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// SPDX-License-Identifier: GPL-2.0-only
// Copyright (C) 2015-2019 ARM Limited.
// Original author: Dave Martin <Dave.Martin@arm.com>
//
// Simple FPSIMD context switch test
// Repeatedly writes unique test patterns into each FPSIMD register
// and reads them back to verify integrity.
//
// for x in `seq 1 NR_CPUS`; do fpsimd-test & pids=$pids\ $! ; done
// (leave it running for as long as you want...)
// kill $pids
#include <asm/unistd.h>
#include "assembler.h"
#include "asm-offsets.h"
#define NVR 32
#define MAXVL_B (128 / 8)
.macro _vldr Vn:req, Xt:req
ld1 {v\Vn\().2d}, [x\Xt]
.endm
.macro _vstr Vn:req, Xt:req
st1 {v\Vn\().2d}, [x\Xt]
.endm
// Generate accessor functions to read/write programmatically selected
// FPSIMD registers.
// x0 is the register index to access
// x1 is the memory address to read from (getv,setp) or store to (setv,setp)
// All clobber x0-x2
define_accessor setv, NVR, _vldr
define_accessor getv, NVR, _vstr
// Declare some storate space to shadow the SVE register contents:
.pushsection .text
.data
.align 4
vref:
.space MAXVL_B * NVR
scratch:
.space MAXVL_B
.popsection
// Generate a test pattern for storage in SVE registers
// x0: pid (16 bits)
// x1: register number (6 bits)
// x2: generation (4 bits)
function pattern
orr w1, w0, w1, lsl #16
orr w2, w1, w2, lsl #28
ldr x0, =scratch
mov w1, #MAXVL_B / 4
0: str w2, [x0], #4
add w2, w2, #(1 << 22)
subs w1, w1, #1
bne 0b
ret
endfunction
// Get the address of shadow data for FPSIMD V-register V<xn>
.macro _adrv xd, xn, nrtmp
ldr \xd, =vref
mov x\nrtmp, #16
madd \xd, x\nrtmp, \xn, \xd
.endm
// Set up test pattern in a FPSIMD V-register
// x0: pid
// x1: register number
// x2: generation
function setup_vreg
mov x4, x30
mov x6, x1
bl pattern
_adrv x0, x6, 2
mov x5, x0
ldr x1, =scratch
bl memcpy
mov x0, x6
mov x1, x5
bl setv
ret x4
endfunction
// Trivial memory compare: compare x2 bytes starting at address x0 with
// bytes starting at address x1.
// Returns only if all bytes match; otherwise, the program is aborted.
// Clobbers x0-x5.
function memcmp
cbz x2, 1f
mov x5, #0
0: ldrb w3, [x0, x5]
ldrb w4, [x1, x5]
add x5, x5, #1
cmp w3, w4
b.ne barf
subs x2, x2, #1
b.ne 0b
1: ret
endfunction
// Verify that a FPSIMD V-register matches its shadow in memory, else abort
// x0: reg number
// Clobbers x0-x5.
function check_vreg
mov x3, x30
_adrv x5, x0, 6
mov x4, x0
ldr x7, =scratch
mov x0, x7
mov x1, x6
bl memfill_ae
mov x0, x4
mov x1, x7
bl getv
mov x0, x5
mov x1, x7
mov x2, x6
mov x30, x3
b memcmp
endfunction
// Any SVE register modified here can cause corruption in the main
// thread -- but *only* the registers modified here.
function irritator_handler
// Increment the irritation signal count (x23):
ldr x0, [x2, #ucontext_regs + 8 * 23]
add x0, x0, #1
str x0, [x2, #ucontext_regs + 8 * 23]
// Corrupt some random V-regs
adr x0, .text + (irritator_handler - .text) / 16 * 16
movi v0.8b, #7
movi v9.16b, #9
movi v31.8b, #31
ret
endfunction
function tickle_handler
// Increment the signal count (x23):
ldr x0, [x2, #ucontext_regs + 8 * 23]
add x0, x0, #1
str x0, [x2, #ucontext_regs + 8 * 23]
ret
endfunction
function terminate_handler
mov w21, w0
mov x20, x2
puts "Terminated by signal "
mov w0, w21
bl putdec
puts ", no error, iterations="
ldr x0, [x20, #ucontext_regs + 8 * 22]
bl putdec
puts ", signals="
ldr x0, [x20, #ucontext_regs + 8 * 23]
bl putdecn
mov x0, #0
mov x8, #__NR_exit
svc #0
endfunction
// w0: signal number
// x1: sa_action
// w2: sa_flags
// Clobbers x0-x6,x8
function setsignal
str x30, [sp, #-((sa_sz + 15) / 16 * 16 + 16)]!
mov w4, w0
mov x5, x1
mov w6, w2
add x0, sp, #16
mov x1, #sa_sz
bl memclr
mov w0, w4
add x1, sp, #16
str w6, [x1, #sa_flags]
str x5, [x1, #sa_handler]
mov x2, #0
mov x3, #sa_mask_sz
mov x8, #__NR_rt_sigaction
svc #0
cbz w0, 1f
puts "sigaction failure\n"
b .Labort
1: ldr x30, [sp], #((sa_sz + 15) / 16 * 16 + 16)
ret
endfunction
// Main program entry point
.globl _start
function _start
mov x23, #0 // signal count
mov w0, #SIGINT
adr x1, terminate_handler
mov w2, #SA_SIGINFO
bl setsignal
mov w0, #SIGTERM
adr x1, terminate_handler
mov w2, #SA_SIGINFO
bl setsignal
mov w0, #SIGUSR1
adr x1, irritator_handler
mov w2, #SA_SIGINFO
orr w2, w2, #SA_NODEFER
bl setsignal
mov w0, #SIGUSR2
adr x1, tickle_handler
mov w2, #SA_SIGINFO
orr w2, w2, #SA_NODEFER
bl setsignal
// Sanity-check and report the vector length
mov x19, #128
cmp x19, #128
b.lo 1f
cmp x19, #2048
b.hi 1f
tst x19, #(8 - 1)
b.eq 2f
1: puts "Bad vector length: "
mov x0, x19
bl putdecn
b .Labort
2: puts "Vector length:\t"
mov x0, x19
bl putdec
puts " bits\n"
// Obtain our PID, to ensure test pattern uniqueness between processes
mov x8, #__NR_getpid
svc #0
mov x20, x0
puts "PID:\t"
mov x0, x20
bl putdecn
mov x22, #0 // generation number, increments per iteration
.Ltest_loop:
mov x21, #0 // Set up V-regs & shadow with test pattern
0: mov x0, x20
mov x1, x21
and x2, x22, #0xf
bl setup_vreg
add x21, x21, #1
cmp x21, #NVR
b.lo 0b
// Can't do this when SVE state is volatile across SVC:
mov x8, #__NR_sched_yield // Encourage preemption
svc #0
mov x21, #0
0: mov x0, x21
bl check_vreg
add x21, x21, #1
cmp x21, #NVR
b.lo 0b
add x22, x22, #1
b .Ltest_loop
.Labort:
mov x0, #0
mov x1, #SIGABRT
mov x8, #__NR_kill
svc #0
endfunction
function barf
mov x10, x0 // expected data
mov x11, x1 // actual data
mov x12, x2 // data size
puts "Mismatch: PID="
mov x0, x20
bl putdec
puts ", iteration="
mov x0, x22
bl putdec
puts ", reg="
mov x0, x21
bl putdecn
puts "\tExpected ["
mov x0, x10
mov x1, x12
bl dumphex
puts "]\n\tGot ["
mov x0, x11
mov x1, x12
bl dumphex
puts "]\n"
mov x8, #__NR_exit
mov x1, #1
svc #0
endfunction