thermal: intel: hfi: Notify user space for HFI events
When the hardware issues an HFI event, relay a notification to user space. This allows user space to respond by reading performance and efficiency of each CPU and take appropriate action. For example, when the performance and efficiency of a CPU is 0, user space can either offline the CPU or inject idle. Also, if user space notices a downward trend in performance, it may proactively adjust power limits to avoid future situations in which performance drops to 0. To avoid excessive notifications, the rate is limited by one HZ per event. To limit the netlink message size, send parameters for up to 16 CPUs in a single message. If there are more than 16 CPUs, issue as many messages as needed to notify the status of all CPUs. In the HFI specification, both performance and efficiency capabilities are defined in the [0, 255] range. The existing implementations of HFI hardware do not scale the maximum values to 255. Since userspace cares about capability values that are either 0 or show a downward/upward trend, this fact does not matter much. Relative changes in capabilities are enough. To comply with the thermal netlink ABI, scale both performance and efficiency capabilities to the [0, 1023] interval. Reviewed-by: Len Brown <len.brown@intel.com> Signed-off-by: Srinivas Pandruvada <srinivas.pandruvada@linux.intel.com> Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
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@ -104,6 +104,7 @@ config INTEL_HFI_THERMAL
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bool "Intel Hardware Feedback Interface"
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depends on CPU_SUP_INTEL
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depends on X86_THERMAL_VECTOR
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select THERMAL_NETLINK
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help
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Select this option to enable the Hardware Feedback Interface. If
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selected, hardware provides guidance to the operating system on
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@ -40,6 +40,7 @@
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#include <asm/msr.h>
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#include "../thermal_core.h"
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#include "intel_hfi.h"
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#define THERM_STATUS_CLEAR_PKG_MASK (BIT(1) | BIT(3) | BIT(5) | BIT(7) | \
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@ -163,6 +164,78 @@ static DEFINE_MUTEX(hfi_instance_lock);
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static struct workqueue_struct *hfi_updates_wq;
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#define HFI_UPDATE_INTERVAL HZ
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#define HFI_MAX_THERM_NOTIFY_COUNT 16
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static void get_hfi_caps(struct hfi_instance *hfi_instance,
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struct thermal_genl_cpu_caps *cpu_caps)
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{
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int cpu, i = 0;
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raw_spin_lock_irq(&hfi_instance->table_lock);
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for_each_cpu(cpu, hfi_instance->cpus) {
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struct hfi_cpu_data *caps;
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s16 index;
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index = per_cpu(hfi_cpu_info, cpu).index;
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caps = hfi_instance->data + index * hfi_features.cpu_stride;
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cpu_caps[i].cpu = cpu;
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/*
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* Scale performance and energy efficiency to
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* the [0, 1023] interval that thermal netlink uses.
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*/
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cpu_caps[i].performance = caps->perf_cap << 2;
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cpu_caps[i].efficiency = caps->ee_cap << 2;
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++i;
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}
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raw_spin_unlock_irq(&hfi_instance->table_lock);
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}
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/*
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* Call update_capabilities() when there are changes in the HFI table.
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*/
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static void update_capabilities(struct hfi_instance *hfi_instance)
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{
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struct thermal_genl_cpu_caps *cpu_caps;
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int i = 0, cpu_count;
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/* CPUs may come online/offline while processing an HFI update. */
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mutex_lock(&hfi_instance_lock);
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cpu_count = cpumask_weight(hfi_instance->cpus);
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/* No CPUs to report in this hfi_instance. */
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if (!cpu_count)
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goto out;
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cpu_caps = kcalloc(cpu_count, sizeof(*cpu_caps), GFP_KERNEL);
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if (!cpu_caps)
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goto out;
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get_hfi_caps(hfi_instance, cpu_caps);
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if (cpu_count < HFI_MAX_THERM_NOTIFY_COUNT)
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goto last_cmd;
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/* Process complete chunks of HFI_MAX_THERM_NOTIFY_COUNT capabilities. */
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for (i = 0;
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(i + HFI_MAX_THERM_NOTIFY_COUNT) <= cpu_count;
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i += HFI_MAX_THERM_NOTIFY_COUNT)
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thermal_genl_cpu_capability_event(HFI_MAX_THERM_NOTIFY_COUNT,
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&cpu_caps[i]);
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cpu_count = cpu_count - i;
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last_cmd:
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/* Process the remaining capabilities if any. */
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if (cpu_count)
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thermal_genl_cpu_capability_event(cpu_count, &cpu_caps[i]);
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kfree(cpu_caps);
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out:
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mutex_unlock(&hfi_instance_lock);
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}
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static void hfi_update_work_fn(struct work_struct *work)
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{
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@ -173,7 +246,7 @@ static void hfi_update_work_fn(struct work_struct *work)
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if (!hfi_instance)
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return;
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/* TODO: Consume update here. */
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update_capabilities(hfi_instance);
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}
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void intel_hfi_process_event(__u64 pkg_therm_status_msr_val)
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