yay/dependencies.go
2018-03-13 21:38:10 +00:00

437 lines
10 KiB
Go

package main
import (
"strings"
alpm "github.com/jguer/go-alpm"
rpc "github.com/mikkeloscar/aur"
)
type depTree struct {
ToProcess stringSet
Repo map[string]*alpm.Package
Aur map[string]*rpc.Pkg
Missing stringSet
}
type depCatagories struct {
Repo []*alpm.Package
Aur []*rpc.Pkg
MakeOnly stringSet
Bases map[string][]*rpc.Pkg
}
func makeDepTree() *depTree {
dt := depTree{
make(stringSet),
make(map[string]*alpm.Package),
make(map[string]*rpc.Pkg),
make(stringSet),
}
return &dt
}
func makeDependCatagories() *depCatagories {
dc := depCatagories{
make([]*alpm.Package, 0),
make([]*rpc.Pkg, 0),
make(stringSet),
make(map[string][]*rpc.Pkg),
}
return &dc
}
// Cut the version requirement from a dependency leaving just the name.
func getNameFromDep(dep string) string {
return strings.FieldsFunc(dep, func(c rune) bool {
return c == '>' || c == '<' || c == '='
})[0]
}
//split apart db/package to db and package
func splitDbFromName(pkg string) (string, string) {
split := strings.SplitN(pkg, "/", 2)
if len(split) == 2 {
return split[0], split[1]
} else {
return "", split[0]
}
}
// Step two of dependency resolving. We already have all the information on the
// packages we need, now it's just about ordering them correctly.
// pkgs is a list of targets, the packages we want to install. Dependencies are
// not included.
// For each package we want we iterate down the tree until we hit the bottom.
// This is done recursively for each branch.
// The start of the tree is defined as the package we want.
// When we hit the bottom of the branch we know thats the first package
// we need to install so we add it to the start of the to install
// list (dc.Aur and dc.Repo).
// We work our way up until there is another branch to go down and do it all
// again.
//
// Here is a visual example:
//
// a
// / \
// b c
// / \
// d e
//
// We see a and it needs b and c
// We see b and it needs d and e
// We see d - it needs nothing so we add d to our list and move up
// We see e - it needs nothing so we add e to our list and move up
// We see c - it needs nothing so we add c to our list and move up
//
// The final install order would come out as debca
//
// There is a little more to this, handling provides, multiple packages wanting the
// same dependencies, etc. This is just the basic premise.
func getDepCatagories(pkgs []string, dt *depTree) (*depCatagories, error) {
dc := makeDependCatagories()
seen := make(stringSet)
for _, pkg := range dt.Aur {
_, ok := dc.Bases[pkg.PackageBase]
if !ok {
dc.Bases[pkg.PackageBase] = make([]*rpc.Pkg, 0)
}
dc.Bases[pkg.PackageBase] = append(dc.Bases[pkg.PackageBase], pkg)
}
for _, pkg := range pkgs {
_, name := splitDbFromName(pkg)
dep := getNameFromDep(name)
alpmpkg, exists := dt.Repo[dep]
if exists {
repoDepCatagoriesRecursive(alpmpkg, dc, dt, false)
dc.Repo = append(dc.Repo, alpmpkg)
delete(dt.Repo, dep)
}
aurpkg, exists := dt.Aur[dep]
if exists {
depCatagoriesRecursive(aurpkg, dc, dt, false, seen)
if !seen.get(aurpkg.PackageBase) {
dc.Aur = append(dc.Aur, aurpkg)
seen.set(aurpkg.PackageBase)
}
delete(dt.Aur, dep)
}
}
for _, base := range dc.Bases {
for _, pkg := range base {
for _, dep := range pkg.Depends {
dc.MakeOnly.remove(dep)
}
}
}
for _, pkg := range dc.Repo {
pkg.Depends().ForEach(func(_dep alpm.Depend) error {
dep := _dep.Name
dc.MakeOnly.remove(dep)
return nil
})
}
for _, pkg := range pkgs {
dc.MakeOnly.remove(pkg)
}
dupes := make(map[*alpm.Package]struct{})
filteredRepo := make([]*alpm.Package, 0)
for _, pkg := range dc.Repo {
_, ok := dupes[pkg]
if ok {
continue
}
dupes[pkg] = struct{}{}
filteredRepo = append(filteredRepo, pkg)
}
dc.Repo = filteredRepo
return dc, nil
}
func repoDepCatagoriesRecursive(pkg *alpm.Package, dc *depCatagories, dt *depTree, isMake bool) {
pkg.Depends().ForEach(func(_dep alpm.Depend) error {
dep := _dep.Name
alpmpkg, exists := dt.Repo[dep]
if exists {
delete(dt.Repo, dep)
repoDepCatagoriesRecursive(alpmpkg, dc, dt, isMake)
if isMake {
dc.MakeOnly.set(alpmpkg.Name())
}
dc.Repo = append(dc.Repo, alpmpkg)
}
return nil
})
}
func depCatagoriesRecursive(_pkg *rpc.Pkg, dc *depCatagories, dt *depTree, isMake bool, seen stringSet) {
for _, pkg := range dc.Bases[_pkg.PackageBase] {
for _, deps := range [3][]string{pkg.Depends, pkg.MakeDepends, pkg.CheckDepends} {
for _, _dep := range deps {
dep := getNameFromDep(_dep)
aurpkg, exists := dt.Aur[dep]
if exists {
delete(dt.Aur, dep)
depCatagoriesRecursive(aurpkg, dc, dt, isMake, seen)
if !seen.get(aurpkg.PackageBase) {
dc.Aur = append(dc.Aur, aurpkg)
seen.set(aurpkg.PackageBase)
}
if isMake {
dc.MakeOnly.set(aurpkg.Name)
}
}
alpmpkg, exists := dt.Repo[dep]
if exists {
delete(dt.Repo, dep)
repoDepCatagoriesRecursive(alpmpkg, dc, dt, isMake)
if isMake {
dc.MakeOnly.set(alpmpkg.Name())
}
dc.Repo = append(dc.Repo, alpmpkg)
}
}
isMake = true
}
}
}
// This is step one for dependency resolving. pkgs is a slice of the packages you
// want to resolve the dependencies for. They can be a mix of aur and repo
// dependencies. All unmet dependencies will be resolved.
//
// For Aur dependencies depends, makedepends and checkdepends are resolved but
// for repo packages only depends are resolved as they are prebuilt.
// The return will be split into three catagories: Repo, Aur and Missing.
// The return is in no way ordered. This step is is just aimed at gathering the
// packages we need.
//
// This has been designed to make the least amount of rpc requests as possible.
// Web requests are probably going to be the bottleneck here so minimizing them
// provides a nice speed boost.
//
// Here is a visual expample of the request system.
// Remember only unsatisfied packages are requested, if a package is already
// installed we dont bother.
//
// a
// / \
// b c
// / \
// d e
//
// We see a so we send a request for a
// We see a wants b and c so we send a request for b and c
// We see d and e so we send a request for d and e
//
// Thats 5 packages in 3 requests. The amount of requests needed should always be
// the same as the height of the tree.
// The example does not really do this justice, In the real world where packages
// have 10+ dependencies each this is a very nice optimization.
func getDepTree(pkgs []string) (*depTree, error) {
dt := makeDepTree()
localDb, err := alpmHandle.LocalDb()
if err != nil {
return dt, err
}
syncDb, err := alpmHandle.SyncDbs()
if err != nil {
return dt, err
}
for _, pkg := range pkgs {
// If they explicitly asked for it still look for installed pkgs
/*installedPkg, isInstalled := localDb.PkgCache().FindSatisfier(pkg)
if isInstalled == nil {
dt.Repo[installedPkg.Name()] = installedPkg
continue
}//*/
db, name := splitDbFromName(pkg)
if db == "aur" {
dt.ToProcess.set(name)
continue
}
// Check the repos for a matching dep
foundPkg, errdb := syncDb.FindSatisfier(name)
found := errdb == nil && (foundPkg.DB().Name() == db || db == "")
if found {
repoTreeRecursive(foundPkg, dt, localDb, syncDb)
continue
}
_, isGroup := syncDb.PkgCachebyGroup(pkg)
if isGroup == nil {
continue
}
if db == "" {
dt.ToProcess.set(name)
} else {
dt.Missing.set(pkg)
}
}
err = depTreeRecursive(dt, localDb, syncDb, false)
return dt, err
}
// Takes a repo package,
// gives all of the non installed deps,
// repeats on each sub dep.
func repoTreeRecursive(pkg *alpm.Package, dt *depTree, localDb *alpm.Db, syncDb alpm.DbList) (err error) {
_, exists := dt.Repo[pkg.Name()]
if exists {
return
}
dt.Repo[pkg.Name()] = pkg
(*pkg).Provides().ForEach(func(dep alpm.Depend) (err error) {
dt.Repo[dep.Name] = pkg
return nil
})
(*pkg).Depends().ForEach(func(dep alpm.Depend) (err error) {
_, exists := dt.Repo[dep.Name]
if exists {
return
}
_, isInstalled := localDb.PkgCache().FindSatisfier(dep.String())
if isInstalled == nil {
return
}
repoPkg, inRepos := syncDb.FindSatisfier(dep.String())
if inRepos == nil {
repoTreeRecursive(repoPkg, dt, localDb, syncDb)
return
}
dt.Missing.set(dep.String())
return
})
return
}
func depTreeRecursive(dt *depTree, localDb *alpm.Db, syncDb alpm.DbList, isMake bool) (err error) {
if len(dt.ToProcess) == 0 {
return
}
nextProcess := make(stringSet)
currentProcess := make(stringSet)
// Strip version conditions
for dep := range dt.ToProcess {
currentProcess.set(getNameFromDep(dep))
}
// Assume toprocess only contains aur stuff we have not seen
info, err := aurInfo(currentProcess.toSlice())
if err != nil {
return
}
// Cache the results
for _, pkg := range info {
// Copying to p fixes a bug.
// Would rather not copy but cant find another way to fix.
p := pkg
dt.Aur[pkg.Name] = &p
}
// Loop through to process and check if we now have
// each packaged cached.
// If not cached, we assume it is missing.
for pkgName := range currentProcess {
pkg, exists := dt.Aur[pkgName]
// Did not get it in the request.
if !exists {
dt.Missing.set(pkgName)
continue
}
// for each dep and makedep
for _, deps := range [3][]string{pkg.Depends, pkg.MakeDepends, pkg.CheckDepends} {
for _, versionedDep := range deps {
dep := getNameFromDep(versionedDep)
_, exists = dt.Aur[dep]
// We have it cached so skip.
if exists {
continue
}
_, exists = dt.Repo[dep]
// We have it cached so skip.
if exists {
continue
}
_, exists = dt.Missing[dep]
// We know it does not resolve so skip.
if exists {
continue
}
// Check if already installed.
_, isInstalled := localDb.PkgCache().FindSatisfier(versionedDep)
if isInstalled == nil {
continue
}
// Check the repos for a matching dep.
repoPkg, inRepos := syncDb.FindSatisfier(versionedDep)
if inRepos == nil {
repoTreeRecursive(repoPkg, dt, localDb, syncDb)
continue
}
// If all else fails add it to next search.
nextProcess.set(versionedDep)
}
}
}
dt.ToProcess = nextProcess
depTreeRecursive(dt, localDb, syncDb, true)
return
}