import os, json, hashlib, shlex, sys import time, pty from datetime import datetime, date from subprocess import Popen, STDOUT, PIPE, check_output from select import epoll, EPOLLIN, EPOLLHUP from .exceptions import * from .output import log, LOG_LEVELS def gen_uid(entropy_length=256): return hashlib.sha512(os.urandom(entropy_length)).hexdigest() def multisplit(s, splitters): s = [s,] for key in splitters: ns = [] for obj in s: x = obj.split(key) for index, part in enumerate(x): if len(part): ns.append(part) if index < len(x)-1: ns.append(key) s = ns return s def locate_binary(name): for PATH in os.environ['PATH'].split(':'): for root, folders, files in os.walk(PATH): for file in files: if file == name: return os.path.join(root, file) break # Don't recurse class JSON_Encoder: def _encode(obj): if isinstance(obj, dict): ## We'll need to iterate not just the value that default() usually gets passed ## But also iterate manually over each key: value pair in order to trap the keys. for key, val in list(obj.items()): if isinstance(val, dict): val = json.loads(json.dumps(val, cls=JSON)) # This, is a EXTREMELY ugly hack.. # But it's the only quick way I can think of to # trigger a encoding of sub-dictionaries. else: val = JSON_Encoder._encode(val) del(obj[key]) obj[JSON_Encoder._encode(key)] = val return obj elif hasattr(obj, 'json'): return obj.json() elif hasattr(obj, '__dump__'): return obj.__dump__() elif isinstance(obj, (datetime, date)): return obj.isoformat() elif isinstance(obj, (list, set, tuple)): r = [] for item in obj: r.append(json.loads(json.dumps(item, cls=JSON))) return r else: return obj class JSON(json.JSONEncoder, json.JSONDecoder): def _encode(self, obj): return JSON_Encoder._encode(obj) def encode(self, obj): return super(JSON, self).encode(self._encode(obj)) class sys_command():#Thread): """ Stolen from archinstall_gui """ def __init__(self, cmd, callback=None, start_callback=None, *args, **kwargs): kwargs.setdefault("worker_id", gen_uid()) kwargs.setdefault("emulate", False) kwargs.setdefault("suppress_errors", False) self.log = kwargs.get('log', log) if kwargs['emulate']: self.log(f"Starting command '{cmd}' in emulation mode.", level=LOG_LEVELS.Debug) self.raw_cmd = cmd try: self.cmd = shlex.split(cmd) except Exception as e: raise ValueError(f'Incorrect string to split: {cmd}\n{e}') self.args = args self.kwargs = kwargs self.kwargs.setdefault("worker", None) self.callback = callback self.pid = None self.exit_code = None self.started = time.time() self.ended = None self.worker_id = kwargs['worker_id'] self.trace_log = b'' self.status = 'starting' user_catalogue = os.path.expanduser('~') self.cwd = f"{user_catalogue}/.cache/archinstall/workers/{kwargs['worker_id']}/" self.exec_dir = f'{self.cwd}/{os.path.basename(self.cmd[0])}_workingdir' if not self.cmd[0][0] == '/': # "which" doesn't work as it's a builtin to bash. # It used to work, but for whatever reason it doesn't anymore. So back to square one.. #self.log('Worker command is not executed with absolute path, trying to find: {}'.format(self.cmd[0]), origin='spawn', level=5) #self.log('This is the binary {} for {}'.format(o.decode('UTF-8'), self.cmd[0]), origin='spawn', level=5) self.cmd[0] = locate_binary(self.cmd[0]) if not os.path.isdir(self.exec_dir): os.makedirs(self.exec_dir) if start_callback: start_callback(self, *args, **kwargs) self.run() def __iter__(self, *args, **kwargs): for line in self.trace_log.split(b'\n'): yield line def __repr__(self, *args, **kwargs): return f"{self.cmd, self.trace_log}" def decode(self, fmt='UTF-8'): return self.trace_log.decode(fmt) def dump(self): return { 'status': self.status, 'worker_id': self.worker_id, 'worker_result': self.trace_log.decode('UTF-8'), 'started': self.started, 'ended': self.ended, 'started_pprint': '{}-{}-{} {}:{}:{}'.format(*time.localtime(self.started)), 'ended_pprint': '{}-{}-{} {}:{}:{}'.format(*time.localtime(self.ended)) if self.ended else None, 'exit_code': self.exit_code } def run(self): self.status = 'running' old_dir = os.getcwd() os.chdir(self.exec_dir) self.pid, child_fd = pty.fork() if not self.pid: # Child process # Replace child process with our main process if not self.kwargs['emulate']: try: os.execv(self.cmd[0], self.cmd) except FileNotFoundError: self.status = 'done' self.log(f"{self.cmd[0]} does not exist.", level=LOG_LEVELS.Debug) self.exit_code = 1 return False os.chdir(old_dir) poller = epoll() poller.register(child_fd, EPOLLIN | EPOLLHUP) if 'events' in self.kwargs and 'debug' in self.kwargs: self.log(f'[D] Using triggers for command: {self.cmd}', level=LOG_LEVELS.Debug) self.log(json.dumps(self.kwargs['events']), level=LOG_LEVELS.Debug) alive = True last_trigger_pos = 0 while alive and not self.kwargs['emulate']: for fileno, event in poller.poll(0.1): try: output = os.read(child_fd, 8192) self.trace_log += output except OSError: alive = False break if 'debug' in self.kwargs and self.kwargs['debug'] and len(output): self.log(self.cmd, 'gave:', output.decode('UTF-8'), level=LOG_LEVELS.Debug) if 'on_output' in self.kwargs: self.kwargs['on_output'](self.kwargs['worker'], output) lower = output.lower() broke = False if 'events' in self.kwargs: for trigger in list(self.kwargs['events']): if type(trigger) != bytes: original = trigger trigger = bytes(original, 'UTF-8') self.kwargs['events'][trigger] = self.kwargs['events'][original] del(self.kwargs['events'][original]) if type(self.kwargs['events'][trigger]) != bytes: self.kwargs['events'][trigger] = bytes(self.kwargs['events'][trigger], 'UTF-8') if trigger.lower() in self.trace_log[last_trigger_pos:].lower(): trigger_pos = self.trace_log[last_trigger_pos:].lower().find(trigger.lower()) if 'debug' in self.kwargs and self.kwargs['debug']: self.log(f"Writing to subprocess {self.cmd[0]}: {self.kwargs['events'][trigger].decode('UTF-8')}", level=LOG_LEVELS.Debug) self.log(f"Writing to subprocess {self.cmd[0]}: {self.kwargs['events'][trigger].decode('UTF-8')}", level=LOG_LEVELS.Debug) last_trigger_pos = trigger_pos os.write(child_fd, self.kwargs['events'][trigger]) del(self.kwargs['events'][trigger]) broke = True break if broke: continue ## Adding a exit trigger: if len(self.kwargs['events']) == 0: if 'debug' in self.kwargs and self.kwargs['debug']: self.log(f"Waiting for last command {self.cmd[0]} to finish.", level=LOG_LEVELS.Debug) if bytes(f']$'.lower(), 'UTF-8') in self.trace_log[0-len(f']$')-5:].lower(): if 'debug' in self.kwargs and self.kwargs['debug']: self.log(f"{self.cmd[0]} has finished.", level=LOG_LEVELS.Debug) alive = False break self.status = 'done' if 'debug' in self.kwargs and self.kwargs['debug']: self.log(f"{self.cmd[0]} waiting for exit code.", level=LOG_LEVELS.Debug) if not self.kwargs['emulate']: try: self.exit_code = os.waitpid(self.pid, 0)[1] except ChildProcessError: try: self.exit_code = os.waitpid(child_fd, 0)[1] except ChildProcessError: self.exit_code = 1 else: self.exit_code = 0 if 'debug' in self.kwargs and self.kwargs['debug']: self.log(f"{self.cmd[0]} got exit code: {self.exit_code}", level=LOG_LEVELS.Debug) if 'ignore_errors' in self.kwargs: self.exit_code = 0 if self.exit_code != 0 and not self.kwargs['suppress_errors']: #self.log(self.trace_log.decode('UTF-8'), level=LOG_LEVELS.Debug) #self.log(f"'{self.raw_cmd}' did not exit gracefully, exit code {self.exit_code}.", level=LOG_LEVELS.Error) raise SysCallError(f"{self.trace_log.decode('UTF-8')}\n'{self.raw_cmd}' did not exit gracefully (trace log above), exit code: {self.exit_code}") self.ended = time.time() with open(f'{self.cwd}/trace.log', 'wb') as fh: fh.write(self.trace_log) def prerequisite_check(): if not os.path.isdir("/sys/firmware/efi"): raise RequirementError("Archinstall only supports machines in UEFI mode.") return True def reboot(): o = b''.join(sys_command("/usr/bin/reboot"))