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/**
* Copyright (C) ARM Limited 2013-2015. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#include "PerfDriver.h"
#include <dirent.h>
#include <sys/utsname.h>
#include <time.h>
#include <unistd.h>
#include "Buffer.h"
#include "Config.h"
#include "ConfigurationXML.h"
#include "Counter.h"
#include "DriverSource.h"
#include "DynBuf.h"
#include "Logging.h"
#include "PerfGroup.h"
#include "Proc.h"
#include "SessionData.h"
#define PERF_DEVICES "/sys/bus/event_source/devices"
#define TYPE_DERIVED ~0U
class PerfCounter : public DriverCounter {
public:
PerfCounter(DriverCounter *next, const char *name, uint32_t type, uint64_t config, uint64_t sampleType, uint64_t flags, const int count) : DriverCounter(next, name), mType(type), mConfig(config), mSampleType(sampleType), mFlags(flags), mCount(count) {}
~PerfCounter() {
}
uint32_t getType() const { return mType; }
int getCount() const { return mCount; }
void setCount(const int count) { mCount = count; }
uint64_t getConfig() const { return mConfig; }
void setConfig(const uint64_t config) { mConfig = config; }
uint64_t getSampleType() const { return mSampleType; }
void setSampleType(uint64_t sampleType) { mSampleType = sampleType; }
uint64_t getFlags() const { return mFlags; }
virtual void read(Buffer *const, const int) {}
private:
const uint32_t mType;
uint64_t mConfig;
uint64_t mSampleType;
const uint64_t mFlags;
int mCount;
// Intentionally undefined
PerfCounter(const PerfCounter &);
PerfCounter &operator=(const PerfCounter &);
};
class CPUFreqDriver : public PerfCounter {
public:
CPUFreqDriver(DriverCounter *next, uint64_t id) : PerfCounter(next, strdup("Linux_power_cpu_freq"), PERF_TYPE_TRACEPOINT, id, PERF_SAMPLE_RAW, PERF_GROUP_LEADER | PERF_GROUP_PER_CPU, 1) {}
void read(Buffer *const buffer, const int cpu) {
char buf[64];
snprintf(buf, sizeof(buf), "/sys/devices/system/cpu/cpu%i/cpufreq/cpuinfo_cur_freq", cpu);
int64_t freq;
if (DriverSource::readInt64Driver(buf, &freq) != 0) {
freq = 0;
}
buffer->perfCounter(cpu, getKey(), 1000*freq);
}
private:
// Intentionally undefined
CPUFreqDriver(const CPUFreqDriver &);
CPUFreqDriver &operator=(const CPUFreqDriver &);
};
PerfDriver::PerfDriver() : mIsSetup(false), mLegacySupport(false) {
}
PerfDriver::~PerfDriver() {
}
class PerfTracepoint {
public:
PerfTracepoint(PerfTracepoint *const next, const DriverCounter *const counter, const char *const tracepoint) : mNext(next), mCounter(counter), mTracepoint(tracepoint) {}
PerfTracepoint *getNext() const { return mNext; }
const DriverCounter *getCounter() const { return mCounter; }
const char *getTracepoint() const { return mTracepoint; }
private:
PerfTracepoint *const mNext;
const DriverCounter *const mCounter;
const char *const mTracepoint;
// Intentionally undefined
PerfTracepoint(const PerfTracepoint &);
PerfTracepoint &operator=(const PerfTracepoint &);
};
void PerfDriver::addCpuCounters(const char *const counterName, const int type, const int numCounters) {
int len = snprintf(NULL, 0, "%s_ccnt", counterName) + 1;
char *name = new char[len];
snprintf(name, len, "%s_ccnt", counterName);
setCounters(new PerfCounter(getCounters(), name, type, -1, PERF_SAMPLE_READ, PERF_GROUP_PER_CPU | PERF_GROUP_CPU, 0));
for (int j = 0; j < numCounters; ++j) {
len = snprintf(NULL, 0, "%s_cnt%d", counterName, j) + 1;
name = new char[len];
snprintf(name, len, "%s_cnt%d", counterName, j);
setCounters(new PerfCounter(getCounters(), name, type, -1, PERF_SAMPLE_READ, PERF_GROUP_PER_CPU | PERF_GROUP_CPU, 0));
}
}
void PerfDriver::addUncoreCounters(const char *const counterName, const int type, const int numCounters, const bool hasCyclesCounter) {
int len;
char *name;
if (hasCyclesCounter) {
len = snprintf(NULL, 0, "%s_ccnt", counterName) + 1;
name = new char[len];
snprintf(name, len, "%s_ccnt", counterName);
setCounters(new PerfCounter(getCounters(), name, type, -1, PERF_SAMPLE_READ, 0, 0));
}
for (int j = 0; j < numCounters; ++j) {
len = snprintf(NULL, 0, "%s_cnt%d", counterName, j) + 1;
name = new char[len];
snprintf(name, len, "%s_cnt%d", counterName, j);
setCounters(new PerfCounter(getCounters(), name, type, -1, PERF_SAMPLE_READ, 0, 0));
}
}
long long PerfDriver::getTracepointId(const char *const counter, const char *const name, DynBuf *const printb) {
long long result = PerfDriver::getTracepointId(name, printb);
if (result <= 0) {
logg.logSetup("%s Disabled\n%s was not found", counter, printb->getBuf());
}
return result;
}
void PerfDriver::readEvents(mxml_node_t *const xml) {
mxml_node_t *node = xml;
DynBuf printb;
// Only for use with perf
if (!isSetup()) {
return;
}
while (true) {
node = mxmlFindElement(node, xml, "event", NULL, NULL, MXML_DESCEND);
if (node == NULL) {
break;
}
const char *counter = mxmlElementGetAttr(node, "counter");
if (counter == NULL) {
continue;
}
if (strncmp(counter, "ftrace_", 7) != 0) {
continue;
}
const char *tracepoint = mxmlElementGetAttr(node, "tracepoint");
if (tracepoint == NULL) {
const char *regex = mxmlElementGetAttr(node, "regex");
if (regex == NULL) {
logg.logError("The tracepoint counter %s is missing the required tracepoint attribute", counter);
handleException();
} else {
logg.logMessage("Not using perf for counter %s", counter);
continue;
}
}
const char *arg = mxmlElementGetAttr(node, "arg");
long long id = getTracepointId(counter, tracepoint, &printb);
if (id >= 0) {
logg.logMessage("Using perf for %s", counter);
setCounters(new PerfCounter(getCounters(), strdup(counter), PERF_TYPE_TRACEPOINT, id, arg == NULL ? 0 : PERF_SAMPLE_RAW, PERF_GROUP_LEADER | PERF_GROUP_PER_CPU, 1));
mTracepoints = new PerfTracepoint(mTracepoints, getCounters(), strdup(tracepoint));
}
}
}
bool PerfDriver::setup() {
// Check the kernel version
int release[3];
if (!getLinuxVersion(release)) {
logg.logMessage("getLinuxVersion failed");
return false;
}
const int kernelVersion = KERNEL_VERSION(release[0], release[1], release[2]);
if (kernelVersion < KERNEL_VERSION(3, 4, 0)) {
logg.logSetup("Unsupported kernel version\nPlease upgrade to 3.4 or later");
return false;
}
mLegacySupport = kernelVersion < KERNEL_VERSION(3, 12, 0);
mClockidSupport = kernelVersion >= KERNEL_VERSION(4, 2, 0);
if (access(EVENTS_PATH, R_OK) != 0) {
logg.logSetup(EVENTS_PATH " does not exist\nIs CONFIG_TRACING and CONFIG_CONTEXT_SWITCH_TRACER enabled?");
return false;
}
// Add supported PMUs
bool foundCpu = false;
DIR *dir = opendir(PERF_DEVICES);
if (dir == NULL) {
logg.logMessage("opendir failed");
return false;
}
struct dirent *dirent;
while ((dirent = readdir(dir)) != NULL) {
logg.logMessage("perf pmu: %s", dirent->d_name);
GatorCpu *gatorCpu = GatorCpu::find(dirent->d_name);
if (gatorCpu != NULL) {
int type;
char buf[256];
snprintf(buf, sizeof(buf), PERF_DEVICES "/%s/type", dirent->d_name);
if (DriverSource::readIntDriver(buf, &type) == 0) {
foundCpu = true;
logg.logMessage("Adding cpu counters for %s with type %i", gatorCpu->getCoreName(), type);
addCpuCounters(gatorCpu->getPmncName(), type, gatorCpu->getPmncCounters());
continue;
}
}
UncorePmu *uncorePmu = UncorePmu::find(dirent->d_name);
if (uncorePmu != NULL) {
int type;
char buf[256];
snprintf(buf, sizeof(buf), PERF_DEVICES "/%s/type", dirent->d_name);
if (DriverSource::readIntDriver(buf, &type) == 0) {
logg.logMessage("Adding uncore counters for %s with type %i", uncorePmu->getCoreName(), type);
addUncoreCounters(uncorePmu->getCoreName(), type, uncorePmu->getPmncCounters(), uncorePmu->getHasCyclesCounter());
continue;
}
}
}
closedir(dir);
if (!foundCpu) {
GatorCpu *gatorCpu = GatorCpu::find(gSessionData.mMaxCpuId);
if (gatorCpu != NULL) {
foundCpu = true;
logg.logMessage("Adding cpu counters (based on cpuid) for %s", gatorCpu->getCoreName());
addCpuCounters(gatorCpu->getPmncName(), PERF_TYPE_RAW, gatorCpu->getPmncCounters());
}
}
if (!foundCpu) {
logCpuNotFound();
#if defined(__arm__) || defined(__aarch64__)
addCpuCounters("Other", PERF_TYPE_RAW, 6);
#endif
}
// Add supported software counters
long long id;
DynBuf printb;
id = getTracepointId("Linux_irq_softirq", "irq/softirq_exit", &printb);
if (id >= 0) {
setCounters(new PerfCounter(getCounters(), strdup("Linux_irq_softirq"), PERF_TYPE_TRACEPOINT, id, PERF_SAMPLE_READ, PERF_GROUP_PER_CPU | PERF_GROUP_CPU, 0));
}
id = getTracepointId("Linux_irq_irq", "irq/irq_handler_exit", &printb);
if (id >= 0) {
setCounters(new PerfCounter(getCounters(), strdup("Linux_irq_irq"), PERF_TYPE_TRACEPOINT, id, PERF_SAMPLE_READ, PERF_GROUP_PER_CPU | PERF_GROUP_CPU, 0));
}
id = getTracepointId("Linux_sched_switch", SCHED_SWITCH, &printb);
if (id >= 0) {
setCounters(new PerfCounter(getCounters(), strdup("Linux_sched_switch"), PERF_TYPE_TRACEPOINT, id, PERF_SAMPLE_READ, PERF_GROUP_PER_CPU | PERF_GROUP_CPU, 0));
}
id = getTracepointId("Linux_power_cpu_freq", CPU_FREQUENCY, &printb);
if (id >= 0 && access("/sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq", R_OK) == 0) {
setCounters(new CPUFreqDriver(getCounters(), id));
}
setCounters(new PerfCounter(getCounters(), strdup("Linux_cpu_wait_contention"), TYPE_DERIVED, -1, 0, 0, 0));
setCounters(new PerfCounter(getCounters(), strdup("Linux_cpu_system"), TYPE_DERIVED, -1, 0, 0, 0));
setCounters(new PerfCounter(getCounters(), strdup("Linux_cpu_user"), TYPE_DERIVED, -1, 0, 0, 0));
//Linux_cpu_wait_io
mIsSetup = true;
return true;
}
void logCpuNotFound() {
#if defined(__arm__) || defined(__aarch64__)
logg.logSetup("CPU is not recognized\nUsing the ARM architected counters");
#else
logg.logSetup("CPU is not recognized\nOmitting CPU counters");
#endif
}
bool PerfDriver::summary(Buffer *const buffer) {
struct utsname utsname;
if (uname(&utsname) != 0) {
logg.logMessage("uname failed");
return false;
}
char buf[512];
snprintf(buf, sizeof(buf), "%s %s %s %s %s GNU/Linux", utsname.sysname, utsname.nodename, utsname.release, utsname.version, utsname.machine);
long pageSize = sysconf(_SC_PAGESIZE);
if (pageSize < 0) {
logg.logMessage("sysconf _SC_PAGESIZE failed");
return false;
}
struct timespec ts;
if (clock_gettime(CLOCK_REALTIME, &ts) != 0) {
logg.logMessage("clock_gettime failed");
return false;
}
const int64_t timestamp = (int64_t)ts.tv_sec * NS_PER_S + ts.tv_nsec;
const uint64_t monotonicStarted = getTime();
gSessionData.mMonotonicStarted = monotonicStarted;
const uint64_t currTime = 0;//getTime() - gSessionData.mMonotonicStarted;
buffer->summary(currTime, timestamp, monotonicStarted, monotonicStarted, buf, pageSize, getClockidSupport());
for (int i = 0; i < gSessionData.mCores; ++i) {
coreName(currTime, buffer, i);
}
buffer->commit(currTime);
return true;
}
void PerfDriver::coreName(const uint64_t currTime, Buffer *const buffer, const int cpu) {
const SharedData *const sharedData = gSessionData.mSharedData;
// Don't send information on a cpu we know nothing about
if (sharedData->mCpuIds[cpu] == -1) {
return;
}
GatorCpu *gatorCpu = GatorCpu::find(sharedData->mCpuIds[cpu]);
if (gatorCpu != NULL && gatorCpu->getCpuid() == sharedData->mCpuIds[cpu]) {
buffer->coreName(currTime, cpu, sharedData->mCpuIds[cpu], gatorCpu->getCoreName());
} else {
char buf[32];
if (sharedData->mCpuIds[cpu] == -1) {
snprintf(buf, sizeof(buf), "Unknown");
} else {
snprintf(buf, sizeof(buf), "Unknown (0x%.3x)", sharedData->mCpuIds[cpu]);
}
buffer->coreName(currTime, cpu, sharedData->mCpuIds[cpu], buf);
}
}
void PerfDriver::setupCounter(Counter &counter) {
PerfCounter *const perfCounter = static_cast<PerfCounter *>(findCounter(counter));
if (perfCounter == NULL) {
counter.setEnabled(false);
return;
}
// Don't use the config from counters XML if it's not set, ex: software counters
if (counter.getEvent() != -1) {
perfCounter->setConfig(counter.getEvent());
}
if (counter.getCount() > 0) {
// EBS
perfCounter->setCount(counter.getCount());
// Collect samples
perfCounter->setSampleType(perfCounter->getSampleType() | PERF_SAMPLE_TID | PERF_SAMPLE_IP);
}
perfCounter->setEnabled(true);
counter.setKey(perfCounter->getKey());
}
bool PerfDriver::enable(const uint64_t currTime, PerfGroup *const group, Buffer *const buffer) const {
for (PerfCounter *counter = static_cast<PerfCounter *>(getCounters()); counter != NULL; counter = static_cast<PerfCounter *>(counter->getNext())) {
if (counter->isEnabled() && (counter->getType() != TYPE_DERIVED) &&
!group->add(currTime, buffer, counter->getKey(), counter->getType(), counter->getConfig(), counter->getCount(), counter->getSampleType(), counter->getFlags())) {
logg.logMessage("PerfGroup::add failed");
return false;
}
}
return true;
}
void PerfDriver::read(Buffer *const buffer, const int cpu) {
for (PerfCounter *counter = static_cast<PerfCounter *>(getCounters()); counter != NULL; counter = static_cast<PerfCounter *>(counter->getNext())) {
if (!counter->isEnabled()) {
continue;
}
counter->read(buffer, cpu);
}
}
bool PerfDriver::sendTracepointFormats(const uint64_t currTime, Buffer *const buffer, DynBuf *const printb, DynBuf *const b) {
if (
!readTracepointFormat(currTime, buffer, SCHED_SWITCH, printb, b) ||
!readTracepointFormat(currTime, buffer, CPU_IDLE, printb, b) ||
!readTracepointFormat(currTime, buffer, CPU_FREQUENCY, printb, b) ||
false) {
return false;
}
for (PerfTracepoint *tracepoint = mTracepoints; tracepoint != NULL; tracepoint = tracepoint->getNext()) {
if (tracepoint->getCounter()->isEnabled() && !readTracepointFormat(currTime, buffer, tracepoint->getTracepoint(), printb, b)) {
return false;
}
}
return true;
}
long long PerfDriver::getTracepointId(const char *const name, DynBuf *const printb) {
if (!printb->printf(EVENTS_PATH "/%s/id", name)) {
logg.logMessage("DynBuf::printf failed");
return -1;
}
int64_t result;
if (DriverSource::readInt64Driver(printb->getBuf(), &result) != 0) {
logg.logMessage("Unable to read tracepoint id for %s", printb->getBuf());
return -1;
}
return result;
}
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