################################################################################ # Copyright (c) 2018 Advanced Micro Devices, Inc. All rights reserved. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. ################################################################################ import csv, sqlite3, re, sys from functools import reduce from txt2params import gen_params # SQLite Database class class SQLiteDB: def __init__(self, file_name): self.connection = sqlite3.connect(file_name) self.tables = {} self.section_index = 0 def __del__(self): self.connection.close() # add DB table def add_table(self, name, descr, extra = ()): (field_list, field_dict) = descr if name in self.tables: raise Exception('table is already added: "' + name + '"') # create DB table table_descr = [] for field in field_list: table_descr.append('"%s" %s' % (field, field_dict[field])) for item in extra: table_descr.append('"%s" %s' % (item[0], item[1])) stm = 'CREATE TABLE ' + name + ' (%s)' % ', '.join(table_descr) cursor = self.connection.cursor() cursor.execute(stm) self.connection.commit() # register table fields_str = ','.join(map(lambda x: '"' + x + '"', field_list)) templ_str = ','.join('?' * len(field_list)) stm = 'INSERT INTO ' + name + '(' + fields_str + ') VALUES(' + templ_str + ');' self.tables[name] = stm return (cursor, stm); # add columns to table def add_columns(self, name, columns): cursor = self.connection.cursor() for item in columns: stm = 'ALTER TABLE ' + name + ' ADD COLUMN "%s" %s' % (item[0], item[1]) cursor.execute(stm) self.connection.commit() # add columns with expression def add_data_column(self, table_name, data_label, data_type, data_expr): cursor = self.connection.cursor() cursor.execute('ALTER TABLE %s ADD COLUMN "%s" %s' % (table_name, data_label, data_type)) cursor.execute('UPDATE %s SET %s = (%s);' % (table_name, data_label, data_expr)) def change_rec_name(self, table_name, rec_id, rec_name): self.connection.execute('UPDATE ' + table_name + ' SET Name = ? WHERE "Index" = ?', (rec_name, rec_id)) def change_rec_tid(self, table_name, rec_id, tid): self.connection.execute('UPDATE ' + table_name + ' SET tid = ? WHERE "Index" = ?', (tid, rec_id)) def change_rec_fld(self, table_name, fld_expr, rec_pat): self.connection.execute('UPDATE ' + table_name + ' SET ' + fld_expr + ' WHERE ' + rec_pat) def table_get_record(self, table_name, rec_pat): cursor = self.connection.execute('SELECT * FROM ' + table_name + ' WHERE ' + rec_pat) raws = cursor.fetchall() if len(raws) != 1: raise Exception('Record (' + rec_pat + ') is not unique, table "' + table_name + '"') return list(raws[0]) # populate DB table entry def insert_entry(self, table, val_list): (cursor, stm) = table cursor.execute(stm, val_list) # populate DB table entry def commit_entry(self, table, val_list): self.insert_entry(table, val_list) self.connection.commit() # populate DB table data def insert_table(self, table, reader): for val_list in reader: if not val_list[-1]: val_list.pop() self.insert_entry(table, val_list) self.connection.commit() # return table fields list def _get_fields(self, table_name): cursor = self.connection.execute('SELECT * FROM ' + table_name) return list(map(lambda x: '"%s"' % (x[0]), cursor.description)) # return table raws list def _get_raws(self, table_name): cursor = self.connection.execute('SELECT * FROM ' + table_name) return cursor.fetchall() def _get_raws_indexed(self, table_name): cursor = self.connection.execute('SELECT * FROM ' + table_name + ' order by "Index" asc;') return cursor.fetchall() def _get_raw_by_id(self, table_name, rec_id): cursor = self.connection.execute('SELECT * FROM ' + table_name + ' WHERE "Index"=?', (rec_id,)) raws = cursor.fetchall() if len(raws) != 1: raise Exception('Index is not unique, table "' + table_name + '"') return list(raws[0]) def table_get_raws(self, table_name): return self._get_raws(table_name) # dump CSV table def dump_csv(self, table_name, file_name): if not re.search(r'\.csv$', file_name): raise Exception('wrong output file type: "' + file_name + '"' ) fields = self._get_fields(table_name) with open(file_name, mode='w') as fd: fd.write(','.join(fields) + '\n') for raw in self._get_raws(table_name): fd.write(reduce(lambda a, b: str(a) + ',' + str(b), raw) + '\n') # dump JSON trace def open_json(self, file_name): if not re.search(r'\.json$', file_name): raise Exception('wrong output file type: "' + file_name + '"' ) with open(file_name, mode='w') as fd: fd.write('{ "traceEvents":[{}\n'); def close_json(self, file_name): if not re.search(r'\.json$', file_name): raise Exception('wrong output file type: "' + file_name + '"' ) with open(file_name, mode='a') as fd: fd.write('}') def label_json(self, pid, label, file_name): if not re.search(r'\.json$', file_name): raise Exception('wrong output file type: "' + file_name + '"' ) with open(file_name, mode='a') as fd: fd.write(',{"args":{"name":"%s"},"ph":"M","pid":%s,"name":"process_name","sort_index":%d}\n' %(label, pid, self.section_index)) self.section_index += 1 def flow_json(self, base_id, from_pid, from_us_list, to_pid, to_us_dict, corr_id_list, file_name): if not re.search(r'\.json$', file_name): raise Exception('wrong output file type: "' + file_name + '"' ) with open(file_name, mode='a') as fd: dep_id = base_id for ind in range(len(from_us_list)): corr_id = corr_id_list[ind] if (len(corr_id_list) != 0) else ind if corr_id in to_us_dict: (from_ts, stream_id, tid) = from_us_list[ind] to_ts = to_us_dict[corr_id] if from_ts > to_ts: from_ts = to_ts fd.write(',{"ts":%d,"ph":"s","cat":"DataFlow","id":%d,"pid":%d,"tid":%d,"name":"dep"}\n' % (from_ts, dep_id, from_pid, tid)) fd.write(',{"ts":%d,"ph":"t","cat":"DataFlow","id":%d,"pid":%d,"tid":%d,"name":"dep"}\n' % (to_ts, dep_id, to_pid, stream_id)) dep_id += 1 def metadata_json(self, jsonfile, sysinfo_file): params = gen_params(sysinfo_file); with open(jsonfile, mode='a') as fd: cnt = 0 fd.write('],\n') fd.write('"otherData": {\n') for nkey in sorted(params.keys()): key = nkey[1] cnt = cnt + 1 if cnt == len(params): fd.write(' "' + key + '": "' + params[nkey] + '"\n') else: fd.write(' "' + key + '": "' + params[nkey] + '",\n') fd.write(' }\n') def dump_json(self, table_name, data_name, file_name): if not re.search(r'\.json$', file_name): raise Exception('wrong output file type: "' + file_name + '"' ) sub_ptrn = re.compile(r'(^"|"$)') name_ptrn = re.compile(r'(name|Name)') table_fields = self._get_fields(table_name) table_raws = self._get_raws(table_name) data_fields = self._get_fields(data_name) data_raws = self._get_raws(data_name) with open(file_name, mode='a') as fd: table_raws_len = len(table_raws) for raw_index in range(table_raws_len): if (raw_index == table_raws_len - 1) or (raw_index % 1000 == 0): sys.stdout.write( \ "\rdump json " + str(raw_index) + ":" + str(len(table_raws)) + " "*100 \ ) vals_list = [] values = list(table_raws[raw_index]) for value_index in range(len(values)): label = table_fields[value_index] value = values[value_index] if name_ptrn.search(label): value = sub_ptrn.sub(r'', value) if label != '"Index"': if label == '"dur"' and value == 0: vals_list.append('%s:"%s"' % (label, "1")) else: vals_list.append('%s:"%s"' % (label, value)) args_list = [] data = list(data_raws[raw_index]) for value_index in range(len(data)): label = data_fields[value_index] value = data[value_index] if label[:3] == '"__': continue if name_ptrn.search(label): value = sub_ptrn.sub(r'', value) if label != '"Index"': args_list.append('%s:"%s"' % (label, value)) fd.write(',{"ph":"%s",%s,\n "args":{\n %s\n }\n}\n' % ('X', ','.join(vals_list), ',\n '.join(args_list))) sys.stdout.write('\n') # execute query on DB def execute(self, cmd): cursor = self.connection.cursor() cursor.execute(cmd) # commit DB def commit(self): self.connection.commit() # close DB def close(self): self.connection.commit() self.connection.close() # access DB def get_raws(self, table_name): cur = self.connection.cursor() cur.execute("SELECT * FROM %s" % table_name) return cur.fetchall() # return CSV descriptor # list of fields and dictionaly for the fields types def _get_csv_descr(self, table_name, fd): reader = csv.DictReader(fd) field_names = reader.fieldnames if not field_names[-1]: field_names.pop() field_types = {} for entry in reader: fields_left = [f for f in field_names if f not in field_types.keys()] # all fields processed if not fields_left: break for field in fields_left: data = entry[field] # need data for the field to be processed if len(data) == 0: continue if data.isdigit(): field_types[field] = "INTEGER" else: field_types[field] = "TEXT" if len(fields_left) > 0: raise Exception('types not found for fields: ', fields_left) return (field_names, field_types) # add CSV table def add_csv_table(self, table_name, file_name, extra = ()): with open(file_name, mode='r') as fd: # get CSV table descriptor descr = self._get_csv_descr(table_name, fd) # reader to populate the table fd.seek(0) reader = csv.reader(fd) reader.next() table = self.add_table(table_name, descr, extra) self.insert_table(table, reader) ##############################################################################################