# # Copyright (C) 2016 Intel Corporation # # SPDX-License-Identifier: MIT # import os import time import select import logging import subprocess import codecs from . import OETarget class OESSHTarget(OETarget): def __init__(self, logger, ip, server_ip, timeout=300, user='root', port=None, server_port=0, **kwargs): if not logger: logger = logging.getLogger('target') logger.setLevel(logging.INFO) filePath = os.path.join(os.getcwd(), 'remoteTarget.log') fileHandler = logging.FileHandler(filePath, 'w', 'utf-8') formatter = logging.Formatter( '%(asctime)s.%(msecs)03d %(levelname)s: %(message)s', '%H:%M:%S') fileHandler.setFormatter(formatter) logger.addHandler(fileHandler) super(OESSHTarget, self).__init__(logger) self.ip = ip self.server_ip = server_ip self.server_port = server_port self.timeout = timeout self.user = user ssh_options = [ '-o', 'ServerAliveCountMax=2', '-o', 'ServerAliveInterval=30', '-o', 'UserKnownHostsFile=/dev/null', '-o', 'StrictHostKeyChecking=no', '-o', 'LogLevel=ERROR' ] self.ssh = ['ssh', '-l', self.user ] + ssh_options self.scp = ['scp'] + ssh_options if port: self.ssh = self.ssh + [ '-p', port ] self.scp = self.scp + [ '-P', port ] self._monitor_dumper = None self.target_dumper = None def start(self, **kwargs): pass def stop(self, **kwargs): pass @property def monitor_dumper(self): return self._monitor_dumper @monitor_dumper.setter def monitor_dumper(self, dumper): self._monitor_dumper = dumper self.monitor_dumper.dump_monitor() def _run(self, command, timeout=None, ignore_status=True): """ Runs command in target using SSHProcess. """ self.logger.debug("[Running]$ %s" % " ".join(command)) starttime = time.time() status, output = SSHCall(command, self.logger, timeout) self.logger.debug("[Command returned '%d' after %.2f seconds]" "" % (status, time.time() - starttime)) if status and not ignore_status: raise AssertionError("Command '%s' returned non-zero exit " "status %d:\n%s" % (command, status, output)) return (status, output) def run(self, command, timeout=None): """ Runs command in target. command: Command to run on target. timeout: : Kill command after seconds. None: Kill command default value seconds. 0: No timeout, runs until return. """ targetCmd = 'export PATH=/usr/sbin:/sbin:/usr/bin:/bin; %s' % command sshCmd = self.ssh + [self.ip, targetCmd] if timeout: processTimeout = timeout elif timeout==0: processTimeout = None else: processTimeout = self.timeout status, output = self._run(sshCmd, processTimeout, True) self.logger.debug('Command: %s\nStatus: %d Output: %s\n' % (command, status, output)) if (status == 255) and (('No route to host') in output): if self.monitor_dumper: self.monitor_dumper.dump_monitor() if status == 255: if self.target_dumper: self.target_dumper.dump_target() if self.monitor_dumper: self.monitor_dumper.dump_monitor() return (status, output) def copyTo(self, localSrc, remoteDst): """ Copy file to target. If local file is symlink, recreate symlink in target. """ if os.path.islink(localSrc): link = os.readlink(localSrc) dstDir, dstBase = os.path.split(remoteDst) sshCmd = 'cd %s; ln -s %s %s' % (dstDir, link, dstBase) return self.run(sshCmd) else: remotePath = '%s@%s:%s' % (self.user, self.ip, remoteDst) scpCmd = self.scp + [localSrc, remotePath] return self._run(scpCmd, ignore_status=False) def copyFrom(self, remoteSrc, localDst, warn_on_failure=False): """ Copy file from target. """ remotePath = '%s@%s:%s' % (self.user, self.ip, remoteSrc) scpCmd = self.scp + [remotePath, localDst] (status, output) = self._run(scpCmd, ignore_status=warn_on_failure) if warn_on_failure and status: self.logger.warning("Copy returned non-zero exit status %d:\n%s" % (status, output)) return (status, output) def copyDirTo(self, localSrc, remoteDst): """ Copy recursively localSrc directory to remoteDst in target. """ for root, dirs, files in os.walk(localSrc): # Create directories in the target as needed for d in dirs: tmpDir = os.path.join(root, d).replace(localSrc, "") newDir = os.path.join(remoteDst, tmpDir.lstrip("/")) cmd = "mkdir -p %s" % newDir self.run(cmd) # Copy files into the target for f in files: tmpFile = os.path.join(root, f).replace(localSrc, "") dstFile = os.path.join(remoteDst, tmpFile.lstrip("/")) srcFile = os.path.join(root, f) self.copyTo(srcFile, dstFile) def deleteFiles(self, remotePath, files): """ Deletes files in target's remotePath. """ cmd = "rm" if not isinstance(files, list): files = [files] for f in files: cmd = "%s %s" % (cmd, os.path.join(remotePath, f)) self.run(cmd) def deleteDir(self, remotePath): """ Deletes target's remotePath directory. """ cmd = "rmdir %s" % remotePath self.run(cmd) def deleteDirStructure(self, localPath, remotePath): """ Delete recursively localPath structure directory in target's remotePath. This function is very usefult to delete a package that is installed in the DUT and the host running the test has such package extracted in tmp directory. Example: pwd: /home/user/tmp tree: . └── work ├── dir1 │ └── file1 └── dir2 localpath = "/home/user/tmp" and remotepath = "/home/user" With the above variables this function will try to delete the directory in the DUT in this order: /home/user/work/dir1/file1 /home/user/work/dir1 (if dir is empty) /home/user/work/dir2 (if dir is empty) /home/user/work (if dir is empty) """ for root, dirs, files in os.walk(localPath, topdown=False): # Delete files first tmpDir = os.path.join(root).replace(localPath, "") remoteDir = os.path.join(remotePath, tmpDir.lstrip("/")) self.deleteFiles(remoteDir, files) # Remove dirs if empty for d in dirs: tmpDir = os.path.join(root, d).replace(localPath, "") remoteDir = os.path.join(remotePath, tmpDir.lstrip("/")) self.deleteDir(remoteDir) def SSHCall(command, logger, timeout=None, **opts): def run(): nonlocal output nonlocal process output_raw = b'' starttime = time.time() process = subprocess.Popen(command, **options) if timeout: endtime = starttime + timeout eof = False os.set_blocking(process.stdout.fileno(), False) while time.time() < endtime and not eof: try: logger.debug('Waiting for process output: time: %s, endtime: %s' % (time.time(), endtime)) if select.select([process.stdout], [], [], 5)[0] != []: # wait a bit for more data, tries to avoid reading single characters time.sleep(0.2) data = process.stdout.read() if not data: eof = True else: output_raw += data # ignore errors to capture as much as possible logger.debug('Partial data from SSH call:\n%s' % data.decode('utf-8', errors='ignore')) endtime = time.time() + timeout except InterruptedError: logger.debug('InterruptedError') continue except BlockingIOError: logger.debug('BlockingIOError') continue process.stdout.close() # process hasn't returned yet if not eof: process.terminate() time.sleep(5) try: process.kill() except OSError: logger.debug('OSError when killing process') pass endtime = time.time() - starttime lastline = ("\nProcess killed - no output for %d seconds. Total" " running time: %d seconds." % (timeout, endtime)) logger.debug('Received data from SSH call:\n%s ' % lastline) output += lastline process.wait() else: output_raw = process.communicate()[0] output = output_raw.decode('utf-8', errors='ignore') logger.debug('Data from SSH call:\n%s' % output.rstrip()) # timout or not, make sure process exits and is not hanging if process.returncode == None: try: process.wait(timeout=5) except TimeoutExpired: try: process.kill() except OSError: logger.debug('OSError') pass process.wait() options = { "stdout": subprocess.PIPE, "stderr": subprocess.STDOUT, "stdin": None, "shell": False, "bufsize": -1, "start_new_session": True, } options.update(opts) output = '' process = None # Unset DISPLAY which means we won't trigger SSH_ASKPASS env = os.environ.copy() if "DISPLAY" in env: del env['DISPLAY'] options['env'] = env try: run() except: # Need to guard against a SystemExit or other exception ocurring # whilst running and ensure we don't leave a process behind. if process.poll() is None: process.kill() if process.returncode == None: process.wait() logger.debug('Something went wrong, killing SSH process') raise return (process.returncode, output.rstrip())