veilid/veilid-python/tests/test_dht.py
DumontIO c92e07c88e Python code cleanup
These changes should not change any functionality.

In code:

- Added async keyword to CryptoSystem::kind since it's actually implemented async
- Removed unused socket import in json_api

In tests:
- Removed unused imports
- Removed unnecessary return statements
- Removed unused variables
- Cleaned up some spacing to match PEP-8
- Changed many comparisons to match PEP-8
- Use ValueSubKey classes instead of integers to keep types in line
2024-08-13 16:47:06 -04:00

479 lines
18 KiB
Python

# Routing context veilid tests
import pytest
import asyncio
import time
import os
import veilid
from veilid import ValueSubkey
##################################################################
BOGUS_KEY = veilid.TypedKey.from_value(
veilid.CryptoKind.CRYPTO_KIND_VLD0, veilid.PublicKey.from_bytes(b' '))
@pytest.mark.asyncio
async def test_get_dht_value_unopened(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
with pytest.raises(veilid.VeilidAPIError):
await rc.get_dht_value(BOGUS_KEY, ValueSubkey(0), False)
@pytest.mark.asyncio
async def test_open_dht_record_nonexistent_no_writer(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
with pytest.raises(veilid.VeilidAPIError):
await rc.open_dht_record(BOGUS_KEY, None)
@pytest.mark.asyncio
async def test_close_dht_record_nonexistent(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
with pytest.raises(veilid.VeilidAPIError):
await rc.close_dht_record(BOGUS_KEY)
@pytest.mark.asyncio
async def test_delete_dht_record_nonexistent(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
with pytest.raises(veilid.VeilidAPIError):
await rc.delete_dht_record(BOGUS_KEY)
@pytest.mark.asyncio
async def test_create_delete_dht_record_simple(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
rec = await rc.create_dht_record(
veilid.DHTSchema.dflt(1), veilid.CryptoKind.CRYPTO_KIND_VLD0
)
await rc.close_dht_record(rec.key)
await rc.delete_dht_record(rec.key)
@pytest.mark.asyncio
async def test_get_dht_value_nonexistent(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
rec = await rc.create_dht_record(veilid.DHTSchema.dflt(1))
assert await rc.get_dht_value(rec.key, ValueSubkey(0), False) is None
await rc.close_dht_record(rec.key)
await rc.delete_dht_record(rec.key)
@pytest.mark.asyncio
async def test_set_get_dht_value(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
rec = await rc.create_dht_record(veilid.DHTSchema.dflt(2))
vd = await rc.set_dht_value(rec.key, ValueSubkey(0), b"BLAH BLAH BLAH")
assert vd is None
vd2 = await rc.get_dht_value(rec.key, ValueSubkey(0), False)
assert vd2 is not None
vd3 = await rc.get_dht_value(rec.key, ValueSubkey(0), True)
assert vd3 is not None
vd4 = await rc.get_dht_value(rec.key, ValueSubkey(1), False)
assert vd4 is None
print("vd2: {}", vd2.__dict__)
print("vd3: {}", vd3.__dict__)
assert vd2 == vd3
await rc.close_dht_record(rec.key)
await rc.delete_dht_record(rec.key)
@pytest.mark.asyncio
async def test_open_writer_dht_value(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
rec = await rc.create_dht_record(veilid.DHTSchema.dflt(2))
key = rec.key
owner = rec.owner
secret = rec.owner_secret
print(f"key:{key}")
cs = await api_connection.get_crypto_system(rec.key.kind())
async with cs:
assert await cs.validate_key_pair(owner, secret)
other_keypair = await cs.generate_key_pair()
va = b"Qwertyuiop Asdfghjkl Zxcvbnm"
vb = b"1234567890"
vc = b"!@#$%^&*()"
# Test subkey writes
vdtemp = await rc.set_dht_value(key, ValueSubkey(1), va)
assert vdtemp is None
vdtemp = await rc.get_dht_value(key, ValueSubkey(1), False)
assert vdtemp.data == va
assert vdtemp.seq == 0
assert vdtemp.writer == owner
vdtemp = await rc.get_dht_value(key, ValueSubkey(0), False)
assert vdtemp is None
vdtemp = await rc.set_dht_value(key, ValueSubkey(0), vb)
assert vdtemp is None
vdtemp = await rc.get_dht_value(key, ValueSubkey(0), True)
assert vdtemp.data == vb
vdtemp = await rc.get_dht_value(key, ValueSubkey(1), True)
assert vdtemp.data == va
# Equal value should not trigger sequence number update
vdtemp = await rc.set_dht_value(key, ValueSubkey(1), va)
assert vdtemp is None
# Different value should trigger sequence number update
vdtemp = await rc.set_dht_value(key, ValueSubkey(1), vb)
assert vdtemp is None
# Now that we initialized some subkeys
# and verified they stored correctly
# Delete things locally and reopen and see if we can write
# with the same writer key
await rc.close_dht_record(key)
await rc.delete_dht_record(key)
rec = await rc.open_dht_record(key, veilid.KeyPair.from_parts(owner, secret))
assert rec is not None
assert rec.key == key
assert rec.owner == owner
assert rec.owner_secret == secret
assert rec.schema.kind == veilid.DHTSchemaKind.DFLT
assert rec.schema.o_cnt == 2
# Verify subkey 1 can be set before it is get but newer is available online
vdtemp = await rc.set_dht_value(key, ValueSubkey(1), vc)
assert vdtemp is not None
assert vdtemp.data == vb
assert vdtemp.seq == 1
assert vdtemp.writer == owner
# Verify subkey 1 can be set a second time and it updates because seq is newer
vdtemp = await rc.set_dht_value(key, ValueSubkey(1), vc)
assert vdtemp is None
# Verify the network got the subkey update with a refresh check
vdtemp = await rc.get_dht_value(key, ValueSubkey(1), True)
assert vdtemp is not None
assert vdtemp.data == vc
assert vdtemp.seq == 2
assert vdtemp.writer == owner
# Delete things locally and reopen and see if we can write
# with a different writer key (should fail)
await rc.close_dht_record(key)
await rc.delete_dht_record(key)
rec = await rc.open_dht_record(key, other_keypair)
assert rec is not None
assert rec.key == key
assert rec.owner == owner
assert rec.owner_secret is None
assert rec.schema.kind == veilid.DHTSchemaKind.DFLT
assert rec.schema.o_cnt == 2
# Verify subkey 1 can NOT be set because we have the wrong writer
with pytest.raises(veilid.VeilidAPIError):
await rc.set_dht_value(key, ValueSubkey(1), va)
# Verify subkey 0 can NOT be set because we have the wrong writer
with pytest.raises(veilid.VeilidAPIError):
await rc.set_dht_value(key, ValueSubkey(0), va)
# Verify subkey 0 can be set because override with the right writer
vdtemp = await rc.set_dht_value(key, ValueSubkey(0), va, veilid.KeyPair.from_parts(owner, secret))
assert vdtemp is None
# Clean up
await rc.close_dht_record(key)
await rc.delete_dht_record(key)
@pytest.mark.asyncio
async def test_watch_dht_values():
value_change_queue: asyncio.Queue[veilid.VeilidUpdate] = asyncio.Queue()
async def value_change_update_callback(update: veilid.VeilidUpdate):
if update.kind == veilid.VeilidUpdateKind.VALUE_CHANGE:
await value_change_queue.put(update)
try:
api = await veilid.api_connector(value_change_update_callback)
except veilid.VeilidConnectionError:
pytest.skip("Unable to connect to veilid-server.")
# Make two routing contexts, one with and one without safety
# So we can pretend to be a different node and get the watch updates
# Normally they would not get sent if the set comes from the same target
# as the watch's target
rcWatch = await api.new_routing_context()
rcSet = await (await api.new_routing_context()).with_safety(
veilid.SafetySelection.unsafe(veilid.Sequencing.ENSURE_ORDERED)
)
async with rcWatch, rcSet:
# Make a DHT record
rec = await rcWatch.create_dht_record(veilid.DHTSchema.dflt(10))
# Set some subkey we care about
vd = await rcWatch.set_dht_value(rec.key, ValueSubkey(3), b"BLAH BLAH BLAH")
assert vd is None
# Make a watch on that subkey
ts = await rcWatch.watch_dht_values(rec.key, [], 0, 0xFFFFFFFF)
assert ts != 0
# Reopen without closing to change routing context and not lose watch
rec = await rcSet.open_dht_record(rec.key, rec.owner_key_pair())
# Now set the subkey and trigger an update
vd = await rcSet.set_dht_value(rec.key, ValueSubkey(3), b"BLAH")
assert vd is None
# Now we should NOT get an update because the update is the same as our local copy
update = None
try:
update = await asyncio.wait_for(value_change_queue.get(), timeout=5)
except asyncio.TimeoutError:
pass
assert update is None
# Now set multiple subkeys and trigger an update
vd = await asyncio.gather(*[rcSet.set_dht_value(rec.key, ValueSubkey(3), b"BLAH BLAH"), rcSet.set_dht_value(rec.key, ValueSubkey(4), b"BZORT")])
assert vd == [None, None]
# Wait for the update
upd = await asyncio.wait_for(value_change_queue.get(), timeout=5)
# Verify the update came back but we don't get a new value because the sequence number is the same
assert upd.detail.key == rec.key
assert upd.detail.count == 0xFFFFFFFD
assert upd.detail.subkeys == [(3, 4)]
assert upd.detail.value is None
# Reopen without closing to change routing context and not lose watch
rec = await rcWatch.open_dht_record(rec.key, rec.owner_key_pair())
# Cancel some subkeys we don't care about
still_active = await rcWatch.cancel_dht_watch(rec.key, [(ValueSubkey(0), ValueSubkey(2))])
assert still_active
# Reopen without closing to change routing context and not lose watch
rec = await rcSet.open_dht_record(rec.key, rec.owner_key_pair())
# Now set multiple subkeys and trigger an update
vd = await asyncio.gather(*[rcSet.set_dht_value(rec.key, ValueSubkey(3), b"BLAH BLAH BLAH"), rcSet.set_dht_value(rec.key, ValueSubkey(5), b"BZORT BZORT")])
assert vd == [None, None]
# Wait for the update, this longer timeout seems to help the flaky check below
upd = await asyncio.wait_for(value_change_queue.get(), timeout=10)
# Verify the update came back but we don't get a new value because the sequence number is the same
assert upd.detail.key == rec.key
# This check is flaky on slow connections and often fails with different counts
assert upd.detail.count == 0xFFFFFFFC
assert upd.detail.subkeys == [(3, 3), (5, 5)]
assert upd.detail.value is None
# Reopen without closing to change routing context and not lose watch
rec = await rcWatch.open_dht_record(rec.key, rec.owner_key_pair())
# Now cancel the update
still_active = await rcWatch.cancel_dht_watch(rec.key, [(ValueSubkey(3), ValueSubkey(9))])
assert not still_active
# Reopen without closing to change routing context and not lose watch
rec = await rcSet.open_dht_record(rec.key, rec.owner_key_pair())
# Now set multiple subkeys
vd = await asyncio.gather(*[rcSet.set_dht_value(rec.key, ValueSubkey(3), b"BLAH BLAH BLAH BLAH"), rcSet.set_dht_value(rec.key, ValueSubkey(5), b"BZORT BZORT BZORT")])
assert vd == [None, None]
# Now we should NOT get an update
update = None
try:
update = await asyncio.wait_for(value_change_queue.get(), timeout=5)
except asyncio.TimeoutError:
pass
assert update is None
# Clean up
await rcSet.close_dht_record(rec.key)
await rcSet.delete_dht_record(rec.key)
@pytest.mark.asyncio
async def test_inspect_dht_record(api_connection: veilid.VeilidAPI):
rc = await api_connection.new_routing_context()
async with rc:
rec = await rc.create_dht_record(veilid.DHTSchema.dflt(2))
vd = await rc.set_dht_value(rec.key, ValueSubkey(0), b"BLAH BLAH BLAH")
assert vd is None
rr = await rc.inspect_dht_record(rec.key, [], veilid.DHTReportScope.LOCAL)
print("rr: {}", rr.__dict__)
assert rr.subkeys == [[0,1]]
assert rr.local_seqs == [0, 0xFFFFFFFF]
assert rr.network_seqs == []
rr2 = await rc.inspect_dht_record(rec.key, [], veilid.DHTReportScope.SYNC_GET)
print("rr2: {}", rr2.__dict__)
assert rr2.subkeys == [[0,1]]
assert rr2.local_seqs == [0, 0xFFFFFFFF]
assert rr2.network_seqs == [0, 0xFFFFFFFF]
await rc.close_dht_record(rec.key)
await rc.delete_dht_record(rec.key)
@pytest.mark.skipif(os.getenv("INTEGRATION") != "1", reason="integration test requires two servers running")
@pytest.mark.asyncio
async def test_dht_integration_writer_reader():
async def null_update_callback(update: veilid.VeilidUpdate):
pass
try:
api0 = await veilid.api_connector(null_update_callback, 0)
except veilid.VeilidConnectionError:
pytest.skip("Unable to connect to veilid-server 0.")
try:
api1 = await veilid.api_connector(null_update_callback, 1)
except veilid.VeilidConnectionError:
pytest.skip("Unable to connect to veilid-server 1.")
async with api0, api1:
# purge local and remote record stores to ensure we start fresh
await api0.debug("record purge local")
await api0.debug("record purge remote")
await api1.debug("record purge local")
await api1.debug("record purge remote")
# make routing contexts
rc0 = await api0.new_routing_context()
rc1 = await api1.new_routing_context()
async with rc0, rc1:
COUNT = 100
TEST_DATA = b"test data"
# write dht records on server 0
records = []
schema = veilid.DHTSchema.dflt(1)
print(f'writing {COUNT} records')
for n in range(COUNT):
desc = await rc0.create_dht_record(schema)
records.append(desc)
await rc0.set_dht_value(desc.key, ValueSubkey(0), TEST_DATA)
print(f' {n}')
print('syncing records to the network')
for desc0 in records:
while True:
rr = await rc0.inspect_dht_record(desc0.key, [])
if len(rr.offline_subkeys) == 0:
await rc0.close_dht_record(desc0.key)
break
time.sleep(0.1)
# read dht records on server 1
print(f'reading {COUNT} records')
n = 0
for desc0 in records:
desc1 = await rc1.open_dht_record(desc0.key)
vd1 = await rc1.get_dht_value(desc1.key, ValueSubkey(0))
assert vd1.data == TEST_DATA
await rc1.close_dht_record(desc1.key)
print(f' {n}')
n += 1
@pytest.mark.asyncio
async def test_dht_write_read_local():
async def null_update_callback(update: veilid.VeilidUpdate):
pass
try:
api0 = await veilid.api_connector(null_update_callback, 0)
except veilid.VeilidConnectionError:
pytest.skip("Unable to connect to veilid-server 0.")
async with api0:
# purge local and remote record stores to ensure we start fresh
await api0.debug("record purge local")
await api0.debug("record purge remote")
# make routing contexts
rc0 = await api0.new_routing_context()
async with rc0:
# Previously COUNT was set to 500, which causes these tests to take
# 10s of minutes on slow connections or debug veilid-server builds
COUNT = 10
TEST_DATA = b"ABCD"*1024
TEST_DATA2 = b"ABCD"*4096
# write dht records on server 0
records = []
schema = veilid.DHTSchema.dflt(2)
print(f'writing {COUNT} records')
for n in range(COUNT):
desc = await rc0.create_dht_record(schema)
records.append(desc)
await rc0.set_dht_value(desc.key, ValueSubkey(0), TEST_DATA)
await rc0.set_dht_value(desc.key, ValueSubkey(1), TEST_DATA2)
print(f' {n}')
print(f'syncing records to the network')
for desc0 in records:
while True:
rr = await rc0.inspect_dht_record(desc0.key, [])
if len(rr.offline_subkeys) == 0:
await rc0.close_dht_record(desc0.key)
break
time.sleep(0.1)
# read dht records on server 0
print(f'reading {COUNT} records')
n = 0
for desc0 in records:
desc1 = await rc0.open_dht_record(desc0.key)
vd0 = await rc0.get_dht_value(desc1.key, ValueSubkey(0))
assert vd0.data == TEST_DATA
vd1 = await rc0.get_dht_value(desc1.key, ValueSubkey(1))
assert vd1.data == TEST_DATA2
await rc0.close_dht_record(desc1.key)
print(f' {n}')
n += 1