yay/install.go
morganamilo 9c882614a3
Rework completion
Bash seperates on whitespace, so the fish completion file
actually works for bash and zsh. So remove the concept of shells
entirley and just use the singular aur_sh.cache file.

If for some reason output without the repository data is needed, the
user could always just pipe it into awk like so
`yay -Pc | awk '{print $1}'`. Or perhaps a --quiet option could be added
where yay will strip the output itself.

The completion cache now updates when installing AUR packages. This is
done as a goroutine with no wait groups. This ensures the program will
never hang if there is a problem.

The completion is stil updated during -Pc but as long as an AUR package
has been installed recently it should not need to update.

The cache will now also wait 7 days instead of 2 before refreshing.
A refresh can be forced using -Pcc.
2018-07-26 13:54:10 +01:00

1011 lines
24 KiB
Go

package main
import (
"fmt"
"os"
"os/exec"
"path/filepath"
"strconv"
"strings"
gosrc "github.com/Morganamilo/go-srcinfo"
alpm "github.com/jguer/go-alpm"
rpc "github.com/mikkeloscar/aur"
)
// Install handles package installs
func install(parser *arguments) error {
var err error
var incompatible stringSet
var do *depOrder
var aurUp upSlice
var repoUp upSlice
warnings := &aurWarnings{}
removeMake := false
srcinfosStale := make(map[string]*gosrc.Srcinfo)
if mode == ModeAny || mode == ModeRepo {
if config.CombinedUpgrade {
if parser.existsArg("y", "refresh") {
err = earlyRefresh(parser)
if err != nil {
return fmt.Errorf("Error refreshing databases")
}
}
} else if parser.existsArg("y", "refresh") || parser.existsArg("u", "sysupgrade") || len(parser.targets) > 0 {
err = earlyPacmanCall(parser)
if err != nil {
return err
}
}
}
//we may have done -Sy, our handle now has an old
//database.
err = initAlpmHandle()
if err != nil {
return err
}
_, _, localNames, remoteNames, err := filterPackages()
if err != nil {
return err
}
remoteNamesCache := sliceToStringSet(remoteNames)
localNamesCache := sliceToStringSet(localNames)
requestTargets := parser.copy().targets
//create the arguments to pass for the repo install
arguments := parser.copy()
arguments.delArg("asdeps", "asdep")
arguments.delArg("asexplicit", "asexp")
arguments.op = "S"
arguments.clearTargets()
if mode == ModeAUR {
arguments.delArg("u", "sysupgrade")
}
//if we are doing -u also request all packages needing update
if parser.existsArg("u", "sysupgrade") {
aurUp, repoUp, err = upList(warnings)
if err != nil {
return err
}
warnings.print()
ignore, aurUp, err := upgradePkgs(aurUp, repoUp)
if err != nil {
return err
}
for _, up := range repoUp {
if !ignore.get(up.Name) {
requestTargets = append(requestTargets, up.Name)
parser.addTarget(up.Name)
}
}
for up := range aurUp {
requestTargets = append(requestTargets, up)
}
value, _, exists := cmdArgs.getArg("ignore")
if len(ignore) > 0 {
ignoreStr := strings.Join(ignore.toSlice(), ",")
if exists {
ignoreStr += "," + value
}
arguments.options["ignore"] = ignoreStr
}
for pkg := range aurUp {
parser.addTarget(pkg)
}
}
targets := sliceToStringSet(parser.targets)
dp, err := getDepPool(requestTargets, warnings)
if err != nil {
return err
}
err = dp.CheckMissing()
if err != nil {
return err
}
if len(dp.Aur) == 0 {
if !config.CombinedUpgrade {
if parser.existsArg("u", "sysupgrade") {
fmt.Println(" there is nothing to do")
}
return nil
}
parser.op = "S"
parser.delArg("y", "refresh")
parser.options["ignore"] = arguments.options["ignore"]
return show(passToPacman(parser))
}
if len(dp.Aur) > 0 && 0 == os.Geteuid() {
return fmt.Errorf(bold(red(arrow)) + " Refusing to install AUR Packages as root, Aborting.")
}
conflicts, err := dp.CheckConflicts()
if err != nil {
return err
}
do = getDepOrder(dp)
if err != nil {
return err
}
for _, pkg := range do.Repo {
arguments.addTarget(pkg.DB().Name() + "/" + pkg.Name())
}
for _, pkg := range dp.Groups {
arguments.addTarget(pkg)
}
if len(do.Aur) == 0 && len(arguments.targets) == 0 && (!parser.existsArg("u", "sysupgrade") || mode == ModeAUR) {
fmt.Println(" there is nothing to do")
return nil
}
do.Print()
fmt.Println()
if do.HasMake() {
if config.RemoveMake == "yes" {
removeMake = true
} else if config.RemoveMake == "no" {
removeMake = false
} else if continueTask("Remove make dependencies after install?", false) {
removeMake = true
}
}
if config.CleanMenu {
askClean := pkgbuildNumberMenu(do.Aur, do.Bases, remoteNamesCache)
toClean, err := cleanNumberMenu(do.Aur, do.Bases, remoteNamesCache, askClean)
if err != nil {
return err
}
cleanBuilds(toClean)
}
toSkip := pkgBuildsToSkip(do.Aur, targets)
cloned, err := downloadPkgBuilds(do.Aur, do.Bases, toSkip)
if err != nil {
return err
}
var toDiff []*rpc.Pkg
var toEdit []*rpc.Pkg
if config.DiffMenu {
pkgbuildNumberMenu(do.Aur, do.Bases, remoteNamesCache)
toDiff, err = diffNumberMenu(do.Aur, do.Bases, remoteNamesCache)
if err != nil {
return err
}
if len(toDiff) > 0 {
err = showPkgBuildDiffs(toDiff, do.Bases, cloned)
if err != nil {
return err
}
}
}
if len(toDiff) > 0 {
oldValue := config.NoConfirm
config.NoConfirm = false
fmt.Println()
if !continueTask(bold(green("Proceed with install?")), true) {
return fmt.Errorf("Aborting due to user")
}
config.NoConfirm = oldValue
}
err = mergePkgBuilds(do.Aur)
if err != nil {
return err
}
//initial srcinfo parse before pkgver() bump
err = parseSRCINFOFiles(do.Aur, srcinfosStale, do.Bases)
if err != nil {
return err
}
if config.EditMenu {
pkgbuildNumberMenu(do.Aur, do.Bases, remoteNamesCache)
toEdit, err = editNumberMenu(do.Aur, do.Bases, remoteNamesCache)
if err != nil {
return err
}
if len(toEdit) > 0 {
err = editPkgBuilds(toEdit, srcinfosStale, do.Bases)
if err != nil {
return err
}
}
}
if len(toEdit) > 0 {
oldValue := config.NoConfirm
config.NoConfirm = false
fmt.Println()
if !continueTask(bold(green("Proceed with install?")), true) {
return fmt.Errorf("Aborting due to user")
}
config.NoConfirm = oldValue
}
incompatible, err = getIncompatible(do.Aur, srcinfosStale, do.Bases)
if err != nil {
return err
}
if config.PGPFetch {
err = checkPgpKeys(do.Aur, do.Bases, srcinfosStale)
if err != nil {
return err
}
}
if !config.CombinedUpgrade {
arguments.delArg("u", "sysupgrade")
}
if len(arguments.targets) > 0 || arguments.existsArg("u") {
err := show(passToPacman(arguments))
if err != nil {
return fmt.Errorf("Error installing repo packages")
}
depArguments := makeArguments()
depArguments.addArg("D", "asdeps")
expArguments := makeArguments()
expArguments.addArg("D", "asexplicit")
for _, pkg := range do.Repo {
if !dp.Explicit.get(pkg.Name()) && !localNamesCache.get(pkg.Name()) && !remoteNamesCache.get(pkg.Name()) {
depArguments.addTarget(pkg.Name())
continue
}
if parser.existsArg("asdeps", "asdep") && dp.Explicit.get(pkg.Name()) {
depArguments.addTarget(pkg.Name())
} else if parser.existsArg("asexp", "asexplicit") && dp.Explicit.get(pkg.Name()) {
expArguments.addTarget(pkg.Name())
}
}
if len(depArguments.targets) > 0 {
_, stderr, err := capture(passToPacman(depArguments))
if err != nil {
return fmt.Errorf("%s%s", stderr, err)
}
}
if len(expArguments.targets) > 0 {
_, stderr, err := capture(passToPacman(expArguments))
if err != nil {
return fmt.Errorf("%s%s", stderr, err)
}
}
}
go updateCompletion(false)
err = downloadPkgBuildsSources(do.Aur, do.Bases, incompatible)
if err != nil {
return err
}
err = buildInstallPkgBuilds(dp, do, srcinfosStale, parser, incompatible, conflicts)
if err != nil {
return err
}
if removeMake {
removeArguments := makeArguments()
removeArguments.addArg("R", "u")
for _, pkg := range do.getMake() {
removeArguments.addTarget(pkg)
}
oldValue := config.NoConfirm
config.NoConfirm = true
err = show(passToPacman(removeArguments))
config.NoConfirm = oldValue
if err != nil {
return err
}
}
if config.CleanAfter {
clean(do.Aur)
}
return nil
}
func inRepos(syncDb alpm.DbList, pkg string) bool {
target := toTarget(pkg)
if target.Db == "aur" {
return false
} else if target.Db != "" {
return true
}
_, err := syncDb.FindSatisfier(target.DepString())
if err == nil {
return true
}
_, err = syncDb.PkgCachebyGroup(target.Name)
if err == nil {
return true
}
return false
}
func earlyPacmanCall(parser *arguments) error {
arguments := parser.copy()
arguments.op = "S"
targets := parser.targets
parser.clearTargets()
arguments.clearTargets()
syncDb, err := alpmHandle.SyncDbs()
if err != nil {
return err
}
if mode == ModeRepo {
arguments.targets = targets
} else {
alpmHandle.SetQuestionCallback(func(alpm.QuestionAny) {})
//seperate aur and repo targets
for _, target := range targets {
if inRepos(syncDb, target) {
arguments.addTarget(target)
} else {
parser.addTarget(target)
}
}
}
if parser.existsArg("y", "refresh") || parser.existsArg("u", "sysupgrade") || len(arguments.targets) > 0 {
err = show(passToPacman(arguments))
if err != nil {
return fmt.Errorf("Error installing repo packages")
}
}
return nil
}
func earlyRefresh(parser *arguments) error {
arguments := parser.copy()
parser.delArg("y", "refresh")
arguments.delArg("u", "sysupgrade")
arguments.delArg("s", "search")
arguments.delArg("i", "info")
arguments.delArg("l", "list")
arguments.clearTargets()
return show(passToPacman(arguments))
}
func getIncompatible(pkgs []*rpc.Pkg, srcinfos map[string]*gosrc.Srcinfo, bases map[string][]*rpc.Pkg) (stringSet, error) {
incompatible := make(stringSet)
alpmArch, err := alpmHandle.Arch()
if err != nil {
return nil, err
}
nextpkg:
for _, pkg := range pkgs {
for _, arch := range srcinfos[pkg.PackageBase].Arch {
if arch == "any" || arch == alpmArch {
continue nextpkg
}
}
incompatible.set(pkg.PackageBase)
}
if len(incompatible) > 0 {
fmt.Println()
fmt.Print(bold(yellow(arrow)) + " The following packages are not compatible with your architecture:")
for pkg := range incompatible {
fmt.Print(" " + cyan(pkg))
}
fmt.Println()
if !continueTask("Try to build them anyway?", true) {
return nil, fmt.Errorf("Aborting due to user")
}
}
return incompatible, nil
}
func parsePackageList(dir string) (map[string]string, string, error) {
stdout, stderr, err := capture(passToMakepkg(dir, "--packagelist"))
if err != nil {
return nil, "", fmt.Errorf("%s%s", stderr, err)
}
var version string
lines := strings.Split(stdout, "\n")
pkgdests := make(map[string]string)
for _, line := range lines {
if line == "" {
continue
}
fileName := filepath.Base(line)
split := strings.Split(fileName, "-")
if len(split) < 4 {
return nil, "", fmt.Errorf("Can not find package name : %s", split)
}
// pkgname-pkgver-pkgrel-arch.pkgext
// This assumes 3 dashes after the pkgname, Will cause an error
// if the PKGEXT contains a dash. Please no one do that.
pkgname := strings.Join(split[:len(split)-3], "-")
version = strings.Join(split[len(split)-3:len(split)-2], "-")
pkgdests[pkgname] = line
}
return pkgdests, version, nil
}
func pkgbuildNumberMenu(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, installed stringSet) bool {
toPrint := ""
askClean := false
for n, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
toPrint += fmt.Sprintf(magenta("%3d")+" %-40s", len(pkgs)-n,
bold(formatPkgbase(pkg, bases)))
if installed.get(pkg.Name) {
toPrint += bold(green(" (Installed)"))
}
if _, err := os.Stat(dir); !os.IsNotExist(err) {
toPrint += bold(green(" (Build Files Exist)"))
askClean = true
}
toPrint += "\n"
}
fmt.Print(toPrint)
return askClean
}
func cleanNumberMenu(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, installed stringSet, hasClean bool) ([]*rpc.Pkg, error) {
toClean := make([]*rpc.Pkg, 0)
if !hasClean {
return toClean, nil
}
fmt.Println(bold(green(arrow + " Packages to cleanBuild?")))
fmt.Println(bold(green(arrow) + cyan(" [N]one ") + "[A]ll [Ab]ort [I]nstalled [No]tInstalled or (1 2 3, 1-3, ^4)"))
fmt.Print(bold(green(arrow + " ")))
cleanInput, err := getInput(config.AnswerClean)
if err != nil {
return nil, err
}
cInclude, cExclude, cOtherInclude, cOtherExclude := parseNumberMenu(cleanInput)
cIsInclude := len(cExclude) == 0 && len(cOtherExclude) == 0
if cOtherInclude.get("abort") || cOtherInclude.get("ab") {
return nil, fmt.Errorf("Aborting due to user")
}
if !cOtherInclude.get("n") && !cOtherInclude.get("none") {
for i, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
if _, err := os.Stat(dir); os.IsNotExist(err) {
continue
}
if !cIsInclude && cExclude.get(len(pkgs)-i) {
continue
}
if installed.get(pkg.Name) && (cOtherInclude.get("i") || cOtherInclude.get("installed")) {
toClean = append(toClean, pkg)
continue
}
if !installed.get(pkg.Name) && (cOtherInclude.get("no") || cOtherInclude.get("notinstalled")) {
toClean = append(toClean, pkg)
continue
}
if cOtherInclude.get("a") || cOtherInclude.get("all") {
toClean = append(toClean, pkg)
continue
}
if cIsInclude && (cInclude.get(len(pkgs)-i) || cOtherInclude.get(pkg.PackageBase)) {
toClean = append(toClean, pkg)
continue
}
if !cIsInclude && (!cExclude.get(len(pkgs)-i) && !cOtherExclude.get(pkg.PackageBase)) {
toClean = append(toClean, pkg)
continue
}
}
}
return toClean, nil
}
func editNumberMenu(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, installed stringSet) ([]*rpc.Pkg, error) {
return editDiffNumberMenu(pkgs, bases, installed, false)
}
func diffNumberMenu(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, installed stringSet) ([]*rpc.Pkg, error) {
return editDiffNumberMenu(pkgs, bases, installed, true)
}
func editDiffNumberMenu(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, installed stringSet, diff bool) ([]*rpc.Pkg, error) {
toEdit := make([]*rpc.Pkg, 0)
var editInput string
var err error
fmt.Println(bold(green(arrow) + cyan(" [N]one ") + "[A]ll [Ab]ort [I]nstalled [No]tInstalled or (1 2 3, 1-3, ^4)"))
if diff {
fmt.Println(bold(green(arrow + " Diffs to show?")))
fmt.Print(bold(green(arrow + " ")))
editInput, err = getInput(config.AnswerDiff)
if err != nil {
return nil, err
}
} else {
fmt.Println(bold(green(arrow + " PKGBUILDs to edit?")))
fmt.Print(bold(green(arrow + " ")))
editInput, err = getInput(config.AnswerEdit)
if err != nil {
return nil, err
}
}
eInclude, eExclude, eOtherInclude, eOtherExclude := parseNumberMenu(editInput)
eIsInclude := len(eExclude) == 0 && len(eOtherExclude) == 0
if eOtherInclude.get("abort") || eOtherInclude.get("ab") {
return nil, fmt.Errorf("Aborting due to user")
}
if !eOtherInclude.get("n") && !eOtherInclude.get("none") {
for i, pkg := range pkgs {
if !eIsInclude && eExclude.get(len(pkgs)-i) {
continue
}
if installed.get(pkg.Name) && (eOtherInclude.get("i") || eOtherInclude.get("installed")) {
toEdit = append(toEdit, pkg)
continue
}
if !installed.get(pkg.Name) && (eOtherInclude.get("no") || eOtherInclude.get("notinstalled")) {
toEdit = append(toEdit, pkg)
continue
}
if eOtherInclude.get("a") || eOtherInclude.get("all") {
toEdit = append(toEdit, pkg)
continue
}
if eIsInclude && (eInclude.get(len(pkgs)-i) || eOtherInclude.get(pkg.PackageBase)) {
toEdit = append(toEdit, pkg)
}
if !eIsInclude && (!eExclude.get(len(pkgs)-i) && !eOtherExclude.get(pkg.PackageBase)) {
toEdit = append(toEdit, pkg)
}
}
}
return toEdit, nil
}
func cleanBuilds(pkgs []*rpc.Pkg) {
for i, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
fmt.Printf(bold(cyan("::")+" Deleting (%d/%d): %s\n"), i+1, len(pkgs), cyan(dir))
os.RemoveAll(dir)
}
}
func showPkgBuildDiffs(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, cloned stringSet) error {
for _, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
if shouldUseGit(dir) {
start := "HEAD"
if cloned.get(pkg.PackageBase) {
start = gitEmptyTree
} else {
hasDiff, err := gitHasDiff(config.BuildDir, pkg.PackageBase)
if err != nil {
return err
}
if !hasDiff {
fmt.Printf("%s %s: %s\n", bold(yellow(arrow)), cyan(formatPkgbase(pkg, bases)), bold("No changes -- skipping"))
continue
}
}
args := []string{"diff", start + "..HEAD@{upstream}", "--src-prefix", dir + "/", "--dst-prefix", dir + "/"}
if useColor {
args = append(args, "--color=always")
} else {
args = append(args, "--color=never")
}
err := show(passToGit(dir, args...))
if err != nil {
return err
}
} else {
args := []string{"diff"}
if useColor {
args = append(args, "--color=always")
} else {
args = append(args, "--color=never")
}
args = append(args, "--no-index", "/var/empty", dir)
// git always returns 1. why? I have no idea
show(passToGit(dir, args...))
}
}
return nil
}
func editPkgBuilds(pkgs []*rpc.Pkg, srcinfos map[string]*gosrc.Srcinfo, bases map[string][]*rpc.Pkg) error {
pkgbuilds := make([]string, 0, len(pkgs))
for _, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
pkgbuilds = append(pkgbuilds, filepath.Join(dir, "PKGBUILD"))
for _, splitPkg := range srcinfos[pkg.PackageBase].SplitPackages() {
if splitPkg.Install != "" {
pkgbuilds = append(pkgbuilds, filepath.Join(dir, splitPkg.Install))
}
}
}
if len(pkgbuilds) > 0 {
editor, editorArgs := editor()
editorArgs = append(editorArgs, pkgbuilds...)
editcmd := exec.Command(editor, editorArgs...)
editcmd.Stdin, editcmd.Stdout, editcmd.Stderr = os.Stdin, os.Stdout, os.Stderr
err := editcmd.Run()
if err != nil {
return fmt.Errorf("Editor did not exit successfully, Aborting: %s", err)
}
}
return nil
}
func parseSRCINFOFiles(pkgs []*rpc.Pkg, srcinfos map[string]*gosrc.Srcinfo, bases map[string][]*rpc.Pkg) error {
for k, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
str := bold(cyan("::") + " Parsing SRCINFO (%d/%d): %s\n")
fmt.Printf(str, k+1, len(pkgs), cyan(formatPkgbase(pkg, bases)))
pkgbuild, err := gosrc.ParseFile(filepath.Join(dir, ".SRCINFO"))
if err != nil {
return fmt.Errorf("%s: %s", pkg.Name, err)
}
srcinfos[pkg.PackageBase] = pkgbuild
}
return nil
}
func tryParsesrcinfosFile(pkgs []*rpc.Pkg, srcinfos map[string]*gosrc.Srcinfo, bases map[string][]*rpc.Pkg) {
for k, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
str := bold(cyan("::") + " Parsing SRCINFO (%d/%d): %s\n")
fmt.Printf(str, k+1, len(pkgs), cyan(formatPkgbase(pkg, bases)))
pkgbuild, err := gosrc.ParseFile(filepath.Join(dir, ".SRCINFO"))
if err != nil {
fmt.Printf("cannot parse %s skipping: %s\n", pkg.Name, err)
continue
}
srcinfos[pkg.PackageBase] = pkgbuild
}
}
func pkgBuildsToSkip(pkgs []*rpc.Pkg, targets stringSet) stringSet {
toSkip := make(stringSet)
for _, pkg := range pkgs {
if config.ReDownload == "no" || (config.ReDownload == "yes" && !targets.get(pkg.Name)) {
dir := filepath.Join(config.BuildDir, pkg.PackageBase, ".SRCINFO")
pkgbuild, err := gosrc.ParseFile(dir)
if err == nil {
if alpm.VerCmp(pkgbuild.Version(), pkg.Version) > 0 {
toSkip.set(pkg.PackageBase)
}
}
}
}
return toSkip
}
func mergePkgBuilds(pkgs []*rpc.Pkg) error {
for _, pkg := range pkgs {
if shouldUseGit(filepath.Join(config.BuildDir, pkg.PackageBase)) {
err := gitMerge(baseURL+"/"+pkg.PackageBase+".git", config.BuildDir, pkg.PackageBase)
if err != nil {
return err
}
}
}
return nil
}
func downloadPkgBuilds(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, toSkip stringSet) (stringSet, error) {
cloned := make(stringSet)
for k, pkg := range pkgs {
if toSkip.get(pkg.PackageBase) {
str := bold(cyan("::") + " PKGBUILD up to date, Skipping (%d/%d): %s\n")
fmt.Printf(str, k+1, len(pkgs), cyan(formatPkgbase(pkg, bases)))
continue
}
str := bold(cyan("::") + " Downloading PKGBUILD (%d/%d): %s\n")
fmt.Printf(str, k+1, len(pkgs), cyan(formatPkgbase(pkg, bases)))
if shouldUseGit(filepath.Join(config.BuildDir, pkg.PackageBase)) {
clone, err := gitDownload(baseURL+"/"+pkg.PackageBase+".git", config.BuildDir, pkg.PackageBase)
if err != nil {
return nil, err
}
if clone {
cloned.set(pkg.PackageBase)
}
} else {
err := downloadAndUnpack(baseURL+pkg.URLPath, config.BuildDir)
if err != nil {
return nil, err
}
}
}
return cloned, nil
}
func downloadPkgBuildsSources(pkgs []*rpc.Pkg, bases map[string][]*rpc.Pkg, incompatible stringSet) (err error) {
for _, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
args := []string{"--verifysource", "-Ccf"}
if incompatible.get(pkg.PackageBase) {
args = append(args, "--ignorearch")
}
err = show(passToMakepkg(dir, args...))
if err != nil {
return fmt.Errorf("Error downloading sources: %s", cyan(formatPkgbase(pkg, bases)))
}
}
return
}
func buildInstallPkgBuilds(dp *depPool, do *depOrder, srcinfos map[string]*gosrc.Srcinfo, parser *arguments, incompatible stringSet, conflicts mapStringSet) error {
for _, pkg := range do.Aur {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
built := true
srcinfo := srcinfos[pkg.PackageBase]
args := []string{"--nobuild", "-fC"}
if incompatible.get(pkg.PackageBase) {
args = append(args, "--ignorearch")
}
//pkgver bump
err := show(passToMakepkg(dir, args...))
if err != nil {
return fmt.Errorf("Error making: %s", pkg.Name)
}
pkgdests, version, err := parsePackageList(dir)
if err != nil {
return err
}
if config.ReBuild == "no" || (config.ReBuild == "yes" && !dp.Explicit.get(pkg.Name)) {
for _, split := range do.Bases[pkg.PackageBase] {
pkgdest, ok := pkgdests[split.Name]
if !ok {
return fmt.Errorf("Could not find PKGDEST for: %s", split.Name)
}
_, err := os.Stat(pkgdest)
if os.IsNotExist(err) {
built = false
} else if err != nil {
return err
}
}
} else {
built = false
}
if built {
fmt.Println(bold(yellow(arrow)),
cyan(pkg.Name+"-"+version)+bold(" Already made -- skipping build"))
} else {
args := []string{"-cf", "--noconfirm", "--noextract", "--noprepare", "--holdver"}
if incompatible.get(pkg.PackageBase) {
args = append(args, "--ignorearch")
}
err := show(passToMakepkg(dir, args...))
if err != nil {
return fmt.Errorf("Error making: %s", pkg.Name)
}
}
arguments := parser.copy()
arguments.clearTargets()
arguments.op = "U"
arguments.delArg("confirm")
arguments.delArg("noconfirm")
arguments.delArg("c", "clean")
arguments.delArg("q", "quiet")
arguments.delArg("q", "quiet")
arguments.delArg("y", "refresh")
arguments.delArg("u", "sysupgrade")
arguments.delArg("w", "downloadonly")
oldConfirm := config.NoConfirm
//conflicts have been checked so answer y for them
if config.UseAsk {
ask, _ := strconv.Atoi(cmdArgs.globals["ask"])
uask := alpm.QuestionType(ask) | alpm.QuestionTypeConflictPkg
cmdArgs.globals["ask"] = fmt.Sprint(uask)
} else {
conflict := false
for _, split := range do.Bases[pkg.PackageBase] {
if _, ok := conflicts[split.Name]; ok {
conflict = true
}
}
if !conflict {
config.NoConfirm = true
}
}
depArguments := makeArguments()
depArguments.addArg("D", "asdeps")
expArguments := makeArguments()
expArguments.addArg("D", "asexplicit")
//remotenames: names of all non repo packages on the system
_, _, localNames, remoteNames, err := filterPackages()
if err != nil {
return err
}
//cache as a stringset. maybe make it return a string set in the first
//place
remoteNamesCache := sliceToStringSet(remoteNames)
localNamesCache := sliceToStringSet(localNames)
for _, split := range do.Bases[pkg.PackageBase] {
pkgdest, ok := pkgdests[split.Name]
if !ok {
return fmt.Errorf("Could not find PKGDEST for: %s", split.Name)
}
arguments.addTarget(pkgdest)
if !dp.Explicit.get(split.Name) && !localNamesCache.get(split.Name) && !remoteNamesCache.get(split.Name) {
depArguments.addTarget(split.Name)
}
if dp.Explicit.get(split.Name) {
if parser.existsArg("asdeps", "asdep") {
depArguments.addTarget(split.Name)
} else if parser.existsArg("asexplicit", "asexp") {
expArguments.addTarget(split.Name)
}
}
}
err = show(passToPacman(arguments))
if err != nil {
return err
}
for _, pkg := range do.Bases[pkg.PackageBase] {
updateVCSData(pkg.Name, srcinfo.Source)
}
err = saveVCSInfo()
if err != nil {
fmt.Println(err)
}
if len(depArguments.targets) > 0 {
_, stderr, err := capture(passToPacman(depArguments))
if err != nil {
return fmt.Errorf("%s%s", stderr, err)
}
}
config.NoConfirm = oldConfirm
}
return nil
}
func clean(pkgs []*rpc.Pkg) {
for _, pkg := range pkgs {
dir := filepath.Join(config.BuildDir, pkg.PackageBase)
fmt.Println(bold(green(arrow +
" CleanAfter enabled. Deleting " + pkg.Name + " source folder.")))
os.RemoveAll(dir)
}
}