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Source code for tool_shed.test.base.twilltestcase

import abc
import contextlib
import logging
import os
import shutil
import string
import tarfile
import tempfile
import time
from json import loads
from pathlib import Path
from typing import (
    Any,
    Dict,
    Iterator,
    List,
    Optional,
    Tuple,
)
from urllib.parse import (
    quote_plus,
    urlencode,
    urlparse,
)

import pytest
import requests
from mercurial import (
    commands,
    hg,
    ui,
)
from playwright.sync_api import Page
from sqlalchemy import (
    false,
    select,
)

import galaxy.model.tool_shed_install as galaxy_model
from galaxy.schema.schema import CheckForUpdatesResponse
from galaxy.security import idencoding
from galaxy.tool_shed.galaxy_install.install_manager import InstallRepositoryManager
from galaxy.tool_shed.galaxy_install.installed_repository_manager import InstalledRepositoryManager
from galaxy.tool_shed.galaxy_install.metadata.installed_repository_metadata_manager import (
    InstalledRepositoryMetadataManager,
)
from galaxy.tool_shed.unittest_utils import (
    StandaloneInstallationTarget,
    ToolShedTarget,
)
from galaxy.tool_shed.util.dependency_display import build_manage_repository_dict
from galaxy.tool_shed.util.repository_util import check_for_updates
from galaxy.util import (
    DEFAULT_SOCKET_TIMEOUT,
    smart_str,
)
from galaxy_test.base.api_asserts import assert_status_code_is_ok
from galaxy_test.base.api_util import get_admin_api_key
from galaxy_test.base.populators import wait_on_assertion
from tool_shed.test.base.populators import TEST_DATA_REPO_FILES
from tool_shed.util import (
    hg_util,
    hgweb_config,
    xml_util,
)
from tool_shed.util.repository_content_util import tar_open
from tool_shed.webapp.model import Repository as DbRepository
from tool_shed_client.schema import (
    Category,
    Repository,
    RepositoryMetadata,
)
from . import (
    common,
    test_db_util,
)
from .api import ShedApiTestCase
from .browser import ShedBrowser
from .playwrightbrowser import PlaywrightShedBrowser
from .twillbrowser import (
    page_content,
    visit_url,
)

# Set a 10 minute timeout for repository installation.
repository_installation_timeout = 600

log = logging.getLogger(__name__)


[docs]class ToolShedInstallationClient(metaclass=abc.ABCMeta):
[docs] @abc.abstractmethod def check_galaxy_repository_tool_panel_section( self, repository: galaxy_model.ToolShedRepository, expected_tool_panel_section: str ) -> None: """ """
[docs] @abc.abstractmethod def setup(self) -> None: """Setup client interaction."""
[docs] @abc.abstractmethod def deactivate_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: """Deactivate the supplied repository."""
[docs] @abc.abstractmethod def display_installed_jobs_list_page( self, installed_repository: galaxy_model.ToolShedRepository, data_manager_names=None, strings_displayed=None ) -> None: """If available, check data manager jobs for supplied strings."""
[docs] @abc.abstractmethod def installed_repository_extended_info( self, installed_repository: galaxy_model.ToolShedRepository ) -> Dict[str, Any]: """"""
[docs] @abc.abstractmethod def install_repository( self, name: str, owner: str, changeset_revision: str, install_tool_dependencies: bool, install_repository_dependencies: bool, new_tool_panel_section_label: Optional[str], ) -> None: """"""
[docs] @abc.abstractmethod def reactivate_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: """"""
[docs] @abc.abstractmethod def reset_metadata_on_installed_repositories(self, repositories: List[galaxy_model.ToolShedRepository]) -> None: """"""
[docs] @abc.abstractmethod def reset_installed_repository_metadata(self, repository: galaxy_model.ToolShedRepository) -> None: """"""
[docs] @abc.abstractmethod def uninstall_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: """"""
[docs] @abc.abstractmethod def update_installed_repository( self, installed_repository: galaxy_model.ToolShedRepository, verify_no_updates: bool = False ) -> Dict[str, Any]: """"""
@abc.abstractproperty def tool_data_path(self) -> str: """""" @abc.abstractproperty def shed_tool_data_table_conf(self) -> str: """"""
[docs] @abc.abstractmethod def get_tool_names(self) -> List[str]: """"""
[docs] @abc.abstractmethod def get_installed_repository_by_name_owner( self, repository_name: str, repository_owner: str ) -> galaxy_model.ToolShedRepository: """"""
[docs] @abc.abstractmethod def get_installed_repositories_by_name_owner( self, repository_name: str, repository_owner: str ) -> List[galaxy_model.ToolShedRepository]: """"""
[docs] @abc.abstractmethod def get_installed_repository_for( self, owner: Optional[str] = None, name: Optional[str] = None, changeset: Optional[str] = None ) -> Optional[Dict[str, Any]]: """"""
[docs] @abc.abstractmethod def get_all_installed_repositories(self) -> List[galaxy_model.ToolShedRepository]: """"""
[docs] @abc.abstractmethod def refresh_tool_shed_repository(self, repo: galaxy_model.ToolShedRepository) -> None: """"""
[docs]class GalaxyInteractorToolShedInstallationClient(ToolShedInstallationClient): """A Galaxy API + Database as a installation target for the tool shed."""
[docs] def __init__(self, testcase): self.testcase = testcase
[docs] def setup(self): self._galaxy_login()
[docs] def check_galaxy_repository_tool_panel_section( self, repository: galaxy_model.ToolShedRepository, expected_tool_panel_section: str ) -> None: metadata = repository.metadata_ assert "tools" in metadata, f"Tools not found in repository metadata: {metadata}" # If integrated_tool_panel.xml is to be tested, this test method will need to be enhanced to handle tools # from the same repository in different tool panel sections. Getting the first tool guid is ok, because # currently all tools contained in a single repository will be loaded into the same tool panel section. if repository.status in [ galaxy_model.ToolShedRepository.installation_status.UNINSTALLED, galaxy_model.ToolShedRepository.installation_status.DEACTIVATED, ]: tool_panel_section = _get_tool_panel_section_from_repository_metadata(metadata) else: tool_panel_section = self._get_tool_panel_section_from_api(metadata) assert ( tool_panel_section == expected_tool_panel_section ), f"Expected to find tool panel section *{expected_tool_panel_section}*, but instead found *{tool_panel_section}*\nMetadata: {metadata}\n"
[docs] def deactivate_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: encoded_id = self.testcase.security.encode_id(installed_repository.id) api_key = get_admin_api_key() response = requests.delete( f"{self.testcase.galaxy_url}/api/tool_shed_repositories/{encoded_id}", data={"remove_from_disk": False, "key": api_key}, timeout=DEFAULT_SOCKET_TIMEOUT, ) assert response.status_code != 403, response.content
[docs] def display_installed_jobs_list_page( self, installed_repository: galaxy_model.ToolShedRepository, data_manager_names=None, strings_displayed=None ) -> None: data_managers = installed_repository.metadata_.get("data_manager", {}).get("data_managers", {}) if data_manager_names: if not isinstance(data_manager_names, list): data_manager_names = [data_manager_names] for data_manager_name in data_manager_names: assert ( data_manager_name in data_managers ), f"The requested Data Manager '{data_manager_name}' was not found in repository metadata." else: data_manager_name = list(data_managers.keys()) for data_manager_name in data_manager_names: params = {"id": data_managers[data_manager_name]["guid"]} self._visit_galaxy_url("/data_manager/jobs_list", params=params) content = page_content() for expected in strings_displayed: if content.find(expected) == -1: raise AssertionError(f"Failed to find pattern {expected} in {content}")
[docs] def installed_repository_extended_info( self, installed_repository: galaxy_model.ToolShedRepository ) -> Dict[str, Any]: params = {"id": self.testcase.security.encode_id(installed_repository.id)} self._visit_galaxy_url("/admin_toolshed/manage_repository_json", params=params) json = page_content() return loads(json)
[docs] def install_repository( self, name: str, owner: str, changeset_revision: str, install_tool_dependencies: bool, install_repository_dependencies: bool, new_tool_panel_section_label: Optional[str], ): payload = { "tool_shed_url": self.testcase.url, "name": name, "owner": owner, "changeset_revision": changeset_revision, "install_tool_dependencies": install_tool_dependencies, "install_repository_dependencies": install_repository_dependencies, "install_resolver_dependencies": False, } if new_tool_panel_section_label: payload["new_tool_panel_section_label"] = new_tool_panel_section_label create_response = self.testcase.galaxy_interactor._post( "tool_shed_repositories/new/install_repository_revision", data=payload, admin=True ) assert_status_code_is_ok(create_response) create_response_object = create_response.json() if isinstance(create_response_object, dict): assert "status" in create_response_object assert "ok" == create_response_object["status"] # repo already installed... return assert isinstance(create_response_object, list) repository_ids = [repo["id"] for repo in create_response.json()] log.debug(f"Waiting for the installation of repository IDs: {repository_ids}") self._wait_for_repository_installation(repository_ids)
[docs] def reactivate_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: params = dict(id=self.testcase.security.encode_id(installed_repository.id)) url = "/admin_toolshed/restore_repository" self._visit_galaxy_url(url, params=params)
[docs] def reset_metadata_on_installed_repositories(self, repositories: List[galaxy_model.ToolShedRepository]) -> None: repository_ids = [] for repository in repositories: repository_ids.append(self.testcase.security.encode_id(repository.id)) api_key = get_admin_api_key() response = requests.post( f"{self.testcase.galaxy_url}/api/tool_shed_repositories/reset_metadata_on_selected_installed_repositories", data={"repository_ids": repository_ids, "key": api_key}, timeout=DEFAULT_SOCKET_TIMEOUT, ) assert response.status_code != 403, response.content
[docs] def uninstall_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: encoded_id = self.testcase.security.encode_id(installed_repository.id) api_key = get_admin_api_key() response = requests.delete( f"{self.testcase.galaxy_url}/api/tool_shed_repositories/{encoded_id}", data={"remove_from_disk": True, "key": api_key}, timeout=DEFAULT_SOCKET_TIMEOUT, ) assert response.status_code != 403, response.content
[docs] def update_installed_repository( self, installed_repository: galaxy_model.ToolShedRepository, verify_no_updates: bool = False ) -> Dict[str, Any]: repository_id = self.testcase.security.encode_id(installed_repository.id) params = { "id": repository_id, } api_key = get_admin_api_key() response = requests.get( f"{self.testcase.galaxy_url}/api/tool_shed_repositories/check_for_updates?key={api_key}", params=params, timeout=DEFAULT_SOCKET_TIMEOUT, ) response.raise_for_status() response_dict = response.json() if verify_no_updates: assert "message" in response_dict message = response_dict["message"] assert "The status has not changed in the tool shed for repository" in message, str(response_dict) return response_dict
[docs] def reset_installed_repository_metadata(self, repository: galaxy_model.ToolShedRepository) -> None: encoded_id = self.testcase.security.encode_id(repository.id) api_key = get_admin_api_key() response = requests.post( f"{self.testcase.galaxy_url}/api/tool_shed_repositories/reset_metadata_on_selected_installed_repositories", data={"repository_ids": [encoded_id], "key": api_key}, timeout=DEFAULT_SOCKET_TIMEOUT, ) assert response.status_code != 403, response.content
@property def tool_data_path(self): return os.environ.get("GALAXY_TEST_TOOL_DATA_PATH") @property def shed_tool_data_table_conf(self): return os.environ.get("TOOL_SHED_TEST_TOOL_DATA_TABLE_CONF")
[docs] def get_tool_names(self) -> List[str]: response = self.testcase.galaxy_interactor._get("tools?in_panel=false") response.raise_for_status() tool_list = response.json() return [t["name"] for t in tool_list]
[docs] def get_installed_repository_by_name_owner( self, repository_name: str, repository_owner: str ) -> galaxy_model.ToolShedRepository: return test_db_util.get_installed_repository_by_name_owner(repository_name, repository_owner)
[docs] def get_installed_repositories_by_name_owner( self, repository_name: str, repository_owner: str ) -> List[galaxy_model.ToolShedRepository]: return test_db_util.get_installed_repository_by_name_owner( repository_name, repository_owner, return_multiple=True )
[docs] def get_installed_repository_for( self, owner: Optional[str] = None, name: Optional[str] = None, changeset: Optional[str] = None ) -> Optional[Dict[str, Any]]: return self.testcase.get_installed_repository_for(owner=owner, name=name, changeset=changeset)
[docs] def get_all_installed_repositories(self) -> List[galaxy_model.ToolShedRepository]: repositories = test_db_util.get_all_installed_repositories() for repository in repositories: test_db_util.ga_refresh(repository) return repositories
[docs] def refresh_tool_shed_repository(self, repo: galaxy_model.ToolShedRepository) -> None: test_db_util.ga_refresh(repo)
def _galaxy_login(self, email="test@bx.psu.edu", password="testuser", username="admin-user"): self._galaxy_logout() self._create_user_in_galaxy(email=email, password=password, username=username) params = {"login": email, "password": password, "session_csrf_token": self._galaxy_token()} self._visit_galaxy_url("/user/login", params=params) def _galaxy_logout(self): self._visit_galaxy_url("/user/logout", params=dict(session_csrf_token=self._galaxy_token())) def _create_user_in_galaxy(self, email="test@bx.psu.edu", password="testuser", username="admin-user"): params = { "username": username, "email": email, "password": password, "confirm": password, "session_csrf_token": self._galaxy_token(), } self._visit_galaxy_url("/user/create", params=params, allowed_codes=[200, 400]) def _galaxy_token(self): self._visit_galaxy_url("/") html = page_content() token_def_index = html.find("session_csrf_token") token_sep_index = html.find(":", token_def_index) token_quote_start_index = html.find('"', token_sep_index) token_quote_end_index = html.find('"', token_quote_start_index + 1) token = html[(token_quote_start_index + 1) : token_quote_end_index] return token def _get_tool_panel_section_from_api(self, metadata): tool_metadata = metadata["tools"] tool_guid = quote_plus(tool_metadata[0]["guid"], safe="") api_url = f"/api/tools/{tool_guid}" self._visit_galaxy_url(api_url) tool_dict = loads(page_content()) tool_panel_section = tool_dict["panel_section_name"] return tool_panel_section def _wait_for_repository_installation(self, repository_ids): # Wait until all repositories are in a final state before returning. This ensures that subsequent tests # are running against an installed repository, and not one that is still in the process of installing. if repository_ids: for repository_id in repository_ids: galaxy_repository = test_db_util.get_installed_repository_by_id( self.testcase.security.decode_id(repository_id) ) _wait_for_installation(galaxy_repository, test_db_util.ga_refresh) def _visit_galaxy_url(self, url, params=None, allowed_codes=None): if allowed_codes is None: allowed_codes = [200] url = f"{self.testcase.galaxy_url}{url}" url = self.testcase.join_url_and_params(url, params) return visit_url(url, allowed_codes)
[docs]class StandaloneToolShedInstallationClient(ToolShedInstallationClient):
[docs] def __init__(self, testcase): self.testcase = testcase self.temp_directory = Path(tempfile.mkdtemp(prefix="toolshedtestinstalltarget")) tool_shed_target = ToolShedTarget( self.testcase.url, "Tool Shed for Testing", ) self._installation_target = StandaloneInstallationTarget(self.temp_directory, tool_shed_target=tool_shed_target)
[docs] def setup(self) -> None: pass
[docs] def check_galaxy_repository_tool_panel_section( self, repository: galaxy_model.ToolShedRepository, expected_tool_panel_section: str ) -> None: metadata = repository.metadata_ assert "tools" in metadata, f"Tools not found in repository metadata: {metadata}" # TODO: check actual toolbox if tool is already installed... tool_panel_section = _get_tool_panel_section_from_repository_metadata(metadata) assert ( tool_panel_section == expected_tool_panel_section ), f"Expected to find tool panel section *{expected_tool_panel_section}*, but instead found *{tool_panel_section}*\nMetadata: {metadata}\n"
[docs] def deactivate_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: irm = InstalledRepositoryManager(app=self._installation_target) errors = irm.uninstall_repository(repository=installed_repository, remove_from_disk=False) if errors: raise Exception( f"Attempting to uninstall tool dependencies for repository named {installed_repository.name} resulted in errors: {errors}" )
[docs] def display_installed_jobs_list_page( self, installed_repository: galaxy_model.ToolShedRepository, data_manager_names=None, strings_displayed=None ) -> None: raise NotImplementedError()
[docs] def installed_repository_extended_info( self, installed_repository: galaxy_model.ToolShedRepository ) -> Dict[str, Any]: self._installation_target.install_model.context.refresh(installed_repository) return build_manage_repository_dict(self._installation_target, "ok", installed_repository)
[docs] def install_repository( self, name: str, owner: str, changeset_revision: str, install_tool_dependencies: bool, install_repository_dependencies: bool, new_tool_panel_section_label: Optional[str], ): tool_shed_url = self.testcase.url payload = { "tool_shed_url": tool_shed_url, "name": name, "owner": owner, "changeset_revision": changeset_revision, "install_tool_dependencies": install_tool_dependencies, "install_repository_dependencies": install_repository_dependencies, "install_resolver_dependencies": False, } if new_tool_panel_section_label: payload["new_tool_panel_section_label"] = new_tool_panel_section_label irm = InstallRepositoryManager(app=self._installation_target) installed_tool_shed_repositories = irm.install(str(tool_shed_url), name, owner, changeset_revision, payload) for installed_tool_shed_repository in installed_tool_shed_repositories or []: _wait_for_installation( installed_tool_shed_repository, self._installation_target.install_model.context.refresh )
[docs] def reactivate_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: irm = InstalledRepositoryManager(app=self._installation_target) irm.activate_repository(installed_repository)
[docs] def reset_metadata_on_installed_repositories(self, repositories: List[galaxy_model.ToolShedRepository]) -> None: for repository in repositories: irmm = InstalledRepositoryMetadataManager(self._installation_target) irmm.set_repository(repository) irmm.reset_all_metadata_on_installed_repository()
[docs] def reset_installed_repository_metadata(self, repository: galaxy_model.ToolShedRepository) -> None: irmm = InstalledRepositoryMetadataManager(self._installation_target) irmm.set_repository(repository) irmm.reset_all_metadata_on_installed_repository()
[docs] def uninstall_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: irm = InstalledRepositoryManager(app=self._installation_target) errors = irm.uninstall_repository(repository=installed_repository, remove_from_disk=True) if errors: raise Exception( f"Attempting to uninstall tool dependencies for repository named {installed_repository.name} resulted in errors: {errors}" )
[docs] def update_installed_repository( self, installed_repository: galaxy_model.ToolShedRepository, verify_no_updates: bool = False ) -> Dict[str, Any]: message, status = check_for_updates( self._installation_target.tool_shed_registry, self._installation_target.install_model.context, installed_repository.id, ) response = CheckForUpdatesResponse(message=message, status=status) response_dict = response.dict() if verify_no_updates: assert "message" in response_dict message = response_dict["message"] assert "The status has not changed in the tool shed for repository" in message, str(response_dict) return response_dict
[docs] def get_installed_repository_by_name_owner( self, repository_name: str, repository_owner: str ) -> galaxy_model.ToolShedRepository: return test_db_util.get_installed_repository_by_name_owner( repository_name, repository_owner, session=self._installation_target.install_model.context )
[docs] def get_installed_repositories_by_name_owner( self, repository_name: str, repository_owner: str ) -> List[galaxy_model.ToolShedRepository]: return test_db_util.get_installed_repository_by_name_owner( repository_name, repository_owner, return_multiple=True, session=self._installation_target.install_model.context, )
[docs] def get_installed_repository_for( self, owner: Optional[str] = None, name: Optional[str] = None, changeset: Optional[str] = None ) -> Optional[Dict[str, Any]]: repository = get_installed_repository(self._installation_target.install_model.context, name, owner, changeset) if repository: return repository.to_dict() else: return None
[docs] def get_all_installed_repositories(self) -> List[galaxy_model.ToolShedRepository]: repositories = test_db_util.get_all_installed_repositories( session=self._installation_target.install_model.context ) for repository in repositories: self._installation_target.install_model.context.refresh(repository) return repositories
[docs] def refresh_tool_shed_repository(self, repo: galaxy_model.ToolShedRepository) -> None: self._installation_target.install_model.context.refresh(repo)
@property def shed_tool_data_table_conf(self): return self._installation_target.config.shed_tool_data_table_config @property def tool_data_path(self): return self._installation_target.config.tool_data_path
[docs] def get_tool_names(self) -> List[str]: tool_names = [] for _, tool in self._installation_target.toolbox.tools(): tool_names.append(tool.name) return tool_names
[docs]@pytest.mark.usefixtures("shed_browser") class ShedTwillTestCase(ShedApiTestCase): """Class of FunctionalTestCase geared toward HTML interactions using the Twill library.""" requires_galaxy: bool = False _installation_client = None __browser: Optional[ShedBrowser] = None
[docs] def setUp(self): super().setUp() # Security helper self.security = idencoding.IdEncodingHelper(id_secret="changethisinproductiontoo") self.history_id = None self.hgweb_config_dir = os.environ.get("TEST_HG_WEB_CONFIG_DIR") self.hgweb_config_manager = hgweb_config.hgweb_config_manager self.hgweb_config_manager.hgweb_config_dir = self.hgweb_config_dir self.tool_shed_test_tmp_dir = os.environ.get("TOOL_SHED_TEST_TMP_DIR", None) self.file_dir = os.environ.get("TOOL_SHED_TEST_FILE_DIR", None) self.shed_tool_conf = os.environ.get("GALAXY_TEST_SHED_TOOL_CONF") self.test_db_util = test_db_util if os.environ.get("TOOL_SHED_TEST_INSTALL_CLIENT") == "standalone": # TODO: once nose is out of the way - try to get away without # instantiating the unused Galaxy server here. installation_client_class = StandaloneToolShedInstallationClient full_stack_galaxy = False else: installation_client_class = GalaxyInteractorToolShedInstallationClient full_stack_galaxy = True self.full_stack_galaxy = full_stack_galaxy if self.requires_galaxy and (self.__class__._installation_client is None): self.__class__._installation_client = installation_client_class(self) self.__class__._installation_client.setup() self._installation_client = self.__class__._installation_client
[docs] @pytest.fixture(autouse=True) def inject_shed_browser(self, shed_browser: ShedBrowser): self.__browser = shed_browser
@property def _browser(self) -> ShedBrowser: assert self.__browser return self.__browser def _escape_page_content_if_needed(self, content: str) -> str: # if twill browser is being used - replace spaces with " " if self._browser.is_twill: content = content.replace(" ", " ") return content
[docs] def check_for_strings(self, strings_displayed=None, strings_not_displayed=None): strings_displayed = strings_displayed or [] strings_not_displayed = strings_not_displayed or [] if strings_displayed: for check_str in strings_displayed: self.check_page_for_string(check_str) if strings_not_displayed: for check_str in strings_not_displayed: self.check_string_not_in_page(check_str)
[docs] def check_page(self, strings_displayed, strings_displayed_count, strings_not_displayed): """Checks a page for strings displayed, not displayed and number of occurrences of a string""" for check_str in strings_displayed: self.check_page_for_string(check_str) for check_str, count in strings_displayed_count: self.check_string_count_in_page(check_str, count) for check_str in strings_not_displayed: self.check_string_not_in_page(check_str)
[docs] def check_page_for_string(self, patt): """Looks for 'patt' in the current browser page""" self._browser.check_page_for_string(patt)
[docs] def check_string_not_in_page(self, patt): """Checks to make sure 'patt' is NOT in the page.""" self._browser.check_string_not_in_page(patt)
# Functions associated with user accounts def _submit_register_form(self, email: str, password: str, username: str, redirect: Optional[str] = None): self._browser.fill_form_value("registration", "email", email) if redirect is not None: self._browser.fill_form_value("registration", "redirect", redirect) self._browser.fill_form_value("registration", "password", password) self._browser.fill_form_value("registration", "confirm", password) self._browser.fill_form_value("registration", "username", username) self._browser.submit_form_with_name("registration", "create_user_button") @property def invalid_tools_labels(self) -> str: return "Invalid Tools" if self.is_v2 else "Invalid tools"
[docs] def create( self, cntrller: str = "user", email: str = "test@bx.psu.edu", password: str = "testuser", username: str = "admin-user", redirect: Optional[str] = None, ) -> Tuple[bool, bool, bool]: # HACK: don't use panels because late_javascripts() messes up the twill browser and it # can't find form fields (and hence user can't be logged in). params = dict(cntrller=cntrller, use_panels=False) self.visit_url("/user/create", params) self._submit_register_form( email, password, username, redirect, ) previously_created = False username_taken = False invalid_username = False if not self.is_v2: try: self.check_page_for_string("Created new user account") except AssertionError: try: # May have created the account in a previous test run... self.check_page_for_string(f"User with email '{email}' already exists.") previously_created = True except AssertionError: try: self.check_page_for_string("Public name is taken; please choose another") username_taken = True except AssertionError: # Note that we're only checking if the usr name is >< 4 chars here... try: self.check_page_for_string("Public name must be at least 4 characters in length") invalid_username = True except AssertionError: pass return previously_created, username_taken, invalid_username
[docs] def last_page(self): """ Return the last visited page (usually HTML, but can binary data as well). """ return self._browser.page_content()
[docs] def user_api_interactor(self, email="test@bx.psu.edu", password="testuser"): return self._api_interactor_by_credentials(email, password)
[docs] def user_populator(self, email="test@bx.psu.edu", password="testuser"): return self._get_populator(self.user_api_interactor(email=email, password=password))
[docs] def login( self, email: str = "test@bx.psu.edu", password: str = "testuser", username: str = "admin-user", redirect: Optional[str] = None, logout_first: bool = True, explicit_logout: bool = False, ): if self.is_v2: # old version had a logout URL, this one needs to check # page if logged in self.visit_url("/") # Clear cookies. if logout_first: self.logout(explicit=explicit_logout) # test@bx.psu.edu is configured as an admin user previously_created, username_taken, invalid_username = self.create( email=email, password=password, username=username, redirect=redirect ) # v2 doesn't log you in on account creation... so force a login here if previously_created or self.is_v2: # The account has previously been created, so just login. # HACK: don't use panels because late_javascripts() messes up the twill browser and it # can't find form fields (and hence user can't be logged in). params = {"use_panels": False} self.visit_url("/user/login", params=params) self.submit_form(button="login_button", login=email, redirect=redirect, password=password)
@property def is_v2(self) -> bool: return self.api_interactor.api_version == "v2" @property def _playwright_browser(self) -> PlaywrightShedBrowser: # make sure self.is_v2 browser = self._browser assert isinstance(browser, PlaywrightShedBrowser) return browser @property def _page(self) -> Page: return self._playwright_browser._page
[docs] def logout(self, explicit: bool = False): """logout of the current tool shed session. By default this is a logout if logged in action, however if explicit is True - ensure there is a session and be explicit in logging out to provide extract test structure. """ if self.is_v2: if explicit: self._playwright_browser.explicit_logout() else: self._playwright_browser.logout_if_logged_in() else: self.visit_url("/user/logout") self.check_page_for_string("You have been logged out")
[docs] def submit_form(self, form_no=-1, button="runtool_btn", form=None, **kwd): """Populates and submits a form from the keyword arguments.""" # An HTMLForm contains a sequence of Controls. Supported control classes are: # TextControl, FileControl, ListControl, RadioControl, CheckboxControl, SelectControl, # SubmitControl, ImageControl self._browser.submit_form(form_no, button, form, **kwd)
[docs] def join_url_and_params(self, url: str, params, query=None) -> str: if params is None: params = dict() if query is None: query = urlparse(url).query if query: for query_parameter in query.split("&"): key, value = query_parameter.split("=") params[key] = value if params: url += f"?{urlencode(params)}" return url
[docs] def visit_url(self, url: str, params=None, allowed_codes: Optional[List[int]] = None) -> str: parsed_url = urlparse(url) if len(parsed_url.netloc) == 0: url = f"http://{self.host}:{self.port}{parsed_url.path}" else: url = f"{parsed_url.scheme}://{parsed_url.netloc}{parsed_url.path}" url = self.join_url_and_params(url, params, query=parsed_url.query) if allowed_codes is None: allowed_codes = [200] return self._browser.visit_url(url, allowed_codes=allowed_codes)
[docs] def write_temp_file(self, content, suffix=".html"): with tempfile.NamedTemporaryFile(suffix=suffix, prefix="twilltestcase-", delete=False) as fh: fh.write(smart_str(content)) return fh.name
[docs] def assign_admin_role(self, repository: Repository, user): # As elsewhere, twill limits the possibility of submitting the form, this time due to not executing the javascript # attached to the role selection form. Visit the action url directly with the necessary parameters. params = { "id": repository.id, "in_users": user.id, "manage_role_associations_button": "Save", } self.visit_url("/repository/manage_repository_admins", params=params) self.check_for_strings(strings_displayed=["Role", "has been associated"])
[docs] def browse_category(self, category: Category, strings_displayed=None, strings_not_displayed=None): if self.is_v2: self.visit_url(f"/repositories_by_category/{category.id}") else: params = { "sort": "name", "operation": "valid_repositories_by_category", "id": category.id, } self.visit_url("/repository/browse_valid_categories", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def browse_repository(self, repository: Repository, strings_displayed=None, strings_not_displayed=None): params = {"id": repository.id} self.visit_url("/repository/browse_repository", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def browse_repository_dependencies(self, strings_displayed=None, strings_not_displayed=None): url = "/repository/browse_repository_dependencies" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def browse_tool_shed(self, url, strings_displayed=None, strings_not_displayed=None): if self.is_v2: url = "/repositories_by_category" else: url = "/repository/browse_valid_categories" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def browse_tool_dependencies(self, strings_displayed=None, strings_not_displayed=None): url = "/repository/browse_tool_dependencies" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def browse_tools(self, strings_displayed=None, strings_not_displayed=None): url = "/repository/browse_tools" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def check_count_of_metadata_revisions_associated_with_repository(self, repository: Repository, metadata_count): self.check_repository_changelog(repository) self.check_string_count_in_page("Repository metadata is associated with this change set.", metadata_count)
[docs] def check_for_valid_tools(self, repository, strings_displayed=None, strings_not_displayed=None): if strings_displayed is None: strings_displayed = ["Valid tools"] else: strings_displayed.append("Valid tools") self.display_manage_repository_page(repository, strings_displayed, strings_not_displayed)
[docs] def check_galaxy_repository_db_status(self, repository_name, owner, expected_status): installed_repository = self._get_installed_repository_by_name_owner(repository_name, owner) self._refresh_tool_shed_repository(installed_repository) assert ( installed_repository.status == expected_status ), f"Status in database is {installed_repository.status}, expected {expected_status}"
[docs] def check_repository_changelog(self, repository: Repository, strings_displayed=None, strings_not_displayed=None): params = {"id": repository.id} self.visit_url("/repository/view_changelog", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def check_repository_dependency( self, repository: Repository, depends_on_repository: Repository, depends_on_changeset_revision=None, changeset_revision=None, ): if not self.is_v2: # v2 doesn't display repository repository dependencies, they are deprecated strings_displayed = [depends_on_repository.name, depends_on_repository.owner] if depends_on_changeset_revision: strings_displayed.append(depends_on_changeset_revision) self.display_manage_repository_page( repository, changeset_revision=changeset_revision, strings_displayed=strings_displayed )
[docs] def check_repository_metadata(self, repository: Repository, tip_only=True): if tip_only: assert ( self.tip_has_metadata(repository) and len(self.get_repository_metadata_revisions(repository)) == 1 ), "Repository tip is not a metadata revision: Repository tip - %s, metadata revisions - %s." else: assert ( len(self.get_repository_metadata_revisions(repository)) > 0 ), "Repository tip is not a metadata revision: Repository tip - {}, metadata revisions - {}.".format( self.get_repository_tip(repository), ", ".join(self.get_repository_metadata_revisions(repository)), )
[docs] def check_repository_tools_for_changeset_revision( self, repository: Repository, changeset_revision, tool_metadata_strings_displayed=None, tool_page_strings_displayed=None, ): """ Loop through each tool dictionary in the repository metadata associated with the received changeset_revision. For each of these, check for a tools attribute, and load the tool metadata page if it exists, then display that tool's page. """ db_repository = self._db_repository(repository) test_db_util.refresh(db_repository) repository_metadata = self.get_repository_metadata_by_changeset_revision(db_repository.id, changeset_revision) metadata = repository_metadata.metadata if "tools" not in metadata: raise AssertionError(f"No tools in {repository.name} revision {changeset_revision}.") for tool_dict in metadata["tools"]: tool_id = tool_dict["id"] tool_xml = tool_dict["tool_config"] params = { "repository_id": repository.id, "changeset_revision": changeset_revision, "tool_id": tool_id, } self.visit_url("/repository/view_tool_metadata", params=params) self.check_for_strings(tool_metadata_strings_displayed) self.load_display_tool_page( repository, tool_xml_path=tool_xml, changeset_revision=changeset_revision, strings_displayed=tool_page_strings_displayed, strings_not_displayed=None, )
[docs] def check_repository_invalid_tools_for_changeset_revision( self, repository: Repository, changeset_revision, strings_displayed=None, strings_not_displayed=None ): """Load the invalid tool page for each invalid tool associated with this changeset revision and verify the received error messages.""" db_repository = self._db_repository(repository) repository_metadata = self.get_repository_metadata_by_changeset_revision(db_repository.id, changeset_revision) metadata = repository_metadata.metadata assert ( "invalid_tools" in metadata ), f"Metadata for changeset revision {changeset_revision} does not define invalid tools" for tool_xml in metadata["invalid_tools"]: self.load_invalid_tool_page( repository, tool_xml=tool_xml, changeset_revision=changeset_revision, strings_displayed=strings_displayed, strings_not_displayed=strings_not_displayed, )
[docs] def check_string_count_in_page(self, pattern, min_count, max_count=None): """Checks the number of 'pattern' occurrences in the current browser page""" page = self.last_page() pattern_count = page.count(pattern) if max_count is None: max_count = min_count # The number of occurrences of pattern in the page should be between min_count # and max_count, so show error if pattern_count is less than min_count or greater # than max_count. if pattern_count < min_count or pattern_count > max_count: fname = self.write_temp_file(page) errmsg = "%i occurrences of '%s' found (min. %i, max. %i).\npage content written to '%s' " % ( pattern_count, pattern, min_count, max_count, fname, ) raise AssertionError(errmsg)
[docs] def check_galaxy_repository_tool_panel_section( self, repository: galaxy_model.ToolShedRepository, expected_tool_panel_section: str ) -> None: assert self._installation_client self._installation_client.check_galaxy_repository_tool_panel_section(repository, expected_tool_panel_section)
[docs] def clone_repository(self, repository: Repository, destination_path: str) -> None: url = f"{self.url}/repos/{repository.owner}/{repository.name}" success, message = hg_util.clone_repository(url, destination_path, self.get_repository_tip(repository)) assert success is True, message
[docs] def commit_and_push(self, repository, hgrepo, options, username, password): url = f"http://{username}:{password}@{self.host}:{self.port}/repos/{repository.user.username}/{repository.name}" commands.commit(ui.ui(), hgrepo, **options) # Try pushing multiple times as it transiently fails on Jenkins. # TODO: Figure out why that happens for _ in range(5): try: commands.push(ui.ui(), hgrepo, dest=url) except Exception as e: if str(e).find("Pushing to Tool Shed is disabled") != -1: return False else: return True raise
[docs] def create_category(self, **kwd) -> Category: category_name = kwd["name"] try: category = self.populator.get_category_with_name(category_name) except ValueError: # not recreating this functionality in the UI I don't think? category = self.populator.new_category(category_name) return category return category
[docs] def create_repository_dependency( self, repository: Repository, repository_tuples=None, filepath=None, prior_installation_required=False, complex=False, package=None, version=None, strings_displayed=None, strings_not_displayed=None, ): repository_tuples = repository_tuples or [] repository_names = [] if complex: filename = "tool_dependencies.xml" target = self.generate_complex_dependency_xml( filename=filename, filepath=filepath, repository_tuples=repository_tuples, package=package, version=version, ) else: for _, name, _, _ in repository_tuples: repository_names.append(name) dependency_description = f"{repository.name} depends on {', '.join(repository_names)}." filename = "repository_dependencies.xml" target = self.generate_simple_dependency_xml( repository_tuples=repository_tuples, filename=filename, filepath=filepath, dependency_description=dependency_description, prior_installation_required=prior_installation_required, ) self.add_file_to_repository(repository, target, filename, strings_displayed=strings_displayed)
[docs] def deactivate_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: assert self._installation_client self._installation_client.deactivate_repository(installed_repository)
[docs] @contextlib.contextmanager def cloned_repo(self, repository: Repository) -> Iterator[str]: temp_directory = tempfile.mkdtemp(prefix="toolshedrepowithoutfiles") try: self.clone_repository(repository, temp_directory) shutil.rmtree(os.path.join(temp_directory, ".hg")) contents = os.listdir(temp_directory) if len(contents) == 1 and contents[0] == "repo": yield os.path.join(temp_directory, "repo") else: yield temp_directory finally: shutil.rmtree(temp_directory)
[docs] def setup_freebayes_0010_repo(self, repository: Repository): strings_displayed = [ "Metadata may have been defined", "This file requires an entry", "tool_data_table_conf", ] self.add_file_to_repository(repository, "freebayes/freebayes.xml", strings_displayed=strings_displayed) strings_displayed = ["Upload a file named <b>sam_fa_indices.loc.sample"] self.add_file_to_repository( repository, "freebayes/tool_data_table_conf.xml.sample", strings_displayed=strings_displayed ) self.add_file_to_repository(repository, "freebayes/sam_fa_indices.loc.sample") target = os.path.join("freebayes", "malformed_tool_dependencies", "tool_dependencies.xml") self.add_file_to_repository( repository, target, strings_displayed=["Exception attempting to parse", "invalid element name"] ) target = os.path.join("freebayes", "invalid_tool_dependencies", "tool_dependencies.xml") strings_displayed = [ "The settings for <b>name</b>, <b>version</b> and <b>type</b> from a contained tool configuration" ] # , strings_displayed=strings_displayed self.add_file_to_repository(repository, target) target = os.path.join("freebayes", "tool_dependencies.xml") self.add_file_to_repository(repository, target)
[docs] def add_file_to_repository( self, repository: Repository, source: str, target: Optional[str] = None, strings_displayed=None, commit_message: Optional[str] = None, ): with self.cloned_repo(repository) as temp_directory: if target is None: target = os.path.basename(source) full_target = os.path.join(temp_directory, target) full_source = TEST_DATA_REPO_FILES.joinpath(source) shutil.copyfile(str(full_source), full_target) commit_message = commit_message or "Uploaded revision with added file." self._upload_dir_to_repository( repository, temp_directory, commit_message=commit_message, strings_displayed=strings_displayed )
[docs] def add_tar_to_repository(self, repository: Repository, source: str, strings_displayed=None): with self.cloned_repo(repository) as temp_directory: full_source = TEST_DATA_REPO_FILES.joinpath(source) tar = tar_open(full_source) tar.extractall(path=temp_directory) tar.close() commit_message = "Uploaded revision with added files from tar." self._upload_dir_to_repository( repository, temp_directory, commit_message=commit_message, strings_displayed=strings_displayed )
[docs] def commit_tar_to_repository( self, repository: Repository, source: str, commit_message=None, strings_displayed=None ): full_source = TEST_DATA_REPO_FILES.joinpath(source) assert full_source.is_file(), f"Attempting to upload {full_source} as a tar which is not a file" populator = self.user_populator() if strings_displayed is None: # Just assume this is a valid upload... populator.upload_revision(repository, full_source, commit_message=commit_message) else: response = populator.upload_revision_raw(repository, full_source, commit_message=commit_message) try: text = response.json()["message"] except Exception: text = response.text for string_displayed in strings_displayed: if string_displayed not in text: raise AssertionError(f"Failed to find {string_displayed} in JSON response {text}")
[docs] def delete_files_from_repository(self, repository: Repository, filenames: List[str]): with self.cloned_repo(repository) as temp_directory: for filename in filenames: to_delete = os.path.join(temp_directory, filename) os.remove(to_delete) commit_message = "Uploaded revision with deleted files." self._upload_dir_to_repository(repository, temp_directory, commit_message=commit_message)
def _upload_dir_to_repository(self, repository: Repository, target, commit_message, strings_displayed=None): tf = tempfile.NamedTemporaryFile() with tarfile.open(tf.name, "w:gz") as tar: tar.add(target, arcname=".") target = os.path.abspath(tf.name) self.commit_tar_to_repository( repository, target, commit_message=commit_message, strings_displayed=strings_displayed )
[docs] def delete_repository(self, repository: Repository) -> None: repository_id = repository.id self.visit_url("/admin/browse_repositories") params = {"operation": "Delete", "id": repository_id} self.visit_url("/admin/browse_repositories", params=params) strings_displayed = ["Deleted 1 repository", repository.name] strings_not_displayed: List[str] = [] self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def display_installed_jobs_list_page(self, installed_repository, data_manager_names=None, strings_displayed=None): assert self._installation_client self._installation_client.display_installed_jobs_list_page( installed_repository, data_manager_names, strings_displayed )
[docs] def display_installed_repository_manage_json(self, installed_repository): assert self._installation_client return self._installation_client.installed_repository_extended_info(installed_repository)
[docs] def display_manage_repository_page( self, repository: Repository, changeset_revision=None, strings_displayed=None, strings_not_displayed=None ): params = {"id": repository.id} if changeset_revision: params["changeset_revision"] = changeset_revision url = "/repository/manage_repository" if self.is_v2: url = f"/repositories/{repository.id}" self.visit_url(url, params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def display_repository_clone_page( self, owner_name, repository_name, strings_displayed=None, strings_not_displayed=None ): url = f"/repos/{owner_name}/{repository_name}" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def display_repository_file_contents( self, repository: Repository, filename, filepath=None, strings_displayed=None, strings_not_displayed=None ): """Find a file in the repository and display the contents.""" basepath = self.get_repo_path(repository) repository_file_list = [] if filepath: relative_path = os.path.join(basepath, filepath) else: relative_path = basepath repository_file_list = self.get_repository_file_list( repository=repository, base_path=relative_path, current_path=None ) assert filename in repository_file_list, f"File {filename} not found in the repository under {relative_path}." params = dict(file_path=os.path.join(relative_path, filename), repository_id=repository.id) url = "/repository/get_file_contents" self.visit_url(url, params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def edit_repository_categories( self, repository: Repository, categories_to_add: List[str], categories_to_remove: List[str], restore_original=True, ) -> None: params = {"id": repository.id} self.visit_url("/repository/manage_repository", params=params) self._browser.edit_repository_categories(categories_to_add, categories_to_remove)
[docs] def edit_repository_information(self, repository: Repository, revert=True, **kwd): params = {"id": repository.id} self.visit_url("/repository/manage_repository", params=params) db_repository = self._db_repository(repository) original_information = dict( repo_name=db_repository.name, description=db_repository.description, long_description=db_repository.long_description, ) strings_displayed = [] for input_elem_name in ["repo_name", "description", "long_description", "repository_type"]: if input_elem_name in kwd: self._browser.fill_form_value("edit_repository", input_elem_name, kwd[input_elem_name]) strings_displayed.append(self.escape_html(kwd[input_elem_name])) self._browser.submit_form_with_name("edit_repository", "edit_repository_button") # TODO: come back to this (and similar conditional below), the problem is check # for strings isn't working with with textboxes I think? if self._browser.is_twill: self.check_for_strings(strings_displayed) if revert: strings_displayed = [] for input_elem_name in ["repo_name", "description", "long_description"]: self._browser.fill_form_value("edit_repository", input_elem_name, original_information[input_elem_name]) strings_displayed.append(self.escape_html(original_information[input_elem_name])) self._browser.submit_form_with_name("edit_repository", "edit_repository_button") if self._browser.is_twill: self.check_for_strings(strings_displayed)
[docs] def enable_email_alerts(self, repository: Repository, strings_displayed=None, strings_not_displayed=None) -> None: repository_id = repository.id params = dict(operation="Receive email alerts", id=repository_id) self.visit_url("/repository/browse_repositories", params) self.check_for_strings(strings_displayed)
[docs] def escape_html(self, string, unescape=False): html_entities = [("&", "X"), ("'", "&#39;"), ('"', "&#34;")] for character, replacement in html_entities: if unescape: string = string.replace(replacement, character) else: string = string.replace(character, replacement) return string
[docs] def expect_repo_created_strings(self, name): return [ f"Repository <b>{name}</b>", f"Repository <b>{name}</b> has been created", ]
[docs] def fetch_repository_metadata(self, repository: Repository, strings_displayed=None, strings_not_displayed=None): url = f"/api/repositories/{repository.id}/metadata" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def generate_complex_dependency_xml(self, filename, filepath, repository_tuples, package, version): file_path = os.path.join(filepath, filename) dependency_entries = [] template = string.Template(common.new_repository_dependencies_line) for toolshed_url, name, owner, changeset_revision in repository_tuples: dependency_entries.append( template.safe_substitute( toolshed_url=toolshed_url, owner=owner, repository_name=name, changeset_revision=changeset_revision, prior_installation_required="", ) ) if not os.path.exists(filepath): os.makedirs(filepath) dependency_template = string.Template(common.complex_repository_dependency_template) repository_dependency_xml = dependency_template.safe_substitute( package=package, version=version, dependency_lines="\n".join(dependency_entries) ) # Save the generated xml to the specified location. open(file_path, "w").write(repository_dependency_xml) return file_path
[docs] def generate_simple_dependency_xml( self, repository_tuples, filename, filepath, dependency_description="", complex=False, package=None, version=None, prior_installation_required=False, ): if not os.path.exists(filepath): os.makedirs(filepath) dependency_entries = [] if prior_installation_required: prior_installation_value = ' prior_installation_required="True"' else: prior_installation_value = "" for toolshed_url, name, owner, changeset_revision in repository_tuples: template = string.Template(common.new_repository_dependencies_line) dependency_entries.append( template.safe_substitute( toolshed_url=toolshed_url, owner=owner, repository_name=name, changeset_revision=changeset_revision, prior_installation_required=prior_installation_value, ) ) if dependency_description: description = f' description="{dependency_description}"' else: description = dependency_description template_parser = string.Template(common.new_repository_dependencies_xml) repository_dependency_xml = template_parser.safe_substitute( description=description, dependency_lines="\n".join(dependency_entries) ) # Save the generated xml to the specified location. full_path = os.path.join(filepath, filename) open(full_path, "w").write(repository_dependency_xml) return full_path
[docs] def generate_temp_path(self, test_script_path, additional_paths=None): additional_paths = additional_paths or [] temp_path = os.path.join(self.tool_shed_test_tmp_dir, test_script_path, os.sep.join(additional_paths)) if not os.path.exists(temp_path): os.makedirs(temp_path) return temp_path
[docs] def get_all_installed_repositories(self) -> List[galaxy_model.ToolShedRepository]: assert self._installation_client return self._installation_client.get_all_installed_repositories()
[docs] def get_filename(self, filename, filepath=None): if filepath is not None: return os.path.abspath(os.path.join(filepath, filename)) else: return os.path.abspath(os.path.join(self.file_dir, filename))
[docs] def get_hg_repo(self, path): return hg.repository(ui.ui(), path.encode("utf-8"))
[docs] def get_repositories_category_api( self, categories: List[Category], strings_displayed=None, strings_not_displayed=None ): for category in categories: url = f"/api/categories/{category.id}/repositories" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def get_or_create_repository( self, category: Category, owner: str, name: str, strings_displayed=None, strings_not_displayed=None, **kwd ) -> Repository: # If not checking for a specific string, it should be safe to assume that # we expect repository creation to be successful. if strings_displayed is None: strings_displayed = ["Repository", name, "has been created"] if strings_not_displayed is None: strings_not_displayed = [] repository = self.populator.get_repository_for(owner, name) if repository is None: category_id = category.id assert category_id self.visit_url("/repository/create_repository") self.submit_form(button="create_repository_button", name=name, category_id=category_id, **kwd) self.check_for_strings(strings_displayed, strings_not_displayed) repository = self.populator.get_repository_for(owner, name) assert repository return repository
[docs] def get_repo_path(self, repository: Repository) -> str: # An entry in the hgweb.config file looks something like: repos/test/mira_assembler = database/community_files/000/repo_123 lhs = f"repos/{repository.owner}/{repository.name}" try: return self.hgweb_config_manager.get_entry(lhs) except Exception: raise Exception( f"Entry for repository {lhs} missing in hgweb config file {self.hgweb_config_manager.hgweb_config}." )
[docs] def get_repository_changelog_tuples(self, repository): repo = self.get_hg_repo(self.get_repo_path(repository)) changelog_tuples = [] for changeset in repo.changelog: ctx = repo[changeset] changelog_tuples.append((ctx.rev(), ctx)) return changelog_tuples
[docs] def get_repository_file_list(self, repository: Repository, base_path: str, current_path=None) -> List[str]: """Recursively load repository folder contents and append them to a list. Similar to os.walk but via /repository/open_folder.""" if current_path is None: request_param_path = base_path else: request_param_path = os.path.join(base_path, current_path) # Get the current folder's contents. params = dict(folder_path=request_param_path, repository_id=repository.id) url = "/repository/open_folder" self.visit_url(url, params=params) file_list = loads(self.last_page()) returned_file_list = [] if current_path is not None: returned_file_list.append(current_path) # Loop through the json dict returned by /repository/open_folder. for file_dict in file_list: if file_dict["isFolder"]: # This is a folder. Get the contents of the folder and append it to the list, # prefixed with the path relative to the repository root, if any. if current_path is None: returned_file_list.extend( self.get_repository_file_list( repository=repository, base_path=base_path, current_path=file_dict["title"] ) ) else: sub_path = os.path.join(current_path, file_dict["title"]) returned_file_list.extend( self.get_repository_file_list(repository=repository, base_path=base_path, current_path=sub_path) ) else: # This is a regular file, prefix the filename with the current path and append it to the list. if current_path is not None: returned_file_list.append(os.path.join(current_path, file_dict["title"])) else: returned_file_list.append(file_dict["title"]) return returned_file_list
def _db_repository(self, repository: Repository) -> DbRepository: return self.test_db_util.get_repository_by_name_and_owner(repository.name, repository.owner)
[docs] def get_repository_metadata(self, repository: Repository): return self.get_repository_metadata_for_db_object(self._db_repository(repository))
[docs] def get_repository_metadata_for_db_object(self, repository: DbRepository): return [metadata_revision for metadata_revision in repository.metadata_revisions]
[docs] def get_repository_metadata_by_changeset_revision(self, repository_id: int, changeset_revision): return test_db_util.get_repository_metadata_by_repository_id_changeset_revision( repository_id, changeset_revision ) or test_db_util.get_repository_metadata_by_repository_id_changeset_revision(repository_id, None)
[docs] def get_repository_metadata_revisions(self, repository: Repository) -> List[str]: return [ str(repository_metadata.changeset_revision) for repository_metadata in self._db_repository(repository).metadata_revisions ]
def _get_repository_by_name_and_owner(self, name: str, owner: str) -> Repository: repo = self.populator.get_repository_for(owner, name) if repo is None: repo = self.populator.get_repository_for(owner, name, deleted="true") assert repo return repo
[docs] def get_repository_tip(self, repository: Repository) -> str: repo = self.get_hg_repo(self.get_repo_path(repository)) return str(repo[repo.changelog.tip()])
[docs] def get_repository_first_revision(self, repository: Repository) -> str: repo = self.get_hg_repo(self.get_repo_path(repository)) return str(repo[0])
def _get_metadata_revision_count(self, repository: Repository) -> int: repostiory_metadata: RepositoryMetadata = self.populator.get_metadata(repository, downloadable_only=False) return len(repostiory_metadata.__root__)
[docs] def get_tools_from_repository_metadata(self, repository, include_invalid=False): """Get a list of valid and (optionally) invalid tool dicts from the repository metadata.""" valid_tools = [] invalid_tools = [] for repository_metadata in repository.metadata_revisions: if "tools" in repository_metadata.metadata: valid_tools.append( dict( tools=repository_metadata.metadata["tools"], changeset_revision=repository_metadata.changeset_revision, ) ) if include_invalid and "invalid_tools" in repository_metadata.metadata: invalid_tools.append( dict( tools=repository_metadata.metadata["invalid_tools"], changeset_revision=repository_metadata.changeset_revision, ) ) return valid_tools, invalid_tools
[docs] def grant_role_to_user(self, user, role): strings_displayed = [self.security.encode_id(role.id), role.name] strings_not_displayed = [] self.visit_url("/admin/roles") self.check_for_strings(strings_displayed, strings_not_displayed) params = dict(operation="manage users and groups", id=self.security.encode_id(role.id)) url = "/admin/roles" self.visit_url(url, params) strings_displayed = [common.test_user_1_email, common.test_user_2_email] self.check_for_strings(strings_displayed, strings_not_displayed) # As elsewhere, twill limits the possibility of submitting the form, this time due to not executing the javascript # attached to the role selection form. Visit the action url directly with the necessary parameters. params = dict( id=self.security.encode_id(role.id), in_users=user.id, operation="manage users and groups", role_members_edit_button="Save", ) url = "/admin/manage_users_and_groups_for_role" self.visit_url(url, params) strings_displayed = [f"Role '{role.name}' has been updated"] self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def grant_write_access( self, repository: Repository, usernames=None, strings_displayed=None, strings_not_displayed=None, post_submit_strings_displayed=None, post_submit_strings_not_displayed=None, ): usernames = usernames or [] self.display_manage_repository_page(repository) self.check_for_strings(strings_displayed, strings_not_displayed) self._browser.grant_users_access(usernames) self.check_for_strings(post_submit_strings_displayed, post_submit_strings_not_displayed)
def _install_repository( self, name: str, owner: str, category_name: str, install_tool_dependencies: bool = False, install_repository_dependencies: bool = True, changeset_revision: Optional[str] = None, preview_strings_displayed: Optional[List[str]] = None, new_tool_panel_section_label: Optional[str] = None, ) -> None: self.browse_tool_shed(url=self.url) category = self.populator.get_category_with_name(category_name) self.browse_category(category) self.preview_repository_in_tool_shed(name, owner, strings_displayed=preview_strings_displayed) repository = self._get_repository_by_name_and_owner(name, owner) assert repository # repository_id = repository.id if changeset_revision is None: changeset_revision = self.get_repository_tip(repository) assert self._installation_client self._installation_client.install_repository( name, owner, changeset_revision, install_tool_dependencies, install_repository_dependencies, new_tool_panel_section_label, )
[docs] def load_citable_url( self, username, repository_name, changeset_revision, encoded_user_id, encoded_repository_id, strings_displayed=None, strings_not_displayed=None, strings_displayed_in_iframe=None, strings_not_displayed_in_iframe=None, ): strings_displayed_in_iframe = strings_displayed_in_iframe or [] strings_not_displayed_in_iframe = strings_not_displayed_in_iframe or [] url = f"{self.url}/view/{username}" # If repository name is passed in, append that to the url. if repository_name: url += f"/{repository_name}" if changeset_revision: # Changeset revision should never be provided unless repository name also is. assert repository_name is not None, "Changeset revision is present, but repository name is not - aborting." url += f"/{changeset_revision}" self.visit_url(url) self.check_for_strings(strings_displayed, strings_not_displayed) if self.is_v2: self.check_for_strings(strings_displayed_in_iframe, strings_not_displayed_in_iframe) else: # Now load the page that should be displayed inside the iframe and check for strings. if encoded_repository_id: params = {"id": encoded_repository_id, "operation": "view_or_manage_repository"} if changeset_revision: params["changeset_revision"] = changeset_revision self.visit_url("/repository/view_repository", params=params) self.check_for_strings(strings_displayed_in_iframe, strings_not_displayed_in_iframe) elif encoded_user_id: params = {"user_id": encoded_user_id, "operation": "repositories_by_user"} self.visit_url("/repository/browse_repositories", params=params) self.check_for_strings(strings_displayed_in_iframe, strings_not_displayed_in_iframe)
[docs] def load_changeset_in_tool_shed( self, repository_id, changeset_revision, strings_displayed=None, strings_not_displayed=None ): # Only used in 0000 params = {"ctx_str": changeset_revision, "id": repository_id} self.visit_url("/repository/view_changeset", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def load_checkable_revisions(self, strings_displayed=None, strings_not_displayed=None): params = { "do_not_test": "false", "downloadable": "true", "includes_tools": "true", "malicious": "false", "missing_test_components": "false", "skip_tool_test": "false", } self.visit_url("/api/repository_revisions", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def load_display_tool_page( self, repository: Repository, tool_xml_path, changeset_revision, strings_displayed=None, strings_not_displayed=None, ): params = { "repository_id": repository.id, "tool_config": tool_xml_path, "changeset_revision": changeset_revision, } self.visit_url("/repository/display_tool", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def load_invalid_tool_page( self, repository: Repository, tool_xml, changeset_revision, strings_displayed=None, strings_not_displayed=None ): params = { "repository_id": repository.id, "tool_config": tool_xml, "changeset_revision": changeset_revision, } self.visit_url("/repository/load_invalid_tool", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def preview_repository_in_tool_shed( self, name: str, owner: str, changeset_revision: Optional[str] = None, strings_displayed=None, strings_not_displayed=None, ): repository = self._get_repository_by_name_and_owner(name, owner) assert repository if not changeset_revision: changeset_revision = self.get_repository_tip(repository) params = {"repository_id": repository.id, "changeset_revision": changeset_revision} self.visit_url("/repository/preview_tools_in_changeset", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def reactivate_repository(self, installed_repository): self._installation_client.reactivate_repository(installed_repository)
[docs] def reinstall_repository_api( self, installed_repository, install_repository_dependencies=True, install_tool_dependencies=False, new_tool_panel_section_label="", ): name = installed_repository.name owner = installed_repository.owner self._installation_client.install_repository( name, owner, installed_repository.installed_changeset_revision, install_tool_dependencies, install_repository_dependencies, new_tool_panel_section_label, )
[docs] def repository_is_new(self, repository: Repository) -> bool: repo = self.get_hg_repo(self.get_repo_path(repository)) tip_ctx = repo[repo.changelog.tip()] return tip_ctx.rev() < 0
[docs] def reset_metadata_on_selected_repositories(self, repository_ids): if self.is_v2: for repository_id in repository_ids: self.populator.reset_metadata(repository_id) else: self.visit_url("/admin/reset_metadata_on_selected_repositories_in_tool_shed") kwd = dict(repository_ids=repository_ids) self.submit_form(button="reset_metadata_on_selected_repositories_button", **kwd)
[docs] def reset_metadata_on_installed_repositories(self, repositories): assert self._installation_client self._installation_client.reset_metadata_on_installed_repositories(repositories)
[docs] def reset_repository_metadata(self, repository): params = {"id": repository.id} self.visit_url("/repository/reset_all_metadata", params=params) self.check_for_strings(["All repository metadata has been reset."])
[docs] def revoke_write_access(self, repository, username): params = {"user_access_button": "Remove", "id": repository.id, "remove_auth": username} self.visit_url("/repository/manage_repository", params=params)
[docs] def search_for_valid_tools( self, search_fields=None, exact_matches=False, strings_displayed=None, strings_not_displayed=None, from_galaxy=False, ): params = {} search_fields = search_fields or {} if from_galaxy: params["galaxy_url"] = self.galaxy_url for field_name, search_string in search_fields.items(): self.visit_url("/repository/find_tools", params=params) self._browser.fill_form_value("find_tools", "exact_matches", exact_matches) self._browser.fill_form_value("find_tools", field_name, search_string) self._browser.submit_form_with_name("find_tools", "find_tools_submit") self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def set_repository_deprecated( self, repository: Repository, set_deprecated=True, strings_displayed=None, strings_not_displayed=None ): params = {"id": repository.id, "mark_deprecated": set_deprecated} self.visit_url("/repository/deprecate", params=params) self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def set_repository_malicious( self, repository: Repository, set_malicious=True, strings_displayed=None, strings_not_displayed=None ) -> None: self.display_manage_repository_page(repository) self._browser.fill_form_value("malicious", "malicious", set_malicious) self._browser.submit_form_with_name("malicious", "malicious_button") self.check_for_strings(strings_displayed, strings_not_displayed)
[docs] def tip_has_metadata(self, repository: Repository) -> bool: tip = self.get_repository_tip(repository) db_repository = self._db_repository(repository) return test_db_util.get_repository_metadata_by_repository_id_changeset_revision(db_repository.id, tip)
[docs] def undelete_repository(self, repository: Repository) -> None: params = {"operation": "Undelete", "id": repository.id} self.visit_url("/admin/browse_repositories", params=params) strings_displayed = ["Undeleted 1 repository", repository.name] strings_not_displayed: List[str] = [] self.check_for_strings(strings_displayed, strings_not_displayed)
def _uninstall_repository(self, installed_repository: galaxy_model.ToolShedRepository) -> None: assert self._installation_client self._installation_client.uninstall_repository(installed_repository)
[docs] def update_installed_repository( self, installed_repository: galaxy_model.ToolShedRepository, verify_no_updates: bool = False ) -> Dict[str, Any]: assert self._installation_client return self._installation_client.update_installed_repository(installed_repository, verify_no_updates=False)
[docs] def verify_installed_repositories(self, installed_repositories=None, uninstalled_repositories=None): installed_repositories = installed_repositories or [] uninstalled_repositories = uninstalled_repositories or [] for repository_name, repository_owner in installed_repositories: galaxy_repository = self._get_installed_repository_by_name_owner(repository_name, repository_owner) if galaxy_repository: assert ( galaxy_repository.status == "Installed" ), f"Repository {repository_name} should be installed, but is {galaxy_repository.status}"
[docs] def verify_installed_repository_metadata_unchanged(self, name, owner): installed_repository = self._get_installed_repository_by_name_owner(name, owner) assert installed_repository metadata = installed_repository.metadata_ assert self._installation_client self._installation_client.reset_installed_repository_metadata(installed_repository) new_metadata = installed_repository.metadata_ assert metadata == new_metadata, f"Metadata for installed repository {name} differs after metadata reset."
[docs] def verify_installed_repository_no_tool_panel_section(self, repository): """Verify that there is no 'tool_panel_section' entry in the repository metadata.""" metadata = repository.metadata_ assert "tool_panel_section" not in metadata, f"Tool panel section incorrectly found in metadata: {metadata}"
@property def shed_tool_data_table_conf(self): return self._installation_client.shed_tool_data_table_conf @property def tool_data_path(self): return self._installation_client.tool_data_path def _refresh_tool_shed_repository(self, repo: galaxy_model.ToolShedRepository) -> None: assert self._installation_client self._installation_client.refresh_tool_shed_repository(repo)
[docs] def verify_installed_repository_data_table_entries(self, required_data_table_entries): # The value of the received required_data_table_entries will be something like: [ 'sam_fa_indexes' ] shed_tool_data_table_conf = self.shed_tool_data_table_conf data_tables, error_message = xml_util.parse_xml(shed_tool_data_table_conf) with open(shed_tool_data_table_conf) as f: shed_tool_data_table_conf_contents = f.read() assert ( not error_message ), f"Failed to parse {shed_tool_data_table_conf} properly. File contents [{shed_tool_data_table_conf_contents}]" found = False # With the tool shed, the "path" attribute that is hard-coded into the tool_data_tble_conf.xml # file is ignored. This is because the tool shed requires the directory location to which this # path points to be empty except when a specific tool is loaded. The default location for this # directory configured for the tool shed is <Galaxy root>/shed-tool-data. When a tool is loaded # in the tool shed, all contained .loc.sample files are copied to this directory and the # ToolDataTableManager parses and loads the files in the same way that Galaxy does with a very # important exception. When the tool shed loads a tool and parses and loads the copied ,loc.sample # files, the ToolDataTableManager is already instantiated, and so its add_new_entries_from_config_file() # method is called and the tool_data_path parameter is used to over-ride the hard-coded "tool-data" # directory that Galaxy always uses. # # Tool data table xml structure: # <tables> # <table comment_char="#" name="sam_fa_indexes"> # <columns>line_type, value, path</columns> # <file path="tool-data/sam_fa_indices.loc" /> # </table> # </tables> required_data_table_entry = None for table_elem in data_tables.findall("table"): # The value of table_elem will be something like: <table comment_char="#" name="sam_fa_indexes"> for required_data_table_entry in required_data_table_entries: # The value of required_data_table_entry will be something like: 'sam_fa_indexes' if "name" in table_elem.attrib and table_elem.attrib["name"] == required_data_table_entry: found = True # We're processing something like: sam_fa_indexes file_elem = table_elem.find("file") # We have something like: <file path="tool-data/sam_fa_indices.loc" /> # The "path" attribute of the "file" tag is the location that Galaxy always uses because the # Galaxy ToolDataTableManager was implemented in such a way that the hard-coded path is used # rather than allowing the location to be a configurable setting like the tool shed requires. file_path = file_elem.get("path", None) # The value of file_path will be something like: "tool-data/all_fasta.loc" assert ( file_path is not None ), f'The "path" attribute is missing for the {required_data_table_entry} entry.' # The following test is probably not necesary, but the tool-data directory should exist! galaxy_tool_data_dir, loc_file_name = os.path.split(file_path) assert ( galaxy_tool_data_dir is not None ), f"The hard-coded Galaxy tool-data directory is missing for the {required_data_table_entry} entry." assert os.path.exists(galaxy_tool_data_dir), "The Galaxy tool-data directory does not exist." # Make sure the loc_file_name was correctly copied into the configured directory location. configured_file_location = os.path.join(self.tool_data_path, loc_file_name) assert os.path.isfile( configured_file_location ), f'The expected copied file "{configured_file_location}" is missing.' # We've found the value of the required_data_table_entry in data_tables, which is the parsed # shed_tool_data_table_conf.xml, so all is well! break if found: break # We better have an entry like: <table comment_char="#" name="sam_fa_indexes"> in our parsed data_tables # or we know that the repository was not correctly installed! if not found: if required_data_table_entry is None: raise AssertionError( f"No tables found in {shed_tool_data_table_conf}. File contents {shed_tool_data_table_conf_contents}" ) else: raise AssertionError( f"No entry for {required_data_table_entry} in {shed_tool_data_table_conf}. File contents {shed_tool_data_table_conf_contents}" )
def _get_installed_repository_by_name_owner( self, repository_name: str, repository_owner: str ) -> galaxy_model.ToolShedRepository: assert self._installation_client return self._installation_client.get_installed_repository_by_name_owner(repository_name, repository_owner) def _get_installed_repositories_by_name_owner( self, repository_name: str, repository_owner: str ) -> List[galaxy_model.ToolShedRepository]: assert self._installation_client return self._installation_client.get_installed_repositories_by_name_owner(repository_name, repository_owner) def _get_installed_repository_for( self, owner: Optional[str] = None, name: Optional[str] = None, changeset: Optional[str] = None ): assert self._installation_client return self._installation_client.get_installed_repository_for(owner=owner, name=name, changeset=changeset) def _assert_has_installed_repos_with_names(self, *names): for name in names: assert self._get_installed_repository_for(name=name) def _assert_has_no_installed_repos_with_names(self, *names): for name in names: assert not self._get_installed_repository_for(name=name) def _assert_has_missing_dependency( self, installed_repository: galaxy_model.ToolShedRepository, repository_name: str ) -> None: json = self.display_installed_repository_manage_json(installed_repository) assert ( "missing_repository_dependencies" in json ), f"Expecting missing dependency {repository_name} but no missing dependencies found." missing_repository_dependencies = json["missing_repository_dependencies"] folder = missing_repository_dependencies["folders"][0] assert "repository_dependencies" in folder rds = folder["repository_dependencies"] found_missing_repository_dependency = False missing_repos = set() for rd in rds: missing_repos.add(rd["repository_name"]) if rd["repository_name"] == repository_name: found_missing_repository_dependency = True assert ( found_missing_repository_dependency ), f"Expecting missing dependency {repository_name} but the missing repositories were {missing_repos}." def _assert_has_installed_repository_dependency( self, installed_repository: galaxy_model.ToolShedRepository, repository_name: str, changeset: Optional[str] = None, ) -> None: json = self.display_installed_repository_manage_json(installed_repository) if "repository_dependencies" not in json: name = installed_repository.name raise AssertionError(f"No repository dependencies were defined in {name}. manage json is {json}") repository_dependencies = json["repository_dependencies"] found = False for folder in repository_dependencies.get("folders"): for rd in folder["repository_dependencies"]: if rd["repository_name"] != repository_name: continue if changeset and rd["changeset_revision"] != changeset: continue found = True break assert found, f"Failed to find target repository dependency in {json}" def _assert_is_not_missing_dependency( self, installed_repository: galaxy_model.ToolShedRepository, repository_name: str ) -> None: json = self.display_installed_repository_manage_json(installed_repository) if "missing_repository_dependencies" not in json: return missing_repository_dependencies = json["missing_repository_dependencies"] folder = missing_repository_dependencies["folders"][0] assert "repository_dependencies" in folder rds = folder["repository_dependencies"] found_missing_repository_dependency = False for rd in rds: if rd["repository_name"] == repository_name: found_missing_repository_dependency = True assert not found_missing_repository_dependency def _assert_has_valid_tool_with_name(self, tool_name: str) -> None: def assert_has(): assert self._installation_client tool_names = self._installation_client.get_tool_names() assert tool_name in tool_names # May need to wait on toolbox reload. wait_on_assertion(assert_has, f"toolbox to contain {tool_name}", 10) def _assert_repo_has_tool_with_id( self, installed_repository: galaxy_model.ToolShedRepository, tool_id: str ) -> None: assert "tools" in installed_repository.metadata_, ( "No valid tools were defined in %s." % installed_repository.name ) tools = installed_repository.metadata_["tools"] found_it = False for tool in tools: if "id" not in tool: continue if tool["id"] == tool_id: found_it = True break assert found_it, f"Did not find valid tool with name {tool_id} in {tools}" def _assert_repo_has_invalid_tool_in_file( self, installed_repository: galaxy_model.ToolShedRepository, name: str ) -> None: assert "invalid_tools" in installed_repository.metadata_, ( "No invalid tools were defined in %s." % installed_repository.name ) invalid_tools = installed_repository.metadata_["invalid_tools"] found_it = name in invalid_tools assert found_it, f"Did not find invalid tool file {name} in {invalid_tools}"
[docs] def verify_unchanged_repository_metadata(self, repository: Repository): old_metadata = dict() new_metadata = dict() for metadata in self.get_repository_metadata(repository): old_metadata[metadata.changeset_revision] = metadata.metadata self.reset_repository_metadata(repository) for metadata in self.get_repository_metadata(repository): new_metadata[metadata.changeset_revision] = metadata.metadata # Python's dict comparison recursively compares sorted key => value pairs and returns true if any key or value differs, # or if the number of keys differs. assert old_metadata == new_metadata, f"Metadata changed after reset on repository {repository.name}."
def _wait_for_installation(repository: galaxy_model.ToolShedRepository, refresh): final_states = [ galaxy_model.ToolShedRepository.installation_status.ERROR, galaxy_model.ToolShedRepository.installation_status.INSTALLED, ] # Wait until all repositories are in a final state before returning. This ensures that subsequent tests # are running against an installed repository, and not one that is still in the process of installing. timeout_counter = 0 while repository.status not in final_states: refresh(repository) timeout_counter = timeout_counter + 1 # This timeout currently defaults to 10 minutes. if timeout_counter > repository_installation_timeout: raise AssertionError( "Repository installation timed out, %d seconds elapsed, repository state is %s." % (timeout_counter, repository.status) ) break time.sleep(1) def _get_tool_panel_section_from_repository_metadata(metadata): tool_metadata = metadata["tools"] tool_guid = tool_metadata[0]["guid"] assert "tool_panel_section" in metadata, f"Tool panel section not found in metadata: {metadata}" tool_panel_section_metadata = metadata["tool_panel_section"] tool_panel_section = tool_panel_section_metadata[tool_guid][0]["name"] return tool_panel_section
[docs]def get_installed_repository(session, name, owner, changeset): ToolShedRepository = galaxy_model.ToolShedRepository stmt = select(ToolShedRepository) if name is not None: stmt = stmt.where(ToolShedRepository.name == name) if owner is not None: stmt = stmt.where(ToolShedRepository.owner == owner) if changeset is not None: stmt = stmt.where(ToolShedRepository.changeset_revision == changeset) stmt = stmt.where(ToolShedRepository.deleted == false()) stmt = stmt.where(ToolShedRepository.uninstalled == false()) return session.scalars(stmt).one_or_none()