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scopedperf.hh
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scopedperf.hh
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/*
* Canonical location:
* git+ssh://amsterdam.csail.mit.edu/home/am1/prof/proftools.git
* under spmc/lib/scopedperf.hh
*
* Modified by stephentu to disable for non C++11 builds
*/
#ifndef _SCOPED_PERF_H_
#define _SCOPED_PERF_H_
#ifdef USE_PERF_CTRS
#if !defined(XV6)
#include <iostream>
#include <iomanip>
#include <sstream>
#include <assert.h>
#include <string.h>
#include <stdint.h>
#include <sys/time.h>
#endif
namespace scopedperf {
#if defined(XV6)
typedef u32 uint;
typedef u64 uint64_t;
#endif
/*
* statically enable/disable most of the generated code for profiling.
*/
class default_enabler {
public:
bool enabled() const { return true; }
};
class always_enabled {
public:
bool enabled() const { return true; }
};
class always_disabled {
public:
bool enabled() const { return false; }
};
/*
* get CPU id function type
*/
typedef int(*getcpu_fn)(void);
/*
* spinlock: mostly to avoid pthread mutex sleeping.
*/
#if !defined(XV6_KERNEL)
class spinlock {
public:
spinlock() : x(0) {}
void acquire() {
while (!__sync_bool_compare_and_swap(&x, 0, 1))
;
}
void release() {
x = 0;
}
private:
volatile uint x;
};
#endif
#if defined(XV6_KERNEL)
using ::spinlock;
static inline int sched_getcpu() {
return mycpu()->id;
}
#endif
class scoped_spinlock {
public:
scoped_spinlock(spinlock *larg) : l(larg) {
l->acquire();
held = true;
}
void release() {
if (held)
l->release();
held = false;
}
~scoped_spinlock() { release(); }
private:
spinlock *const l;
bool held;
};
/*
* vector & pair: for portability.
*/
template<class A, class B>
struct pair {
A first;
B second;
};
template<class A, class B>
pair<A, B>
make_pair(const A &a, const B &b)
{
pair<A, B> p;
p.first = a;
p.second = b;
return p;
}
template<class T>
struct vector {
T _buf[128];
uint _cnt;
vector() : _cnt(0) {}
void insert_front(T e) {
assert(_cnt < sizeof(_buf) / sizeof(T));
memmove(&_buf[1], &_buf[0], _cnt * sizeof(T));
_buf[0] = e;
_cnt++;
}
void push_back(T e) {
assert(_cnt < sizeof(_buf) / sizeof(T));
_buf[_cnt] = e;
_cnt++;
}
};
template<class T>
struct viter {
const vector<T> *_v;
int _pos;
viter(const vector<T> *v, int pos) : _v(v), _pos(pos) {}
bool operator!=(const viter &other) const { return _pos != other._pos; }
void operator++() { _pos++; }
T operator*() { return _v->_buf[_pos]; }
};
template<class T>
viter<T>
begin(const vector<T> &v)
{
return viter<T>(&v, 0);
}
template<class T>
viter<T>
end(const vector<T> &v)
{
return viter<T>(&v, v._cnt);
}
/*
* fast log-base-2, for histograms.
*/
static const uint8_t log2table[256] = {
#define R2(x) x, x
#define R4(x) R2(x), R2(x)
#define R8(x) R4(x), R4(x)
#define R16(x) R8(x), R8(x)
#define R32(x) R16(x), R16(x)
#define R64(x) R32(x), R32(x)
#define R128(x) R64(x), R64(x)
0, 1, R2(2), R4(3), R8(4), R16(5), R32(6), R64(7), R128(8)
#undef R2
#undef R4
#undef R8
#undef R16
#undef R32
#undef R64
#undef R128
};
template<class T, int Nbits>
inline uintptr_t
log2r(T v)
{
if (Nbits == 8) {
return log2table[v];
} else {
T hi = v >> (Nbits/2);
if (hi)
return Nbits/2 + log2r<T, Nbits/2>(hi);
else
return log2r<T, Nbits/2>(v);
}
}
template<class T>
uintptr_t
log2(T v)
{
return log2r<T, sizeof(T)*8>(v);
}
/*
* ctrgroup: a group of performance counters.
*/
template<typename... Counters>
class ctrgroup_chain;
template<>
class ctrgroup_chain<> {
public:
ctrgroup_chain() {}
static const uint cg_nctr = 0;
void cg_get_samples(uint64_t *v) const {}
void cg_get_delta(uint64_t *delta, uint64_t *prev) const {}
vector<const char*> get_names() const { return {}; }
};
template<typename One, typename... Others>
class ctrgroup_chain<One, Others...> : ctrgroup_chain<Others...> {
public:
ctrgroup_chain(One *x, Others*... y)
: ctrgroup_chain<Others...>(y...), ctr(x)
{
x->setup();
}
static const uint cg_nctr = 1 + ctrgroup_chain<Others...>::cg_nctr;
void cg_get_samples(uint64_t *v) const {
v[0] = ctr->sample();
ctrgroup_chain<Others...>::cg_get_samples(v+1);
}
void cg_get_delta(uint64_t *delta, uint64_t *prev) const {
uint64_t x = ctr->sample();
*delta = (x - *prev) & ctr->mask;
*prev = x;
ctrgroup_chain<Others...>::cg_get_delta(delta+1, prev+1);
}
vector<const char*> get_names() const {
vector<const char*> v = ctrgroup_chain<Others...>::get_names();
v.insert_front(ctr->name);
return v;
}
private:
const One *const ctr;
};
template<typename... Counters>
ctrgroup_chain<Counters...>
ctrgroup(Counters*... args)
{
return ctrgroup_chain<Counters...>(args...);
}
/*
* perfsum: aggregating counter deltas across multiple CPUs.
*/
class perfsum_base {
public:
enum display_opt { show, hide };
perfsum_base(const char *n, display_opt d) : name(n), disp(d) {
scoped_spinlock x(get_sums_lock());
get_sums()->push_back(this);
}
static void printall(int w0 = 17, int w = 13) {
scoped_spinlock x(get_sums_lock());
auto sums = get_sums();
for (perfsum_base *ps: *sums)
if (ps->disp == show)
ps->print(w0, w);
}
static void resetall() {
scoped_spinlock x(get_sums_lock());
for (perfsum_base *ps: *get_sums())
ps->reset();
}
virtual void print(int w0, int w) const = 0;
virtual void reset() = 0;
protected:
template<class Row, class Callback>
static void print_row(const char *rowname, const Row &r,
int w0, int w, Callback f)
{
std::cout << std::left << std::setw(w0) << rowname;
for (const auto &elem: r)
std::cout << std::left << std::setw(w) << f(elem) << " ";
std::cout << std::endl;
}
const char *name;
const display_opt disp;
private:
static vector<perfsum_base*> *get_sums() {
static vector<perfsum_base*> v;
return &v;
}
static spinlock *get_sums_lock() {
static spinlock l;
return &l;
}
};
static inline void
compiler_barrier()
{
/* Avoid compile-time reordering across performance counter reads */
__asm __volatile("" ::: "memory");
}
template<typename Enabler, typename... Counters>
class perfsum_tmpl : public perfsum_base, public Enabler {
public:
perfsum_tmpl(const ctrgroup_chain<Counters...> *c,
const char *n, perfsum_base::display_opt d)
: perfsum_base(n, d), cg(c)
{
}
static const uint ps_nctr = ctrgroup_chain<Counters...>::cg_nctr;
protected:
const struct ctrgroup_chain<Counters...> *const cg;
enum { maxcpu = 256 };
template<class Stats, class T>
static uint64_t addcpus(const Stats stat[], T f) {
uint64_t tot = 0;
for (uint i = 0; i < maxcpu; i++)
tot += f(&stat[i]);
return tot;
}
};
/*
* perfsum_ctr: aggregate counts of performance events.
*/
template<typename Enabler, typename... Counters>
class perfsum_ctr : public perfsum_tmpl<Enabler, Counters...> {
public:
perfsum_ctr(const ctrgroup_chain<Counters...> *c,
const char *n, perfsum_base::display_opt d)
: perfsum_tmpl<Enabler, Counters...>(c, n, d), base(0)
{
reset();
}
perfsum_ctr(const char *n,
const perfsum_ctr<Enabler, Counters...> *basesum,
perfsum_base::display_opt d)
: perfsum_tmpl<Enabler, Counters...>(basesum->cg, n, d), base(basesum)
{
reset();
}
void get_samples(uint64_t *s) const {
compiler_barrier();
perfsum_tmpl<Enabler, Counters...>::cg->cg_get_samples(s);
compiler_barrier();
}
void record(uint cpuid, uint64_t *s) {
uint64_t delta[perfsum_tmpl<Enabler, Counters...>::ps_nctr];
compiler_barrier();
perfsum_tmpl<Enabler, Counters...>::cg->cg_get_delta(delta, s);
compiler_barrier();
for (uint i = 0; i < perfsum_tmpl<Enabler, Counters...>::ps_nctr; i++)
stat[cpuid].sum[i] += delta[i];
stat[cpuid].count++;
}
void print(int w0, int w) const /* override */ {
if (!Enabler::enabled())
return;
auto &cg = perfsum_tmpl<Enabler, Counters...>::cg;
vector<pair<uint64_t, uint64_t> > p;
for (uint i = 0; i < cg->cg_nctr; i++) {
uint64_t b =
base ? this->addcpus(base->stat, [&](const stats *s) { return s->sum[i]; })
: this->addcpus(stat, [&](const stats *s) { return s->count; });
p.push_back(make_pair(b,
this->addcpus(stat, [i](const stats *s) { return s->sum[i]; })));
}
this->print_row(perfsum_base::name, cg->get_names(), w0, w, [](const char *name)
{ return name; });
this->print_row(" avg", p, w0, w, [](const pair<uint64_t, uint64_t> &e)
#if !defined(XV6)
{ return ((double) e.second) / (double) e.first; }
#else
{ return e.second / e.first; }
#endif
);
this->print_row(" total", p, w0, w, [](const pair<uint64_t, uint64_t> &e)
{ return e.second; });
this->print_row(" count", p, w0, w, [](const pair<uint64_t, uint64_t> &e)
{ return e.first; });
}
void reset() /* override */ {
memset(stat, 0, sizeof(stat));
}
private:
struct stats {
uint64_t count;
uint64_t sum[perfsum_tmpl<Enabler, Counters...>::ps_nctr];
} __attribute__((aligned (64)));
struct stats stat[perfsum_tmpl<Enabler, Counters...>::maxcpu];
const struct perfsum_ctr<Enabler, Counters...> *const base;
};
template<typename Enabler, typename... Counters>
class perfsum_ctr_inlinegroup :
public ctrgroup_chain<Counters...>,
public perfsum_ctr<Enabler, Counters...>
{
public:
perfsum_ctr_inlinegroup(const char *n, perfsum_base::display_opt d,
Counters*... ctrs)
: ctrgroup_chain<Counters...>(ctrs...),
perfsum_ctr<Enabler, Counters...>(this, n, d) {}
};
template<typename Enabler = default_enabler, typename... Counters>
perfsum_ctr<Enabler, Counters...>
perfsum(const char *name, const ctrgroup_chain<Counters...> *c,
const perfsum_base::display_opt d = perfsum_base::show)
{
return perfsum_ctr<Enabler, Counters...>(c, name, d);
}
template<typename Enabler = default_enabler, typename... Counters>
perfsum_ctr_inlinegroup<Enabler, Counters...>
perfsum_group(const char *name, Counters*... c)
{
return perfsum_ctr_inlinegroup<Enabler, Counters...>(name, perfsum_base::show, c...);
}
template<typename Enabler, typename... Counters>
perfsum_ctr<Enabler, Counters...>
perfsum_frac(const char *name,
const perfsum_ctr<Enabler, Counters...> *base)
{
return perfsum_ctr<Enabler, Counters...>(name, base, perfsum_base::show);
}
/*
* perfsum_hist: histogram-based aggregates.
*/
template<typename Enabler, typename... Counters>
class perfsum_hist_tmpl : public perfsum_tmpl<Enabler, Counters...> {
public:
perfsum_hist_tmpl(const ctrgroup_chain<Counters...> *c,
const char *n, perfsum_base::display_opt d)
: perfsum_tmpl<Enabler, Counters...>(c, n, d)
{
reset();
}
void get_samples(uint64_t *s) const {
compiler_barrier();
perfsum_tmpl<Enabler, Counters...>::cg->cg_get_samples(s);
compiler_barrier();
}
void record(uint cpuid, uint64_t *s) {
uint64_t delta[perfsum_tmpl<Enabler, Counters...>::ps_nctr];
compiler_barrier();
perfsum_tmpl<Enabler, Counters...>::cg->cg_get_delta(delta, s);
compiler_barrier();
for (uint i = 0; i < perfsum_tmpl<Enabler, Counters...>::ps_nctr; i++)
stat[cpuid].hist[i].count[log2(delta[i])]++;
}
void print(int w0, int w) const /* override */ {
if (!Enabler::enabled())
return;
uint first = nbuckets, last = 0;
auto &cg = perfsum_tmpl<Enabler, Counters...>::cg;
vector<buckets> p;
for (uint i = 0; i < cg->cg_nctr; i++) {
buckets v;
for (uint j = 0; j < nbuckets; j++) {
v.count[j] = this->addcpus(stat, [&](const stats *s) { return s->hist[i].count[j]; });
if (v.count[j]) {
if (j < first) first = j;
if (j > last) last = j;
}
}
p.push_back(v);
}
this->print_row(perfsum_base::name, cg->get_names(), w0, w, [](const char *name)
{ return name; });
for (uint i = first; i <= last; i++) {
char n[64];
snprintf(n, sizeof(n), " < 2^%d", i);
this->print_row(n, p, w0, w, [&](const buckets &b) { return b.count[i]; });
}
this->print_row(" total", p, w0, w, [](const buckets &b)
{ uint64_t s = 0; for (auto x: b.count) s += x; return s; });
}
void reset() /* override */ {
memset(stat, 0, sizeof(stat));
}
private:
enum { nbuckets = sizeof(uint64_t)*8 + 1 };
struct buckets {
uint64_t count[nbuckets];
};
struct stats {
struct buckets hist[perfsum_tmpl<Enabler, Counters...>::ps_nctr];
} __attribute__((aligned (64)));
struct stats stat[perfsum_tmpl<Enabler, Counters...>::maxcpu];
};
template<typename Enabler = default_enabler, typename... Counters>
perfsum_hist_tmpl<Enabler, Counters...>
perfsum_hist(const char *name, const ctrgroup_chain<Counters...> *c,
const perfsum_base::display_opt d = perfsum_base::show)
{
return perfsum_hist_tmpl<Enabler, Counters...>(c, name, d);
}
/*
* namedctr &c: actual counter implementations.
*/
template<uint64_t CounterWidth>
class namedctr {
public:
namedctr(const char *n) : name(n) {}
void setup() {}
const char *name;
static const uint64_t mask =
((1ULL << (CounterWidth - 1)) - 1) << 1 | 1;
};
class tsc_ctr : public namedctr<64> {
public:
tsc_ctr() : namedctr("tsc") {}
static uint64_t sample() {
uint64_t a, d;
__asm __volatile("rdtsc" : "=a" (a), "=d" (d));
return a | (d << 32);
}
};
class tscp_ctr : public namedctr<64> {
public:
tscp_ctr() : namedctr("tscp") {}
static uint64_t sample() {
uint64_t a, d, c;
__asm __volatile("rdtscp" : "=a" (a), "=d" (d), "=c" (c));
return a | (d << 32);
}
};
template<uint64_t CounterWidth>
class pmc_ctr : public namedctr<CounterWidth> {
public:
pmc_ctr(int n) : namedctr<CounterWidth>(mkname(n)), cn(n) {}
pmc_ctr(const char *nm) : namedctr<CounterWidth>(nm), cn(-1) {}
uint64_t sample() const {
uint64_t a, d;
__asm __volatile("rdpmc" : "=a" (a), "=d" (d) : "c" (cn));
return a | (d << 32);
}
int cn;
private:
static const char* mkname(int n) {
char *buf = new char[32];
snprintf(buf, 32, "pmc%d", n);
return buf;
}
};
template<uint64_t CounterWidth = 64>
class pmc_setup : public pmc_ctr<CounterWidth> {
public:
pmc_setup(uint64_t v, const char *nm)
: pmc_ctr<CounterWidth>(nm), pmc_v(v) {}
void setup() {
if (pmc_ctr<CounterWidth>::cn >= 0)
return;
/*
* XXX detect how many counters the hardware has
*/
static bool pmcuse[4];
static spinlock pmcuselock;
int n = 0;
scoped_spinlock x(&pmcuselock);
while (n < 4 && pmcuse[n])
n++;
assert(n < 4);
pmcuse[n] = true;
x.release();
#if !defined(XV6)
// ugly but effective
std::stringstream ss;
ss << "for f in /sys/kernel/spmc/cpu*/" << n << "; do "
<< "echo " << std::hex << pmc_v << " > $f; done";
assert(0 == system(ss.str().c_str()));
#endif
pmc_ctr<CounterWidth>::cn = n;
}
private:
uint64_t pmc_v;
};
#if !defined(XV6)
class tod_ctr : public namedctr<64> {
public:
tod_ctr() : namedctr("tod-usec") {}
uint64_t sample() const {
struct timeval tv;
gettimeofday(&tv, 0);
return ((uint64_t) tv.tv_usec) + ((uint64_t) tv.tv_sec) * 1000000;
}
};
#endif
class zero_ctr : public namedctr<64> {
public:
zero_ctr() : namedctr("zero") {}
uint64_t sample() const { return 0; }
};
/*
* scoped performance-counting regions, which record samples into a perfsum.
*/
template<typename Perfsum>
class base_perf_region {
public:
base_perf_region(Perfsum *psarg, getcpu_fn getcpu)
: ps(psarg), enabled(ps->enabled()), cpuid(enabled ? getcpu() : 0)
{
if (enabled)
ps->get_samples(s);
}
// invoke lap multiple times to precisely measure iterations
// (use same measurement for end of one & start of next round)
void lap() {
if (enabled)
ps->record(cpuid, s);
}
private:
Perfsum *const ps;
const bool enabled;
const uint cpuid;
uint64_t s[Perfsum::ps_nctr];
};
template<typename Perfsum>
class scoped_perf_region : public base_perf_region<Perfsum> {
public:
scoped_perf_region(Perfsum *psarg, getcpu_fn getcpu)
: base_perf_region<Perfsum>(psarg, getcpu) {}
~scoped_perf_region() { base_perf_region<Perfsum>::lap(); }
};
template<typename Perfsum>
class killable_perf_region : public base_perf_region<Perfsum> {
public:
killable_perf_region(Perfsum *psarg, getcpu_fn getcpu)
: base_perf_region<Perfsum>(psarg, getcpu), active(true) {}
~killable_perf_region() { stop(); }
// perform a final measurement, if needed before destructor
void stop() {
if (active)
base_perf_region<Perfsum>::lap();
active = false;
}
// prevent destructor from performing a measurement
void kill() { active = false; }
private:
bool active;
};
template<typename Perfsum>
scoped_perf_region<Perfsum>
perf_region(Perfsum *ps, getcpu_fn getcpu = sched_getcpu)
{
return scoped_perf_region<Perfsum>(ps, getcpu);
}
template<typename Perfsum>
killable_perf_region<Perfsum>
killable_region(Perfsum *ps, getcpu_fn getcpu = sched_getcpu)
{
return killable_perf_region<Perfsum>(ps, getcpu);
}
/*
* macros for the common case of putting in a scoped perf-counting region.
*/
#define __PERF_CONCAT2(a, b) a ## b
#define __PERF_CONCAT(a, b) __PERF_CONCAT2(a, b)
#define __PERF_ANON __PERF_CONCAT(__anon_id_, __COUNTER__)
#define __PERF_REGION(region_var, sum_var, region_type, text, group) \
static auto __PERF_CONCAT(sum_var, _sum) = scopedperf::perfsum(text, group); \
auto region_var = region_type(&__PERF_CONCAT(sum_var, _sum));
#define ANON_REGION(text, group) \
__PERF_REGION(__PERF_ANON, __PERF_ANON, scopedperf::perf_region, text, group)
#define PERF_REGION(var, text, group) \
__PERF_REGION(var, __PERF_ANON, scopedperf::perf_region, text, group)
#define KILLABLE_REGION(var, text, group) \
__PERF_REGION(var, __PERF_ANON, scopedperf::killable_region, text, group)
#define STATIC_COUNTER_DECL(ctrtype, ctrname, groupname) \
static ctrtype ctrname; \
static ::scopedperf::ctrgroup_chain< ctrtype > groupname(&ctrname);
#define PERF_EXPR(expr) expr
#define PERF_DECL(decl) decl
#define CLASS_STATIC_COUNTER_DECL(ctrtype, ctrname, groupname) \
static ctrtype ctrname; \
static ::scopedperf::ctrgroup_chain< ctrtype > groupname;
#define CLASS_STATIC_COUNTER_IMPL(clsname, ctrtype, ctrname, groupname) \
ctrtype clsname::ctrname; \
::scopedperf::ctrgroup_chain< ctrtype > clsname::groupname(&ctrname) ;
} /* namespace scopedperf */
#else /* !USE_PERF_CTRS */
#define ANON_REGION(text, group) ((void)0)
#define PERF_REGION(var, text, group) ((void)0)
#define KILLABLE_REGION(var, text, group) ((void)0)
#define STATIC_COUNTER_DECL(ctrtype, ctrname, groupname)
#define PERF_EXPR(expr) ((void)0)
#define PERF_DECL(decl)
#define CLASS_STATIC_COUNTER_DECL(ctrtype, ctrname, groupname)
#define CLASS_STATIC_COUNTER_IMPL(clsname, ctrtype, ctrname, groupname)
#endif /* USE_PERF_CTRS */
#endif /* _SCOPED_PERF_H_ */