/* +----------------------------------------------------------------------+ | HipHop for PHP | +----------------------------------------------------------------------+ | Copyright (c) 2010-2013 Facebook, Inc. (http://www.facebook.com) | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ */ #include "hphp/util/stacktrace_profiler.h" #include "hphp/util/stack_trace.h" #include #include namespace HPHP { const bool enabled = getenv("STACKTRACE_PROFILER") != nullptr; const int kMaxDepth = 10; StackTraceProfiler::StackTraceProfiler(std::string name, int skip) : m_name(name), finishing(false), m_root(nullptr), m_skip(skip) { } // Make a new caller node and link it into n's caller list. StackTraceProfiler::Node* StackTraceProfiler::makeCaller(Node* n, void* addr) { Node* caller = new (m_arena) Node(addr); caller->next = n->callers; n->callers = caller; return caller; } // find a caller node with the given address, or make a new one. // The new node is placed or moved to the front of n's caller list, // in the hopes that the next search on n will be the same addr. StackTraceProfiler::Node* StackTraceProfiler::findCaller(Node* n, void* addr) { if (Node* caller = n->callers) { if (caller->addr == addr) return caller; Node** prev = &caller->next; caller = caller->next; while (caller) { if (caller->addr == addr) { *prev = caller->next; caller->next = n->callers; return n->callers = caller; } prev = &caller->next; caller = caller->next; } } return makeCaller(n, addr); } void StackTraceProfiler::count() { if (!enabled || finishing) return; void* addrs[kMaxDepth]; auto count = backtrace(addrs, kMaxDepth); if (count <= 0) return; std::lock_guard lock(m_mutex); m_root.hits++; Node* node = &m_root; for (int i = m_skip; i < count; i++) { Node* caller = findCaller(node, addrs[i]); caller->hits++; node = caller; } } bool StackTraceProfiler::compareNodes(Node* a, Node* b) { return a->hits > b->hits; } int StackTraceProfiler::numLeaves(Node* n) { if (!n->callers) return 1; int count = 0; for (Node* c = n->callers; c; c = c->next) count += numLeaves(c); return count; } void StackTraceProfiler::print(Node* n, std::string indent) { fprintf(stderr, "%s%lu ", indent.c_str(), n->hits); if (n->addr) { std::string s = StackTrace::Translate(n->addr)->toString(); fprintf(stderr, "%s\n", s.c_str()); } else { fprintf(stderr, "%s\n", m_name.c_str()); } if (numLeaves(n) <= 1) return; indent += " "; std::vector v; for (Node* caller = n->callers; caller; caller = caller->next) { v.push_back(caller); } std::sort(v.begin(), v.end(), compareNodes); for (auto i : v) { if (i->hits > n->hits / 100.0) print(i, indent); } } StackTraceProfiler::~StackTraceProfiler() { if (!enabled) return; finishing = true; print(&m_root, ""); } BoolProfiler::BoolProfiler(std::string name) : name(name) , p1(name + "=true", 2) , p0(name + "=false", 2) {} BoolProfiler::~BoolProfiler() { if (!enabled) return; auto total = p0.hits() + p1.hits(); if (total) { fprintf(stderr, "%s: total=%lu false=%.1f%% true=%.1f%%\n", name.c_str(), total, 100.0 * p0.hits() / total, 100.0 * p1.hits() / total); } } bool BoolProfiler::operator()(bool b) { (b ? &p1 : &p0)->count(); return b; } IntProfiler::IntProfiler(std::string name) : name(name) , pN(name + ">=65", 2) , p64(name + "=33-64", 2) , p32(name + "=17-32", 2) , p16(name + "=9-16", 2) , p8(name + "=5-8", 2) , p4(name + "=3-4", 2) , p2(name + "=2", 2) , p1(name + "=1", 2) , p0(name + "=0", 2) {} IntProfiler::~IntProfiler() { if (!enabled) return; auto total = p0.hits() + p1.hits() + p2.hits() + p4.hits() + p8.hits() + p16.hits() + p32.hits() + p64.hits() + pN.hits(); if (total) { fprintf(stderr, "%s: total=%lu 0=%.1f%% 1=%.1f%% 2=%.1f%% " "3-4=%.1f%% 5-8=%.1f%% 9-16=%.1f%% 17-32=%.1f%% 33-64=%.1f%% " "65+=%.1f%%\n", name.c_str(), total, 100.0 * p0.hits() / total, 100.0 * p1.hits() / total, 100.0 * p2.hits() / total, 100.0 * p4.hits() / total, 100.0 * p8.hits() / total, 100.0 * p16.hits() / total, 100.0 * p32.hits() / total, 100.0 * p64.hits() / total, 100.0 * pN.hits() / total); } } void IntProfiler::operator()(unsigned i) { (i == 0 ? &p0 : i == 1 ? &p1 : i == 2 ? &p2 : i <= 4 ? &p4 : i <= 8 ? &p8 : i <= 16 ? &p16 : i <= 32 ? &p32 : i <= 64 ? &p64 : &pN)->count(); } }