#include #include #include #include #include #include "trace_reader.h" #include "parse_options.h" #include "opcode.h" const int kMillion = 1000000; const int kMHz = 200 * kMillion; struct symbol { int numCalls; // number of times this function is called }; typedef TraceReader TraceReaderType; #include "parse_options-inl.h" #include "callstack.h" class MyFrame : public StackFrame { public: void push(int stackLevel, uint64_t time, CallStackBase *base) { function->numCalls += 1; } void pop(int stackLevel, uint64_t time, CallStackBase *base) { } }; typedef CallStack CallStackType; static const int kNumStackFrames = 500; static const int kMaxThreads = (32 * 1024); CallStackType *stacks[kMaxThreads]; // This comparison function is called from qsort() to sort symbols // into decreasing number of calls. int cmp_sym_calls(const void *a, const void *b) { const symbol_type *syma, *symb; uint64_t calls1, calls2; syma = static_cast(a); symb = static_cast(b); calls1 = syma->numCalls; calls2 = symb->numCalls; if (calls1 < calls2) return 1; if (calls1 == calls2) { int cmp = strcmp(syma->name, symb->name); if (cmp == 0) cmp = strcmp(syma->region->path, symb->region->path); return cmp; } return -1; } // This comparison function is called from qsort() to sort symbols // into alphabetical order. int cmp_sym_names(const void *a, const void *b) { const symbol_type *syma, *symb; syma = static_cast(a); symb = static_cast(b); int cmp = strcmp(syma->region->path, symb->region->path); if (cmp == 0) cmp = strcmp(syma->name, symb->name); return cmp; } void Usage(const char *program) { fprintf(stderr, "Usage: %s [options] trace_file elf_file\n", program); OptionsUsage(); } int main(int argc, char **argv) { ParseOptions(argc, argv); if (argc - optind != 2) { Usage(argv[0]); exit(1); } char *trace_filename = argv[optind++]; char *elf_file = argv[optind++]; TraceReader *trace = new TraceReader; trace->Open(trace_filename); trace->SetDemangle(demangle); trace->ReadKernelSymbols(elf_file); trace->SetRoot(root); BBEvent event; while (1) { BBEvent ignored; symbol_type *function; if (GetNextValidEvent(trace, &event, &ignored, &function)) break; if (event.bb_num == 0) break; // Get the stack for the current thread CallStackType *pStack = stacks[event.pid]; // If the stack does not exist, then allocate a new one. if (pStack == NULL) { pStack = new CallStackType(event.pid, kNumStackFrames, trace); stacks[event.pid] = pStack; } // Update the stack pStack->updateStack(&event, function); } for (int ii = 0; ii < kMaxThreads; ++ii) { if (stacks[ii]) stacks[ii]->popAll(event.time); } int nsyms; symbol_type *syms = trace->GetSymbols(&nsyms); // Sort the symbols into decreasing number of calls qsort(syms, nsyms, sizeof(symbol_type), cmp_sym_names); symbol_type *psym = syms; for (int ii = 0; ii < nsyms; ++ii, ++psym) { // Ignore functions with non-zero calls if (psym->numCalls) continue; // Ignore some symbols if (strcmp(psym->name, "(end)") == 0) continue; if (strcmp(psym->name, "(unknown)") == 0) continue; if (strcmp(psym->name, ".plt") == 0) continue; const char *ksym = " "; if (psym->region->flags & region_type::kIsKernelRegion) ksym = "k"; printf("%s %s %s\n", ksym, psym->name, psym->region->path); #if 0 printf("#%d %5d %s %s %s\n", ii + 1, psym->numCalls, ksym, psym->name, psym->region->path); #endif } delete[] syms; delete trace; return 0; }