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logos-messaging-interop-tests/tests/wrappers_tests/test_send_relay_propagation.py
AYAHASSAN287 4ba30a8aff
e2e part3 (#181) 
* add test s17

* Add temp changes

* Add s17 positive / negative scenarios

* add S19

* Add S06 relay-only test and fix wrapper helpers (#173)

* - Add S06 relay-only test case for testing message propagation without a store.
- Update `wrapper_helpers` for clearer event type handling and type annotations (`Optional[...]` usage).
- Simplify `get_node_multiaddr` to retrieve addresses via `get_node_info_raw`.
- Refactor `wrappers_manager` to adjust bindings path to `vendor` directory and add `get_node_info_raw` method.
- Update `.gitignore` to exclude `store.sqlite3*`.

* Refactor S06 relay-only test: replace try-finally blocks with context managers for clarity and conciseness.

* Migrate S06 relay-only test to `test_send_e2e.py` and refactor with `StepsCommon` for reusability.

---------

Co-authored-by: Egor Rachkovskii <egorrachkovskii@status.im>

* Modify S19 test

* Adding S21

* Fix review comments

* Adding S22/S23

* Adding S24

* Add S26

* Add S30

* Add S31

* Improve `wait_for_event` loop logic and add `assert_event_invariants` helper (#178)

- Refactored the `wait_for_event` function for clarity and to ensure proper deadline handling within the loop.
- Introduced `assert_event_invariants` to validate per-request event properties, enforcing invariants like correct `requestId`, no duplicate terminal events, and proper timing between `Propagated` and `Sent`.
- Added tests for `assert_event_invariants` enforcement in `S14` and `S15` lightpush scenarios.

Co-authored-by: Egor Rachkovskii <egorrachkovskii@status.im>

* Add S07 and S10 send API tests with event invariants helper  (#176)

* Add `assert_event_invariants` to enforce per-request event constraints and integrate into relevant tests

* Integrate `assert_event_invariants` into edge and store tests

* Remove redundant comments from `test_send_e2e.py`

---------

Co-authored-by: Egor Rachkovskii <egorrachkovskii@status.im>

* Fix some tests

* Add S02/S12 send API tests and PR CI pipeline (#174)

* Add tests for auto-subscribe on first send and isolated sender with no peers

* Add PR CI workflow with tiered test strategy

- pr_tests.yml: build job with cache, wrapper-tests, smoke-tests,
  and label-triggered full-suite
- test_common.yml: add deploy_allure/send_discord inputs so PR runs
  skip reporting side effects
- Add docker_required marker to S19 (needs Docker, excluded from
  wrapper-only CI job)
- Register docker_required marker in pytest.ini

* Document PR CI test workflows in README

* Refine PR CI test strategy:
- Exclude `docker_required` tests from smoke set in `pr_tests.yml`.
- Add `wait_for_connected` helper for connection state checks.
- Update S19 test to dynamically create and clean up the store node setup.
- General simplifications and improved test stability.

* Add `wait_for_connected` assertion to ensure sender connection state before propagation test

* Refine tests and CI workflows:
- Replace `ERROR_TIMEOUT_S` with `ERROR_AFTER_CACHE_EXPIRY_TIMEOUT_S` in `test_send_e2e.py`.
- Adjust timeout assertion for better clarity and accuracy.
- Update `pr_tests.yml` to add retries (`--reruns`) and ignore wrapper tests in smoke tests.
- Change `test_common.yml` default Discord reporting to `false`.

* Normalize `portsshift` to `portsShift` in `test_send_e2e.py` configuration definitions.

---------

Co-authored-by: Egor Rachkovskii <egorrachkovskii@status.im>

* Add relay-to-lightpush fallback integration tests (S08/S09) (#180)

Co-authored-by: Egor Rachkovskii <egorrachkovskii@status.im>

* Ignore S19

* fix s26

* Ignore s20 / s31 for errors

* Change image name

* fix xfail syntax error

* rename test file

* FIx flaky tests

* comment the skipped tests

* Fix review comments

* revert tag in yml in latest

* commenting lightpush

* Modify the PR

* Fix the ports conflict

* Modify S20

* fix portsshift option

* remove the /true from yml to allow errors to exist

* Modify the yml to continue on error

* First set of review comments

* adding xfail mark for failed tests

* address review comments about xfail

* cleanup unused lines

* event collector fix

* Address review comment about delay constant

* fix the timeout review comment

* Add assert_event_invariants

* enhance comment on S26 test

* mark the waku tests as docker_required

* Add S01

* add S01 second scenario

* Add S03

* Add S04

* Adding S11

* modify s11 scenario to pass

* Adding test S05

* Adding the new tests in part3 file

* Fix the yml file error

* Add the new test file to the PR job

* bump logos-delivery-python-bindings to include destroy_keep_ctx

* modify the S01 test

* mark S01 with xfail

* mark the second S01 test as xfail too

* use skip instead of xfail

* comment the skip line to try S01 again

* restore the xfail mark again

* remove the wrapped text code from test file

* Changing  the test files names

* skip S01 again

* removed extra comments

* Update logos-delivery-python-bindings submodule

---------

Co-authored-by: Egor Rachkovskii <32649334+at0m1x19@users.noreply.github.com>
Co-authored-by: Egor Rachkovskii <egorrachkovskii@status.im>
2026-05-14 14:48:14 +02:00

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import pytest
from src.env_vars import NODE_2
from src.steps.common import StepsCommon
from src.steps.store import StepsStore
from src.libs.common import delay, to_base64
from src.libs.custom_logger import get_custom_logger
from src.node.waku_node import WakuNode
from src.node.wrappers_manager import WrapperManager
from src.node.wrapper_helpers import (
EventCollector,
assert_event_invariants,
create_message_bindings,
get_node_multiaddr,
wait_for_connected,
wait_for_propagated,
wait_for_sent,
wait_for_error,
)
from tests.wrappers_tests.conftest import free_port
logger = get_custom_logger(__name__)
PROPAGATED_TIMEOUT_S = 30.0
SENT_TIMEOUT_S = 10.0
NO_SENT_OBSERVATION_S = 5.0
SENT_AFTER_STORE_TIMEOUT_S = 60.0
NO_STORE_OBSERVATION_S = 60.0
# S20 stabilization delays for gossipsub mesh formation.
MESH_STABILIZATION_S = 10
STORE_JOIN_STABILIZATION_S = 10
class TestS06CoreSenderRelayOnly(StepsCommon):
"""
S06 — Core sender with relay peers only, no store.
Sender has local relay enabled and is connected to one relay peer.
Expected: send() returns Ok(RequestId), message_propagated event arrives,
no message_sent (store disabled), no message_error.
"""
def test_s06_relay_propagation_without_store(self, node_config):
sender_collector = EventCollector()
node_config.update(
{
"relay": True,
"store": False,
"lightpush": False,
"filter": False,
"discv5Discovery": False,
"numShardsInNetwork": 1,
"reliabilityEnabled": True,
}
)
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender:
peer_config = {
**node_config,
"staticnodes": [get_node_multiaddr(sender)],
"portsShift": 1,
}
peer_result = WrapperManager.create_and_start(config=peer_config)
assert peer_result.is_ok(), f"Failed to start relay peer: {peer_result.err()}"
with peer_result.ok_value:
assert wait_for_connected(sender_collector) is not None, "Sender did not reach Connected/PartiallyConnected state"
message = create_message_bindings(
payload=to_base64("S06 relay-only test payload"),
contentTopic="/test/1/s06-relay-only/proto",
)
send_result = sender.send_message(message=message)
assert send_result.is_ok(), f"send() failed: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
propagated = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated is not None, (
f"No message_propagated event within {PROPAGATED_TIMEOUT_S}s. " f"Collected events: {sender_collector.events}"
)
assert propagated["requestId"] == request_id
error = wait_for_error(sender_collector, request_id, timeout_s=0)
assert error is None, f"Unexpected message_error event: {error}"
sent = wait_for_sent(sender_collector, request_id, timeout_s=0)
assert sent is None, f"Unexpected message_sent event (store is disabled): {sent}"
assert_event_invariants(sender_collector, request_id)
class TestS07CoreSenderRelayAndStore(StepsCommon):
"""
S07 — Core sender with relay peers and store peer, reliability enabled.
Sender relays message to a store-capable peer; delivery service validates
the message reached the store via p2p reliability check.
Expected: Propagated, then Sent.
"""
def test_s07_relay_propagation_with_store_validation(self, node_config):
sender_collector = EventCollector()
node_config.update(
{
"relay": True,
"store": False,
"lightpush": False,
"filter": False,
"discv5Discovery": False,
"numShardsInNetwork": 1,
"reliabilityEnabled": True,
}
)
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender:
peer_config = {
**node_config,
"staticnodes": [get_node_multiaddr(sender)],
"portsShift": 1,
"store": True,
}
peer_result = WrapperManager.create_and_start(config=peer_config)
assert peer_result.is_ok(), f"Failed to start store peer: {peer_result.err()}"
with peer_result.ok_value:
message = create_message_bindings(
payload=to_base64("S07 relay+store test payload"),
contentTopic="/test/1/s07-relay-store/proto",
)
send_result = sender.send_message(message=message)
assert send_result.is_ok(), f"send() failed: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
propagated = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated is not None, (
f"No message_propagated event within {PROPAGATED_TIMEOUT_S}s. " f"Collected events: {sender_collector.events}"
)
assert propagated["requestId"] == request_id
sent = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=SENT_TIMEOUT_S,
)
assert sent is not None, (
f"No message_sent event within {SENT_TIMEOUT_S}s after propagation. " f"Collected events: {sender_collector.events}"
)
assert sent["requestId"] == request_id
error = wait_for_error(sender_collector, request_id, timeout_s=0)
assert error is None, f"Unexpected message_error event: {error}"
assert_event_invariants(sender_collector, request_id)
class TestS17SendBeforeRelayPeersJoin(StepsCommon):
"""
S17: sender starts isolated, calls send()
- send() returns Ok(RequestId) immediately
- Propagated event eventually arrives after a relay peer joins
"""
def test_s17_send_before_relay_peers_joins(self, node_config):
sender_collector = EventCollector()
node_config.update(
{
"relay": True,
"store": False,
"discv5Discovery": False,
"numShardsInNetwork": 1,
}
)
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender_node:
message = create_message_bindings()
send_result = sender_node.send_message(message=message)
assert send_result.is_ok(), f"send() must return Ok(RequestId) even with no peers, got: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
# Step 2: start a relay peer with store enabled.
relay_config = {
**node_config,
"staticnodes": [get_node_multiaddr(sender_node)],
"portsShift": 1,
"store": True,
}
relay_result = WrapperManager.create_and_start(config=relay_config)
assert relay_result.is_ok(), f"Failed to start relay peer: {relay_result.err()}"
with relay_result.ok_value:
# Match the gating part2's tests use: wait until the sender
# actually reports Connected/PartiallyConnected before asserting
# on propagation. Without this, the wait_for_propagated poll can
# miss the event because the sender's mesh hasn't formed yet.
assert wait_for_connected(sender_collector) is not None, (
f"Sender did not reach Connected/PartiallyConnected after " f"relay peer joined. Collected events: {sender_collector.events}"
)
propagated_event = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated_event is not None, (
f"No MessagePropagatedEvent received within {PROPAGATED_TIMEOUT_S}s "
f"after relay peer joined. Collected events: {sender_collector.events}"
)
sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=SENT_TIMEOUT_S,
)
assert sent_event is not None, (
f"No MessageSentEvent received within {SENT_TIMEOUT_S}s "
f"from a store-enabled relay peer. Collected events: {sender_collector.events}"
)
assert_event_invariants(sender_collector, request_id)
class TestS19StorePeerAppearsAfterPropagation(StepsStore):
"""
S19: a store peer comes online later.
- send() returns Ok(RequestId) immediately
- Propagated --- relay peer
- Sent when store peer is reachable
"""
@pytest.mark.docker_required
@pytest.mark.xfail(reason="fails to republish after store peer joins mesh see https://github.com/logos-messaging/logos-delivery/issues/3848")
def test_s19_store_peer_appears_after_propagation(self, node_config):
sender_collector = EventCollector()
node_config.update({"relay": True, "store": False, "discv5Discovery": False, "numShardsInNetwork": 1, "reliabilityEnabled": True})
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender_node:
# relay peer
relay_config = {
**node_config,
"tcpPort": free_port(),
"discv5UdpPort": free_port(),
"restPort": free_port(),
"staticnodes": [get_node_multiaddr(sender_node)],
"store": False,
"reliabilityEnabled": True,
}
relay_result = WrapperManager.create_and_start(config=relay_config)
assert relay_result.is_ok(), f"Failed to start relay peer: {relay_result.err()}"
with relay_result.ok_value as relay_peer:
# Wait until the sender actually reports a connection before
# sending. Without this, send() can race the static-peer
# dial on slower runners (same gate S17 uses).
assert wait_for_connected(sender_collector) is not None, (
f"Sender did not reach Connected/PartiallyConnected after " f"relay peer joined. Collected events: {sender_collector.events}"
)
message = create_message_bindings()
send_result = sender_node.send_message(message=message)
assert send_result.is_ok(), f"send() must return Ok(RequestId), got: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
# Propagated should arrive via the relay peer.
propagated_event = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated_event is not None, (
f"No MessagePropagatedEvent received within {PROPAGATED_TIMEOUT_S}s. " f"Collected events: {sender_collector.events}"
)
early_sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=NO_SENT_OBSERVATION_S,
)
assert early_sent_event is None, f"MessageSentEvent arrived before any store peer was reachable. " f"Event: {early_sent_event}"
# Store peer
store_node = WakuNode(NODE_2, f"store_node")
store_node.start(relay="true", store="true", discv5_discovery="false", cluster_id=node_config["clusterId"], shard=0)
store_node.set_relay_subscriptions([self.test_pubsub_topic])
relay_multiaddr = get_node_multiaddr(relay_peer)
sender_multiaddr = get_node_multiaddr(sender_node)
store_node.add_peers([relay_multiaddr, sender_multiaddr])
self.wait_for_autoconnection([store_node], hard_wait=40)
delay(3)
sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=SENT_AFTER_STORE_TIMEOUT_S,
)
assert sent_event is not None, (
f"No MessageSentEvent received within {SENT_AFTER_STORE_TIMEOUT_S}s "
f"after store peer joined. Collected events: {sender_collector.events}"
)
self.check_published_message_is_stored(
store_node=store_node,
pubsub_topic=self.test_pubsub_topic,
messages_to_check=[message],
page_size=5,
ascending="true",
)
assert_event_invariants(sender_collector, request_id)
class TestS20StoreMissesInitiallyThenRetrySucceeds(StepsStore):
"""
S20: relay propagation succeeds, the first store query misses
(the store peer is reachable but does not yet have the message),
a later retry republishes through the relay mesh, and the store
peer then archives it.
Covers state flow:
SuccessfullyPropagated -> NextRoundRetry
-> SuccessfullyPropagated -> SuccessfullyValidated
"""
@pytest.mark.docker_required
@pytest.mark.skip(reason="Forcing the miss store round not possible")
def test_s20_store_misses_initially_then_retry_succeeds(self, node_config):
sender_collector = EventCollector()
store_node = WakuNode(NODE_2, f"s20_store_node_{self.test_id}")
store_node.start(
relay="true",
store="true",
discv5_discovery="false",
cluster_id=node_config["clusterId"],
shard=0,
)
store_multiaddr = store_node.get_multiaddr_with_id()
node_config.update(
{
"relay": True,
"store": False,
"discv5Discovery": False,
"numShardsInNetwork": 1,
"reliabilityEnabled": True,
"storenode": store_multiaddr,
}
)
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender_node:
relay_config = {
**node_config,
"staticnodes": [get_node_multiaddr(sender_node)],
"portsShift": 1,
"store": False,
}
relay_result = WrapperManager.create_and_start(config=relay_config)
assert relay_result.is_ok(), f"Failed to start relay peer: {relay_result.err()}"
with relay_result.ok_value as relay_peer:
# Wait for the sender to see the relay peer before publishing.
assert wait_for_connected(sender_collector) is not None, (
f"Sender did not reach Connected/PartiallyConnected. " f"Collected events: {sender_collector.events}"
)
# Let the gossipsub mesh form between sender and relay peer.
delay(MESH_STABILIZATION_S)
message = create_message_bindings(ephemeral=False)
send_result = sender_node.send_message(message=message)
assert send_result.is_ok(), f"send() must return Ok(RequestId), got: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
# Round 1: propagation succeeds via the relay peer.
propagated_event = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated_event is not None, (
f"No MessagePropagatedEvent within {PROPAGATED_TIMEOUT_S}s. " f"Collected events: {sender_collector.events}"
)
# The store peer is reachable for queries but never received
# the message via gossipsub, so the first store query must
# miss and Sent must NOT arrive yet.
early_sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=NO_SENT_OBSERVATION_S,
)
assert early_sent_event is None, (
f"MessageSentEvent arrived before the store could have the message. "
f"Initial store query should have missed. Event: {early_sent_event}"
)
# Now subscribe the store to the test topic and wire it into
# the relay mesh so the next retry round's republish reaches
# the store via gossipsub.
store_node.set_relay_subscriptions([self.test_pubsub_topic])
store_node.add_peers([get_node_multiaddr(sender_node), get_node_multiaddr(relay_peer)])
self.wait_for_autoconnection([store_node], hard_wait=10)
delay(STORE_JOIN_STABILIZATION_S)
# Round 2: retry republishes, store archives, next query hits.
sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=SENT_AFTER_STORE_TIMEOUT_S,
)
assert sent_event is not None, (
f"No MessageSentEvent within {SENT_AFTER_STORE_TIMEOUT_S}s "
f"after the store joined the relay mesh. The retry round "
f"should have republished and the store should have archived. "
f"Collected events: {sender_collector.events}"
)
self.check_published_message_is_stored(
store_node=store_node,
pubsub_topic=self.test_pubsub_topic,
messages_to_check=[message],
page_size=5,
ascending="true",
)
assert_event_invariants(sender_collector, request_id)
class TestS22NonEphemeralWithReliabilityDisabled(StepsCommon):
"""
S22: non-ephemeral message with reliabilityEnabled disabled.
- propagation path exists ,reliabilityEnabled = false.
- Expected: Ok(RequestId), Propagated event only, no Sent event.
Note: S17 already covers the positive path of this test with reliabilityEnabled=True.
"""
def test_s22_non_ephemeral_message_with_reliability_disabled(self, node_config):
sender_collector = EventCollector()
node_config.update(
{
"relay": True,
"store": False,
"discv5Discovery": False,
"numShardsInNetwork": 1,
"reliabilityEnabled": False,
}
)
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender_node:
relay_config = {
**node_config,
"staticnodes": [get_node_multiaddr(sender_node)],
"portsShift": 1,
"store": True,
}
relay_result = WrapperManager.create_and_start(config=relay_config)
assert relay_result.is_ok(), f"Failed to start relay peer: {relay_result.err()}"
with relay_result.ok_value:
# Wait for the sender to actually establish the mesh before
# publishing, matching part2's pattern. Otherwise the publish
# races with mesh formation and message_propagated may not fire.
assert wait_for_connected(sender_collector) is not None, (
f"Sender did not reach Connected/PartiallyConnected. " f"Collected events: {sender_collector.events}"
)
message = create_message_bindings(ephemeral=False)
send_result = sender_node.send_message(message=message)
assert send_result.is_ok(), f"send() must return Ok(RequestId), got: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
propagated_event = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated_event is not None, (
f"No MessagePropagatedEvent received within {PROPAGATED_TIMEOUT_S}s. " f"Collected events: {sender_collector.events}"
)
sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=NO_SENT_OBSERVATION_S,
)
assert sent_event is None, (
f"Unexpected MessageSentEvent received when reliabilityEnabled is disabled.\n"
f"Sent event: {sent_event}\n"
f"Collected events: {sender_collector.events}"
)
assert_event_invariants(sender_collector, request_id)
class TestS23NoSentEventWhenRelayHasNoStore(StepsCommon):
"""
S23: non-ephemeral message, reliability enabled, no store peer ever reachable.
- Expected: Ok(RequestId), Propagated event only, no Sent and no terminal error.
"""
def test_s23_no_sent_event_when_relay_has_no_store(self, node_config):
sender_collector = EventCollector()
node_config.update(
{
"relay": True,
"store": False,
"discv5Discovery": False,
"numShardsInNetwork": 1,
"reliabilityEnabled": True,
}
)
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender_node:
message = create_message_bindings(ephemeral=False)
send_result = sender_node.send_message(message=message)
assert send_result.is_ok(), f"send() must return Ok(RequestId) even with no peers, got: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
relay_config = {
**node_config,
"staticnodes": [get_node_multiaddr(sender_node)],
"portsShift": 1,
"store": False,
}
relay_result = WrapperManager.create_and_start(config=relay_config)
assert relay_result.is_ok(), f"Failed to start relay peer: {relay_result.err()}"
with relay_result.ok_value:
propagated_event = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated_event is not None, (
f"No MessagePropagatedEvent received within {PROPAGATED_TIMEOUT_S}s "
f"after relay peer joined. Collected events: {sender_collector.events}"
)
sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=NO_STORE_OBSERVATION_S,
)
assert sent_event is None, (
f"Unexpected MessageSentEvent within {NO_STORE_OBSERVATION_S}s "
f"when relay peer has store=false.\n"
f"Sent event: {sent_event}\n"
f"Collected events: {sender_collector.events}"
)
# Regression guard: current behavior must NOT convert "no store
# reachable" into an immediate terminal error. If a future change
# starts emitting one, this assertion will catch it.
error_event = wait_for_error(
collector=sender_collector,
request_id=request_id,
timeout_s=0,
)
assert error_event is None, (
f"Unexpected terminal error event when no store peer is reachable. "
f"S23 expects silent behavior (Propagated only).\n"
f"Error event: {error_event}\n"
f"Collected events: {sender_collector.events}"
)
assert_event_invariants(sender_collector, request_id)
class TestS24EphemeralMessageWithReachableStore(StepsCommon):
"""
S24: ephemeral message, reliability enabled, reachable store peer.
- Setup: propagation path exists, relay peer has store=True (reachable),
- Expected: Ok(RequestId), Propagated event only, no Sent event.
"""
def test_s24_ephemeral_message_with_reachable_store(self, node_config):
sender_collector = EventCollector()
node_config.update(
{
"relay": True,
"store": False,
"discv5Discovery": False,
"numShardsInNetwork": 1,
"reliabilityEnabled": True,
}
)
sender_result = WrapperManager.create_and_start(
config=node_config,
event_cb=sender_collector.event_callback,
)
assert sender_result.is_ok(), f"Failed to start sender: {sender_result.err()}"
with sender_result.ok_value as sender_node:
relay_config = {
**node_config,
"staticnodes": [get_node_multiaddr(sender_node)],
"portsShift": 1,
"store": True,
}
relay_result = WrapperManager.create_and_start(config=relay_config)
assert relay_result.is_ok(), f"Failed to start relay peer: {relay_result.err()}"
with relay_result.ok_value:
message = create_message_bindings(ephemeral=True)
send_result = sender_node.send_message(message=message)
assert send_result.is_ok(), f"send() must return Ok(RequestId), got: {send_result.err()}"
request_id = send_result.ok_value
assert request_id, "send() returned an empty RequestId"
propagated_event = wait_for_propagated(
collector=sender_collector,
request_id=request_id,
timeout_s=PROPAGATED_TIMEOUT_S,
)
assert propagated_event is not None, (
f"No MessagePropagatedEvent received within {PROPAGATED_TIMEOUT_S}s. " f"Collected events: {sender_collector.events}"
)
sent_event = wait_for_sent(
collector=sender_collector,
request_id=request_id,
timeout_s=NO_STORE_OBSERVATION_S,
)
assert sent_event is None, (
f"Unexpected MessageSentEvent for an ephemeral message. "
f"Ephemeral messages must never be store-validated.\n"
f"Sent event: {sent_event}\n"
f"Collected events: {sender_collector.events}"
)
assert_event_invariants(sender_collector, request_id)
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