/* * MinIO Cloud Storage, (C) 2019 MinIO, Inc. * * 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 lifecycle import ( "encoding/xml" "io" "strings" "time" ) var ( errLifecycleTooManyRules = Errorf("Lifecycle configuration allows a maximum of 1000 rules") errLifecycleNoRule = Errorf("Lifecycle configuration should have at least one rule") errLifecycleDuplicateID = Errorf("Lifecycle configuration has rule with the same ID. Rule ID must be unique.") errXMLNotWellFormed = Errorf("The XML you provided was not well-formed or did not validate against our published schema") ) // Action represents a delete action or other transition // actions that will be implemented later. type Action int //go:generate stringer -type Action $GOFILE const ( // NoneAction means no action required after evaluting lifecycle rules NoneAction Action = iota // DeleteAction means the object needs to be removed after evaluting lifecycle rules DeleteAction // DeleteVersionAction deletes a particular version DeleteVersionAction ) // Lifecycle - Configuration for bucket lifecycle. type Lifecycle struct { XMLName xml.Name `xml:"LifecycleConfiguration"` Rules []Rule `xml:"Rule"` } // HasActiveRules - returns whether policy has active rules for. // Optionally a prefix can be supplied. // If recursive is specified the function will also return true if any level below the // prefix has active rules. If no prefix is specified recursive is effectively true. func (lc Lifecycle) HasActiveRules(prefix string, recursive bool) bool { if len(lc.Rules) == 0 { return false } for _, rule := range lc.Rules { if rule.Status == Disabled { continue } if len(prefix) > 0 && len(rule.Filter.Prefix) > 0 { if !recursive { // If not recursive, incoming prefix must be in rule prefix if !strings.HasPrefix(prefix, rule.Filter.Prefix) { continue } } if recursive { // If recursive, we can skip this rule if it doesn't match the tested prefix. if !strings.HasPrefix(prefix, rule.Filter.Prefix) && !strings.HasPrefix(rule.Filter.Prefix, prefix) { continue } } } if rule.NoncurrentVersionExpiration.NoncurrentDays > 0 { return true } if rule.NoncurrentVersionTransition.NoncurrentDays > 0 { return true } if rule.Expiration.IsNull() { continue } if !rule.Expiration.IsDateNull() && rule.Expiration.Date.After(time.Now()) { continue } return true } return false } // ParseLifecycleConfig - parses data in given reader to Lifecycle. func ParseLifecycleConfig(reader io.Reader) (*Lifecycle, error) { var lc Lifecycle if err := xml.NewDecoder(reader).Decode(&lc); err != nil { return nil, err } return &lc, nil } // Validate - validates the lifecycle configuration func (lc Lifecycle) Validate() error { // Lifecycle config can't have more than 1000 rules if len(lc.Rules) > 1000 { return errLifecycleTooManyRules } // Lifecycle config should have at least one rule if len(lc.Rules) == 0 { return errLifecycleNoRule } // Validate all the rules in the lifecycle config for _, r := range lc.Rules { if err := r.Validate(); err != nil { return err } } // Make sure Rule ID is unique for i := range lc.Rules { if i == len(lc.Rules)-1 { break } otherRules := lc.Rules[i+1:] for _, otherRule := range otherRules { if lc.Rules[i].ID == otherRule.ID { return errLifecycleDuplicateID } } } return nil } // FilterActionableRules returns the rules actions that need to be executed // after evaluating prefix/tag filtering func (lc Lifecycle) FilterActionableRules(obj ObjectOpts) []Rule { if obj.Name == "" { return nil } var rules []Rule for _, rule := range lc.Rules { if rule.Status == Disabled { continue } if !strings.HasPrefix(obj.Name, rule.Prefix()) { continue } // Indicates whether MinIO will remove a delete marker with no // noncurrent versions. If set to true, the delete marker will // be expired; if set to false the policy takes no action. This // cannot be specified with Days or Date in a Lifecycle // Expiration Policy. if rule.Expiration.DeleteMarker.val { rules = append(rules, rule) continue } // The NoncurrentVersionExpiration action requests MinIO to expire // noncurrent versions of objects 100 days after the objects become // noncurrent. if !rule.NoncurrentVersionExpiration.IsDaysNull() { rules = append(rules, rule) continue } if rule.Filter.TestTags(strings.Split(obj.UserTags, "&")) { rules = append(rules, rule) } } return rules } // ObjectOpts provides information to deduce the lifecycle actions // which can be triggered on the resultant object. type ObjectOpts struct { Name string UserTags string ModTime time.Time VersionID string IsLatest bool DeleteMarker bool NumVersions int } // ComputeAction returns the action to perform by evaluating all lifecycle rules // against the object name and its modification time. func (lc Lifecycle) ComputeAction(obj ObjectOpts) Action { var action = NoneAction if obj.ModTime.IsZero() { return action } for _, rule := range lc.FilterActionableRules(obj) { if obj.DeleteMarker && obj.NumVersions == 1 && rule.Expiration.DeleteMarker.val { // Indicates whether MinIO will remove a delete marker with no noncurrent versions. // Only latest marker is removed. If set to true, the delete marker will be expired; // if set to false the policy takes no action. This cannot be specified with Days or // Date in a Lifecycle Expiration Policy. return DeleteVersionAction } if !rule.NoncurrentVersionExpiration.IsDaysNull() { if obj.VersionID != "" && !obj.IsLatest { // Non current versions should be deleted. if time.Now().After(expectedExpiryTime(obj.ModTime, rule.NoncurrentVersionExpiration.NoncurrentDays)) { return DeleteVersionAction } } } // Remove the object or simply add a delete marker (once) in a versioned bucket if obj.VersionID == "" || obj.IsLatest && !obj.DeleteMarker { switch { case !rule.Expiration.IsDateNull(): if time.Now().UTC().After(rule.Expiration.Date.Time) { action = DeleteAction } case !rule.Expiration.IsDaysNull(): if time.Now().UTC().After(expectedExpiryTime(obj.ModTime, rule.Expiration.Days)) { action = DeleteAction } } } } return action } // expectedExpiryTime calculates the expiry date/time based on a object modtime. // The expected expiry time is always a midnight time following the the object // modification time plus the number of expiration days. // e.g. If the object modtime is `Thu May 21 13:42:50 GMT 2020` and the object should // expire in 1 day, then the expected expiry time is `Fri, 23 May 2020 00:00:00 GMT` func expectedExpiryTime(modTime time.Time, days ExpirationDays) time.Time { t := modTime.UTC().Add(time.Duration(days+1) * 24 * time.Hour) return t.Truncate(24 * time.Hour) } // PredictExpiryTime returns the expiry date/time of a given object // after evaluting the current lifecycle document. func (lc Lifecycle) PredictExpiryTime(obj ObjectOpts) (string, time.Time) { if obj.DeleteMarker { // We don't need to send any x-amz-expiration for delete marker. return "", time.Time{} } var finalExpiryDate time.Time var finalExpiryRuleID string // Iterate over all actionable rules and find the earliest // expiration date and its associated rule ID. for _, rule := range lc.FilterActionableRules(obj) { if !rule.NoncurrentVersionExpiration.IsDaysNull() && !obj.IsLatest && obj.VersionID != "" { return rule.ID, expectedExpiryTime(time.Now(), ExpirationDays(rule.NoncurrentVersionExpiration.NoncurrentDays)) } if !rule.Expiration.IsDateNull() { if finalExpiryDate.IsZero() || finalExpiryDate.After(rule.Expiration.Date.Time) { finalExpiryRuleID = rule.ID finalExpiryDate = rule.Expiration.Date.Time } } if !rule.Expiration.IsDaysNull() { expectedExpiry := expectedExpiryTime(obj.ModTime, rule.Expiration.Days) if finalExpiryDate.IsZero() || finalExpiryDate.After(expectedExpiry) { finalExpiryRuleID = rule.ID finalExpiryDate = expectedExpiry } } } return finalExpiryRuleID, finalExpiryDate }