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    arm64/sve: Core task context handling · bc0ee476
    Dave Martin 提交于
    This patch adds the core support for switching and managing the SVE
    architectural state of user tasks.
    
    Calls to the existing FPSIMD low-level save/restore functions are
    factored out as new functions task_fpsimd_{save,load}(), since SVE
    now dynamically may or may not need to be handled at these points
    depending on the kernel configuration, hardware features discovered
    at boot, and the runtime state of the task.  To make these
    decisions as fast as possible, const cpucaps are used where
    feasible, via the system_supports_sve() helper.
    
    The SVE registers are only tracked for threads that have explicitly
    used SVE, indicated by the new thread flag TIF_SVE.  Otherwise, the
    FPSIMD view of the architectural state is stored in
    thread.fpsimd_state as usual.
    
    When in use, the SVE registers are not stored directly in
    thread_struct due to their potentially large and variable size.
    Because the task_struct slab allocator must be configured very
    early during kernel boot, it is also tricky to configure it
    correctly to match the maximum vector length provided by the
    hardware, since this depends on examining secondary CPUs as well as
    the primary.  Instead, a pointer sve_state in thread_struct points
    to a dynamically allocated buffer containing the SVE register data,
    and code is added to allocate and free this buffer at appropriate
    times.
    
    TIF_SVE is set when taking an SVE access trap from userspace, if
    suitable hardware support has been detected.  This enables SVE for
    the thread: a subsequent return to userspace will disable the trap
    accordingly.  If such a trap is taken without sufficient system-
    wide hardware support, SIGILL is sent to the thread instead as if
    an undefined instruction had been executed: this may happen if
    userspace tries to use SVE in a system where not all CPUs support
    it for example.
    
    The kernel will clear TIF_SVE and disable SVE for the thread
    whenever an explicit syscall is made by userspace.  For backwards
    compatibility reasons and conformance with the spirit of the base
    AArch64 procedure call standard, the subset of the SVE register
    state that aliases the FPSIMD registers is still preserved across a
    syscall even if this happens.  The remainder of the SVE register
    state logically becomes zero at syscall entry, though the actual
    zeroing work is currently deferred until the thread next tries to
    use SVE, causing another trap to the kernel.  This implementation
    is suboptimal: in the future, the fastpath case may be optimised
    to zero the registers in-place and leave SVE enabled for the task,
    where beneficial.
    
    TIF_SVE is also cleared in the following slowpath cases, which are
    taken as reasonable hints that the task may no longer use SVE:
     * exec
     * fork and clone
    
    Code is added to sync data between thread.fpsimd_state and
    thread.sve_state whenever enabling/disabling SVE, in a manner
    consistent with the SVE architectural programmer's model.
    Signed-off-by: NDave Martin <Dave.Martin@arm.com>
    Reviewed-by: NCatalin Marinas <catalin.marinas@arm.com>
    Cc: Ard Biesheuvel <ard.biesheuvel@linaro.org>
    Cc: Alex Bennée <alex.bennee@linaro.org>
    [will: added #include to fix allnoconfig build]
    [will: use enable_daif in do_sve_acc]
    Signed-off-by: NWill Deacon <will.deacon@arm.com>
    bc0ee476
processor.h 5.5 KB