/* * This file and its contents are supplied under the terms of the * Common Development and Distribution License ("CDDL"), version 1.0. * You may only use this file in accordance with the terms of version * 1.0 of the CDDL. * * A full copy of the text of the CDDL should have accompanied this * source. A copy of the CDDL is also available via the Internet at * http://www.illumos.org/license/CDDL. */ /* * Copyright 2022 Oxide Computer Company */ #include #include #include #include #include #include #include #include #include #include #include #include #include "in_guest.h" #include "test_defs.h" typedef struct reading { hrtime_t when; uint16_t value; } reading_t; static bool check_reading(reading_t before, reading_t after, uint_t tick_margin, uint_t ppm_margin) { hrtime_t time_delta = after.when - before.when; uint16_t tick_delta; tick_delta = before.value - after.value; /* is the number of ticks OK? */ if (tick_delta < ATPIT_TARGET_TICKS) { test_fail_msg("inadequate passage of ticks %u < %u\n", tick_delta, ATPIT_TARGET_TICKS); } else if ((tick_delta - ATPIT_TARGET_TICKS) > tick_margin) { (void) printf("%u ticks outside margin %u\n", tick_delta, ATPIT_TARGET_TICKS + tick_margin); return (false); } hrtime_t time_target = (tick_delta * NANOSEC) / ATPIT_FREQ; hrtime_t offset; if (time_delta < time_target) { offset = time_target - time_delta; } else { offset = time_delta - time_target; } uint64_t ppm = (offset * 1000000) / time_target; (void) printf("margin limits: ticks=%u ppm=%lu\n", tick_margin, ppm_margin); (void) printf("%u ticks in %lu ns (error %lu ppm)\n", tick_delta, time_delta, ppm); if (ppm > ppm_margin) { (void) printf("UNACCEPTABLE!\n"); return (false); } return (true); } int main(int argc, char *argv[]) { const char *test_suite_name = basename(argv[0]); struct vmctx *ctx = NULL; int err; ctx = test_initialize(test_suite_name); err = test_setup_vcpu(ctx, 0, MEM_LOC_PAYLOAD, MEM_LOC_STACK); if (err != 0) { test_fail_errno(err, "Could not initialize vcpu0"); } struct vm_entry ventry = { 0 }; struct vm_exit vexit = { 0 }; reading_t readings[2]; uint_t nread = 0; uint_t nrepeat = 0; /* * Since the PIT is slower to read back (requiring 3 emulated reads), * operate with a more loose ticks margin. */ const uint_t margin_ticks = MAX(1, ATPIT_TARGET_TICKS / 2500); const uint_t margin_ppm = 400; do { const enum vm_exit_kind kind = test_run_vcpu(ctx, 0, &ventry, &vexit); if (kind == VEK_REENTR) { continue; } else if (kind != VEK_UNHANDLED) { test_fail_vmexit(&vexit); } uint32_t v; if (vexit_match_inout(&vexit, false, IOP_TEST_VALUE, 2, &v)) { readings[nread].when = gethrtime(); readings[nread].value = v; ventry_fulfill_inout(&vexit, &ventry, 0); nread++; if (nread != 2) { continue; } if (check_reading(readings[0], readings[1], margin_ticks, margin_ppm)) { test_pass(); } else { nrepeat++; if (nrepeat < 3) { nread = 0; (void) printf("retry %u\n", nrepeat); continue; } test_fail_msg("bad result after %u retries\n", nrepeat); } } else { test_fail_vmexit(&vexit); } } while (true); return (0); }