- 29 Sep, 2020 6 commits
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Alexander Antonov authored
Introduced early attributes /sys/devices/uncore_iio_<pmu_idx>/die* are initialized by skx_iio_set_mapping(), however, for example, for multiple segment platforms skx_iio_get_topology() returns -EPERM before a list of attributes in skx_iio_mapping_group will have been initialized. As a result the list is being NULL. Thus the warning "sysfs: (bin_)attrs not set by subsystem for group: uncore_iio_*/" appears and uncore_iio pmus are not available in sysfs. Clear IIO attr_update to properly handle the cases when topology information cannot be retrieved. Fixes: bb42b3d3 ("perf/x86/intel/uncore: Expose an Uncore unit to IIO PMON mapping") Reported-by:
Kyle Meyer <kyle.meyer@hpe.com> Suggested-by:
Kan Liang <kan.liang@linux.intel.com> Signed-off-by:
Alexander Antonov <alexander.antonov@linux.intel.com> Signed-off-by:
Peter Zijlstra (Intel) <peterz@infradead.org> Reviewed-by:
Alexei Budankov <alexey.budankov@linux.intel.com> Reviewed-by:
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Kan Liang authored
The Jasper Lake processor is also a Tremont microarchitecture. From the perspective of perf MSR, there is nothing changed compared with Elkhart Lake. Share the code path with Elkhart Lake. Signed-off-by:
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Kan Liang authored
The Jasper Lake processor is also a Tremont microarchitecture. From the perspective of Intel PMU, there is nothing changed compared with Elkhart Lake. Share the perf code with Elkhart Lake. Signed-off-by:
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Kan Liang authored
An oops is triggered by the fuzzy test. [ 327.853081] unchecked MSR access error: RDMSR from 0x70c at rIP: 0xffffffffc082c820 (uncore_msr_read_counter+0x10/0x50 [intel_uncore]) [ 327.853083] Call Trace: [ 327.853085] <IRQ> [ 327.853089] uncore_pmu_event_start+0x85/0x170 [intel_uncore] [ 327.853093] uncore_pmu_event_add+0x1a4/0x410 [intel_uncore] [ 327.853097] ? event_sched_in.isra.118+0xca/0x240 There are 2 GP counters for each CBOX, but the current code claims 4 counters. Accessing the invalid registers triggers the oops. Fixes: 6e394376 ("perf/x86/intel/uncore: Add Intel Icelake uncore support") Signed-off-by:
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Kan Liang authored
There are some updates for the Icelake model specific uncore performance monitors. (The update can be found at 10th generation intel core processors families specification update Revision 004, ICL068) 1) Counter 0 of ARB uncore unit is not available for software use 2) The global 'enable bit' (bit 29) and 'freeze bit' (bit 31) of MSR_UNC_PERF_GLOBAL_CTRL cannot be used to control counter behavior. Needs to use local enable in event select MSR. Accessing the modified bit/registers will be ignored by HW. Users may observe inaccurate results with the current code. The changes of the MSR_UNC_PERF_GLOBAL_CTRL imply that groups cannot be read atomically anymore. Although the error of the result for a group becomes a bit bigger, it still far lower than not using a group. The group support is still kept. Only Remove the *_box() related implementation. Since the counter 0 of ARB uncore unit is not available, update the MSR address for the ARB uncore unit. There is no change for IMC uncore unit, which only include free-running counters. Fixes: 6e394376 ("perf/x86/intel/uncore: Add Intel Icelake uncore support") Signed-off-by:
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Kan Liang authored
Previously, the MSR uncore for the Ice Lake and Tiger Lake are identical. The code path is shared. However, with recent update, the global MSR_UNC_PERF_GLOBAL_CTRL register and ARB uncore unit are changed for the Ice Lake. Split the Ice Lake and Tiger Lake MSR uncore support. The changes only impact the MSR ops() and the ARB uncore unit. Other codes can still be shared between the Ice Lake and the Tiger Lake. Signed-off-by:
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- 24 Sep, 2020 11 commits
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Kan Liang authored
The Snow Ridge integrated PCIe3 uncore unit can be used to collect performance data, e.g. utilization, between PCIe devices, plugged into the PCIe port, and the components (in M2IOSF) responsible for translating and managing requests to/from the device. The performance data is very useful for analyzing the performance of PCIe devices. The device with the PCIe3 uncore PMON units is owned by the portdrv_pci driver. Create a PCI sub driver for the PCIe3 uncore PMON units. Here are some difference between PCIe3 uncore unit and other uncore pci units. - There may be several Root Ports on a system. But the uncore counters only exist in the Root Port A. A user can configure the channel mask to collect the data from other Root Ports. - The event format of the PCIe3 uncore unit is the same as IIO unit of SKX. - The Control Register of PCIe3 uncore unit is 64 bits. - The offset of each counters is 8, which is the same as M2M unit of SNR. - New MSR addresses for unit control, counter and counter config. Signed-off-by:
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Kan Liang authored
Some uncore counters may be located in the configuration space of a PCI device, which already has a bonded driver. Currently, the uncore driver cannot register a PCI uncore PMU for these counters, because, to register a PCI uncore PMU, the uncore driver must be bond to the device. However, one device can only have one bonded driver. Add an uncore PCI sub driver to support such kind of devices. The sub driver doesn't own the device. In initialization, the sub driver searches the device via pci_get_device(), and register the corresponding PMU for the device. In the meantime, the sub driver registers a PCI bus notifier, which is used to notify the sub driver once the device is removed. The sub driver can unregister the PMU accordingly. The sub driver only searches the devices defined in its id table. The id table varies on different platforms, which will be implemented in the following platform-specific patch. Suggested-by:
Bjorn Helgaas <helgaas@kernel.org> Signed-off-by:
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Kan Liang authored
The PMU unregistration in the uncore PCI sub driver is similar as the normal PMU unregistration for a PCI device. The codes to unregister a PCI PMU can be shared. Factor out uncore_pci_pmu_unregister(), which will be used later. Use uncore_pci_get_dev_die_info() to replace the codes which retrieve the socket and die informaion. The pci_set_drvdata() is not included in uncore_pci_pmu_unregister() as well, because the uncore PCI sub driver will not touch the private driver data pointer of the device. Signed-off-by:
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Kan Liang authored
The PMU registration in the uncore PCI sub driver is similar as the normal PMU registration for a PCI device. The codes to register a PCI PMU can be shared. Factor out uncore_pci_pmu_register(), which will be used later. The pci_set_drvdata() is not included in uncore_pci_pmu_register(). The uncore PCI sub driver doesn't own the PCI device. It will not touch the private driver data pointer for the device. Signed-off-by:
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Kan Liang authored
When an uncore PCI sub driver gets a remove notification, the corresponding PMU has to be retrieved and unregistered. The codes, which find the corresponding PMU by comparing the pci_device_id table, can be shared. Factor out uncore_pci_find_dev_pmu(), which will be used later. There is no functional change. Signed-off-by:
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Kan Liang authored
The socket and die information is required to register/unregister a PMU in the uncore PCI sub driver. The codes, which get the socket and die information from a BUS number, can be shared. Factor out uncore_pci_get_dev_die_info(), which will be used later. There is no functional change. Signed-off-by:
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Kim Phillips authored
Previously, the uncore driver would say "NB counters detected" on F17h machines, which don't have NorthBridge (NB) counters. They have Data Fabric (DF) counters. Just use the pmu.name to inform users which pmu to use and its associated counter count. F17h dmesg BEFORE: amd_uncore: AMD NB counters detected amd_uncore: AMD LLC counters detected F17h dmesg AFTER: amd_uncore: 4 amd_df counters detected amd_uncore: 6 amd_l3 counters detected Signed-off-by:
Kim Phillips <kim.phillips@amd.com> Signed-off-by:
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Kim Phillips authored
On Family 19h, the driver checks for a populated 2-bit threadmask in order to establish that the user wants to measure individual slices, individual cores (only one can be measured at a time), and lets the user also directly specify enallcores and/or enallslices if desired. Example F19h invocation to measure L3 accesses (event 4, umask 0xff) by the first thread (id 0 -> mask 0x1) of the first core (id 0) on the first slice (id 0): perf stat -a -e instructions,amd_l3/umask=0xff,event=0x4,coreid=0,threadmask=1,sliceid=0,enallcores=0,enallslices=0/ <workload> Signed-off-by:
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Kim Phillips authored
Continue to fully populate either one of threadmask or slicemask if the user doesn't. Signed-off-by:
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Kim Phillips authored
Replace AMD_FORMAT_ATTR with the more apropos DEFINE_UNCORE_FORMAT_ATTR stolen from arch/x86/events/intel/uncore.h. This way we can clearly see the bit-variants of each of the attributes that want to have the same name across families. Also unroll AMD_ATTRIBUTE because we are going to separately add new attributes that differ between DF and L3. Also clean up the if-Family 17h-else logic in amd_uncore_init. This is basically a rewrite of commit da6adaea ("perf/x86/amd/uncore: Update sysfs attributes for Family17h processors"). No functional changes. Tested F17h+ /sys/bus/event_source/devices/amd_{l3,df}/format/* content remains unchanged: /sys/bus/event_source/devices/amd_l3/format/event:config:0-7 /sys/bus/event_source/devices/amd_l3/format/umask:config:8-15 /sys/bus/event_source/devices/amd_df/format/event:config:0-7,32-35,59-60 /sys/bus/event_source/devices/amd_df/format/umask:config:8-15 Signed-off-by:
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Jarkko Sakkinen authored
It is advised to use module_name() macro instead of dereferencing mod->name directly. This makes sense for consistencys sake and also it prevents a hard dependency to CONFIG_MODULES. Signed-off-by:
Jarkko Sakkinen <jarkko.sakkinen@linux.intel.com> Signed-off-by:
Steven Rostedt (VMware) <rostedt@goodmis.org> Signed-off-by:
Masami Hiramatsu <mhiramat@kernel.org> Link: https://lkml.kernel.org/r/20200818050857.117998-1-jarkko.sakkinen@linux.intel.com
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- 10 Sep, 2020 10 commits
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Kim Phillips authored
Stephane Eranian found a bug in that IBS' current Fetch counter was not being reset when the driver would write the new value to clear it along with the enable bit set, and found that adding an MSR write that would first disable IBS Fetch would make IBS Fetch reset its current count. Indeed, the PPR for AMD Family 17h Model 31h B0 55803 Rev 0.54 - Sep 12, 2019 states "The periodic fetch counter is set to IbsFetchCnt [...] when IbsFetchEn is changed from 0 to 1." Explicitly set IbsFetchEn to 0 and then to 1 when re-enabling IBS Fetch, so the driver properly resets the internal counter to 0 and IBS Fetch starts counting again. A family 15h machine tested does not have this problem, and the extra wrmsr is also not needed on Family 19h, so only do the extra wrmsr on families 16h through 18h. Reported-by:
Stephane Eranian <stephane.eranian@google.com> Signed-off-by:
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Kim Phillips authored
Family 19h RAPL support did not change from Family 17h; extend the existing Fam17h support to work on Family 19h too. Signed-off-by:
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Kim Phillips authored
IBS hardware with the OpCntExt feature gets a 7-bit wider internal counter. Both the maximum and current count bitfields in the IBS_OP_CTL register are extended to support reading and writing it. No changes are necessary to the driver for handling the extra contiguous current count bits (IbsOpCurCnt), as the driver already passes through 32 bits of that field. However, the driver has to do some extra bit manipulation when converting from a period to the non-contiguous (although conveniently aligned) extra bits in the IbsOpMaxCnt bitfield. This decreases IBS Op interrupt overhead when the period is over 1,048,560 (0xffff0), which would previously activate the driver's software counter. That threshold is now 134,217,712 (0x7fffff0). Signed-off-by:
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Kim Phillips authored
Neither IbsBrTarget nor OPDATA4 are populated in IBS Fetch mode. Don't accumulate them into raw sample user data in that case. Also, in Fetch mode, add saving the IBS Fetch Control Extended MSR. Technically, there is an ABI change here with respect to the IBS raw sample data format, but I don't see any perf driver version information being included in perf.data file headers, but, existing users can detect whether the size of the sample record has reduced by 8 bytes to determine whether the IBS driver has this fix. Fixes: 904cb367 ("perf/x86/amd/ibs: Update IBS MSRs and feature definitions") Reported-by:
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Kim Phillips authored
get_ibs_op_count() adds hardware's current count (IbsOpCurCnt) bits to its count regardless of hardware's valid status. According to the PPR for AMD Family 17h Model 31h B0 55803 Rev 0.54, if the counter rolls over, valid status is set, and the lower 7 bits of IbsOpCurCnt are randomized by hardware. Don't include those bits in the driver's event count. Fixes: 8b1e1363 ("perf/x86-ibs: Fix usage of IBS op current count") Signed-off-by:
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Kim Phillips authored
Commit 57388912 ("perf/x86/amd: Add support for Large Increment per Cycle Events") mistakenly zeroes the upper 16 bits of the count in set_period(). That's fine for counting with perf stat, but not sampling with perf record when only Large Increment events are being sampled. To enable sampling, we sign extend the upper 16 bits of the merged counter pair as described in the Family 17h PPRs: "Software wanting to preload a value to a merged counter pair writes the high-order 16-bit value to the low-order 16 bits of the odd counter and then writes the low-order 48-bit value to the even counter. Reading the even counter of the merged counter pair returns the full 64-bit value." Fixes: 57388912 ("perf/x86/amd: Add support for Large Increment per Cycle Events") Signed-off-by:
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Kim Phillips authored
Commit 2f217d58 ("perf/x86/amd/uncore: Set the thread mask for F17h L3 PMCs") inadvertently changed the uncore driver's behaviour wrt perf tool invocations with or without a CPU list, specified with -C / --cpu=. Change the behaviour of the driver to assume the former all-cpu (-a) case, which is the more commonly desired default. This fixes '-a -A' invocations without explicit cpu lists (-C) to not count L3 events only on behalf of the first thread of the first core in the L3 domain. BEFORE: Activity performed by the first thread of the last core (CPU#43) in CPU#40's L3 domain is not reported by CPU#40: sudo perf stat -a -A -e l3_request_g1.caching_l3_cache_accesses taskset -c 43 perf bench mem memcpy -s 32mb -l 100 -f default ... CPU36 21,835 l3_request_g1.caching_l3_cache_accesses CPU40 87,066 l3_request_g1.caching_l3_cache_accesses CPU44 17,360 l3_request_g1.caching_l3_cache_accesses ... AFTER: The L3 domain activity is now reported by CPU#40: sudo perf stat -a -A -e l3_request_g1.caching_l3_cache_accesses taskset -c 43 perf bench mem memcpy -s 32mb -l 100 -f default ... CPU36 354,891 l3_request_g1.caching_l3_cache_accesses CPU40 1,780,870 l3_request_g1.caching_l3_cache_accesses CPU44 315,062 l3_request_g1.caching_l3_cache_accesses ... Fixes: 2f217d58 ("perf/x86/amd/uncore: Set the thread mask for F17h L3 PMCs") Signed-off-by:
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Kan Liang authored
The pmu::sched_task() is a context switch callback. It passes the cpuctx->task_ctx as a parameter to the lower code. To find the cpuctx->task_ctx, the current code iterates a cpuctx list. The same context will iterated in perf_event_context_sched_out() soon. Share the cpuctx->task_ctx can avoid the unnecessary iteration of the cpuctx list. The pmu::sched_task() is also required for the optimization case for equivalent contexts. The task_ctx_sched_out() will eventually disable and reenable the PMU when schedule out events. Add perf_pmu_disable() and perf_pmu_enable() around task_ctx_sched_out() don't break anything. Drop the cpuctx->ctx.lock for the pmu::sched_task(). The lock is for per-CPU context, which is not necessary for the per-task context schedule. No one uses sched_cb_entry, perf_sched_cb_usages, sched_cb_list, and perf_pmu_sched_task() any more. Suggested-by:
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Kan Liang authored
The pmu::sched_task() is a context switch callback. It passes the cpuctx->task_ctx as a parameter to the lower code. To find the cpuctx->task_ctx, the current code iterates a cpuctx list. The same context was just iterated in perf_event_context_sched_in(), which is invoked right before the pmu::sched_task(). Reuse the cpuctx->task_ctx from perf_event_context_sched_in() can avoid the unnecessary iteration of the cpuctx list. Both pmu::sched_task and perf_event_context_sched_in() have to disable PMU. Pull the pmu::sched_task into perf_event_context_sched_in() can also save the overhead from the PMU disable and reenable. The new and old tasks may have equivalent contexts. The current code optimize this case by swapping the context, which avoids the scheduling. For this case, pmu::sched_task() is still required, e.g., restore the LBR content. Suggested-by:
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Kan Liang authored
A warning as below may be triggered when sampling with large PEBS. [ 410.411250] perf: interrupt took too long (72145 > 71975), lowering kernel.perf_event_max_sample_rate to 2000 [ 410.724923] ------------[ cut here ]------------ [ 410.729822] WARNING: CPU: 0 PID: 16397 at arch/x86/events/core.c:1422 x86_pmu_stop+0x95/0xa0 [ 410.933811] x86_pmu_del+0x50/0x150 [ 410.937304] event_sched_out.isra.0+0xbc/0x210 [ 410.941751] group_sched_out.part.0+0x53/0xd0 [ 410.946111] ctx_sched_out+0x193/0x270 [ 410.949862] __perf_event_task_sched_out+0x32c/0x890 [ 410.954827] ? set_next_entity+0x98/0x2d0 [ 410.958841] __schedule+0x592/0x9c0 [ 410.962332] schedule+0x5f/0xd0 [ 410.965477] exit_to_usermode_loop+0x73/0x120 [ 410.969837] prepare_exit_to_usermode+0xcd/0xf0 [ 410.974369] ret_from_intr+0x2a/0x3a [ 410.977946] RIP: 0033:0x40123c [ 411.079661] ---[ end trace bc83adaea7bb664a ]--- In the non-overflow context, e.g., context switch, with large PEBS, perf may stop an event twice. An example is below. //max_samples_per_tick is adjusted to 2 //NMI is triggered intel_pmu_handle_irq() handle_pmi_common() drain_pebs() __intel_pmu_pebs_event() perf_event_overflow() __perf_event_account_interrupt() hwc->interrupts = 1 return 0 //A context switch happens right after the NMI. //In the same tick, the perf_throttled_seq is not changed. perf_event_task_sched_out() perf_pmu_sched_task() intel_pmu_drain_pebs_buffer() __intel_pmu_pebs_event() perf_event_overflow() __perf_event_account_interrupt() ++hwc->interrupts >= max_samples_per_tick return 1 x86_pmu_stop(); # First stop perf_event_context_sched_out() task_ctx_sched_out() ctx_sched_out() event_sched_out() x86_pmu_del() x86_pmu_stop(); # Second stop and trigger the warning Perf should only invoke the perf_event_overflow() in the overflow context. Current drain_pebs() is called from: - handle_pmi_common() -- overflow context - intel_pmu_pebs_sched_task() -- non-overflow context - intel_pmu_pebs_disable() -- non-overflow context - intel_pmu_auto_reload_read() -- possible overflow context With PERF_SAMPLE_READ + PERF_FORMAT_GROUP, the function may be invoked in the NMI handler. But, before calling the function, the PEBS buffer has already been drained. The __intel_pmu_pebs_event() will not be called in the possible overflow context. To fix the issue, an indicator is required to distinguish between the overflow context aka handle_pmi_common() and other cases. The dummy regs pointer can be used as the indicator. In the non-overflow context, perf should treat the last record the same as other PEBS records, and doesn't invoke the generic overflow handler. Fixes: 21509084 ("perf/x86/intel: Handle multiple records in the PEBS buffer") Reported-by:Like Xu <like.xu@linux.intel.com> Suggested-by:
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- 18 Aug, 2020 11 commits
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Kan Liang authored
Starts from Ice Lake, the TopDown metrics are directly available as fixed counters and do not require generic counters. Also, the TopDown metrics can be collected per thread. Extend the RDPMC usage to support per-thread TopDown metrics. The RDPMC index of the PERF_METRICS will be output if RDPMC users ask for the RDPMC index of the metrics events. To support per thread RDPMC TopDown, the metrics and slots counters have to be saved/restored during the context switching. The last_period and period_left are not used in the counting mode. Use the fields for saved_metric and saved_slots. Signed-off-by:
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Kan Liang authored
Ice Lake supports the hardware TopDown metrics feature, which can free up the scarce GP counters. Update the event constraints for the metrics events. The metric counters do not exist, which are mapped to a dummy offset. The sharing between multiple users of the same metric without multiplexing is not allowed. Implement set_topdown_event_period for Ice Lake. The values in PERF_METRICS MSR are derived from the fixed counter 3. Both registers should start from zero. Implement update_topdown_event for Ice Lake. The metric is reported by multiplying the metric (fraction) with slots. To maintain accurate measurements, both registers are cleared for each update. The fixed counter 3 should always be cleared before the PERF_METRICS. Implement td_attr for the new metrics events and the new slots fixed counter. Make them visible to the perf user tools. Signed-off-by:
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Kan Liang authored
The RDPMC base offset of fixed counters is hard-code. Use a meaningful name to replace the magic number to improve the readability of the code. Signed-off-by:
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Kan Liang authored
Intro ===== The TopDown Microarchitecture Analysis (TMA) Method is a structured analysis methodology to identify critical performance bottlenecks in out-of-order processors. Current perf has supported the method. The method works well, but there is one problem. To collect the TopDown events, several GP counters have to be used. If a user wants to collect other events at the same time, the multiplexing probably be triggered, which impacts the accuracy. To free up the scarce GP counters, the hardware TopDown metrics feature is introduced from Ice Lake. The hardware implements an additional "metrics" register and a new Fixed Counter 3 that measures pipeline "slots". The TopDown events can be calculated from them instead. Events ====== The level 1 TopDown has four metrics. There is no event-code assigned to the TopDown metrics. Four metric events are exported as separate perf events, which map to the internal "metrics" counter register. Those events do not exist in hardware, but can be allocated by the scheduler. For the event mapping, a special 0x00 event code is used, which is reserved for fake events. The metric events start from umask 0x10. When setting up the metric events, they point to the Fixed Counter 3. They have to be specially handled. - Add the update_topdown_event() callback to read the additional metrics MSR and generate the metrics. - Add the set_topdown_event_period() callback to initialize metrics MSR and the fixed counter 3. - Add a variable n_metric_event to track the number of the accepted metrics events. The sharing between multiple users of the same metric without multiplexing is not allowed. - Only enable/disable the fixed counter 3 when there are no other active TopDown events, which avoid the unnecessary writing of the fixed control register. - Disable the PMU when reading the metrics event. The metrics MSR and the fixed counter 3 are read separately. The values may be modified by an NMI. All four metric events don't support sampling. Since they will be handled specially for event update, a flag PERF_X86_EVENT_TOPDOWN is introduced to indicate this case. The slots event can support both sampling and counting. For counting, the flag is also applied. For sampling, it will be handled normally as other normal events. Groups ====== The slots event is required in a Topdown group. To avoid reading the METRICS register multiple times, the metrics and slots value can only be updated by slots event in a group. All active slots and metrics events will be updated one time. Therefore, the slots event must be before any metric events in a Topdown group. NMI ====== The METRICS related register may be overflow. The bit 48 of the STATUS register will be set. If so, PERF_METRICS and Fixed counter 3 are required to be reset. The patch also update all active slots and metrics events in the NMI handler. The update_topdown_event() has to read two registers separately. The values may be modified by an NMI. PMU has to be disabled before calling the function. RDPMC ====== RDPMC is temporarily disabled. A later patch will enable it. Suggested-by:
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Kan Liang authored
Current perf assumes that events in a group are independent. Close an event doesn't impact the value of the other events in the same group. If the closed event is a member, after the event closure, other events are still running like a group. If the closed event is a leader, other events are running as singleton events. Add PERF_EV_CAP_SIBLING to allow events to indicate they require being part of a group, and when the leader dies they cannot exist independently. Suggested-by:
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Kan Liang authored
Currently, the if-else is used in the intel_pmu_disable/enable_event to check the type of an event. It works well, but with more and more types added later, e.g., perf metrics, compared to the switch statement, the if-else may impair the readability of the code. There is no harm to use the switch statement to replace the if-else here. Also, some optimizing compilers may compile a switch statement into a jump-table which is more efficient than if-else for a large number of cases. The performance gain may not be observed for now, because the number of cases is only 5, but the benefits may be observed with more and more types added in the future. Use switch to replace the if-else in the intel_pmu_disable/enable_event. If the idx is invalid, print a warning. For the case INTEL_PMC_IDX_FIXED_BTS in intel_pmu_disable_event, don't need to check the event->attr.precise_ip. Use return for the case. Signed-off-by:
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Kan Liang authored
Bit 15 of the PERF_CAPABILITIES MSR indicates that the perf METRICS feature is supported. The perf METRICS is not a PEBS feature. Rename pebs_metrics_available perf_metrics. The bit is not used in the current code. It will be used in a later patch. Signed-off-by:
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Kan Liang authored
The bit 48 in the PERF_GLOBAL_STATUS is used to indicate the overflow status of the PERF_METRICS counters. Move the BTS index to the bit 47. Signed-off-by:
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Kan Liang authored
The fourth fixed counter, TOPDOWN.SLOTS, is introduced in Ice Lake to measure the level 1 TopDown events. Add MSR address and macros for the new fixed counter, which will be used in a later patch. Add comments to explain the event encoding rules for the fixed counters. Signed-off-by:
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Kan Liang authored
Magic numbers are used in the current NMI handler for the global status bit. Use a meaningful name to replace the magic numbers to improve the readability of the code. Remove a Tab for all GLOBAL_STATUS_* and INTEL_PMC_IDX_FIXED_BTS macros to reduce the length of the line. Suggested-by:
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Kan Liang authored
The RDPMC index is always re-calculated for the RDPMC userspace support, which is unnecessary. The RDPMC index value is stored in the variable event_base_rdpmc for the kernel usage, which can be used for RDPMC userspace support as well. Suggested-by:
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- 16 Aug, 2020 2 commits
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Linus Torvalds authored
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git://git.kernel.dk/linux-blockLinus Torvalds authored
Pull io_uring fixes from Jens Axboe: "A few differerent things in here. Seems like syzbot got some more io_uring bits wired up, and we got a handful of reports and the associated fixes are in here. General fixes too, and a lot of them marked for stable. Lastly, a bit of fallout from the async buffered reads, where we now more easily trigger short reads. Some applications don't really like that, so the io_read() code now handles short reads internally, and got a cleanup along the way so that it's now easier to read (and documented). We're now passing tests that failed before" * tag 'io_uring-5.9-2020-08-15' of git://git.kernel.dk/linux-block: io_uring: short circuit -EAGAIN for blocking read attempt io_uring: sanitize double poll handling io_uring: internally retry short reads io_uring: retain iov_iter state over io_read/io_write calls task_work: only grab task signal lock when needed io_uring: enable lookup of links holding inflight files io_uring: fail poll arm on queue proc failure io_uring: hold 'ctx' reference around task_work queue + execute fs: RWF_NOWAIT should imply IOCB_NOIO io_uring: defer file table grabbing request cleanup for locked requests io_uring: add missing REQ_F_COMP_LOCKED for nested requests io_uring: fix recursive completion locking on oveflow flush io_uring: use TWA_SIGNAL for task_work uncondtionally io_uring: account locked memory before potential error case io_uring: set ctx sq/cq entry count earlier io_uring: Fix NULL pointer dereference in loop_rw_iter() io_uring: add comments on how the async buffered read retry works io_uring: io_async_buf_func() need not test page bit
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