Functions
static uintptr_t	arch_syscall_invoke0 (uintptr_t call_id)
	Invoke a system call with 0 arguments.

static uintptr_t	arch_syscall_invoke1 (uintptr_t arg1, uintptr_t call_id)
	Invoke a system call with 1 argument.

static uintptr_t	arch_syscall_invoke2 (uintptr_t arg1, uintptr_t arg2, uintptr_t call_id)
	Invoke a system call with 2 arguments.

static uintptr_t	arch_syscall_invoke3 (uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t call_id)
	Invoke a system call with 3 arguments.

static uintptr_t	arch_syscall_invoke4 (uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t arg4, uintptr_t call_id)
	Invoke a system call with 4 arguments.

static uintptr_t	arch_syscall_invoke5 (uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t arg4, uintptr_t arg5, uintptr_t call_id)
	Invoke a system call with 5 arguments.

static uintptr_t	arch_syscall_invoke6 (uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t arg4, uintptr_t arg5, uintptr_t arg6, uintptr_t call_id)
	Invoke a system call with 6 arguments.

static bool	arch_is_user_context (void)
	Indicate whether we are currently running in user mode.

int	arch_mem_domain_max_partitions_get (void)
	Get the maximum number of partitions for a memory domain.

int	arch_buffer_validate (const void *addr, size_t size, int write)
	Check memory region permissions.

size_t	arch_virt_region_align (uintptr_t phys, size_t size)
	Get the optimal virtual region alignment to optimize the MMU table layout.

FUNC_NORETURN void	arch_user_mode_enter (k_thread_entry_t user_entry, void p1, void p2, void *p3)
	Perform a one-way transition from supervisor to user mode.

FUNC_NORETURN void	arch_syscall_oops (void *ssf)
	Induce a kernel oops that appears to come from a specific location.

size_t	arch_user_string_nlen (const char s, size_t maxsize, int err)
	Safely take the length of a potentially bad string.

static bool	arch_mem_coherent (void *ptr)
	Detect memory coherence type.

static void	arch_cohere_stacks (struct k_thread old_thread, void old_switch_handle, struct k_thread *new_thread)
	Ensure cache coherence prior to context switch.

Detailed Description

Function Documentation

◆ arch_buffer_validate()

int arch_buffer_validate	(	const void *	addr,
		size_t	size,
		int	write )

#include <zephyr/arch/arch_interface.h>

Check memory region permissions.

Given a memory region, return whether the current memory management hardware configuration would allow a user thread to read/write that region. Used by system calls to validate buffers coming in from userspace.

Notes: The function is guaranteed to never return validation success, if the entire buffer area is not user accessible.

The function is guaranteed to correctly validate the permissions of the supplied buffer, if the user access permissions of the entire buffer are enforced by a single, enabled memory management region.

In some architectures the validation will always return failure if the supplied memory buffer spans multiple enabled memory management regions (even if all such regions permit user access).

Warning: Buffer of size zero (0) has undefined behavior.

Parameters

addr	start address of the buffer
size	the size of the buffer
write	If non-zero, additionally check if the area is writable. Otherwise, just check if the memory can be read.

Returns: nonzero if the permissions don't match.

◆ arch_cohere_stacks()

static void arch_cohere_stacks	(	struct k_thread *	old_thread,
		void *	old_switch_handle,
		struct k_thread *	new_thread )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Ensure cache coherence prior to context switch.

Required when ARCH_HAS_COHERENCE is true. On cache-incoherent multiprocessor architectures, thread stacks are cached by default for performance reasons. They must therefore be flushed appropriately on context switch. The rules are:

The region containing live data in the old stack (generally the bytes between the current stack pointer and the top of the stack memory) must be flushed to underlying storage so a new CPU that runs the same thread sees the correct data. This must happen before the assignment of the switch_handle field in the thread struct which signals the completion of context switch.
Any data areas to be read from the new stack (generally the same as the live region when it was saved) should be invalidated (and NOT flushed!) in the data cache. This is because another CPU may have run or re-initialized the thread since this CPU suspended it, and any data present in cache will be stale.

Note: The kernel will call this function during interrupt exit when a new thread has been chosen to run, and also immediately before entering arch_switch() to effect a code-driven context switch. In the latter case, it is very likely that more data will be written to the old_thread stack region after this function returns but before the completion of the switch. Simply flushing naively here is not sufficient on many architectures and coordination with the arch_switch() implementation is likely required.

Parameters

old_thread	The old thread to be flushed before being allowed to run on other CPUs.
old_switch_handle	The switch handle to be stored into old_thread (it will not be valid until the cache is flushed so is not present yet). This will be NULL if inside z_swap() (because the arch_switch() has not saved it yet).
new_thread	The new thread to be invalidated before it runs locally.

◆ arch_is_user_context()

static bool arch_is_user_context ( void )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Indicate whether we are currently running in user mode.

Returns: True if the CPU is currently running with user permissions

◆ arch_mem_coherent()

static bool arch_mem_coherent ( void * ptr )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Detect memory coherence type.

Required when ARCH_HAS_COHERENCE is true. This function returns true if the byte pointed to lies within an architecture-defined "coherence region" (typically implemented with uncached memory) and can safely be used in multiprocessor code without explicit flush or invalidate operations.

Note: The result is for only the single byte at the specified address, this API is not required to check region boundaries or to expect aligned pointers. The expectation is that the code above will have queried the appropriate address(es).

◆ arch_mem_domain_max_partitions_get()

int arch_mem_domain_max_partitions_get ( void )

#include <zephyr/arch/arch_interface.h>

Get the maximum number of partitions for a memory domain.

Returns: Max number of partitions, or -1 if there is no limit

◆ arch_syscall_invoke0()

static uintptr_t arch_syscall_invoke0 ( uintptr_t call_id )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Invoke a system call with 0 arguments.

No general-purpose register state other than return value may be preserved when transitioning from supervisor mode back down to user mode for security reasons.

It is required that all arguments be stored in registers when elevating privileges from user to supervisor mode.

Processing of the syscall takes place on a separate kernel stack. Interrupts should be enabled when invoking the system call marshallers from the dispatch table. Thread preemption may occur when handling system calls.

Call IDs are untrusted and must be bounds-checked, as the value is used to index the system call dispatch table, containing function pointers to the specific system call code.

Parameters

call_id System call ID

Returns: Return value of the system call. Void system calls return 0 here.

◆ arch_syscall_invoke1()

static uintptr_t arch_syscall_invoke1	(	uintptr_t	arg1,
		uintptr_t	call_id )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Invoke a system call with 1 argument.

See also: arch_syscall_invoke0()

Parameters

arg1	First argument to the system call.
call_id	System call ID, will be bounds-checked and used to reference kernel-side dispatch table

Returns: Return value of the system call. Void system calls return 0 here.

◆ arch_syscall_invoke2()

static uintptr_t arch_syscall_invoke2	(	uintptr_t	arg1,
		uintptr_t	arg2,
		uintptr_t	call_id )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Invoke a system call with 2 arguments.

See also: arch_syscall_invoke0()

Parameters

arg1	First argument to the system call.
arg2	Second argument to the system call.
call_id	System call ID, will be bounds-checked and used to reference kernel-side dispatch table

Returns: Return value of the system call. Void system calls return 0 here.

◆ arch_syscall_invoke3()

static uintptr_t arch_syscall_invoke3	(	uintptr_t	arg1,
		uintptr_t	arg2,
		uintptr_t	arg3,
		uintptr_t	call_id )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Invoke a system call with 3 arguments.

See also: arch_syscall_invoke0()

Parameters

arg1	First argument to the system call.
arg2	Second argument to the system call.
arg3	Third argument to the system call.
call_id	System call ID, will be bounds-checked and used to reference kernel-side dispatch table

Returns: Return value of the system call. Void system calls return 0 here.

◆ arch_syscall_invoke4()

static uintptr_t arch_syscall_invoke4	(	uintptr_t	arg1,
		uintptr_t	arg2,
		uintptr_t	arg3,
		uintptr_t	arg4,
		uintptr_t	call_id )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Invoke a system call with 4 arguments.

See also: arch_syscall_invoke0()

Parameters

arg1	First argument to the system call.
arg2	Second argument to the system call.
arg3	Third argument to the system call.
arg4	Fourth argument to the system call.
call_id	System call ID, will be bounds-checked and used to reference kernel-side dispatch table

Returns: Return value of the system call. Void system calls return 0 here.

◆ arch_syscall_invoke5()

static uintptr_t arch_syscall_invoke5	(	uintptr_t	arg1,
		uintptr_t	arg2,
		uintptr_t	arg3,
		uintptr_t	arg4,
		uintptr_t	arg5,
		uintptr_t	call_id )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Invoke a system call with 5 arguments.

See also: arch_syscall_invoke0()

Parameters

arg1	First argument to the system call.
arg2	Second argument to the system call.
arg3	Third argument to the system call.
arg4	Fourth argument to the system call.
arg5	Fifth argument to the system call.
call_id	System call ID, will be bounds-checked and used to reference kernel-side dispatch table

Returns: Return value of the system call. Void system calls return 0 here.

◆ arch_syscall_invoke6()

static uintptr_t arch_syscall_invoke6	(	uintptr_t	arg1,
		uintptr_t	arg2,
		uintptr_t	arg3,
		uintptr_t	arg4,
		uintptr_t	arg5,
		uintptr_t	arg6,
		uintptr_t	call_id )

inlinestatic

#include <zephyr/arch/arch_interface.h>

Invoke a system call with 6 arguments.

See also: arch_syscall_invoke0()

Parameters

arg1	First argument to the system call.
arg2	Second argument to the system call.
arg3	Third argument to the system call.
arg4	Fourth argument to the system call.
arg5	Fifth argument to the system call.
arg6	Sixth argument to the system call.
call_id	System call ID, will be bounds-checked and used to reference kernel-side dispatch table

Returns: Return value of the system call. Void system calls return 0 here.

◆ arch_syscall_oops()

FUNC_NORETURN void arch_syscall_oops ( void * ssf )

#include <zephyr/arch/arch_interface.h>

Induce a kernel oops that appears to come from a specific location.

Normally, k_oops() generates an exception that appears to come from the call site of the k_oops() itself.

However, when validating arguments to a system call, if there are problems we want the oops to appear to come from where the system call was invoked and not inside the validation function.

Parameters

ssf	System call stack frame pointer. This gets passed as an argument to _k_syscall_handler_t functions and its contents are completely architecture specific.

◆ arch_user_mode_enter()

FUNC_NORETURN void arch_user_mode_enter	(	k_thread_entry_t	user_entry,
		void *	p1,
		void *	p2,
		void *	p3 )

#include <zephyr/arch/arch_interface.h>

Perform a one-way transition from supervisor to user mode.

Implementations of this function must do the following:

Reset the thread's stack pointer to a suitable initial value. We do not need any prior context since this is a one-way operation.
Set up any kernel stack region for the CPU to use during privilege elevation
Put the CPU in whatever its equivalent of user mode is
Transfer execution to arch_new_thread() passing along all the supplied arguments, in user mode.

Parameters

user_entry	Entry point to start executing as a user thread
p1	1st parameter to user thread
p2	2nd parameter to user thread
p3	3rd parameter to user thread

◆ arch_user_string_nlen()

size_t arch_user_string_nlen	(	const char *	s,
		size_t	maxsize,
		int *	err )

#include <zephyr/arch/arch_interface.h>

Safely take the length of a potentially bad string.

This must not fault, instead the err parameter must have -1 written to it. This function otherwise should work exactly like libc strnlen(). On success err should be set to 0.

Parameters

s	String to measure
maxsize	Max length of the string
err	Error value to write

Returns: Length of the string, not counting NULL byte, up to maxsize

◆ arch_virt_region_align()

size_t arch_virt_region_align	(	uintptr_t	phys,
		size_t	size )

#include <zephyr/arch/arch_interface.h>

Get the optimal virtual region alignment to optimize the MMU table layout.

Some MMU HW requires some region to be aligned to some of the intermediate block alignment in order to reduce table usage. This call returns the optimal virtual address alignment in order to permit such optimization in the following MMU mapping call.

Parameters

[in]	phys	Physical address of region to be mapped, aligned to CONFIG_MMU_PAGE_SIZE
[in]	size	Size of region to be mapped, aligned to CONFIG_MMU_PAGE_SIZE

Returns: Alignment to apply on the virtual address of this region

Functions

Detailed Description

Function Documentation

◆ arch_buffer_validate()

◆ arch_cohere_stacks()

◆ arch_is_user_context()

◆ arch_mem_coherent()

◆ arch_mem_domain_max_partitions_get()

◆ arch_syscall_invoke0()

◆ arch_syscall_invoke1()

◆ arch_syscall_invoke2()

◆ arch_syscall_invoke3()

◆ arch_syscall_invoke4()

◆ arch_syscall_invoke5()

◆ arch_syscall_invoke6()

◆ arch_syscall_oops()

◆ arch_user_mode_enter()

◆ arch_user_string_nlen()

◆ arch_virt_region_align()