/* Copyright The Helm Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package chartutil import ( "log" "strings" "github.com/mitchellh/copystructure" "helm.sh/helm/v3/pkg/chart" ) // ProcessDependencies checks through this chart's dependencies, processing accordingly. // // TODO: For Helm v4 this can be combined with or turned into ProcessDependenciesWithMerge func ProcessDependencies(c *chart.Chart, v Values) error { if err := processDependencyEnabled(c, v, ""); err != nil { return err } return processDependencyImportValues(c, false) } // ProcessDependenciesWithMerge checks through this chart's dependencies, processing accordingly. // It is similar to ProcessDependencies but it does not remove nil values during // the import/export handling process. func ProcessDependenciesWithMerge(c *chart.Chart, v Values) error { if err := processDependencyEnabled(c, v, ""); err != nil { return err } return processDependencyImportValues(c, true) } // processDependencyConditions disables charts based on condition path value in values func processDependencyConditions(reqs []*chart.Dependency, cvals Values, cpath string) { if reqs == nil { return } for _, r := range reqs { for _, c := range strings.Split(strings.TrimSpace(r.Condition), ",") { if len(c) > 0 { // retrieve value vv, err := cvals.PathValue(cpath + c) if err == nil { // if not bool, warn if bv, ok := vv.(bool); ok { r.Enabled = bv break } log.Printf("Warning: Condition path '%s' for chart %s returned non-bool value", c, r.Name) } else if _, ok := err.(ErrNoValue); !ok { // this is a real error log.Printf("Warning: PathValue returned error %v", err) } } } } } // processDependencyTags disables charts based on tags in values func processDependencyTags(reqs []*chart.Dependency, cvals Values) { if reqs == nil { return } vt, err := cvals.Table("tags") if err != nil { return } for _, r := range reqs { var hasTrue, hasFalse bool for _, k := range r.Tags { if b, ok := vt[k]; ok { // if not bool, warn if bv, ok := b.(bool); ok { if bv { hasTrue = true } else { hasFalse = true } } else { log.Printf("Warning: Tag '%s' for chart %s returned non-bool value", k, r.Name) } } } if !hasTrue && hasFalse { r.Enabled = false } else if hasTrue || !hasTrue && !hasFalse { r.Enabled = true } } } func getAliasDependency(charts []*chart.Chart, dep *chart.Dependency) *chart.Chart { for _, c := range charts { if c == nil { continue } if c.Name() != dep.Name { continue } if !IsCompatibleRange(dep.Version, c.Metadata.Version) { continue } out := *c md := *c.Metadata out.Metadata = &md if dep.Alias != "" { md.Name = dep.Alias } return &out } return nil } // processDependencyEnabled removes disabled charts from dependencies func processDependencyEnabled(c *chart.Chart, v map[string]interface{}, path string) error { if c.Metadata.Dependencies == nil { return nil } var chartDependencies []*chart.Chart // If any dependency is not a part of Chart.yaml // then this should be added to chartDependencies. // However, if the dependency is already specified in Chart.yaml // we should not add it, as it would be processed from Chart.yaml anyway. Loop: for _, existing := range c.Dependencies() { for _, req := range c.Metadata.Dependencies { if existing.Name() == req.Name && IsCompatibleRange(req.Version, existing.Metadata.Version) { continue Loop } } chartDependencies = append(chartDependencies, existing) } for _, req := range c.Metadata.Dependencies { if req == nil { continue } if chartDependency := getAliasDependency(c.Dependencies(), req); chartDependency != nil { chartDependencies = append(chartDependencies, chartDependency) } if req.Alias != "" { req.Name = req.Alias } } c.SetDependencies(chartDependencies...) // set all to true for _, lr := range c.Metadata.Dependencies { lr.Enabled = true } cvals, err := CoalesceValues(c, v) if err != nil { return err } // flag dependencies as enabled/disabled processDependencyTags(c.Metadata.Dependencies, cvals) processDependencyConditions(c.Metadata.Dependencies, cvals, path) // make a map of charts to remove rm := map[string]struct{}{} for _, r := range c.Metadata.Dependencies { if !r.Enabled { // remove disabled chart rm[r.Name] = struct{}{} } } // don't keep disabled charts in new slice cd := []*chart.Chart{} copy(cd, c.Dependencies()[:0]) for _, n := range c.Dependencies() { if _, ok := rm[n.Metadata.Name]; !ok { cd = append(cd, n) } } // don't keep disabled charts in metadata cdMetadata := []*chart.Dependency{} copy(cdMetadata, c.Metadata.Dependencies[:0]) for _, n := range c.Metadata.Dependencies { if _, ok := rm[n.Name]; !ok { cdMetadata = append(cdMetadata, n) } } // recursively call self to process sub dependencies for _, t := range cd { subpath := path + t.Metadata.Name + "." if err := processDependencyEnabled(t, cvals, subpath); err != nil { return err } } // set the correct dependencies in metadata c.Metadata.Dependencies = nil c.Metadata.Dependencies = append(c.Metadata.Dependencies, cdMetadata...) c.SetDependencies(cd...) return nil } // pathToMap creates a nested map given a YAML path in dot notation. func pathToMap(path string, data map[string]interface{}) map[string]interface{} { if path == "." { return data } return set(parsePath(path), data) } func set(path []string, data map[string]interface{}) map[string]interface{} { if len(path) == 0 { return nil } cur := data for i := len(path) - 1; i >= 0; i-- { cur = map[string]interface{}{path[i]: cur} } return cur } // processImportValues merges values from child to parent based on the chart's dependencies' ImportValues field. func processImportValues(c *chart.Chart, merge bool) error { if c.Metadata.Dependencies == nil { return nil } // combine chart values and empty config to get Values var cvals Values var err error if merge { cvals, err = MergeValues(c, nil) } else { cvals, err = CoalesceValues(c, nil) } if err != nil { return err } b := make(map[string]interface{}) // import values from each dependency if specified in import-values for _, r := range c.Metadata.Dependencies { var outiv []interface{} for _, riv := range r.ImportValues { switch iv := riv.(type) { case map[string]interface{}: child := iv["child"].(string) parent := iv["parent"].(string) outiv = append(outiv, map[string]string{ "child": child, "parent": parent, }) // get child table vv, err := cvals.Table(r.Name + "." + child) if err != nil { log.Printf("Warning: ImportValues missing table from chart %s: %v", r.Name, err) continue } // create value map from child to be merged into parent if merge { b = MergeTables(b, pathToMap(parent, vv.AsMap())) } else { b = CoalesceTables(b, pathToMap(parent, vv.AsMap())) } case string: child := "exports." + iv outiv = append(outiv, map[string]string{ "child": child, "parent": ".", }) vm, err := cvals.Table(r.Name + "." + child) if err != nil { log.Printf("Warning: ImportValues missing table: %v", err) continue } if merge { b = MergeTables(b, vm.AsMap()) } else { b = CoalesceTables(b, vm.AsMap()) } } } r.ImportValues = outiv } // Imported values from a child to a parent chart have a lower priority than // the parents values. This enables parent charts to import a large section // from a child and then override select parts. This is why b is merged into // cvals in the code below and not the other way around. if merge { // deep copying the cvals as there are cases where pointers can end // up in the cvals when they are copied onto b in ways that break things. cvals = deepCopyMap(cvals) c.Values = MergeTables(cvals, b) } else { // Trimming the nil values from cvals is needed for backwards compatibility. // Previously, the b value had been populated with cvals along with some // overrides. This caused the coalescing functionality to remove the // nil/null values. This trimming is for backwards compat. cvals = trimNilValues(cvals) c.Values = CoalesceTables(cvals, b) } return nil } func deepCopyMap(vals map[string]interface{}) map[string]interface{} { valsCopy, err := copystructure.Copy(vals) if err != nil { return vals } return valsCopy.(map[string]interface{}) } func trimNilValues(vals map[string]interface{}) map[string]interface{} { valsCopy, err := copystructure.Copy(vals) if err != nil { return vals } valsCopyMap := valsCopy.(map[string]interface{}) for key, val := range valsCopyMap { if val == nil { // Iterate over the values and remove nil keys delete(valsCopyMap, key) } else if istable(val) { // Recursively call into ourselves to remove keys from inner tables valsCopyMap[key] = trimNilValues(val.(map[string]interface{})) } } return valsCopyMap } // processDependencyImportValues imports specified chart values from child to parent. func processDependencyImportValues(c *chart.Chart, merge bool) error { for _, d := range c.Dependencies() { // recurse if err := processDependencyImportValues(d, merge); err != nil { return err } } return processImportValues(c, merge) }