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-rw-r--r--arch/x86/kernel/tsc_msr.c128
1 files changed, 112 insertions, 16 deletions
diff --git a/arch/x86/kernel/tsc_msr.c b/arch/x86/kernel/tsc_msr.c
index bf528aae8ece..4fec6f3a1858 100644
--- a/arch/x86/kernel/tsc_msr.c
+++ b/arch/x86/kernel/tsc_msr.c
@@ -15,18 +15,46 @@
#include <asm/param.h>
#include <asm/tsc.h>
-#define MAX_NUM_FREQS 9
+#define MAX_NUM_FREQS 16 /* 4 bits to select the frequency */
+
+/*
+ * The frequency numbers in the SDM are e.g. 83.3 MHz, which does not contain a
+ * lot of accuracy which leads to clock drift. As far as we know Bay Trail SoCs
+ * use a 25 MHz crystal and Cherry Trail uses a 19.2 MHz crystal, the crystal
+ * is the source clk for a root PLL which outputs 1600 and 100 MHz. It is
+ * unclear if the root PLL outputs are used directly by the CPU clock PLL or
+ * if there is another PLL in between.
+ * This does not matter though, we can model the chain of PLLs as a single PLL
+ * with a quotient equal to the quotients of all PLLs in the chain multiplied.
+ * So we can create a simplified model of the CPU clock setup using a reference
+ * clock of 100 MHz plus a quotient which gets us as close to the frequency
+ * from the SDM as possible.
+ * For the 83.3 MHz example from above this would give us 100 MHz * 5 / 6 =
+ * 83 and 1/3 MHz, which matches exactly what has been measured on actual hw.
+ */
+#define TSC_REFERENCE_KHZ 100000
+
+struct muldiv {
+ u32 multiplier;
+ u32 divider;
+};
/*
* If MSR_PERF_STAT[31] is set, the maximum resolved bus ratio can be
* read in MSR_PLATFORM_ID[12:8], otherwise in MSR_PERF_STAT[44:40].
* Unfortunately some Intel Atom SoCs aren't quite compliant to this,
* so we need manually differentiate SoC families. This is what the
- * field msr_plat does.
+ * field use_msr_plat does.
*/
struct freq_desc {
- u8 msr_plat; /* 1: use MSR_PLATFORM_INFO, 0: MSR_IA32_PERF_STATUS */
+ bool use_msr_plat;
+ struct muldiv muldiv[MAX_NUM_FREQS];
+ /*
+ * Some CPU frequencies in the SDM do not map to known PLL freqs, in
+ * that case the muldiv array is empty and the freqs array is used.
+ */
u32 freqs[MAX_NUM_FREQS];
+ u32 mask;
};
/*
@@ -35,31 +63,81 @@ struct freq_desc {
* by MSR based on SDM.
*/
static const struct freq_desc freq_desc_pnw = {
- 0, { 0, 0, 0, 0, 0, 99840, 0, 83200 }
+ .use_msr_plat = false,
+ .freqs = { 0, 0, 0, 0, 0, 99840, 0, 83200 },
+ .mask = 0x07,
};
static const struct freq_desc freq_desc_clv = {
- 0, { 0, 133200, 0, 0, 0, 99840, 0, 83200 }
+ .use_msr_plat = false,
+ .freqs = { 0, 133200, 0, 0, 0, 99840, 0, 83200 },
+ .mask = 0x07,
};
+/*
+ * Bay Trail SDM MSR_FSB_FREQ frequencies simplified PLL model:
+ * 000: 100 * 5 / 6 = 83.3333 MHz
+ * 001: 100 * 1 / 1 = 100.0000 MHz
+ * 010: 100 * 4 / 3 = 133.3333 MHz
+ * 011: 100 * 7 / 6 = 116.6667 MHz
+ * 100: 100 * 4 / 5 = 80.0000 MHz
+ */
static const struct freq_desc freq_desc_byt = {
- 1, { 83300, 100000, 133300, 116700, 80000, 0, 0, 0 }
+ .use_msr_plat = true,
+ .muldiv = { { 5, 6 }, { 1, 1 }, { 4, 3 }, { 7, 6 },
+ { 4, 5 } },
+ .mask = 0x07,
};
+/*
+ * Cherry Trail SDM MSR_FSB_FREQ frequencies simplified PLL model:
+ * 0000: 100 * 5 / 6 = 83.3333 MHz
+ * 0001: 100 * 1 / 1 = 100.0000 MHz
+ * 0010: 100 * 4 / 3 = 133.3333 MHz
+ * 0011: 100 * 7 / 6 = 116.6667 MHz
+ * 0100: 100 * 4 / 5 = 80.0000 MHz
+ * 0101: 100 * 14 / 15 = 93.3333 MHz
+ * 0110: 100 * 9 / 10 = 90.0000 MHz
+ * 0111: 100 * 8 / 9 = 88.8889 MHz
+ * 1000: 100 * 7 / 8 = 87.5000 MHz
+ */
static const struct freq_desc freq_desc_cht = {
- 1, { 83300, 100000, 133300, 116700, 80000, 93300, 90000, 88900, 87500 }
+ .use_msr_plat = true,
+ .muldiv = { { 5, 6 }, { 1, 1 }, { 4, 3 }, { 7, 6 },
+ { 4, 5 }, { 14, 15 }, { 9, 10 }, { 8, 9 },
+ { 7, 8 } },
+ .mask = 0x0f,
};
+/*
+ * Merriefield SDM MSR_FSB_FREQ frequencies simplified PLL model:
+ * 0001: 100 * 1 / 1 = 100.0000 MHz
+ * 0010: 100 * 4 / 3 = 133.3333 MHz
+ */
static const struct freq_desc freq_desc_tng = {
- 1, { 0, 100000, 133300, 0, 0, 0, 0, 0 }
+ .use_msr_plat = true,
+ .muldiv = { { 0, 0 }, { 1, 1 }, { 4, 3 } },
+ .mask = 0x07,
};
+/*
+ * Moorefield SDM MSR_FSB_FREQ frequencies simplified PLL model:
+ * 0000: 100 * 5 / 6 = 83.3333 MHz
+ * 0001: 100 * 1 / 1 = 100.0000 MHz
+ * 0010: 100 * 4 / 3 = 133.3333 MHz
+ * 0011: 100 * 1 / 1 = 100.0000 MHz
+ */
static const struct freq_desc freq_desc_ann = {
- 1, { 83300, 100000, 133300, 100000, 0, 0, 0, 0 }
+ .use_msr_plat = true,
+ .muldiv = { { 5, 6 }, { 1, 1 }, { 4, 3 }, { 1, 1 } },
+ .mask = 0x0f,
};
+/* 24 MHz crystal? : 24 * 13 / 4 = 78 MHz */
static const struct freq_desc freq_desc_lgm = {
- 1, { 78000, 78000, 78000, 78000, 78000, 78000, 78000, 78000 }
+ .use_msr_plat = true,
+ .freqs = { 78000, 78000, 78000, 78000, 78000, 78000, 78000, 78000 },
+ .mask = 0x0f,
};
static const struct x86_cpu_id tsc_msr_cpu_ids[] = {
@@ -81,17 +159,19 @@ static const struct x86_cpu_id tsc_msr_cpu_ids[] = {
*/
unsigned long cpu_khz_from_msr(void)
{
- u32 lo, hi, ratio, freq;
+ u32 lo, hi, ratio, freq, tscref;
const struct freq_desc *freq_desc;
const struct x86_cpu_id *id;
+ const struct muldiv *md;
unsigned long res;
+ int index;
id = x86_match_cpu(tsc_msr_cpu_ids);
if (!id)
return 0;
freq_desc = (struct freq_desc *)id->driver_data;
- if (freq_desc->msr_plat) {
+ if (freq_desc->use_msr_plat) {
rdmsr(MSR_PLATFORM_INFO, lo, hi);
ratio = (lo >> 8) & 0xff;
} else {
@@ -101,12 +181,28 @@ unsigned long cpu_khz_from_msr(void)
/* Get FSB FREQ ID */
rdmsr(MSR_FSB_FREQ, lo, hi);
+ index = lo & freq_desc->mask;
+ md = &freq_desc->muldiv[index];
- /* Map CPU reference clock freq ID(0-7) to CPU reference clock freq(KHz) */
- freq = freq_desc->freqs[lo & 0x7];
+ /*
+ * Note this also catches cases where the index points to an unpopulated
+ * part of muldiv, in that case the else will set freq and res to 0.
+ */
+ if (md->divider) {
+ tscref = TSC_REFERENCE_KHZ * md->multiplier;
+ freq = DIV_ROUND_CLOSEST(tscref, md->divider);
+ /*
+ * Multiplying by ratio before the division has better
+ * accuracy than just calculating freq * ratio.
+ */
+ res = DIV_ROUND_CLOSEST(tscref * ratio, md->divider);
+ } else {
+ freq = freq_desc->freqs[index];
+ res = freq * ratio;
+ }
- /* TSC frequency = maximum resolved freq * maximum resolved bus ratio */
- res = freq * ratio;
+ if (freq == 0)
+ pr_err("Error MSR_FSB_FREQ index %d is unknown\n", index);
#ifdef CONFIG_X86_LOCAL_APIC
lapic_timer_period = (freq * 1000) / HZ;