mirror of
https://github.com/ceph/ceph-csi.git
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3073409695
In older versions of fscrypt there is a race condition when multiple encrypted cephfs instances are deployed simultaneously. Signed-off-by: NymanRobin <robin.nyman@est.tech>
624 lines
21 KiB
Go
624 lines
21 KiB
Go
/*
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* policy.go - functions for dealing with policies
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*
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* Copyright 2017 Google Inc.
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* Author: Joe Richey (joerichey@google.com)
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*
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* Licensed under the Apache License, Version 2.0 (the "License"); you may not
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* use this file except in compliance with the License. You may obtain a copy of
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* the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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* License for the specific language governing permissions and limitations under
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* the License.
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*/
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package actions
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import (
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"fmt"
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"log"
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"os"
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"os/user"
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"reflect"
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"github.com/pkg/errors"
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"google.golang.org/protobuf/proto"
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"github.com/google/fscrypt/crypto"
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"github.com/google/fscrypt/filesystem"
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"github.com/google/fscrypt/keyring"
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"github.com/google/fscrypt/metadata"
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"github.com/google/fscrypt/util"
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)
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// ErrAccessDeniedPossiblyV2 indicates that a directory's encryption policy
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// couldn't be retrieved due to "permission denied", but it looks like it's due
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// to the directory using a v2 policy but the kernel not supporting it.
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type ErrAccessDeniedPossiblyV2 struct {
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DirPath string
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}
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func (err *ErrAccessDeniedPossiblyV2) Error() string {
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return fmt.Sprintf(`
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failed to get encryption policy of %s: permission denied
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This may be caused by the directory using a v2 encryption policy and the
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current kernel not supporting it. If indeed the case, then this
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directory can only be used on kernel v5.4 and later. You can create
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directories accessible on older kernels by changing policy_version to 1
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in %s.`,
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err.DirPath, ConfigFileLocation)
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}
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// ErrAlreadyProtected indicates that a policy is already protected by the given
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// protector.
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type ErrAlreadyProtected struct {
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Policy *Policy
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Protector *Protector
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}
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func (err *ErrAlreadyProtected) Error() string {
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return fmt.Sprintf("policy %s is already protected by protector %s",
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err.Policy.Descriptor(), err.Protector.Descriptor())
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}
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// ErrDifferentFilesystem indicates that a policy can't be applied to a
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// directory on a different filesystem.
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type ErrDifferentFilesystem struct {
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PolicyMount *filesystem.Mount
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PathMount *filesystem.Mount
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}
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func (err *ErrDifferentFilesystem) Error() string {
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return fmt.Sprintf(`cannot apply policy from filesystem %q to a
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directory on filesystem %q. Policies may only protect files on the same
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filesystem.`, err.PolicyMount.Path, err.PathMount.Path)
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}
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// ErrMissingPolicyMetadata indicates that a directory is encrypted but its
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// policy metadata cannot be found.
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type ErrMissingPolicyMetadata struct {
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Mount *filesystem.Mount
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DirPath string
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Descriptor string
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}
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func (err *ErrMissingPolicyMetadata) Error() string {
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return fmt.Sprintf(`filesystem %q does not contain the policy metadata
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for %q. This directory has either been encrypted with another tool (such
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as e4crypt), or the file %q has been deleted.`,
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err.Mount.Path, err.DirPath,
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err.Mount.PolicyPath(err.Descriptor))
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}
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// ErrNotProtected indicates that the given policy is not protected by the given
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// protector.
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type ErrNotProtected struct {
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PolicyDescriptor string
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ProtectorDescriptor string
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}
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func (err *ErrNotProtected) Error() string {
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return fmt.Sprintf(`policy %s is not protected by protector %s`,
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err.PolicyDescriptor, err.ProtectorDescriptor)
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}
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// ErrOnlyProtector indicates that the last protector can't be removed from a
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// policy.
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type ErrOnlyProtector struct {
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Policy *Policy
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}
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func (err *ErrOnlyProtector) Error() string {
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return fmt.Sprintf(`cannot remove the only protector from policy %s. A
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policy must have at least one protector.`, err.Policy.Descriptor())
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}
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// ErrPolicyMetadataMismatch indicates that the policy metadata for an encrypted
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// directory is inconsistent with that directory.
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type ErrPolicyMetadataMismatch struct {
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DirPath string
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Mount *filesystem.Mount
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PathData *metadata.PolicyData
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MountData *metadata.PolicyData
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}
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func (err *ErrPolicyMetadataMismatch) Error() string {
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return fmt.Sprintf(`inconsistent metadata between encrypted directory %q
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and its corresponding metadata file %q.
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Directory has descriptor:%s %s
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Metadata file has descriptor:%s %s`,
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err.DirPath, err.Mount.PolicyPath(err.PathData.KeyDescriptor),
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err.PathData.KeyDescriptor, err.PathData.Options,
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err.MountData.KeyDescriptor, err.MountData.Options)
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}
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// PurgeAllPolicies removes all policy keys on the filesystem from the kernel
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// keyring. In order for this to fully take effect, the filesystem may also need
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// to be unmounted or caches dropped.
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func PurgeAllPolicies(ctx *Context) error {
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if err := ctx.checkContext(); err != nil {
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return err
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}
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policies, err := ctx.Mount.ListPolicies(nil)
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if err != nil {
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return err
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}
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for _, policyDescriptor := range policies {
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err = keyring.RemoveEncryptionKey(policyDescriptor, ctx.getKeyringOptions(), false)
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switch errors.Cause(err) {
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case nil, keyring.ErrKeyNotPresent:
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// We don't care if the key has already been removed
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case keyring.ErrKeyFilesOpen:
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log.Printf("Key for policy %s couldn't be fully removed because some files are still in-use",
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policyDescriptor)
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case keyring.ErrKeyAddedByOtherUsers:
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log.Printf("Key for policy %s couldn't be fully removed because other user(s) have added it too",
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policyDescriptor)
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default:
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return err
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}
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}
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return nil
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}
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// Policy represents an unlocked policy, so it contains the PolicyData as well
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// as the actual protector key. These unlocked Polices can then be applied to a
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// directory, or have their key material inserted into the keyring (which will
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// allow encrypted files to be accessed). As with the key struct, a Policy
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// should be wiped after use.
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type Policy struct {
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Context *Context
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data *metadata.PolicyData
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key *crypto.Key
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created bool
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ownerIfCreating *user.User
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newLinkedProtectors []string
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}
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// CreatePolicy creates a Policy protected by given Protector and stores the
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// appropriate data on the filesystem. On error, no data is changed on the
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// filesystem.
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func CreatePolicy(ctx *Context, protector *Protector) (*Policy, error) {
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if err := ctx.checkContext(); err != nil {
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return nil, err
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}
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// Randomly create the underlying policy key (and wipe if we fail)
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key, err := crypto.NewRandomKey(metadata.PolicyKeyLen)
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if err != nil {
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return nil, err
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}
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keyDescriptor, err := crypto.ComputeKeyDescriptor(key, ctx.Config.Options.PolicyVersion)
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if err != nil {
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key.Wipe()
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return nil, err
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}
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policy := &Policy{
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Context: ctx,
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data: &metadata.PolicyData{
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Options: ctx.Config.Options,
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KeyDescriptor: keyDescriptor,
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},
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key: key,
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created: true,
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}
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policy.ownerIfCreating, err = getOwnerOfMetadataForProtector(protector)
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if err != nil {
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policy.Lock()
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return nil, err
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}
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if err = policy.AddProtector(protector); err != nil {
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policy.Lock()
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return nil, err
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}
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return policy, nil
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}
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// GetPolicy retrieves a locked policy with a specific descriptor. The Policy is
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// still locked in this case, so it must be unlocked before using certain
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// methods.
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func GetPolicy(ctx *Context, descriptor string) (*Policy, error) {
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if err := ctx.checkContext(); err != nil {
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return nil, err
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}
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data, err := ctx.Mount.GetPolicy(descriptor, ctx.TrustedUser)
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if err != nil {
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return nil, err
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}
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log.Printf("got data for %s from %q", descriptor, ctx.Mount.Path)
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return &Policy{Context: ctx, data: data}, nil
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}
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// GetPolicyFromPath returns the locked policy descriptor for a file on the
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// filesystem. The Policy is still locked in this case, so it must be unlocked
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// before using certain methods. An error is returned if the metadata is
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// inconsistent or the path is not encrypted.
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func GetPolicyFromPath(ctx *Context, path string) (*Policy, error) {
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if err := ctx.checkContext(); err != nil {
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return nil, err
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}
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// We double check that the options agree for both the data we get from
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// the path, and the data we get from the mountpoint.
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pathData, err := metadata.GetPolicy(path)
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err = ctx.Mount.EncryptionSupportError(err)
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if err != nil {
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// On kernels that don't support v2 encryption policies, trying
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// to open a directory with a v2 policy simply gave EACCES. This
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// is ambiguous with other errors, but try to detect this case
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// and show a better error message.
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if os.IsPermission(err) &&
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filesystem.HaveReadAccessTo(path) &&
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!keyring.IsFsKeyringSupported(ctx.Mount) {
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return nil, &ErrAccessDeniedPossiblyV2{path}
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}
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return nil, err
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}
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descriptor := pathData.KeyDescriptor
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log.Printf("found policy %s for %q", descriptor, path)
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mountData, err := ctx.Mount.GetPolicy(descriptor, ctx.TrustedUser)
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if err != nil {
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log.Printf("getting policy metadata: %v", err)
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if _, ok := err.(*filesystem.ErrPolicyNotFound); ok {
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return nil, &ErrMissingPolicyMetadata{ctx.Mount, path, descriptor}
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}
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return nil, err
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}
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log.Printf("found data for policy %s on %q", descriptor, ctx.Mount.Path)
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if !proto.Equal(pathData.Options, mountData.Options) ||
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pathData.KeyDescriptor != mountData.KeyDescriptor {
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return nil, &ErrPolicyMetadataMismatch{path, ctx.Mount, pathData, mountData}
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}
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log.Print("data from filesystem and path agree")
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return &Policy{Context: ctx, data: mountData}, nil
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}
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// ProtectorOptions creates a slice of ProtectorOptions for the protectors
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// protecting this policy.
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func (policy *Policy) ProtectorOptions() []*ProtectorOption {
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options := make([]*ProtectorOption, len(policy.data.WrappedPolicyKeys))
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for i, wrappedPolicyKey := range policy.data.WrappedPolicyKeys {
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options[i] = policy.Context.getProtectorOption(wrappedPolicyKey.ProtectorDescriptor)
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}
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return options
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}
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// ProtectorDescriptors creates a slice of the Protector descriptors for the
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// protectors protecting this policy.
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func (policy *Policy) ProtectorDescriptors() []string {
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descriptors := make([]string, len(policy.data.WrappedPolicyKeys))
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for i, wrappedPolicyKey := range policy.data.WrappedPolicyKeys {
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descriptors[i] = wrappedPolicyKey.ProtectorDescriptor
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}
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return descriptors
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}
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// Descriptor returns the key descriptor for this policy.
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func (policy *Policy) Descriptor() string {
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return policy.data.KeyDescriptor
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}
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// Options returns the encryption options of this policy.
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func (policy *Policy) Options() *metadata.EncryptionOptions {
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return policy.data.Options
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}
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// Version returns the version of this policy.
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func (policy *Policy) Version() int64 {
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return policy.data.Options.PolicyVersion
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}
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// Destroy removes a policy from the filesystem. It also removes any new
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// protector links that were created for the policy. This does *not* wipe the
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// policy's internal key from memory; use Lock() to do that.
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func (policy *Policy) Destroy() error {
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for _, protectorDescriptor := range policy.newLinkedProtectors {
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policy.Context.Mount.RemoveProtector(protectorDescriptor)
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}
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return policy.Context.Mount.RemovePolicy(policy.Descriptor())
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}
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// Revert destroys a policy if it was created, but does nothing if it was just
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// queried from the filesystem.
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func (policy *Policy) Revert() error {
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if !policy.created {
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return nil
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}
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return policy.Destroy()
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}
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func (policy *Policy) String() string {
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return fmt.Sprintf("Policy: %s\nMountpoint: %s\nOptions: %v\nProtectors:%+v",
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policy.Descriptor(), policy.Context.Mount, policy.data.Options,
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policy.ProtectorDescriptors())
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}
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// Unlock unwraps the Policy's internal key. As a Protector is needed to unlock
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// the Policy, callbacks to select the Policy and get the key are needed. This
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// method will retry the keyFn as necessary to get the correct key for the
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// selected protector. Does nothing if policy is already unlocked.
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func (policy *Policy) Unlock(optionFn OptionFunc, keyFn KeyFunc) error {
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if policy.key != nil {
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return nil
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}
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options := policy.ProtectorOptions()
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// The OptionFunc indicates which option and wrapped key we should use.
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idx, err := optionFn(policy.Descriptor(), options)
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if err != nil {
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return err
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}
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option := options[idx]
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if option.LoadError != nil {
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return option.LoadError
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}
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log.Printf("protector %s selected in callback", option.Descriptor())
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protectorKey, err := unwrapProtectorKey(option.ProtectorInfo, keyFn)
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if err != nil {
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return err
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}
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defer protectorKey.Wipe()
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log.Printf("unwrapping policy %s with protector", policy.Descriptor())
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wrappedPolicyKey := policy.data.WrappedPolicyKeys[idx].WrappedKey
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policy.key, err = crypto.Unwrap(protectorKey, wrappedPolicyKey)
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return err
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}
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// UnlockWithProtector uses an unlocked Protector to unlock a policy. An error
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// is returned if the Protector is not yet unlocked or does not protect the
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// policy. Does nothing if policy is already unlocked.
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func (policy *Policy) UnlockWithProtector(protector *Protector) error {
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if policy.key != nil {
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return nil
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}
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if protector.key == nil {
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return ErrLocked
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}
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idx, ok := policy.findWrappedKeyIndex(protector.Descriptor())
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if !ok {
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return &ErrNotProtected{policy.Descriptor(), protector.Descriptor()}
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}
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var err error
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wrappedPolicyKey := policy.data.WrappedPolicyKeys[idx].WrappedKey
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policy.key, err = crypto.Unwrap(protector.key, wrappedPolicyKey)
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return err
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}
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// Lock wipes a Policy's internal Key. It should always be called after using a
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// Policy. This is often done with a defer statement. There is no effect if
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// called multiple times.
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func (policy *Policy) Lock() error {
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err := policy.key.Wipe()
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policy.key = nil
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return err
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}
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// UsesProtector returns if the policy is protected with the protector
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func (policy *Policy) UsesProtector(protector *Protector) bool {
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_, ok := policy.findWrappedKeyIndex(protector.Descriptor())
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return ok
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}
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// getOwnerOfMetadataForProtector returns the User to whom the owner of any new
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// policies or protector links for the given protector should be set.
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//
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// This will return a non-nil value only when the protector is a login protector
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// and the process is running as root. In this scenario, root is setting up
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// encryption on the user's behalf, so we need to make new policies and
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// protector links owned by the user (rather than root) to allow them to be read
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// by the user, just like the login protector itself which is handled elsewhere.
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func getOwnerOfMetadataForProtector(protector *Protector) (*user.User, error) {
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if protector.data.Source == metadata.SourceType_pam_passphrase && util.IsUserRoot() {
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owner, err := util.UserFromUID(protector.data.Uid)
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if err != nil {
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return nil, err
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}
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return owner, nil
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}
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return nil, nil
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}
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// AddProtector updates the data that is wrapping the Policy Key so that the
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// provided Protector is now protecting the specified Policy. If an error is
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// returned, no data has been changed. If the policy and protector are on
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// different filesystems, a link will be created between them. The policy and
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// protector must both be unlocked.
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func (policy *Policy) AddProtector(protector *Protector) error {
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if policy.UsesProtector(protector) {
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return &ErrAlreadyProtected{policy, protector}
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}
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if policy.key == nil || protector.key == nil {
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return ErrLocked
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}
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// If the protector is on a different filesystem, we need to add a link
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// to it on the policy's filesystem.
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if !reflect.DeepEqual(policy.Context.Mount, protector.Context.Mount) {
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log.Printf("policy on %s\n protector on %s\n", policy.Context.Mount, protector.Context.Mount)
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ownerIfCreating, err := getOwnerOfMetadataForProtector(protector)
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if err != nil {
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return err
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}
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isNewLink, err := policy.Context.Mount.AddLinkedProtector(
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protector.Descriptor(), protector.Context.Mount,
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protector.Context.TrustedUser, ownerIfCreating)
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if err != nil {
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return err
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}
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if isNewLink {
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policy.newLinkedProtectors = append(policy.newLinkedProtectors,
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protector.Descriptor())
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}
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} else {
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log.Printf("policy and protector both on %q", policy.Context.Mount)
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}
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// Create the wrapped policy key
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wrappedKey, err := crypto.Wrap(protector.key, policy.key)
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if err != nil {
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return err
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}
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// Append the wrapped key to the data
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policy.addKey(&metadata.WrappedPolicyKey{
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ProtectorDescriptor: protector.Descriptor(),
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WrappedKey: wrappedKey,
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})
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if err := policy.commitData(); err != nil {
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// revert the addition on failure
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policy.removeKey(len(policy.data.WrappedPolicyKeys) - 1)
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return err
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}
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return nil
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}
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// RemoveProtector updates the data that is wrapping the Policy Key so that the
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// protector with the given descriptor is no longer protecting the specified
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// Policy. If an error is returned, no data has been changed. Note that the
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// protector itself won't be removed, nor will a link to the protector be
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// removed (in the case where the protector and policy are on different
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// filesystems). The policy can be locked or unlocked.
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func (policy *Policy) RemoveProtector(protectorDescriptor string) error {
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idx, ok := policy.findWrappedKeyIndex(protectorDescriptor)
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if !ok {
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return &ErrNotProtected{policy.Descriptor(), protectorDescriptor}
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}
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if len(policy.data.WrappedPolicyKeys) == 1 {
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return &ErrOnlyProtector{policy}
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}
|
|
|
|
// Remove the wrapped key from the data
|
|
toRemove := policy.removeKey(idx)
|
|
|
|
if err := policy.commitData(); err != nil {
|
|
// revert the removal on failure (order is irrelevant)
|
|
policy.addKey(toRemove)
|
|
return err
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// Apply sets the Policy on a specified directory. Currently we impose the
|
|
// additional constraint that policies and the directories they are applied to
|
|
// must reside on the same filesystem.
|
|
func (policy *Policy) Apply(path string) error {
|
|
if pathMount, err := filesystem.FindMount(path); err != nil {
|
|
return err
|
|
} else if !reflect.DeepEqual(pathMount, policy.Context.Mount) {
|
|
return &ErrDifferentFilesystem{policy.Context.Mount, pathMount}
|
|
}
|
|
|
|
err := metadata.SetPolicy(path, policy.data)
|
|
return policy.Context.Mount.EncryptionSupportError(err)
|
|
}
|
|
|
|
// GetProvisioningStatus returns the status of this policy's key in the keyring.
|
|
func (policy *Policy) GetProvisioningStatus() keyring.KeyStatus {
|
|
status, _ := keyring.GetEncryptionKeyStatus(policy.Descriptor(),
|
|
policy.Context.getKeyringOptions())
|
|
return status
|
|
}
|
|
|
|
// IsProvisionedByTargetUser returns true if the policy's key is present in the
|
|
// target kernel keyring, but not if that keyring is a filesystem keyring and
|
|
// the key only been added by users other than Context.TargetUser.
|
|
func (policy *Policy) IsProvisionedByTargetUser() bool {
|
|
return policy.GetProvisioningStatus() == keyring.KeyPresent
|
|
}
|
|
|
|
// Provision inserts the Policy key into the kernel keyring. This allows reading
|
|
// and writing of files encrypted with this directory. Requires unlocked Policy.
|
|
func (policy *Policy) Provision() error {
|
|
if policy.key == nil {
|
|
return ErrLocked
|
|
}
|
|
return keyring.AddEncryptionKey(policy.key, policy.Descriptor(),
|
|
policy.Context.getKeyringOptions())
|
|
}
|
|
|
|
// Deprovision removes the Policy key from the kernel keyring. This prevents
|
|
// reading and writing to the directory --- unless the target keyring is a user
|
|
// keyring, in which case caches must be dropped too. If the Policy key was
|
|
// already removed, returns keyring.ErrKeyNotPresent.
|
|
func (policy *Policy) Deprovision(allUsers bool) error {
|
|
return keyring.RemoveEncryptionKey(policy.Descriptor(),
|
|
policy.Context.getKeyringOptions(), allUsers)
|
|
}
|
|
|
|
// NeedsUserKeyring returns true if Provision and Deprovision for this policy
|
|
// will use a user keyring (deprecated), not a filesystem keyring.
|
|
func (policy *Policy) NeedsUserKeyring() bool {
|
|
return policy.Version() == 1 && !policy.Context.Config.GetUseFsKeyringForV1Policies()
|
|
}
|
|
|
|
// NeedsRootToProvision returns true if Provision and Deprovision will require
|
|
// root for this policy in the current configuration.
|
|
func (policy *Policy) NeedsRootToProvision() bool {
|
|
return policy.Version() == 1 && policy.Context.Config.GetUseFsKeyringForV1Policies()
|
|
}
|
|
|
|
// CanBeAppliedWithoutProvisioning returns true if this process can apply this
|
|
// policy to a directory without first calling Provision.
|
|
func (policy *Policy) CanBeAppliedWithoutProvisioning() bool {
|
|
return policy.Version() == 1 || util.IsUserRoot()
|
|
}
|
|
|
|
// commitData writes the Policy's current data to the filesystem.
|
|
func (policy *Policy) commitData() error {
|
|
return policy.Context.Mount.AddPolicy(policy.data, policy.ownerIfCreating)
|
|
}
|
|
|
|
// findWrappedPolicyKey returns the index of the wrapped policy key
|
|
// corresponding to this policy and protector. The returned bool is false if no
|
|
// wrapped policy key corresponds to the specified protector, true otherwise.
|
|
func (policy *Policy) findWrappedKeyIndex(protectorDescriptor string) (int, bool) {
|
|
for idx, wrappedPolicyKey := range policy.data.WrappedPolicyKeys {
|
|
if wrappedPolicyKey.ProtectorDescriptor == protectorDescriptor {
|
|
return idx, true
|
|
}
|
|
}
|
|
return 0, false
|
|
}
|
|
|
|
// addKey adds the wrapped policy key to end of the wrapped key data.
|
|
func (policy *Policy) addKey(toAdd *metadata.WrappedPolicyKey) {
|
|
policy.data.WrappedPolicyKeys = append(policy.data.WrappedPolicyKeys, toAdd)
|
|
}
|
|
|
|
// removeKey removes the wrapped policy key at the specified index. This
|
|
// does not preserve the order of the wrapped policy key array. If no index is
|
|
// specified the last key is removed.
|
|
func (policy *Policy) removeKey(index int) *metadata.WrappedPolicyKey {
|
|
lastIdx := len(policy.data.WrappedPolicyKeys) - 1
|
|
toRemove := policy.data.WrappedPolicyKeys[index]
|
|
|
|
// See https://github.com/golang/go/wiki/SliceTricks
|
|
policy.data.WrappedPolicyKeys[index] = policy.data.WrappedPolicyKeys[lastIdx]
|
|
policy.data.WrappedPolicyKeys[lastIdx] = nil
|
|
policy.data.WrappedPolicyKeys = policy.data.WrappedPolicyKeys[:lastIdx]
|
|
|
|
return toRemove
|
|
}
|