def pk_addpubkey(sfd): print "ADD A PUBKEY" myargs = { KEY_NICK: "frlfrl", KEY_HOST: KEY_YAHOST_DATA, KEY_SERVER: KEY_SERVER_DATA, KEY_BLOB: "IpPlkHjaehHIva58t9UOk92x3HIa9mzG9wWzt8i/Tlpzpj/W64+iNiAAAP//3ukNnQ==" } acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKADD, myargs) sfd.send(acblob) rcvblob = sfd.recv(2048) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print ac_pkr.error_code print "KEY FP:" print binascii.hexlify(ac_pkr.blob)
def pk_list(sfd): print "LIST RUNNING DAEMON PUBLIC KEYS" #myargs = { KEY_NICK:"frlfrl" } myargs = None acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKLIST, myargs) sfd.send(acblob) rcvblob = sfd.recv(4096) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type if ac_msg_test.type == ac_pb2.ArseneCryptoMessage.AC_ERROR: print "Request Error!" print ac_msg_test.blob return 1 ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print ac_pkr.error_code print "PKR do we have public keys?!" print ac_pkr.public_keys print "HOW MANY PUB KEYS!?" print len(ac_pkr.public_keys) for t in ac_pkr.public_keys: print t.nick + ":" + t.pubkey + ":" + str(t.timestamp) + ":" + str( datetime.datetime.fromtimestamp(t.timestamp)) print binascii.hexlify(t.fp) return 0
def pk_getnewpair(sfd): # # GET NEW KEYPAIR MESSAGE # print "GENERATE NEW KEYPAIR MESSAGE" #myargs = { KEY_NICK:"yondaime", KEY_HOST:KEY_HOST_DATA, KEY_SERVER:KEY_SERVER_DATA, KEY_BLOB:"ddskjdkdjsakjdasksa" } myargs = { KEY_NICK: "yondaime", KEY_HOST: KEY_HOST_DATA, KEY_SERVER: "", KEY_BLOB: "ddskjdkdjsakjdasksa" } acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKGEN, myargs) sfd.send(acblob) rcvblob = sfd.recv(2048) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print "%d" % ac_pkr.error_code return 0
def pk_getmypubkey(sfd): print "GET MY PUBLIC KEY" myargs = {KEY_NICK: "youpiya"} acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKGET, myargs) sfd.send(acblob) rcvblob = sfd.recv(2048) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print ac_pkr.error_code print "PKR do we have public keys?!" print ac_pkr.public_keys print "HOW MANY PUB KEYS!?" print len(ac_pkr.public_keys) for t in ac_pkr.public_keys: print t.nick + ":" + t.pubkey + ":" + str(t.timestamp) + ":" + str( datetime.datetime.fromtimestamp(t.timestamp)) print binascii.hexlify(t.fp) return 0
def pk_list(sfd): print "LIST RUNNING DAEMON PUBLIC KEYS" #myargs = { KEY_NICK:"frlfrl" } myargs = None acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKLIST, myargs) sfd.send(acblob) rcvblob = sfd.recv(4096) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type if ac_msg_test.type == ac_pb2.ArseneCryptoMessage.AC_ERROR: print "Request Error!" print ac_msg_test.blob return 1 ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print ac_pkr.error_code print "PKR do we have public keys?!" print ac_pkr.public_keys print "HOW MANY PUB KEYS!?" print len(ac_pkr.public_keys) for t in ac_pkr.public_keys: print t.nick + ":" + t.pubkey + ":" + str(t.timestamp) + ":" + str(datetime.datetime.fromtimestamp(t.timestamp)) print binascii.hexlify(t.fp) return 0
def pk_getmypubkey(sfd): print "GET MY PUBLIC KEY" myargs = { KEY_NICK:"youpiya" } acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKGET, myargs) sfd.send(acblob) rcvblob = sfd.recv(2048) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print ac_pkr.error_code print "PKR do we have public keys?!" print ac_pkr.public_keys print "HOW MANY PUB KEYS!?" print len(ac_pkr.public_keys) for t in ac_pkr.public_keys: print t.nick + ":" + t.pubkey + ":" + str(t.timestamp) + ":" + str(datetime.datetime.fromtimestamp(t.timestamp)) print binascii.hexlify(t.fp) return 0
def pk_getnewpair(sfd): # # GET NEW KEYPAIR MESSAGE # print "GENERATE NEW KEYPAIR MESSAGE" #myargs = { KEY_NICK:"yondaime", KEY_HOST:KEY_HOST_DATA, KEY_SERVER:KEY_SERVER_DATA, KEY_BLOB:"ddskjdkdjsakjdasksa" } myargs = { KEY_NICK:"yondaime", KEY_HOST:KEY_HOST_DATA, KEY_SERVER:"", KEY_BLOB:"ddskjdkdjsakjdasksa" } acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKGEN, myargs) sfd.send(acblob) rcvblob = sfd.recv(2048) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print "%d" % ac_pkr.error_code return 0
def pk_del(sfd): print "DEL message" #myargs = { KEY_NICK:"frlfrl" } myargs = None # { KEY_NICK:"frlfrl" } acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKDEL, myargs) sfd.send(acblob) rcvblob = sfd.recv(4096) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print ac_pkr.error_code
def pk_addpubkey(sfd): print "ADD A PUBKEY" myargs = { KEY_NICK:"frlfrl", KEY_HOST:KEY_YAHOST_DATA, KEY_SERVER:KEY_SERVER_DATA, KEY_BLOB:"IpPlkHjaehHIva58t9UOk92x3HIa9mzG9wWzt8i/Tlpzpj/W64+iNiAAAP//3ukNnQ==" } acblob = ac_msg(ACMSG_TYPE_PK, ACMSG_SUBTYPE_PKADD, myargs) sfd.send(acblob) rcvblob = sfd.recv(2048) ac_msg_test = ac_pb2.ArseneCryptoMessage() ac_msg_test.ParseFromString(rcvblob) print "message type:" print ac_msg_test.type ac_pkr = ac_pb2.acPublicKeyMessageResponse() ac_pkr.ParseFromString(ac_msg_test.blob) print "PKR message type:" print ac_pkr.type print "PKR message bada:" print ac_pkr.bada print "PKR message error_code:" print ac_pkr.error_code print "KEY FP:" print binascii.hexlify(ac_pkr.blob)