test_service.py

"""Tests for hytop.gpu.service — business logic (collect_from_host mocked)."""

from __future__ import annotations

import json
import time
from unittest.mock import patch

from hytop.core.history import SlidingHistory
from hytop.core.ssh import CollectResult
from hytop.gpu.models import MonitorState, NodeResult, Sample
from hytop.gpu.service import (
    apply_node_results,
    availability_ready,
    collect_node,
    drain_pending_nodes,
    init_monitor_state,
)

# ---------------------------------------------------------------------------
# Helpers
# ---------------------------------------------------------------------------

HY_SMI_FULL_JSON = json.dumps(
    {
        "card0": {
            "Average Graphics Package Power (W)": "157.0",
            "Temperature (Sensor core) (C)": "30.0",
            "HCU use (%)": "0.0",
            "HCU memory use (%)": "89",
            "sclk clock speed": "1500Mhz",
        },
        "card7": {
            "Average Graphics Package Power (W)": "141.0",
            "Temperature (Sensor core) (C)": "25.0",
            "HCU use (%)": "100.0",
            "HCU memory use (%)": "89",
            "sclk clock speed": "1500Mhz",
        },
    }
)


def _state(hosts=("localhost",), device_filter=None, max_window=10.0) -> MonitorState:
    return init_monitor_state(hosts=list(hosts), device_filter=device_filter, max_window=max_window)


def _sample(ts: float, hcu_pct: float = 0.0, vram_pct: float = 0.0) -> Sample:
    return Sample(ts=ts, hcu_pct=hcu_pct, vram_pct=vram_pct)


# ---------------------------------------------------------------------------
# collect_node
# ---------------------------------------------------------------------------


class TestCollectNode:
    @patch("hytop.gpu.service.collect_from_host")
    def test_success_returns_samples(self, mock_collect):
        mock_collect.return_value = CollectResult(
            host="localhost", stdout=HY_SMI_FULL_JSON, stderr=""
        )
        result = collect_node("localhost", ssh_timeout=5, cmd_timeout=10, hy_smi_args=["--json"])
        assert result.error is None
        assert set(result.samples.keys()) == {0, 7}

    @patch("hytop.gpu.service.collect_from_host")
    def test_host_error_propagated(self, mock_collect):
        mock_collect.return_value = CollectResult(
            host="node01", stdout="", stderr="", error="timeout after 10.0s"
        )
        result = collect_node("node01", ssh_timeout=5, cmd_timeout=10, hy_smi_args=["--json"])
        assert result.error is not None
        assert "timeout" in result.error

    @patch("hytop.gpu.service.collect_from_host")
    def test_empty_output_yields_error(self, mock_collect):
        mock_collect.return_value = CollectResult(host="localhost", stdout="", stderr="")
        result = collect_node("localhost", ssh_timeout=5, cmd_timeout=10, hy_smi_args=["--json"])
        assert result.error is not None


# ---------------------------------------------------------------------------
# apply_node_results
# ---------------------------------------------------------------------------


class TestApplyNodeResults:
    def test_successful_node_adds_to_history(self):
        state = _state(hosts=["localhost"])
        sample = _sample(ts=1.0, hcu_pct=50.0)
        node = NodeResult(host="localhost", samples={0: sample})
        apply_node_results([node], device_filter=None, state=state)
        assert ("localhost", 0) in state.histories

    def test_error_node_sets_error(self):
        state = _state(hosts=["localhost"])
        node = NodeResult(host="localhost", samples={}, error="connection refused")
        apply_node_results([node], device_filter=None, state=state)
        assert state.errors["localhost"] == "connection refused"

    def test_device_filter_excludes_other_gpus(self):
        state = _state(hosts=["localhost"], device_filter={0})
        s0 = _sample(ts=1.0)
        s1 = _sample(ts=1.0)
        node = NodeResult(host="localhost", samples={0: s0, 1: s1})
        apply_node_results([node], device_filter={0}, state=state)
        assert ("localhost", 0) in state.histories
        assert ("localhost", 1) not in state.histories

    def test_success_clears_previous_error(self):
        state = _state(hosts=["localhost"])
        state.errors["localhost"] = "old error"
        node = NodeResult(host="localhost", samples={0: _sample(ts=1.0)})
        apply_node_results([node], device_filter=None, state=state)
        assert "localhost" not in state.errors

    def test_duplicate_sample_not_added(self):
        state = _state(hosts=["localhost"])
        sample = _sample(ts=5.0)
        node = NodeResult(host="localhost", samples={0: sample})
        apply_node_results([node], device_filter=None, state=state)
        apply_node_results([node], device_filter=None, state=state)  # same ts
        assert len(state.histories[("localhost", 0)].samples) == 1


# ---------------------------------------------------------------------------
# availability_ready
# ---------------------------------------------------------------------------


class TestAvailabilityReady:
    def _make_history(self, hcu_pct: float, vram_pct: float) -> SlidingHistory:
        """Build a SlidingHistory with one fresh sample using real monotonic time."""
        h = SlidingHistory(max_window_s=30)
        h.add(_sample(ts=time.monotonic(), hcu_pct=hcu_pct, vram_pct=vram_pct))
        return h

    def test_idle_gpu_returns_true(self):
        key = ("localhost", 0)
        histories = {key: self._make_history(hcu_pct=0.0, vram_pct=0.0)}
        assert availability_ready(
            window=5.0,
            histories=histories,
            monitored_keys={key},
            hosts=["localhost"],
            errors={},
        )

    def test_busy_gpu_returns_false(self):
        key = ("localhost", 0)
        histories = {key: self._make_history(hcu_pct=100.0, vram_pct=89.0)}
        assert not availability_ready(
            window=5.0,
            histories=histories,
            monitored_keys={key},
            hosts=["localhost"],
            errors={},
        )

    def test_host_error_returns_false(self):
        key = ("localhost", 0)
        histories = {key: self._make_history(hcu_pct=0.0, vram_pct=0.0)}
        assert not availability_ready(
            window=5.0,
            histories=histories,
            monitored_keys={key},
            hosts=["localhost"],
            errors={"localhost": "connection refused"},
        )

    def test_empty_monitored_keys_returns_false(self):
        assert not availability_ready(
            window=5.0,
            histories={},
            monitored_keys=set(),
            hosts=["localhost"],
            errors={},
        )

    def test_missing_history_returns_false(self):
        key = ("localhost", 0)
        assert not availability_ready(
            window=5.0,
            histories={},  # no history for this key
            monitored_keys={key},
            hosts=["localhost"],
            errors={},
        )


# ---------------------------------------------------------------------------
# drain_pending_nodes
# ---------------------------------------------------------------------------


class TestDrainPendingNodes:
    def test_drains_new_result(self):
        state = _state(hosts=["localhost"])
        result = NodeResult(host="localhost", samples={})
        with state.state_lock:
            snap = state.host_state["localhost"]
            snap.seq = 1
            snap.result = result

        nodes = drain_pending_nodes(["localhost"], state)
        assert len(nodes) == 1
        assert nodes[0] is result

    def test_does_not_drain_already_processed(self):
        state = _state(hosts=["localhost"])
        state.processed_seq["localhost"] = 1
        with state.state_lock:
            snap = state.host_state["localhost"]
            snap.seq = 1
            snap.result = NodeResult(host="localhost", samples={})

        nodes = drain_pending_nodes(["localhost"], state)
        assert nodes == []