apppublic/build/lib/appPublic/sshx.py

336 lines
7.9 KiB
Python
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2024-09-23 14:12:00 +08:00
import os
import sys
import time
import shlex
from functools import partial
from threading import Thread
from appPublic.myTE import tmpTml
import asyncio, asyncssh, sys
class SSHNode:
def __init__(self, host,
username='root',
port=22,
password=None,
jumpers=[]):
self.server2 = {
"host":host,
"username":username,
"password":password,
"port":port
}
print(self.server2)
self.jumpers = jumpers
self.conn = None
self.jumper_conns = []
self.batch_cmds = []
def info(self):
d = {
"jumpers":self.jumpers,
}
d.update(self.server2)
return d
def asjumper(self):
a = self.jumpers.copy()
a.append(self.server2)
return a
def set_jumpers(self, jumpers):
self.jumpers = jumpers
async def connect(self):
refconn = None
for j in self.jumpers:
host = j['host']
username = j.get('username', 'root')
port = j.get('port',22)
password= j.get('password', None)
if refconn:
refconn = await refconn.connect_ssh(host,
username=username,
known_hosts=None,
password=password,
port=port)
else:
refconn = await asyncssh.connect(host,
username=username,
known_hosts=None,
password=password,
port=port)
self.jumper_conns.append(refconn)
host = self.server2['host']
username = self.server2.get('username', 'root')
port = self.server2.get('port',22)
password = self.server2.get('password', None)
if refconn:
self.conn = await refconn.connect_ssh(host,
username=username,
port=port,
password=password,
known_hosts=None)
else:
self.conn = await asyncssh.connect(host,
username=username,
password=password,
port=port)
def close(self):
self.conn.close()
cnt = len(self.jumper_conns)
cnt -= 1
while cnt >= 0:
self.jumper_conns[cnt].close()
cnt -= 1
self.jumper_conns = []
self.conn = None
async def _l2r(self, lf, rf):
x = await asyncssh.scp(lf, (self.conn, rf),
preserve=True, recurse=True)
return x
async def _process(self, *args, **kw):
a = await self.conn.create_process(*args, **kw)
return a
async def _r2l(self, rf, lf):
x = await asyncssh.scp((self.conn, rf), lf,
preserve=True, recurse=True)
return x
async def _cmd(self, cmd, input=None, stdin=None, stdout=None):
return await self.conn.run(cmd, input=input, stdin=stdin, stdout=stdout)
async def _xcmd(self, cmd, xmsgs=[], ns={},
show_input=None,
show_stdout=None):
proc = await self._process(cmd, term_type='xterm',
term_size=(80,24),
encoding='utf-8'
)
keyin = False
def feed_data(xmsgs, debug_input):
if len(xmsgs) == 0:
print('#####++##### xmsgs has zero elements')
return
keyin = True
a = xmsgs.pop(0)
while True:
if a[1] is None:
proc.stdin.write_eof()
self.running = False
else:
s = a[1].format(**ns)
proc.stdin.write(s)
if len(xmsgs) == 0 or xmsgs[0][0]:
break
a = xmsgs.pop(0)
already_output = False
callee = None
loop = asyncio.get_event_loop()
self.running = True
while self.running:
if keyin:
keyin = False
await proc.stdin.drain()
if proc.stdout.at_eof():
break
tup = proc.collect_output()
x = tup[0]
if x!='' and show_stdout:
if x is None:
break
if callee:
callee.cancel()
callee = None
show_stdout(x)
else:
if callee is None:
if len(xmsgs) > 0:
f = partial(feed_data, xmsgs, show_input)
t = xmsgs[0][0] or 0
callee = loop.call_later(t, f)
await asyncio.sleep(0.05)
print('##########fininshed##########')
async def _run(self, cmd, input=None, stdin=None, stdout=None):
if cmd.startswith('l2r'):
args = shlex.split(cmd)
if len(args) == 3:
x = await self._l2r(args[1], args[2])
return x
if cmd.startswith('r2l'):
args = shlex.split(cmd)
if len(args) == 3:
x = await self._r2l(args[1], args[2])
return x
return await self._cmd(cmd, input=input, stdin=stdin, stdout=stdout)
def show_result(self, x):
if isinstance(x, Exception):
print('Exception:',e)
else:
print('stdout:', x.stdout)
print('stderr:', x.stderr)
async def run(self, cmd, input=None, stdin=None, stdout=None):
await self.connect()
result = await self._run(cmd, input=input,
stdin=stdin, stdout=stdout)
self.close()
return result
class SSHNodes:
def __init__(self, nodes, usernmae='root', port=22, jumpers=[]):
self.nodes = [ Node(n, username=username, port=port, jumpers=jumpers) for n in nodes ]
self.batch_cmds = []
def append_cmd(self, cmd, stdin=None, stdout=None):
self.batch_cmds.append({
"cmd":cmd,
"stdin":stdin,
"stdout":stdout})
def show_result(self, result, i=0):
if isinstance(result, Exception):
print(f'Task {i} failed:{result}')
elif result.exit_status != 0:
print(f'Task {i} exit {result.exit_status}')
print(result.stderr, end='')
else:
print(f'Task {i} successed:')
print(result.stdout, end='')
async def run(self, cmd, stdin=None, stdout=None):
tasks = [ n.run(cmd, stdin=stdin, stdout=stdout) for n in self.nodes ]
results = await asyncio.gather(*tasks, return_exceptions=True)
return results
async def exe_batch(self):
tasks = [ n.exe_batch(self.batch_cmds) for n in self.nodes ]
results = await asyncio.gather(*tasks, return_excetion=True)
return results
for i, result in enumerate(results):
self.show_result(result,i)
async def main():
if len(sys.argv) < 3:
print(f'{sys.argv[0]} cmd host1 host2 ....')
sys.exit(1)
cmd = sys.argv[1]
jumpor = {
"host":"glib.cc",
"username":"ceni",
"port":10022
}
hosts = sys.argv[2:]
mn = SSHNodes(hosts, jumpers=[jumpor])
while True:
print('input command:')
cmd = input()
print('input stdin:')
stdin = input()
if stdin == '':
stdin = None
print('input stdout:(default is stdout)')
stdout = input()
if stdout == '':
stdout = None
x = await mn.run(cmd, stdin=stdin, stdout=stdout)
for r in x:
if isinstance(r, Exception):
print(r)
else:
print(r.stdout)
class SSHBash:
def __init__(self, node, loop=None):
if loop is None:
loop = asyncio.get_event_loop()
self.node = node
self.loop = loop
self.conn = None
self.stdin_need = False
self.subloop = asyncio.new_event_loop()
self.subthread = Thread(target=self.start_thread_loop)
self.subthread.setDaemon(True)
self.subthread.start()
def start_thread_loop(self):
asyncio.set_event_loop(self.subloop)
self.subloop.run_forever()
def exit(self):
if self.conn:
self.node.close(self.conn)
self.p_obj.close()
self.subloop.stop()
self.loop.stop()
async def feed_stdin(self, f):
self.stdin_need = False
x = await f(65535)
if x is None:
self.exit()
self.p_obj.stdin.write(x)
await self.p_obj.stdin.drain()
self.stdin_need = True
async def run(self, read_co, write_co):
await self.node.connect()
self.p_obj = await self.node._process('bash',
term_type='vt100',
term_size=(80,24),
encoding=None)
if isinstance(self.p_obj, Exception):
print('Excetion:', self.p_obj)
self.exit()
return
if self.p_obj is None:
print('self.p_obj is None')
self.exit()
return
# self.loop.add_reader(sys.stdin.fileno(), self.read_input)
self.stdin_need = True
while True:
if self.stdin_need:
asyncio.run_coroutine_threadsafe(self.feed_stdin(read_co), self.subloop)
if self.p_obj.stdout.at_eof():
self.exit()
break
x = await self.p_obj.stdout.read(1024)
await write_co(x)
if __name__ == '__main__':
async def sysstdin_read():
return os.read(sys.stdin.fileno(), 65535)
async def sysstdout_write(x):
sys.stdout.write(x.decode('utf-8'))
async def test_sshbash():
jp = {
"host":"glib.cc",
"username":"ceni",
"port":10022
}
jn = SSHNode('k3', jumpers=[jp])
bash = SSHBash(jn)
await bash.run(sysstdin_read, sysstdout_write)
loop = asyncio.get_event_loop()
loop.run_until_complete(test_sshbash())