# OpenThings_test.py 21/05/2016 D.J.Whale # # Test harness for OpenThings protocol encoder and decoder #TODO: Turn this into unittest.TestCase from OpenThings import * import pprint import unittest from lifecycle import * def printhex(payload): line = "" for b in payload: line += hex(b) + " " print(line) TEST_PAYLOAD = [ 0x1C, #len 16 + 10 + 2 = 0001 1100 0x04, #mfrid 0x02, #prodid 0x01, #pipmsb 0x00, #piplsb 0x00, 0x06, 0x8B, #sensorid 0x70, 0x82, 0x00, 0x07, #SINT(2) power 0x71, 0x82, 0xFF, 0xFD, #SINT(2) reactive_power 0x76, 0x01, 0xF0, #UINT(1) voltage 0x66, 0x22, 0x31, 0xDA, #UINT_BP8(2) freq 0x73, 0x01, 0x01, #UINT(1) switch_state 0x00, #NUL 0x97, 0x64 #CRC ] def test_payload_unencrypted(): init(242) printhex(TEST_PAYLOAD) spec = decode(TEST_PAYLOAD, decrypt=False) pprint.pprint(spec) payload = encode(spec, encrypt=False) printhex(payload) spec2 = decode(payload, decrypt=False) pprint.pprint(spec2) payload2 = encode(spec2, encrypt=False) printhex(TEST_PAYLOAD) printhex(payload2) if TEST_PAYLOAD != payload: print("FAILED") else: print("PASSED") def test_payload_encrypted(): init(242) printhex(TEST_PAYLOAD) spec = decode(TEST_PAYLOAD, decrypt=False) pprint.pprint(spec) payload = encode(spec, encrypt=True) printhex(payload) spec2 = decode(payload, decrypt=True) pprint.pprint(spec2) payload2 = encode(spec2, encrypt=False) printhex(TEST_PAYLOAD) printhex(payload2) if TEST_PAYLOAD != payload: print("FAILED") else: print("PASSED") def test_value_encoder(): pass # test cases (auto, forced, overflow, -min, -min-1, 0, 1, +max, +max+1 # UINT # UINT_BP4 # UINT_BP8 # UINT_BP12 # UINT_BP16 # UINT_BP20 # UINT_BP24 # SINT # SINT(2) vin = [1,255,256,32767,32768,0,-1,-2,-3,-127,-128,-129,-32767,-32768] for v in vin: vout = Value.encode(v, Value.SINT) print("encode " + str(v) + " " + str(vout)) # SINT_BP8 # SINT_BP16 # SINT_BP24 # CHAR # FLOAT def test_value_decoder(): pass # test cases (auto, forced, overflow, -min, -min-1, 0, 1, +max, +max+1 # UINT # UINT_BP4 # UINT_BP8 # UINT_BP12 # UINT_BP16 # UINT_BP20 # UINT_BP24 # SINT vin = [255, 253] print("input value:" + str(vin)) vout = Value.decode(vin, Value.SINT, 2) print("encoded as:" + str(vout)) # SINT_BP8 # SINT_BP16 # SINT_BP24 # CHAR # FLOAT #----- UNIT TEST FOR MESSAGE -------------------------------------------------- import Devices # ACCESSOR VARIANTS # as method parameters: # 1 {pydict} # # 2 header={pydict} # 3 header_mfrid=123 # 4 recs_0={pydict} # 5 recs_0_paramid=PARAM_SWITCH_STATE # 6 SWITCH_STATE={pydict} # 7 SWITCH_STATE,value=1 # 8 SWITCH_STATE_value=1 # # as attribute accessors # 9 msg["header"] msg["recs"][0] # 10 msg[PARAM_SWITCH_STATE] #TODO: Break dependence on Devices.MIHO005_REPORT (makes tests brittle) class TestMessage(unittest.TestCase): @test_0 def test_blank(self): """CREATE a completely blank message""" msg = Message() print(msg) msg.dump() @test_0 def test_blank_template(self): """CREATE a message from a simple pydict template""" # This is useful to simplify all other tests msg = Message(Message.BLANK) print(msg) msg.dump() @test_0 def test_blank_create_dict(self): #1 {pydict} """CREATE a blank message with a dict parameter""" msg = Message({"header":{}, "recs":[{"wr":False, "parmid":PARAM_SWITCH_STATE, "value":1}]}) print(msg) msg.dump() @test_0 def test_blank_create_header_dict(self): #2 header={pydict} """CREATE a blank message and add a header at creation time from a dict""" msg = Message(header={"mfrid":123, "productid":456, "sensorid":789}) print(msg) msg.dump() @test_0 def test_create_big_template(self): #1 {pydict} """CREATE from a large template message""" # create a message from a template msg = Message(Devices.MIHO005_REPORT) print(msg) msg.dump() @test_0 def test_add_rec_dict(self): #1 {pydict} """UPDATE(APPEND) rec fields from a dict parameter""" msg = Message(Message.BLANK) i = msg.append_rec({"paramid":PARAM_SWITCH_STATE, "wr":True, "value":1}) print("added index:%d" % i) print(msg) msg.dump() @test_0 def test_add_header_dict(self): #2 header={pydict} """UPDATE(SET) a new header to an existing message""" msg = Message() msg.set(header={"mfrid":123, "productid":456, "sensorid":789}) print(msg) msg.dump() @test_0 def test_add_recs_dict(self): """UPDATE(SET) recs to an existing message""" msg = Message() msg.set(recs=[{"paramid":PARAM_SWITCH_STATE, "wr":True, "value":1}]) print(msg) msg.dump() @test_0 def test_add_path(self): """UPDATE(SET) a pathed key to an existing message""" msg = Message() msg.set(header_productid=1234) print(msg) msg.dump() @test_0 def test_alter_template(self): #3 header_mfrid=123 """UPDATE(SET) an existing key with a path""" msg = Message(Devices.MIHO005_REPORT) msg.set(header_productid=123) print(msg) msg.dump() @test_0 def test_alter_template_multiple(self): """UPDATE(SET) multiple keys with paths""" msg = Message(Devices.MIHO005_REPORT) msg.set(header_productid=123, header_sensorid=99) print(msg) msg.dump() @test_0 def test_blank_create_header_paths(self): #3 header_mfrid=123 (CREATE) """CREATE message with pathed keys in constructor""" msg = Message(header_mfrid=123, header_productid=456, header_sensorid=789) print(msg) msg.dump() @test_0 def test_blank_create_recs_paths(self): """CREATE message with pathed keys in constructor""" # uses integer path component to mean array index msg = Message(recs_0={"paramid":PARAM_SWITCH_STATE, "wr":True, "value":1}, recs_1={"paramid":PARAM_AIR_PRESSURE, "wr":True, "value":2}) print(msg) msg.dump() @test_0 def test_add_rec_path(self): #5 recs_0_paramid=PARAM_SWITCH_STATE """UPDATE(SET) records in a message""" msg = Message(recs_0={}) # must create rec before you can change it print(msg.pydict) msg.set(recs_0_paramid=PARAM_SWITCH_STATE, recs_0_value=1, recs_0_wr=True) print(msg) msg.dump() @test_0 def test_add_rec_fn_pydict(self): #6 SWITCH_STATE={pydict} """UPDATE(ADD) a rec to message using PARAM constants as keys""" #always creates a new rec at the end and then populates msg = Message() msg.append_rec(PARAM_SWITCH_STATE, {"wr": True, "value":1}) print(msg) msg.dump() @test_0 def test_add_rec_fn_keyed(self): #7 SWITCH_STATE,value=1 (ADD) """UPDATE(ADD) a rec to message using PARAM const and keyed values""" msg = Message() msg.append_rec(PARAM_SWITCH_STATE, wr=True, value=1) print(msg) msg.dump() @test_0 def test_get_pathed(self): """READ from the message with a path key""" msg = Message(Devices.MIHO005_REPORT) print(msg.get("header_mfrid")) @test_0 def test_attr_header(self): #9 msg["header"] msg["recs"][0] """READ(attr) the header""" ## access a specific keyed entry like a normal pydict, for read msg = Message(Devices.MIHO005_REPORT) print(msg["header"]) @test_0 def test_attr_header_field(self): #9 msg["header"] msg["recs"][0] """READ(attr) a field within the header""" ## access a specific keyed entry like a normal pydict, for read msg = Message(Devices.MIHO005_REPORT) print(msg["header"]["mfrid"]) @test_0 def test_attr_recs(self): #9 msg["header"] msg["recs"][0] """READ(attr) all recs""" ## access a specific keyed entry like a normal pydict, for read msg = Message(Devices.MIHO005_REPORT) print(msg["recs"]) @test_0 def test_attr_rec(self): #9 msg["header"] msg["recs"][0] """READ(attr) a single reg""" ## access a specific keyed entry like a normal pydict, for read msg = Message(Devices.MIHO005_REPORT) print(msg["recs"][0]) @test_0 def test_attr_rec_field(self): #9 msg["header"] msg["recs"][0] """READ(attr) a field in a rec""" ## access a specific keyed entry like a normal pydict, for read msg = Message(Devices.MIHO005_REPORT) print(msg["recs"][0]["value"]) @test_0 def test_setattr_header(self): """UPDATE(SET) the header from a setattr key index""" msg = Message(Devices.MIHO005_REPORT) msg["header"] = {"mfrid":111, "productid":222, "sensorid":333} print(msg) @test_0 def test_setattr_header_field_overwrite(self): """UPDATE(SET) overwrite an existing header field""" msg = Message(Devices.MIHO005_REPORT) msg["header"]["productid"] = 999 print(msg) @test_0 def test_setattr_header_field_add(self): """UPDATE(SET) add a new header field""" msg = Message(Devices.MIHO005_REPORT) msg["header"]["timestamp"] = 1234 print(msg) @test_0 def test_setattr_recs(self): """UPDATE(SET) overwrite all recs""" msg = Message(Devices.MIHO005_REPORT) msg["recs"] = [ {"paramid":PARAM_SWITCH_STATE, "wr":True, "value":1}, {"paramid":PARAM_AIR_PRESSURE, "wr":True, "value":33}] print(msg) @test_0 def test_setattr_rec_overwrite(self): """UPDATE(SET) overwrite a single rec""" msg = Message(Devices.MIHO005_REPORT) msg["recs"][0] = {"paramid":9999, "wr":False, "value":9999} print(msg) @test_0 def test_setattr_rec_append(self): """UPDATE(SET) add a new rec by appending""" msg = Message(Devices.MIHO005_REPORT) msg["recs"].append({"paramid":9999, "wr":True, "value":9999}) print(msg) @test_0 def Xtest_setattr_rec_field_overwrite(self): """UPDATE(SET) overwrite an existing rec field""" msg = Message(Devices.MIHO005_REPORT) msg["recs"][0]["value"] = 9999 print(msg) @test_0 def test_setattr_rec_field_append(self): """UPDATE(SET) append a new field""" msg = Message(Devices.MIHO005_REPORT) msg["recs"][0]["colour"] = "**RED**" print(msg) @test_0 def test_paramid_read_rec(self): #10 msg[PARAM_SWITCH_STATE] """READ a rec field keyed by the PARAMID""" #This triggers a sequential search through the recs for the first matching paramid msg = Message(Devices.MIHO005_REPORT) print(msg[PARAM_SWITCH_STATE]) @test_0 def test_paramid_read_missing_rec(self): #10 msg[PARAM_SWITCH_STATE] """READ a rec field keyed by the PARAMID""" #This triggers a sequential search through the recs for the first matching paramid msg = Message(Devices.MIHO005_REPORT) try: print(msg[PARAM_AIR_PRESSURE]) self.fail("Did not get expected exception") except Exception as e: pass #expected @test_0 def test_paramid_read_field(self): """READ a field within a parameter rec""" msg = Message(Devices.MIHO005_REPORT) print(msg[PARAM_SWITCH_STATE]["value"]) @test_0 def test_paramid_write_rec_overwrite(self): """WRITE (overwrite) a whole paramid rec""" msg = Message(recs_0={"paramid":PARAM_SWITCH_STATE, "wr":True, "value":33}) #print(msg) msg[PARAM_SWITCH_STATE] = {"wr":True, "value":99} ##print(msg) print(msg[PARAM_SWITCH_STATE]) @test_0 def test_paramid_write_rec_add(self): """WRITE (add) a whole paramid rec""" msg = Message(Devices.MIHO005_REPORT) msg[PARAM_AIR_PRESSURE] = {"wr":True, "value":1} #print(msg) print(msg[PARAM_AIR_PRESSURE]) @test_0 def test_paramid_write_field_change(self): """WRITE (change) a field in a paramid rec""" msg = Message(recs_0={"paramid":PARAM_SWITCH_STATE, "wr":True, "value":33}) msg[PARAM_SWITCH_STATE]["value"] = 123 print(msg) @test_0 def test_paramid_write_field_add(self): """WRITE(add) a field to a paramid rec""" msg = Message(Devices.MIHO005_REPORT) msg[PARAM_SWITCH_STATE]["colour"] = "***RED***" print(msg) @test_0 def test_repr(self): ## dump a message in printable format msg = Message(Devices.MIHO005_REPORT) print(msg) @test_0 def test_str(self): ## dump a message in printable format msg = Message(Devices.MIHO005_REPORT) print(str(msg)) @test_0 def test_alter_PARAM_NAME_rec(self): #8 SWITCH_STATE_value=1 """UPDATE(alter) a complete rec from a PARAM_NAME index""" msg = Message(Message.BLANK) msg[PARAM_SWITCH_STATE] = {"wr":True, "value":42} msg.set(recs_SWITCH_STATE={"wr":False, "value":99}) print(msg) @test_0 def test_alter_PARAM_NAME_field(self): #8 SWITCH_STATE_value=1 """UPDATE(alter) a rec field from a PARAM_NAME index""" msg = Message(Message.BLANK) msg[PARAM_SWITCH_STATE] = {"wr":True, "value":42} msg.set(recs_SWITCH_STATE_value=22) print(msg) def test_message(): import unittest unittest.main() if __name__ == "__main__": ##TODO: Change these into unittest test cases ##test_value_encoder() ##test_value_decoder() ##test_payload_unencrypted() ##test_payload_encrypted() test_message() # END