# Copyright (c) ModelScope Contributors. All rights reserved. import collections import gradio as gr import json import matplotlib.pyplot as plt import os import psutil import re import subprocess import sys import time import webbrowser from datetime import datetime from functools import partial from packaging import version from transformers import is_tensorboard_available from typing import Dict, List, Tuple, Type from swift.utils import TB_COLOR, TB_COLOR_SMOOTH, format_time, get_logger, read_tensorboard_file, tensorboard_smoothing from ..base import BaseUI from .utils import close_loop, run_command_in_subprocess logger = get_logger() class Runtime(BaseUI): handlers: Dict[str, Tuple[List, Tuple]] = {} group = 'llm_train' all_plots = None log_event = {} sft_plot = [ { 'name': 'train/loss', 'smooth': 0.9, }, { 'name': 'train/acc', 'smooth': None, }, { 'name': 'train/learning_rate', 'smooth': None, }, { 'name': 'eval/loss', 'smooth': 0.9, }, { 'name': 'eval/acc', 'smooth': None, }, ] dpo_plot = [ { 'name': 'train/loss', 'smooth': 0.9, }, { 'name': 'train/rewards/accuracies', 'smooth': None, }, { 'name': 'train/rewards/margins', 'smooth': 0.9, }, { 'name': 'train/logps/chosen', 'smooth': 0.9, }, { 'name': 'train/logps/rejected', 'smooth': 0.9, }, ] kto_plot = [ { 'name': 'kl', 'smooth': None, }, { 'name': 'rewards/chosen_sum', 'smooth': 0.9, }, { 'name': 'logps/chosen_sum', 'smooth': 0.9, }, { 'name': 'rewards/rejected_sum', 'smooth': 0.9, }, { 'name': 'logps/rejected_sum', 'smooth': 0.9, }, ] orpo_plot = [ { 'name': 'train/loss', 'smooth': 0.9, }, { 'name': 'train/rewards/accuracies', 'smooth': None, }, { 'name': 'train/rewards/margins', 'smooth': 0.9, }, { 'name': 'train/rewards/chosen', 'smooth': 0.9, }, { 'name': 'train/log_odds_ratio', 'smooth': 0.9, }, ] grpo_plot = [ { 'name': 'train/loss', 'smooth': 0.9, }, { 'name': 'train/reward', 'smooth': 0.9, }, { 'name': 'train/learning_rate', 'smooth': None, }, { 'name': 'train/completions/mean_length', 'smooth': 0.9, }, { 'name': 'train/kl', 'smooth': 0.9, }, ] locale_dict = { 'runtime_tab': { 'label': { 'zh': '运行时', 'en': 'Runtime' }, }, 'tb_not_found': { 'value': { 'zh': 'TensorBoard未安装,使用`pip install tensorboard`进行安装', 'en': 'TensorBoard not found, install it by `pip install tensorboard`', } }, 'running_cmd': { 'label': { 'zh': '运行命令', 'en': 'Command line' }, 'info': { 'zh': '执行的实际命令', 'en': 'The actual command' } }, 'show_running_cmd': { 'value': { 'zh': '展示运行命令', 'en': 'Show running command line' }, }, 'show_sh': { 'label': { 'zh': '展示sh命令行', 'en': 'Show sh command line' }, }, 'cmd_sh': { 'label': { 'zh': '训练命令行', 'en': 'Training command line' }, 'info': { 'zh': '如果训练命令行没有展示请再次点击"展示运行命令",点击下方的"保存训练命令"可以保存sh脚本', 'en': ('Please press "Show running command line" if the content is none, ' 'click the "Save training command" below to save the sh script') } }, 'save_cmd_as_sh': { 'value': { 'zh': '保存训练命令', 'en': 'Save training command' } }, 'save_cmd_alert': { 'value': { 'zh': '训练命令行将被保存在:{}', 'en': 'The training command line will be saved in: {}' } }, 'close_cmd_show': { 'value': { 'zh': '关闭训练命令展示', 'en': 'Close training command show' } }, 'show_log': { 'value': { 'zh': '展示运行状态', 'en': 'Show running status' }, }, 'stop_show_log': { 'value': { 'zh': '停止展示运行状态', 'en': 'Stop showing running status' }, }, 'logging_dir': { 'label': { 'zh': '日志路径', 'en': 'Logging dir' }, 'info': { 'zh': '支持手动传入文件路径', 'en': 'Support fill custom path in' } }, 'log': { 'label': { 'zh': '日志输出', 'en': 'Logging content' }, 'info': { 'zh': '如果日志无更新请再次点击"展示运行状态"', 'en': 'Please press "Show running status" if the log content is not updating' } }, 'running_tasks': { 'label': { 'zh': '运行中任务', 'en': 'Running Tasks' }, 'info': { 'zh': '运行中的任务(所有的swift sft/pt命令)', 'en': 'All running tasks(started by swift sft/pt)' } }, 'refresh_tasks': { 'value': { 'zh': '找回运行时任务', 'en': 'Find running tasks' }, }, 'kill_task': { 'value': { 'zh': '杀死任务', 'en': 'Kill running task' }, }, 'tb_url': { 'label': { 'zh': 'Tensorboard链接', 'en': 'Tensorboard URL' }, 'info': { 'zh': '仅展示,不可编辑', 'en': 'Not editable' } }, 'start_tb': { 'value': { 'zh': '打开TensorBoard', 'en': 'Start TensorBoard' }, }, 'close_tb': { 'value': { 'zh': '关闭TensorBoard', 'en': 'Close TensorBoard' }, }, } @classmethod def do_build_ui(cls, base_tab: Type['BaseUI']): with gr.Accordion(elem_id='runtime_tab', open=False): with gr.Blocks(): with gr.Row(): with gr.Column(scale=3): with gr.Row(): gr.Textbox(elem_id='running_cmd', lines=1, scale=3, interactive=False, max_lines=1) gr.Textbox(elem_id='logging_dir', lines=1, scale=3, max_lines=1) with gr.Row(): gr.Button(elem_id='show_running_cmd', scale=2, variant='primary') gr.Button(elem_id='show_log', scale=2, variant='primary') gr.Button(elem_id='stop_show_log', scale=2) with gr.Column(scale=2): with gr.Row(): gr.Textbox(elem_id='tb_url', lines=1, scale=4, interactive=False, max_lines=1) with gr.Row(): gr.Button(elem_id='start_tb', scale=2, variant='primary') gr.Button(elem_id='close_tb', scale=2) with gr.Accordion(elem_id='show_sh', open=False, visible=False): with gr.Blocks(): gr.Textbox(elem_id='cmd_sh', lines=8) with gr.Row(equal_height=True): gr.Button(elem_id='save_cmd_as_sh', variant='primary', scale=2) gr.Button(elem_id='close_cmd_show', scale=2) with gr.Row(): gr.Textbox(elem_id='log', lines=6, visible=False) with gr.Row(equal_height=True): gr.Dropdown(elem_id='running_tasks', scale=10) gr.Button(elem_id='refresh_tasks', scale=1) gr.Button(elem_id='kill_task', scale=1) with gr.Row(): cls.all_plots = [] plot = Runtime.sft_plot if base_tab.group == 'llm_rlhf': plot = Runtime.dpo_plot elif base_tab.group == 'llm_grpo': plot = Runtime.grpo_plot for idx, k in enumerate(plot): name = k['name'] cls.all_plots.append(gr.Plot(elem_id=str(idx), label=name)) concurrency_limit = {} if version.parse(gr.__version__) >= version.parse('4.0.0'): concurrency_limit = {'concurrency_limit': 5} base_tab.element('show_log').click( Runtime.update_log, [base_tab.element('running_tasks')], [cls.element('log')] + cls.all_plots).then( Runtime.wait, [base_tab.element('logging_dir'), base_tab.element('running_tasks')], [cls.element('log')] + cls.all_plots, **concurrency_limit) base_tab.element('stop_show_log').click(cls.break_log_event, [cls.element('running_tasks')], []) base_tab.element('start_tb').click( Runtime.start_tb, [base_tab.element('logging_dir')], [base_tab.element('tb_url')], ) base_tab.element('close_tb').click( Runtime.close_tb, [base_tab.element('logging_dir')], [], ) base_tab.element('refresh_tasks').click( partial(Runtime.refresh_tasks, group=cls.group), [base_tab.element('running_tasks')], [base_tab.element('running_tasks')], ) @classmethod def after_build_ui(cls, base_tab: Type['BaseUI']): cls.element('show_running_cmd').click(Runtime.show_train_sh, cls.element('running_cmd'), [cls.element('show_sh')] + [cls.element('cmd_sh')]) cls.element('save_cmd_as_sh').click(cls.save_cmd, cls.element('running_cmd'), []) cls.element('close_cmd_show').click(Runtime.close_cmd_show, [], [cls.element('show_sh')]) @classmethod def get_plot(cls, task): if not task or 'swift sft' in task or 'swift pt' in task: return cls.sft_plot args: dict = cls.parse_info_from_cmdline(task)[1] rlhf_type = args.get('rlhf_type', 'dpo') if rlhf_type in ('dpo', 'cpo', 'simpo'): return cls.dpo_plot elif rlhf_type == 'kto': return cls.kto_plot elif rlhf_type == 'orpo': return cls.orpo_plot elif rlhf_type == 'grpo': return cls.grpo_plot @classmethod def update_log(cls, task): ret = [gr.update(visible=True)] plot = Runtime.get_plot(task) for i in range(len(plot)): p = plot[i] ret.append(gr.update(visible=True, label=p['name'])) return ret @classmethod def get_initial(cls, line): tqdm_starts = ['Train:', 'Map:', 'Val:', 'Filter:'] for start in tqdm_starts: if line.startswith(start): return start return None @classmethod def wait(cls, logging_dir, task): if not logging_dir: return [None] + Runtime.plot(task) log_file = os.path.join(logging_dir, 'run.log') cls.log_event[logging_dir] = False offset = 0 latest_data = '' lines = collections.deque(maxlen=int(os.environ.get('MAX_LOG_LINES', 100))) try: with open(log_file, 'r', encoding='utf-8') as input: input.seek(offset) fail_cnt = 0 while True: try: latest_data += input.read() except UnicodeDecodeError: continue if not latest_data: time.sleep(0.5) fail_cnt += 1 if fail_cnt > 50: break if cls.log_event.get(logging_dir, False): cls.log_event[logging_dir] = False break if '\n' not in latest_data: continue latest_lines = latest_data.split('\n') if latest_data[-1] != '\n': latest_data = latest_lines[-1] latest_lines = latest_lines[:-1] else: latest_data = '' lines.extend(latest_lines) start = cls.get_initial(lines[-1]) if start: i = len(lines) - 2 while i >= 0: if lines[i].startswith(start): del lines[i] i -= 1 else: break yield [gr.update(value='\n'.join(lines))] + Runtime.plot(task) time.sleep(0.5) except IOError: pass @classmethod def break_log_event(cls, task): if not task: return pid, all_args = Runtime.parse_info_from_cmdline(task) cls.log_event[all_args['logging_dir']] = True @classmethod def show_log(cls, logging_dir): webbrowser.open('file://' + os.path.join(logging_dir, 'run.log'), new=2) @classmethod def start_tb(cls, logging_dir): if not is_tensorboard_available(): gr.Error(cls.locale('tb_not_found', cls.lang)['value']) return '' logging_dir = logging_dir.strip() logging_dir = logging_dir if not logging_dir.endswith(os.sep) else logging_dir[:-1] if logging_dir in cls.handlers: return cls.handlers[logging_dir][1] handler, lines = run_command_in_subprocess('tensorboard', '--logdir', logging_dir, timeout=2) localhost_addr = '' for line in lines: if 'http://localhost:' in line: line = line[line.index('http://localhost:'):] localhost_addr = line[:line.index(' ')] cls.handlers[logging_dir] = (handler, localhost_addr) logger.info('===========Tensorboard Log============') logger.info('\n'.join(lines)) webbrowser.open(localhost_addr, new=2) return localhost_addr @staticmethod def close_tb(logging_dir): if logging_dir in Runtime.handlers: close_loop(Runtime.handlers[logging_dir][0]) Runtime.handlers.pop(logging_dir) @staticmethod def refresh_tasks(running_task=None, group=None): output_dir = running_task if not running_task or 'pid:' not in running_task else None process_name = 'swift' negative_names = ['swift.exe', 'swift-script.py'] cmd_name = ['pt', 'sft'] if group == 'llm_train' else ['rlhf'] process = [] selected = None for proc in psutil.process_iter(): try: cmdlines = proc.cmdline() except (psutil.ZombieProcess, psutil.AccessDenied, psutil.NoSuchProcess): cmdlines = [] if any([ process_name in cmdline for cmdline in cmdlines # noqa ]) and not any([ # noqa negative_name in cmdline for negative_name in negative_names # noqa for cmdline in cmdlines # noqa ]) and any([cmdline in cmd_name for cmdline in cmdlines]): # noqa if any([group == 'llm_rlhf' and 'grpo' in cmdline for cmdline in cmdlines]): continue if group == 'llm_grpo' and all(['grpo' not in cmdline for cmdline in cmdlines]): continue process.append(Runtime.construct_running_task(proc)) if output_dir is not None and any( # noqa [output_dir == cmdline for cmdline in cmdlines]): # noqa selected = Runtime.construct_running_task(proc) if not selected: if running_task and running_task in process: selected = running_task if not selected and process: selected = process[0] return gr.update(choices=process, value=selected) @staticmethod def construct_running_task(proc): pid = proc.pid ts = time.time() create_time = proc.create_time() create_time_formatted = datetime.fromtimestamp(create_time).strftime('%Y-%m-%d, %H:%M') return f'pid:{pid}/create:{create_time_formatted}' \ f'/running:{format_time(ts - create_time)}/cmd:{" ".join(proc.cmdline())}' @staticmethod def parse_info_from_cmdline(task): pid = None if '/cmd:' in task: for i in range(3): slash = task.find('/') if i == 0: pid = task[:slash].split(':')[1] task = task[slash + 1:] if 'swift sft' in task: args = task.split('swift sft')[1] elif 'swift pt' in task: args = task.split('swift pt')[1] elif 'swift rlhf' in task: args = task.split('swift rlhf')[1] else: raise ValueError(f'Cannot parse cmd line: {task}') args = [arg.strip() for arg in args.split('--') if arg.strip()] all_args = {} for i in range(len(args)): space = args[i].find(' ') splits = args[i][:space], args[i][space + 1:] all_args[splits[0]] = str(splits[1]) if isinstance(splits[1], int) else splits[1] output_dir = all_args['output_dir'] if os.path.exists(os.path.join(output_dir, 'args.json')): with open(os.path.join(output_dir, 'args.json'), 'r', encoding='utf-8') as f: _json = json.load(f) for key in all_args.keys(): all_args[key] = str(_json.get(key)) if isinstance(_json.get(key), int) else _json.get(key) if isinstance(all_args[key], list): if any([' ' in value for value in all_args[key] if isinstance(value, str)]): all_args[key] = [f'"{value}"' for value in all_args[key]] if len(all_args[key]) > 0 and isinstance(all_args[key][0], str): all_args[key] = ' '.join(all_args[key]) return pid, all_args @staticmethod def kill_task(task): if task: pid, all_args = Runtime.parse_info_from_cmdline(task) output_dir = all_args['output_dir'] if sys.platform == 'win32': command = ['taskkill', '/f', '/t', '/pid', pid] else: command = ['pkill', '-9', '-f', output_dir] try: result = subprocess.run(command, capture_output=True, text=True) assert result.returncode == 0 except Exception as e: raise e Runtime.break_log_event(task) return [Runtime.refresh_tasks()] + [gr.update(value=None)] * (len(Runtime.get_plot(task)) + 1) @staticmethod def reset(): return None, 'output' @staticmethod def task_changed(task, base_tab): if task: _, all_args = Runtime.parse_info_from_cmdline(task) else: all_args = {} elements = list(base_tab.valid_elements().values()) ret = [] for e in elements: if e.elem_id in all_args: if isinstance(e, gr.Dropdown) and e.multiselect: arg = all_args[e.elem_id].split(' ') else: arg = all_args[e.elem_id] if isinstance(e, gr.Slider) and isinstance(arg, str) and re.fullmatch(base_tab.int_regex, arg): arg = int(arg) elif isinstance(e, gr.Slider) and isinstance(arg, str) and re.fullmatch(base_tab.float_regex, arg): arg = float(arg) elif isinstance(e, gr.Checkbox) and isinstance(arg, str) and re.fullmatch(base_tab.bool_regex, arg): arg = True if arg.lower() == 'true' else False ret.append(gr.update(value=arg)) else: ret.append(gr.update()) Runtime.break_log_event(task) return ret + [gr.update(value=None)] * (len(Runtime.get_plot(task)) + 1) @staticmethod def plot(task): plot = Runtime.get_plot(task) if not task: return [None] * len(plot) _, all_args = Runtime.parse_info_from_cmdline(task) tb_dir = all_args['logging_dir'] if not os.path.exists(tb_dir): return [None] * len(plot) fname = [ fname for fname in os.listdir(tb_dir) if os.path.isfile(os.path.join(tb_dir, fname)) and fname.startswith('events.out') ] if fname: fname = fname[0] else: return [None] * len(plot) tb_path = os.path.join(tb_dir, fname) data = read_tensorboard_file(tb_path) plots = [] for k in plot: name = k['name'] smooth = k['smooth'] if name == 'train/acc': if 'train/token_acc' in data: name = 'train/token_acc' if 'train/seq_acc' in data: name = 'train/seq_acc' if name == 'eval/acc': if 'eval/token_acc' in data: name = 'eval/token_acc' if 'eval/seq_acc' in data: name = 'eval/seq_acc' if name not in data: plots.append(None) continue _data = data[name] steps = [d['step'] for d in _data] values = [d['value'] for d in _data] if len(values) == 0: continue plt.close('all') fig = plt.figure() ax = fig.add_subplot() # _, ax = plt.subplots(1, 1, squeeze=True, figsize=(8, 5), dpi=100) ax.set_title(name) if len(values) == 1: ax.scatter(steps, values, color=TB_COLOR_SMOOTH) elif smooth is not None: ax.plot(steps, values, color=TB_COLOR) values_s = tensorboard_smoothing(values, smooth) ax.plot(steps, values_s, color=TB_COLOR_SMOOTH) else: ax.plot(steps, values, color=TB_COLOR_SMOOTH) plots.append(fig) return plots @classmethod def save_cmd(cls, cmd): if len(cmd) > 0: cmd_sh, output_dir = Runtime.cmd_to_sh_format(cmd) os.makedirs(output_dir, exist_ok=True) sh_file_path = os.path.join(output_dir, 'train.sh') gr.Info(cls.locale('save_cmd_alert', cls.lang)['value'].format(sh_file_path)) with open(sh_file_path, 'w', encoding='utf-8') as f: f.write(cmd_sh) @staticmethod def show_train_sh(cmd): if len(cmd) == 0: return gr.update(visible=False, open=False), None cmd_sh, _ = Runtime.cmd_to_sh_format(cmd) return gr.update(visible=True, open=True), cmd_sh @staticmethod def cmd_to_sh_format(cmd): cmd_sh = '' params = cmd.split('--') env_params = params[0].split('nohup')[0].strip() cmd_sh += (env_params + ' \\\n') swift_cmd = params[0].split('nohup')[1].strip() cmd_sh += ('nohup ' + swift_cmd + ' \\\n') for param in params[1:]: if param.startswith('output_dir'): output_dir = param.split(' ')[1].strip() cmd_sh += ('--' + param.strip() + ' \\\n') return cmd_sh, output_dir @staticmethod def close_cmd_show(): return gr.update(visible=False)