#!/usr/bin/env python3 # For the dependencies, see the requirements.txt import logging import re import traceback from argparse import ArgumentDefaultsHelpFormatter, ArgumentParser, Namespace from collections import OrderedDict from copy import deepcopy from dataclasses import dataclass, field from itertools import accumulate from pathlib import Path from subprocess import check_output from textwrap import dedent from typing import Any, Iterable, Optional, Pattern, TypedDict, Union import yaml from filecache import DAY, filecache from gitlab_common import get_token_from_default_dir from gql import Client, gql from gql.transport.requests import RequestsHTTPTransport from graphql import DocumentNode class DagNode(TypedDict): needs: set[str] stage: str # `name` is redundant but is here for retro-compatibility name: str # see create_job_needs_dag function for more details Dag = dict[str, DagNode] StageSeq = OrderedDict[str, set[str]] def get_project_root_dir(): root_path = Path(__file__).parent.parent.parent.resolve() gitlab_file = root_path / ".gitlab-ci.yml" assert gitlab_file.exists() return root_path @dataclass class GitlabGQL: _transport: Any = field(init=False) client: Client = field(init=False) url: str = "https://gitlab.freedesktop.org/api/graphql" token: Optional[str] = None def __post_init__(self) -> None: self._setup_gitlab_gql_client() def _setup_gitlab_gql_client(self) -> None: # Select your transport with a defined url endpoint headers = {} if self.token: headers["Authorization"] = f"Bearer {self.token}" self._transport = RequestsHTTPTransport(url=self.url, headers=headers) # Create a GraphQL client using the defined transport self.client = Client(transport=self._transport, fetch_schema_from_transport=True) def query( self, gql_file: Union[Path, str], params: dict[str, Any] = {}, operation_name: Optional[str] = None, paginated_key_loc: Iterable[str] = [], disable_cache: bool = False, ) -> dict[str, Any]: def run_uncached() -> dict[str, Any]: if paginated_key_loc: return self._sweep_pages(gql_file, params, operation_name, paginated_key_loc) return self._query(gql_file, params, operation_name) if disable_cache: return run_uncached() try: # Create an auxiliary variable to deliver a cached result and enable catching exceptions # Decorate the query to be cached if paginated_key_loc: result = self._sweep_pages_cached( gql_file, params, operation_name, paginated_key_loc ) else: result = self._query_cached(gql_file, params, operation_name) return result # type: ignore except Exception as ex: logging.error(f"Cached query failed with {ex}") # print exception traceback traceback_str = "".join(traceback.format_exception(ex)) logging.error(traceback_str) self.invalidate_query_cache() logging.error("Cache invalidated, retrying without cache") finally: return run_uncached() def _query( self, gql_file: Union[Path, str], params: dict[str, Any] = {}, operation_name: Optional[str] = None, ) -> dict[str, Any]: # Provide a GraphQL query source_path: Path = Path(__file__).parent pipeline_query_file: Path = source_path / gql_file query: DocumentNode with open(pipeline_query_file, "r") as f: pipeline_query = f.read() query = gql(pipeline_query) # Execute the query on the transport return self.client.execute_sync( query, variable_values=params, operation_name=operation_name ) @filecache(DAY) def _sweep_pages_cached(self, *args, **kwargs): return self._sweep_pages(*args, **kwargs) @filecache(DAY) def _query_cached(self, *args, **kwargs): return self._query(*args, **kwargs) def _sweep_pages( self, query, params, operation_name=None, paginated_key_loc: Iterable[str] = [] ) -> dict[str, Any]: """ Retrieve paginated data from a GraphQL API and concatenate the results into a single response. Args: query: represents a filepath with the GraphQL query to be executed. params: a dictionary that contains the parameters to be passed to the query. These parameters can be used to filter or modify the results of the query. operation_name: The `operation_name` parameter is an optional parameter that specifies the name of the GraphQL operation to be executed. It is used when making a GraphQL query to specify which operation to execute if there are multiple operations defined in the GraphQL schema. If not provided, the default operation will be executed. paginated_key_loc (Iterable[str]): The `paginated_key_loc` parameter is an iterable of strings that represents the location of the paginated field within the response. It is used to extract the paginated field from the response and append it to the final result. The node has to be a list of objects with a `pageInfo` field that contains at least the `hasNextPage` and `endCursor` fields. Returns: a dictionary containing the response from the query with the paginated field concatenated. """ def fetch_page(cursor: str | None = None) -> dict[str, Any]: if cursor: params["cursor"] = cursor logging.info( f"Found more than 100 elements, paginating. " f"Current cursor at {cursor}" ) return self._query(query, params, operation_name) # Execute the initial query response: dict[str, Any] = fetch_page() # Initialize an empty list to store the final result final_partial_field: list[dict[str, Any]] = [] # Loop until all pages have been retrieved while True: # Get the partial field to be appended to the final result partial_field = response for key in paginated_key_loc: partial_field = partial_field[key] # Append the partial field to the final result final_partial_field += partial_field["nodes"] # Check if there are more pages to retrieve page_info = partial_field["pageInfo"] if not page_info["hasNextPage"]: break # Execute the query with the updated cursor parameter response = fetch_page(page_info["endCursor"]) # Replace the "nodes" field in the original response with the final result partial_field["nodes"] = final_partial_field return response def invalidate_query_cache(self) -> None: logging.warning("Invalidating query cache") try: self._sweep_pages._db.clear() self._query._db.clear() except AttributeError as ex: logging.warning(f"Could not invalidate cache, maybe it was not used in {ex.args}?") def insert_early_stage_jobs(stage_sequence: StageSeq, jobs_metadata: Dag) -> Dag: pre_processed_dag: dict[str, set[str]] = {} jobs_from_early_stages = list(accumulate(stage_sequence.values(), set.union)) for job_name, metadata in jobs_metadata.items(): final_needs: set[str] = deepcopy(metadata["needs"]) # Pre-process jobs that are not based on needs field # e.g. sanity job in mesa MR pipelines if not final_needs: job_stage: str = jobs_metadata[job_name]["stage"] stage_index: int = list(stage_sequence.keys()).index(job_stage) if stage_index > 0: final_needs |= jobs_from_early_stages[stage_index - 1] pre_processed_dag[job_name] = final_needs for job_name, needs in pre_processed_dag.items(): jobs_metadata[job_name]["needs"] = needs return jobs_metadata def traverse_dag_needs(jobs_metadata: Dag) -> None: created_jobs = set(jobs_metadata.keys()) for job, metadata in jobs_metadata.items(): final_needs: set = deepcopy(metadata["needs"]) & created_jobs # Post process jobs that are based on needs field partial = True while partial: next_depth: set[str] = {n for dn in final_needs if dn in jobs_metadata for n in jobs_metadata[dn]["needs"]} partial: bool = not final_needs.issuperset(next_depth) final_needs = final_needs.union(next_depth) jobs_metadata[job]["needs"] = final_needs def extract_stages_and_job_needs( pipeline_jobs: dict[str, Any], pipeline_stages: dict[str, Any] ) -> tuple[StageSeq, Dag]: jobs_metadata = Dag() # Record the stage sequence to post process deps that are not based on needs # field, for example: sanity job stage_sequence: OrderedDict[str, set[str]] = OrderedDict() for stage in pipeline_stages["nodes"]: stage_sequence[stage["name"]] = set() for job in pipeline_jobs["nodes"]: stage_sequence[job["stage"]["name"]].add(job["name"]) dag_job: DagNode = { "name": job["name"], "stage": job["stage"]["name"], "needs": set([j["node"]["name"] for j in job["needs"]["edges"]]), } jobs_metadata[job["name"]] = dag_job return stage_sequence, jobs_metadata def create_job_needs_dag(gl_gql: GitlabGQL, params, disable_cache: bool = True) -> Dag: """ This function creates a Directed Acyclic Graph (DAG) to represent a sequence of jobs, where each job has a set of jobs that it depends on (its "needs") and belongs to a certain "stage". The "name" of the job is used as the key in the dictionary. For example, consider the following DAG: 1. build stage: job1 -> job2 -> job3 2. test stage: job2 -> job4 - The job needs for job3 are: job1, job2 - The job needs for job4 are: job2 - The job2 needs to wait all jobs from build stage to finish. The resulting DAG would look like this: dag = { "job1": {"needs": set(), "stage": "build", "name": "job1"}, "job2": {"needs": {"job1", "job2", job3"}, "stage": "test", "name": "job2"}, "job3": {"needs": {"job1", "job2"}, "stage": "build", "name": "job3"}, "job4": {"needs": {"job2"}, "stage": "test", "name": "job4"}, } To access the job needs, one can do: dag["job3"]["needs"] This will return the set of jobs that job3 needs: {"job1", "job2"} Args: gl_gql (GitlabGQL): The `gl_gql` parameter is an instance of the `GitlabGQL` class, which is used to make GraphQL queries to the GitLab API. params (dict): The `params` parameter is a dictionary that contains the necessary parameters for the GraphQL query. It is used to specify the details of the pipeline for which the job needs DAG is being created. The specific keys and values in the `params` dictionary will depend on the requirements of the GraphQL query being executed disable_cache (bool): The `disable_cache` parameter is a boolean that specifies whether the Returns: The final DAG (Directed Acyclic Graph) representing the job dependencies sourced from needs or stages rule. """ stages_jobs_gql = gl_gql.query( "pipeline_details.gql", params=params, paginated_key_loc=["project", "pipeline", "jobs"], disable_cache=disable_cache, ) pipeline_data = stages_jobs_gql["project"]["pipeline"] if not pipeline_data: raise RuntimeError(f"Could not find any pipelines for {params}") stage_sequence, jobs_metadata = extract_stages_and_job_needs( pipeline_data["jobs"], pipeline_data["stages"] ) # Fill the DAG with the job needs from stages that don't have any needs but still need to wait # for previous stages final_dag = insert_early_stage_jobs(stage_sequence, jobs_metadata) # Now that each job has its direct needs filled correctly, update the "needs" field for each job # in the DAG by performing a topological traversal traverse_dag_needs(final_dag) return final_dag def filter_dag( dag: Dag, job_name_regex: Pattern, include_stage_regex: Pattern, exclude_stage_regex: Pattern ) -> Dag: filtered_jobs: Dag = Dag({}) for (job, data) in dag.items(): if not job_name_regex.fullmatch(job): continue if not include_stage_regex.fullmatch(data["stage"]): continue if exclude_stage_regex.fullmatch(data["stage"]): continue filtered_jobs[job] = data return filtered_jobs def print_dag(dag: Dag) -> None: for job, data in sorted(dag.items()): print(f"{job}:\n\t{' '.join(data['needs'])}\n") def fetch_merged_yaml(gl_gql: GitlabGQL, params) -> dict[str, Any]: params["content"] = dedent("""\ include: - local: .gitlab-ci.yml """) raw_response = gl_gql.query("job_details.gql", params) ci_config = raw_response["ciConfig"] if merged_yaml := ci_config["mergedYaml"]: return yaml.safe_load(merged_yaml) if "errors" in ci_config: for error in ci_config["errors"]: print(error) gl_gql.invalidate_query_cache() raise ValueError( """ Could not fetch any content for merged YAML, please verify if the git SHA exists in remote. Maybe you forgot to `git push`? """ ) def recursive_fill(job, relationship_field, target_data, acc_data: dict, merged_yaml): if relatives := job.get(relationship_field): if isinstance(relatives, str): relatives = [relatives] for relative in relatives: parent_job = merged_yaml[relative] acc_data = recursive_fill(parent_job, acc_data, merged_yaml) # type: ignore acc_data |= job.get(target_data, {}) return acc_data def get_variables(job, merged_yaml, project_path, sha) -> dict[str, str]: p = get_project_root_dir() / ".gitlab-ci" / "image-tags.yml" image_tags = yaml.safe_load(p.read_text()) variables = image_tags["variables"] variables |= merged_yaml["variables"] variables |= job["variables"] variables["CI_PROJECT_PATH"] = project_path variables["CI_PROJECT_NAME"] = project_path.split("/")[1] variables["CI_REGISTRY_IMAGE"] = "registry.freedesktop.org/${CI_PROJECT_PATH}" variables["CI_COMMIT_SHA"] = sha while recurse_among_variables_space(variables): pass return variables # Based on: https://stackoverflow.com/a/2158532/1079223 def flatten(xs): for x in xs: if isinstance(x, Iterable) and not isinstance(x, (str, bytes)): yield from flatten(x) else: yield x def get_full_script(job) -> list[str]: script = [] for script_part in ("before_script", "script", "after_script"): script.append(f"# {script_part}") lines = flatten(job.get(script_part, [])) script.extend(lines) script.append("") return script def recurse_among_variables_space(var_graph) -> bool: updated = False for var, value in var_graph.items(): value = str(value) dep_vars = [] if match := re.findall(r"(\$[{]?[\w\d_]*[}]?)", value): all_dep_vars = [v.lstrip("${").rstrip("}") for v in match] # print(value, match, all_dep_vars) dep_vars = [v for v in all_dep_vars if v in var_graph] for dep_var in dep_vars: dep_value = str(var_graph[dep_var]) new_value = var_graph[var] new_value = new_value.replace(f"${{{dep_var}}}", dep_value) new_value = new_value.replace(f"${dep_var}", dep_value) var_graph[var] = new_value updated |= dep_value != new_value return updated def print_job_final_definition(job_name, merged_yaml, project_path, sha): job = merged_yaml[job_name] variables = get_variables(job, merged_yaml, project_path, sha) print("# --------- variables ---------------") for var, value in sorted(variables.items()): print(f"export {var}={value!r}") # TODO: Recurse into needs to get full script # TODO: maybe create a extra yaml file to avoid too much rework script = get_full_script(job) print() print() print("# --------- full script ---------------") print("\n".join(script)) if image := variables.get("MESA_IMAGE"): print() print() print("# --------- container image ---------------") print(image) def from_sha_to_pipeline_iid(gl_gql: GitlabGQL, params) -> str: result = gl_gql.query("pipeline_utils.gql", params) return result["project"]["pipelines"]["nodes"][0]["iid"] def parse_args() -> Namespace: parser = ArgumentParser( formatter_class=ArgumentDefaultsHelpFormatter, description="CLI and library with utility functions to debug jobs via Gitlab GraphQL", epilog=f"""Example: {Path(__file__).name} --print-dag""", ) parser.add_argument("-pp", "--project-path", type=str, default="mesa/mesa") parser.add_argument("--sha", "--rev", type=str, default='HEAD') parser.add_argument( "--regex", type=str, required=False, default=".*", help="Regex pattern for the job name to be considered", ) parser.add_argument( "--include-stage", type=str, required=False, default=".*", help="Regex pattern for the stage name to be considered", ) parser.add_argument( "--exclude-stage", type=str, required=False, default="^$", help="Regex pattern for the stage name to be excluded", ) mutex_group_print = parser.add_mutually_exclusive_group() mutex_group_print.add_argument( "--print-dag", action="store_true", help="Print job needs DAG", ) mutex_group_print.add_argument( "--print-merged-yaml", action="store_true", help="Print the resulting YAML for the specific SHA", ) mutex_group_print.add_argument( "--print-job-manifest", metavar='JOB_NAME', type=str, help="Print the resulting job data" ) parser.add_argument( "--gitlab-token-file", type=str, default=get_token_from_default_dir(), help="force GitLab token, otherwise it's read from $XDG_CONFIG_HOME/gitlab-token", ) args = parser.parse_args() args.gitlab_token = Path(args.gitlab_token_file).read_text().strip() return args def main(): args = parse_args() gl_gql = GitlabGQL(token=args.gitlab_token) sha = check_output(['git', 'rev-parse', args.sha]).decode('ascii').strip() if args.print_dag: iid = from_sha_to_pipeline_iid(gl_gql, {"projectPath": args.project_path, "sha": sha}) dag = create_job_needs_dag( gl_gql, {"projectPath": args.project_path, "iid": iid}, disable_cache=True ) dag = filter_dag(dag, re.compile(args.regex), re.compile(args.include_stage), re.compile(args.exclude_stage)) print_dag(dag) if args.print_merged_yaml or args.print_job_manifest: merged_yaml = fetch_merged_yaml( gl_gql, {"projectPath": args.project_path, "sha": sha} ) if args.print_merged_yaml: print(yaml.dump(merged_yaml, indent=2)) if args.print_job_manifest: print_job_final_definition( args.print_job_manifest, merged_yaml, args.project_path, sha ) if __name__ == "__main__": main()