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authorAndrew Jeffery <andrew@aj.id.au>2019-12-20 14:02:59 +0000
committerPeter Maydell <peter.maydell@linaro.org>2019-12-20 14:02:59 +0000
commit96eec6b2b389215f43d7f07e823cb196f9185052 (patch)
tree9355eacda60d6f845cfed75b7070e4e67600382b
parent7def87548272f6f3831c7ae5ba713c5ccbd5d547 (diff)
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target/arm: Prepare generic timer for per-platform CNTFRQ
The ASPEED AST2600 clocks the generic timer at the rate of HPLL. On recent firmwares this is at 1125MHz, which is considerably quicker than the assumed 62.5MHz of the current generic timer implementation. The delta between the value as read from CNTFRQ and the true rate of the underlying QEMUTimer leads to sticky behaviour in AST2600 guests. Add a feature-gated property exposing CNTFRQ for ARM CPUs providing the generic timer. This allows platforms to configure CNTFRQ (and the associated QEMUTimer) to the appropriate frequency prior to starting the guest. As the platform can now determine the rate of CNTFRQ we're exposed to limitations of QEMUTimer that didn't previously materialise: In the course of emulation we need to arbitrarily and accurately convert between guest ticks and time, but we're constrained by QEMUTimer's use of an integer scaling factor. The effect is QEMUTimer cannot exactly capture the period of frequencies that do not cleanly divide NANOSECONDS_PER_SECOND for scaling ticks to time. As such, provide an equally inaccurate scaling factor for scaling time to ticks so at least a self-consistent inverse relationship holds. Signed-off-by: Andrew Jeffery <andrew@aj.id.au> Reviewed-by: Richard Henderson <richard.henderson@linaro.org> Message-id: a22db9325f96e39f76e3c2baddcb712149f46bf2.1576215453.git-series.andrew@aj.id.au Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
-rw-r--r--target/arm/cpu.c61
-rw-r--r--target/arm/helper.c9
2 files changed, 59 insertions, 11 deletions
diff --git a/target/arm/cpu.c b/target/arm/cpu.c
index 0abe288..d62fd5f 100644
--- a/target/arm/cpu.c
+++ b/target/arm/cpu.c
@@ -974,10 +974,12 @@ static void arm_cpu_initfn(Object *obj)
if (tcg_enabled()) {
cpu->psci_version = 2; /* TCG implements PSCI 0.2 */
}
-
- cpu->gt_cntfrq_hz = NANOSECONDS_PER_SECOND / GTIMER_SCALE;
}
+static Property arm_cpu_gt_cntfrq_property =
+ DEFINE_PROP_UINT64("cntfrq", ARMCPU, gt_cntfrq_hz,
+ NANOSECONDS_PER_SECOND / GTIMER_SCALE);
+
static Property arm_cpu_reset_cbar_property =
DEFINE_PROP_UINT64("reset-cbar", ARMCPU, reset_cbar, 0);
@@ -1059,6 +1061,24 @@ static void arm_set_init_svtor(Object *obj, Visitor *v, const char *name,
unsigned int gt_cntfrq_period_ns(ARMCPU *cpu)
{
+ /*
+ * The exact approach to calculating guest ticks is:
+ *
+ * muldiv64(qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL), cpu->gt_cntfrq_hz,
+ * NANOSECONDS_PER_SECOND);
+ *
+ * We don't do that. Rather we intentionally use integer division
+ * truncation below and in the caller for the conversion of host monotonic
+ * time to guest ticks to provide the exact inverse for the semantics of
+ * the QEMUTimer scale factor. QEMUTimer's scale facter is an integer, so
+ * it loses precision when representing frequencies where
+ * `(NANOSECONDS_PER_SECOND % cpu->gt_cntfrq) > 0` holds. Failing to
+ * provide an exact inverse leads to scheduling timers with negative
+ * periods, which in turn leads to sticky behaviour in the guest.
+ *
+ * Finally, CNTFRQ is effectively capped at 1GHz to ensure our scale factor
+ * cannot become zero.
+ */
return NANOSECONDS_PER_SECOND > cpu->gt_cntfrq_hz ?
NANOSECONDS_PER_SECOND / cpu->gt_cntfrq_hz : 1;
}
@@ -1180,6 +1200,11 @@ void arm_cpu_post_init(Object *obj)
qdev_property_add_static(DEVICE(obj), &arm_cpu_cfgend_property,
&error_abort);
+
+ if (arm_feature(&cpu->env, ARM_FEATURE_GENERIC_TIMER)) {
+ qdev_property_add_static(DEVICE(cpu), &arm_cpu_gt_cntfrq_property,
+ &error_abort);
+ }
}
static void arm_cpu_finalizefn(Object *obj)
@@ -1259,14 +1284,30 @@ static void arm_cpu_realizefn(DeviceState *dev, Error **errp)
}
}
- cpu->gt_timer[GTIMER_PHYS] = timer_new(QEMU_CLOCK_VIRTUAL, GTIMER_SCALE,
- arm_gt_ptimer_cb, cpu);
- cpu->gt_timer[GTIMER_VIRT] = timer_new(QEMU_CLOCK_VIRTUAL, GTIMER_SCALE,
- arm_gt_vtimer_cb, cpu);
- cpu->gt_timer[GTIMER_HYP] = timer_new(QEMU_CLOCK_VIRTUAL, GTIMER_SCALE,
- arm_gt_htimer_cb, cpu);
- cpu->gt_timer[GTIMER_SEC] = timer_new(QEMU_CLOCK_VIRTUAL, GTIMER_SCALE,
- arm_gt_stimer_cb, cpu);
+
+ {
+ uint64_t scale;
+
+ if (arm_feature(env, ARM_FEATURE_GENERIC_TIMER)) {
+ if (!cpu->gt_cntfrq_hz) {
+ error_setg(errp, "Invalid CNTFRQ: %"PRId64"Hz",
+ cpu->gt_cntfrq_hz);
+ return;
+ }
+ scale = gt_cntfrq_period_ns(cpu);
+ } else {
+ scale = GTIMER_SCALE;
+ }
+
+ cpu->gt_timer[GTIMER_PHYS] = timer_new(QEMU_CLOCK_VIRTUAL, scale,
+ arm_gt_ptimer_cb, cpu);
+ cpu->gt_timer[GTIMER_VIRT] = timer_new(QEMU_CLOCK_VIRTUAL, scale,
+ arm_gt_vtimer_cb, cpu);
+ cpu->gt_timer[GTIMER_HYP] = timer_new(QEMU_CLOCK_VIRTUAL, scale,
+ arm_gt_htimer_cb, cpu);
+ cpu->gt_timer[GTIMER_SEC] = timer_new(QEMU_CLOCK_VIRTUAL, scale,
+ arm_gt_stimer_cb, cpu);
+ }
#endif
cpu_exec_realizefn(cs, &local_err);
diff --git a/target/arm/helper.c b/target/arm/helper.c
index 8596378..1d9af2d 100644
--- a/target/arm/helper.c
+++ b/target/arm/helper.c
@@ -2723,6 +2723,13 @@ void arm_gt_stimer_cb(void *opaque)
gt_recalc_timer(cpu, GTIMER_SEC);
}
+static void arm_gt_cntfrq_reset(CPUARMState *env, const ARMCPRegInfo *opaque)
+{
+ ARMCPU *cpu = env_archcpu(env);
+
+ cpu->env.cp15.c14_cntfrq = cpu->gt_cntfrq_hz;
+}
+
static const ARMCPRegInfo generic_timer_cp_reginfo[] = {
/* Note that CNTFRQ is purely reads-as-written for the benefit
* of software; writing it doesn't actually change the timer frequency.
@@ -2737,7 +2744,7 @@ static const ARMCPRegInfo generic_timer_cp_reginfo[] = {
.opc0 = 3, .opc1 = 3, .crn = 14, .crm = 0, .opc2 = 0,
.access = PL1_RW | PL0_R, .accessfn = gt_cntfrq_access,
.fieldoffset = offsetof(CPUARMState, cp15.c14_cntfrq),
- .resetvalue = (1000 * 1000 * 1000) / GTIMER_SCALE,
+ .resetfn = arm_gt_cntfrq_reset,
},
/* overall control: mostly access permissions */
{ .name = "CNTKCTL", .state = ARM_CP_STATE_BOTH,