411 lines
9.7 KiB
C
411 lines
9.7 KiB
C
#ifdef CONFIG_CPU_SUP_AMD
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static __initconst const u64 amd_hw_cache_event_ids
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[PERF_COUNT_HW_CACHE_MAX]
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[PERF_COUNT_HW_CACHE_OP_MAX]
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[PERF_COUNT_HW_CACHE_RESULT_MAX] =
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{
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[ C(L1D) ] = {
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[ C(OP_READ) ] = {
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[ C(RESULT_ACCESS) ] = 0x0040, /* Data Cache Accesses */
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[ C(RESULT_MISS) ] = 0x0041, /* Data Cache Misses */
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},
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[ C(OP_WRITE) ] = {
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[ C(RESULT_ACCESS) ] = 0x0142, /* Data Cache Refills :system */
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[ C(RESULT_MISS) ] = 0,
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},
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[ C(OP_PREFETCH) ] = {
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[ C(RESULT_ACCESS) ] = 0x0267, /* Data Prefetcher :attempts */
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[ C(RESULT_MISS) ] = 0x0167, /* Data Prefetcher :cancelled */
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},
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},
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[ C(L1I ) ] = {
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[ C(OP_READ) ] = {
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[ C(RESULT_ACCESS) ] = 0x0080, /* Instruction cache fetches */
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[ C(RESULT_MISS) ] = 0x0081, /* Instruction cache misses */
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},
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[ C(OP_WRITE) ] = {
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[ C(RESULT_ACCESS) ] = -1,
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[ C(RESULT_MISS) ] = -1,
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},
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[ C(OP_PREFETCH) ] = {
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[ C(RESULT_ACCESS) ] = 0x014B, /* Prefetch Instructions :Load */
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[ C(RESULT_MISS) ] = 0,
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},
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},
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[ C(LL ) ] = {
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[ C(OP_READ) ] = {
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[ C(RESULT_ACCESS) ] = 0x037D, /* Requests to L2 Cache :IC+DC */
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[ C(RESULT_MISS) ] = 0x037E, /* L2 Cache Misses : IC+DC */
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},
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[ C(OP_WRITE) ] = {
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[ C(RESULT_ACCESS) ] = 0x017F, /* L2 Fill/Writeback */
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[ C(RESULT_MISS) ] = 0,
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},
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[ C(OP_PREFETCH) ] = {
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[ C(RESULT_ACCESS) ] = 0,
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[ C(RESULT_MISS) ] = 0,
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},
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},
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[ C(DTLB) ] = {
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[ C(OP_READ) ] = {
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[ C(RESULT_ACCESS) ] = 0x0040, /* Data Cache Accesses */
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[ C(RESULT_MISS) ] = 0x0746, /* L1_DTLB_AND_L2_DLTB_MISS.ALL */
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},
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[ C(OP_WRITE) ] = {
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[ C(RESULT_ACCESS) ] = 0,
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[ C(RESULT_MISS) ] = 0,
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},
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[ C(OP_PREFETCH) ] = {
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[ C(RESULT_ACCESS) ] = 0,
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[ C(RESULT_MISS) ] = 0,
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},
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},
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[ C(ITLB) ] = {
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[ C(OP_READ) ] = {
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[ C(RESULT_ACCESS) ] = 0x0080, /* Instruction fecthes */
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[ C(RESULT_MISS) ] = 0x0385, /* L1_ITLB_AND_L2_ITLB_MISS.ALL */
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},
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[ C(OP_WRITE) ] = {
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[ C(RESULT_ACCESS) ] = -1,
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[ C(RESULT_MISS) ] = -1,
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},
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[ C(OP_PREFETCH) ] = {
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[ C(RESULT_ACCESS) ] = -1,
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[ C(RESULT_MISS) ] = -1,
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},
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},
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[ C(BPU ) ] = {
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[ C(OP_READ) ] = {
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[ C(RESULT_ACCESS) ] = 0x00c2, /* Retired Branch Instr. */
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[ C(RESULT_MISS) ] = 0x00c3, /* Retired Mispredicted BI */
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},
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[ C(OP_WRITE) ] = {
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[ C(RESULT_ACCESS) ] = -1,
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[ C(RESULT_MISS) ] = -1,
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},
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[ C(OP_PREFETCH) ] = {
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[ C(RESULT_ACCESS) ] = -1,
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[ C(RESULT_MISS) ] = -1,
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},
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},
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};
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/*
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* AMD Performance Monitor K7 and later.
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*/
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static const u64 amd_perfmon_event_map[] =
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{
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[PERF_COUNT_HW_CPU_CYCLES] = 0x0076,
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[PERF_COUNT_HW_INSTRUCTIONS] = 0x00c0,
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[PERF_COUNT_HW_CACHE_REFERENCES] = 0x0080,
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[PERF_COUNT_HW_CACHE_MISSES] = 0x0081,
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[PERF_COUNT_HW_BRANCH_INSTRUCTIONS] = 0x00c2,
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[PERF_COUNT_HW_BRANCH_MISSES] = 0x00c3,
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};
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static u64 amd_pmu_event_map(int hw_event)
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{
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return amd_perfmon_event_map[hw_event];
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}
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static int amd_pmu_hw_config(struct perf_event *event)
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{
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int ret = x86_pmu_hw_config(event);
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if (ret)
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return ret;
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if (event->attr.type != PERF_TYPE_RAW)
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return 0;
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event->hw.config |= event->attr.config & AMD64_RAW_EVENT_MASK;
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return 0;
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}
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/*
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* AMD64 events are detected based on their event codes.
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*/
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static inline int amd_is_nb_event(struct hw_perf_event *hwc)
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{
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return (hwc->config & 0xe0) == 0xe0;
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}
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static inline int amd_has_nb(struct cpu_hw_events *cpuc)
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{
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struct amd_nb *nb = cpuc->amd_nb;
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return nb && nb->nb_id != -1;
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}
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static void amd_put_event_constraints(struct cpu_hw_events *cpuc,
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struct perf_event *event)
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{
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struct hw_perf_event *hwc = &event->hw;
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struct amd_nb *nb = cpuc->amd_nb;
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int i;
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/*
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* only care about NB events
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*/
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if (!(amd_has_nb(cpuc) && amd_is_nb_event(hwc)))
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return;
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/*
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* need to scan whole list because event may not have
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* been assigned during scheduling
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*
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* no race condition possible because event can only
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* be removed on one CPU at a time AND PMU is disabled
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* when we come here
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*/
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for (i = 0; i < x86_pmu.num_counters; i++) {
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if (nb->owners[i] == event) {
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cmpxchg(nb->owners+i, event, NULL);
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break;
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}
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}
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}
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/*
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* AMD64 NorthBridge events need special treatment because
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* counter access needs to be synchronized across all cores
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* of a package. Refer to BKDG section 3.12
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*
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* NB events are events measuring L3 cache, Hypertransport
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* traffic. They are identified by an event code >= 0xe00.
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* They measure events on the NorthBride which is shared
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* by all cores on a package. NB events are counted on a
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* shared set of counters. When a NB event is programmed
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* in a counter, the data actually comes from a shared
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* counter. Thus, access to those counters needs to be
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* synchronized.
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*
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* We implement the synchronization such that no two cores
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* can be measuring NB events using the same counters. Thus,
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* we maintain a per-NB allocation table. The available slot
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* is propagated using the event_constraint structure.
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*
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* We provide only one choice for each NB event based on
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* the fact that only NB events have restrictions. Consequently,
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* if a counter is available, there is a guarantee the NB event
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* will be assigned to it. If no slot is available, an empty
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* constraint is returned and scheduling will eventually fail
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* for this event.
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*
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* Note that all cores attached the same NB compete for the same
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* counters to host NB events, this is why we use atomic ops. Some
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* multi-chip CPUs may have more than one NB.
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*
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* Given that resources are allocated (cmpxchg), they must be
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* eventually freed for others to use. This is accomplished by
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* calling amd_put_event_constraints().
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*
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* Non NB events are not impacted by this restriction.
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*/
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static struct event_constraint *
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amd_get_event_constraints(struct cpu_hw_events *cpuc, struct perf_event *event)
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{
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struct hw_perf_event *hwc = &event->hw;
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struct amd_nb *nb = cpuc->amd_nb;
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struct perf_event *old = NULL;
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int max = x86_pmu.num_counters;
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int i, j, k = -1;
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/*
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* if not NB event or no NB, then no constraints
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*/
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if (!(amd_has_nb(cpuc) && amd_is_nb_event(hwc)))
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return &unconstrained;
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/*
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* detect if already present, if so reuse
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*
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* cannot merge with actual allocation
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* because of possible holes
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*
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* event can already be present yet not assigned (in hwc->idx)
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* because of successive calls to x86_schedule_events() from
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* hw_perf_group_sched_in() without hw_perf_enable()
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*/
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for (i = 0; i < max; i++) {
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/*
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* keep track of first free slot
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*/
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if (k == -1 && !nb->owners[i])
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k = i;
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/* already present, reuse */
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if (nb->owners[i] == event)
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goto done;
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}
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/*
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* not present, so grab a new slot
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* starting either at:
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*/
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if (hwc->idx != -1) {
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/* previous assignment */
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i = hwc->idx;
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} else if (k != -1) {
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/* start from free slot found */
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i = k;
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} else {
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/*
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* event not found, no slot found in
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* first pass, try again from the
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* beginning
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*/
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i = 0;
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}
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j = i;
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do {
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old = cmpxchg(nb->owners+i, NULL, event);
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if (!old)
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break;
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if (++i == max)
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i = 0;
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} while (i != j);
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done:
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if (!old)
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return &nb->event_constraints[i];
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return &emptyconstraint;
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}
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static struct amd_nb *amd_alloc_nb(int cpu)
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{
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struct amd_nb *nb;
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int i;
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nb = kmalloc_node(sizeof(struct amd_nb), GFP_KERNEL | __GFP_ZERO,
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cpu_to_node(cpu));
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if (!nb)
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return NULL;
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nb->nb_id = -1;
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/*
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* initialize all possible NB constraints
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*/
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for (i = 0; i < x86_pmu.num_counters; i++) {
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__set_bit(i, nb->event_constraints[i].idxmsk);
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nb->event_constraints[i].weight = 1;
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}
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return nb;
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}
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static int amd_pmu_cpu_prepare(int cpu)
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{
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struct cpu_hw_events *cpuc = &per_cpu(cpu_hw_events, cpu);
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WARN_ON_ONCE(cpuc->amd_nb);
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if (boot_cpu_data.x86_max_cores < 2)
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return NOTIFY_OK;
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cpuc->amd_nb = amd_alloc_nb(cpu);
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if (!cpuc->amd_nb)
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return NOTIFY_BAD;
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return NOTIFY_OK;
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}
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static void amd_pmu_cpu_starting(int cpu)
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{
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struct cpu_hw_events *cpuc = &per_cpu(cpu_hw_events, cpu);
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struct amd_nb *nb;
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int i, nb_id;
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if (boot_cpu_data.x86_max_cores < 2)
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return;
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nb_id = amd_get_nb_id(cpu);
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WARN_ON_ONCE(nb_id == BAD_APICID);
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for_each_online_cpu(i) {
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nb = per_cpu(cpu_hw_events, i).amd_nb;
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if (WARN_ON_ONCE(!nb))
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continue;
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if (nb->nb_id == nb_id) {
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kfree(cpuc->amd_nb);
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cpuc->amd_nb = nb;
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break;
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}
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}
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cpuc->amd_nb->nb_id = nb_id;
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cpuc->amd_nb->refcnt++;
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}
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static void amd_pmu_cpu_dead(int cpu)
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{
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struct cpu_hw_events *cpuhw;
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if (boot_cpu_data.x86_max_cores < 2)
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return;
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cpuhw = &per_cpu(cpu_hw_events, cpu);
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if (cpuhw->amd_nb) {
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struct amd_nb *nb = cpuhw->amd_nb;
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if (nb->nb_id == -1 || --nb->refcnt == 0)
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kfree(nb);
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cpuhw->amd_nb = NULL;
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}
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}
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static __initconst const struct x86_pmu amd_pmu = {
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.name = "AMD",
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.handle_irq = x86_pmu_handle_irq,
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.disable_all = x86_pmu_disable_all,
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.enable_all = x86_pmu_enable_all,
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.enable = x86_pmu_enable_event,
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.disable = x86_pmu_disable_event,
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.hw_config = amd_pmu_hw_config,
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.schedule_events = x86_schedule_events,
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.eventsel = MSR_K7_EVNTSEL0,
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.perfctr = MSR_K7_PERFCTR0,
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.event_map = amd_pmu_event_map,
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.max_events = ARRAY_SIZE(amd_perfmon_event_map),
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.num_counters = 4,
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.cntval_bits = 48,
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.cntval_mask = (1ULL << 48) - 1,
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.apic = 1,
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/* use highest bit to detect overflow */
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.max_period = (1ULL << 47) - 1,
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.get_event_constraints = amd_get_event_constraints,
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.put_event_constraints = amd_put_event_constraints,
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.cpu_prepare = amd_pmu_cpu_prepare,
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.cpu_starting = amd_pmu_cpu_starting,
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.cpu_dead = amd_pmu_cpu_dead,
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};
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static __init int amd_pmu_init(void)
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{
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/* Performance-monitoring supported from K7 and later: */
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if (boot_cpu_data.x86 < 6)
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return -ENODEV;
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x86_pmu = amd_pmu;
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/* Events are common for all AMDs */
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memcpy(hw_cache_event_ids, amd_hw_cache_event_ids,
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sizeof(hw_cache_event_ids));
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return 0;
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}
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#else /* CONFIG_CPU_SUP_AMD */
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static int amd_pmu_init(void)
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{
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return 0;
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}
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#endif
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