Manual:API Python3: Difference between revisions

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Line 8: Line 8:
#!/usr/bin/python3
#!/usr/bin/python3
# -*- coding: latin-1 -*-
# -*- coding: latin-1 -*-
import sys, posix, time, binascii, socket, select
import sys, posix, time, binascii, socket, select, ssl
import hashlib
import hashlib


Line 16: Line 16:
         self.sk = sk
         self.sk = sk
         self.currenttag = 0
         self.currenttag = 0
       
 
     def login(self, username, pwd):
     def login(self, username, pwd):
         for repl, attrs in self.talk(["/login"]):
         for repl, attrs in self.talk(["/login", "=name=" + username,
             chal = binascii.unhexlify((attrs['=ret']).encode('UTF-8'))
                                      "=password=" + pwd]):
        md = hashlib.md5()
          if repl == '!trap':
        md.update(b'\x00')
            return False
        md.update(pwd.encode('UTF-8'))
          elif '=ret' in attrs.keys():
        md.update(chal)
        #for repl, attrs in self.talk(["/login"]):
        self.talk(["/login", "=name=" + username,
             chal = binascii.unhexlify((attrs['=ret']).encode(sys.stdout.encoding))
                   "=response=00" + binascii.hexlify(md.digest()).decode('UTF-8') ])
            md = hashlib.md5()
            md.update(b'\x00')
            md.update(pwd.encode(sys.stdout.encoding))
            md.update(chal)
            for repl2, attrs2 in self.talk(["/login", "=name=" + username,
                   "=response=00" + binascii.hexlify(md.digest()).decode(sys.stdout.encoding) ]):
              if repl2 == '!trap':
                return False
        return True


     def talk(self, words):
     def talk(self, words):
Line 58: Line 66:
             if w == '': return r
             if w == '': return r
             r.append(w)
             r.append(w)
           
 
     def writeWord(self, w):
     def writeWord(self, w):
         print(("<<< " + w))
         print(("<<< " + w))
Line 82: Line 90:
             self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
         elif l < 0x10000000:      
         elif l < 0x10000000:
             l |= 0xE0000000        
             l |= 0xE0000000
             self.writeByte(((l >> 24) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 24) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 16) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 16) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
         else:                      
         else:
             self.writeByte((0xF0).to_bytes(1, sys.byteorder))
             self.writeByte((0xF0).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 24) & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte(((l >> 24) & 0xFF).to_bytes(1, sys.byteorder))
Line 95: Line 103:
             self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
             self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))


     def readLen(self):            
     def readLen(self):
         c = ord(self.readStr(1))  
         c = ord(self.readStr(1))
         if (c & 0x80) == 0x00:    
        # print (">rl> %i" % c)
             pass                  
         if (c & 0x80) == 0x00:
         elif (c & 0xC0) == 0x80:  
             pass
             c &= ~0xC0            
         elif (c & 0xC0) == 0x80:
             c <<= 8                
             c &= ~0xC0
             c += ord(self.readStr(1))  
             c <<= 8
         elif (c & 0xE0) == 0xC0:  
             c += ord(self.readStr(1))
             c &= ~0xE0            
         elif (c & 0xE0) == 0xC0:
             c <<= 8                
             c &= ~0xE0
             c += ord(self.readStr(1))  
             c <<= 8
             c <<= 8                
             c += ord(self.readStr(1))
             c += ord(self.readStr(1))  
             c <<= 8
         elif (c & 0xF0) == 0xE0:  
             c += ord(self.readStr(1))
             c &= ~0xF0            
         elif (c & 0xF0) == 0xE0:
             c <<= 8                
             c &= ~0xF0
             c += ord(self.readStr(1))  
             c <<= 8
             c <<= 8                
             c += ord(self.readStr(1))
             c += ord(self.readStr(1))  
             c <<= 8
             c <<= 8                
             c += ord(self.readStr(1))
             c += ord(self.readStr(1))  
             c <<= 8
         elif (c & 0xF8) == 0xF0:  
             c += ord(self.readStr(1))
             c = ord(self.readStr(1))    
         elif (c & 0xF8) == 0xF0:
             c <<= 8                
             c = ord(self.readStr(1))
             c += ord(self.readStr(1))  
             c <<= 8
             c <<= 8                
             c += ord(self.readStr(1))
             c += ord(self.readStr(1))  
             c <<= 8
             c <<= 8                
             c += ord(self.readStr(1))
             c += ord(self.readStr(1))  
             c <<= 8
         return c                  
             c += ord(self.readStr(1))
         return c


     def writeStr(self, str):      
     def writeStr(self, str):
         n = 0;
         n = 0;
         while n < len(str):
         while n < len(str):
             r = self.sk.send(bytes(str[n:], 'UTF-8'))
             r = self.sk.send(bytes(str[n:], 'UTF-8'))
             if r == 0: raise RuntimeError("connection closed by remote end")
             if r == 0: raise RuntimeError("connection closed by remote end")
             n += r                
             n += r


     def writeByte(self, str):      
     def writeByte(self, str):
         n = 0;
         n = 0;
         while n < len(str):
         while n < len(str):
             r = self.sk.send(str[n:])
             r = self.sk.send(str[n:])
             if r == 0: raise RuntimeError("connection closed by remote end")
             if r == 0: raise RuntimeError("connection closed by remote end")
             n += r                
             n += r


     def readStr(self, length):    
     def readStr(self, length):
         ret = ''
         ret = ''
        # print ("length: %i" % length)
         while len(ret) < length:
         while len(ret) < length:
             s = self.sk.recv(length - len(ret))
             s = self.sk.recv(length - len(ret))
             if s == '': raise RuntimeError("connection closed by remote end")
             if s == b'': raise RuntimeError("connection closed by remote end")
             ret += s.decode('UTF-8', 'replace')
             # print (b">>>" + s)
            # atgriezt kaa byte ja nav ascii chars
            if s >= (128).to_bytes(1, "big") :
              return s
            # print((">>> " + s.decode(sys.stdout.encoding, 'ignore')))
            ret += s.decode(sys.stdout.encoding, "replace")
         return ret
         return ret
def open_socket(dst, port, secure=False):
  s = None
  res = socket.getaddrinfo(dst, port, socket.AF_UNSPEC, socket.SOCK_STREAM)
  af, socktype, proto, canonname, sockaddr = res[0]
  skt = socket.socket(af, socktype, proto)
  if secure:
    s = ssl.wrap_socket(skt, ssl_version=ssl.PROTOCOL_TLSv1_2, ciphers="ADH-AES128-SHA256") #ADH-AES128-SHA256
  else:
    s = skt
  s.connect(sockaddr)
  return s


def main():
def main():
     s = None
     s = None
     for res in socket.getaddrinfo(sys.argv[1], "8728", socket.AF_UNSPEC, socket.SOCK_STREAM):
     dst = sys.argv[1]
        af, socktype, proto, canonname, sa = res
    user = "admin"
        try:
    passw = ""
            s = socket.socket(af, socktype, proto)
    secure = True
        except (socket.error, msg):
    port = 0
            s = None
 
            continue
    # use default username and pasword if not specified
        try:
    if len(sys.argv) == 4:
            s.connect(sa)
      user = sys.argv[2]
        except (socket.error, msg):
      passw = sys.argv[3]
            s.close()
    elif len(sys.argv) == 3:
            s = None
      user = sys.argv[2]
            continue
 
        break
    if (port==0):
      port = 8729 if secure else 8728
 
    s = open_socket(dst, port, secure)
     if s is None:
     if s is None:
        print ('could not open socket')
      print ('could not open socket')
        sys.exit(1)
      sys.exit(1)


     apiros = ApiRos(s);
     apiros = ApiRos(s);
     apiros.login(sys.argv[2], sys.argv[3]);
     if not apiros.login(user, passw):
      return


     inputsentence = []
     inputsentence = []
Line 195: Line 226:
if __name__ == '__main__':
if __name__ == '__main__':
     main()
     main()





Latest revision as of 16:45, 22 February 2019

Summary

Since python language have introduced changes to syntax when going from 2.x to 3.x some adjustments had to be made for old code from API.

Code for Python3

code

#!/usr/bin/python3
# -*- coding: latin-1 -*-
import sys, posix, time, binascii, socket, select, ssl
import hashlib

class ApiRos:
    "Routeros api"
    def __init__(self, sk):
        self.sk = sk
        self.currenttag = 0

    def login(self, username, pwd):
        for repl, attrs in self.talk(["/login", "=name=" + username,
                                      "=password=" + pwd]):
          if repl == '!trap':
            return False
          elif '=ret' in attrs.keys():
        #for repl, attrs in self.talk(["/login"]):
            chal = binascii.unhexlify((attrs['=ret']).encode(sys.stdout.encoding))
            md = hashlib.md5()
            md.update(b'\x00')
            md.update(pwd.encode(sys.stdout.encoding))
            md.update(chal)
            for repl2, attrs2 in self.talk(["/login", "=name=" + username,
                   "=response=00" + binascii.hexlify(md.digest()).decode(sys.stdout.encoding) ]):
              if repl2 == '!trap':
                return False
        return True

    def talk(self, words):
        if self.writeSentence(words) == 0: return
        r = []
        while 1:
            i = self.readSentence();
            if len(i) == 0: continue
            reply = i[0]
            attrs = {}
            for w in i[1:]:
                j = w.find('=', 1)
                if (j == -1):
                    attrs[w] = ''
                else:
                    attrs[w[:j]] = w[j+1:]
            r.append((reply, attrs))
            if reply == '!done': return r

    def writeSentence(self, words):
        ret = 0
        for w in words:
            self.writeWord(w)
            ret += 1
        self.writeWord('')
        return ret

    def readSentence(self):
        r = []
        while 1:
            w = self.readWord()
            if w == '': return r
            r.append(w)

    def writeWord(self, w):
        print(("<<< " + w))
        self.writeLen(len(w))
        self.writeStr(w)

    def readWord(self):
        ret = self.readStr(self.readLen())
        print((">>> " + ret))
        return ret

    def writeLen(self, l):
        if l < 0x80:
            self.writeByte((l).to_bytes(1, sys.byteorder))
        elif l < 0x4000:
            l |= 0x8000
            tmp = (l >> 8) & 0xFF
            self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
        elif l < 0x200000:
            l |= 0xC00000
            self.writeByte(((l >> 16) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
        elif l < 0x10000000:
            l |= 0xE0000000
            self.writeByte(((l >> 24) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte(((l >> 16) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))
        else:
            self.writeByte((0xF0).to_bytes(1, sys.byteorder))
            self.writeByte(((l >> 24) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte(((l >> 16) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte(((l >> 8) & 0xFF).to_bytes(1, sys.byteorder))
            self.writeByte((l & 0xFF).to_bytes(1, sys.byteorder))

    def readLen(self):
        c = ord(self.readStr(1))
        # print (">rl> %i" % c)
        if (c & 0x80) == 0x00:
            pass
        elif (c & 0xC0) == 0x80:
            c &= ~0xC0
            c <<= 8
            c += ord(self.readStr(1))
        elif (c & 0xE0) == 0xC0:
            c &= ~0xE0
            c <<= 8
            c += ord(self.readStr(1))
            c <<= 8
            c += ord(self.readStr(1))
        elif (c & 0xF0) == 0xE0:
            c &= ~0xF0
            c <<= 8
            c += ord(self.readStr(1))
            c <<= 8
            c += ord(self.readStr(1))
            c <<= 8
            c += ord(self.readStr(1))
        elif (c & 0xF8) == 0xF0:
            c = ord(self.readStr(1))
            c <<= 8
            c += ord(self.readStr(1))
            c <<= 8
            c += ord(self.readStr(1))
            c <<= 8
            c += ord(self.readStr(1))
        return c

    def writeStr(self, str):
        n = 0;
        while n < len(str):
            r = self.sk.send(bytes(str[n:], 'UTF-8'))
            if r == 0: raise RuntimeError("connection closed by remote end")
            n += r

    def writeByte(self, str):
        n = 0;
        while n < len(str):
            r = self.sk.send(str[n:])
            if r == 0: raise RuntimeError("connection closed by remote end")
            n += r

    def readStr(self, length):
        ret = ''
        # print ("length: %i" % length)
        while len(ret) < length:
            s = self.sk.recv(length - len(ret))
            if s == b'': raise RuntimeError("connection closed by remote end")
            # print (b">>>" + s)
            # atgriezt kaa byte ja nav ascii chars
            if s >= (128).to_bytes(1, "big") :
               return s
            # print((">>> " + s.decode(sys.stdout.encoding, 'ignore')))
            ret += s.decode(sys.stdout.encoding, "replace")
        return ret

def open_socket(dst, port, secure=False):
  s = None
  res = socket.getaddrinfo(dst, port, socket.AF_UNSPEC, socket.SOCK_STREAM)
  af, socktype, proto, canonname, sockaddr = res[0]
  skt = socket.socket(af, socktype, proto)
  if secure:
    s = ssl.wrap_socket(skt, ssl_version=ssl.PROTOCOL_TLSv1_2, ciphers="ADH-AES128-SHA256") #ADH-AES128-SHA256
  else:
    s = skt
  s.connect(sockaddr)
  return s

def main():
    s = None
    dst = sys.argv[1]
    user = "admin"
    passw = ""
    secure = True
    port = 0

    # use default username and pasword if not specified
    if len(sys.argv) == 4:
      user = sys.argv[2]
      passw = sys.argv[3]
    elif len(sys.argv) == 3:
      user = sys.argv[2]

    if (port==0):
      port = 8729 if secure else 8728

    s = open_socket(dst, port, secure)
    if s is None:
      print ('could not open socket')
      sys.exit(1)

    apiros = ApiRos(s);
    if not apiros.login(user, passw):
      return

    inputsentence = []

    while 1:
        r = select.select([s, sys.stdin], [], [], None)
        if s in r[0]:
            # something to read in socket, read sentence
            x = apiros.readSentence()

        if sys.stdin in r[0]:
            # read line from input and strip off newline
            l = sys.stdin.readline()
            l = l[:-1]

            # if empty line, send sentence and start with new
            # otherwise append to input sentence
            if l == '':
                apiros.writeSentence(inputsentence)
                inputsentence = []
            else:
                inputsentence.append(l)

if __name__ == '__main__':
    main()


file

api client in python3

See also

API