// clang-format off
// Compile with:
// clang -target aarch64-unknown-linux-gnu main.c -o a.out -g -march=armv8.6-a+sve+sme+sme2
//
// For minimal corefile size, do this before running the program:
// echo 0x20 > /proc/self/coredump_filter
//
// Must be run on a system that has SVE, SME and SME2, including the smefa64
// extension.
//
// Example command:
// ./a.out 0 32 64 1
//
// This would not enter streaming mode, set non-streaming VL to 32
// bytes, streaming VL to 64 bytes and enable ZA and ZT0.
//
// To generate all the test files, use the generate.sh script that's in this
// folder.
// clang-format on
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <sys/prctl.h>
#ifndef PR_SME_SET_VL
#define PR_SME_SET_VL 63
#endif
#define SM_INST(c) asm volatile("msr s0_3_c4_c" #c "_3, xzr")
#define SMSTART_SM SM_INST(3)
#define SMSTART_ZA SM_INST(5)
void set_sve_registers() {
// We assume the smefa64 feature is present, which allows ffr access
// in streaming mode.
asm volatile("setffr\n\t");
asm volatile("ptrue p0.b\n\t");
asm volatile("ptrue p1.h\n\t");
asm volatile("ptrue p2.s\n\t");
asm volatile("ptrue p3.d\n\t");
asm volatile("pfalse p4.b\n\t");
asm volatile("ptrue p5.b\n\t");
asm volatile("ptrue p6.h\n\t");
asm volatile("ptrue p7.s\n\t");
asm volatile("ptrue p8.d\n\t");
asm volatile("pfalse p9.b\n\t");
asm volatile("ptrue p10.b\n\t");
asm volatile("ptrue p11.h\n\t");
asm volatile("ptrue p12.s\n\t");
asm volatile("ptrue p13.d\n\t");
asm volatile("pfalse p14.b\n\t");
asm volatile("ptrue p15.b\n\t");
asm volatile("cpy z0.b, p0/z, #1\n\t");
asm volatile("cpy z1.b, p5/z, #2\n\t");
asm volatile("cpy z2.b, p10/z, #3\n\t");
asm volatile("cpy z3.b, p15/z, #4\n\t");
asm volatile("cpy z4.b, p0/z, #5\n\t");
asm volatile("cpy z5.b, p5/z, #6\n\t");
asm volatile("cpy z6.b, p10/z, #7\n\t");
asm volatile("cpy z7.b, p15/z, #8\n\t");
asm volatile("cpy z8.b, p0/z, #9\n\t");
asm volatile("cpy z9.b, p5/z, #10\n\t");
asm volatile("cpy z10.b, p10/z, #11\n\t");
asm volatile("cpy z11.b, p15/z, #12\n\t");
asm volatile("cpy z12.b, p0/z, #13\n\t");
asm volatile("cpy z13.b, p5/z, #14\n\t");
asm volatile("cpy z14.b, p10/z, #15\n\t");
asm volatile("cpy z15.b, p15/z, #16\n\t");
asm volatile("cpy z16.b, p0/z, #17\n\t");
asm volatile("cpy z17.b, p5/z, #18\n\t");
asm volatile("cpy z18.b, p10/z, #19\n\t");
asm volatile("cpy z19.b, p15/z, #20\n\t");
asm volatile("cpy z20.b, p0/z, #21\n\t");
asm volatile("cpy z21.b, p5/z, #22\n\t");
asm volatile("cpy z22.b, p10/z, #23\n\t");
asm volatile("cpy z23.b, p15/z, #24\n\t");
asm volatile("cpy z24.b, p0/z, #25\n\t");
asm volatile("cpy z25.b, p5/z, #26\n\t");
asm volatile("cpy z26.b, p10/z, #27\n\t");
asm volatile("cpy z27.b, p15/z, #28\n\t");
asm volatile("cpy z28.b, p0/z, #29\n\t");
asm volatile("cpy z29.b, p5/z, #30\n\t");
asm volatile("cpy z30.b, p10/z, #31\n\t");
asm volatile("cpy z31.b, p15/z, #32\n\t");
}
void set_za_register(int streaming_vl) {
#define MAX_VL_BYTES 256
uint8_t data[MAX_VL_BYTES];
for (unsigned i = 0; i < streaming_vl; ++i) {
for (unsigned j = 0; j < MAX_VL_BYTES; ++j)
data[j] = i + 1;
asm volatile("mov w12, %w0\n\t"
"ldr za[w12, 0], [%1]\n\t" ::"r"(i),
"r"(&data)
: "w12");
}
#undef MAX_VL_BYTES
}
void set_zt0_register() {
#define ZTO_LEN (512 / 8)
uint8_t data[ZTO_LEN];
for (unsigned i = 0; i < ZTO_LEN; ++i)
data[i] = i + 1;
asm volatile("ldr zt0, [%0]" ::"r"(&data));
#undef ZT0_LEN
}
void set_tpidr2(uint64_t value) {
__asm__ volatile("msr S3_3_C13_C0_5, %0" ::"r"(value));
}
int main(int argc, char **argv) {
// Arguments:
// SVE mode: 1 for streaming SVE (SSVE), any other value
// for non-streaming SVE mode.
// Non-Streaming Vector length: In bytes, an integer e.g. "32".
// Streaming Vector length: As above, but for streaming mode.
// ZA mode: 1 for enabled, any other value for disabled.
if (argc != 5)
return 1;
// We assume this is run on a system with SME, so tpidr2 can always be
// accessed.
set_tpidr2(0x1122334455667788);
// Streaming mode or not?
bool streaming_mode = strcmp(argv[1], "1") == 0;
// Set vector length (is a syscall, resets modes).
int non_streaming_vl = atoi(argv[2]);
prctl(PR_SVE_SET_VL, non_streaming_vl);
int streaming_vl = atoi(argv[3]);
prctl(PR_SME_SET_VL, streaming_vl);
if (streaming_mode)
SMSTART_SM;
set_sve_registers();
// ZA enabled or disabled?
if (strcmp(argv[4], "1") == 0) {
SMSTART_ZA;
set_za_register(streaming_vl);
set_zt0_register();
}
*(volatile char *)(0) = 0; // Crashes here.
return 0;
}
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