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Converts ARM the text files to ReST, preparing them to be an architecture book. The conversion is actually: - add blank lines and identation in order to identify paragraphs; - fix tables markups; - add some lists markups; - mark literal blocks; - adjust title markups. At its new index.rst, let's add a :orphan: while this is not linked to the main index.rst file, in order to avoid build warnings. Signed-off-by: Mauro Carvalho Chehab <mchehab+samsung@kernel.org> Reviewed-by Corentin Labbe <clabbe.montjoie@gmail.com> # For sun4i-ss
269 lines
6.7 KiB
ReStructuredText
269 lines
6.7 KiB
ReStructuredText
============================
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Kernel-provided User Helpers
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============================
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These are segment of kernel provided user code reachable from user space
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at a fixed address in kernel memory. This is used to provide user space
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with some operations which require kernel help because of unimplemented
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native feature and/or instructions in many ARM CPUs. The idea is for this
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code to be executed directly in user mode for best efficiency but which is
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too intimate with the kernel counter part to be left to user libraries.
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In fact this code might even differ from one CPU to another depending on
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the available instruction set, or whether it is a SMP systems. In other
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words, the kernel reserves the right to change this code as needed without
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warning. Only the entry points and their results as documented here are
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guaranteed to be stable.
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This is different from (but doesn't preclude) a full blown VDSO
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implementation, however a VDSO would prevent some assembly tricks with
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constants that allows for efficient branching to those code segments. And
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since those code segments only use a few cycles before returning to user
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code, the overhead of a VDSO indirect far call would add a measurable
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overhead to such minimalistic operations.
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User space is expected to bypass those helpers and implement those things
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inline (either in the code emitted directly by the compiler, or part of
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the implementation of a library call) when optimizing for a recent enough
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processor that has the necessary native support, but only if resulting
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binaries are already to be incompatible with earlier ARM processors due to
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usage of similar native instructions for other things. In other words
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don't make binaries unable to run on earlier processors just for the sake
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of not using these kernel helpers if your compiled code is not going to
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use new instructions for other purpose.
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New helpers may be added over time, so an older kernel may be missing some
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helpers present in a newer kernel. For this reason, programs must check
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the value of __kuser_helper_version (see below) before assuming that it is
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safe to call any particular helper. This check should ideally be
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performed only once at process startup time, and execution aborted early
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if the required helpers are not provided by the kernel version that
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process is running on.
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kuser_helper_version
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--------------------
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Location: 0xffff0ffc
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Reference declaration::
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extern int32_t __kuser_helper_version;
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Definition:
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This field contains the number of helpers being implemented by the
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running kernel. User space may read this to determine the availability
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of a particular helper.
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Usage example::
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#define __kuser_helper_version (*(int32_t *)0xffff0ffc)
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void check_kuser_version(void)
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{
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if (__kuser_helper_version < 2) {
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fprintf(stderr, "can't do atomic operations, kernel too old\n");
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abort();
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}
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}
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Notes:
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User space may assume that the value of this field never changes
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during the lifetime of any single process. This means that this
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field can be read once during the initialisation of a library or
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startup phase of a program.
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kuser_get_tls
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-------------
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Location: 0xffff0fe0
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Reference prototype::
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void * __kuser_get_tls(void);
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Input:
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lr = return address
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Output:
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r0 = TLS value
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Clobbered registers:
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none
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Definition:
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Get the TLS value as previously set via the __ARM_NR_set_tls syscall.
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Usage example::
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typedef void * (__kuser_get_tls_t)(void);
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#define __kuser_get_tls (*(__kuser_get_tls_t *)0xffff0fe0)
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void foo()
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{
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void *tls = __kuser_get_tls();
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printf("TLS = %p\n", tls);
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}
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Notes:
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- Valid only if __kuser_helper_version >= 1 (from kernel version 2.6.12).
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kuser_cmpxchg
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-------------
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Location: 0xffff0fc0
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Reference prototype::
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int __kuser_cmpxchg(int32_t oldval, int32_t newval, volatile int32_t *ptr);
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Input:
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r0 = oldval
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r1 = newval
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r2 = ptr
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lr = return address
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Output:
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r0 = success code (zero or non-zero)
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C flag = set if r0 == 0, clear if r0 != 0
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Clobbered registers:
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r3, ip, flags
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Definition:
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Atomically store newval in `*ptr` only if `*ptr` is equal to oldval.
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Return zero if `*ptr` was changed or non-zero if no exchange happened.
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The C flag is also set if `*ptr` was changed to allow for assembly
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optimization in the calling code.
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Usage example::
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typedef int (__kuser_cmpxchg_t)(int oldval, int newval, volatile int *ptr);
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#define __kuser_cmpxchg (*(__kuser_cmpxchg_t *)0xffff0fc0)
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int atomic_add(volatile int *ptr, int val)
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{
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int old, new;
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do {
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old = *ptr;
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new = old + val;
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} while(__kuser_cmpxchg(old, new, ptr));
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return new;
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}
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Notes:
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- This routine already includes memory barriers as needed.
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- Valid only if __kuser_helper_version >= 2 (from kernel version 2.6.12).
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kuser_memory_barrier
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--------------------
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Location: 0xffff0fa0
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Reference prototype::
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void __kuser_memory_barrier(void);
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Input:
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lr = return address
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Output:
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none
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Clobbered registers:
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none
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Definition:
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Apply any needed memory barrier to preserve consistency with data modified
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manually and __kuser_cmpxchg usage.
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Usage example::
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typedef void (__kuser_dmb_t)(void);
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#define __kuser_dmb (*(__kuser_dmb_t *)0xffff0fa0)
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Notes:
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- Valid only if __kuser_helper_version >= 3 (from kernel version 2.6.15).
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kuser_cmpxchg64
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---------------
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Location: 0xffff0f60
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Reference prototype::
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int __kuser_cmpxchg64(const int64_t *oldval,
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const int64_t *newval,
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volatile int64_t *ptr);
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Input:
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r0 = pointer to oldval
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r1 = pointer to newval
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r2 = pointer to target value
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lr = return address
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Output:
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r0 = success code (zero or non-zero)
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C flag = set if r0 == 0, clear if r0 != 0
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Clobbered registers:
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r3, lr, flags
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Definition:
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Atomically store the 64-bit value pointed by `*newval` in `*ptr` only if `*ptr`
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is equal to the 64-bit value pointed by `*oldval`. Return zero if `*ptr` was
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changed or non-zero if no exchange happened.
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The C flag is also set if `*ptr` was changed to allow for assembly
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optimization in the calling code.
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Usage example::
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typedef int (__kuser_cmpxchg64_t)(const int64_t *oldval,
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const int64_t *newval,
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volatile int64_t *ptr);
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#define __kuser_cmpxchg64 (*(__kuser_cmpxchg64_t *)0xffff0f60)
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int64_t atomic_add64(volatile int64_t *ptr, int64_t val)
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{
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int64_t old, new;
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do {
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old = *ptr;
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new = old + val;
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} while(__kuser_cmpxchg64(&old, &new, ptr));
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return new;
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}
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Notes:
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- This routine already includes memory barriers as needed.
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- Due to the length of this sequence, this spans 2 conventional kuser
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"slots", therefore 0xffff0f80 is not used as a valid entry point.
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- Valid only if __kuser_helper_version >= 5 (from kernel version 3.1).
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