import * as fs from "fs"; import * as os from "os"; import * as path from "path"; import * as artifact from "@actions/artifact"; import * as core from "@actions/core"; import * as toolrunner from "@actions/exec/lib/toolrunner"; import * as safeWhich from "@chrisgavin/safe-which"; import * as yaml from "js-yaml"; import * as api from "./api-client"; import * as sharedEnv from "./shared-environment"; import { getCachedCodeQlVersion, getRequiredEnvParam, GITHUB_DOTCOM_URL, isGitHubGhesVersionBelow, isHTTPError, isInTestMode, UserError, } from "./util"; // eslint-disable-next-line import/no-commonjs const pkg = require("../package.json"); /** * The utils in this module are meant to be run inside of the action only. * Code paths from the runner should not enter this module. */ /** * Wrapper around core.getInput for inputs that always have a value. * Also see getOptionalInput. * * This allows us to get stronger type checking of required/optional inputs * and make behaviour more consistent between actions and the runner. */ export function getRequiredInput(name: string): string { return core.getInput(name, { required: true }); } /** * Wrapper around core.getInput that converts empty inputs to undefined. * Also see getRequiredInput. * * This allows us to get stronger type checking of required/optional inputs * and make behaviour more consistent between actions and the runner. */ export const getOptionalInput = function (name: string): string | undefined { const value = core.getInput(name); return value.length > 0 ? value : undefined; }; export function getTemporaryDirectory(): string { const value = process.env["CODEQL_ACTION_TEMP"]; return value !== undefined && value !== "" ? value : getRequiredEnvParam("RUNNER_TEMP"); } /** * Gets the SHA of the commit that is currently checked out. */ export const getCommitOid = async function ( checkoutPath: string, ref = "HEAD" ): Promise { // Try to use git to get the current commit SHA. If that fails then // log but otherwise silently fall back to using the SHA from the environment. // The only time these two values will differ is during analysis of a PR when // the workflow has changed the current commit to the head commit instead of // the merge commit, which must mean that git is available. // Even if this does go wrong, it's not a huge problem for the alerts to // reported on the merge commit. try { let commitOid = ""; await new toolrunner.ToolRunner( await safeWhich.safeWhich("git"), ["rev-parse", ref], { silent: true, listeners: { stdout: (data) => { commitOid += data.toString(); }, stderr: (data) => { process.stderr.write(data); }, }, cwd: checkoutPath, } ).exec(); return commitOid.trim(); } catch (e) { core.info( `Failed to call git to get current commit. Continuing with data from environment or input: ${e}` ); core.info((e as Error).stack || "NO STACK"); return getOptionalInput("sha") || getRequiredEnvParam("GITHUB_SHA"); } }; /** * If the action was triggered by a pull request, determine the commit sha of the merge base. * Returns undefined if run by other triggers or the merge base cannot be determined. */ export const determineMergeBaseCommitOid = async function (): Promise< string | undefined > { if (process.env.GITHUB_EVENT_NAME !== "pull_request") { return undefined; } const mergeSha = getRequiredEnvParam("GITHUB_SHA"); const checkoutPath = getOptionalInput("checkout_path"); try { let commitOid = ""; let baseOid = ""; let headOid = ""; await new toolrunner.ToolRunner( await safeWhich.safeWhich("git"), ["show", "-s", "--format=raw", mergeSha], { silent: true, listeners: { stdline: (data) => { if (data.startsWith("commit ") && commitOid === "") { commitOid = data.substring(7); } else if (data.startsWith("parent ")) { if (baseOid === "") { baseOid = data.substring(7); } else if (headOid === "") { headOid = data.substring(7); } } }, stderr: (data) => { process.stderr.write(data); }, }, cwd: checkoutPath, } ).exec(); // Let's confirm our assumptions: We had a merge commit and the parsed parent data looks correct if ( commitOid === mergeSha && headOid.length === 40 && baseOid.length === 40 ) { return baseOid; } return undefined; } catch (e) { core.info( `Failed to call git to determine merge base. Continuing with data from environment: ${e}` ); core.info((e as Error).stack || "NO STACK"); return undefined; } }; interface WorkflowJobStep { run: any; } interface WorkflowJob { steps?: WorkflowJobStep[]; } interface WorkflowTrigger { branches?: string[] | string; paths?: string[]; } // on: {} then push/pull_request are undefined // on: // push: // pull_request: // then push/pull_request are null interface WorkflowTriggers { push?: WorkflowTrigger | null; pull_request?: WorkflowTrigger | null; } export interface Workflow { jobs?: { [key: string]: WorkflowJob }; on?: string | string[] | WorkflowTriggers; } function isObject(o: unknown): o is object { return o !== null && typeof o === "object"; } const GLOB_PATTERN = new RegExp("(\\*\\*?)"); function escapeRegExp(string) { return string.replace(/[.*+?^${}()|[\]\\]/g, "\\$&"); // $& means the whole matched string } function patternToRegExp(value) { return new RegExp( `^${value .toString() .split(GLOB_PATTERN) .reduce(function (arr, cur) { if (cur === "**") { arr.push(".*?"); } else if (cur === "*") { arr.push("[^/]*?"); } else if (cur) { arr.push(escapeRegExp(cur)); } return arr; }, []) .join("")}$` ); } // this function should return true if patternA is a superset of patternB // e.g: * is a superset of main-* but main-* is not a superset of *. export function patternIsSuperset(patternA: string, patternB: string): boolean { return patternToRegExp(patternA).test(patternB); } function branchesToArray(branches?: string | null | string[]): string[] | "**" { if (typeof branches === "string") { return [branches]; } if (Array.isArray(branches)) { if (branches.length === 0) { return "**"; } return branches; } return "**"; } export interface CodedError { message: string; code: string; } function toCodedErrors(errors: T): Record { return Object.entries(errors).reduce((acc, [key, value]) => { acc[key] = { message: value, code: key }; return acc; }, {} as Record); } // code to send back via status report // message to add as a warning annotation to the run export const WorkflowErrors = toCodedErrors({ MismatchedBranches: `Please make sure that every branch in on.pull_request is also in on.push so that Code Scanning can compare pull requests against the state of the base branch.`, MissingPushHook: `Please specify an on.push hook so that Code Scanning can compare pull requests against the state of the base branch.`, PathsSpecified: `Using on.push.paths can prevent Code Scanning annotating new alerts in your pull requests.`, PathsIgnoreSpecified: `Using on.push.paths-ignore can prevent Code Scanning annotating new alerts in your pull requests.`, CheckoutWrongHead: `git checkout HEAD^2 is no longer necessary. Please remove this step as Code Scanning recommends analyzing the merge commit for best results.`, }); export function getWorkflowErrors(doc: Workflow): CodedError[] { const errors: CodedError[] = []; const jobName = process.env.GITHUB_JOB; if (jobName) { const job = doc?.jobs?.[jobName]; const steps = job?.steps; if (Array.isArray(steps)) { for (const step of steps) { // this was advice that we used to give in the README // we actually want to run the analysis on the merge commit // to produce results that are more inline with expectations // (i.e: this is what will happen if you merge this PR) // and avoid some race conditions if (step?.run === "git checkout HEAD^2") { errors.push(WorkflowErrors.CheckoutWrongHead); break; } } } } let missingPush = false; if (doc.on === undefined) { // this is not a valid config } else if (typeof doc.on === "string") { if (doc.on === "pull_request") { missingPush = true; } } else if (Array.isArray(doc.on)) { const hasPush = doc.on.includes("push"); const hasPullRequest = doc.on.includes("pull_request"); if (hasPullRequest && !hasPush) { missingPush = true; } } else if (isObject(doc.on)) { const hasPush = Object.prototype.hasOwnProperty.call(doc.on, "push"); const hasPullRequest = Object.prototype.hasOwnProperty.call( doc.on, "pull_request" ); if (!hasPush && hasPullRequest) { missingPush = true; } if (hasPush && hasPullRequest) { const paths = doc.on.push?.paths; // if you specify paths or paths-ignore you can end up with commits that have no baseline // if they didn't change any files // currently we cannot go back through the history and find the most recent baseline if (Array.isArray(paths) && paths.length > 0) { errors.push(WorkflowErrors.PathsSpecified); } const pathsIgnore = doc.on.push?.["paths-ignore"]; if (Array.isArray(pathsIgnore) && pathsIgnore.length > 0) { errors.push(WorkflowErrors.PathsIgnoreSpecified); } } // if doc.on.pull_request is null that means 'all branches' // if doc.on.pull_request is undefined that means 'off' // we only want to check for mismatched branches if pull_request is on. if (doc.on.pull_request !== undefined) { const push = branchesToArray(doc.on.push?.branches); if (push !== "**") { const pull_request = branchesToArray(doc.on.pull_request?.branches); if (pull_request !== "**") { const difference = pull_request.filter( (value) => !push.some((o) => patternIsSuperset(o, value)) ); if (difference.length > 0) { // there are branches in pull_request that may not have a baseline // because we are not building them on push errors.push(WorkflowErrors.MismatchedBranches); } } else if (push.length > 0) { // push is set up to run on a subset of branches // and you could open a PR against a branch with no baseline errors.push(WorkflowErrors.MismatchedBranches); } } } } if (missingPush) { errors.push(WorkflowErrors.MissingPushHook); } return errors; } export async function validateWorkflow(): Promise { let workflow: Workflow; try { workflow = await getWorkflow(); } catch (e) { return `error: getWorkflow() failed: ${String(e)}`; } let workflowErrors: CodedError[]; try { workflowErrors = getWorkflowErrors(workflow); } catch (e) { return `error: getWorkflowErrors() failed: ${String(e)}`; } if (workflowErrors.length > 0) { let message: string; try { message = formatWorkflowErrors(workflowErrors); } catch (e) { return `error: formatWorkflowErrors() failed: ${String(e)}`; } core.warning(message); } return formatWorkflowCause(workflowErrors); } export function formatWorkflowErrors(errors: CodedError[]): string { const issuesWere = errors.length === 1 ? "issue was" : "issues were"; const errorsList = errors.map((e) => e.message).join(" "); return `${errors.length} ${issuesWere} detected with this workflow: ${errorsList}`; } export function formatWorkflowCause(errors: CodedError[]): undefined | string { if (errors.length === 0) { return undefined; } return errors.map((e) => e.code).join(","); } export async function getWorkflow(): Promise { const relativePath = await getWorkflowPath(); const absolutePath = path.join( getRequiredEnvParam("GITHUB_WORKSPACE"), relativePath ); return yaml.load(fs.readFileSync(absolutePath, "utf-8")) as Workflow; } /** * Get the path of the currently executing workflow. */ async function getWorkflowPath(): Promise { const repo_nwo = getRequiredEnvParam("GITHUB_REPOSITORY").split("/"); const owner = repo_nwo[0]; const repo = repo_nwo[1]; const run_id = Number(getRequiredEnvParam("GITHUB_RUN_ID")); const apiClient = api.getActionsApiClient(); const runsResponse = await apiClient.request( "GET /repos/:owner/:repo/actions/runs/:run_id?exclude_pull_requests=true", { owner, repo, run_id, } ); const workflowUrl = runsResponse.data.workflow_url; const workflowResponse = await apiClient.request(`GET ${workflowUrl}`); return workflowResponse.data.path; } /** * Get the workflow run ID. */ export function getWorkflowRunID(): number { const workflowRunID = parseInt(getRequiredEnvParam("GITHUB_RUN_ID"), 10); if (Number.isNaN(workflowRunID)) { throw new Error("GITHUB_RUN_ID must define a non NaN workflow run ID"); } return workflowRunID; } /** * Get the analysis key parameter for the current job. * * This will combine the workflow path and current job name. * Computing this the first time requires making requests to * the github API, but after that the result will be cached. */ export async function getAnalysisKey(): Promise { const analysisKeyEnvVar = "CODEQL_ACTION_ANALYSIS_KEY"; let analysisKey = process.env[analysisKeyEnvVar]; if (analysisKey !== undefined) { return analysisKey; } const workflowPath = await getWorkflowPath(); const jobName = getRequiredEnvParam("GITHUB_JOB"); analysisKey = `${workflowPath}:${jobName}`; core.exportVariable(analysisKeyEnvVar, analysisKey); return analysisKey; } export async function getAutomationID(): Promise { const analysis_key = await getAnalysisKey(); const environment = getRequiredInput("matrix"); return computeAutomationID(analysis_key, environment); } export function computeAutomationID( analysis_key: string, environment: string | undefined ): string { let automationID = `${analysis_key}/`; // the id has to be deterministic so we sort the fields if (environment !== undefined && environment !== "null") { const environmentObject = JSON.parse(environment); for (const entry of Object.entries(environmentObject).sort()) { if (typeof entry[1] === "string") { automationID += `${entry[0]}:${entry[1]}/`; } else { // In code scanning we just handle the string values, // the rest get converted to the empty string automationID += `${entry[0]}:/`; } } } return automationID; } /** * Get the ref currently being analyzed. */ export async function getRef(): Promise { // Will be in the form "refs/heads/master" on a push event // or in the form "refs/pull/N/merge" on a pull_request event const refInput = getOptionalInput("ref"); const shaInput = getOptionalInput("sha"); const checkoutPath = getOptionalInput("checkout_path") || getOptionalInput("source-root") || getRequiredEnvParam("GITHUB_WORKSPACE"); const hasRefInput = !!refInput; const hasShaInput = !!shaInput; // If one of 'ref' or 'sha' are provided, both are required if ((hasRefInput || hasShaInput) && !(hasRefInput && hasShaInput)) { throw new Error( "Both 'ref' and 'sha' are required if one of them is provided." ); } const ref = refInput || getRequiredEnvParam("GITHUB_REF"); const sha = shaInput || getRequiredEnvParam("GITHUB_SHA"); // If the ref is a user-provided input, we have to skip logic // and assume that it is really where they want to upload the results. if (refInput) { return refInput; } // For pull request refs we want to detect whether the workflow // has run `git checkout HEAD^2` to analyze the 'head' ref rather // than the 'merge' ref. If so, we want to convert the ref that // we report back. const pull_ref_regex = /refs\/pull\/(\d+)\/merge/; if (!pull_ref_regex.test(ref)) { return ref; } const head = await getCommitOid(checkoutPath, "HEAD"); // in actions/checkout@v2+ we can check if git rev-parse HEAD == GITHUB_SHA // in actions/checkout@v1 this may not be true as it checks out the repository // using GITHUB_REF. There is a subtle race condition where // git rev-parse GITHUB_REF != GITHUB_SHA, so we must check // git git-parse GITHUB_REF == git rev-parse HEAD instead. const hasChangedRef = sha !== head && (await getCommitOid( checkoutPath, ref.replace(/^refs\/pull\//, "refs/remotes/pull/") )) !== head; if (hasChangedRef) { const newRef = ref.replace(pull_ref_regex, "refs/pull/$1/head"); core.debug( `No longer on merge commit, rewriting ref from ${ref} to ${newRef}.` ); return newRef; } else { return ref; } } type ActionName = "init" | "autobuild" | "finish" | "upload-sarif"; type ActionStatus = | "starting" | "aborted" | "success" | "failure" | "user-error"; export interface StatusReportBase { /** ID of the workflow run containing the action run. */ workflow_run_id: number; /** Workflow name. Converted to analysis_name further down the pipeline.. */ workflow_name: string; /** Job name from the workflow. */ job_name: string; /** Analysis key, normally composed from the workflow path and job name. */ analysis_key: string; /** Value of the matrix for this instantiation of the job. */ matrix_vars?: string; /** Commit oid that the workflow was triggered on. */ commit_oid: string; /** Ref that the workflow was triggered on. */ ref: string; /** Name of the action being executed. */ action_name: ActionName; /** Version of the action being executed, as a ref. */ action_ref?: string; /** Version of the action being executed, as a commit oid. */ action_oid: string; /** Time the first action started. Normally the init action. */ started_at: string; /** Time this action started. */ action_started_at: string; /** Time this action completed, or undefined if not yet completed. */ completed_at?: string; /** State this action is currently in. */ status: ActionStatus; /** * Information about the enablement of the ML-powered JS query pack. * * @see {@link util.getMlPoweredJsQueriesStatus} */ ml_powered_javascript_queries?: string; /** Cause of the failure (or undefined if status is not failure). */ cause?: string; /** Stack trace of the failure (or undefined if status is not failure). */ exception?: string; /** Action runner operating system (context runner.os). */ runner_os: string; /** Action runner hardware architecture (context runner.arch). */ runner_arch?: string; /** Action runner operating system release (x.y.z from os.release()). */ runner_os_release?: string; /** Action version (x.y.z from package.json). */ action_version: string; /** CodeQL CLI version (x.y.z from the CLI). */ codeql_version?: string; } export function getActionsStatus( error?: unknown, otherFailureCause?: string ): ActionStatus { if (error || otherFailureCause) { return error instanceof UserError ? "user-error" : "failure"; } else { return "success"; } } /** * Compose a StatusReport. * * @param actionName The name of the action, e.g. 'init', 'finish', 'upload-sarif' * @param status The status. Must be 'success', 'failure', or 'starting' * @param startedAt The time this action started executing. * @param cause Cause of failure (only supply if status is 'failure') * @param exception Exception (only supply if status is 'failure') */ export async function createStatusReportBase( actionName: ActionName, status: ActionStatus, actionStartedAt: Date, cause?: string, exception?: string ): Promise { const commitOid = getOptionalInput("sha") || process.env["GITHUB_SHA"] || ""; const ref = await getRef(); const workflowRunIDStr = process.env["GITHUB_RUN_ID"]; let workflowRunID = -1; if (workflowRunIDStr) { workflowRunID = parseInt(workflowRunIDStr, 10); } const workflowName = process.env["GITHUB_WORKFLOW"] || ""; const jobName = process.env["GITHUB_JOB"] || ""; const analysis_key = await getAnalysisKey(); let workflowStartedAt = process.env[sharedEnv.CODEQL_WORKFLOW_STARTED_AT]; if (workflowStartedAt === undefined) { workflowStartedAt = actionStartedAt.toISOString(); core.exportVariable( sharedEnv.CODEQL_WORKFLOW_STARTED_AT, workflowStartedAt ); } const runnerOs = getRequiredEnvParam("RUNNER_OS"); const codeQlCliVersion = getCachedCodeQlVersion(); // If running locally then the GITHUB_ACTION_REF cannot be trusted as it may be for the previous action // See https://github.com/actions/runner/issues/803 const actionRef = isRunningLocalAction() ? undefined : process.env["GITHUB_ACTION_REF"]; const statusReport: StatusReportBase = { workflow_run_id: workflowRunID, workflow_name: workflowName, job_name: jobName, analysis_key, commit_oid: commitOid, ref, action_name: actionName, action_ref: actionRef, action_oid: "unknown", // TODO decide if it's possible to fill this in started_at: workflowStartedAt, action_started_at: actionStartedAt.toISOString(), status, runner_os: runnerOs, action_version: pkg.version, }; // Add optional parameters if (cause) { statusReport.cause = cause; } if (exception) { statusReport.exception = exception; } if ( status === "success" || status === "failure" || status === "aborted" || status === "user-error" ) { statusReport.completed_at = new Date().toISOString(); } const matrix = getRequiredInput("matrix"); if (matrix) { statusReport.matrix_vars = matrix; } if ("RUNNER_ARCH" in process.env) { // RUNNER_ARCH is available only in GHES 3.4 and later // Values other than X86, X64, ARM, or ARM64 are discarded server side statusReport.runner_arch = process.env["RUNNER_ARCH"]; } if (runnerOs === "Windows" || runnerOs === "macOS") { statusReport.runner_os_release = os.release(); } if (codeQlCliVersion !== undefined) { statusReport.codeql_version = codeQlCliVersion; } return statusReport; } const GENERIC_403_MSG = "The repo on which this action is running is not opted-in to CodeQL code scanning."; const GENERIC_404_MSG = "Not authorized to use the CodeQL code scanning feature on this repo."; const OUT_OF_DATE_MSG = "CodeQL Action is out-of-date. Please upgrade to the latest version of codeql-action."; const INCOMPATIBLE_MSG = "CodeQL Action version is incompatible with the code scanning endpoint. Please update to a compatible version of codeql-action."; /** * Send a status report to the code_scanning/analysis/status endpoint. * * Optionally checks the response from the API endpoint and sets the action * as failed if the status report failed. This is only expected to be used * when sending a 'starting' report. * * Returns whether sending the status report was successful of not. */ export async function sendStatusReport( statusReport: S ): Promise { const gitHubVersion = await api.getGitHubVersionActionsOnly(); if (isGitHubGhesVersionBelow(gitHubVersion, "3.2.0")) { // GHES 3.1 and earlier versions reject unexpected properties, which means // that they will reject status reports with newly added properties. // Inhibiting status reporting for GHES < 3.2 avoids such failures. return true; } const statusReportJSON = JSON.stringify(statusReport); core.debug(`Sending status report: ${statusReportJSON}`); // If in test mode we don't want to upload the results if (isInTestMode()) { core.debug("In test mode. Status reports are not uploaded."); return true; } const nwo = getRequiredEnvParam("GITHUB_REPOSITORY"); const [owner, repo] = nwo.split("/"); const client = api.getActionsApiClient(); try { await client.request( "PUT /repos/:owner/:repo/code-scanning/analysis/status", { owner, repo, data: statusReportJSON, } ); return true; } catch (e) { console.log(e); if (isHTTPError(e)) { switch (e.status) { case 403: if (workflowIsTriggeredByPushEvent() && isDependabotActor()) { core.setFailed( 'Workflows triggered by Dependabot on the "push" event run with read-only access. ' + "Uploading Code Scanning results requires write access. " + 'To use Code Scanning with Dependabot, please ensure you are using the "pull_request" event for this workflow and avoid triggering on the "push" event for Dependabot branches. ' + "See https://docs.github.com/en/code-security/secure-coding/configuring-code-scanning#scanning-on-push for more information on how to configure these events." ); } else { core.setFailed(e.message || GENERIC_403_MSG); } return false; case 404: core.setFailed(GENERIC_404_MSG); return false; case 422: // schema incompatibility when reporting status // this means that this action version is no longer compatible with the API // we still want to continue as it is likely the analysis endpoint will work if (getRequiredEnvParam("GITHUB_SERVER_URL") !== GITHUB_DOTCOM_URL) { core.debug(INCOMPATIBLE_MSG); } else { core.debug(OUT_OF_DATE_MSG); } return true; } } // something else has gone wrong and the request/response will be logged by octokit // it's possible this is a transient error and we should continue scanning core.error( "An unexpected error occurred when sending code scanning status report." ); return true; } } // Was the workflow run triggered by a `push` event, for example as opposed to a `pull_request` event. function workflowIsTriggeredByPushEvent() { return process.env["GITHUB_EVENT_NAME"] === "push"; } // Is dependabot the actor that triggered the current workflow run. function isDependabotActor() { return process.env["GITHUB_ACTOR"] === "dependabot[bot]"; } // Is the current action executing a local copy (i.e. we're running a workflow on the codeql-action repo itself) // as opposed to running a remote action (i.e. when another repo references us) export function isRunningLocalAction(): boolean { const relativeScriptPath = getRelativeScriptPath(); return ( relativeScriptPath.startsWith("..") || path.isAbsolute(relativeScriptPath) ); } // Get the location where the action is running from. // This can be used to get the actions name or tell if we're running a local action. export function getRelativeScriptPath(): string { const runnerTemp = getRequiredEnvParam("RUNNER_TEMP"); const actionsDirectory = path.join(path.dirname(runnerTemp), "_actions"); return path.relative(actionsDirectory, __filename); } // Reads the contents of GITHUB_EVENT_PATH as a JSON object function getWorkflowEvent(): any { const eventJsonFile = getRequiredEnvParam("GITHUB_EVENT_PATH"); try { return JSON.parse(fs.readFileSync(eventJsonFile, "utf-8")); } catch (e) { throw new Error( `Unable to read workflow event JSON from ${eventJsonFile}: ${e}` ); } } // Is the version of the repository we are currently analyzing from the default branch, // or alternatively from another branch or a pull request. export async function isAnalyzingDefaultBranch(): Promise { // Get the current ref and trim and refs/heads/ prefix let currentRef = await getRef(); currentRef = currentRef.startsWith("refs/heads/") ? currentRef.slice("refs/heads/".length) : currentRef; const event = getWorkflowEvent(); const defaultBranch = event?.repository?.default_branch; return currentRef === defaultBranch; } export function sanitizeArifactName(name: string): string { return name.replace(/[^a-zA-Z0-9_\\-]+/g, ""); } export async function uploadDebugArtifacts( toUpload: string[], rootDir: string, artifactName: string ) { if (toUpload.length === 0) { return; } let suffix = ""; const matrix = getRequiredInput("matrix"); if (matrix) { for (const entry of Object.entries(JSON.parse(matrix)).sort()) suffix += `-${entry[1]}`; } await artifact.create().uploadArtifact( sanitizeArifactName(`${artifactName}${suffix}`), toUpload.map((file) => path.normalize(file)), path.normalize(rootDir) ); }