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Provide ABI documentation for SME similar to that for SVE. Due to the very large overlap around streaming SVE mode in both implementation and interfaces documentation for streaming mode SVE is added to the SVE document rather than the SME one. Signed-off-by: Mark Brown <broonie@kernel.org> Reviewed-by: Catalin Marinas <catalin.marinas@arm.com> Reviewed-by: Szabolcs Nagy <szabolcs.nagy@arm.com> Link: https://lore.kernel.org/r/20220419112247.711548-5-broonie@kernel.org Signed-off-by: Catalin Marinas <catalin.marinas@arm.com>
596 lines
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ReStructuredText
596 lines
22 KiB
ReStructuredText
===================================================
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Scalable Vector Extension support for AArch64 Linux
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===================================================
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Author: Dave Martin <Dave.Martin@arm.com>
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Date: 4 August 2017
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This document outlines briefly the interface provided to userspace by Linux in
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order to support use of the ARM Scalable Vector Extension (SVE), including
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interactions with Streaming SVE mode added by the Scalable Matrix Extension
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(SME).
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This is an outline of the most important features and issues only and not
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intended to be exhaustive.
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This document does not aim to describe the SVE architecture or programmer's
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model. To aid understanding, a minimal description of relevant programmer's
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model features for SVE is included in Appendix A.
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1. General
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-----------
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* SVE registers Z0..Z31, P0..P15 and FFR and the current vector length VL, are
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tracked per-thread.
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* In streaming mode FFR is not accessible unless HWCAP2_SME_FA64 is present
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in the system, when it is not supported and these interfaces are used to
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access streaming mode FFR is read and written as zero.
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* The presence of SVE is reported to userspace via HWCAP_SVE in the aux vector
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AT_HWCAP entry. Presence of this flag implies the presence of the SVE
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instructions and registers, and the Linux-specific system interfaces
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described in this document. SVE is reported in /proc/cpuinfo as "sve".
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* Support for the execution of SVE instructions in userspace can also be
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detected by reading the CPU ID register ID_AA64PFR0_EL1 using an MRS
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instruction, and checking that the value of the SVE field is nonzero. [3]
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It does not guarantee the presence of the system interfaces described in the
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following sections: software that needs to verify that those interfaces are
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present must check for HWCAP_SVE instead.
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* On hardware that supports the SVE2 extensions, HWCAP2_SVE2 will also
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be reported in the AT_HWCAP2 aux vector entry. In addition to this,
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optional extensions to SVE2 may be reported by the presence of:
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HWCAP2_SVE2
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HWCAP2_SVEAES
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HWCAP2_SVEPMULL
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HWCAP2_SVEBITPERM
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HWCAP2_SVESHA3
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HWCAP2_SVESM4
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This list may be extended over time as the SVE architecture evolves.
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These extensions are also reported via the CPU ID register ID_AA64ZFR0_EL1,
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which userspace can read using an MRS instruction. See elf_hwcaps.txt and
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cpu-feature-registers.txt for details.
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* On hardware that supports the SME extensions, HWCAP2_SME will also be
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reported in the AT_HWCAP2 aux vector entry. Among other things SME adds
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streaming mode which provides a subset of the SVE feature set using a
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separate SME vector length and the same Z/V registers. See sme.rst
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for more details.
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* Debuggers should restrict themselves to interacting with the target via the
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NT_ARM_SVE regset. The recommended way of detecting support for this regset
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is to connect to a target process first and then attempt a
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ptrace(PTRACE_GETREGSET, pid, NT_ARM_SVE, &iov). Note that when SME is
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present and streaming SVE mode is in use the FPSIMD subset of registers
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will be read via NT_ARM_SVE and NT_ARM_SVE writes will exit streaming mode
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in the target.
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* Whenever SVE scalable register values (Zn, Pn, FFR) are exchanged in memory
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between userspace and the kernel, the register value is encoded in memory in
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an endianness-invariant layout, with bits [(8 * i + 7) : (8 * i)] encoded at
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byte offset i from the start of the memory representation. This affects for
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example the signal frame (struct sve_context) and ptrace interface
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(struct user_sve_header) and associated data.
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Beware that on big-endian systems this results in a different byte order than
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for the FPSIMD V-registers, which are stored as single host-endian 128-bit
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values, with bits [(127 - 8 * i) : (120 - 8 * i)] of the register encoded at
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byte offset i. (struct fpsimd_context, struct user_fpsimd_state).
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2. Vector length terminology
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-----------------------------
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The size of an SVE vector (Z) register is referred to as the "vector length".
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To avoid confusion about the units used to express vector length, the kernel
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adopts the following conventions:
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* Vector length (VL) = size of a Z-register in bytes
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* Vector quadwords (VQ) = size of a Z-register in units of 128 bits
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(So, VL = 16 * VQ.)
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The VQ convention is used where the underlying granularity is important, such
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as in data structure definitions. In most other situations, the VL convention
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is used. This is consistent with the meaning of the "VL" pseudo-register in
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the SVE instruction set architecture.
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3. System call behaviour
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-------------------------
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* On syscall, V0..V31 are preserved (as without SVE). Thus, bits [127:0] of
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Z0..Z31 are preserved. All other bits of Z0..Z31, and all of P0..P15 and FFR
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become unspecified on return from a syscall.
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* The SVE registers are not used to pass arguments to or receive results from
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any syscall.
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* In practice the affected registers/bits will be preserved or will be replaced
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with zeros on return from a syscall, but userspace should not make
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assumptions about this. The kernel behaviour may vary on a case-by-case
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basis.
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* All other SVE state of a thread, including the currently configured vector
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length, the state of the PR_SVE_VL_INHERIT flag, and the deferred vector
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length (if any), is preserved across all syscalls, subject to the specific
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exceptions for execve() described in section 6.
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In particular, on return from a fork() or clone(), the parent and new child
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process or thread share identical SVE configuration, matching that of the
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parent before the call.
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4. Signal handling
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-------------------
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* A new signal frame record sve_context encodes the SVE registers on signal
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delivery. [1]
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* This record is supplementary to fpsimd_context. The FPSR and FPCR registers
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are only present in fpsimd_context. For convenience, the content of V0..V31
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is duplicated between sve_context and fpsimd_context.
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* The record contains a flag field which includes a flag SVE_SIG_FLAG_SM which
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if set indicates that the thread is in streaming mode and the vector length
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and register data (if present) describe the streaming SVE data and vector
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length.
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* The signal frame record for SVE always contains basic metadata, in particular
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the thread's vector length (in sve_context.vl).
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* The SVE registers may or may not be included in the record, depending on
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whether the registers are live for the thread. The registers are present if
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and only if:
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sve_context.head.size >= SVE_SIG_CONTEXT_SIZE(sve_vq_from_vl(sve_context.vl)).
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* If the registers are present, the remainder of the record has a vl-dependent
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size and layout. Macros SVE_SIG_* are defined [1] to facilitate access to
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the members.
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* Each scalable register (Zn, Pn, FFR) is stored in an endianness-invariant
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layout, with bits [(8 * i + 7) : (8 * i)] stored at byte offset i from the
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start of the register's representation in memory.
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* If the SVE context is too big to fit in sigcontext.__reserved[], then extra
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space is allocated on the stack, an extra_context record is written in
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__reserved[] referencing this space. sve_context is then written in the
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extra space. Refer to [1] for further details about this mechanism.
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5. Signal return
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-----------------
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When returning from a signal handler:
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* If there is no sve_context record in the signal frame, or if the record is
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present but contains no register data as desribed in the previous section,
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then the SVE registers/bits become non-live and take unspecified values.
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* If sve_context is present in the signal frame and contains full register
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data, the SVE registers become live and are populated with the specified
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data. However, for backward compatibility reasons, bits [127:0] of Z0..Z31
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are always restored from the corresponding members of fpsimd_context.vregs[]
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and not from sve_context. The remaining bits are restored from sve_context.
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* Inclusion of fpsimd_context in the signal frame remains mandatory,
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irrespective of whether sve_context is present or not.
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* The vector length cannot be changed via signal return. If sve_context.vl in
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the signal frame does not match the current vector length, the signal return
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attempt is treated as illegal, resulting in a forced SIGSEGV.
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* It is permitted to enter or leave streaming mode by setting or clearing
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the SVE_SIG_FLAG_SM flag but applications should take care to ensure that
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when doing so sve_context.vl and any register data are appropriate for the
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vector length in the new mode.
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6. prctl extensions
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--------------------
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Some new prctl() calls are added to allow programs to manage the SVE vector
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length:
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prctl(PR_SVE_SET_VL, unsigned long arg)
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Sets the vector length of the calling thread and related flags, where
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arg == vl | flags. Other threads of the calling process are unaffected.
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vl is the desired vector length, where sve_vl_valid(vl) must be true.
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flags:
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PR_SVE_VL_INHERIT
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Inherit the current vector length across execve(). Otherwise, the
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vector length is reset to the system default at execve(). (See
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Section 9.)
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PR_SVE_SET_VL_ONEXEC
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Defer the requested vector length change until the next execve()
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performed by this thread.
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The effect is equivalent to implicit exceution of the following
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call immediately after the next execve() (if any) by the thread:
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prctl(PR_SVE_SET_VL, arg & ~PR_SVE_SET_VL_ONEXEC)
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This allows launching of a new program with a different vector
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length, while avoiding runtime side effects in the caller.
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Without PR_SVE_SET_VL_ONEXEC, the requested change takes effect
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immediately.
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Return value: a nonnegative on success, or a negative value on error:
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EINVAL: SVE not supported, invalid vector length requested, or
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invalid flags.
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On success:
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* Either the calling thread's vector length or the deferred vector length
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to be applied at the next execve() by the thread (dependent on whether
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PR_SVE_SET_VL_ONEXEC is present in arg), is set to the largest value
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supported by the system that is less than or equal to vl. If vl ==
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SVE_VL_MAX, the value set will be the largest value supported by the
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system.
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* Any previously outstanding deferred vector length change in the calling
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thread is cancelled.
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* The returned value describes the resulting configuration, encoded as for
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PR_SVE_GET_VL. The vector length reported in this value is the new
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current vector length for this thread if PR_SVE_SET_VL_ONEXEC was not
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present in arg; otherwise, the reported vector length is the deferred
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vector length that will be applied at the next execve() by the calling
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thread.
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* Changing the vector length causes all of P0..P15, FFR and all bits of
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Z0..Z31 except for Z0 bits [127:0] .. Z31 bits [127:0] to become
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unspecified. Calling PR_SVE_SET_VL with vl equal to the thread's current
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vector length, or calling PR_SVE_SET_VL with the PR_SVE_SET_VL_ONEXEC
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flag, does not constitute a change to the vector length for this purpose.
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prctl(PR_SVE_GET_VL)
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Gets the vector length of the calling thread.
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The following flag may be OR-ed into the result:
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PR_SVE_VL_INHERIT
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Vector length will be inherited across execve().
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There is no way to determine whether there is an outstanding deferred
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vector length change (which would only normally be the case between a
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fork() or vfork() and the corresponding execve() in typical use).
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To extract the vector length from the result, bitwise and it with
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PR_SVE_VL_LEN_MASK.
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Return value: a nonnegative value on success, or a negative value on error:
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EINVAL: SVE not supported.
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7. ptrace extensions
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---------------------
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* New regsets NT_ARM_SVE and NT_ARM_SSVE are defined for use with
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PTRACE_GETREGSET and PTRACE_SETREGSET. NT_ARM_SSVE describes the
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streaming mode SVE registers and NT_ARM_SVE describes the
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non-streaming mode SVE registers.
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In this description a register set is referred to as being "live" when
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the target is in the appropriate streaming or non-streaming mode and is
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using data beyond the subset shared with the FPSIMD Vn registers.
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Refer to [2] for definitions.
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The regset data starts with struct user_sve_header, containing:
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size
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Size of the complete regset, in bytes.
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This depends on vl and possibly on other things in the future.
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If a call to PTRACE_GETREGSET requests less data than the value of
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size, the caller can allocate a larger buffer and retry in order to
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read the complete regset.
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max_size
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Maximum size in bytes that the regset can grow to for the target
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thread. The regset won't grow bigger than this even if the target
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thread changes its vector length etc.
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vl
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Target thread's current vector length, in bytes.
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max_vl
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Maximum possible vector length for the target thread.
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flags
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at most one of
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SVE_PT_REGS_FPSIMD
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SVE registers are not live (GETREGSET) or are to be made
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non-live (SETREGSET).
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The payload is of type struct user_fpsimd_state, with the same
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meaning as for NT_PRFPREG, starting at offset
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SVE_PT_FPSIMD_OFFSET from the start of user_sve_header.
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Extra data might be appended in the future: the size of the
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payload should be obtained using SVE_PT_FPSIMD_SIZE(vq, flags).
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vq should be obtained using sve_vq_from_vl(vl).
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or
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SVE_PT_REGS_SVE
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SVE registers are live (GETREGSET) or are to be made live
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(SETREGSET).
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The payload contains the SVE register data, starting at offset
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SVE_PT_SVE_OFFSET from the start of user_sve_header, and with
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size SVE_PT_SVE_SIZE(vq, flags);
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... OR-ed with zero or more of the following flags, which have the same
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meaning and behaviour as the corresponding PR_SET_VL_* flags:
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SVE_PT_VL_INHERIT
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SVE_PT_VL_ONEXEC (SETREGSET only).
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If neither FPSIMD nor SVE flags are provided then no register
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payload is available, this is only possible when SME is implemented.
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* The effects of changing the vector length and/or flags are equivalent to
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those documented for PR_SVE_SET_VL.
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The caller must make a further GETREGSET call if it needs to know what VL is
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actually set by SETREGSET, unless is it known in advance that the requested
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VL is supported.
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* In the SVE_PT_REGS_SVE case, the size and layout of the payload depends on
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the header fields. The SVE_PT_SVE_*() macros are provided to facilitate
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access to the members.
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* In either case, for SETREGSET it is permissible to omit the payload, in which
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case only the vector length and flags are changed (along with any
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consequences of those changes).
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* In systems supporting SME when in streaming mode a GETREGSET for
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NT_REG_SVE will return only the user_sve_header with no register data,
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similarly a GETREGSET for NT_REG_SSVE will not return any register data
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when not in streaming mode.
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* A GETREGSET for NT_ARM_SSVE will never return SVE_PT_REGS_FPSIMD.
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* For SETREGSET, if an SVE_PT_REGS_SVE payload is present and the
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requested VL is not supported, the effect will be the same as if the
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payload were omitted, except that an EIO error is reported. No
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attempt is made to translate the payload data to the correct layout
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for the vector length actually set. The thread's FPSIMD state is
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preserved, but the remaining bits of the SVE registers become
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unspecified. It is up to the caller to translate the payload layout
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for the actual VL and retry.
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* Where SME is implemented it is not possible to GETREGSET the register
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state for normal SVE when in streaming mode, nor the streaming mode
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register state when in normal mode, regardless of the implementation defined
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behaviour of the hardware for sharing data between the two modes.
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* Any SETREGSET of NT_ARM_SVE will exit streaming mode if the target was in
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streaming mode and any SETREGSET of NT_ARM_SSVE will enter streaming mode
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if the target was not in streaming mode.
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* The effect of writing a partial, incomplete payload is unspecified.
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8. ELF coredump extensions
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---------------------------
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* NT_ARM_SVE and NT_ARM_SSVE notes will be added to each coredump for
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each thread of the dumped process. The contents will be equivalent to the
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data that would have been read if a PTRACE_GETREGSET of the corresponding
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type were executed for each thread when the coredump was generated.
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9. System runtime configuration
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--------------------------------
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* To mitigate the ABI impact of expansion of the signal frame, a policy
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mechanism is provided for administrators, distro maintainers and developers
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to set the default vector length for userspace processes:
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/proc/sys/abi/sve_default_vector_length
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Writing the text representation of an integer to this file sets the system
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default vector length to the specified value, unless the value is greater
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than the maximum vector length supported by the system in which case the
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default vector length is set to that maximum.
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The result can be determined by reopening the file and reading its
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contents.
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At boot, the default vector length is initially set to 64 or the maximum
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supported vector length, whichever is smaller. This determines the initial
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vector length of the init process (PID 1).
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Reading this file returns the current system default vector length.
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* At every execve() call, the new vector length of the new process is set to
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the system default vector length, unless
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* PR_SVE_VL_INHERIT (or equivalently SVE_PT_VL_INHERIT) is set for the
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calling thread, or
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* a deferred vector length change is pending, established via the
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PR_SVE_SET_VL_ONEXEC flag (or SVE_PT_VL_ONEXEC).
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* Modifying the system default vector length does not affect the vector length
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of any existing process or thread that does not make an execve() call.
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Appendix A. SVE programmer's model (informative)
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=================================================
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This section provides a minimal description of the additions made by SVE to the
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ARMv8-A programmer's model that are relevant to this document.
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Note: This section is for information only and not intended to be complete or
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to replace any architectural specification.
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A.1. Registers
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---------------
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In A64 state, SVE adds the following:
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* 32 8VL-bit vector registers Z0..Z31
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For each Zn, Zn bits [127:0] alias the ARMv8-A vector register Vn.
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A register write using a Vn register name zeros all bits of the corresponding
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Zn except for bits [127:0].
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* 16 VL-bit predicate registers P0..P15
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* 1 VL-bit special-purpose predicate register FFR (the "first-fault register")
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* a VL "pseudo-register" that determines the size of each vector register
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The SVE instruction set architecture provides no way to write VL directly.
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Instead, it can be modified only by EL1 and above, by writing appropriate
|
|
system registers.
|
|
|
|
* The value of VL can be configured at runtime by EL1 and above:
|
|
16 <= VL <= VLmax, where VL must be a multiple of 16.
|
|
|
|
* The maximum vector length is determined by the hardware:
|
|
16 <= VLmax <= 256.
|
|
|
|
(The SVE architecture specifies 256, but permits future architecture
|
|
revisions to raise this limit.)
|
|
|
|
* FPSR and FPCR are retained from ARMv8-A, and interact with SVE floating-point
|
|
operations in a similar way to the way in which they interact with ARMv8
|
|
floating-point operations::
|
|
|
|
8VL-1 128 0 bit index
|
|
+---- //// -----------------+
|
|
Z0 | : V0 |
|
|
: :
|
|
Z7 | : V7 |
|
|
Z8 | : * V8 |
|
|
: : :
|
|
Z15 | : *V15 |
|
|
Z16 | : V16 |
|
|
: :
|
|
Z31 | : V31 |
|
|
+---- //// -----------------+
|
|
31 0
|
|
VL-1 0 +-------+
|
|
+---- //// --+ FPSR | |
|
|
P0 | | +-------+
|
|
: | | *FPCR | |
|
|
P15 | | +-------+
|
|
+---- //// --+
|
|
FFR | | +-----+
|
|
+---- //// --+ VL | |
|
|
+-----+
|
|
|
|
(*) callee-save:
|
|
This only applies to bits [63:0] of Z-/V-registers.
|
|
FPCR contains callee-save and caller-save bits. See [4] for details.
|
|
|
|
|
|
A.2. Procedure call standard
|
|
-----------------------------
|
|
|
|
The ARMv8-A base procedure call standard is extended as follows with respect to
|
|
the additional SVE register state:
|
|
|
|
* All SVE register bits that are not shared with FP/SIMD are caller-save.
|
|
|
|
* Z8 bits [63:0] .. Z15 bits [63:0] are callee-save.
|
|
|
|
This follows from the way these bits are mapped to V8..V15, which are caller-
|
|
save in the base procedure call standard.
|
|
|
|
|
|
Appendix B. ARMv8-A FP/SIMD programmer's model
|
|
===============================================
|
|
|
|
Note: This section is for information only and not intended to be complete or
|
|
to replace any architectural specification.
|
|
|
|
Refer to [4] for more information.
|
|
|
|
ARMv8-A defines the following floating-point / SIMD register state:
|
|
|
|
* 32 128-bit vector registers V0..V31
|
|
* 2 32-bit status/control registers FPSR, FPCR
|
|
|
|
::
|
|
|
|
127 0 bit index
|
|
+---------------+
|
|
V0 | |
|
|
: : :
|
|
V7 | |
|
|
* V8 | |
|
|
: : : :
|
|
*V15 | |
|
|
V16 | |
|
|
: : :
|
|
V31 | |
|
|
+---------------+
|
|
|
|
31 0
|
|
+-------+
|
|
FPSR | |
|
|
+-------+
|
|
*FPCR | |
|
|
+-------+
|
|
|
|
(*) callee-save:
|
|
This only applies to bits [63:0] of V-registers.
|
|
FPCR contains a mixture of callee-save and caller-save bits.
|
|
|
|
|
|
References
|
|
==========
|
|
|
|
[1] arch/arm64/include/uapi/asm/sigcontext.h
|
|
AArch64 Linux signal ABI definitions
|
|
|
|
[2] arch/arm64/include/uapi/asm/ptrace.h
|
|
AArch64 Linux ptrace ABI definitions
|
|
|
|
[3] Documentation/arm64/cpu-feature-registers.rst
|
|
|
|
[4] ARM IHI0055C
|
|
http://infocenter.arm.com/help/topic/com.arm.doc.ihi0055c/IHI0055C_beta_aapcs64.pdf
|
|
http://infocenter.arm.com/help/topic/com.arm.doc.subset.swdev.abi/index.html
|
|
Procedure Call Standard for the ARM 64-bit Architecture (AArch64)
|