import * as fs from "fs"; import * as path from "path"; import * as core from "@actions/core"; import * as toolrunner from "@actions/exec/lib/toolrunner"; import * as yaml from "js-yaml"; import { CommandInvocationError, getActionVersion, getOptionalInput, runTool, } from "./actions-util"; import * as api from "./api-client"; import { CliError, wrapCliConfigurationError } from "./cli-errors"; import { type Config } from "./config-utils"; import { DocUrl } from "./doc-url"; import { EnvVar } from "./environment"; import { CodeQLDefaultVersionInfo, Feature, FeatureEnablement, } from "./feature-flags"; import { isAnalyzingDefaultBranch } from "./git-utils"; import { Language } from "./languages"; import { Logger } from "./logging"; import { OverlayDatabaseMode, writeBaseDatabaseOidsFile, writeOverlayChangesFile, } from "./overlay-database-utils"; import * as setupCodeql from "./setup-codeql"; import { ZstdAvailability } from "./tar"; import { ToolsDownloadStatusReport } from "./tools-download"; import { ToolsFeature, isSupportedToolsFeature } from "./tools-features"; import { shouldEnableIndirectTracing } from "./tracer-config"; import * as util from "./util"; import { BuildMode, cloneObject, getErrorMessage } from "./util"; type Options = Array; /** * Extra command line options for the codeql commands. */ interface ExtraOptions { "*"?: Options; database?: { "*"?: Options; init?: Options; "trace-command"?: Options; analyze?: Options; finalize?: Options; }; resolve?: { "*"?: Options; extractor?: Options; queries?: Options; }; github?: { "*"?: Options; "merge-results"?: Options; }; } export interface CodeQL { /** * Get the path of the CodeQL executable. */ getPath(): string; /** * Get a string containing the semver version of the CodeQL executable. */ getVersion(): Promise; /** * Print version information about CodeQL. */ printVersion(): Promise; /** * Returns whether the CodeQL executable supports the specified feature. */ supportsFeature(feature: ToolsFeature): Promise; /** * Run 'codeql database init --db-cluster'. */ databaseInitCluster( config: Config, sourceRoot: string, processName: string | undefined, qlconfigFile: string | undefined, overlayDatabaseMode: OverlayDatabaseMode, logger: Logger, ): Promise; /** * Runs the autobuilder for the given language. */ runAutobuild(config: Config, language: Language): Promise; /** * Extract code for a scanned language using 'codeql database trace-command' * and running the language extractor. */ extractScannedLanguage(config: Config, language: Language): Promise; /** * Extract code with 'codeql database trace-command --use-build-mode'. This can only be used when * the database specifies a build mode. This requires the `traceCommandUseBuildMode` tool feature. */ extractUsingBuildMode(config: Config, language: Language): Promise; /** * Finalize a database using 'codeql database finalize'. */ finalizeDatabase( databasePath: string, threadsFlag: string, memoryFlag: string, enableDebugLogging: boolean, ): Promise; /** * Run 'codeql resolve languages'. */ resolveLanguages(): Promise; /** * Run 'codeql resolve languages' with '--format=betterjson'. */ betterResolveLanguages(): Promise; /** * Run 'codeql resolve queries'. */ resolveQueries( queries: string[], extraSearchPath: string | undefined, ): Promise; /** * Run 'codeql resolve build-environment' */ resolveBuildEnvironment( workingDir: string | undefined, language: string, ): Promise; /** * Run 'codeql pack download'. */ packDownload( packs: string[], qlconfigFile: string | undefined, ): Promise; /** * Run 'codeql database cleanup'. */ databaseCleanup(databasePath: string, cleanupLevel: string): Promise; /** * Run 'codeql database bundle'. */ databaseBundle( databasePath: string, outputFilePath: string, dbName: string, ): Promise; /** * Run 'codeql database run-queries'. */ databaseRunQueries(databasePath: string, flags: string[]): Promise; /** * Run 'codeql database interpret-results'. */ databaseInterpretResults( databasePath: string, querySuitePaths: string[] | undefined, sarifFile: string, addSnippetsFlag: string, threadsFlag: string, verbosityFlag: string | undefined, sarifRunPropertyFlag: string | undefined, automationDetailsId: string | undefined, config: Config, features: FeatureEnablement, ): Promise; /** * Run 'codeql database print-baseline'. */ databasePrintBaseline(databasePath: string): Promise; /** * Run 'codeql database export-diagnostics' * * Note that the "--sarif-include-diagnostics" option is always used, as the command should * only be run if the ExportDiagnosticsEnabled feature flag is on. */ databaseExportDiagnostics( databasePath: string, sarifFile: string, automationDetailsId: string | undefined, ): Promise; /** * Run 'codeql diagnostics export'. */ diagnosticsExport( sarifFile: string, automationDetailsId: string | undefined, config: Config, ): Promise; /** Get the location of an extractor for the specified language. */ resolveExtractor(language: Language): Promise; /** * Run 'codeql github merge-results'. */ mergeResults( sarifFiles: string[], outputFile: string, options: { mergeRunsFromEqualCategory?: boolean }, ): Promise; } export interface VersionInfo { version: string; features?: { [name: string]: boolean }; } export interface ResolveLanguagesOutput { [language: string]: [string]; } export interface BetterResolveLanguagesOutput { aliases?: { [alias: string]: string; }; extractors: { [language: string]: [ { extractor_root: string; extractor_options?: any; }, ]; }; } export interface ResolveQueriesOutput { byLanguage: { [language: string]: { [queryPath: string]: object; }; }; noDeclaredLanguage: { [queryPath: string]: object; }; multipleDeclaredLanguages: { [queryPath: string]: object; }; } export interface ResolveBuildEnvironmentOutput { configuration?: { [language: string]: { [key: string]: unknown; }; }; } export interface PackDownloadOutput { packs: PackDownloadItem[]; } interface PackDownloadItem { name: string; version: string; packDir: string; installResult: string; } /** * Stores the CodeQL object, and is populated by `setupCodeQL` or `getCodeQL`. * Can be overridden in tests using `setCodeQL`. */ let cachedCodeQL: CodeQL | undefined = undefined; /** * The oldest version of CodeQL that the Action will run with. This should be * at least three minor versions behind the current version and must include the * CLI versions shipped with each supported version of GHES. * * The version flags below can be used to conditionally enable certain features * on versions newer than this. */ const CODEQL_MINIMUM_VERSION = "2.15.5"; /** * This version will shortly become the oldest version of CodeQL that the Action will run with. */ const CODEQL_NEXT_MINIMUM_VERSION = "2.15.5"; /** * This is the version of GHES that was most recently deprecated. */ const GHES_VERSION_MOST_RECENTLY_DEPRECATED = "3.11"; /** * This is the deprecation date for the version of GHES that was most recently deprecated. */ const GHES_MOST_RECENT_DEPRECATION_DATE = "2024-12-19"; /** The CLI verbosity level to use for extraction in debug mode. */ const EXTRACTION_DEBUG_MODE_VERBOSITY = "progress++"; /* * Deprecated in favor of ToolsFeature. * * Versions of CodeQL that version-flag certain functionality in the Action. * For convenience, please keep these in descending order. Once a version * flag is older than the oldest supported version above, it may be removed. */ /** * Versions 2.17.1+ of the CodeQL CLI support the `--cache-cleanup` option. */ const CODEQL_VERSION_CACHE_CLEANUP = "2.17.1"; /** * Set up CodeQL CLI access. * * @param toolsInput * @param apiDetails * @param tempDir * @param variant * @param defaultCliVersion * @param logger * @param checkVersion Whether to check that CodeQL CLI meets the minimum * version requirement. Must be set to true outside tests. * @returns a { CodeQL, toolsVersion } object. */ export async function setupCodeQL( toolsInput: string | undefined, apiDetails: api.GitHubApiDetails, tempDir: string, variant: util.GitHubVariant, defaultCliVersion: CodeQLDefaultVersionInfo, logger: Logger, features: FeatureEnablement, checkVersion: boolean, ): Promise<{ codeql: CodeQL; toolsDownloadStatusReport?: ToolsDownloadStatusReport; toolsSource: setupCodeql.ToolsSource; toolsVersion: string; zstdAvailability: ZstdAvailability; }> { try { const { codeqlFolder, toolsDownloadStatusReport, toolsSource, toolsVersion, zstdAvailability, } = await setupCodeql.setupCodeQLBundle( toolsInput, apiDetails, tempDir, variant, features, defaultCliVersion, logger, ); logger.debug( `Bundle download status report: ${JSON.stringify( toolsDownloadStatusReport, )}`, ); let codeqlCmd = path.join(codeqlFolder, "codeql", "codeql"); if (process.platform === "win32") { codeqlCmd += ".exe"; } else if (process.platform !== "linux" && process.platform !== "darwin") { throw new util.ConfigurationError( `Unsupported platform: ${process.platform}`, ); } cachedCodeQL = await getCodeQLForCmd(codeqlCmd, checkVersion); return { codeql: cachedCodeQL, toolsDownloadStatusReport, toolsSource, toolsVersion, zstdAvailability, }; } catch (e) { const ErrorClass = e instanceof util.ConfigurationError || (e instanceof Error && e.message.includes("ENOSPC")) // out of disk space ? util.ConfigurationError : Error; throw new ErrorClass( `Unable to download and extract CodeQL CLI: ${getErrorMessage(e)}${ e instanceof Error && e.stack ? `\n\nDetails: ${e.stack}` : "" }`, ); } } /** * Use the CodeQL executable located at the given path. */ export async function getCodeQL(cmd: string): Promise { if (cachedCodeQL === undefined) { cachedCodeQL = await getCodeQLForCmd(cmd, true); } return cachedCodeQL; } function resolveFunction( partialCodeql: Partial, methodName: string, defaultImplementation?: T, ): T { if (typeof partialCodeql[methodName] !== "function") { if (defaultImplementation !== undefined) { return defaultImplementation; } const dummyMethod = () => { throw new Error(`CodeQL ${methodName} method not correctly defined`); }; return dummyMethod as T; } return partialCodeql[methodName] as T; } /** * Set the functionality for CodeQL methods. Only for use in tests. * * Accepts a partial object and any undefined methods will be implemented * to immediately throw an exception indicating which method is missing. */ export function setCodeQL(partialCodeql: Partial): CodeQL { cachedCodeQL = { getPath: resolveFunction(partialCodeql, "getPath", () => "/tmp/dummy-path"), getVersion: resolveFunction(partialCodeql, "getVersion", async () => ({ version: "1.0.0", })), printVersion: resolveFunction(partialCodeql, "printVersion"), supportsFeature: resolveFunction( partialCodeql, "supportsFeature", async (feature) => !!partialCodeql.getVersion && isSupportedToolsFeature(await partialCodeql.getVersion(), feature), ), databaseInitCluster: resolveFunction(partialCodeql, "databaseInitCluster"), runAutobuild: resolveFunction(partialCodeql, "runAutobuild"), extractScannedLanguage: resolveFunction( partialCodeql, "extractScannedLanguage", ), extractUsingBuildMode: resolveFunction( partialCodeql, "extractUsingBuildMode", ), finalizeDatabase: resolveFunction(partialCodeql, "finalizeDatabase"), resolveLanguages: resolveFunction(partialCodeql, "resolveLanguages"), betterResolveLanguages: resolveFunction( partialCodeql, "betterResolveLanguages", async () => ({ aliases: {}, extractors: {} }), ), resolveQueries: resolveFunction(partialCodeql, "resolveQueries"), resolveBuildEnvironment: resolveFunction( partialCodeql, "resolveBuildEnvironment", ), packDownload: resolveFunction(partialCodeql, "packDownload"), databaseCleanup: resolveFunction(partialCodeql, "databaseCleanup"), databaseBundle: resolveFunction(partialCodeql, "databaseBundle"), databaseRunQueries: resolveFunction(partialCodeql, "databaseRunQueries"), databaseInterpretResults: resolveFunction( partialCodeql, "databaseInterpretResults", ), databasePrintBaseline: resolveFunction( partialCodeql, "databasePrintBaseline", ), databaseExportDiagnostics: resolveFunction( partialCodeql, "databaseExportDiagnostics", ), diagnosticsExport: resolveFunction(partialCodeql, "diagnosticsExport"), resolveExtractor: resolveFunction(partialCodeql, "resolveExtractor"), mergeResults: resolveFunction(partialCodeql, "mergeResults"), }; return cachedCodeQL; } /** * Get the cached CodeQL object. Should only be used from tests. * * TODO: Work out a good way for tests to get this from the test context * instead of having to have this method. */ export function getCachedCodeQL(): CodeQL { if (cachedCodeQL === undefined) { // Should never happen as setCodeQL is called by testing-utils.setupTests throw new Error("cachedCodeQL undefined"); } return cachedCodeQL; } /** * Get a real, newly created CodeQL instance for testing. The instance refers to * a non-existent placeholder codeql command, so tests that use this function * should also stub the toolrunner.ToolRunner constructor. */ export async function getCodeQLForTesting( cmd = "codeql-for-testing", ): Promise { return getCodeQLForCmd(cmd, false); } /** * Return a CodeQL object for CodeQL CLI access. * * @param cmd Path to CodeQL CLI * @param checkVersion Whether to check that CodeQL CLI meets the minimum * version requirement. Must be set to true outside tests. * @returns A new CodeQL object */ export async function getCodeQLForCmd( cmd: string, checkVersion: boolean, ): Promise { const codeql: CodeQL = { getPath() { return cmd; }, async getVersion() { let result = util.getCachedCodeQlVersion(); if (result === undefined) { const output = await runCli(cmd, ["version", "--format=json"], { noStreamStdout: true, }); try { result = JSON.parse(output) as VersionInfo; } catch { throw Error( `Invalid JSON output from \`version --format=json\`: ${output}`, ); } util.cacheCodeQlVersion(result); } return result; }, async printVersion() { await runCli(cmd, ["version", "--format=json"]); }, async supportsFeature(feature: ToolsFeature) { return isSupportedToolsFeature(await this.getVersion(), feature); }, async databaseInitCluster( config: Config, sourceRoot: string, processName: string | undefined, qlconfigFile: string | undefined, overlayDatabaseMode: OverlayDatabaseMode, logger: Logger, ) { const extraArgs = config.languages.map( (language) => `--language=${language}`, ); if (await shouldEnableIndirectTracing(codeql, config)) { extraArgs.push("--begin-tracing"); extraArgs.push(...(await getTrapCachingExtractorConfigArgs(config))); extraArgs.push(`--trace-process-name=${processName}`); } if (config.languages.indexOf(Language.actions) >= 0) { // We originally added an embedded version of the Actions extractor to the CodeQL Action // itself in order to deploy the extractor between CodeQL releases. When we did add the // extractor to the CLI, though, its autobuild script was missing the execute bit. // 2.20.6 is the first CLI release with the fully-functional extractor in the CLI. For older // versions, we'll keep using the embedded extractor. We can remove the embedded extractor // once 2.20.6 is deployed in the runner images. if (!(await util.codeQlVersionAtLeast(codeql, "2.20.6"))) { extraArgs.push("--search-path"); const extractorPath = path.resolve(__dirname, "../actions-extractor"); extraArgs.push(extractorPath); } } const codeScanningConfigFile = await generateCodeScanningConfig( config, logger, ); const externalRepositoryToken = getOptionalInput( "external-repository-token", ); extraArgs.push(`--codescanning-config=${codeScanningConfigFile}`); if (externalRepositoryToken) { extraArgs.push("--external-repository-token-stdin"); } if ( config.buildMode !== undefined && (await this.supportsFeature(ToolsFeature.BuildModeOption)) ) { extraArgs.push(`--build-mode=${config.buildMode}`); } if (qlconfigFile !== undefined) { extraArgs.push(`--qlconfig-file=${qlconfigFile}`); } const overwriteFlag = isSupportedToolsFeature( await this.getVersion(), ToolsFeature.ForceOverwrite, ) ? "--force-overwrite" : "--overwrite"; if (overlayDatabaseMode === OverlayDatabaseMode.Overlay) { const overlayChangesFile = await writeOverlayChangesFile( config, sourceRoot, logger, ); extraArgs.push(`--overlay-changes=${overlayChangesFile}`); } else if (overlayDatabaseMode === OverlayDatabaseMode.OverlayBase) { extraArgs.push("--overlay-base"); } await runCli( cmd, [ "database", "init", ...(overlayDatabaseMode === OverlayDatabaseMode.Overlay ? [] : [overwriteFlag]), "--db-cluster", config.dbLocation, `--source-root=${sourceRoot}`, "--calculate-language-specific-baseline", "--extractor-include-aliases", "--sublanguage-file-coverage", ...extraArgs, ...getExtraOptionsFromEnv(["database", "init"], { ignoringOptions: ["--overwrite"], }), ], { stdin: externalRepositoryToken }, ); if (overlayDatabaseMode === OverlayDatabaseMode.OverlayBase) { await writeBaseDatabaseOidsFile(config, sourceRoot); } }, async runAutobuild(config: Config, language: Language) { applyAutobuildAzurePipelinesTimeoutFix(); const autobuildCmd = path.join( await this.resolveExtractor(language), "tools", process.platform === "win32" ? "autobuild.cmd" : "autobuild.sh", ); // Bump the verbosity of the autobuild command if we're in debug mode if (config.debugMode) { process.env[EnvVar.CLI_VERBOSITY] = process.env[EnvVar.CLI_VERBOSITY] || EXTRACTION_DEBUG_MODE_VERBOSITY; } // On macOS, System Integrity Protection (SIP) typically interferes with // CodeQL build tracing of protected binaries. // The usual workaround is to prefix `$CODEQL_RUNNER` to build commands: // `$CODEQL_RUNNER` (not to be confused with the deprecated CodeQL Runner tool) // points to a simple wrapper binary included with the CLI, and the extra layer of // process indirection helps the tracer bypass SIP. // The above SIP workaround is *not* needed here. // At the `autobuild` step in the Actions workflow, we assume the `init` step // has successfully run, and will have exported `DYLD_INSERT_LIBRARIES` // into the environment of subsequent steps, to activate the tracer. // When `DYLD_INSERT_LIBRARIES` is set in the environment for a step, // the Actions runtime introduces its own workaround for SIP // (https://github.com/actions/runner/pull/416). await runCli(autobuildCmd); }, async extractScannedLanguage(config: Config, language: Language) { await runCli(cmd, [ "database", "trace-command", "--index-traceless-dbs", ...(await getTrapCachingExtractorConfigArgsForLang(config, language)), ...getExtractionVerbosityArguments(config.debugMode), ...getExtraOptionsFromEnv(["database", "trace-command"]), util.getCodeQLDatabasePath(config, language), ]); }, async extractUsingBuildMode(config: Config, language: Language) { if (config.buildMode === BuildMode.Autobuild) { applyAutobuildAzurePipelinesTimeoutFix(); } try { await runCli(cmd, [ "database", "trace-command", "--use-build-mode", "--working-dir", process.cwd(), ...(await getTrapCachingExtractorConfigArgsForLang(config, language)), ...getExtractionVerbosityArguments(config.debugMode), ...getExtraOptionsFromEnv(["database", "trace-command"]), util.getCodeQLDatabasePath(config, language), ]); } catch (e) { if (config.buildMode === BuildMode.Autobuild) { const prefix = "We were unable to automatically build your code. " + "Please change the build mode for this language to manual and specify build steps " + `for your project. See ${DocUrl.AUTOMATIC_BUILD_FAILED} for more information.`; throw new util.ConfigurationError(`${prefix} ${getErrorMessage(e)}`); } else { throw e; } } }, async finalizeDatabase( databasePath: string, threadsFlag: string, memoryFlag: string, enableDebugLogging: boolean, ) { const args = [ "database", "finalize", "--finalize-dataset", threadsFlag, memoryFlag, ...getExtractionVerbosityArguments(enableDebugLogging), ...getExtraOptionsFromEnv(["database", "finalize"]), databasePath, ]; await runCli(cmd, args); }, async resolveLanguages() { const codeqlArgs = [ "resolve", "languages", "--format=json", ...getExtraOptionsFromEnv(["resolve", "languages"]), ]; const output = await runCli(cmd, codeqlArgs); try { return JSON.parse(output) as ResolveLanguagesOutput; } catch (e) { throw new Error( `Unexpected output from codeql resolve languages: ${e}`, ); } }, async betterResolveLanguages() { const codeqlArgs = [ "resolve", "languages", "--format=betterjson", "--extractor-options-verbosity=4", "--extractor-include-aliases", ...getExtraOptionsFromEnv(["resolve", "languages"]), ]; const output = await runCli(cmd, codeqlArgs); try { return JSON.parse(output) as BetterResolveLanguagesOutput; } catch (e) { throw new Error( `Unexpected output from codeql resolve languages with --format=betterjson: ${e}`, ); } }, async resolveQueries( queries: string[], extraSearchPath: string | undefined, ) { const codeqlArgs = [ "resolve", "queries", ...queries, "--format=bylanguage", ...getExtraOptionsFromEnv(["resolve", "queries"]), ]; if (extraSearchPath !== undefined) { codeqlArgs.push("--additional-packs", extraSearchPath); } const output = await runCli(cmd, codeqlArgs); try { return JSON.parse(output) as ResolveQueriesOutput; } catch (e) { throw new Error(`Unexpected output from codeql resolve queries: ${e}`); } }, async resolveBuildEnvironment( workingDir: string | undefined, language: string, ) { const codeqlArgs = [ "resolve", "build-environment", `--language=${language}`, "--extractor-include-aliases", ...getExtraOptionsFromEnv(["resolve", "build-environment"]), ]; if (workingDir !== undefined) { codeqlArgs.push("--working-dir", workingDir); } const output = await runCli(cmd, codeqlArgs); try { return JSON.parse(output) as ResolveBuildEnvironmentOutput; } catch (e) { throw new Error( `Unexpected output from codeql resolve build-environment: ${e} in\n${output}`, ); } }, async databaseRunQueries( databasePath: string, flags: string[], ): Promise { const codeqlArgs = [ "database", "run-queries", ...flags, databasePath, "--intra-layer-parallelism", "--min-disk-free=1024", // Try to leave at least 1GB free "-v", ...getExtraOptionsFromEnv(["database", "run-queries"], { ignoringOptions: ["--expect-discarded-cache"], }), ]; await runCli(cmd, codeqlArgs); }, async databaseInterpretResults( databasePath: string, querySuitePaths: string[] | undefined, sarifFile: string, addSnippetsFlag: string, threadsFlag: string, verbosityFlag: string, sarifRunPropertyFlag: string | undefined, automationDetailsId: string | undefined, config: Config, features: FeatureEnablement, ): Promise { const shouldExportDiagnostics = await features.getValue( Feature.ExportDiagnosticsEnabled, this, ); const codeqlArgs = [ "database", "interpret-results", threadsFlag, "--format=sarif-latest", verbosityFlag, `--output=${sarifFile}`, addSnippetsFlag, "--print-diagnostics-summary", "--print-metrics-summary", "--sarif-add-baseline-file-info", `--sarif-codescanning-config=${getGeneratedCodeScanningConfigPath( config, )}`, "--sarif-group-rules-by-pack", "--sarif-include-query-help=always", "--sublanguage-file-coverage", ...(await getJobRunUuidSarifOptions(this)), ...getExtraOptionsFromEnv(["database", "interpret-results"]), ]; if (sarifRunPropertyFlag !== undefined) { codeqlArgs.push(sarifRunPropertyFlag); } if (automationDetailsId !== undefined) { codeqlArgs.push("--sarif-category", automationDetailsId); } if (shouldExportDiagnostics) { codeqlArgs.push("--sarif-include-diagnostics"); } else { codeqlArgs.push("--no-sarif-include-diagnostics"); } if ( !isSupportedToolsFeature( await this.getVersion(), ToolsFeature.AnalysisSummaryV2IsDefault, ) ) { codeqlArgs.push("--new-analysis-summary"); } codeqlArgs.push(databasePath); if (querySuitePaths) { codeqlArgs.push(...querySuitePaths); } // Capture the stdout, which contains the analysis summary. Don't stream it to the Actions // logs to avoid printing it twice. return await runCli(cmd, codeqlArgs, { noStreamStdout: true, }); }, async databasePrintBaseline(databasePath: string): Promise { const codeqlArgs = [ "database", "print-baseline", ...getExtraOptionsFromEnv(["database", "print-baseline"]), databasePath, ]; return await runCli(cmd, codeqlArgs); }, /** * Download specified packs into the package cache. If the specified * package and version already exists (e.g., from a previous analysis run), * then it is not downloaded again (unless the extra option `--force` is * specified). * * If no version is specified, then the latest version is * downloaded. The check to determine what the latest version is is done * each time this package is requested. * * Optionally, a `qlconfigFile` is included. If used, then this file * is used to determine which registry each pack is downloaded from. */ async packDownload( packs: string[], qlconfigFile: string | undefined, ): Promise { const qlconfigArg = qlconfigFile ? [`--qlconfig-file=${qlconfigFile}`] : ([] as string[]); const codeqlArgs = [ "pack", "download", ...qlconfigArg, "--format=json", "--resolve-query-specs", ...getExtraOptionsFromEnv(["pack", "download"]), ...packs, ]; const output = await runCli(cmd, codeqlArgs); try { const parsedOutput: PackDownloadOutput = JSON.parse(output); if ( Array.isArray(parsedOutput.packs) && // TODO PackDownloadOutput will not include the version if it is not specified // in the input. The version is always the latest version available. // It should be added to the output, but this requires a CLI change parsedOutput.packs.every((p) => p.name /* && p.version */) ) { return parsedOutput; } else { throw new Error("Unexpected output from pack download"); } } catch (e) { throw new Error( `Attempted to download specified packs but got an error:\n${output}\n${e}`, ); } }, async databaseCleanup( databasePath: string, cleanupLevel: string, ): Promise { const cacheCleanupFlag = (await util.codeQlVersionAtLeast( this, CODEQL_VERSION_CACHE_CLEANUP, )) ? "--cache-cleanup" : "--mode"; const codeqlArgs = [ "database", "cleanup", databasePath, `${cacheCleanupFlag}=${cleanupLevel}`, ...getExtraOptionsFromEnv(["database", "cleanup"]), ]; await runCli(cmd, codeqlArgs); }, async databaseBundle( databasePath: string, outputFilePath: string, databaseName: string, ): Promise { const args = [ "database", "bundle", databasePath, `--output=${outputFilePath}`, `--name=${databaseName}`, ...getExtraOptionsFromEnv(["database", "bundle"]), ]; await new toolrunner.ToolRunner(cmd, args).exec(); }, async databaseExportDiagnostics( databasePath: string, sarifFile: string, automationDetailsId: string | undefined, ): Promise { const args = [ "database", "export-diagnostics", `${databasePath}`, "--db-cluster", // Database is always a cluster for CodeQL versions that support diagnostics. "--format=sarif-latest", `--output=${sarifFile}`, "--sarif-include-diagnostics", // ExportDiagnosticsEnabled is always true if this command is run. "-vvv", ...getExtraOptionsFromEnv(["diagnostics", "export"]), ]; if (automationDetailsId !== undefined) { args.push("--sarif-category", automationDetailsId); } await new toolrunner.ToolRunner(cmd, args).exec(); }, async diagnosticsExport( sarifFile: string, automationDetailsId: string | undefined, config: Config, ): Promise { const args = [ "diagnostics", "export", "--format=sarif-latest", `--output=${sarifFile}`, `--sarif-codescanning-config=${getGeneratedCodeScanningConfigPath( config, )}`, ...getExtraOptionsFromEnv(["diagnostics", "export"]), ]; if (automationDetailsId !== undefined) { args.push("--sarif-category", automationDetailsId); } await new toolrunner.ToolRunner(cmd, args).exec(); }, async resolveExtractor(language: Language): Promise { // Request it using `format=json` so we don't need to strip the trailing new line generated by // the CLI. let extractorPath = ""; await new toolrunner.ToolRunner( cmd, [ "resolve", "extractor", "--format=json", `--language=${language}`, "--extractor-include-aliases", ...getExtraOptionsFromEnv(["resolve", "extractor"]), ], { silent: true, listeners: { stdout: (data) => { extractorPath += data.toString(); }, stderr: (data) => { process.stderr.write(data); }, }, }, ).exec(); return JSON.parse(extractorPath) as string; }, async mergeResults( sarifFiles: string[], outputFile: string, { mergeRunsFromEqualCategory = false, }: { mergeRunsFromEqualCategory?: boolean }, ): Promise { const args = [ "github", "merge-results", "--output", outputFile, ...getExtraOptionsFromEnv(["github", "merge-results"]), ]; for (const sarifFile of sarifFiles) { args.push("--sarif", sarifFile); } if (mergeRunsFromEqualCategory) { args.push("--sarif-merge-runs-from-equal-category"); } await runCli(cmd, args); }, }; // To ensure that status reports include the CodeQL CLI version wherever // possible, we want to call getVersion(), which populates the version value // used by status reporting, at the earliest opportunity. But invoking // getVersion() directly here breaks tests that only pretend to create a // CodeQL object. So instead we rely on the assumption that all non-test // callers would set checkVersion to true, and util.codeQlVersionAbove() // would call getVersion(), so the CLI version would be cached as soon as the // CodeQL object is created. if ( checkVersion && !(await util.codeQlVersionAtLeast(codeql, CODEQL_MINIMUM_VERSION)) ) { throw new util.ConfigurationError( `Expected a CodeQL CLI with version at least ${CODEQL_MINIMUM_VERSION} but got version ${ (await codeql.getVersion()).version }`, ); } else if ( checkVersion && process.env[EnvVar.SUPPRESS_DEPRECATED_SOON_WARNING] !== "true" && !(await util.codeQlVersionAtLeast(codeql, CODEQL_NEXT_MINIMUM_VERSION)) ) { const result = await codeql.getVersion(); core.warning( `CodeQL CLI version ${result.version} was discontinued on ` + `${GHES_MOST_RECENT_DEPRECATION_DATE} alongside GitHub Enterprise Server ` + `${GHES_VERSION_MOST_RECENTLY_DEPRECATED} and will not be supported by the next minor ` + `release of the CodeQL Action. Please update to CodeQL CLI version ` + `${CODEQL_NEXT_MINIMUM_VERSION} or later. For instance, if you have specified a custom ` + "version of the CLI using the 'tools' input to the 'init' Action, you can remove this " + "input to use the default version.\n\n" + "Alternatively, if you want to continue using CodeQL CLI version " + `${result.version}, you can replace 'github/codeql-action/*@v${ getActionVersion().split(".")[0] }' by 'github/codeql-action/*@v${getActionVersion()}' in your code scanning workflow to ` + "continue using this version of the CodeQL Action.", ); core.exportVariable(EnvVar.SUPPRESS_DEPRECATED_SOON_WARNING, "true"); } return codeql; } /** * Gets the options for `path` of `options` as an array of extra option strings. * * @param ignoringOptions Options that should be ignored, for example because they have already * been passed and it is an error to pass them more than once. */ function getExtraOptionsFromEnv( paths: string[], { ignoringOptions }: { ignoringOptions?: string[] } = {}, ) { const options: ExtraOptions = util.getExtraOptionsEnvParam(); return getExtraOptions(options, paths, []).filter( (option) => !ignoringOptions?.includes(option), ); } /** * Gets `options` as an array of extra option strings. * * - throws an exception mentioning `pathInfo` if this conversion is impossible. */ function asExtraOptions(options: any, pathInfo: string[]): string[] { if (options === undefined) { return []; } if (!Array.isArray(options)) { const msg = `The extra options for '${pathInfo.join( ".", )}' ('${JSON.stringify(options)}') are not in an array.`; throw new Error(msg); } return options.map((o) => { const t = typeof o; if (t !== "string" && t !== "number" && t !== "boolean") { const msg = `The extra option for '${pathInfo.join( ".", )}' ('${JSON.stringify(o)}') is not a primitive value.`; throw new Error(msg); } return `${o}`; }); } /** * Gets the options for `path` of `options` as an array of extra option strings. * * - the special terminal step name '*' in `options` matches all path steps * - throws an exception if this conversion is impossible. * * Exported for testing. */ export function getExtraOptions( options: any, paths: string[], pathInfo: string[], ): string[] { const all = asExtraOptions(options?.["*"], pathInfo.concat("*")); const specific = paths.length === 0 ? asExtraOptions(options, pathInfo) : getExtraOptions( options?.[paths[0]], paths?.slice(1), pathInfo.concat(paths[0]), ); return all.concat(specific); } async function runCli( cmd: string, args: string[] = [], opts: { stdin?: string; noStreamStdout?: boolean } = {}, ): Promise { try { return await runTool(cmd, args, opts); } catch (e) { if (e instanceof CommandInvocationError) { throw wrapCliConfigurationError(new CliError(e)); } throw e; } } /** * Generates a code scanning configuration that is to be used for a scan. * * @param codeql The CodeQL object to use. * @param config The configuration to use. * @returns the path to the generated user configuration file. */ async function generateCodeScanningConfig( config: Config, logger: Logger, ): Promise { const codeScanningConfigFile = getGeneratedCodeScanningConfigPath(config); // make a copy so we can modify it const augmentedConfig = cloneObject(config.originalUserInput); // Inject the queries from the input if (config.augmentationProperties.queriesInput) { if (config.augmentationProperties.queriesInputCombines) { augmentedConfig.queries = (augmentedConfig.queries || []).concat( config.augmentationProperties.queriesInput, ); } else { augmentedConfig.queries = config.augmentationProperties.queriesInput; } } if (augmentedConfig.queries?.length === 0) { delete augmentedConfig.queries; } // Inject the packs from the input if (config.augmentationProperties.packsInput) { if (config.augmentationProperties.packsInputCombines) { // At this point, we already know that this is a single-language analysis if (Array.isArray(augmentedConfig.packs)) { augmentedConfig.packs = (augmentedConfig.packs || []).concat( config.augmentationProperties.packsInput, ); } else if (!augmentedConfig.packs) { augmentedConfig.packs = config.augmentationProperties.packsInput; } else { // At this point, we know there is only one language. // If there were more than one language, an error would already have been thrown. const language = Object.keys(augmentedConfig.packs)[0]; augmentedConfig.packs[language] = augmentedConfig.packs[ language ].concat(config.augmentationProperties.packsInput); } } else { augmentedConfig.packs = config.augmentationProperties.packsInput; } } if (Array.isArray(augmentedConfig.packs) && !augmentedConfig.packs.length) { delete augmentedConfig.packs; } augmentedConfig["query-filters"] = [ ...(config.augmentationProperties.defaultQueryFilters || []), ...(augmentedConfig["query-filters"] || []), ]; if (augmentedConfig["query-filters"]?.length === 0) { delete augmentedConfig["query-filters"]; } logger.info( `Writing augmented user configuration file to ${codeScanningConfigFile}`, ); logger.startGroup("Augmented user configuration file contents"); logger.info(yaml.dump(augmentedConfig)); logger.endGroup(); fs.writeFileSync(codeScanningConfigFile, yaml.dump(augmentedConfig)); return codeScanningConfigFile; } // This constant sets the size of each TRAP cache in megabytes. const TRAP_CACHE_SIZE_MB = 1024; export async function getTrapCachingExtractorConfigArgs( config: Config, ): Promise { const result: string[][] = []; for (const language of config.languages) result.push( await getTrapCachingExtractorConfigArgsForLang(config, language), ); return result.flat(); } export async function getTrapCachingExtractorConfigArgsForLang( config: Config, language: Language, ): Promise { const cacheDir = config.trapCaches[language]; if (cacheDir === undefined) return []; const write = await isAnalyzingDefaultBranch(); return [ `-O=${language}.trap.cache.dir=${cacheDir}`, `-O=${language}.trap.cache.bound=${TRAP_CACHE_SIZE_MB}`, `-O=${language}.trap.cache.write=${write}`, ]; } /** * Get the path to the code scanning configuration generated by the CLI. * * This will not exist if the configuration is being parsed in the Action. */ export function getGeneratedCodeScanningConfigPath(config: Config): string { return path.resolve(config.tempDir, "user-config.yaml"); } function getExtractionVerbosityArguments( enableDebugLogging: boolean, ): string[] { return enableDebugLogging ? [`--verbosity=${EXTRACTION_DEBUG_MODE_VERBOSITY}`] : []; } /** * Updates the `JAVA_TOOL_OPTIONS` environment variable to resolve an issue with Azure Pipelines * timing out connections after 4 minutes and Maven not properly handling closed connections. * * Without the fix, long build processes will timeout when pulling down Java packages * https://developercommunity.visualstudio.com/content/problem/292284/maven-hosted-agent-connection-timeout.html */ function applyAutobuildAzurePipelinesTimeoutFix() { const javaToolOptions = process.env["JAVA_TOOL_OPTIONS"] || ""; process.env["JAVA_TOOL_OPTIONS"] = [ ...javaToolOptions.split(/\s+/), "-Dhttp.keepAlive=false", "-Dmaven.wagon.http.pool=false", ].join(" "); } async function getJobRunUuidSarifOptions(codeql: CodeQL) { const jobRunUuid = process.env[EnvVar.JOB_RUN_UUID]; return jobRunUuid && (await codeql.supportsFeature( ToolsFeature.DatabaseInterpretResultsSupportsSarifRunProperty, )) ? [`--sarif-run-property=jobRunUuid=${jobRunUuid}`] : []; }