/* * trace-event-python. Feed trace events to an embedded Python interpreter. * * Copyright (C) 2010 Tom Zanussi <tzanussi@gmail.com> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include <Python.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <ctype.h> #include <errno.h> #include "../../perf.h" #include "../util.h" #include "../trace-event.h" PyMODINIT_FUNC initperf_trace_context(void); #define FTRACE_MAX_EVENT \ ((1 << (sizeof(unsigned short) * 8)) - 1) struct event *events[FTRACE_MAX_EVENT]; #define MAX_FIELDS 64 #define N_COMMON_FIELDS 7 extern struct scripting_context *scripting_context; static char *cur_field_name; static int zero_flag_atom; static PyObject *main_module, *main_dict; static void handler_call_die(const char *handler_name) { PyErr_Print(); Py_FatalError("problem in Python trace event handler"); } static void define_value(enum print_arg_type field_type, const char *ev_name, const char *field_name, const char *field_value, const char *field_str) { const char *handler_name = "define_flag_value"; PyObject *handler, *t, *retval; unsigned long long value; unsigned n = 0; if (field_type == PRINT_SYMBOL) handler_name = "define_symbolic_value"; t = PyTuple_New(4); if (!t) Py_FatalError("couldn't create Python tuple"); value = eval_flag(field_value); PyTuple_SetItem(t, n++, PyString_FromString(ev_name)); PyTuple_SetItem(t, n++, PyString_FromString(field_name)); PyTuple_SetItem(t, n++, PyInt_FromLong(value)); PyTuple_SetItem(t, n++, PyString_FromString(field_str)); handler = PyDict_GetItemString(main_dict, handler_name); if (handler && PyCallable_Check(handler)) { retval = PyObject_CallObject(handler, t); if (retval == NULL) handler_call_die(handler_name); } Py_DECREF(t); } static void define_values(enum print_arg_type field_type, struct print_flag_sym *field, const char *ev_name, const char *field_name) { define_value(field_type, ev_name, field_name, field->value, field->str); if (field->next) define_values(field_type, field->next, ev_name, field_name); } static void define_field(enum print_arg_type field_type, const char *ev_name, const char *field_name, const char *delim) { const char *handler_name = "define_flag_field"; PyObject *handler, *t, *retval; unsigned n = 0; if (field_type == PRINT_SYMBOL) handler_name = "define_symbolic_field"; if (field_type == PRINT_FLAGS) t = PyTuple_New(3); else t = PyTuple_New(2); if (!t) Py_FatalError("couldn't create Python tuple"); PyTuple_SetItem(t, n++, PyString_FromString(ev_name)); PyTuple_SetItem(t, n++, PyString_FromString(field_name)); if (field_type == PRINT_FLAGS) PyTuple_SetItem(t, n++, PyString_FromString(delim)); handler = PyDict_GetItemString(main_dict, handler_name); if (handler && PyCallable_Check(handler)) { retval = PyObject_CallObject(handler, t); if (retval == NULL) handler_call_die(handler_name); } Py_DECREF(t); } static void define_event_symbols(struct event *event, const char *ev_name, struct print_arg *args) { switch (args->type) { case PRINT_NULL: break; case PRINT_ATOM: define_value(PRINT_FLAGS, ev_name, cur_field_name, "0", args->atom.atom); zero_flag_atom = 0; break; case PRINT_FIELD: if (cur_field_name) free(cur_field_name); cur_field_name = strdup(args->field.name); break; case PRINT_FLAGS: define_event_symbols(event, ev_name, args->flags.field); define_field(PRINT_FLAGS, ev_name, cur_field_name, args->flags.delim); define_values(PRINT_FLAGS, args->flags.flags, ev_name, cur_field_name); break; case PRINT_SYMBOL: define_event_symbols(event, ev_name, args->symbol.field); define_field(PRINT_SYMBOL, ev_name, cur_field_name, NULL); define_values(PRINT_SYMBOL, args->symbol.symbols, ev_name, cur_field_name); break; case PRINT_STRING: break; case PRINT_TYPE: define_event_symbols(event, ev_name, args->typecast.item); break; case PRINT_OP: if (strcmp(args->op.op, ":") == 0) zero_flag_atom = 1; define_event_symbols(event, ev_name, args->op.left); define_event_symbols(event, ev_name, args->op.right); break; default: /* we should warn... */ return; } if (args->next) define_event_symbols(event, ev_name, args->next); } static inline struct event *find_cache_event(int type) { static char ev_name[256]; struct event *event; if (events[type]) return events[type]; events[type] = event = trace_find_event(type); if (!event) return NULL; sprintf(ev_name, "%s__%s", event->system, event->name); define_event_symbols(event, ev_name, event->print_fmt.args); return event; } static void python_process_event(union perf_event *pevent __unused, struct perf_sample *sample, struct perf_evsel *evsel __unused, struct perf_session *session __unused, struct thread *thread) { PyObject *handler, *retval, *context, *t, *obj, *dict = NULL; static char handler_name[256]; struct format_field *field; unsigned long long val; unsigned long s, ns; struct event *event; unsigned n = 0; int type; int pid; int cpu = sample->cpu; void *data = sample->raw_data; unsigned long long nsecs = sample->time; char *comm = thread->comm; t = PyTuple_New(MAX_FIELDS); if (!t) Py_FatalError("couldn't create Python tuple"); type = trace_parse_common_type(data); event = find_cache_event(type); if (!event) die("ug! no event found for type %d", type); pid = trace_parse_common_pid(data); sprintf(handler_name, "%s__%s", event->system, event->name); handler = PyDict_GetItemString(main_dict, handler_name); if (handler && !PyCallable_Check(handler)) handler = NULL; if (!handler) { dict = PyDict_New(); if (!dict) Py_FatalError("couldn't create Python dict"); } s = nsecs / NSECS_PER_SEC; ns = nsecs - s * NSECS_PER_SEC; scripting_context->event_data = data; context = PyCObject_FromVoidPtr(scripting_context, NULL); PyTuple_SetItem(t, n++, PyString_FromString(handler_name)); PyTuple_SetItem(t, n++, context); if (handler) { PyTuple_SetItem(t, n++, PyInt_FromLong(cpu)); PyTuple_SetItem(t, n++, PyInt_FromLong(s)); PyTuple_SetItem(t, n++, PyInt_FromLong(ns)); PyTuple_SetItem(t, n++, PyInt_FromLong(pid)); PyTuple_SetItem(t, n++, PyString_FromString(comm)); } else { PyDict_SetItemString(dict, "common_cpu", PyInt_FromLong(cpu)); PyDict_SetItemString(dict, "common_s", PyInt_FromLong(s)); PyDict_SetItemString(dict, "common_ns", PyInt_FromLong(ns)); PyDict_SetItemString(dict, "common_pid", PyInt_FromLong(pid)); PyDict_SetItemString(dict, "common_comm", PyString_FromString(comm)); } for (field = event->format.fields; field; field = field->next) { if (field->flags & FIELD_IS_STRING) { int offset; if (field->flags & FIELD_IS_DYNAMIC) { offset = *(int *)(data + field->offset); offset &= 0xffff; } else offset = field->offset; obj = PyString_FromString((char *)data + offset); } else { /* FIELD_IS_NUMERIC */ val = read_size(data + field->offset, field->size); if (field->flags & FIELD_IS_SIGNED) { if ((long long)val >= LONG_MIN && (long long)val <= LONG_MAX) obj = PyInt_FromLong(val); else obj = PyLong_FromLongLong(val); } else { if (val <= LONG_MAX) obj = PyInt_FromLong(val); else obj = PyLong_FromUnsignedLongLong(val); } } if (handler) PyTuple_SetItem(t, n++, obj); else PyDict_SetItemString(dict, field->name, obj); } if (!handler) PyTuple_SetItem(t, n++, dict); if (_PyTuple_Resize(&t, n) == -1) Py_FatalError("error resizing Python tuple"); if (handler) { retval = PyObject_CallObject(handler, t); if (retval == NULL) handler_call_die(handler_name); } else { handler = PyDict_GetItemString(main_dict, "trace_unhandled"); if (handler && PyCallable_Check(handler)) { retval = PyObject_CallObject(handler, t); if (retval == NULL) handler_call_die("trace_unhandled"); } Py_DECREF(dict); } Py_DECREF(t); } static int run_start_sub(void) { PyObject *handler, *retval; int err = 0; main_module = PyImport_AddModule("__main__"); if (main_module == NULL) return -1; Py_INCREF(main_module); main_dict = PyModule_GetDict(main_module); if (main_dict == NULL) { err = -1; goto error; } Py_INCREF(main_dict); handler = PyDict_GetItemString(main_dict, "trace_begin"); if (handler == NULL || !PyCallable_Check(handler)) goto out; retval = PyObject_CallObject(handler, NULL); if (retval == NULL) handler_call_die("trace_begin"); Py_DECREF(retval); return err; error: Py_XDECREF(main_dict); Py_XDECREF(main_module); out: return err; } /* * Start trace script */ static int python_start_script(const char *script, int argc, const char **argv) { const char **command_line; char buf[PATH_MAX]; int i, err = 0; FILE *fp; command_line = malloc((argc + 1) * sizeof(const char *)); command_line[0] = script; for (i = 1; i < argc + 1; i++) command_line[i] = argv[i - 1]; Py_Initialize(); initperf_trace_context(); PySys_SetArgv(argc + 1, (char **)command_line); fp = fopen(script, "r"); if (!fp) { sprintf(buf, "Can't open python script \"%s\"", script); perror(buf); err = -1; goto error; } err = PyRun_SimpleFile(fp, script); if (err) { fprintf(stderr, "Error running python script %s\n", script); goto error; } err = run_start_sub(); if (err) { fprintf(stderr, "Error starting python script %s\n", script); goto error; } free(command_line); return err; error: Py_Finalize(); free(command_line); return err; } /* * Stop trace script */ static int python_stop_script(void) { PyObject *handler, *retval; int err = 0; handler = PyDict_GetItemString(main_dict, "trace_end"); if (handler == NULL || !PyCallable_Check(handler)) goto out; retval = PyObject_CallObject(handler, NULL); if (retval == NULL) handler_call_die("trace_end"); else Py_DECREF(retval); out: Py_XDECREF(main_dict); Py_XDECREF(main_module); Py_Finalize(); return err; } static int python_generate_script(const char *outfile) { struct event *event = NULL; struct format_field *f; char fname[PATH_MAX]; int not_first, count; FILE *ofp; sprintf(fname, "%s.py", outfile); ofp = fopen(fname, "w"); if (ofp == NULL) { fprintf(stderr, "couldn't open %s\n", fname); return -1; } fprintf(ofp, "# perf script event handlers, " "generated by perf script -g python\n"); fprintf(ofp, "# Licensed under the terms of the GNU GPL" " License version 2\n\n"); fprintf(ofp, "# The common_* event handler fields are the most useful " "fields common to\n"); fprintf(ofp, "# all events. They don't necessarily correspond to " "the 'common_*' fields\n"); fprintf(ofp, "# in the format files. Those fields not available as " "handler params can\n"); fprintf(ofp, "# be retrieved using Python functions of the form " "common_*(context).\n"); fprintf(ofp, "# See the perf-trace-python Documentation for the list " "of available functions.\n\n"); fprintf(ofp, "import os\n"); fprintf(ofp, "import sys\n\n"); fprintf(ofp, "sys.path.append(os.environ['PERF_EXEC_PATH'] + \\\n"); fprintf(ofp, "\t'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')\n"); fprintf(ofp, "\nfrom perf_trace_context import *\n"); fprintf(ofp, "from Core import *\n\n\n"); fprintf(ofp, "def trace_begin():\n"); fprintf(ofp, "\tprint \"in trace_begin\"\n\n"); fprintf(ofp, "def trace_end():\n"); fprintf(ofp, "\tprint \"in trace_end\"\n\n"); while ((event = trace_find_next_event(event))) { fprintf(ofp, "def %s__%s(", event->system, event->name); fprintf(ofp, "event_name, "); fprintf(ofp, "context, "); fprintf(ofp, "common_cpu,\n"); fprintf(ofp, "\tcommon_secs, "); fprintf(ofp, "common_nsecs, "); fprintf(ofp, "common_pid, "); fprintf(ofp, "common_comm,\n\t"); not_first = 0; count = 0; for (f = event->format.fields; f; f = f->next) { if (not_first++) fprintf(ofp, ", "); if (++count % 5 == 0) fprintf(ofp, "\n\t"); fprintf(ofp, "%s", f->name); } fprintf(ofp, "):\n"); fprintf(ofp, "\t\tprint_header(event_name, common_cpu, " "common_secs, common_nsecs,\n\t\t\t" "common_pid, common_comm)\n\n"); fprintf(ofp, "\t\tprint \""); not_first = 0; count = 0; for (f = event->format.fields; f; f = f->next) { if (not_first++) fprintf(ofp, ", "); if (count && count % 3 == 0) { fprintf(ofp, "\" \\\n\t\t\""); } count++; fprintf(ofp, "%s=", f->name); if (f->flags & FIELD_IS_STRING || f->flags & FIELD_IS_FLAG || f->flags & FIELD_IS_SYMBOLIC) fprintf(ofp, "%%s"); else if (f->flags & FIELD_IS_SIGNED) fprintf(ofp, "%%d"); else fprintf(ofp, "%%u"); } fprintf(ofp, "\\n\" %% \\\n\t\t("); not_first = 0; count = 0; for (f = event->format.fields; f; f = f->next) { if (not_first++) fprintf(ofp, ", "); if (++count % 5 == 0) fprintf(ofp, "\n\t\t"); if (f->flags & FIELD_IS_FLAG) { if ((count - 1) % 5 != 0) { fprintf(ofp, "\n\t\t"); count = 4; } fprintf(ofp, "flag_str(\""); fprintf(ofp, "%s__%s\", ", event->system, event->name); fprintf(ofp, "\"%s\", %s)", f->name, f->name); } else if (f->flags & FIELD_IS_SYMBOLIC) { if ((count - 1) % 5 != 0) { fprintf(ofp, "\n\t\t"); count = 4; } fprintf(ofp, "symbol_str(\""); fprintf(ofp, "%s__%s\", ", event->system, event->name); fprintf(ofp, "\"%s\", %s)", f->name, f->name); } else fprintf(ofp, "%s", f->name); } fprintf(ofp, "),\n\n"); } fprintf(ofp, "def trace_unhandled(event_name, context, " "event_fields_dict):\n"); fprintf(ofp, "\t\tprint ' '.join(['%%s=%%s'%%(k,str(v))" "for k,v in sorted(event_fields_dict.items())])\n\n"); fprintf(ofp, "def print_header(" "event_name, cpu, secs, nsecs, pid, comm):\n" "\tprint \"%%-20s %%5u %%05u.%%09u %%8u %%-20s \" %% \\\n\t" "(event_name, cpu, secs, nsecs, pid, comm),\n"); fclose(ofp); fprintf(stderr, "generated Python script: %s\n", fname); return 0; } struct scripting_ops python_scripting_ops = { .name = "Python", .start_script = python_start_script, .stop_script = python_stop_script, .process_event = python_process_event, .generate_script = python_generate_script, };