user threads & stack:
Each thread has its own stack so that it can use its own local variables, thread’s share global variables which are part of .data or .bss sections of linux executable.
Since threads share global variables i.e we use synchronization mechanisms like mutex when we want to access/modify global variables in multi threaded application. Local variables are part of thread individual stack, so no need of any synchronization.
Kernel threads have emerged from the need to run kernel code in process context. Kernel threads are the basis of the workqueue mechanism. Essentially, a thread kernel is a thread that only runs in kernel mode and has no user address space or other user attributes.
To create a thread kernel, use kthread_create():
structure task_struct *kthread_create(int (*threadfn)(void *data),
void *data, const char namefmt, ...);
kernel threads & stack:
Kernel threads are used to do post processing tasks for kernel like pdf flush threads, workq threads etc.
Kernel threads are basically new process only without address space(can be created using clone() call with required flags), means they can’t switch to user-space. kernel threads are schedulable and preempt-able as normal processes.
kernel threads have their own stacks, which they use to manage local info.
More about kernel stacks:-