mirror of https://github.com/commaai/panda.git
203 lines
6.3 KiB
Python
203 lines
6.3 KiB
Python
import os
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import time
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import pytest
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import random
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import threading
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from flaky import flaky
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from collections import defaultdict
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from panda import Panda
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from panda.tests.hitl.conftest import PandaGroup
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from panda.tests.hitl.helpers import time_many_sends, get_random_can_messages, clear_can_buffers
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@flaky(max_runs=3, min_passes=1)
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@pytest.mark.timeout(35)
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def test_send_recv(p, panda_jungle):
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def test(p_send, p_recv):
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for bus in (0, 1, 2):
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for speed in (10, 20, 50, 100, 125, 250, 500, 1000):
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clear_can_buffers(p_send, speed)
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clear_can_buffers(p_recv, speed)
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comp_kbps = time_many_sends(p_send, bus, p_recv, two_pandas=True)
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saturation_pct = (comp_kbps / speed) * 100.0
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assert 80 < saturation_pct < 100
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print(f"two pandas bus {bus}, 100 messages at speed {speed:4d}, comp speed is {comp_kbps:7.2f}, {saturation_pct:6.2f}%")
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# Run tests in both directions
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p.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
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test(p, panda_jungle)
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test(panda_jungle, p)
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@flaky(max_runs=6, min_passes=1)
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@pytest.mark.timeout(30)
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def test_latency(p, panda_jungle):
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def test(p_send, p_recv):
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for bus in (0, 1, 2):
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for speed in (10, 20, 50, 100, 125, 250, 500, 1000):
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clear_can_buffers(p_send, speed)
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clear_can_buffers(p_recv, speed)
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latencies = []
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comp_kbps_list = []
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saturation_pcts = []
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num_messages = 100
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for _ in range(num_messages):
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st = time.monotonic()
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p_send.can_send(0x1ab, b"message", bus)
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r = []
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while len(r) < 1 and (time.monotonic() - st) < 5:
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r = p_recv.can_recv()
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et = time.monotonic()
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r_echo = []
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while len(r_echo) < 1 and (time.monotonic() - st) < 10:
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r_echo = p_send.can_recv()
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if len(r) == 0 or len(r_echo) == 0:
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print(f"r: {r}, r_echo: {r_echo}")
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assert len(r) == 1
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assert len(r_echo) == 1
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et = (et - st) * 1000.0
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comp_kbps = (1 + 11 + 1 + 1 + 1 + 4 + 8 * 8 + 15 + 1 + 1 + 1 + 7) / et
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latency = et - ((1 + 11 + 1 + 1 + 1 + 4 + 8 * 8 + 15 + 1 + 1 + 1 + 7) / speed)
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assert latency < 5.0
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saturation_pct = (comp_kbps / speed) * 100.0
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latencies.append(latency)
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comp_kbps_list.append(comp_kbps)
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saturation_pcts.append(saturation_pct)
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average_latency = sum(latencies) / num_messages
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assert average_latency < 1.0
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average_comp_kbps = sum(comp_kbps_list) / num_messages
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average_saturation_pct = sum(saturation_pcts) / num_messages
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print("two pandas bus {}, {} message average at speed {:4d}, latency is {:5.3f}ms, comp speed is {:7.2f}, percent {:6.2f}"
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.format(bus, num_messages, speed, average_latency, average_comp_kbps, average_saturation_pct))
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# Run tests in both directions
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p.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
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test(p, panda_jungle)
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test(panda_jungle, p)
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@pytest.mark.panda_expect_can_error
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@pytest.mark.test_panda_types(PandaGroup.GEN2)
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def test_gen2_loopback(p, panda_jungle):
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def test(p_send, p_recv, address=None):
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for bus in range(4):
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obd = False
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if bus == 3:
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obd = True
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bus = 1
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# Clear buses
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clear_can_buffers(p_send)
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clear_can_buffers(p_recv)
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# Send a random string
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addr = address if address else random.randint(1, 2000)
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string = b"test" + os.urandom(4)
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p_send.set_obd(obd)
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p_recv.set_obd(obd)
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time.sleep(0.2)
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p_send.can_send(addr, string, bus)
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time.sleep(0.2)
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content = p_recv.can_recv()
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# Check amount of messages
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assert len(content) == 1
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# Check content
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assert content[0][0] == addr and content[0][1] == string
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# Check bus
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assert content[0][2] == bus
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print("Bus:", bus, "address:", addr, "OBD:", obd, "OK")
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# Run tests in both directions
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p.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
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test(p, panda_jungle)
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test(panda_jungle, p)
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# Test extended frame address with ELM327 mode
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p.set_safety_mode(Panda.SAFETY_ELM327)
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test(p, panda_jungle, 0x18DB33F1)
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test(panda_jungle, p, 0x18DB33F1)
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# TODO: why it's not being reset by fixtures reinit?
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p.set_obd(False)
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panda_jungle.set_obd(False)
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def test_bulk_write(p, panda_jungle):
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# The TX buffers on pandas is 0x100 in length.
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NUM_MESSAGES_PER_BUS = 10000
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def flood_tx(panda):
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print('Sending!')
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msg = b"\xaa" * 8
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packet = []
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# start with many messages on a single bus (higher contention for single TX ring buffer)
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packet += [[0xaa, msg, 0]] * NUM_MESSAGES_PER_BUS
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# end with many messages on multiple buses
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packet += [[0xaa, msg, 0], [0xaa, msg, 1], [0xaa, msg, 2]] * NUM_MESSAGES_PER_BUS
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# Disable timeout
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panda.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
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panda.can_send_many(packet, timeout=0)
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print(f"Done sending {4 * NUM_MESSAGES_PER_BUS} messages!", time.monotonic())
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print(panda.health())
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# Start transmisson
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threading.Thread(target=flood_tx, args=(p,)).start()
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# Receive as much as we can in a few second time period
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rx = []
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old_len = 0
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start_time = time.monotonic()
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while time.monotonic() - start_time < 5 or len(rx) > old_len:
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old_len = len(rx)
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rx.extend(panda_jungle.can_recv())
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print(f"Received {len(rx)} messages", time.monotonic())
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# All messages should have been received
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if len(rx) != 4 * NUM_MESSAGES_PER_BUS:
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raise Exception("Did not receive all messages!")
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def test_message_integrity(p):
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p.set_safety_mode(Panda.SAFETY_ALLOUTPUT)
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p.set_can_loopback(True)
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for i in range(250):
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sent_msgs = defaultdict(set)
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for _ in range(random.randrange(10)):
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to_send = get_random_can_messages(random.randrange(100))
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for m in to_send:
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sent_msgs[m[2]].add((m[0], m[1]))
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p.can_send_many(to_send, timeout=0)
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start_time = time.monotonic()
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while time.monotonic() - start_time < 2 and any(len(sent_msgs[bus]) for bus in range(3)):
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recvd = p.can_recv()
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for msg in recvd:
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if msg[2] >= 128:
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k = (msg[0], bytes(msg[1]))
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bus = msg[2]-128
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assert k in sent_msgs[bus], f"message {k} was never sent on bus {bus}"
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sent_msgs[msg[2]-128].discard(k)
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# if a set isn't empty, messages got dropped
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for bus in range(3):
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assert not len(sent_msgs[bus]), f"loop {i}: bus {bus} missing {len(sent_msgs[bus])} messages"
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print("Got all messages intact")
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