import algorithm, future, options, os, posix, sequtils, sets, strutils, tables, "../args", "../aur", "../config", "../common", "../format", "../lists", "../package", "../pacman", "../utils", "../wrapper/alpm" type Installed = tuple[ name: string, version: string, groups: seq[string], explicit: bool ] SatisfyResult = tuple[ installed: bool, name: string, buildPkgInfo: Option[PackageInfo] ] LocalIsNewer = tuple[ name: string, version: string, aurVersion: string ] ReplacePkgInfo = tuple[ name: Option[string], pkgInfo: PackageInfo ] BuildResult = tuple[ ext: string, replacePkgInfos: seq[ReplacePkgInfo] ] proc groupsSeq(pkg: ptr AlpmPackage): seq[string] = toSeq(pkg.groups.items).map(s => $s) proc createCloneProgress(config: Config, count: int, flexible: bool, printMode: bool): (proc (update: int, terminate: int) {.closure.}, proc {.closure.}) = if count >= 1 and not printMode: let (update, terminate) = printProgressShare(config.progressBar, tr"cloning repositories") update(0, count) if flexible: proc cloneUpdate(progress: int, newCount: int) {.closure.} = # newCount can be < count if some packages were not found update(max(count - newCount + progress, 0), count) (cloneUpdate, terminate) else: (update, terminate) else: (proc (a: int, b: int) {.closure.} = discard, proc {.closure.} = discard) proc orderInstallation(ordered: seq[seq[seq[PackageInfo]]], grouped: seq[seq[PackageInfo]], satisfied: Table[PackageReference, SatisfyResult]): seq[seq[seq[PackageInfo]]] = let orderedNamesSet = lc[c.name | (a <- ordered, b <- a, c <- b), string].toSet proc hasBuildDependency(pkgInfos: seq[PackageInfo]): bool = for pkgInfo in pkgInfos: for reference in pkgInfo.allDepends: for satres in satisfied.opt(reference): if satres.buildPkgInfo.isSome and not (satres.buildPkgInfo.unsafeGet in pkgInfos) and not (satres.buildPkgInfo.unsafeGet.name in orderedNamesSet): return true return false let split: seq[tuple[pkgInfos: seq[PackageInfo], dependent: bool]] = grouped.map(i => (i, i.hasBuildDependency)) let newOrdered = ordered & split.filter(s => not s.dependent).map(s => s.pkgInfos) let unordered = split.filter(s => s.dependent).map(s => s.pkgInfos) if unordered.len > 0: if unordered.len == grouped.len: newOrdered & unordered else: orderInstallation(newOrdered, unordered, satisfied) else: newOrdered proc orderInstallation(pkgInfos: seq[PackageInfo], satisfied: Table[PackageReference, SatisfyResult]): seq[seq[seq[PackageInfo]]] = let grouped = pkgInfos.groupBy(i => i.base).map(p => p.values) orderInstallation(@[], grouped, satisfied) .map(x => x.filter(s => s.len > 0)) .filter(x => x.len > 0) proc findDependencies(config: Config, handle: ptr AlpmHandle, dbs: seq[ptr AlpmDatabase], satisfied: Table[PackageReference, SatisfyResult], unsatisfied: seq[PackageReference], totalAurFail: seq[PackageReference], additionalPkgInfos: seq[PackageInfo], paths: seq[string], nodepsCount: int, assumeInstalled: seq[PackageReference], printMode: bool, noaur: bool): (Table[PackageReference, SatisfyResult], seq[PackageReference], seq[string]) = proc checkDependencyCycle(pkgInfo: PackageInfo, reference: PackageReference): bool = for checkReference in pkgInfo.allDepends: if checkReference == reference: return false let buildPkgInfo = satisfied.opt(checkReference) .map(r => r.buildPkgInfo).flatten if buildPkgInfo.isSome and not checkDependencyCycle(buildPkgInfo.unsafeGet, reference): return false return true proc findInSatisfied(reference: PackageReference): Option[PackageInfo] = for satref, res in satisfied.pairs: if res.buildPkgInfo.isSome: let pkgInfo = res.buildPkgInfo.unsafeGet if satref == reference or reference .isProvidedBy(pkgInfo.toPackageReference, nodepsCount == 0): return some(pkgInfo) for provides in pkgInfo.provides: if reference.isProvidedBy(provides, nodepsCount == 0) and checkDependencyCycle(pkgInfo, reference): return some(pkgInfo) return none(PackageInfo) proc findInAdditional(reference: PackageReference): Option[PackageInfo] = for pkgInfo in additionalPkgInfos: if reference.isProvidedBy(pkgInfo.toPackageReference, nodepsCount == 0): return some(pkgInfo) for provides in pkgInfo.provides: if reference.isProvidedBy(provides, nodepsCount == 0) and checkDependencyCycle(pkgInfo, reference): return some(pkgInfo) return none(PackageInfo) proc findInDatabaseWithGroups(db: ptr AlpmDatabase, reference: PackageReference, directName: bool): Option[tuple[name: string, groups: seq[string]]] = for pkg in db.packages: if reference.isProvidedBy(pkg.toPackageReference, nodepsCount == 0): return some(($pkg.name, pkg.groupsSeq)) for provides in pkg.provides: if reference.isProvidedBy(provides.toPackageReference, nodepsCount == 0): if directName: return some(($pkg.name, pkg.groupsSeq)) else: return some(($provides.name, pkg.groupsSeq)) return none((string, seq[string])) proc findInDatabase(db: ptr AlpmDatabase, reference: PackageReference, directName: bool, checkIgnored: bool): Option[string] = let res = findInDatabaseWithGroups(db, reference, directName) if res.isSome: let r = res.unsafeGet if checkIgnored and config.ignored(r.name, r.groups): none(string) else: some(r.name) else: none(string) proc findInDatabases(reference: PackageReference, directName: bool, checkIgnored: bool): Option[string] = for db in dbs: let name = findInDatabase(db, reference, directName, checkIgnored) if name.isSome: return name return none(string) proc find(reference: PackageReference): Option[SatisfyResult] = let localName = findInDatabase(handle.local, reference, true, false) if localName.isSome: some((true, localName.unsafeGet, none(PackageInfo))) else: if nodepsCount >= 2 or assumeInstalled.filter(r => reference.isProvidedBy(r, true)).len > 0: some((true, reference.name, none(PackageInfo))) else: let pkgInfo = findInSatisfied(reference) if pkgInfo.isSome: some((false, pkgInfo.unsafeGet.name, pkgInfo)) else: let pkgInfo = findInAdditional(reference) if pkgInfo.isSome: some((false, pkgInfo.unsafeGet.name, pkgInfo)) else: let syncName = findInDatabases(reference, false, true) if syncName.isSome: some((false, syncName.unsafeGet, none(PackageInfo))) else: none(SatisfyResult) type ReferenceResult = tuple[reference: PackageReference, result: Option[SatisfyResult]] let findResult: seq[ReferenceResult] = unsatisfied.map(r => (r, r.find)) let success = findResult.filter(r => r.result.isSome) let aurCheck = findResult.filter(r => r.result.isNone).map(r => r.reference) .filter(r => not (r in totalAurFail)) let (aurSuccess, aurFail, newPaths, newAdditionalPkgInfos) = if not noaur and aurCheck.len > 0: (block: let (update, terminate) = createCloneProgress(config, aurCheck.len, true, printMode) try: withAur(): let (pkgInfos, additionalPkgInfos, paths) = if printMode: (block: let (pkgInfos, additionalPkgInfos, aerrors) = getAurPackageInfos(aurCheck.map(r => r.name), config.arch) for e in aerrors: printError(config.color, e) (pkgInfos, additionalPkgInfos, newSeq[string]())) else: (block: let (rpcInfos, aerrors) = getRpcPackageInfos(aurCheck.map(r => r.name)) for e in aerrors: printError(config.color, e) let (pkgInfos, additionalPkgInfos, paths, cerrors) = cloneAurReposWithPackageInfos(config, rpcInfos, not printMode, update, true) for e in cerrors: printError(config.color, e) (pkgInfos, additionalPkgInfos, paths)) let acceptedPkgInfos = pkgInfos.filter(i => not config.ignored(i.name, i.groups)) let aurTable = acceptedPkgInfos.map(i => (i.name, i)).toTable let aurResult = aurCheck.map(proc (reference: PackageReference): ReferenceResult = if aurTable.hasKey(reference.name): (reference, some((false, reference.name, some(aurTable[reference.name])))) else: (reference, none(SatisfyResult))) let aurSuccess = aurResult.filter(r => r.result.isSome) let aurFail = aurResult.filter(r => r.result.isNone).map(r => r.reference) (aurSuccess, aurFail, paths, additionalPkgInfos) finally: terminate()) else: (@[], aurCheck, @[], @[]) let newSatisfied = (toSeq(satisfied.pairs) & success.map(r => (r.reference, r.result.unsafeGet)) & aurSuccess.map(r => (r.reference, r.result.unsafeGet))).toTable let newUnsatisfied = lc[x | (y <- aurSuccess, r <- y.result, i <- r.buildPkgInfo, x <- i.allDepends), PackageReference].deduplicate let newTotalAurFail = (totalAurFail & aurFail).deduplicate let newTotalUnsatisfied = (newUnsatisfied & newTotalAurFail).deduplicate if newUnsatisfied.len > 0: findDependencies(config, handle, dbs, newSatisfied, newTotalUnsatisfied, newTotalAurFail, additionalPkgInfos & newAdditionalPkgInfos, paths & newPaths, nodepsCount, assumeInstalled, printMode, noaur) else: let finallyUnsatisfied = newTotalAurFail.filter(r => not newSatisfied.hasKey(r)) (newSatisfied, finallyUnsatisfied, paths & newPaths) proc findDependencies(config: Config, handle: ptr AlpmHandle, dbs: seq[ptr AlpmDatabase], pkgInfos: seq[PackageInfo], additionalPkgInfos: seq[PackageInfo], nodepsCount: int, assumeInstalled: seq[PackageReference], printMode: bool, noaur: bool): (Table[PackageReference, SatisfyResult], seq[PackageReference], seq[string]) = let satisfied = pkgInfos.map(p => ((p.name, none(string), none(VersionConstraint)), (false, p.name, some(p)))).toTable let unsatisfied = lc[x | (i <- pkgInfos, x <- i.allDepends), PackageReference].deduplicate findDependencies(config, handle, dbs, satisfied, unsatisfied, @[], additionalPkgInfos, @[], nodepsCount, assumeInstalled, printMode, noaur) template clearPaths(paths: untyped) = for path in paths: removeDirQuiet(path) discard rmdir(config.tmpRootInitial) proc printUnsatisfied(config: Config, satisfied: Table[PackageReference, SatisfyResult], unsatisfied: seq[PackageReference]) = if unsatisfied.len > 0: for _, satres in satisfied.pairs: for pkgInfo in satres.buildPkgInfo: for reference in pkgInfo.allDepends: if reference in unsatisfied: printError(config.color, trp("unable to satisfy dependency '%s' required by %s\n") % [$reference, pkgInfo.name]) template dropPrivilegesAndChdir(path: Option[string], body: untyped): int = if dropPrivileges(): if path.isNone or chdir(path.unsafeGet) == 0: body else: printError(config.color, tr"chdir failed: $#" % [path.unsafeGet]) quit(1) else: printError(config.color, tr"failed to drop privileges") quit(1) proc editLoop(config: Config, base: string, repoPath: string, gitSubdir: Option[string], defaultYes: bool, noconfirm: bool): char = proc editFileLoop(file: string): char = let default = if defaultYes: 'y' else: 'n' let res = printColonUserChoice(config.color, tr"View and edit $#?" % [base & "/" & file], ['y', 'n', 's', 'a', '?'], default, '?', noconfirm, 'n') if res == '?': printUserInputHelp(('s', tr"skip all files"), ('a', tr"abort operation")) editFileLoop(file) elif res == 'y': let visualEnv = getEnv("VISUAL") let editorEnv = getEnv("EDITOR") let editor = if visualEnv.len > 0: visualEnv elif editorEnv.len > 0: editorEnv else: printColonUserInput(config.color, tr"Enter editor executable name" & ":", noconfirm, "", "") if editor.strip.len == 0: 'n' else: discard forkWait(() => (block: let buildPath = buildPath(repoPath, gitSubdir) dropPrivilegesAndChdir(some(buildPath)): execResult(bashCmd, "-c", """$1 "$2"""", "bash", editor, file))) editFileLoop(file) else: res let rawFiles = getGitFiles(repoPath, gitSubdir, true) let files = ("PKGBUILD" & rawFiles.filter(x => x != ".SRCINFO")).deduplicate proc editFileLoopAll(index: int): char = if index < files.len: let res = editFileLoop(files[index]) if res == 'n': editFileLoopAll(index + 1) else: res else: 'n' editFileLoopAll(0) proc buildLoop(config: Config, pkgInfos: seq[PackageInfo], skipDeps: bool, noconfirm: bool, noextract: bool): (Option[BuildResult], int, bool) = let base = pkgInfos[0].base let repoPath = repoPath(config.tmpRootInitial, base) let gitSubdir = pkgInfos[0].gitSubdir let buildPath = buildPath(repoPath, gitSubdir) let confFileEnv = getEnv("MAKEPKG_CONF") let confFile = if confFileEnv.len == 0: sysConfDir & "/makepkg.conf" else: confFileEnv let workConfFile = config.tmpRootInitial & "/makepkg.conf" let workConfFileCopySuccess = try: copyFile(confFile, workConfFile) var file: File if file.open(workConfFile, fmAppend): try: file.writeLine("") file.writeLine('#'.repeat(73)) file.writeLine("# PAKKU OVERRIDES") file.writeLine('#'.repeat(73)) file.writeLine("CARCH=" & config.arch.bashEscape) file.writeLine("PKGDEST=" & config.tmpRootInitial.bashEscape) finally: file.close() true except: discard unlink(workConfFile) false if not workConfFileCopySuccess: printError(config.color, tr"failed to copy config file '$#'" % [confFile]) (none(BuildResult), 1, false) else: let envExt = getEnv("PKGEXT") let confExt = if envExt.len == 0: forkWaitRedirect(() => (block: dropPrivilegesAndChdir(none(string)): execResult(bashCmd, "-c", "source \"$@\" && echo \"$PKGEXT\"", "bash", workConfFile))) .output.optFirst.get("") else: envExt let (buildCode, interrupted) = catchInterrupt(): forkWait(proc: int = discard cunsetenv("MAKEPKG_CONF") dropPrivilegesAndChdir(some(buildPath)): if not noextract: removeDirQuiet(buildPath & "src") let optional: seq[tuple[arg: string, cond: bool]] = @[ ("-e", noextract), ("-m", not config.color), ("-d", skipDeps) ] execResult(@[makepkgCmd, "--config", workConfFile, "-f"] & optional.filter(o => o.cond).map(o => o.arg))) discard unlink(workConfFile) if interrupted: (none(BuildResult), buildCode, interrupted) elif buildCode != 0: printError(config.color, tr"failed to build '$#'" % [base]) (none(BuildResult), buildCode, false) else: let resultPkgInfos = reloadPkgInfos(config, buildPath, pkgInfos) type ResultInfo = tuple[name: string, baseIndex: int, pkgInfo: Option[PackageInfo]] let resultPkgInfosTable = resultPkgInfos.map(i => (i.name, i)).toTable let resultByNames: seq[ResultInfo] = pkgInfos .map(i => (i.name, i.baseIndex, resultPkgInfosTable.opt(i.name))) let resultByIndices: seq[ResultInfo] = if pkgInfos[0].baseCount == resultPkgInfos.len: resultByNames.map(res => (block: if res.pkgInfo.isNone: (res.name, res.baseIndex, some(resultPkgInfos[res.baseIndex])) else: res)) else: resultByNames let failedNames = lc[x.name | (x <- resultByIndices, x.pkgInfo.isNone), string] if failedNames.len > 0: for name in failedNames: printError(config.color, tr"$#: failed to extract package info" % [name]) (none(BuildResult), 1, false) else: let targetPkgInfos: seq[ReplacePkgInfo] = resultByIndices .map(i => (some(i.name), i.pkgInfo.get)) let filterNames = targetPkgInfos.map(r => r.pkgInfo.name).toSet let additionalPkgInfos: seq[ReplacePkgInfo] = resultPkgInfos .filter(i => not (i.name in filterNames)) .map(i => (none(string), i)) (some(($confExt, targetPkgInfos & additionalPkgInfos)), 0, false) proc buildFromSources(config: Config, commonArgs: seq[Argument], pkgInfos: seq[PackageInfo], skipDeps: bool, noconfirm: bool): (Option[BuildResult], int) = let base = pkgInfos[0].base let repoPath = repoPath(config.tmpRootInitial, base) let gitSubdir = pkgInfos[0].gitSubdir proc loop(noextract: bool, showEditLoop: bool): (Option[BuildResult], int) = let res = if showEditLoop and not noconfirm: editLoop(config, base, repoPath, gitSubdir, false, noconfirm) else: 'n' if res == 'a': (none(BuildResult), 1) else: let (buildResult, code, interrupted) = buildLoop(config, pkgInfos, skipDeps, noconfirm, noextract) if interrupted: (buildResult, 1) elif code != 0: proc ask(): char = let res = printColonUserChoice(config.color, tr"Build failed, retry?", ['y', 'e', 'n', '?'], 'n', '?', noconfirm, 'n') if res == '?': printUserInputHelp(('e', tr"retry with --noextract option")) ask() else: res let res = ask() if res == 'e': loop(true, true) elif res == 'y': loop(false, true) else: (buildResult, code) else: (buildResult, code) let preBuildCode = if config.preBuildCommand.isSome: (block: printColon(config.color, tr"Running pre-build command...") let code = forkWait(() => (block: dropPrivilegesAndChdir(some(buildPath(repoPath, gitSubdir))): execResult(bashCmd, "-c", config.preBuildCommand.unsafeGet))) if code != 0 and printColonUserChoice(config.color, tr"Command failed, continue?", ['y', 'n'], 'n', 'n', noconfirm, 'n') == 'y': 0 else: code) else: 0 if preBuildCode != 0: (none(BuildResult), preBuildCode) else: loop(false, false) proc installGroupFromSources(config: Config, commonArgs: seq[Argument], basePackages: seq[seq[PackageInfo]], explicits: HashSet[string], skipDeps: bool, noconfirm: bool): (seq[(string, string)], int) = proc buildNext(index: int, buildResults: List[BuildResult]): (List[BuildResult], int) = if index < basePackages.len: let (buildResult, code) = buildFromSources(config, commonArgs, basePackages[index], skipDeps, noconfirm) if code != 0: (buildResults.reversed, code) else: buildNext(index + 1, buildResult.unsafeGet ^& buildResults) else: (buildResults.reversed, 0) let (buildResults, buildCode) = buildNext(0, nil) proc formatArchiveFile(pkgInfo: PackageInfo, ext: string): string = let arch = if config.arch in pkgInfo.archs: config.arch else: "any" config.tmpRootInitial & "/" & pkgInfo.name & "-" & pkgInfo.version & "-" & arch & ext let allFiles = lc[(r.name, formatArchiveFile(r.pkgInfo, br.ext)) | (br <- buildResults, r <- br.replacePkgInfos), tuple[name: Option[string], file: string]] let filesTable = allFiles.filter(f => f.name.isSome).map(f => (f.name.unsafeGet, f.file)).toTable let install = lc[(i.name, x) | (g <- basePackages, i <- g, x <- filesTable.opt(i.name)), tuple[name: string, file: string]] proc handleTmpRoot(clear: bool) = let installFiles = install.map(p => p.file) for pair in allFiles: if clear or not (pair.file in installFiles): try: removeFile(pair.file) except: discard if not clear: printWarning(config.color, tr"packages are saved to '$#'" % [config.tmpRootInitial]) if buildCode != 0: handleTmpRoot(true) (newSeq[(string, string)](), buildCode) else: if currentUser.uid != 0 and printColonUserChoice(config.color, tr"Continue installing?", ['y', 'n'], 'y', 'n', noconfirm, 'y') != 'y': handleTmpRoot(false) (newSeq[(string, string)](), 1) else: let pacmanParams = pacmanCmd & pacmanParams(config.color, commonArgs & ("U", none(string), ArgumentType.short)) let asdeps = install.filter(p => not (p.name in explicits)).map(p => p.file) let asexplicit = install.filter(p => p.name in explicits).map(p => p.file) let installParams = sudoPrefix & (pkgLibDir & "/install") & config.cache & $pacmanParams.len & pacmanParams & $asdeps.len & asdeps & $asexplicit.len & asexplicit let code = forkWait(() => execResult(installParams)) if code != 0: handleTmpRoot(false) (newSeq[(string, string)](), code) else: handleTmpRoot(true) let installedAs = lc[(r.name.unsafeGet, r.pkgInfo.name) | (br <- buildResults, r <- br.replacePkgInfos, r.name.isSome), (string, string)] (installedAs, 0) proc deduplicatePkgInfos(pkgInfos: seq[PackageInfo], config: Config, printWarning: bool): seq[PackageInfo] = pkgInfos.foldl(block: if a.map(t => t.name).contains(b.name): if printWarning: printWarning(config.color, trp("skipping target: %s\n") % [b.name]) a else: a & b, newSeq[PackageInfo]()) proc resolveDependencies(config: Config, pkgInfos: seq[PackageInfo], additionalPkgInfos: seq[PackageInfo], printMode: bool, directSome: bool, nodepsCount: int, assumeInstalled: seq[PackageReference], noaur: bool): (bool, Table[PackageReference, SatisfyResult], seq[string], seq[seq[seq[PackageInfo]]], seq[string]) = if pkgInfos.len > 0 and not printMode: if directSome: printColon(config.color, tr"Resolving build targets...") echo(trp("resolving dependencies...\n")) let (satisfied, unsatisfied, paths) = withAlpm(config.root, config.db, config.dbs, config.arch, handle, dbs, errors): findDependencies(config, handle, dbs, pkgInfos, additionalPkgInfos, nodepsCount, assumeInstalled, printMode, noaur) if unsatisfied.len > 0: clearPaths(paths) printUnsatisfied(config, satisfied, unsatisfied) (false, satisfied, newSeq[string](), newSeq[seq[seq[PackageInfo]]](), newSeq[string]()) else: let buildAndAurNamesSet = pkgInfos.map(i => i.name).toSet let fullPkgInfos = (pkgInfos & lc[i | (s <- satisfied.values, i <- s.buildPkgInfo, not (i.name in buildAndAurNamesSet)), PackageInfo]) .deduplicatePkgInfos(config, false) let additionalPacmanTargets = lc[x.name | (x <- satisfied.values, not x.installed and x.buildPkgInfo.isNone), string] let orderedPkgInfos = orderInstallation(fullPkgInfos, satisfied) (true, satisfied, additionalPacmanTargets, orderedPkgInfos, paths) proc confirmViewAndImportKeys(config: Config, basePackages: seq[seq[seq[PackageInfo]]], installed: seq[Installed], noconfirm: bool): int = if basePackages.len > 0: (block: let installedVersions = installed.map(i => (i.name, i.version)).toTable printPackages(config.color, config.verbosePkgList, lc[(i.name, i.repo, installedVersions.opt(i.name), i.version) | (g <- basePackages, b <- g, i <- b), PackageInstallFormat] .sorted((a, b) => cmp(a.name, b.name))) let input = printColonUserChoice(config.color, tr"Proceed with building?", ['y', 'n'], 'y', 'n', noconfirm, 'y') if input == 'y': let flatBasePackages = lc[x | (a <- basePackages, x <- a), seq[PackageInfo]] proc checkNext(index: int, skipEdit: bool, skipKeys: bool): int = if index < flatBasePackages.len: let pkgInfos = flatBasePackages[index] let base = pkgInfos[0].base let repoPath = repoPath(config.tmpRootInitial, base) let aur = pkgInfos[0].repo == "aur" if not skipEdit and aur and not noconfirm and config.aurComments: echo(tr"downloading comments from AUR...") let (comments, error) = downloadAurComments(base) for e in error: printError(config.color, e) if comments.len > 0: let commentsReversed = toSeq(comments.reversed) printComments(config.color, pkgInfos[0].maintainer, commentsReversed) let editRes = if skipEdit or noconfirm: 'n' else: (block: let defaultYes = aur and not config.viewNoDefault editLoop(config, base, repoPath, pkgInfos[0].gitSubdir, defaultYes, noconfirm)) if editRes == 'a': 1 else: let resultPkgInfos = reloadPkgInfos(config, repoPath & "/" & pkgInfos[0].gitSubdir.get("."), pkgInfos) let pgpKeys = lc[x | (p <- resultPkgInfos, x <- p.pgpKeys), string].deduplicate proc keysLoop(index: int, skipKeys: bool): char = if index >= pgpKeys.len: 'n' elif forkWait(() => (block: discard close(0) discard open("/dev/null") discard close(1) discard open("/dev/null") discard close(2) discard open("/dev/null") dropPrivilegesAndChdir(none(string)): execResult(gpgCmd, "--list-keys", pgpKeys[index]))) == 0: keysLoop(index + 1, skipKeys) else: let res = if skipKeys: 'y' else: printColonUserChoice(config.color, tr"Import PGP key $#?" % [pgpKeys[index]], ['y', 'n', 'c', 'a', '?'], 'y', '?', noconfirm, 'y') let newSkipKeys = skipKeys or res == 'c' if res == '?': printUserInputHelp(('c', tr"import all keys"), ('a', tr"abort operation")) keysLoop(index, newSkipKeys) elif res == 'y' or newSkipKeys: let importCode = forkWait(() => (block: dropPrivilegesAndChdir(none(string)): if config.pgpKeyserver.isSome: forkWait(() => execResult(gpgCmd, "--keyserver", config.pgpKeyserver.unsafeGet, "--recv-keys", pgpKeys[index])) else: forkWait(() => execResult(gpgCmd, "--recv-keys", pgpKeys[index])))) if importCode == 0 or newSkipKeys or noconfirm: keysLoop(index + 1, newSkipKeys) else: keysLoop(index, newSkipKeys) elif res == 'n': keysLoop(index + 1, newSkipKeys) else: res let keysRes = keysLoop(0, skipKeys) if keysRes == 'a': 1 else: checkNext(index + 1, skipEdit or editRes == 's', skipKeys or keysRes == 's') else: 0 checkNext(0, false, false) else: 1) else: 0 proc removeBuildDependencies(config: Config, commonArgs: seq[Argument], unrequired: HashSet[string], unrequiredOptional: HashSet[string]): int = if unrequired.len > 0 or unrequiredOptional.len > 0: (block: let code = if unrequired.len > 0: (block: printColon(config.color, tr"Removing build dependencies...") pacmanRun(true, config.color, commonArgs & ("R", none(string), ArgumentType.short) & toSeq(unrequired.items).map(t => (t, none(string), ArgumentType.target)))) else: 0 if code == 0 and unrequiredOptional.len > 0: printColon(config.color, tr"Removing optional build dependencies...") pacmanRun(true, config.color, commonArgs & ("R", none(string), ArgumentType.short) & toSeq(unrequiredOptional.items).map(t => (t, none(string), ArgumentType.target))) else: code) else: 0 proc assumeInstalled(args: seq[Argument]): seq[PackageReference] = args .filter(a => a.matchOption(%%%"assume-installed")) .map(a => a.value.get.parsePackageReference(false)) .filter(r => r.constraint.isNone or r.constraint.unsafeGet.operation == ConstraintOperation.eq) proc handleInstall(args: seq[Argument], config: Config, upgradeCount: int, nodepsCount: int, noconfirm: bool, explicits: HashSet[string], installed: seq[Installed], pacmanTargets: seq[FullPackageTarget[PackageInfo]], pkgInfos: seq[PackageInfo], additionalPkgInfos: seq[PackageInfo], keepNames: HashSet[string], initialPaths: seq[string], build: bool, noaur: bool): int = let workDirectPacmanTargets = if build: @[] else: pacmanTargets.map(`$`) let (directCode, directSome) = if workDirectPacmanTargets.len > 0 or upgradeCount > 0: (pacmanRun(true, config.color, args.filter(arg => not arg.isTarget) & workDirectPacmanTargets.map(t => (t, none(string), ArgumentType.target))), true) else: (0, false) if directCode != 0: clearPaths(initialPaths) directCode else: let commonArgs = args .keepOnlyOptions(commonOptions, transactionOptions, upgradeOptions) .filter(true, false, %%%"asdeps", %%%"asexplicit", %%%"needed") let assumeInstalled = args.assumeInstalled let skipDeps = assumeInstalled.len > 0 or nodepsCount > 0 let (resolveSuccess, satisfied, additionalPacmanTargets, basePackages, dependencyPaths) = resolveDependencies(config, pkgInfos, additionalPkgInfos, false, directSome, nodepsCount, assumeInstalled, noaur) let paths = initialPaths & dependencyPaths let confirmAndResolveCode = if resolveSuccess: confirmViewAndImportKeys(config, basePackages, installed, noconfirm) else: 1 if confirmAndResolveCode != 0: clearPaths(paths) confirmAndResolveCode else: let (_, initialUnrequired, initialUnrequiredWithoutOptional) = withAlpm(config.root, config.db, newSeq[string](), config.arch, handle, dbs, errors): queryUnrequired(handle, true, true, keepNames) let (additionalCode, additionalSome) = if additionalPacmanTargets.len > 0: (block: printColon(config.color, tr"Installing build dependencies...") (pacmanRun(true, config.color, commonArgs & ("S", none(string), ArgumentType.short) & ("needed", none(string), ArgumentType.long) & ("asdeps", none(string), ArgumentType.long) & additionalPacmanTargets.map(t => (t, none(string), ArgumentType.target))), true)) else: (0, false) if additionalCode != 0: clearPaths(paths) additionalCode else: if basePackages.len > 0: # check all pacman dependencies were installed let unsatisfied = if nodepsCount <= 1: withAlpm(config.root, config.db, config.dbs, config.arch, handle, dbs, errors): for e in errors: printError(config.color, e) proc checkSatisfied(reference: PackageReference): bool = for pkg in handle.local.packages: if reference.isProvidedBy(pkg.toPackageReference, nodepsCount == 0): return true for provides in pkg.provides: if reference.isProvidedBy(provides.toPackageReference, nodepsCount == 0): return true return false lc[x.key | (x <- satisfied.namedPairs, not x.value.installed and x.value.buildPkgInfo.isNone and not x.key.checkSatisfied), PackageReference] else: @[] if unsatisfied.len > 0: clearPaths(paths) printUnsatisfied(config, satisfied, unsatisfied) 1 else: proc installNext(index: int, installedAs: List[(string, string)], lastCode: int): (Table[string, string], int, int) = if index < basePackages.len and lastCode == 0: let (addInstalledAs, code) = installGroupFromSources(config, commonArgs, basePackages[index], explicits, skipDeps, noconfirm) installNext(index + 1, addInstalledAs ^& installedAs, code) else: (toSeq(installedAs.items).toTable, lastCode, index - 1) let (installedAs, code, index) = installNext(0, nil, 0) if code != 0 and index < basePackages.len - 1: printWarning(config.color, tr"installation aborted") clearPaths(paths) let newKeepNames = keepNames.map(n => installedAs.opt(n).get(n)) let (_, finalUnrequired, finalUnrequiredWithoutOptional) = withAlpm(config.root, config.db, newSeq[string](), config.arch, handle, dbs, errors): queryUnrequired(handle, true, true, newKeepNames) let unrequired = finalUnrequired - initialUnrequired let unrequiredOptional = finalUnrequiredWithoutOptional - initialUnrequiredWithoutOptional - unrequired let removeCode = removeBuildDependencies(config, commonArgs, unrequired, unrequiredOptional) if removeCode != 0: removeCode else: code elif not directSome and not additionalSome: echo(trp(" there is nothing to do\n")) 0 else: 0 proc handlePrint(args: seq[Argument], config: Config, printFormat: string, upgradeCount: int, nodepsCount: int, pacmanTargets: seq[FullPackageTarget], pkgInfos: seq[PackageInfo], additionalPkgInfos: seq[PackageInfo], noaur: bool): int = let directPacmanTargets = pacmanTargets.map(`$`) let (resolveSuccess, _, additionalPacmanTargets, basePackages, _) = resolveDependencies(config, pkgInfos, additionalPkgInfos, true, false, nodepsCount, args.assumeInstalled, noaur) let code = if directPacmanTargets.len > 0 or additionalPacmanTargets.len > 0 or upgradeCount > 0: (block: let callPacmanTargets = if resolveSuccess: directPacmanTargets & additionalPacmanTargets else: directPacmanTargets # workaround for a strange nim bug, callPacmanTargets.map(...) breaks main.nim var callArguments = newSeq[Argument]() for t in callPacmanTargets: callArguments &= (t, none(string), ArgumentType.target) let code = pacmanRun(false, config.color, args.filter(arg => not arg.isTarget) & callArguments) if resolveSuccess: code else: 1) else: 0 if code == 0: proc printWithFormat(pkgInfo: PackageInfo) = echo(printFormat .replace("%n", pkgInfo.name) .replace("%v", pkgInfo.version) .replace("%r", "aur") .replace("%s", "0") .replace("%l", pkgInfo.gitUrl)) for installGroup in basePackages: for pkgInfos in installGroup: for pkgInfo in pkgInfos: printWithFormat(pkgInfo) 0 else: code proc printAllWarnings(config: Config, installed: seq[Installed], installedTable: Table[string, Installed], rpcInfos: seq[RpcPackageInfo], pkgInfos: seq[PackageInfo], acceptedPkgInfos: seq[PackageInfo], upToDateNeeded: seq[Installed], buildUpToDateNeeded: seq[(string, string)], foreignUpgrade: HashSet[string], localIsNewerSeq: seq[LocalIsNewer], targetNamesSet: HashSet[string], upgradeCount: int, noaur: bool) = let acceptedSet = acceptedPkgInfos.map(i => i.name).toSet if upgradeCount > 0 and not noaur and config.printAurNotFound: let rpcInfoTable = rpcInfos.map(i => (i.name, i)).toTable for inst in installed: if inst.name in foreignUpgrade and not config.ignored(inst.name, inst.groups) and not rpcInfoTable.hasKey(inst.name): printWarning(config.color, tr"$# was not found in AUR" % [inst.name]) if upgradeCount == 1: for localIsNewer in localIsNewerSeq: printWarning(config.color, tra("%s: local (%s) is newer than %s (%s)\n") % [localIsNewer.name, localIsNewer.version, "aur", localIsNewer.aurVersion]) for inst in upToDateNeeded: printWarning(config.color, tra("%s-%s is up to date -- skipping\n") % [inst.name, inst.version]) for pair in buildUpToDateNeeded: let (name, version) = pair printWarning(config.color, tra("%s-%s is up to date -- skipping\n") % [name, version]) for pkgInfo in pkgInfos: if not (pkgInfo.name in acceptedSet): if not (pkgInfo.name in targetNamesSet) and upgradeCount > 0 and installedTable.hasKey(pkgInfo.name): let installedVersion = installedTable[pkgInfo.name].version let newVersion = pkgInfo.version if vercmp(newVersion, installedVersion) < 0: printWarning(config.color, tra("%s: ignoring package downgrade (%s => %s)\n") % [pkgInfo.name, installedVersion, newVersion]) else: printWarning(config.color, tra("%s: ignoring package upgrade (%s => %s)\n") % [pkgInfo.name, installedVersion, newVersion]) else: printWarning(config.color, trp("skipping target: %s\n") % [pkgInfo.name]) elif pkgInfo.repo == "aur": if pkgInfo.maintainer.isNone: printWarning(config.color, tr"$# is orphaned" % [pkgInfo.name]) if installedTable.hasKey(pkgInfo.name): let installedVersion = installedTable[pkgInfo.name].version let newVersion = pkgInfo.version if vercmp(newVersion, installedVersion) < 0: printWarning(config.color, tra("%s: downgrading from version %s to version %s\n") % [pkgInfo.name, installedVersion, newVersion]) proc filterIgnoresAndConflicts(config: Config, pkgInfos: seq[PackageInfo], targetNamesSet: HashSet[string], installed: Table[string, Installed], printMode: bool, noconfirm: bool): (seq[PackageInfo], seq[PackageInfo]) = let acceptedPkgInfos = pkgInfos.filter(pkgInfo => (block: let instGroups = lc[x | (i <- installed.opt(pkgInfo.name), x <- i.groups), string] if config.ignored(pkgInfo.name, (instGroups & pkgInfo.groups).deduplicate): if pkgInfo.name in targetNamesSet: if not printMode: let input = printColonUserChoice(config.color, trp"%s is in IgnorePkg/IgnoreGroup. Install anyway?" % [pkgInfo.name], ['y', 'n'], 'y', 'n', noconfirm, 'y') input != 'n' else: true else: false else: true)) let nonConflicingPkgInfos = acceptedPkgInfos.foldl(block: let conflictsWith = lc[p | (p <- a, p.name != b.name and (lc[0 | (c <- b.conflicts, c.isProvidedBy(p.toPackageReference, true)), int].len > 0 or lc[0 | (c <- p.conflicts, c.isProvidedBy(b.toPackageReference, true)), int].len > 0)), PackageInfo] if not printMode and conflictsWith.len > 0: for conflict in conflictsWith: printWarning(config.color, tra("removing '%s' from target list because it conflicts with '%s'\n") % [b.name, conflict.name]) a else: a & b, newSeq[PackageInfo]()) (nonConflicingPkgInfos, acceptedPkgInfos) proc checkNeeded(installed: Table[string, Installed], name: string, version: string, downgrade: bool): tuple[needed: bool, vercmp: int] = if installed.hasKey(name): let i = installed[name] let vercmp = vercmp(version, i.version) let needed = if downgrade: vercmp != 0 else: vercmp > 0 (needed, vercmp.int) else: (true, 0) proc obtainAurPackageInfos(config: Config, rpcInfos: seq[RpcPackageInfo], rpcAurTargets: seq[FullPackageTarget[RpcPackageInfo]], installed: Table[string, Installed], printMode: bool, needed: bool, upgradeCount: int): (seq[PackageInfo], seq[PackageInfo], seq[string], seq[Installed], seq[LocalIsNewer], seq[string]) = let targetRpcInfoPairs: seq[tuple[rpcInfo: RpcPackageInfo, upgradeable: bool]] = rpcAurTargets.map(t => t.pkgInfo.get).map(i => (i, installed .checkNeeded(i.name, i.version, true).needed)) let upToDateNeeded: seq[Installed] = if needed: targetRpcInfoPairs.map(pair => (block: if not pair.upgradeable: some(installed[pair.rpcInfo.name]) else: none(Installed))) .filter(i => i.isSome) .map(i => i.unsafeGet) else: @[] let installedUpgradeRpcInfos = rpcInfos.filter(i => upgradeCount > 0 and (block: let reference = i.toPackageReference rpcAurTargets.filter(t => t.reference.isProvidedBy(reference, true)).len == 0)) let upgradeStructs: seq[tuple[rpcInfo: RpcPackageInfo, needed: bool, localIsNewer: Option[LocalIsNewer]]] = installedUpgradeRpcInfos .map(i => (block: let res = installed.checkNeeded(i.name, i.version, upgradeCount >= 2) let gitPackage = i.name.len > 4 and i.name[i.name.len - 4 .. i.name.len - 1] == "-git" let (newNeeded, localIsNewer) = if gitPackage: # Don't warn about newer local git packages and don't downgrade them (installed.checkNeeded(i.name, i.version, false).needed, none(LocalIsNewer)) elif not res.needed and res.vercmp < 0: (res.needed, some((i.name, installed[i.name].version, i.version))) else: (res.needed, none(LocalIsNewer)) (i, newNeeded, localIsNewer))) let targetRpcInfos = targetRpcInfoPairs .filter(i => not needed or i.upgradeable).map(i => i.rpcInfo) let upgradeRpcInfos = upgradeStructs.filter(p => p.needed).map(p => p.rpcInfo) let fullRpcInfos = targetRpcInfos & upgradeRpcInfos let (update, terminate) = createCloneProgress(config, fullRpcInfos.len, true, printMode) let (pkgInfos, additionalPkgInfos, paths, errors) = if printMode: (block: let (pkgInfos, additionalPkgInfos, aerrors) = getAurPackageInfos(fullRpcInfos.map(i => i.name), config.arch) (pkgInfos, additionalPkgInfos, newSeq[string](), aerrors.deduplicate)) else: (block: let (rpcInfos, aerrors) = getRpcPackageInfos(fullRpcInfos.map(i => i.name)) let (pkgInfos, additionalPkgInfos, paths, cerrors) = cloneAurReposWithPackageInfos(config, rpcInfos, not printMode, update, true) (pkgInfos, additionalPkgInfos, paths, (toSeq(aerrors.items) & cerrors).deduplicate)) terminate() let localIsNewerSeq = upgradeStructs .filter(p => p.localIsNewer.isSome) .map(p => p.localIsNewer.unsafeGet) (pkgInfos, additionalPkgInfos, paths, upToDateNeeded, localIsNewerSeq, errors) proc obtainPacmanBuildTargets(config: Config, pacmanTargets: seq[FullPackageTarget[PackageInfo]], installedTable: Table[string, Installed], printMode: bool, needed: bool, build: bool): (bool, seq[PackageInfo], seq[(string, string)], seq[string], seq[string]) = let (neededPacmanBuildTargets, buildUpToDateNeeded) = if not printMode and build and needed: (block: let neededPairs: seq[tuple[target: FullPackageTarget[PackageInfo], skipVersion: Option[string]]] = pacmanTargets.map(target => (block: let version = target.foundInfos[0].pkg.get.version if installedTable.checkNeeded(target.reference.name, version, true).needed: (target, none(string)) else: (target, some(version)))) let neededPacmanBuildTargets = neededPairs .filter(p => p.skipVersion.isNone) .map(p => p.target) let buildUpToDateNeeded = neededPairs .filter(p => p.skipVersion.isSome) .map(p => (p.target.reference.name, p.skipVersion.unsafeGet)) (neededPacmanBuildTargets, buildUpToDateNeeded)) else: (pacmanTargets, @[]) let checkPacmanBuildPkgInfos = not printMode and build and neededPacmanBuildTargets.len > 0 let (buildPkgInfos, buildPaths, obtainErrorMessages) = if checkPacmanBuildPkgInfos: (block: echo(tr"checking official repositories...") let (update, terminate) = createCloneProgress(config, pacmanTargets.len, false, printMode) let res = obtainBuildPkgInfos[PackageInfo](config, pacmanTargets, update, true) terminate() res) else: (@[], @[], @[]) (checkPacmanBuildPkgInfos, buildPkgInfos, buildUpToDateNeeded, buildPaths, obtainErrorMessages) proc findSyncTargetsWithInstalled(config: Config, targets: seq[PackageTarget], upgradeCount: int, noaur: bool, build: bool): (seq[SyncPackageTarget], seq[string], seq[Installed], HashSet[string]) = withAlpm(config.root, config.db, config.dbs, config.arch, handle, dbs, errors): for e in errors: printError(config.color, e) let (syncTargets, checkAurNames) = findSyncTargets(handle, dbs, targets, not build, not build) let installed = lc[($p.name, $p.version, p.groupsSeq, p.reason == AlpmReason.explicit) | (p <- handle.local.packages), Installed] proc checkForeignAndIrreplaceable(name: string): bool = if dbs.filter(d => d[name] != nil).len > 0: return false else: for db in dbs: for pkg in db.packages: for replaces in pkg.replaces: if replaces.name == name: return false return true let foreignUpgrade = installed .map(i => i.name) .filter(checkForeignAndIrreplaceable) .toSet let checkAurNamesFull = if noaur: @[] elif upgradeCount > 0: installed .filter(i => i.name in foreignUpgrade and (config.checkIgnored or not config.ignored(i.name, i.groups))) .map(i => i.name) & checkAurNames else: checkAurNames (syncTargets, checkAurNamesFull, installed, foreignUpgrade) proc resolveBuildTargets(config: Config, targets: seq[PackageTarget], printMode: bool, upgradeCount: int, noconfirm: bool, needed: bool, noaur: bool, build: bool): (int, seq[Installed], HashSet[string], HashSet[string], seq[FullPackageTarget[PackageInfo]], seq[PackageInfo], seq[PackageInfo], seq[string]) = template errorResult: untyped = (1, newSeq[Installed](), initSet[string](), initSet[string](), newSeq[FullPackageTarget[PackageInfo]](), newSeq[PackageInfo](), newSeq[PackageInfo](), newSeq[string]()) let (syncTargets, checkAurNames, installed, foreignUpgrade) = findSyncTargetsWithInstalled(config, targets, upgradeCount, noaur, build) if not printMode and (checkAurNames.len > 0 or build): printColon(config.color, tr"Resolving build targets...") if checkAurNames.len > 0: echo(tr"checking AUR database...") let (rpcInfos, rerrors) = getRpcPackageInfos(checkAurNames) for e in rerrors: printError(config.color, e) let rpcNotFoundTargets = filterNotFoundSyncTargets(syncTargets, rpcInfos, initTable[string, PackageReference]()) if rpcNotFoundTargets.len > 0: printSyncNotFound(config, rpcNotFoundTargets) errorResult else: let installedTable = installed.map(i => (i.name, i)).toTable let rpcAurTargets = mapAurTargets(syncTargets, rpcInfos).filter(isAurTargetFull) let (aurPkgInfos, additionalPkgInfos, aurPaths, upToDateNeeded, localIsNewerSeq, aperrors) = obtainAurPackageInfos(config, rpcInfos, rpcAurTargets, installedTable, printMode, needed, upgradeCount) for e in aperrors: printError(config.color, e) let upToDateNeededTable = upToDateNeeded.map(i => (i.name, (i.name, none(string), some((ConstraintOperation.eq, i.version))))).toTable let notFoundTargets = filterNotFoundSyncTargets(syncTargets, aurPkgInfos, upToDateNeededTable) if notFoundTargets.len > 0: clearPaths(aurPaths) printSyncNotFound(config, notFoundTargets) errorResult else: let fullTargets = mapAurTargets(syncTargets .filter(t => not (upToDateNeededTable.opt(t.reference.name) .map(r => t.reference.isProvidedBy(r, true)).get(false))), aurPkgInfos) let pacmanTargets = fullTargets.filter(t => not isAurTargetFull(t)) let aurTargets = fullTargets.filter(isAurTargetFull) let (checkPacmanBuildPkgInfos, buildPkgInfos, buildUpToDateNeeded, buildPaths, obtainBuildErrorMessages) = obtainPacmanBuildTargets(config, pacmanTargets, installedTable, printMode, needed, build) if checkPacmanBuildPkgInfos and buildPkgInfos.len < pacmanTargets.len: # "--build" conflicts with "--sysupgrade", so it's ok to fail here clearPaths(buildPaths) clearPaths(aurPaths) for e in obtainBuildErrorMessages: printError(config.color, e) errorResult else: let pkgInfos = (buildPkgInfos & aurPkgInfos) .deduplicatePkgInfos(config, not printMode) let targetNamesSet = (pacmanTargets & aurTargets).map(t => t.reference.name).toSet let (finalPkgInfos, acceptedPkgInfos) = filterIgnoresAndConflicts(config, pkgInfos, targetNamesSet, installedTable, printMode, noconfirm) if not printMode: printAllWarnings(config, installed, installedTable, rpcInfos, pkgInfos, acceptedPkgInfos, upToDateNeeded, buildUpToDateNeeded, foreignUpgrade, localIsNewerSeq, targetNamesSet, upgradeCount, noaur) (0, installed, foreignUpgrade, targetNamesSet, pacmanTargets, finalPkgInfos, additionalPkgInfos, buildPaths & aurPaths) proc handleSyncInstall*(args: seq[Argument], config: Config): int = let (_, callArgs) = checkAndRefresh(config.color, args) let upgradeCount = args.count(%%%"sysupgrade") let nodepsCount = args.count(%%%"nodeps") let needed = args.check(%%%"needed") let noaur = args.check(%%%"noaur") let build = args.check(%%%"build") let printModeArg = args.check(%%%"print") let printModeFormat = args.filter(arg => arg.matchOption(%%%"print-format")).optLast let printFormat = if printModeArg or printModeFormat.isSome: some(printModeFormat.map(arg => arg.value.get).get("%l")) else: none(string) let noconfirm = args .filter(arg => arg.matchOption(%%%"confirm") or arg.matchOption(%%%"noconfirm")).optLast .map(arg => arg.key == "noconfirm").get(false) let targets = args.packageTargets(false) withAur(): let (code, installed, foreignUpgrade, targetNamesSet, pacmanTargets, pkgInfos, additionalPkgInfos, paths) = resolveBuildTargets(config, targets, printFormat.isSome, upgradeCount, noconfirm, needed, noaur, build) let pacmanArgs = callArgs.filterExtensions(true, true, commonOptions, transactionOptions, upgradeOptions, syncOptions) if code != 0: code elif printFormat.isSome: handlePrint(pacmanArgs, config, printFormat.unsafeGet, upgradeCount, nodepsCount, pacmanTargets, pkgInfos, additionalPkgInfos, noaur) else: let foreignInstalled = installed.filter(i => i.name in foreignUpgrade) let foreignExplicitsNamesSet = foreignInstalled .filter(i => i.explicit).map(i => i.name).toSet let foreignDepsNamesSet = foreignInstalled .filter(i => not i.explicit).map(i => i.name).toSet let keepNames = foreignExplicitsNamesSet + foreignDepsNamesSet + targetNamesSet let explicits = if args.check(%%%"asexplicit"): targetNamesSet + foreignExplicitsNamesSet + foreignDepsNamesSet elif args.check(%%%"asdeps"): initSet[string]() else: foreignExplicitsNamesSet + (targetNamesSet - foreignDepsNamesSet) handleInstall(pacmanArgs, config, upgradeCount, nodepsCount, noconfirm, explicits, installed, pacmanTargets, pkgInfos, additionalPkgInfos, keepNames, paths, build, noaur)