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7e98da058f
This change reorganizes and cleanups our patches to reduce the patch number from 314 patches to 187. That's achieved by dropping patches that are later reverted and squashing fixes for earlier patches that introduced features. There are no code changes and the diff with upstream is the same before and after the cleanup. Having fewer patches makes easier to manage the patchset and also will ease to rebase them on top of the latest grub-2.04 release. Signed-off-by: Javier Martinez Canillas <javierm@redhat.com>
211 lines
7.6 KiB
Diff
211 lines
7.6 KiB
Diff
From 0000000000000000000000000000000000000000 Mon Sep 17 00:00:00 2001
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From: Peter Jones <pjones@redhat.com>
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Date: Tue, 7 Nov 2017 17:12:17 -0500
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Subject: [PATCH] Make pmtimer tsc calibration not take 51 seconds to fail.
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On my laptop running at 2.4GHz, if I run a VM where tsc calibration
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using pmtimer will fail presuming a broken pmtimer, it takes ~51 seconds
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to do so (as measured with the stopwatch on my phone), with a tsc delta
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of 0x1cd1c85300, or around 125 billion cycles.
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If instead of trying to wait for 5-200ms to show up on the pmtimer, we try
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to wait for 5-200us, it decides it's broken in ~0x2626aa0 TSCs, aka ~2.4
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million cycles, or more or less instantly.
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Additionally, this reading the pmtimer was returning 0xffffffff anyway,
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and that's obviously an invalid return. I've added a check for that and
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0 so we don't bother waiting for the test if what we're seeing is dead
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pins with no response at all.
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If "debug" is includes "pmtimer", you will see one of the following
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three outcomes. If pmtimer gives all 0 or all 1 bits, you will see:
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 1
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 2
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 3
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 4
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 5
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 6
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 7
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 8
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 9
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kern/i386/tsc_pmtimer.c:77: pmtimer: 0xffffff bad_reads: 10
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kern/i386/tsc_pmtimer.c:78: timer is broken; giving up.
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This outcome was tested using qemu+kvm with UEFI (OVMF) firmware and
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these options: -machine pc-q35-2.10 -cpu Broadwell-noTSX
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If pmtimer gives any other bit patterns but is not actually marching
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forward fast enough to use for clock calibration, you will see:
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kern/i386/tsc_pmtimer.c:121: pmtimer delta is 0x0 (1904 iterations)
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kern/i386/tsc_pmtimer.c:124: tsc delta is implausible: 0x2626aa0
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This outcome was tested using grub compiled with GRUB_PMTIMER_IGNORE_BAD_READS
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defined (so as not to trip the bad read test) using qemu+kvm with UEFI
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(OVMF) firmware, and these options: -machine pc-q35-2.10 -cpu Broadwell-noTSX
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If pmtimer actually works, you'll see something like:
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kern/i386/tsc_pmtimer.c:121: pmtimer delta is 0x0 (1904 iterations)
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kern/i386/tsc_pmtimer.c:124: tsc delta is implausible: 0x2626aa0
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This outcome was tested using qemu+kvm with UEFI (OVMF) firmware, and
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these options: -machine pc-i440fx-2.4 -cpu Broadwell-noTSX
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I've also tested this outcome on a real Intel Xeon E3-1275v3 on an Intel
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Server Board S1200V3RPS using the SDV.RP.B8 "Release" build here:
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https://firmware.intel.com/sites/default/files/UEFIDevKit_S1200RP_vB8.zip
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Signed-off-by: Peter Jones <pjones@redhat.com>
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---
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grub-core/kern/i386/tsc_pmtimer.c | 109 +++++++++++++++++++++++++++++++-------
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1 file changed, 89 insertions(+), 20 deletions(-)
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diff --git a/grub-core/kern/i386/tsc_pmtimer.c b/grub-core/kern/i386/tsc_pmtimer.c
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index c9c36169978..ca15c3aacd7 100644
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--- a/grub-core/kern/i386/tsc_pmtimer.c
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+++ b/grub-core/kern/i386/tsc_pmtimer.c
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@@ -28,40 +28,101 @@
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#include <grub/acpi.h>
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#include <grub/cpu/io.h>
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+/*
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+ * Define GRUB_PMTIMER_IGNORE_BAD_READS if you're trying to test a timer that's
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+ * present but doesn't keep time well.
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+ */
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+// #define GRUB_PMTIMER_IGNORE_BAD_READS
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+
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grub_uint64_t
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grub_pmtimer_wait_count_tsc (grub_port_t pmtimer,
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grub_uint16_t num_pm_ticks)
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{
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grub_uint32_t start;
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- grub_uint32_t last;
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- grub_uint32_t cur, end;
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+ grub_uint64_t cur, end;
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grub_uint64_t start_tsc;
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grub_uint64_t end_tsc;
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- int num_iter = 0;
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+ unsigned int num_iter = 0;
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+#ifndef GRUB_PMTIMER_IGNORE_BAD_READS
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+ int bad_reads = 0;
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+#endif
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- start = grub_inl (pmtimer) & 0xffffff;
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- last = start;
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+ /*
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+ * Some timers are 24-bit and some are 32-bit, but it doesn't make much
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+ * difference to us. Caring which one we have isn't really worth it since
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+ * the low-order digits will give us enough data to calibrate TSC. So just
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+ * mask the top-order byte off.
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+ */
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+ cur = start = grub_inl (pmtimer) & 0xffffffUL;
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end = start + num_pm_ticks;
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start_tsc = grub_get_tsc ();
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while (1)
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{
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- cur = grub_inl (pmtimer) & 0xffffff;
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- if (cur < last)
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- cur |= 0x1000000;
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- num_iter++;
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+ cur &= 0xffffffffff000000ULL;
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+ cur |= grub_inl (pmtimer) & 0xffffffUL;
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+
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+ end_tsc = grub_get_tsc();
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+
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+#ifndef GRUB_PMTIMER_IGNORE_BAD_READS
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+ /*
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+ * If we get 10 reads in a row that are obviously dead pins, there's no
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+ * reason to do this thousands of times.
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+ */
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+ if (cur == 0xffffffUL || cur == 0)
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+ {
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+ bad_reads++;
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+ grub_dprintf ("pmtimer",
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+ "pmtimer: 0x%"PRIxGRUB_UINT64_T" bad_reads: %d\n",
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+ cur, bad_reads);
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+ grub_dprintf ("pmtimer", "timer is broken; giving up.\n");
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+
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+ if (bad_reads == 10)
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+ return 0;
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+ }
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+#endif
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+
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+ if (cur < start)
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+ cur += 0x1000000;
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+
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if (cur >= end)
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{
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- end_tsc = grub_get_tsc ();
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+ grub_dprintf ("pmtimer", "pmtimer delta is 0x%"PRIxGRUB_UINT64_T"\n",
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+ cur - start);
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+ grub_dprintf ("pmtimer", "tsc delta is 0x%"PRIxGRUB_UINT64_T"\n",
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+ end_tsc - start_tsc);
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return end_tsc - start_tsc;
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}
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- /* Check for broken PM timer.
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- 50000000 TSCs is between 5 ms (10GHz) and 200 ms (250 MHz)
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- if after this time we still don't have 1 ms on pmtimer, then
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- pmtimer is broken.
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+
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+ /*
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+ * Check for broken PM timer. 1ms at 10GHz should be 1E+7 TSCs; at
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+ * 250MHz it should be 2.5E6. So if after 4E+7 TSCs on a 10GHz machine,
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+ * we should have seen pmtimer show 4ms of change (i.e. cur =~
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+ * start+14320); on a 250MHz machine that should be 16ms (start+57280).
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+ * If after this a time we still don't have 1ms on pmtimer, then pmtimer
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+ * is broken.
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+ *
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+ * Likewise, if our code is perfectly efficient and introduces no delays
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+ * whatsoever, on a 10GHz system we should see a TSC delta of 3580 in
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+ * ~3580 iterations. On a 250MHz machine that should be ~900 iterations.
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+ *
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+ * With those factors in mind, there are two limits here. There's a hard
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+ * limit here at 8x our desired pm timer delta, picked as an arbitrarily
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+ * large value that's still not a lot of time to humans, because if we
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+ * get that far this is either an implausibly fast machine or the pmtimer
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+ * is not running. And there's another limit on 4x our 10GHz tsc delta
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+ * without seeing cur converge on our target value.
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*/
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- if ((num_iter & 0xffffff) == 0 && grub_get_tsc () - start_tsc > 5000000) {
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- return 0;
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- }
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+ if ((++num_iter > (grub_uint32_t)num_pm_ticks << 3UL) ||
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+ end_tsc - start_tsc > 40000000)
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+ {
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+ grub_dprintf ("pmtimer",
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+ "pmtimer delta is 0x%"PRIxGRUB_UINT64_T" (%u iterations)\n",
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+ cur - start, num_iter);
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+ grub_dprintf ("pmtimer",
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+ "tsc delta is implausible: 0x%"PRIxGRUB_UINT64_T"\n",
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+ end_tsc - start_tsc);
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+ return 0;
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+ }
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}
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}
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@@ -74,12 +135,20 @@ grub_tsc_calibrate_from_pmtimer (void)
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fadt = grub_acpi_find_fadt ();
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if (!fadt)
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- return 0;
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+ {
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+ grub_dprintf ("pmtimer", "No FADT found; not using pmtimer.\n");
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+ return 0;
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+ }
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pmtimer = fadt->pmtimer;
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if (!pmtimer)
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- return 0;
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+ {
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+ grub_dprintf ("pmtimer", "FADT does not specify pmtimer; skipping.\n");
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+ return 0;
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+ }
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- /* It's 3.579545 MHz clock. Wait 1 ms. */
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+ /*
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+ * It's 3.579545 MHz clock. Wait 1 ms.
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+ */
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tsc_diff = grub_pmtimer_wait_count_tsc (pmtimer, 3580);
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if (tsc_diff == 0)
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return 0;
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