , where user space region contains data, code, stack, heap of the process & kernel-space space contains things such as the page table for the process, kernel data structures and kernel code etc. To run kernel space code, control must shift to kernel mode(using 0x80 software interrupt for system calls) & kernel stack is basically shared among all processes currently executing in kernel space.

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