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protocol4-parse.lua
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protocol4-parse.lua
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-- busted -e 'package.path="./?/init.lua;./?.lua;"..package.path' tests/spec/protocol4-parse.lua
-- DOC: http://docs.oasis-open.org/mqtt/mqtt/v3.1.1/errata01/os/mqtt-v3.1.1-errata01-os-complete.html
describe("MQTT v3.1.1 protocol: parsing packets", function()
local mqtt = require("mqtt")
local protocol = require("mqtt.protocol")
local protocol4 = require("mqtt.protocol4")
local extract_hex = require("mqtt.tools").extract_hex
-- returns read_func-compatible function
local function make_read_func_hex(hex)
-- decode hex string into data
local data = {}
for i = 1, hex:len() / 2 do
local byte = hex:sub(i*2 - 1, i*2)
data[#data + 1] = string.char(tonumber(byte, 16))
end
data = table.concat(data)
-- and return read_func
local data_size = data:len()
local pos = 1
return function(size)
if pos > data_size then
return false, "no more data available"
end
local res = data:sub(pos, pos + size - 1)
if res:len() ~= size then
return false, "not enough unparsed data"
end
pos = pos + size
return res
end
end
it("failures", function()
assert.is_false(protocol4.parse_packet(make_read_func_hex("")))
assert.is_false(protocol4.parse_packet(make_read_func_hex("01")))
assert.is_false(protocol4.parse_packet(make_read_func_hex("02")))
assert.is_false(protocol4.parse_packet(make_read_func_hex("0304")))
assert.is_false(protocol4.parse_packet(make_read_func_hex("20")))
assert.is_false(protocol4.parse_packet(make_read_func_hex("20030000"))) -- CONNACK with invalid length
end)
it("CONNECT", function()
assert.is_false(protocol4.parse_packet(make_read_func_hex("")))
assert.are.same(
{
type=protocol.packet_type.CONNECT,
version = mqtt.v311, clean = false, keep_alive = 0, id = "",
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
10 -- packet type == 1 (CONNECT), flags == 0 (reserved)
0C -- variable length == 12 bytes
0004 4D515454 -- protocol name length (4 bytes) and "MQTT" string
04 -- protocol version: 4 (v3.1.1)
00 -- connect flags
0000 -- keep alive == 0
0000 -- client id length (0 bytes) and its string content (empty)
]]
))
)
assert.are.same(
{
type=protocol.packet_type.CONNECT,
version = mqtt.v311, clean = true, keep_alive = 30, id = "",
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
10 -- packet type == 1 (CONNECT), flags == 0 (reserved)
0C -- variable length == 12 bytes
0004 4D515454 -- protocol name length (4 bytes) and "MQTT" string
04 -- protocol version: 4 (v3.1.1)
02 -- connect flags: clean=true
001E -- keep alive == 30
0000 -- client id length (0 bytes) and its string content (empty)
]]
))
)
assert.are.same(
{
type=protocol.packet_type.CONNECT,
version = mqtt.v311, clean = false, keep_alive = 30, id = "test",
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
10 -- packet type == 1 (CONNECT), flags == 0 (reserved)
10 -- variable length == 16 bytes
0004 4D515454 -- protocol name length (4 bytes) and "MQTT" string
04 -- protocol version: 4 (v3.1.1)
00 -- connect flags
001E -- keep alive == 30
0004 74657374 -- client id length (4 bytes) and its string content - "test"
]]
))
)
assert.are.same(
{
type=protocol.packet_type.CONNECT,
version = mqtt.v311, clean = false, keep_alive = 30, id = "",
will = { topic = "bye", payload = "bye", retain = false, qos = 0, },
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
10 -- packet type == 1 (CONNECT), flags == 0 (reserved)
16 -- variable length == 22 bytes
0004 4D515454 -- protocol name length (4 bytes) and "MQTT" string
04 -- protocol version: 4 (v3.1.1)
04 -- connect flags: clean=false, will=true
001E -- keep alive == 30
0000 -- client id length (0 bytes) and its string content (empty)
0003 627965 -- will topic: length (3 bytes) and "bye" string
0003 627965 -- will message: length (3 bytes) and "bye" string
]]
))
)
assert.are.same(
{
type=protocol.packet_type.CONNECT,
version = mqtt.v311, clean = false, keep_alive = 30, id = "",
will = { topic = "bye", payload = "", retain = true, qos = 2, },
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
10 -- packet type == 1 (CONNECT), flags == 0 (reserved)
13 -- variable length == 19 bytes
0004 4D515454 -- protocol name length (4 bytes) and "MQTT" string
04 -- protocol version: 4 (v3.1.1)
34 -- connect flags: clean=false, will=true, will.qos=2, will.retain=true
001E -- keep alive == 30
0000 -- client id length (0 bytes) and its string content (empty)
0003 627965 -- will topic: length (3 bytes) and "bye" string
0000 -- will message: length (0 bytes) and empty string
]]
))
)
assert.are.same(
{
type=protocol.packet_type.CONNECT,
version = mqtt.v311, clean = false, keep_alive = 30, id = "", username = "user",
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
10 -- packet type == 1 (CONNECT), flags == 0 (reserved)
12 -- variable length == 18 bytes
0004 4D515454 -- protocol name length (4 bytes) and "MQTT" string
04 -- protocol version: 4 (v3.1.1)
80 -- connect flags: clean=false, will=false, password=false, username=true
001E -- keep alive == 30
0000 -- client id length (0 bytes) and its string content (empty)
0004 75736572 -- username length (4 bytes) and "user" string
]]
))
)
assert.are.same(
{
type=protocol.packet_type.CONNECT,
version = mqtt.v311, clean = false, keep_alive = 30, id = "", username = "user", password = "1234",
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
10 -- packet type == 1 (CONNECT), flags == 0 (reserved)
18 -- variable length == 24 bytes
0004 4D515454 -- protocol name length (4 bytes) and "MQTT" string
04 -- protocol version: 4 (v3.1.1)
C0 -- connect flags: clean=false, will=false, password=true, username=true
001E -- keep alive == 30
0000 -- client id length (0 bytes) and its string content (empty)
0004 75736572 -- username length (4 bytes) and "user" string
0004 31323334 -- password length (4 bytes) and "1234" payload
]]
))
)
end)
it("CONNACK", function()
assert.is_false(protocol4.parse_packet(make_read_func_hex("")))
assert.are.same(
{
type=protocol.packet_type.CONNACK, sp=false, rc=0
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
20 -- packet type == 2 (CONNACK), flags == 0
02 -- variable length == 2 bytes
00 -- 0-th bit is sp (session present) -- DOC: 3.2.2.2 Session Present
00 -- CONNACK return code
]]
))
)
assert.are.same(
{
type=protocol.packet_type.CONNACK, sp=true, rc=0
},
protocol4.parse_packet(make_read_func_hex(
extract_hex("20 02 0100")
))
)
local packet = protocol4.parse_packet(make_read_func_hex(
extract_hex("20 02 0001")
))
assert.are.same(
{
type=protocol.packet_type.CONNACK, sp=false, rc=1
},
packet
)
assert.are.same("Connection Refused, unacceptable protocol version", packet:reason_string())
packet = protocol4.parse_packet(make_read_func_hex(
extract_hex("20 02 0020")
))
assert.are.same(
{
type=protocol.packet_type.CONNACK, sp=false, rc=32
},
packet
)
assert.are.same("Unknown: 32", packet:reason_string())
end)
it("PUBLISH", function()
assert.are.same(
{
type = protocol.packet_type.PUBLISH,
dup = true,
qos = 1,
retain = true,
packet_id = 1,
topic = "some",
payload = "qos == 1, ok!",
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
3B -- packet type == 3 (PUBLISH), flags == 0xB == 1011 (dup=true, qos=1, retain=true)
15 -- variable length == 0x15 == 21 bytes
0004 736F6D65 -- topic "some"
0001 -- packet id of PUBLISH packet
716F73203D3D20312C206F6B21 -- payload to publish: "qos == 1, ok!"
]]
))
)
assert.are.same(
{
type = protocol.packet_type.PUBLISH,
dup = false,
qos = 0,
retain = false,
topic = "some",
payload = "qos == 1, ok!",
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
30 -- packet type == 3 (PUBLISH), flags == 0 == 0000 (dup=false, qos=0, retain=false)
13 -- variable length == 0x13 == 19 bytes
0004 736F6D65 -- topic "some"
716F73203D3D20312C206F6B21 -- payload to publish: "qos == 1, ok!"
]]
))
)
end)
it("PUBACK", function()
assert.are.same(
{
type=protocol.packet_type.PUBACK, packet_id=1
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
40 -- packet type == 4 (PUBACK), flags == 0
02 -- variable length == 2 bytes
0001 -- packet id of acknowledged PUBLISH packet
]]
))
)
assert.are.same(
{
type=protocol.packet_type.PUBACK, packet_id=0x7FF7
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
40 -- packet type == 4 (PUBACK), flags == 0
02 -- variable length == 2 bytes
7FF7 -- packet id of acknowledged PUBLISH packet
]]
))
)
end)
it("PUBREC", function()
assert.are.same(
{
type=protocol.packet_type.PUBREC, packet_id=1
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
50 -- packet type == 5 (PUBREC), flags == 0
02 -- variable length == 2 bytes
0001 -- packet id of acknowledged PUBLISH packet
]]
))
)
assert.are.same(
{
type=protocol.packet_type.PUBREC, packet_id=0x4567
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
50 -- packet type == 5 (PUBREC), flags == 0
02 -- variable length == 2 bytes
4567 -- packet id of acknowledged PUBLISH packet
]]
))
)
end)
it("PUBREL", function()
assert.are.same(
{
type=protocol.packet_type.PUBREL, packet_id=1
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
62 -- packet type == 6 (PUBREL), flags == 2 (reserved bits: 0010)
02 -- variable length == 2 bytes
0001 -- packet id of acknowledged PUBLISH packet
]]
))
)
assert.are.same(
{
type=protocol.packet_type.PUBREL, packet_id=0x1234
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
62 -- packet type == 6 (PUBREL), flags == 2 (reserved bits: 0010)
02 -- variable length == 2 bytes
1234 -- packet id of acknowledged PUBLISH packet
]]
))
)
end)
it("PUBCOMP", function()
assert.are.same(
{
type=protocol.packet_type.PUBCOMP, packet_id=1
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
70 -- packet type == 7 (PUBCOMP), flags == 0 (reserved bits: 0000)
02 -- variable length == 2 bytes
0001 -- packet id of acknowledged PUBLISH packet
]]
))
)
assert.are.same(
{
type=protocol.packet_type.PUBCOMP, packet_id=0x1234
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
70 -- packet type == 7 (PUBCOMP), flags == 0 (reserved bits: 0000)
02 -- variable length == 2 bytes
1234 -- packet id of acknowledged PUBLISH packet
]]
))
)
end)
it("SUBSCRIBE", function()
assert.are.same(
{
type=protocol.packet_type.SUBSCRIBE, packet_id=1, subscriptions={
{
topic = "some",
qos = 0,
},
},
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
82 -- packet type == 8 (SUBSCRIBE), flags == 0x2 (fixed value)
09 -- length == 9 bytes
0001 -- variable header: Packet Identifier == 1
0004 736F6D65 -- topic filter #1 == string "some"
00 -- QoS #1 == 0
]]
))
)
assert.are.same(
{
type=protocol.packet_type.SUBSCRIBE, packet_id=2, subscriptions={
{
topic = "some/#",
qos = 0,
},
{
topic = "other/+/topic/#",
qos = 1,
},
{
topic = "#",
qos = 2,
},
},
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
82 -- packet type == 8 (SUBSCRIBE), flags == 0x2 (fixed value)
21 -- length == 0x21 == 33 bytes
0002 -- variable header: Packet Identifier == 2
0006 736F6D652F23 -- topic filter #1 == string "some/#"
00 -- QoS #1
000F 6F746865722F2B2F746F7069632F23 -- topic filter #2 == string "other/+/topic/#"
01 -- QoS #2
0001 23 -- topic filter #3 == string "#"
02 -- QoS #3
]]
))
)
end)
it("SUBACK", function()
assert.are.same(
{
type=protocol.packet_type.SUBACK, packet_id=1, rc={0},
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
90 -- packet type == 9 (SUBACK), flags == 0
03 -- variable length == 3 bytes
0001 -- packet id of acknowledged SUBSCRIBE packet
00 -- payload: return code, array of maximum allowed QoS-es
]]
))
)
assert.are.same(
{
type=protocol.packet_type.SUBACK, packet_id=0x1234, rc={0},
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
90 -- packet type == 9 (SUBACK), flags == 0
03 -- variable length == 3 bytes
1234 -- packet id of acknowledged SUBSCRIBE packet
00 -- payload: return code, array of maximum allowed QoS-es
]]
))
)
local packet = protocol4.parse_packet(make_read_func_hex(
extract_hex[[
90 -- packet type == 9 (SUBACK), flags == 0
05 -- variable length == 5 bytes
1234 -- packet id of acknowledged SUBSCRIBE packet
02 03 80 -- payload: return code, array of maximum allowed QoS-es
]]
))
assert.are.same(
{
type=protocol.packet_type.SUBACK, packet_id=0x1234, rc={2, 3, 0x80},
},
packet
)
assert.are.same(
{
"Success - Maximum QoS 2",
"Unknown: 3",
"Failure",
},
packet:reason_strings()
)
end)
it("UNSUBSCRIBE", function()
assert.are.same(
{
type=protocol.packet_type.UNSUBSCRIBE, packet_id=1, subscriptions={
"some"
},
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
A2 -- packet type == 0xA == 10 (UNSUBSCRIBE), flags == 0x2 (fixed value)
08 -- length == 8 bytes
0001 -- variable header: Packet Identifier == 1
0004 736F6D65 -- topic filter #1 == string "some"
]]
))
)
assert.are.same(
{
type=protocol.packet_type.UNSUBSCRIBE, packet_id=0x1234, subscriptions = {
"some/#",
"other/+/topic/#",
"#",
},
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
A2 -- packet type == 0xA == 10 (UNSUBSCRIBE), flags == 0x2 (fixed value)
1E -- length == 0x1E == 30 bytes
1234 -- variable header: Packet Identifier == 0x1234
0006 736F6D652F23 -- topic filter #1 == string "some/#"
000F 6F746865722F2B2F746F7069632F23 -- topic filter #1 == string "other/+/topic/#"
0001 23 -- topic filter #1 == string "#"
]]
))
)
end)
it("UNSUBACK", function()
assert.are.same(
{
type=protocol.packet_type.UNSUBACK, packet_id=1,
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
B0 -- packet type == 0xB == 11 (UNSUBACK), flags == 0
02 -- variable length == 2 bytes
0001 -- packet id of acknowledged UNSUBSCRIBE packet
]]
))
)
assert.are.same(
{
type=protocol.packet_type.UNSUBACK, packet_id=0x1234,
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
B0 -- packet type == 0xB == 11 (UNSUBACK), flags == 0
02 -- variable length == 2 bytes
1234 -- packet id of acknowledged UNSUBSCRIBE packet
]]
))
)
end)
it("PINGREQ", function()
assert.are.same(
{
type=protocol.packet_type.PINGREQ,
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
C0 -- packet type == 0xC == 12 (PINGREQ), flags == 0
00 -- variable length == 0 bytes
]]
))
)
end)
it("PINGRESP", function()
assert.are.same(
{
type=protocol.packet_type.PINGRESP,
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
D0 -- packet type == 0xD == 13 (PINGRESP), flags == 0
00 -- variable length == 0 bytes
]]
))
)
end)
it("DISCONNECT", function()
assert.are.same(
{
type=protocol.packet_type.DISCONNECT,
},
protocol4.parse_packet(make_read_func_hex(
extract_hex[[
E0 -- packet type == 0xE == 14 (DISCONNECT), flags == 0
00 -- variable length == 0 bytes
]]
))
)
end)
end)
-- vim: ts=4 sts=4 sw=4 noet ft=lua