linux/drivers/fpga/dfl-fme-perf.c
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   1// SPDX-License-Identifier: GPL-2.0
   2/*
   3 * Driver for FPGA Management Engine (FME) Global Performance Reporting
   4 *
   5 * Copyright 2019 Intel Corporation, Inc.
   6 *
   7 * Authors:
   8 *   Kang Luwei <luwei.kang@intel.com>
   9 *   Xiao Guangrong <guangrong.xiao@linux.intel.com>
  10 *   Wu Hao <hao.wu@intel.com>
  11 *   Xu Yilun <yilun.xu@intel.com>
  12 *   Joseph Grecco <joe.grecco@intel.com>
  13 *   Enno Luebbers <enno.luebbers@intel.com>
  14 *   Tim Whisonant <tim.whisonant@intel.com>
  15 *   Ananda Ravuri <ananda.ravuri@intel.com>
  16 *   Mitchel, Henry <henry.mitchel@intel.com>
  17 */
  18
  19#include <linux/perf_event.h>
  20#include "dfl.h"
  21#include "dfl-fme.h"
  22
  23/*
  24 * Performance Counter Registers for Cache.
  25 *
  26 * Cache Events are listed below as CACHE_EVNT_*.
  27 */
  28#define CACHE_CTRL                      0x8
  29#define CACHE_RESET_CNTR                BIT_ULL(0)
  30#define CACHE_FREEZE_CNTR               BIT_ULL(8)
  31#define CACHE_CTRL_EVNT                 GENMASK_ULL(19, 16)
  32#define CACHE_EVNT_RD_HIT               0x0
  33#define CACHE_EVNT_WR_HIT               0x1
  34#define CACHE_EVNT_RD_MISS              0x2
  35#define CACHE_EVNT_WR_MISS              0x3
  36#define CACHE_EVNT_RSVD                 0x4
  37#define CACHE_EVNT_HOLD_REQ             0x5
  38#define CACHE_EVNT_DATA_WR_PORT_CONTEN  0x6
  39#define CACHE_EVNT_TAG_WR_PORT_CONTEN   0x7
  40#define CACHE_EVNT_TX_REQ_STALL         0x8
  41#define CACHE_EVNT_RX_REQ_STALL         0x9
  42#define CACHE_EVNT_EVICTIONS            0xa
  43#define CACHE_EVNT_MAX                  CACHE_EVNT_EVICTIONS
  44#define CACHE_CHANNEL_SEL               BIT_ULL(20)
  45#define CACHE_CHANNEL_RD                0
  46#define CACHE_CHANNEL_WR                1
  47#define CACHE_CNTR0                     0x10
  48#define CACHE_CNTR1                     0x18
  49#define CACHE_CNTR_EVNT_CNTR            GENMASK_ULL(47, 0)
  50#define CACHE_CNTR_EVNT                 GENMASK_ULL(63, 60)
  51
  52/*
  53 * Performance Counter Registers for Fabric.
  54 *
  55 * Fabric Events are listed below as FAB_EVNT_*
  56 */
  57#define FAB_CTRL                        0x20
  58#define FAB_RESET_CNTR                  BIT_ULL(0)
  59#define FAB_FREEZE_CNTR                 BIT_ULL(8)
  60#define FAB_CTRL_EVNT                   GENMASK_ULL(19, 16)
  61#define FAB_EVNT_PCIE0_RD               0x0
  62#define FAB_EVNT_PCIE0_WR               0x1
  63#define FAB_EVNT_PCIE1_RD               0x2
  64#define FAB_EVNT_PCIE1_WR               0x3
  65#define FAB_EVNT_UPI_RD                 0x4
  66#define FAB_EVNT_UPI_WR                 0x5
  67#define FAB_EVNT_MMIO_RD                0x6
  68#define FAB_EVNT_MMIO_WR                0x7
  69#define FAB_EVNT_MAX                    FAB_EVNT_MMIO_WR
  70#define FAB_PORT_ID                     GENMASK_ULL(21, 20)
  71#define FAB_PORT_FILTER                 BIT_ULL(23)
  72#define FAB_PORT_FILTER_DISABLE         0
  73#define FAB_PORT_FILTER_ENABLE          1
  74#define FAB_CNTR                        0x28
  75#define FAB_CNTR_EVNT_CNTR              GENMASK_ULL(59, 0)
  76#define FAB_CNTR_EVNT                   GENMASK_ULL(63, 60)
  77
  78/*
  79 * Performance Counter Registers for Clock.
  80 *
  81 * Clock Counter can't be reset or frozen by SW.
  82 */
  83#define CLK_CNTR                        0x30
  84#define BASIC_EVNT_CLK                  0x0
  85#define BASIC_EVNT_MAX                  BASIC_EVNT_CLK
  86
  87/*
  88 * Performance Counter Registers for IOMMU / VT-D.
  89 *
  90 * VT-D Events are listed below as VTD_EVNT_* and VTD_SIP_EVNT_*
  91 */
  92#define VTD_CTRL                        0x38
  93#define VTD_RESET_CNTR                  BIT_ULL(0)
  94#define VTD_FREEZE_CNTR                 BIT_ULL(8)
  95#define VTD_CTRL_EVNT                   GENMASK_ULL(19, 16)
  96#define VTD_EVNT_AFU_MEM_RD_TRANS       0x0
  97#define VTD_EVNT_AFU_MEM_WR_TRANS       0x1
  98#define VTD_EVNT_AFU_DEVTLB_RD_HIT      0x2
  99#define VTD_EVNT_AFU_DEVTLB_WR_HIT      0x3
 100#define VTD_EVNT_DEVTLB_4K_FILL         0x4
 101#define VTD_EVNT_DEVTLB_2M_FILL         0x5
 102#define VTD_EVNT_DEVTLB_1G_FILL         0x6
 103#define VTD_EVNT_MAX                    VTD_EVNT_DEVTLB_1G_FILL
 104#define VTD_CNTR                        0x40
 105#define VTD_CNTR_EVNT_CNTR              GENMASK_ULL(47, 0)
 106#define VTD_CNTR_EVNT                   GENMASK_ULL(63, 60)
 107
 108#define VTD_SIP_CTRL                    0x48
 109#define VTD_SIP_RESET_CNTR              BIT_ULL(0)
 110#define VTD_SIP_FREEZE_CNTR             BIT_ULL(8)
 111#define VTD_SIP_CTRL_EVNT               GENMASK_ULL(19, 16)
 112#define VTD_SIP_EVNT_IOTLB_4K_HIT       0x0
 113#define VTD_SIP_EVNT_IOTLB_2M_HIT       0x1
 114#define VTD_SIP_EVNT_IOTLB_1G_HIT       0x2
 115#define VTD_SIP_EVNT_SLPWC_L3_HIT       0x3
 116#define VTD_SIP_EVNT_SLPWC_L4_HIT       0x4
 117#define VTD_SIP_EVNT_RCC_HIT            0x5
 118#define VTD_SIP_EVNT_IOTLB_4K_MISS      0x6
 119#define VTD_SIP_EVNT_IOTLB_2M_MISS      0x7
 120#define VTD_SIP_EVNT_IOTLB_1G_MISS      0x8
 121#define VTD_SIP_EVNT_SLPWC_L3_MISS      0x9
 122#define VTD_SIP_EVNT_SLPWC_L4_MISS      0xa
 123#define VTD_SIP_EVNT_RCC_MISS           0xb
 124#define VTD_SIP_EVNT_MAX                VTD_SIP_EVNT_SLPWC_L4_MISS
 125#define VTD_SIP_CNTR                    0X50
 126#define VTD_SIP_CNTR_EVNT_CNTR          GENMASK_ULL(47, 0)
 127#define VTD_SIP_CNTR_EVNT               GENMASK_ULL(63, 60)
 128
 129#define PERF_TIMEOUT                    30
 130
 131#define PERF_MAX_PORT_NUM               1U
 132
 133/**
 134 * struct fme_perf_priv - priv data structure for fme perf driver
 135 *
 136 * @dev: parent device.
 137 * @ioaddr: mapped base address of mmio region.
 138 * @pmu: pmu data structure for fme perf counters.
 139 * @id: id of this fme performance report private feature.
 140 * @fab_users: current user number on fabric counters.
 141 * @fab_port_id: used to indicate current working mode of fabric counters.
 142 * @fab_lock: lock to protect fabric counters working mode.
 143 * @cpu: active CPU to which the PMU is bound for accesses.
 144 * @cpuhp_node: node for CPU hotplug notifier link.
 145 * @cpuhp_state: state for CPU hotplug notification;
 146 */
 147struct fme_perf_priv {
 148        struct device *dev;
 149        void __iomem *ioaddr;
 150        struct pmu pmu;
 151        u16 id;
 152
 153        u32 fab_users;
 154        u32 fab_port_id;
 155        spinlock_t fab_lock;
 156
 157        unsigned int cpu;
 158        struct hlist_node node;
 159        enum cpuhp_state cpuhp_state;
 160};
 161
 162/**
 163 * struct fme_perf_event_ops - callbacks for fme perf events
 164 *
 165 * @event_init: callback invoked during event init.
 166 * @event_destroy: callback invoked during event destroy.
 167 * @read_counter: callback to read hardware counters.
 168 */
 169struct fme_perf_event_ops {
 170        int (*event_init)(struct fme_perf_priv *priv, u32 event, u32 portid);
 171        void (*event_destroy)(struct fme_perf_priv *priv, u32 event,
 172                              u32 portid);
 173        u64 (*read_counter)(struct fme_perf_priv *priv, u32 event, u32 portid);
 174};
 175
 176#define to_fme_perf_priv(_pmu)  container_of(_pmu, struct fme_perf_priv, pmu)
 177
 178static ssize_t cpumask_show(struct device *dev,
 179                            struct device_attribute *attr, char *buf)
 180{
 181        struct pmu *pmu = dev_get_drvdata(dev);
 182        struct fme_perf_priv *priv;
 183
 184        priv = to_fme_perf_priv(pmu);
 185
 186        return cpumap_print_to_pagebuf(true, buf, cpumask_of(priv->cpu));
 187}
 188static DEVICE_ATTR_RO(cpumask);
 189
 190static struct attribute *fme_perf_cpumask_attrs[] = {
 191        &dev_attr_cpumask.attr,
 192        NULL,
 193};
 194
 195static struct attribute_group fme_perf_cpumask_group = {
 196        .attrs = fme_perf_cpumask_attrs,
 197};
 198
 199#define FME_EVENT_MASK          GENMASK_ULL(11, 0)
 200#define FME_EVENT_SHIFT         0
 201#define FME_EVTYPE_MASK         GENMASK_ULL(15, 12)
 202#define FME_EVTYPE_SHIFT        12
 203#define FME_EVTYPE_BASIC        0
 204#define FME_EVTYPE_CACHE        1
 205#define FME_EVTYPE_FABRIC       2
 206#define FME_EVTYPE_VTD          3
 207#define FME_EVTYPE_VTD_SIP      4
 208#define FME_EVTYPE_MAX          FME_EVTYPE_VTD_SIP
 209#define FME_PORTID_MASK         GENMASK_ULL(23, 16)
 210#define FME_PORTID_SHIFT        16
 211#define FME_PORTID_ROOT         (0xffU)
 212
 213#define get_event(_config)      FIELD_GET(FME_EVENT_MASK, _config)
 214#define get_evtype(_config)     FIELD_GET(FME_EVTYPE_MASK, _config)
 215#define get_portid(_config)     FIELD_GET(FME_PORTID_MASK, _config)
 216
 217PMU_FORMAT_ATTR(event,          "config:0-11");
 218PMU_FORMAT_ATTR(evtype,         "config:12-15");
 219PMU_FORMAT_ATTR(portid,         "config:16-23");
 220
 221static struct attribute *fme_perf_format_attrs[] = {
 222        &format_attr_event.attr,
 223        &format_attr_evtype.attr,
 224        &format_attr_portid.attr,
 225        NULL,
 226};
 227
 228static struct attribute_group fme_perf_format_group = {
 229        .name = "format",
 230        .attrs = fme_perf_format_attrs,
 231};
 232
 233/*
 234 * There are no default events, but we need to create
 235 * "events" group (with empty attrs) before updating
 236 * it with detected events (using pmu->attr_update).
 237 */
 238static struct attribute *fme_perf_events_attrs_empty[] = {
 239        NULL,
 240};
 241
 242static struct attribute_group fme_perf_events_group = {
 243        .name = "events",
 244        .attrs = fme_perf_events_attrs_empty,
 245};
 246
 247static const struct attribute_group *fme_perf_groups[] = {
 248        &fme_perf_format_group,
 249        &fme_perf_cpumask_group,
 250        &fme_perf_events_group,
 251        NULL,
 252};
 253
 254static bool is_portid_root(u32 portid)
 255{
 256        return portid == FME_PORTID_ROOT;
 257}
 258
 259static bool is_portid_port(u32 portid)
 260{
 261        return portid < PERF_MAX_PORT_NUM;
 262}
 263
 264static bool is_portid_root_or_port(u32 portid)
 265{
 266        return is_portid_root(portid) || is_portid_port(portid);
 267}
 268
 269static u64 fme_read_perf_cntr_reg(void __iomem *addr)
 270{
 271        u32 low;
 272        u64 v;
 273
 274        /*
 275         * For 64bit counter registers, the counter may increases and carries
 276         * out of bit [31] between 2 32bit reads. So add extra reads to help
 277         * to prevent this issue. This only happens in platforms which don't
 278         * support 64bit read - readq is split into 2 readl.
 279         */
 280        do {
 281                v = readq(addr);
 282                low = readl(addr);
 283        } while (((u32)v) > low);
 284
 285        return v;
 286}
 287
 288static int basic_event_init(struct fme_perf_priv *priv, u32 event, u32 portid)
 289{
 290        if (event <= BASIC_EVNT_MAX && is_portid_root(portid))
 291                return 0;
 292
 293        return -EINVAL;
 294}
 295
 296static u64 basic_read_event_counter(struct fme_perf_priv *priv,
 297                                    u32 event, u32 portid)
 298{
 299        void __iomem *base = priv->ioaddr;
 300
 301        return fme_read_perf_cntr_reg(base + CLK_CNTR);
 302}
 303
 304static int cache_event_init(struct fme_perf_priv *priv, u32 event, u32 portid)
 305{
 306        if (priv->id == FME_FEATURE_ID_GLOBAL_IPERF &&
 307            event <= CACHE_EVNT_MAX && is_portid_root(portid))
 308                return 0;
 309
 310        return -EINVAL;
 311}
 312
 313static u64 cache_read_event_counter(struct fme_perf_priv *priv,
 314                                    u32 event, u32 portid)
 315{
 316        void __iomem *base = priv->ioaddr;
 317        u64 v, count;
 318        u8 channel;
 319
 320        if (event == CACHE_EVNT_WR_HIT || event == CACHE_EVNT_WR_MISS ||
 321            event == CACHE_EVNT_DATA_WR_PORT_CONTEN ||
 322            event == CACHE_EVNT_TAG_WR_PORT_CONTEN)
 323                channel = CACHE_CHANNEL_WR;
 324        else
 325                channel = CACHE_CHANNEL_RD;
 326
 327        /* set channel access type and cache event code. */
 328        v = readq(base + CACHE_CTRL);
 329        v &= ~(CACHE_CHANNEL_SEL | CACHE_CTRL_EVNT);
 330        v |= FIELD_PREP(CACHE_CHANNEL_SEL, channel);
 331        v |= FIELD_PREP(CACHE_CTRL_EVNT, event);
 332        writeq(v, base + CACHE_CTRL);
 333
 334        if (readq_poll_timeout_atomic(base + CACHE_CNTR0, v,
 335                                      FIELD_GET(CACHE_CNTR_EVNT, v) == event,
 336                                      1, PERF_TIMEOUT)) {
 337                dev_err(priv->dev, "timeout, unmatched cache event code in counter register.\n");
 338                return 0;
 339        }
 340
 341        v = fme_read_perf_cntr_reg(base + CACHE_CNTR0);
 342        count = FIELD_GET(CACHE_CNTR_EVNT_CNTR, v);
 343        v = fme_read_perf_cntr_reg(base + CACHE_CNTR1);
 344        count += FIELD_GET(CACHE_CNTR_EVNT_CNTR, v);
 345
 346        return count;
 347}
 348
 349static bool is_fabric_event_supported(struct fme_perf_priv *priv, u32 event,
 350                                      u32 portid)
 351{
 352        if (event > FAB_EVNT_MAX || !is_portid_root_or_port(portid))
 353                return false;
 354
 355        if (priv->id == FME_FEATURE_ID_GLOBAL_DPERF &&
 356            (event == FAB_EVNT_PCIE1_RD || event == FAB_EVNT_UPI_RD ||
 357             event == FAB_EVNT_PCIE1_WR || event == FAB_EVNT_UPI_WR))
 358                return false;
 359
 360        return true;
 361}
 362
 363static int fabric_event_init(struct fme_perf_priv *priv, u32 event, u32 portid)
 364{
 365        void __iomem *base = priv->ioaddr;
 366        int ret = 0;
 367        u64 v;
 368
 369        if (!is_fabric_event_supported(priv, event, portid))
 370                return -EINVAL;
 371
 372        /*
 373         * as fabric counter set only can be in either overall or port mode.
 374         * In overall mode, it counts overall data for FPGA, and in port mode,
 375         * it is configured to monitor on one individual port.
 376         *
 377         * so every time, a new event is initialized, driver checks
 378         * current working mode and if someone is using this counter set.
 379         */
 380        spin_lock(&priv->fab_lock);
 381        if (priv->fab_users && priv->fab_port_id != portid) {
 382                dev_dbg(priv->dev, "conflict fabric event monitoring mode.\n");
 383                ret = -EOPNOTSUPP;
 384                goto exit;
 385        }
 386
 387        priv->fab_users++;
 388
 389        /*
 390         * skip if current working mode matches, otherwise change the working
 391         * mode per input port_id, to monitor overall data or another port.
 392         */
 393        if (priv->fab_port_id == portid)
 394                goto exit;
 395
 396        priv->fab_port_id = portid;
 397
 398        v = readq(base + FAB_CTRL);
 399        v &= ~(FAB_PORT_FILTER | FAB_PORT_ID);
 400
 401        if (is_portid_root(portid)) {
 402                v |= FIELD_PREP(FAB_PORT_FILTER, FAB_PORT_FILTER_DISABLE);
 403        } else {
 404                v |= FIELD_PREP(FAB_PORT_FILTER, FAB_PORT_FILTER_ENABLE);
 405                v |= FIELD_PREP(FAB_PORT_ID, portid);
 406        }
 407        writeq(v, base + FAB_CTRL);
 408
 409exit:
 410        spin_unlock(&priv->fab_lock);
 411        return ret;
 412}
 413
 414static void fabric_event_destroy(struct fme_perf_priv *priv, u32 event,
 415                                 u32 portid)
 416{
 417        spin_lock(&priv->fab_lock);
 418        priv->fab_users--;
 419        spin_unlock(&priv->fab_lock);
 420}
 421
 422static u64 fabric_read_event_counter(struct fme_perf_priv *priv, u32 event,
 423                                     u32 portid)
 424{
 425        void __iomem *base = priv->ioaddr;
 426        u64 v;
 427
 428        v = readq(base + FAB_CTRL);
 429        v &= ~FAB_CTRL_EVNT;
 430        v |= FIELD_PREP(FAB_CTRL_EVNT, event);
 431        writeq(v, base + FAB_CTRL);
 432
 433        if (readq_poll_timeout_atomic(base + FAB_CNTR, v,
 434                                      FIELD_GET(FAB_CNTR_EVNT, v) == event,
 435                                      1, PERF_TIMEOUT)) {
 436                dev_err(priv->dev, "timeout, unmatched fab event code in counter register.\n");
 437                return 0;
 438        }
 439
 440        v = fme_read_perf_cntr_reg(base + FAB_CNTR);
 441        return FIELD_GET(FAB_CNTR_EVNT_CNTR, v);
 442}
 443
 444static int vtd_event_init(struct fme_perf_priv *priv, u32 event, u32 portid)
 445{
 446        if (priv->id == FME_FEATURE_ID_GLOBAL_IPERF &&
 447            event <= VTD_EVNT_MAX && is_portid_port(portid))
 448                return 0;
 449
 450        return -EINVAL;
 451}
 452
 453static u64 vtd_read_event_counter(struct fme_perf_priv *priv, u32 event,
 454                                  u32 portid)
 455{
 456        void __iomem *base = priv->ioaddr;
 457        u64 v;
 458
 459        event += (portid * (VTD_EVNT_MAX + 1));
 460
 461        v = readq(base + VTD_CTRL);
 462        v &= ~VTD_CTRL_EVNT;
 463        v |= FIELD_PREP(VTD_CTRL_EVNT, event);
 464        writeq(v, base + VTD_CTRL);
 465
 466        if (readq_poll_timeout_atomic(base + VTD_CNTR, v,
 467                                      FIELD_GET(VTD_CNTR_EVNT, v) == event,
 468                                      1, PERF_TIMEOUT)) {
 469                dev_err(priv->dev, "timeout, unmatched vtd event code in counter register.\n");
 470                return 0;
 471        }
 472
 473        v = fme_read_perf_cntr_reg(base + VTD_CNTR);
 474        return FIELD_GET(VTD_CNTR_EVNT_CNTR, v);
 475}
 476
 477static int vtd_sip_event_init(struct fme_perf_priv *priv, u32 event, u32 portid)
 478{
 479        if (priv->id == FME_FEATURE_ID_GLOBAL_IPERF &&
 480            event <= VTD_SIP_EVNT_MAX && is_portid_root(portid))
 481                return 0;
 482
 483        return -EINVAL;
 484}
 485
 486static u64 vtd_sip_read_event_counter(struct fme_perf_priv *priv, u32 event,
 487                                      u32 portid)
 488{
 489        void __iomem *base = priv->ioaddr;
 490        u64 v;
 491
 492        v = readq(base + VTD_SIP_CTRL);
 493        v &= ~VTD_SIP_CTRL_EVNT;
 494        v |= FIELD_PREP(VTD_SIP_CTRL_EVNT, event);
 495        writeq(v, base + VTD_SIP_CTRL);
 496
 497        if (readq_poll_timeout_atomic(base + VTD_SIP_CNTR, v,
 498                                      FIELD_GET(VTD_SIP_CNTR_EVNT, v) == event,
 499                                      1, PERF_TIMEOUT)) {
 500                dev_err(priv->dev, "timeout, unmatched vtd sip event code in counter register\n");
 501                return 0;
 502        }
 503
 504        v = fme_read_perf_cntr_reg(base + VTD_SIP_CNTR);
 505        return FIELD_GET(VTD_SIP_CNTR_EVNT_CNTR, v);
 506}
 507
 508static struct fme_perf_event_ops fme_perf_event_ops[] = {
 509        [FME_EVTYPE_BASIC]      = {.event_init = basic_event_init,
 510                                   .read_counter = basic_read_event_counter,},
 511        [FME_EVTYPE_CACHE]      = {.event_init = cache_event_init,
 512                                   .read_counter = cache_read_event_counter,},
 513        [FME_EVTYPE_FABRIC]     = {.event_init = fabric_event_init,
 514                                   .event_destroy = fabric_event_destroy,
 515                                   .read_counter = fabric_read_event_counter,},
 516        [FME_EVTYPE_VTD]        = {.event_init = vtd_event_init,
 517                                   .read_counter = vtd_read_event_counter,},
 518        [FME_EVTYPE_VTD_SIP]    = {.event_init = vtd_sip_event_init,
 519                                   .read_counter = vtd_sip_read_event_counter,},
 520};
 521
 522static ssize_t fme_perf_event_show(struct device *dev,
 523                                   struct device_attribute *attr, char *buf)
 524{
 525        struct dev_ext_attribute *eattr;
 526        unsigned long config;
 527        char *ptr = buf;
 528
 529        eattr = container_of(attr, struct dev_ext_attribute, attr);
 530        config = (unsigned long)eattr->var;
 531
 532        ptr += sprintf(ptr, "event=0x%02x", (unsigned int)get_event(config));
 533        ptr += sprintf(ptr, ",evtype=0x%02x", (unsigned int)get_evtype(config));
 534
 535        if (is_portid_root(get_portid(config)))
 536                ptr += sprintf(ptr, ",portid=0x%02x\n", FME_PORTID_ROOT);
 537        else
 538                ptr += sprintf(ptr, ",portid=?\n");
 539
 540        return (ssize_t)(ptr - buf);
 541}
 542
 543#define FME_EVENT_ATTR(_name) \
 544        __ATTR(_name, 0444, fme_perf_event_show, NULL)
 545
 546#define FME_PORT_EVENT_CONFIG(_event, _type)                            \
 547        (void *)((((_event) << FME_EVENT_SHIFT) & FME_EVENT_MASK) |     \
 548                (((_type) << FME_EVTYPE_SHIFT) & FME_EVTYPE_MASK))
 549
 550#define FME_EVENT_CONFIG(_event, _type)                                 \
 551        (void *)((((_event) << FME_EVENT_SHIFT) & FME_EVENT_MASK) |     \
 552                (((_type) << FME_EVTYPE_SHIFT) & FME_EVTYPE_MASK) |     \
 553                (FME_PORTID_ROOT << FME_PORTID_SHIFT))
 554
 555/* FME Perf Basic Events */
 556#define FME_EVENT_BASIC(_name, _event)                                  \
 557static struct dev_ext_attribute fme_perf_event_##_name = {              \
 558        .attr = FME_EVENT_ATTR(_name),                                  \
 559        .var = FME_EVENT_CONFIG(_event, FME_EVTYPE_BASIC),              \
 560}
 561
 562FME_EVENT_BASIC(clock, BASIC_EVNT_CLK);
 563
 564static struct attribute *fme_perf_basic_events_attrs[] = {
 565        &fme_perf_event_clock.attr.attr,
 566        NULL,
 567};
 568
 569static const struct attribute_group fme_perf_basic_events_group = {
 570        .name = "events",
 571        .attrs = fme_perf_basic_events_attrs,
 572};
 573
 574/* FME Perf Cache Events */
 575#define FME_EVENT_CACHE(_name, _event)                                  \
 576static struct dev_ext_attribute fme_perf_event_cache_##_name = {        \
 577        .attr = FME_EVENT_ATTR(cache_##_name),                          \
 578        .var = FME_EVENT_CONFIG(_event, FME_EVTYPE_CACHE),              \
 579}
 580
 581FME_EVENT_CACHE(read_hit,     CACHE_EVNT_RD_HIT);
 582FME_EVENT_CACHE(read_miss,    CACHE_EVNT_RD_MISS);
 583FME_EVENT_CACHE(write_hit,    CACHE_EVNT_WR_HIT);
 584FME_EVENT_CACHE(write_miss,   CACHE_EVNT_WR_MISS);
 585FME_EVENT_CACHE(hold_request, CACHE_EVNT_HOLD_REQ);
 586FME_EVENT_CACHE(tx_req_stall, CACHE_EVNT_TX_REQ_STALL);
 587FME_EVENT_CACHE(rx_req_stall, CACHE_EVNT_RX_REQ_STALL);
 588FME_EVENT_CACHE(eviction,     CACHE_EVNT_EVICTIONS);
 589FME_EVENT_CACHE(data_write_port_contention, CACHE_EVNT_DATA_WR_PORT_CONTEN);
 590FME_EVENT_CACHE(tag_write_port_contention,  CACHE_EVNT_TAG_WR_PORT_CONTEN);
 591
 592static struct attribute *fme_perf_cache_events_attrs[] = {
 593        &fme_perf_event_cache_read_hit.attr.attr,
 594        &fme_perf_event_cache_read_miss.attr.attr,
 595        &fme_perf_event_cache_write_hit.attr.attr,
 596        &fme_perf_event_cache_write_miss.attr.attr,
 597        &fme_perf_event_cache_hold_request.attr.attr,
 598        &fme_perf_event_cache_tx_req_stall.attr.attr,
 599        &fme_perf_event_cache_rx_req_stall.attr.attr,
 600        &fme_perf_event_cache_eviction.attr.attr,
 601        &fme_perf_event_cache_data_write_port_contention.attr.attr,
 602        &fme_perf_event_cache_tag_write_port_contention.attr.attr,
 603        NULL,
 604};
 605
 606static umode_t fme_perf_events_visible(struct kobject *kobj,
 607                                       struct attribute *attr, int n)
 608{
 609        struct pmu *pmu = dev_get_drvdata(kobj_to_dev(kobj));
 610        struct fme_perf_priv *priv = to_fme_perf_priv(pmu);
 611
 612        return (priv->id == FME_FEATURE_ID_GLOBAL_IPERF) ? attr->mode : 0;
 613}
 614
 615static const struct attribute_group fme_perf_cache_events_group = {
 616        .name = "events",
 617        .attrs = fme_perf_cache_events_attrs,
 618        .is_visible = fme_perf_events_visible,
 619};
 620
 621/* FME Perf Fabric Events */
 622#define FME_EVENT_FABRIC(_name, _event)                                 \
 623static struct dev_ext_attribute fme_perf_event_fab_##_name = {          \
 624        .attr = FME_EVENT_ATTR(fab_##_name),                            \
 625        .var = FME_EVENT_CONFIG(_event, FME_EVTYPE_FABRIC),             \
 626}
 627
 628#define FME_EVENT_FABRIC_PORT(_name, _event)                            \
 629static struct dev_ext_attribute fme_perf_event_fab_port_##_name = {     \
 630        .attr = FME_EVENT_ATTR(fab_port_##_name),                       \
 631        .var = FME_PORT_EVENT_CONFIG(_event, FME_EVTYPE_FABRIC),        \
 632}
 633
 634FME_EVENT_FABRIC(pcie0_read,  FAB_EVNT_PCIE0_RD);
 635FME_EVENT_FABRIC(pcie0_write, FAB_EVNT_PCIE0_WR);
 636FME_EVENT_FABRIC(pcie1_read,  FAB_EVNT_PCIE1_RD);
 637FME_EVENT_FABRIC(pcie1_write, FAB_EVNT_PCIE1_WR);
 638FME_EVENT_FABRIC(upi_read,    FAB_EVNT_UPI_RD);
 639FME_EVENT_FABRIC(upi_write,   FAB_EVNT_UPI_WR);
 640FME_EVENT_FABRIC(mmio_read,   FAB_EVNT_MMIO_RD);
 641FME_EVENT_FABRIC(mmio_write,  FAB_EVNT_MMIO_WR);
 642
 643FME_EVENT_FABRIC_PORT(pcie0_read,  FAB_EVNT_PCIE0_RD);
 644FME_EVENT_FABRIC_PORT(pcie0_write, FAB_EVNT_PCIE0_WR);
 645FME_EVENT_FABRIC_PORT(pcie1_read,  FAB_EVNT_PCIE1_RD);
 646FME_EVENT_FABRIC_PORT(pcie1_write, FAB_EVNT_PCIE1_WR);
 647FME_EVENT_FABRIC_PORT(upi_read,    FAB_EVNT_UPI_RD);
 648FME_EVENT_FABRIC_PORT(upi_write,   FAB_EVNT_UPI_WR);
 649FME_EVENT_FABRIC_PORT(mmio_read,   FAB_EVNT_MMIO_RD);
 650FME_EVENT_FABRIC_PORT(mmio_write,  FAB_EVNT_MMIO_WR);
 651
 652static struct attribute *fme_perf_fabric_events_attrs[] = {
 653        &fme_perf_event_fab_pcie0_read.attr.attr,
 654        &fme_perf_event_fab_pcie0_write.attr.attr,
 655        &fme_perf_event_fab_pcie1_read.attr.attr,
 656        &fme_perf_event_fab_pcie1_write.attr.attr,
 657        &fme_perf_event_fab_upi_read.attr.attr,
 658        &fme_perf_event_fab_upi_write.attr.attr,
 659        &fme_perf_event_fab_mmio_read.attr.attr,
 660        &fme_perf_event_fab_mmio_write.attr.attr,
 661        &fme_perf_event_fab_port_pcie0_read.attr.attr,
 662        &fme_perf_event_fab_port_pcie0_write.attr.attr,
 663        &fme_perf_event_fab_port_pcie1_read.attr.attr,
 664        &fme_perf_event_fab_port_pcie1_write.attr.attr,
 665        &fme_perf_event_fab_port_upi_read.attr.attr,
 666        &fme_perf_event_fab_port_upi_write.attr.attr,
 667        &fme_perf_event_fab_port_mmio_read.attr.attr,
 668        &fme_perf_event_fab_port_mmio_write.attr.attr,
 669        NULL,
 670};
 671
 672static umode_t fme_perf_fabric_events_visible(struct kobject *kobj,
 673                                              struct attribute *attr, int n)
 674{
 675        struct pmu *pmu = dev_get_drvdata(kobj_to_dev(kobj));
 676        struct fme_perf_priv *priv = to_fme_perf_priv(pmu);
 677        struct dev_ext_attribute *eattr;
 678        unsigned long var;
 679
 680        eattr = container_of(attr, struct dev_ext_attribute, attr.attr);
 681        var = (unsigned long)eattr->var;
 682
 683        if (is_fabric_event_supported(priv, get_event(var), get_portid(var)))
 684                return attr->mode;
 685
 686        return 0;
 687}
 688
 689static const struct attribute_group fme_perf_fabric_events_group = {
 690        .name = "events",
 691        .attrs = fme_perf_fabric_events_attrs,
 692        .is_visible = fme_perf_fabric_events_visible,
 693};
 694
 695/* FME Perf VTD Events */
 696#define FME_EVENT_VTD_PORT(_name, _event)                               \
 697static struct dev_ext_attribute fme_perf_event_vtd_port_##_name = {     \
 698        .attr = FME_EVENT_ATTR(vtd_port_##_name),                       \
 699        .var = FME_PORT_EVENT_CONFIG(_event, FME_EVTYPE_VTD),           \
 700}
 701
 702FME_EVENT_VTD_PORT(read_transaction,  VTD_EVNT_AFU_MEM_RD_TRANS);
 703FME_EVENT_VTD_PORT(write_transaction, VTD_EVNT_AFU_MEM_WR_TRANS);
 704FME_EVENT_VTD_PORT(devtlb_read_hit,   VTD_EVNT_AFU_DEVTLB_RD_HIT);
 705FME_EVENT_VTD_PORT(devtlb_write_hit,  VTD_EVNT_AFU_DEVTLB_WR_HIT);
 706FME_EVENT_VTD_PORT(devtlb_4k_fill,    VTD_EVNT_DEVTLB_4K_FILL);
 707FME_EVENT_VTD_PORT(devtlb_2m_fill,    VTD_EVNT_DEVTLB_2M_FILL);
 708FME_EVENT_VTD_PORT(devtlb_1g_fill,    VTD_EVNT_DEVTLB_1G_FILL);
 709
 710static struct attribute *fme_perf_vtd_events_attrs[] = {
 711        &fme_perf_event_vtd_port_read_transaction.attr.attr,
 712        &fme_perf_event_vtd_port_write_transaction.attr.attr,
 713        &fme_perf_event_vtd_port_devtlb_read_hit.attr.attr,
 714        &fme_perf_event_vtd_port_devtlb_write_hit.attr.attr,
 715        &fme_perf_event_vtd_port_devtlb_4k_fill.attr.attr,
 716        &fme_perf_event_vtd_port_devtlb_2m_fill.attr.attr,
 717        &fme_perf_event_vtd_port_devtlb_1g_fill.attr.attr,
 718        NULL,
 719};
 720
 721static const struct attribute_group fme_perf_vtd_events_group = {
 722        .name = "events",
 723        .attrs = fme_perf_vtd_events_attrs,
 724        .is_visible = fme_perf_events_visible,
 725};
 726
 727/* FME Perf VTD SIP Events */
 728#define FME_EVENT_VTD_SIP(_name, _event)                                \
 729static struct dev_ext_attribute fme_perf_event_vtd_sip_##_name = {      \
 730        .attr = FME_EVENT_ATTR(vtd_sip_##_name),                        \
 731        .var = FME_EVENT_CONFIG(_event, FME_EVTYPE_VTD_SIP),            \
 732}
 733
 734FME_EVENT_VTD_SIP(iotlb_4k_hit,  VTD_SIP_EVNT_IOTLB_4K_HIT);
 735FME_EVENT_VTD_SIP(iotlb_2m_hit,  VTD_SIP_EVNT_IOTLB_2M_HIT);
 736FME_EVENT_VTD_SIP(iotlb_1g_hit,  VTD_SIP_EVNT_IOTLB_1G_HIT);
 737FME_EVENT_VTD_SIP(slpwc_l3_hit,  VTD_SIP_EVNT_SLPWC_L3_HIT);
 738FME_EVENT_VTD_SIP(slpwc_l4_hit,  VTD_SIP_EVNT_SLPWC_L4_HIT);
 739FME_EVENT_VTD_SIP(rcc_hit,       VTD_SIP_EVNT_RCC_HIT);
 740FME_EVENT_VTD_SIP(iotlb_4k_miss, VTD_SIP_EVNT_IOTLB_4K_MISS);
 741FME_EVENT_VTD_SIP(iotlb_2m_miss, VTD_SIP_EVNT_IOTLB_2M_MISS);
 742FME_EVENT_VTD_SIP(iotlb_1g_miss, VTD_SIP_EVNT_IOTLB_1G_MISS);
 743FME_EVENT_VTD_SIP(slpwc_l3_miss, VTD_SIP_EVNT_SLPWC_L3_MISS);
 744FME_EVENT_VTD_SIP(slpwc_l4_miss, VTD_SIP_EVNT_SLPWC_L4_MISS);
 745FME_EVENT_VTD_SIP(rcc_miss,      VTD_SIP_EVNT_RCC_MISS);
 746
 747static struct attribute *fme_perf_vtd_sip_events_attrs[] = {
 748        &fme_perf_event_vtd_sip_iotlb_4k_hit.attr.attr,
 749        &fme_perf_event_vtd_sip_iotlb_2m_hit.attr.attr,
 750        &fme_perf_event_vtd_sip_iotlb_1g_hit.attr.attr,
 751        &fme_perf_event_vtd_sip_slpwc_l3_hit.attr.attr,
 752        &fme_perf_event_vtd_sip_slpwc_l4_hit.attr.attr,
 753        &fme_perf_event_vtd_sip_rcc_hit.attr.attr,
 754        &fme_perf_event_vtd_sip_iotlb_4k_miss.attr.attr,
 755        &fme_perf_event_vtd_sip_iotlb_2m_miss.attr.attr,
 756        &fme_perf_event_vtd_sip_iotlb_1g_miss.attr.attr,
 757        &fme_perf_event_vtd_sip_slpwc_l3_miss.attr.attr,
 758        &fme_perf_event_vtd_sip_slpwc_l4_miss.attr.attr,
 759        &fme_perf_event_vtd_sip_rcc_miss.attr.attr,
 760        NULL,
 761};
 762
 763static const struct attribute_group fme_perf_vtd_sip_events_group = {
 764        .name = "events",
 765        .attrs = fme_perf_vtd_sip_events_attrs,
 766        .is_visible = fme_perf_events_visible,
 767};
 768
 769static const struct attribute_group *fme_perf_events_groups[] = {
 770        &fme_perf_basic_events_group,
 771        &fme_perf_cache_events_group,
 772        &fme_perf_fabric_events_group,
 773        &fme_perf_vtd_events_group,
 774        &fme_perf_vtd_sip_events_group,
 775        NULL,
 776};
 777
 778static struct fme_perf_event_ops *get_event_ops(u32 evtype)
 779{
 780        if (evtype > FME_EVTYPE_MAX)
 781                return NULL;
 782
 783        return &fme_perf_event_ops[evtype];
 784}
 785
 786static void fme_perf_event_destroy(struct perf_event *event)
 787{
 788        struct fme_perf_event_ops *ops = get_event_ops(event->hw.event_base);
 789        struct fme_perf_priv *priv = to_fme_perf_priv(event->pmu);
 790
 791        if (ops->event_destroy)
 792                ops->event_destroy(priv, event->hw.idx, event->hw.config_base);
 793}
 794
 795static int fme_perf_event_init(struct perf_event *event)
 796{
 797        struct fme_perf_priv *priv = to_fme_perf_priv(event->pmu);
 798        struct hw_perf_event *hwc = &event->hw;
 799        struct fme_perf_event_ops *ops;
 800        u32 eventid, evtype, portid;
 801
 802        /* test the event attr type check for PMU enumeration */
 803        if (event->attr.type != event->pmu->type)
 804                return -ENOENT;
 805
 806        /*
 807         * fme counters are shared across all cores.
 808         * Therefore, it does not support per-process mode.
 809         * Also, it does not support event sampling mode.
 810         */
 811        if (is_sampling_event(event) || event->attach_state & PERF_ATTACH_TASK)
 812                return -EINVAL;
 813
 814        if (event->cpu < 0)
 815                return -EINVAL;
 816
 817        if (event->cpu != priv->cpu)
 818                return -EINVAL;
 819
 820        eventid = get_event(event->attr.config);
 821        portid = get_portid(event->attr.config);
 822        evtype = get_evtype(event->attr.config);
 823        if (evtype > FME_EVTYPE_MAX)
 824                return -EINVAL;
 825
 826        hwc->event_base = evtype;
 827        hwc->idx = (int)eventid;
 828        hwc->config_base = portid;
 829
 830        event->destroy = fme_perf_event_destroy;
 831
 832        dev_dbg(priv->dev, "%s event=0x%x, evtype=0x%x, portid=0x%x,\n",
 833                __func__, eventid, evtype, portid);
 834
 835        ops = get_event_ops(evtype);
 836        if (ops->event_init)
 837                return ops->event_init(priv, eventid, portid);
 838
 839        return 0;
 840}
 841
 842static void fme_perf_event_update(struct perf_event *event)
 843{
 844        struct fme_perf_event_ops *ops = get_event_ops(event->hw.event_base);
 845        struct fme_perf_priv *priv = to_fme_perf_priv(event->pmu);
 846        struct hw_perf_event *hwc = &event->hw;
 847        u64 now, prev, delta;
 848
 849        now = ops->read_counter(priv, (u32)hwc->idx, hwc->config_base);
 850        prev = local64_read(&hwc->prev_count);
 851        delta = now - prev;
 852
 853        local64_add(delta, &event->count);
 854}
 855
 856static void fme_perf_event_start(struct perf_event *event, int flags)
 857{
 858        struct fme_perf_event_ops *ops = get_event_ops(event->hw.event_base);
 859        struct fme_perf_priv *priv = to_fme_perf_priv(event->pmu);
 860        struct hw_perf_event *hwc = &event->hw;
 861        u64 count;
 862
 863        count = ops->read_counter(priv, (u32)hwc->idx, hwc->config_base);
 864        local64_set(&hwc->prev_count, count);
 865}
 866
 867static void fme_perf_event_stop(struct perf_event *event, int flags)
 868{
 869        fme_perf_event_update(event);
 870}
 871
 872static int fme_perf_event_add(struct perf_event *event, int flags)
 873{
 874        if (flags & PERF_EF_START)
 875                fme_perf_event_start(event, flags);
 876
 877        return 0;
 878}
 879
 880static void fme_perf_event_del(struct perf_event *event, int flags)
 881{
 882        fme_perf_event_stop(event, PERF_EF_UPDATE);
 883}
 884
 885static void fme_perf_event_read(struct perf_event *event)
 886{
 887        fme_perf_event_update(event);
 888}
 889
 890static void fme_perf_setup_hardware(struct fme_perf_priv *priv)
 891{
 892        void __iomem *base = priv->ioaddr;
 893        u64 v;
 894
 895        /* read and save current working mode for fabric counters */
 896        v = readq(base + FAB_CTRL);
 897
 898        if (FIELD_GET(FAB_PORT_FILTER, v) == FAB_PORT_FILTER_DISABLE)
 899                priv->fab_port_id = FME_PORTID_ROOT;
 900        else
 901                priv->fab_port_id = FIELD_GET(FAB_PORT_ID, v);
 902}
 903
 904static int fme_perf_pmu_register(struct platform_device *pdev,
 905                                 struct fme_perf_priv *priv)
 906{
 907        struct pmu *pmu = &priv->pmu;
 908        char *name;
 909        int ret;
 910
 911        spin_lock_init(&priv->fab_lock);
 912
 913        fme_perf_setup_hardware(priv);
 914
 915        pmu->task_ctx_nr =      perf_invalid_context;
 916        pmu->attr_groups =      fme_perf_groups;
 917        pmu->attr_update =      fme_perf_events_groups;
 918        pmu->event_init =       fme_perf_event_init;
 919        pmu->add =              fme_perf_event_add;
 920        pmu->del =              fme_perf_event_del;
 921        pmu->start =            fme_perf_event_start;
 922        pmu->stop =             fme_perf_event_stop;
 923        pmu->read =             fme_perf_event_read;
 924        pmu->capabilities =     PERF_PMU_CAP_NO_INTERRUPT |
 925                                PERF_PMU_CAP_NO_EXCLUDE;
 926
 927        name = devm_kasprintf(priv->dev, GFP_KERNEL, "dfl_fme%d", pdev->id);
 928
 929        ret = perf_pmu_register(pmu, name, -1);
 930        if (ret)
 931                return ret;
 932
 933        return 0;
 934}
 935
 936static void fme_perf_pmu_unregister(struct fme_perf_priv *priv)
 937{
 938        perf_pmu_unregister(&priv->pmu);
 939}
 940
 941static int fme_perf_offline_cpu(unsigned int cpu, struct hlist_node *node)
 942{
 943        struct fme_perf_priv *priv;
 944        int target;
 945
 946        priv = hlist_entry_safe(node, struct fme_perf_priv, node);
 947
 948        if (cpu != priv->cpu)
 949                return 0;
 950
 951        target = cpumask_any_but(cpu_online_mask, cpu);
 952        if (target >= nr_cpu_ids)
 953                return 0;
 954
 955        priv->cpu = target;
 956        return 0;
 957}
 958
 959static int fme_perf_init(struct platform_device *pdev,
 960                         struct dfl_feature *feature)
 961{
 962        struct fme_perf_priv *priv;
 963        int ret;
 964
 965        priv = devm_kzalloc(&pdev->dev, sizeof(*priv), GFP_KERNEL);
 966        if (!priv)
 967                return -ENOMEM;
 968
 969        priv->dev = &pdev->dev;
 970        priv->ioaddr = feature->ioaddr;
 971        priv->id = feature->id;
 972        priv->cpu = raw_smp_processor_id();
 973
 974        ret = cpuhp_setup_state_multi(CPUHP_AP_ONLINE_DYN,
 975                                      "perf/fpga/dfl_fme:online",
 976                                      NULL, fme_perf_offline_cpu);
 977        if (ret < 0)
 978                return ret;
 979
 980        priv->cpuhp_state = ret;
 981
 982        /* Register the pmu instance for cpu hotplug */
 983        ret = cpuhp_state_add_instance_nocalls(priv->cpuhp_state, &priv->node);
 984        if (ret)
 985                goto cpuhp_instance_err;
 986
 987        ret = fme_perf_pmu_register(pdev, priv);
 988        if (ret)
 989                goto pmu_register_err;
 990
 991        feature->priv = priv;
 992        return 0;
 993
 994pmu_register_err:
 995        cpuhp_state_remove_instance_nocalls(priv->cpuhp_state, &priv->node);
 996cpuhp_instance_err:
 997        cpuhp_remove_multi_state(priv->cpuhp_state);
 998        return ret;
 999}
1000
1001static void fme_perf_uinit(struct platform_device *pdev,
1002                           struct dfl_feature *feature)
1003{
1004        struct fme_perf_priv *priv = feature->priv;
1005
1006        fme_perf_pmu_unregister(priv);
1007        cpuhp_state_remove_instance_nocalls(priv->cpuhp_state, &priv->node);
1008        cpuhp_remove_multi_state(priv->cpuhp_state);
1009}
1010
1011const struct dfl_feature_id fme_perf_id_table[] = {
1012        {.id = FME_FEATURE_ID_GLOBAL_IPERF,},
1013        {.id = FME_FEATURE_ID_GLOBAL_DPERF,},
1014        {0,}
1015};
1016
1017const struct dfl_feature_ops fme_perf_ops = {
1018        .init = fme_perf_init,
1019        .uinit = fme_perf_uinit,
1020};
1021