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package keysutil
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import (
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"context"
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"reflect"
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"strconv"
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"sync"
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"testing"
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"time"
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"github.com/hashicorp/vault/sdk/helper/jsonutil"
"github.com/hashicorp/vault/sdk/logical"
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"github.com/mitchellh/copystructure"
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)
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func TestPolicy_KeyEntryMapUpgrade ( t * testing . T ) {
now := time . Now ( )
old := map [ int ] KeyEntry {
1 : {
Key : [ ] byte ( "samplekey" ) ,
HMACKey : [ ] byte ( "samplehmackey" ) ,
CreationTime : now ,
FormattedPublicKey : "sampleformattedpublickey" ,
} ,
2 : {
Key : [ ] byte ( "samplekey2" ) ,
HMACKey : [ ] byte ( "samplehmackey2" ) ,
CreationTime : now . Add ( 10 * time . Second ) ,
FormattedPublicKey : "sampleformattedpublickey2" ,
} ,
}
oldEncoded , err := jsonutil . EncodeJSON ( old )
if err != nil {
t . Fatal ( err )
}
var new keyEntryMap
err = jsonutil . DecodeJSON ( oldEncoded , & new )
if err != nil {
t . Fatal ( err )
}
newEncoded , err := jsonutil . EncodeJSON ( & new )
if err != nil {
t . Fatal ( err )
}
if string ( oldEncoded ) != string ( newEncoded ) {
t . Fatalf ( "failed to upgrade key entry map;\nold: %q\nnew: %q" , string ( oldEncoded ) , string ( newEncoded ) )
}
}
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func Test_KeyUpgrade ( t * testing . T ) {
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testKeyUpgradeCommon ( t , NewLockManager ( false ) )
testKeyUpgradeCommon ( t , NewLockManager ( true ) )
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}
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func testKeyUpgradeCommon ( t * testing . T , lm * LockManager ) {
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ctx := context . Background ( )
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storage := & logical . InmemStorage { }
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p , upserted , err := lm . GetPolicy ( ctx , PolicyRequest {
Upsert : true ,
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Storage : storage ,
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KeyType : KeyType_AES256_GCM96 ,
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Name : "test" ,
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} )
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if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "nil policy" )
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}
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if ! upserted {
t . Fatal ( "expected an upsert" )
}
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if ! lm . useCache {
p . Unlock ( )
}
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testBytes := make ( [ ] byte , len ( p . Keys [ "1" ] . Key ) )
copy ( testBytes , p . Keys [ "1" ] . Key )
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p . Key = p . Keys [ "1" ] . Key
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p . Keys = nil
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p . MigrateKeyToKeysMap ( )
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if p . Key != nil {
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t . Fatal ( "policy.Key is not nil" )
}
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if len ( p . Keys ) != 1 {
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t . Fatal ( "policy.Keys is the wrong size" )
}
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if ! reflect . DeepEqual ( testBytes , p . Keys [ "1" ] . Key ) {
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t . Fatal ( "key mismatch" )
}
}
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func Test_ArchivingUpgrade ( t * testing . T ) {
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testArchivingUpgradeCommon ( t , NewLockManager ( false ) )
testArchivingUpgradeCommon ( t , NewLockManager ( true ) )
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}
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func testArchivingUpgradeCommon ( t * testing . T , lm * LockManager ) {
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ctx := context . Background ( )
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// First, we generate a policy and rotate it a number of times. Each time
// we'll ensure that we have the expected number of keys in the archive and
// the main keys object, which without changing the min version should be
// zero and latest, respectively
storage := & logical . InmemStorage { }
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p , _ , err := lm . GetPolicy ( ctx , PolicyRequest {
Upsert : true ,
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Storage : storage ,
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KeyType : KeyType_AES256_GCM96 ,
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Name : "test" ,
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} )
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if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "nil policy" )
}
if ! lm . useCache {
p . Unlock ( )
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}
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// Store the initial key in the archive
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keysArchive := [ ] KeyEntry { KeyEntry { } , p . Keys [ "1" ] }
checkKeys ( t , ctx , p , storage , keysArchive , "initial" , 1 , 1 , 1 )
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for i := 2 ; i <= 10 ; i ++ {
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err = p . Rotate ( ctx , storage )
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if err != nil {
t . Fatal ( err )
}
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keysArchive = append ( keysArchive , p . Keys [ strconv . Itoa ( i ) ] )
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checkKeys ( t , ctx , p , storage , keysArchive , "rotate" , i , i , i )
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}
// Now, wipe the archive and set the archive version to zero
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err = storage . Delete ( ctx , "archive/test" )
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if err != nil {
t . Fatal ( err )
}
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p . ArchiveVersion = 0
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// Store it, but without calling persist, so we don't trigger
// handleArchiving()
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buf , err := p . Serialize ( )
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if err != nil {
t . Fatal ( err )
}
// Write the policy into storage
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err = storage . Put ( ctx , & logical . StorageEntry {
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Key : "policy/" + p . Name ,
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Value : buf ,
} )
if err != nil {
t . Fatal ( err )
}
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// If we're caching, expire from the cache since we modified it
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// under-the-hood
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if lm . useCache {
lm . cache . Delete ( "test" )
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}
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// Now get the policy again; the upgrade should happen automatically
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p , _ , err = lm . GetPolicy ( ctx , PolicyRequest {
Storage : storage ,
Name : "test" ,
} )
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if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "nil policy" )
}
if ! lm . useCache {
p . Unlock ( )
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}
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checkKeys ( t , ctx , p , storage , keysArchive , "upgrade" , 10 , 10 , 10 )
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// Let's check some deletion logic while we're at it
// The policy should be in there
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if lm . useCache {
_ , ok := lm . cache . Load ( "test" )
if ! ok {
t . Fatal ( "nil policy in cache" )
}
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}
// First we'll do this wrong, by not setting the deletion flag
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err = lm . DeletePolicy ( ctx , storage , "test" )
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if err == nil {
t . Fatal ( "got nil error, but should not have been able to delete since we didn't set the deletion flag on the policy" )
}
// The policy should still be in there
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if lm . useCache {
_ , ok := lm . cache . Load ( "test" )
if ! ok {
t . Fatal ( "nil policy in cache" )
}
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}
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p , _ , err = lm . GetPolicy ( ctx , PolicyRequest {
Storage : storage ,
Name : "test" ,
} )
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if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "policy nil after bad delete" )
}
if ! lm . useCache {
p . Unlock ( )
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}
// Now do it properly
p . DeletionAllowed = true
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err = p . Persist ( ctx , storage )
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if err != nil {
t . Fatal ( err )
}
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err = lm . DeletePolicy ( ctx , storage , "test" )
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if err != nil {
t . Fatal ( err )
}
// The policy should *not* be in there
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if lm . useCache {
_ , ok := lm . cache . Load ( "test" )
if ok {
t . Fatal ( "non-nil policy in cache" )
}
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}
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p , _ , err = lm . GetPolicy ( ctx , PolicyRequest {
Storage : storage ,
Name : "test" ,
} )
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if err != nil {
t . Fatal ( err )
}
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if p != nil {
t . Fatal ( "policy not nil after delete" )
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}
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}
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func Test_Archiving ( t * testing . T ) {
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testArchivingCommon ( t , NewLockManager ( false ) )
testArchivingCommon ( t , NewLockManager ( true ) )
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}
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func testArchivingCommon ( t * testing . T , lm * LockManager ) {
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ctx := context . Background ( )
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// First, we generate a policy and rotate it a number of times. Each time
// we'll ensure that we have the expected number of keys in the archive and
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// the main keys object, which without changing the min version should be
// zero and latest, respectively
storage := & logical . InmemStorage { }
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p , _ , err := lm . GetPolicy ( ctx , PolicyRequest {
Upsert : true ,
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Storage : storage ,
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KeyType : KeyType_AES256_GCM96 ,
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Name : "test" ,
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} )
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if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "nil policy" )
}
if ! lm . useCache {
p . Unlock ( )
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}
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// Store the initial key in the archive
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keysArchive := [ ] KeyEntry { KeyEntry { } , p . Keys [ "1" ] }
checkKeys ( t , ctx , p , storage , keysArchive , "initial" , 1 , 1 , 1 )
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for i := 2 ; i <= 10 ; i ++ {
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err = p . Rotate ( ctx , storage )
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if err != nil {
t . Fatal ( err )
}
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keysArchive = append ( keysArchive , p . Keys [ strconv . Itoa ( i ) ] )
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checkKeys ( t , ctx , p , storage , keysArchive , "rotate" , i , i , i )
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}
// Move the min decryption version up
for i := 1 ; i <= 10 ; i ++ {
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p . MinDecryptionVersion = i
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err = p . Persist ( ctx , storage )
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if err != nil {
t . Fatal ( err )
}
// We expect to find:
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// * The keys in archive are the same as the latest version
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// * The latest version is constant
// * The number of keys in the policy itself is from the min
// decryption version up to the latest version, so for e.g. 7 and
// 10, you'd need 7, 8, 9, and 10 -- IOW, latest version - min
// decryption version plus 1 (the min decryption version key
// itself)
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checkKeys ( t , ctx , p , storage , keysArchive , "minadd" , 10 , 10 , p . LatestVersion - p . MinDecryptionVersion + 1 )
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}
// Move the min decryption version down
for i := 10 ; i >= 1 ; i -- {
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p . MinDecryptionVersion = i
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err = p . Persist ( ctx , storage )
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if err != nil {
t . Fatal ( err )
}
// We expect to find:
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// * The keys in archive are never removed so same as the latest version
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// * The latest version is constant
// * The number of keys in the policy itself is from the min
// decryption version up to the latest version, so for e.g. 7 and
// 10, you'd need 7, 8, 9, and 10 -- IOW, latest version - min
// decryption version plus 1 (the min decryption version key
// itself)
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checkKeys ( t , ctx , p , storage , keysArchive , "minsub" , 10 , 10 , p . LatestVersion - p . MinDecryptionVersion + 1 )
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}
}
func checkKeys ( t * testing . T ,
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ctx context . Context ,
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p * Policy ,
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storage logical . Storage ,
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keysArchive [ ] KeyEntry ,
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action string ,
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archiveVer , latestVer , keysSize int ) {
// Sanity check
if len ( keysArchive ) != latestVer + 1 {
t . Fatalf ( "latest expected key version is %d, expected test keys archive size is %d, " +
"but keys archive is of size %d" , latestVer , latestVer + 1 , len ( keysArchive ) )
}
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archive , err := p . LoadArchive ( ctx , storage )
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if err != nil {
t . Fatal ( err )
}
badArchiveVer := false
if archiveVer == 0 {
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if len ( archive . Keys ) != 0 || p . ArchiveVersion != 0 {
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badArchiveVer = true
}
} else {
// We need to subtract one because we have the indexes match key
// versions, which start at 1. So for an archive version of 1, we
// actually have two entries -- a blank 0 entry, and the key at spot 1
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if archiveVer != len ( archive . Keys ) - 1 || archiveVer != p . ArchiveVersion {
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badArchiveVer = true
}
}
if badArchiveVer {
t . Fatalf (
"expected archive version %d, found length of archive keys %d and policy archive version %d" ,
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archiveVer , len ( archive . Keys ) , p . ArchiveVersion ,
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)
}
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if latestVer != p . LatestVersion {
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t . Fatalf (
"expected latest version %d, found %d" ,
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latestVer , p . LatestVersion ,
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)
}
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if keysSize != len ( p . Keys ) {
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t . Fatalf (
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"expected keys size %d, found %d, action is %s, policy is \n%#v\n" ,
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keysSize , len ( p . Keys ) , action , p ,
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)
}
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for i := p . MinDecryptionVersion ; i <= p . LatestVersion ; i ++ {
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if _ , ok := p . Keys [ strconv . Itoa ( i ) ] ; ! ok {
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t . Fatalf (
"expected key %d, did not find it in policy keys" , i ,
)
}
}
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for i := p . MinDecryptionVersion ; i <= p . LatestVersion ; i ++ {
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ver := strconv . Itoa ( i )
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// Travis has weird time zone issues and gets super unhappy
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if ! p . Keys [ ver ] . CreationTime . Equal ( keysArchive [ i ] . CreationTime ) {
t . Fatalf ( "key %d not equivalent between policy keys and test keys archive; policy keys:\n%#v\ntest keys archive:\n%#v\n" , i , p . Keys [ ver ] , keysArchive [ i ] )
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}
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polKey := p . Keys [ ver ]
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polKey . CreationTime = keysArchive [ i ] . CreationTime
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p . Keys [ ver ] = polKey
if ! reflect . DeepEqual ( p . Keys [ ver ] , keysArchive [ i ] ) {
t . Fatalf ( "key %d not equivalent between policy keys and test keys archive; policy keys:\n%#v\ntest keys archive:\n%#v\n" , i , p . Keys [ ver ] , keysArchive [ i ] )
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}
}
for i := 1 ; i < len ( archive . Keys ) ; i ++ {
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if ! reflect . DeepEqual ( archive . Keys [ i ] . Key , keysArchive [ i ] . Key ) {
t . Fatalf ( "key %d not equivalent between policy archive and test keys archive; policy archive:\n%#v\ntest keys archive:\n%#v\n" , i , archive . Keys [ i ] . Key , keysArchive [ i ] . Key )
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}
}
}
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func Test_StorageErrorSafety ( t * testing . T ) {
ctx := context . Background ( )
lm := NewLockManager ( false )
storage := & logical . InmemStorage { }
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p , _ , err := lm . GetPolicy ( ctx , PolicyRequest {
Upsert : true ,
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Storage : storage ,
KeyType : KeyType_AES256_GCM96 ,
Name : "test" ,
} )
if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "nil policy" )
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}
// Store the initial key in the archive
keysArchive := [ ] KeyEntry { KeyEntry { } , p . Keys [ "1" ] }
checkKeys ( t , ctx , p , storage , keysArchive , "initial" , 1 , 1 , 1 )
// We use checkKeys here just for sanity; it doesn't really handle cases of
// errors below so we do more targeted testing later
for i := 2 ; i <= 5 ; i ++ {
err = p . Rotate ( ctx , storage )
if err != nil {
t . Fatal ( err )
}
keysArchive = append ( keysArchive , p . Keys [ strconv . Itoa ( i ) ] )
checkKeys ( t , ctx , p , storage , keysArchive , "rotate" , i , i , i )
}
underlying := storage . Underlying ( )
underlying . FailPut ( true )
priorLen := len ( p . Keys )
err = p . Rotate ( ctx , storage )
if err == nil {
t . Fatal ( "expected error" )
}
if len ( p . Keys ) != priorLen {
t . Fatal ( "length of keys should not have changed" )
}
}
func Test_BadUpgrade ( t * testing . T ) {
ctx := context . Background ( )
lm := NewLockManager ( false )
storage := & logical . InmemStorage { }
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p , _ , err := lm . GetPolicy ( ctx , PolicyRequest {
Upsert : true ,
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Storage : storage ,
KeyType : KeyType_AES256_GCM96 ,
Name : "test" ,
} )
if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "nil policy" )
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}
orig , err := copystructure . Copy ( p )
if err != nil {
t . Fatal ( err )
}
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orig . ( * Policy ) . l = p . l
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p . Key = p . Keys [ "1" ] . Key
p . Keys = nil
p . MinDecryptionVersion = 0
if err := p . Upgrade ( ctx , storage ) ; err != nil {
t . Fatal ( err )
}
k := p . Keys [ "1" ]
o := orig . ( * Policy ) . Keys [ "1" ]
k . CreationTime = o . CreationTime
k . HMACKey = o . HMACKey
p . Keys [ "1" ] = k
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p . versionPrefixCache = sync . Map { }
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if ! reflect . DeepEqual ( orig , p ) {
t . Fatalf ( "not equal:\n%#v\n%#v" , orig , p )
}
// Do it again with a failing storage call
underlying := storage . Underlying ( )
underlying . FailPut ( true )
p . Key = p . Keys [ "1" ] . Key
p . Keys = nil
p . MinDecryptionVersion = 0
if err := p . Upgrade ( ctx , storage ) ; err == nil {
t . Fatal ( "expected error" )
}
if p . MinDecryptionVersion == 1 {
t . Fatal ( "min decryption version was changed" )
}
if p . Keys != nil {
t . Fatal ( "found upgraded keys" )
}
if p . Key == nil {
t . Fatal ( "non-upgraded key not found" )
}
}
func Test_BadArchive ( t * testing . T ) {
ctx := context . Background ( )
lm := NewLockManager ( false )
storage := & logical . InmemStorage { }
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p , _ , err := lm . GetPolicy ( ctx , PolicyRequest {
Upsert : true ,
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Storage : storage ,
KeyType : KeyType_AES256_GCM96 ,
Name : "test" ,
} )
if err != nil {
t . Fatal ( err )
}
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if p == nil {
t . Fatal ( "nil policy" )
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}
for i := 2 ; i <= 10 ; i ++ {
err = p . Rotate ( ctx , storage )
if err != nil {
t . Fatal ( err )
}
}
p . MinDecryptionVersion = 5
if err := p . Persist ( ctx , storage ) ; err != nil {
t . Fatal ( err )
}
if p . ArchiveVersion != 10 {
t . Fatalf ( "unexpected archive version %d" , p . ArchiveVersion )
}
if len ( p . Keys ) != 6 {
t . Fatalf ( "unexpected key length %d" , len ( p . Keys ) )
}
// Set back
p . MinDecryptionVersion = 1
if err := p . Persist ( ctx , storage ) ; err != nil {
t . Fatal ( err )
}
if p . ArchiveVersion != 10 {
t . Fatalf ( "unexpected archive version %d" , p . ArchiveVersion )
}
if len ( p . Keys ) != 10 {
t . Fatalf ( "unexpected key length %d" , len ( p . Keys ) )
}
// Run it again but we'll turn off storage along the way
p . MinDecryptionVersion = 5
if err := p . Persist ( ctx , storage ) ; err != nil {
t . Fatal ( err )
}
if p . ArchiveVersion != 10 {
t . Fatalf ( "unexpected archive version %d" , p . ArchiveVersion )
}
if len ( p . Keys ) != 6 {
t . Fatalf ( "unexpected key length %d" , len ( p . Keys ) )
}
underlying := storage . Underlying ( )
underlying . FailPut ( true )
// Set back, which should cause p.Keys to be changed if the persist works,
// but it doesn't
p . MinDecryptionVersion = 1
if err := p . Persist ( ctx , storage ) ; err == nil {
t . Fatal ( "expected error during put" )
}
if p . ArchiveVersion != 10 {
t . Fatalf ( "unexpected archive version %d" , p . ArchiveVersion )
}
// Here's the expected change
if len ( p . Keys ) != 6 {
t . Fatalf ( "unexpected key length %d" , len ( p . Keys ) )
}
}