mcesptool/tests/test_idf_integration.py

"""
Test ESP-IDF Integration component

Tests parsers, validators, subprocess runners, tools.json caching,
tool/resource/prompt registration, and the TARGET_ARCH constant.
"""

import asyncio
import json
import os
import textwrap
from unittest.mock import AsyncMock, MagicMock, patch

import pytest

from mcesptool.components.idf_integration import (
    TARGET_ARCH,
    IDFIntegration,
    _parse_export_vars,
    _parse_tools_check,
    _parse_tools_list,
    _validate_target,
    _validate_tool_names,
)
from mcesptool.config import ESPToolServerConfig

# ------------------------------------------------------------------ #
# Fixtures
# ------------------------------------------------------------------ #


@pytest.fixture
def mock_app():
    """Mock FastMCP app that captures registered tools, resources, and prompts."""
    app = MagicMock()
    registered_tools = {}
    registered_resources = {}
    registered_prompts = {}

    def tool_decorator(name):
        def decorator(func):
            registered_tools[name] = func
            return func

        return decorator

    def resource_decorator(uri):
        def decorator(func):
            registered_resources[uri] = func
            return func

        return decorator

    def prompt_decorator(name):
        def decorator(func):
            registered_prompts[name] = func
            return func

        return decorator

    app.tool = tool_decorator
    app.resource = resource_decorator
    app.prompt = prompt_decorator
    app._registered_tools = registered_tools
    app._registered_resources = registered_resources
    app._registered_prompts = registered_prompts
    return app


@pytest.fixture
def config(tmp_path):
    """Config with a fake ESP-IDF path rooted in tmp_path."""
    idf_dir = tmp_path / "esp-idf"
    tools_dir = idf_dir / "tools"
    tools_dir.mkdir(parents=True)
    (tools_dir / "idf_tools.py").write_text("# stub")
    (tools_dir / "idf.py").write_text("# stub")

    with patch.object(ESPToolServerConfig, "__post_init__"):
        cfg = ESPToolServerConfig()
    cfg.esp_idf_path = idf_dir
    return cfg


@pytest.fixture
def integration(mock_app, config):
    """IDFIntegration instance wired to mock_app and config."""
    return IDFIntegration(mock_app, config)


@pytest.fixture
def mock_context():
    ctx = MagicMock()
    ctx.info = AsyncMock()
    ctx.log = AsyncMock()
    ctx.progress = AsyncMock()
    return ctx


# ------------------------------------------------------------------ #
# 1. Parser unit tests (pure functions)
# ------------------------------------------------------------------ #


class TestParseToolsList:
    """Tests for _parse_tools_list parser."""

    SAMPLE_OUTPUT = textwrap.dedent("""\
        * xtensa-esp-elf-gdb
          - Version 14.2_20240403
            - xtensa-esp-elf-gdb-14.2_20240403-x86_64-linux-gnu.tar.gz (installed)
          - Version 12.1_20231023
            - xtensa-esp-elf-gdb-12.1_20231023-x86_64-linux-gnu.tar.gz
        * riscv32-esp-elf
          - Version 14.2.0_20241119
            - riscv32-esp-elf-14.2.0_20241119-x86_64-linux-gnu.tar.gz (installed)
            - riscv32-esp-elf-14.2.0_20241119-aarch64-linux-gnu.tar.gz
        * cmake
          - Version 3.24.0
            - cmake-3.24.0-linux-x86_64.tar.gz
    """)

    def test_extracts_tool_names(self):
        tools = _parse_tools_list(self.SAMPLE_OUTPUT)
        names = [t["name"] for t in tools]
        assert names == ["xtensa-esp-elf-gdb", "riscv32-esp-elf", "cmake"]

    def test_extracts_versions(self):
        tools = _parse_tools_list(self.SAMPLE_OUTPUT)
        gdb_tool = tools[0]
        assert len(gdb_tool["versions"]) == 2
        assert gdb_tool["versions"][0]["version"] == "14.2_20240403"
        assert gdb_tool["versions"][1]["version"] == "12.1_20231023"

    def test_installed_status(self):
        tools = _parse_tools_list(self.SAMPLE_OUTPUT)
        gdb_tool = tools[0]
        assert gdb_tool["versions"][0]["installed"] is True
        assert gdb_tool["versions"][1]["installed"] is False

    def test_archives_extracted(self):
        tools = _parse_tools_list(self.SAMPLE_OUTPUT)
        riscv_tool = tools[1]
        archives = riscv_tool["versions"][0]["archives"]
        assert len(archives) == 2
        assert archives[0]["installed"] is True
        assert archives[1]["installed"] is False

    def test_archive_filenames(self):
        tools = _parse_tools_list(self.SAMPLE_OUTPUT)
        riscv_tool = tools[1]
        archive_files = [a["file"] for a in riscv_tool["versions"][0]["archives"]]
        assert "riscv32-esp-elf-14.2.0_20241119-x86_64-linux-gnu.tar.gz" in archive_files
        assert "riscv32-esp-elf-14.2.0_20241119-aarch64-linux-gnu.tar.gz" in archive_files

    def test_empty_output(self):
        assert _parse_tools_list("") == []

    def test_output_with_only_blank_lines(self):
        assert _parse_tools_list("\n\n\n") == []

    def test_single_tool_no_archives(self):
        output = "* lonely-tool\n  - Version 1.0\n"
        tools = _parse_tools_list(output)
        assert len(tools) == 1
        assert tools[0]["name"] == "lonely-tool"
        assert tools[0]["versions"][0]["archives"] == []

    # v5.x compact format tests (real ESP-IDF v5.3 output)
    SAMPLE_V5 = textwrap.dedent("""\
        * xtensa-esp-elf-gdb: GDB for Xtensa
          - 14.2_20240403 (recommended, installed)
        * riscv32-esp-elf-gdb: GDB for RISC-V
          - 14.2_20240403 (recommended, installed)
        * xtensa-esp-elf: Toolchain for 32-bit Xtensa based on GCC
          - esp-13.2.0_20240530 (recommended, installed)
        * cmake: CMake build system (optional)
          - 3.24.0 (recommended, installed)
          - 3.16.3 (supported)
        * qemu-riscv32: QEMU for RISC-V (optional)
          - esp_develop_8.2.0_20240122 (recommended)
    """)

    def test_v5_extracts_tool_names(self):
        tools = _parse_tools_list(self.SAMPLE_V5)
        names = [t["name"] for t in tools]
        assert "xtensa-esp-elf-gdb" in names
        assert "riscv32-esp-elf-gdb" in names
        assert "cmake" in names
        assert "qemu-riscv32" in names

    def test_v5_extracts_descriptions(self):
        tools = _parse_tools_list(self.SAMPLE_V5)
        gdb = next(t for t in tools if t["name"] == "xtensa-esp-elf-gdb")
        assert gdb["description"] == "GDB for Xtensa"

    def test_v5_tool_count(self):
        tools = _parse_tools_list(self.SAMPLE_V5)
        assert len(tools) == 5

    def test_v5_installed_status(self):
        tools = _parse_tools_list(self.SAMPLE_V5)
        gdb = next(t for t in tools if t["name"] == "xtensa-esp-elf-gdb")
        assert gdb["versions"][0]["installed"] is True
        qemu = next(t for t in tools if t["name"] == "qemu-riscv32")
        assert qemu["versions"][0]["installed"] is False

    def test_v5_version_extracted(self):
        tools = _parse_tools_list(self.SAMPLE_V5)
        xtensa = next(t for t in tools if t["name"] == "xtensa-esp-elf")
        assert xtensa["versions"][0]["version"] == "esp-13.2.0_20240530"

    def test_v5_multiple_versions(self):
        tools = _parse_tools_list(self.SAMPLE_V5)
        cmake = next(t for t in tools if t["name"] == "cmake")
        assert len(cmake["versions"]) == 2
        assert cmake["versions"][0]["version"] == "3.24.0"
        assert cmake["versions"][1]["version"] == "3.16.3"

    def test_v5_status_field(self):
        tools = _parse_tools_list(self.SAMPLE_V5)
        cmake = next(t for t in tools if t["name"] == "cmake")
        assert cmake["versions"][0]["status"] == "recommended, installed"
        assert cmake["versions"][1]["status"] == "supported"


class TestParseToolsCheck:
    """Tests for _parse_tools_check parser."""

    # Old single-line format (kept for backwards compat)
    SAMPLE_OUTPUT_LEGACY = textwrap.dedent("""\
        xtensa-esp-elf 14.2.0_20241119: found
        riscv32-esp-elf 14.2.0_20241119: found
        xtensa-esp-elf-gdb 14.2_20240403: found
        esp-rom-elfs 20240305: found in /home/user/.espressif
        cmake 3.24.0: not found
        ninja 1.11.1: not found
    """)

    # Real ESP-IDF v5.3 multi-line format
    SAMPLE_OUTPUT_V5 = textwrap.dedent("""\
        Checking for installed tools...
        Checking tool xtensa-esp-elf-gdb
            no version found in PATH
            version installed in tools directory: 14.2_20240403
        Checking tool riscv32-esp-elf-gdb
            no version found in PATH
            version installed in tools directory: 14.2_20240403
        Checking tool xtensa-esp-elf
            no version found in PATH
            version installed in tools directory: esp-13.2.0_20240530
        Checking tool cmake
            version found in PATH: 4.2.2
            version installed in tools directory: 3.24.0
        Checking tool qemu-riscv32
            no version found in PATH
    """)

    # Legacy single-line tests
    def test_installed_tools(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_LEGACY)
        assert "xtensa-esp-elf 14.2.0_20241119" in result["installed"]
        assert "riscv32-esp-elf 14.2.0_20241119" in result["installed"]

    def test_missing_tools(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_LEGACY)
        assert "cmake 3.24.0" in result["missing"]
        assert "ninja 1.11.1" in result["missing"]

    def test_installed_count(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_LEGACY)
        assert len(result["installed"]) == 4

    def test_missing_count(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_LEGACY)
        assert len(result["missing"]) == 2

    def test_empty_output(self):
        result = _parse_tools_check("")
        assert result == {"installed": [], "missing": []}

    def test_all_found(self):
        output = "cmake 3.24.0: found\nninja 1.11.1: found\n"
        result = _parse_tools_check(output)
        assert len(result["installed"]) == 2
        assert len(result["missing"]) == 0

    def test_all_missing(self):
        output = "cmake 3.24.0: not found\nninja 1.11.1: not found\n"
        result = _parse_tools_check(output)
        assert len(result["installed"]) == 0
        assert len(result["missing"]) == 2

    # Multi-line format tests (ESP-IDF v5.x)
    def test_v5_installed_tools(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_V5)
        names = [t.split()[0] for t in result["installed"]]
        assert "xtensa-esp-elf-gdb" in names
        assert "riscv32-esp-elf-gdb" in names
        assert "xtensa-esp-elf" in names
        assert "cmake" in names

    def test_v5_missing_tools(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_V5)
        assert "qemu-riscv32" in result["missing"]

    def test_v5_installed_count(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_V5)
        assert len(result["installed"]) == 4

    def test_v5_missing_count(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_V5)
        assert len(result["missing"]) == 1

    def test_v5_version_included_in_name(self):
        result = _parse_tools_check(self.SAMPLE_OUTPUT_V5)
        # Installed tools should include version from "version installed" line
        installed_str = " ".join(result["installed"])
        assert "14.2_20240403" in installed_str
        assert "esp-13.2.0_20240530" in installed_str


class TestParseExportVars:
    """Tests for _parse_export_vars parser."""

    def test_basic_key_value(self):
        output = "IDF_PATH=/opt/esp-idf\nIDF_TOOLS_PATH=/home/user/.espressif\n"
        result = _parse_export_vars(output)
        assert result["IDF_PATH"] == "/opt/esp-idf"
        assert result["IDF_TOOLS_PATH"] == "/home/user/.espressif"

    def test_skips_comments(self):
        output = "# This is a comment\nKEY=value\n# Another comment\n"
        result = _parse_export_vars(output)
        assert len(result) == 1
        assert result["KEY"] == "value"

    def test_skips_blank_lines(self):
        output = "\n\nKEY=value\n\n\nOTHER=thing\n\n"
        result = _parse_export_vars(output)
        assert len(result) == 2

    def test_path_entry_with_colons(self):
        output = "PATH=/opt/esp-idf/tools/bin:/home/user/.espressif/tools/bin\n"
        result = _parse_export_vars(output)
        assert result["PATH"] == "/opt/esp-idf/tools/bin:/home/user/.espressif/tools/bin"

    def test_empty_output(self):
        assert _parse_export_vars("") == {}

    def test_value_with_equals_sign(self):
        output = "CMAKE_FLAGS=-DFOO=bar\n"
        result = _parse_export_vars(output)
        assert result["CMAKE_FLAGS"] == "-DFOO=bar"

    def test_whitespace_stripping(self):
        output = "  KEY  =  value  \n"
        result = _parse_export_vars(output)
        assert result["KEY"] == "value"


# ------------------------------------------------------------------ #
# 2. Validation function tests
# ------------------------------------------------------------------ #


class TestValidateTarget:
    """Tests for _validate_target."""

    def test_valid_targets(self):
        for target in TARGET_ARCH:
            assert _validate_target(target) == target

    def test_esp32(self):
        assert _validate_target("esp32") == "esp32"

    def test_esp32p4(self):
        assert _validate_target("esp32p4") == "esp32p4"

    def test_esp32c3(self):
        assert _validate_target("esp32c3") == "esp32c3"

    def test_invalid_target_raises(self):
        with pytest.raises(ValueError, match="Unknown target"):
            _validate_target("esp8266")

    def test_empty_string_raises(self):
        with pytest.raises(ValueError, match="Unknown target"):
            _validate_target("")

    def test_similar_name_raises(self):
        with pytest.raises(ValueError, match="Unknown target"):
            _validate_target("ESP32")

    def test_error_lists_valid_targets(self):
        with pytest.raises(ValueError, match="esp32") as exc_info:
            _validate_target("nope")
        # The error message should list valid targets
        assert "Valid targets" in str(exc_info.value)


class TestValidateToolNames:
    """Tests for _validate_tool_names."""

    def test_valid_tool_names(self):
        names = ["riscv32-esp-elf", "xtensa-esp-elf-gdb", "cmake", "ninja"]
        assert _validate_tool_names(names) == names

    def test_tool_name_with_dots(self):
        names = ["esp-rom-elfs"]
        assert _validate_tool_names(names) == names

    def test_flag_injection_double_dash(self):
        with pytest.raises(ValueError, match="Invalid tool name"):
            _validate_tool_names(["--dangerous-flag"])

    def test_flag_injection_single_dash(self):
        with pytest.raises(ValueError, match="Invalid tool name"):
            _validate_tool_names(["-rf"])

    def test_special_chars_semicolon(self):
        with pytest.raises(ValueError, match="Invalid tool name"):
            _validate_tool_names(["cmake; rm -rf /"])

    def test_special_chars_pipe(self):
        with pytest.raises(ValueError, match="Invalid tool name"):
            _validate_tool_names(["cmake|evil"])

    def test_special_chars_backtick(self):
        with pytest.raises(ValueError, match="Invalid tool name"):
            _validate_tool_names(["`whoami`"])

    def test_empty_list(self):
        assert _validate_tool_names([]) == []

    def test_mixed_valid_and_invalid(self):
        with pytest.raises(ValueError, match="Invalid tool name"):
            _validate_tool_names(["cmake", "--evil", "ninja"])


# ------------------------------------------------------------------ #
# 3. Component tests (mock subprocess)
# ------------------------------------------------------------------ #


class TestToolRegistration:
    """Verify all tools, resources, and prompts are registered."""

    def test_tier1_tools_registered(self, mock_app, config):
        IDFIntegration(mock_app, config)
        tools = mock_app._registered_tools
        assert "idf_tools_list" in tools
        assert "idf_tools_check" in tools
        assert "idf_tools_install" in tools
        assert "idf_env_info" in tools

    def test_tier2_tools_registered(self, mock_app, config):
        IDFIntegration(mock_app, config)
        tools = mock_app._registered_tools
        assert "idf_build_project" in tools
        assert "idf_flash_project" in tools
        assert "idf_monitor" in tools

    def test_all_seven_tools(self, mock_app, config):
        IDFIntegration(mock_app, config)
        assert len(mock_app._registered_tools) == 7

    def test_resource_registered(self, mock_app, config):
        IDFIntegration(mock_app, config)
        assert "esp://idf/status" in mock_app._registered_resources

    def test_prompt_registered(self, mock_app, config):
        IDFIntegration(mock_app, config)
        assert "idf_setup_target" in mock_app._registered_prompts


class TestRunIdfTools:
    """Tests for _run_idf_tools subprocess runner."""

    @pytest.mark.asyncio
    async def test_success_case(self, integration):
        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(return_value=(b"tool output", b""))
        mock_proc.returncode = 0

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            result = await integration._run_idf_tools(["list"])

        assert result["success"] is True
        assert result["output"] == "tool output"

    @pytest.mark.asyncio
    async def test_nonzero_exit_code(self, integration):
        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(return_value=(b"", b"fatal error"))
        mock_proc.returncode = 1

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            result = await integration._run_idf_tools(["check"])

        assert result["success"] is False
        assert "fatal error" in result["error"]

    @pytest.mark.asyncio
    async def test_timeout_kills_process(self, integration):
        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(side_effect=asyncio.TimeoutError)
        mock_proc.returncode = None
        mock_proc.kill = MagicMock()
        mock_proc.wait = AsyncMock()

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            with patch("asyncio.wait_for", side_effect=asyncio.TimeoutError):
                result = await integration._run_idf_tools(["list"], timeout=0.1)

        assert result["success"] is False
        assert "Timeout" in result["error"]
        mock_proc.kill.assert_called_once()

    @pytest.mark.asyncio
    async def test_file_not_found(self, integration):
        with patch(
            "asyncio.create_subprocess_exec", side_effect=FileNotFoundError("python3 missing")
        ):
            result = await integration._run_idf_tools(["list"])

        assert result["success"] is False
        assert "not found" in result["error"]

    @pytest.mark.asyncio
    async def test_no_idf_path(self, integration):
        integration.config.esp_idf_path = None
        result = await integration._run_idf_tools(["list"])
        assert result["success"] is False
        assert "not configured" in result["error"]

    @pytest.mark.asyncio
    async def test_stderr_output_captured(self, integration):
        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(return_value=(b"stdout", b"stderr info"))
        mock_proc.returncode = 0

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            result = await integration._run_idf_tools(["list"])

        assert result["success"] is True
        assert result["stderr"] == "stderr info"

    @pytest.mark.asyncio
    async def test_custom_env_passed(self, integration):
        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(return_value=(b"ok", b""))
        mock_proc.returncode = 0

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc) as mock_exec:
            await integration._run_idf_tools(["list"], env={"CUSTOM_VAR": "test"})

        call_kwargs = mock_exec.call_args
        env = call_kwargs.kwargs["env"]
        assert env["CUSTOM_VAR"] == "test"
        assert env["IDF_PATH"] == str(integration.config.esp_idf_path)


class TestRunIdfPy:
    """Tests for _run_idf_py subprocess runner."""

    def _mock_env(self, integration):
        idf_path = str(integration.config.esp_idf_path)
        return {"PATH": "/usr/bin", "IDF_PATH": idf_path}

    @pytest.mark.asyncio
    async def test_unavailable_returns_error(self, integration):
        integration.config.get_idf_available = MagicMock(return_value=False)
        result = await integration._run_idf_py(["build"])
        assert result["success"] is False
        assert "not available" in result["error"]
        assert "hint" in result

    @pytest.mark.asyncio
    async def test_success_case(self, integration):
        integration.config.get_idf_available = MagicMock(return_value=True)

        integration._build_idf_env = AsyncMock(return_value=self._mock_env(integration))

        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(return_value=(b"build ok", b""))
        mock_proc.returncode = 0

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            result = await integration._run_idf_py(["build"])

        assert result["success"] is True
        assert result["output"] == "build ok"

    @pytest.mark.asyncio
    async def test_build_env_failure(self, integration):
        integration.config.get_idf_available = MagicMock(return_value=True)
        integration._build_idf_env = AsyncMock(return_value=None)

        result = await integration._run_idf_py(["build"])
        assert result["success"] is False
        assert "Failed to export" in result["error"]

    @pytest.mark.asyncio
    async def test_timeout_cleanup(self, integration):
        integration.config.get_idf_available = MagicMock(return_value=True)
        integration._build_idf_env = AsyncMock(return_value=self._mock_env(integration))

        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(side_effect=asyncio.TimeoutError)
        mock_proc.returncode = None
        mock_proc.kill = MagicMock()
        mock_proc.wait = AsyncMock()

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            with patch("asyncio.wait_for", side_effect=asyncio.TimeoutError):
                result = await integration._run_idf_py(["build"], timeout=0.1)

        assert result["success"] is False
        assert "Timeout" in result["error"]

    @pytest.mark.asyncio
    async def test_file_not_found(self, integration):
        integration.config.get_idf_available = MagicMock(return_value=True)
        integration._build_idf_env = AsyncMock(return_value=self._mock_env(integration))

        with patch(
            "asyncio.create_subprocess_exec", side_effect=FileNotFoundError("not found")
        ):
            result = await integration._run_idf_py(["build"])

        assert result["success"] is False
        assert "not found" in result["error"]

    @pytest.mark.asyncio
    async def test_nonzero_exit_code(self, integration):
        integration.config.get_idf_available = MagicMock(return_value=True)
        integration._build_idf_env = AsyncMock(return_value=self._mock_env(integration))

        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(return_value=(b"output", b"error detail"))
        mock_proc.returncode = 2

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            result = await integration._run_idf_py(["build"])

        assert result["success"] is False
        assert "error detail" in result["error"]


class TestBuildIdfEnv:
    """Tests for _build_idf_env."""

    @pytest.mark.asyncio
    async def test_parses_export_output(self, integration):
        export_output = "IDF_TOOLS_PATH=/home/user/.espressif\nPATH=/tools/bin\n"
        integration._run_idf_tools = AsyncMock(
            return_value={"success": True, "output": export_output, "stderr": ""}
        )

        env = await integration._build_idf_env()
        assert env is not None
        assert env["IDF_TOOLS_PATH"] == "/home/user/.espressif"
        assert env["IDF_PATH"] == str(integration.config.esp_idf_path)

    @pytest.mark.asyncio
    async def test_path_prepended(self, integration):
        export_output = "PATH=/new/tools/bin\n"
        integration._run_idf_tools = AsyncMock(
            return_value={"success": True, "output": export_output, "stderr": ""}
        )

        env = await integration._build_idf_env()
        assert env is not None
        # The exported PATH should be prepended to the existing PATH
        assert env["PATH"].startswith("/new/tools/bin")

    @pytest.mark.asyncio
    async def test_returns_none_on_failure(self, integration):
        integration._run_idf_tools = AsyncMock(
            return_value={"success": False, "error": "script missing"}
        )

        env = await integration._build_idf_env()
        assert env is None


class TestLoadToolsJson:
    """Tests for _load_tools_json with mtime-based caching."""

    @pytest.mark.asyncio
    async def test_loads_on_first_call(self, integration, config):
        tools_json_path = config.esp_idf_path / "tools" / "tools.json"
        tools_data = {"version": 2, "tools": [{"name": "cmake"}]}
        tools_json_path.write_text(json.dumps(tools_data))

        result = await integration._load_tools_json()
        assert result is not None
        assert result["version"] == 2
        assert len(result["tools"]) == 1

    @pytest.mark.asyncio
    async def test_cache_hit_same_mtime(self, integration, config):
        tools_json_path = config.esp_idf_path / "tools" / "tools.json"
        tools_data = {"version": 2, "tools": [{"name": "cmake"}]}
        tools_json_path.write_text(json.dumps(tools_data))

        result1 = await integration._load_tools_json()
        assert result1 is not None

        # Second call should return cached version without re-reading
        result2 = await integration._load_tools_json()
        assert result2 is result1  # Same object reference = cache hit

    @pytest.mark.asyncio
    async def test_cache_invalidation_on_mtime_change(self, integration, config):
        tools_json_path = config.esp_idf_path / "tools" / "tools.json"

        # Write initial data
        tools_data_v1 = {"version": 1, "tools": []}
        tools_json_path.write_text(json.dumps(tools_data_v1))

        result1 = await integration._load_tools_json()
        assert result1 is not None
        assert result1["version"] == 1

        # Modify file with new content and force a different mtime
        tools_data_v2 = {"version": 2, "tools": [{"name": "new-tool"}]}
        tools_json_path.write_text(json.dumps(tools_data_v2))
        # Bump mtime to ensure it differs (some filesystems have 1s resolution)
        new_mtime = tools_json_path.stat().st_mtime + 2.0
        os.utime(tools_json_path, (new_mtime, new_mtime))

        result2 = await integration._load_tools_json()
        assert result2 is not None
        assert result2["version"] == 2

    @pytest.mark.asyncio
    async def test_returns_none_when_no_idf_path(self, integration):
        integration.config.esp_idf_path = None
        result = await integration._load_tools_json()
        assert result is None

    @pytest.mark.asyncio
    async def test_returns_none_when_file_missing(self, integration, config):
        # tools.json does not exist by default in our tmp_path fixture
        tools_json_path = config.esp_idf_path / "tools" / "tools.json"
        if tools_json_path.exists():
            tools_json_path.unlink()

        result = await integration._load_tools_json()
        assert result is None


class TestToolsForTarget:
    """Tests for _tools_for_target."""

    def test_returns_matching_tools(self, integration):
        tools_json = {
            "tools": [
                {
                    "name": "xtensa-esp-elf",
                    "description": "Xtensa compiler",
                    "supported_targets": ["esp32", "esp32s2", "esp32s3"],
                    "versions": [{"name": "14.2.0", "status": "recommended"}],
                },
                {
                    "name": "riscv32-esp-elf",
                    "description": "RISC-V compiler",
                    "supported_targets": ["esp32c3", "esp32c6", "esp32h2"],
                    "versions": [{"name": "14.2.0", "status": "recommended"}],
                },
            ]
        }
        result = integration._tools_for_target(tools_json, "esp32")
        assert len(result) == 1
        assert result[0]["name"] == "xtensa-esp-elf"
        assert result[0]["version"] == "14.2.0"

    def test_handles_all_supported_targets(self, integration):
        tools_json = {
            "tools": [
                {
                    "name": "cmake",
                    "description": "Build system",
                    "supported_targets": "all",
                    "versions": [{"name": "3.24.0", "status": "recommended"}],
                },
                {
                    "name": "xtensa-esp-elf",
                    "description": "Xtensa compiler",
                    "supported_targets": ["esp32"],
                    "versions": [{"name": "14.2.0", "status": "recommended"}],
                },
            ]
        }
        result = integration._tools_for_target(tools_json, "esp32")
        assert len(result) == 2
        names = [t["name"] for t in result]
        assert "cmake" in names
        assert "xtensa-esp-elf" in names

    def test_no_matching_target(self, integration):
        tools_json = {
            "tools": [
                {
                    "name": "xtensa-esp-elf",
                    "description": "Xtensa compiler",
                    "supported_targets": ["esp32"],
                    "versions": [{"name": "14.2.0", "status": "recommended"}],
                },
            ]
        }
        result = integration._tools_for_target(tools_json, "esp32c3")
        assert len(result) == 0

    def test_supported_targets_converted_to_list(self, integration):
        tools_json = {
            "tools": [
                {
                    "name": "cmake",
                    "description": "Build system",
                    "supported_targets": "all",
                    "versions": [{"name": "3.24.0", "status": "recommended"}],
                },
            ]
        }
        result = integration._tools_for_target(tools_json, "esp32")
        assert result[0]["supported_targets"] == ["all"]

    def test_empty_tools(self, integration):
        tools_json = {"tools": []}
        result = integration._tools_for_target(tools_json, "esp32")
        assert result == []

    def test_picks_recommended_version(self, integration):
        tools_json = {
            "tools": [
                {
                    "name": "cmake",
                    "supported_targets": "all",
                    "versions": [
                        {"name": "3.20.0", "status": "deprecated"},
                        {"name": "3.24.0", "status": "recommended"},
                        {"name": "3.28.0", "status": "preview"},
                    ],
                },
            ]
        }
        result = integration._tools_for_target(tools_json, "esp32")
        assert result[0]["version"] == "3.24.0"


# ------------------------------------------------------------------ #
# 4. TARGET_ARCH constant tests
# ------------------------------------------------------------------ #


class TestTargetArch:
    """Tests for the TARGET_ARCH constant."""

    def test_all_ten_targets_present(self):
        expected = {
            "esp32", "esp32s2", "esp32s3",
            "esp32c2", "esp32c3", "esp32c5", "esp32c6", "esp32c61",
            "esp32h2", "esp32p4",
        }
        assert set(TARGET_ARCH.keys()) == expected

    def test_count(self):
        assert len(TARGET_ARCH) == 10

    def test_only_valid_architectures(self):
        valid_archs = {"xtensa", "riscv"}
        for target, arch in TARGET_ARCH.items():
            assert arch in valid_archs, f"{target} has unexpected arch {arch!r}"

    def test_xtensa_targets(self):
        xtensa_targets = {k for k, v in TARGET_ARCH.items() if v == "xtensa"}
        assert xtensa_targets == {"esp32", "esp32s2", "esp32s3"}

    def test_riscv_targets(self):
        riscv_targets = {k for k, v in TARGET_ARCH.items() if v == "riscv"}
        expected = {"esp32c2", "esp32c3", "esp32c5", "esp32c6", "esp32c61", "esp32h2", "esp32p4"}
        assert riscv_targets == expected


# ------------------------------------------------------------------ #
# 5. Mocked invocation tests (tool / resource / prompt functions)
# ------------------------------------------------------------------ #


class TestIdfBuildProject:
    """Test idf_build_project tool function execution (mocked subprocess)."""

    @pytest.fixture
    def project_dir(self, tmp_path):
        """Create a minimal ESP-IDF project directory with CMakeLists.txt."""
        proj = tmp_path / "my_project"
        proj.mkdir()
        (proj / "CMakeLists.txt").write_text("cmake_minimum_required(VERSION 3.16)\n")
        return proj

    @pytest.mark.asyncio
    async def test_build_validates_target(self, mock_app, config, mock_context, project_dir):
        """Invalid target returns error before any subprocess is spawned."""
        IDFIntegration(mock_app, config)
        build_fn = mock_app._registered_tools["idf_build_project"]

        result = await build_fn(mock_context, project_path=str(project_dir), target="esp8266")
        assert result["success"] is False
        assert "Unknown target" in result["error"]

    @pytest.mark.asyncio
    async def test_build_checks_cmakelists_exists(self, mock_app, config, mock_context, tmp_path):
        """Missing CMakeLists.txt returns error."""
        empty_dir = tmp_path / "no_cmake"
        empty_dir.mkdir()
        # Put the directory inside a project root so path validation passes
        config.project_roots = [tmp_path]
        IDFIntegration(mock_app, config)
        build_fn = mock_app._registered_tools["idf_build_project"]

        result = await build_fn(mock_context, project_path=str(empty_dir), target="esp32")
        assert result["success"] is False
        assert "CMakeLists.txt" in result["error"]

    @pytest.mark.asyncio
    async def test_build_calls_set_target_and_build(
        self, mock_app, config, mock_context, project_dir
    ):
        """Mocks _run_idf_py and verifies set-target + build are called."""
        config.project_roots = [project_dir.parent]
        integration = IDFIntegration(mock_app, config)
        build_fn = mock_app._registered_tools["idf_build_project"]

        calls = []

        async def fake_run_idf_py(args, timeout=300.0):
            calls.append(args)
            return {"success": True, "output": "ok", "stderr": ""}

        integration._run_idf_py = fake_run_idf_py

        result = await build_fn(mock_context, project_path=str(project_dir), target="esp32s3")
        assert result["success"] is True

        # Should have called set-target then build
        assert len(calls) == 2
        assert "set-target" in calls[0]
        assert "esp32s3" in calls[0]
        assert "build" in calls[1]

    @pytest.mark.asyncio
    async def test_build_clean_runs_fullclean(
        self, mock_app, config, mock_context, project_dir
    ):
        """When clean=True, verifies fullclean is called before set-target and build."""
        config.project_roots = [project_dir.parent]
        integration = IDFIntegration(mock_app, config)
        build_fn = mock_app._registered_tools["idf_build_project"]

        calls = []

        async def fake_run_idf_py(args, timeout=300.0):
            calls.append(args)
            return {"success": True, "output": "ok", "stderr": ""}

        integration._run_idf_py = fake_run_idf_py

        result = await build_fn(
            mock_context, project_path=str(project_dir), target="esp32", clean=True,
        )
        assert result["success"] is True

        # First call should be fullclean, then set-target, then build
        assert len(calls) == 3
        assert "fullclean" in calls[0]
        assert "set-target" in calls[1]
        assert "build" in calls[2]

    @pytest.mark.asyncio
    async def test_build_project_path_validation(self, mock_app, config, mock_context, tmp_path):
        """Path outside project_roots is rejected."""
        allowed_root = tmp_path / "allowed"
        allowed_root.mkdir()
        outside_dir = tmp_path / "outside"
        outside_dir.mkdir()
        (outside_dir / "CMakeLists.txt").write_text("# stub")

        config.project_roots = [allowed_root]
        # Clear idf_path so it can't be used as fallback
        config.esp_idf_path = None
        IDFIntegration(mock_app, config)
        build_fn = mock_app._registered_tools["idf_build_project"]

        result = await build_fn(mock_context, project_path=str(outside_dir), target="esp32")
        assert result["success"] is False
        assert "outside" in result["error"].lower() or "roots" in result["error"].lower()


class TestIdfFlashProject:
    """Test idf_flash_project tool function execution (mocked subprocess)."""

    @pytest.fixture
    def built_project(self, tmp_path):
        """Create a project directory that looks like it has been built."""
        proj = tmp_path / "built_project"
        proj.mkdir()
        (proj / "CMakeLists.txt").write_text("# stub")
        (proj / "build").mkdir()
        return proj

    @pytest.mark.asyncio
    async def test_flash_validates_baud_rate(self, mock_app, config, mock_context, built_project):
        """Invalid baud rate returns error."""
        config.project_roots = [built_project.parent]
        IDFIntegration(mock_app, config)
        flash_fn = mock_app._registered_tools["idf_flash_project"]

        result = await flash_fn(
            mock_context,
            project_path=str(built_project),
            port="/dev/ttyUSB0",
            baud=12345,
        )
        assert result["success"] is False
        assert "Invalid baud rate" in result["error"]

    @pytest.mark.asyncio
    async def test_flash_calls_idf_py_flash(self, mock_app, config, mock_context, built_project):
        """Mocks _run_idf_py and verifies args include --port and flash."""
        config.project_roots = [built_project.parent]
        integration = IDFIntegration(mock_app, config)
        flash_fn = mock_app._registered_tools["idf_flash_project"]

        calls = []

        async def fake_run_idf_py(args, timeout=300.0):
            calls.append(args)
            return {"success": True, "output": "flash ok", "stderr": ""}

        integration._run_idf_py = fake_run_idf_py

        result = await flash_fn(
            mock_context,
            project_path=str(built_project),
            port="/dev/ttyUSB0",
            baud=460800,
        )
        assert result["success"] is True
        assert len(calls) == 1

        cmd_args = calls[0]
        assert "flash" in cmd_args
        assert "-p" in cmd_args
        assert "/dev/ttyUSB0" in cmd_args
        assert "-b" in cmd_args
        assert "460800" in cmd_args

    @pytest.mark.asyncio
    async def test_flash_project_path_validation(self, mock_app, config, mock_context, tmp_path):
        """Path outside project_roots is rejected."""
        allowed_root = tmp_path / "allowed"
        allowed_root.mkdir()
        outside_dir = tmp_path / "outside"
        outside_dir.mkdir()
        (outside_dir / "build").mkdir()

        config.project_roots = [allowed_root]
        config.esp_idf_path = None
        IDFIntegration(mock_app, config)
        flash_fn = mock_app._registered_tools["idf_flash_project"]

        result = await flash_fn(
            mock_context,
            project_path=str(outside_dir),
            port="/dev/ttyUSB0",
        )
        assert result["success"] is False
        assert "outside" in result["error"].lower() or "roots" in result["error"].lower()


class TestIdfMonitor:
    """Test idf_monitor tool function execution (mocked subprocess)."""

    @pytest.mark.asyncio
    async def test_monitor_calls_idf_py(self, mock_app, config, mock_context):
        """Mocks subprocess and verifies monitor command is issued."""
        config.get_idf_available = MagicMock(return_value=True)
        integration = IDFIntegration(mock_app, config)
        monitor_fn = mock_app._registered_tools["idf_monitor"]

        # Mock _build_idf_env to return a valid env
        integration._build_idf_env = AsyncMock(
            return_value={"PATH": "/usr/bin", "IDF_PATH": str(config.esp_idf_path)}
        )

        mock_proc = AsyncMock()
        mock_proc.communicate = AsyncMock(return_value=(b"serial output here", b""))
        mock_proc.returncode = 0

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc) as mock_exec:
            result = await monitor_fn(mock_context, port="/dev/ttyUSB0", duration=5)

        assert result["success"] is True
        assert result["port"] == "/dev/ttyUSB0"
        assert result["duration"] == 5

        # Verify the subprocess was called with monitor args
        exec_args = mock_exec.call_args[0]
        assert "monitor" in exec_args
        assert "--no-reset" in exec_args
        assert "-p" in exec_args

    @pytest.mark.asyncio
    async def test_monitor_timeout_cleanup(self, mock_app, config, mock_context):
        """Process is terminated/killed on timeout."""
        config.get_idf_available = MagicMock(return_value=True)
        integration = IDFIntegration(mock_app, config)
        monitor_fn = mock_app._registered_tools["idf_monitor"]

        integration._build_idf_env = AsyncMock(
            return_value={"PATH": "/usr/bin", "IDF_PATH": str(config.esp_idf_path)}
        )

        mock_proc = AsyncMock()
        # First communicate raises TimeoutError, then terminate+communicate also times out
        mock_proc.communicate = AsyncMock(side_effect=asyncio.TimeoutError)
        mock_proc.returncode = None
        mock_proc.terminate = MagicMock()
        mock_proc.kill = MagicMock()
        mock_proc.wait = AsyncMock()

        with patch("asyncio.create_subprocess_exec", return_value=mock_proc):
            with patch("asyncio.wait_for", side_effect=asyncio.TimeoutError):
                result = await monitor_fn(mock_context, port="/dev/ttyUSB0", duration=1)

        assert result["success"] is True
        # Process should have been killed (terminate or kill called)
        assert mock_proc.kill.called or mock_proc.terminate.called


class TestIdfStatusResource:
    """Test esp://idf/status resource function."""

    @pytest.mark.asyncio
    async def test_status_resource_returns_valid_json(self, mock_app, config):
        """Call the registered resource function; verify it returns dict with expected keys."""
        integration = IDFIntegration(mock_app, config)
        status_fn = mock_app._registered_resources["esp://idf/status"]

        # Mock _run_idf_tools so it doesn't actually run subprocess
        integration._run_idf_tools = AsyncMock(
            return_value={
                "success": True,
                "output": "xtensa-esp-elf 14.2.0: found\ncmake 3.24.0: not found\n",
                "stderr": "",
            }
        )
        # Mock _load_tools_json to skip disk I/O
        integration._load_tools_json = AsyncMock(return_value=None)

        # Write a version.txt so the resource can read it
        version_file = config.esp_idf_path / "version.txt"
        version_file.write_text("v5.3\n")

        result = await status_fn()

        assert isinstance(result, dict)
        assert result["available"] is True
        assert "idf_path" in result
        assert "idf_version" in result
        assert result["idf_version"] == "v5.3"
        assert "installed_tools" in result
        assert "missing_tools" in result
        assert "missing_tool_names" in result

    @pytest.mark.asyncio
    async def test_status_with_no_idf_path(self, mock_app, config):
        """config.esp_idf_path = None returns graceful response."""
        config.esp_idf_path = None
        IDFIntegration(mock_app, config)
        status_fn = mock_app._registered_resources["esp://idf/status"]

        result = await status_fn()

        assert isinstance(result, dict)
        assert result["available"] is False
        assert "error" in result


class TestIdfSetupTargetPrompt:
    """Test idf_setup_target prompt function."""

    @pytest.mark.asyncio
    async def test_prompt_returns_markdown(self, mock_app, config):
        """Call registered prompt with target='esp32p4'; verify non-empty output."""
        integration = IDFIntegration(mock_app, config)
        prompt_fn = mock_app._registered_prompts["idf_setup_target"]

        # Mock _run_idf_tools to return something parseable
        integration._run_idf_tools = AsyncMock(
            return_value={
                "success": True,
                "output": "riscv32-esp-elf 14.2.0: found\ncmake 3.24.0: found\n",
                "stderr": "",
            }
        )
        integration._load_tools_json = AsyncMock(return_value={
            "tools": [
                {
                    "name": "riscv32-esp-elf",
                    "description": "RISC-V compiler",
                    "supported_targets": ["esp32c3", "esp32c6", "esp32h2", "esp32p4"],
                    "versions": [{"name": "14.2.0", "status": "recommended"}],
                },
            ]
        })

        result = await prompt_fn(target="esp32p4")

        assert isinstance(result, str)
        assert len(result) > 0
        assert "esp32p4" in result
        assert "riscv" in result.lower()

    @pytest.mark.asyncio
    async def test_prompt_invalid_target(self, mock_app, config):
        """Call with bad target; verify architecture shows 'unknown'."""
        integration = IDFIntegration(mock_app, config)
        prompt_fn = mock_app._registered_prompts["idf_setup_target"]

        # Mock _run_idf_tools -- the prompt still runs check even for unknown targets
        integration._run_idf_tools = AsyncMock(
            return_value={
                "success": True,
                "output": "",
                "stderr": "",
            }
        )
        integration._load_tools_json = AsyncMock(return_value={"tools": []})

        result = await prompt_fn(target="badchip")

        assert isinstance(result, str)
        assert "badchip" in result
        assert "unknown" in result.lower()