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yay/upgrade.go
morganamilo 4cdcdc30e9
Further formatting tweaks 
Ask clean builds is now asked early and remembers what you choose when
the install finishes.
Fixup "there is nothing to do" message.
2018-02-27 02:52:06 +00:00

398 lines
8.8 KiB
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package main
import (
"bufio"
"fmt"
"os"
"sort"
"strconv"
"strings"
"unicode"
alpm "github.com/jguer/go-alpm"
pkgb "github.com/mikkeloscar/gopkgbuild"
)
// upgrade type describes a system upgrade.
type upgrade struct {
Name string
Repository string
LocalVersion string
RemoteVersion string
}
// upSlice is a slice of Upgrades
type upSlice []upgrade
func (u upSlice) Len() int { return len(u) }
func (u upSlice) Swap(i, j int) { u[i], u[j] = u[j], u[i] }
func (u upSlice) Less(i, j int) bool {
iRunes := []rune(u[i].Repository)
jRunes := []rune(u[j].Repository)
max := len(iRunes)
if max > len(jRunes) {
max = len(jRunes)
}
for idx := 0; idx < max; idx++ {
ir := iRunes[idx]
jr := jRunes[idx]
lir := unicode.ToLower(ir)
ljr := unicode.ToLower(jr)
if lir != ljr {
return lir > ljr
}
// the lowercase runes are the same, so compare the original
if ir != jr {
return ir > jr
}
}
return false
}
func getVersionDiff(oldVersion, newversion string) (left, right string) {
old, errOld := pkgb.NewCompleteVersion(oldVersion)
new, errNew := pkgb.NewCompleteVersion(newversion)
if errOld != nil {
left = redFg("Invalid Version")
}
if errNew != nil {
right = redFg("Invalid Version")
}
if errOld == nil && errNew == nil {
if old.Version == new.Version {
left = string(old.Version) + "-" + redFg(string(old.Pkgrel))
right = string(new.Version) + "-" + greenFg(string(new.Pkgrel))
} else {
left = redFg(string(old.Version)) + "-" + string(old.Pkgrel)
right = boldGreenFg(string(new.Version)) + "-" + string(new.Pkgrel)
}
}
return
}
// Print prints the details of the packages to upgrade.
func (u upSlice) Print(start int) {
for k, i := range u {
left, right := getVersionDiff(i.LocalVersion, i.RemoteVersion)
f := func(name string) (output string) {
if alpmConf.Options&alpm.ConfColor == 0 {
return name
}
var hash = 5381
for i := 0; i < len(name); i++ {
hash = int(name[i]) + ((hash << 5) + (hash))
}
return fmt.Sprintf("\x1b[1;%dm%s\x1b[0m", hash%6+31, name)
}
fmt.Print(yellowFg(fmt.Sprintf("%2d ", len(u)+start-k-1)))
fmt.Print(f(i.Repository), "/", boldWhiteFg(i.Name))
w := 70 - len(i.Repository) - len(i.Name) + len(left)
fmt.Printf(fmt.Sprintf("%%%ds", w),
fmt.Sprintf("%s -> %s\n", left, right))
}
}
// upList returns lists of packages to upgrade from each source.
func upList(dt *depTree) (aurUp upSlice, repoUp upSlice, err error) {
local, remote, _, remoteNames, err := filterPackages()
if err != nil {
return
}
repoC := make(chan upSlice)
aurC := make(chan upSlice)
errC := make(chan error)
fmt.Println(boldCyanFg("::"), boldFg("Searching databases for updates..."))
go func() {
repoUpList, err := upRepo(local)
errC <- err
repoC <- repoUpList
}()
fmt.Println(boldCyanFg("::"), boldFg("Searching AUR for updates..."))
go func() {
aurUpList, err := upAUR(remote, remoteNames, dt)
errC <- err
aurC <- aurUpList
}()
var i = 0
loop:
for {
select {
case repoUp = <-repoC:
i++
case aurUp = <-aurC:
i++
case err := <-errC:
if err != nil {
fmt.Println(err)
}
default:
if i == 2 {
close(repoC)
close(aurC)
close(errC)
break loop
}
}
}
return
}
func upDevel(remote []alpm.Package, packageC chan upgrade, done chan bool) {
for _, e := range savedInfo {
if e.needsUpdate() {
found := false
var pkg alpm.Package
for _, r := range remote {
if r.Name() == e.Package {
found = true
pkg = r
}
}
if found {
if pkg.ShouldIgnore() {
fmt.Print(yellowFg("Warning: "))
fmt.Printf("%s ignoring package upgrade (%s => %s)\n", pkg.Name(), pkg.Version(), "git")
} else {
packageC <- upgrade{e.Package, "devel", pkg.Version(), "commit-" + e.SHA[0:6]}
}
} else {
removeVCSPackage([]string{e.Package})
}
}
}
done <- true
}
// upAUR gathers foreign packages and checks if they have new versions.
// Output: Upgrade type package list.
func upAUR(remote []alpm.Package, remoteNames []string, dt *depTree) (toUpgrade upSlice, err error) {
var routines int
var routineDone int
packageC := make(chan upgrade)
done := make(chan bool)
if config.Devel {
routines++
go upDevel(remote, packageC, done)
fmt.Println(boldCyanFg("::"), boldFg("Checking development packages..."))
}
routines++
go func(remote []alpm.Package, remoteNames []string, dt *depTree) {
for _, pkg := range remote {
aurPkg, ok := dt.Aur[pkg.Name()]
if !ok {
continue
}
if (config.TimeUpdate && (int64(aurPkg.LastModified) > pkg.BuildDate().Unix())) ||
(alpm.VerCmp(pkg.Version(), aurPkg.Version) < 0) {
if pkg.ShouldIgnore() {
left, right := getVersionDiff(pkg.Version(), aurPkg.Version)
fmt.Print(yellowFg("Warning: "))
fmt.Printf("%s ignoring package upgrade (%s => %s)\n", pkg.Name(), left, right)
} else {
packageC <- upgrade{aurPkg.Name, "aur", pkg.Version(), aurPkg.Version}
}
}
}
done <- true
}(remote, remoteNames, dt)
if routineDone == routines {
err = nil
return
}
for {
select {
case pkg := <-packageC:
for _, w := range toUpgrade {
if w.Name == pkg.Name {
continue
}
}
toUpgrade = append(toUpgrade, pkg)
case <-done:
routineDone++
if routineDone == routines {
err = nil
return
}
}
}
}
// upRepo gathers local packages and checks if they have new versions.
// Output: Upgrade type package list.
func upRepo(local []alpm.Package) (upSlice, error) {
dbList, err := alpmHandle.SyncDbs()
if err != nil {
return nil, err
}
slice := upSlice{}
for _, pkg := range local {
newPkg := pkg.NewVersion(dbList)
if newPkg != nil {
if pkg.ShouldIgnore() {
fmt.Print(yellowFg("Warning: "))
fmt.Printf("%s ignoring package upgrade (%s => %s)\n", pkg.Name(), pkg.Version(), newPkg.Version())
} else {
slice = append(slice, upgrade{pkg.Name(), newPkg.DB().Name(), pkg.Version(), newPkg.Version()})
}
}
}
return slice, nil
}
//Contains returns whether e is present in s
func containsInt(s []int, e int) bool {
for _, a := range s {
if a == e {
return true
}
}
return false
}
// RemoveIntListFromList removes all src's elements that are present in target
func removeIntListFromList(src, target []int) []int {
max := len(target)
for i := 0; i < max; i++ {
if containsInt(src, target[i]) {
target = append(target[:i], target[i+1:]...)
max--
i--
}
}
return target
}
// upgradePkgs handles updating the cache and installing updates.
func upgradePkgs(dt *depTree) (stringSet, stringSet, error) {
var repoNums []int
var aurNums []int
repoNames := make(stringSet)
aurNames := make(stringSet)
aurUp, repoUp, err := upList(dt)
if err != nil {
return repoNames, aurNames, err
} else if len(aurUp)+len(repoUp) == 0 {
return repoNames, aurNames, err
}
sort.Sort(repoUp)
fmt.Println(boldBlueFg("::"), len(aurUp)+len(repoUp), boldWhiteFg("Packages to upgrade."))
repoUp.Print(len(aurUp) + 1)
aurUp.Print(1)
if !config.NoConfirm {
fmt.Println(boldGreenFg(arrow) + greenFg(" Packages to not upgrade (eg: 1 2 3, 1-3 or ^4)"))
fmt.Print(boldGreenFg(arrow + " "))
reader := bufio.NewReader(os.Stdin)
numberBuf, overflow, err := reader.ReadLine()
if err != nil || overflow {
fmt.Println(err)
return repoNames, aurNames, err
}
result := strings.Fields(string(numberBuf))
excludeAur := make([]int, 0)
excludeRepo := make([]int, 0)
for _, numS := range result {
negate := numS[0] == '^'
if negate {
numS = numS[1:]
}
var numbers []int
num, err := strconv.Atoi(numS)
if err != nil {
numbers, err = BuildRange(numS)
if err != nil {
continue
}
} else {
numbers = []int{num}
}
for _, target := range numbers {
if target > len(aurUp)+len(repoUp) || target <= 0 {
continue
} else if target <= len(aurUp) {
target = len(aurUp) - target
if negate {
excludeAur = append(excludeAur, target)
} else {
aurNums = append(aurNums, target)
}
} else {
target = len(aurUp) + len(repoUp) - target
if negate {
excludeRepo = append(excludeRepo, target)
} else {
repoNums = append(repoNums, target)
}
}
}
}
if len(repoNums) == 0 && len(aurNums) == 0 &&
(len(excludeRepo) > 0 || len(excludeAur) > 0) {
if len(repoUp) > 0 {
repoNums = BuildIntRange(0, len(repoUp)-1)
}
if len(aurUp) > 0 {
aurNums = BuildIntRange(0, len(aurUp)-1)
}
}
aurNums = removeIntListFromList(excludeAur, aurNums)
repoNums = removeIntListFromList(excludeRepo, repoNums)
}
if len(repoUp) != 0 {
repoloop:
for i, k := range repoUp {
for _, j := range repoNums {
if j == i {
continue repoloop
}
}
repoNames.set(k.Name)
}
}
if len(aurUp) != 0 {
aurloop:
for i, k := range aurUp {
for _, j := range aurNums {
if j == i {
continue aurloop
}
}
aurNames.set(k.Name)
}
}
return repoNames, aurNames, err
}
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