// Minio Cloud Storage, (C) 2015, 2016, 2017, 2018 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 crypto import ( "bytes" "crypto/rand" "encoding/hex" "io" "testing" "github.com/minio/minio/cmd/logger" ) var shortRandom = func(limit int64) io.Reader { return io.LimitReader(rand.Reader, limit) } func recoverTest(i int, shouldPass bool, t *testing.T) { if err := recover(); err == nil && !shouldPass { t.Errorf("Test %d should fail but passed successfully", i) } else if err != nil && shouldPass { t.Errorf("Test %d should pass but failed: %v", i, err) } } var generateKeyTests = []struct { ExtKey [32]byte Random io.Reader ShouldPass bool }{ {ExtKey: [32]byte{}, Random: nil, ShouldPass: true}, // 0 {ExtKey: [32]byte{}, Random: rand.Reader, ShouldPass: true}, // 1 {ExtKey: [32]byte{}, Random: shortRandom(32), ShouldPass: true}, // 2 {ExtKey: [32]byte{}, Random: shortRandom(31), ShouldPass: false}, // 3 } func TestGenerateKey(t *testing.T) { defer func(disableLog bool) { logger.Disable = disableLog }(logger.Disable) logger.Disable = true for i, test := range generateKeyTests { i, test := i, test func() { defer recoverTest(i, test.ShouldPass, t) key := GenerateKey(test.ExtKey, test.Random) if [32]byte(key) == [32]byte{} { t.Errorf("Test %d: generated key is zero key", i) // check that we generate random and unique key } }() } } var sealUnsealKeyTests = []struct { SealExtKey, SealIV [32]byte SealDomain, SealBucket, SealObject string UnsealExtKey [32]byte UnsealDomain, UnsealBucket, UnsealObject string ShouldPass bool }{ { SealExtKey: [32]byte{}, SealIV: [32]byte{}, SealDomain: "SSE-C", SealBucket: "bucket", SealObject: "object", UnsealExtKey: [32]byte{}, UnsealDomain: "SSE-C", UnsealBucket: "bucket", UnsealObject: "object", ShouldPass: true, }, // 0 { SealExtKey: [32]byte{}, SealIV: [32]byte{}, SealDomain: "SSE-C", SealBucket: "bucket", SealObject: "object", UnsealExtKey: [32]byte{1}, UnsealDomain: "SSE-C", UnsealBucket: "bucket", UnsealObject: "object", // different ext-key ShouldPass: false, }, // 1 { SealExtKey: [32]byte{}, SealIV: [32]byte{}, SealDomain: "SSE-S3", SealBucket: "bucket", SealObject: "object", UnsealExtKey: [32]byte{}, UnsealDomain: "SSE-C", UnsealBucket: "bucket", UnsealObject: "object", // different domain ShouldPass: false, }, // 2 { SealExtKey: [32]byte{}, SealIV: [32]byte{}, SealDomain: "SSE-C", SealBucket: "bucket", SealObject: "object", UnsealExtKey: [32]byte{}, UnsealDomain: "SSE-C", UnsealBucket: "Bucket", UnsealObject: "object", // different bucket ShouldPass: false, }, // 3 { SealExtKey: [32]byte{}, SealIV: [32]byte{}, SealDomain: "SSE-C", SealBucket: "bucket", SealObject: "object", UnsealExtKey: [32]byte{}, UnsealDomain: "SSE-C", UnsealBucket: "bucket", UnsealObject: "Object", // different object ShouldPass: false, }, // 4 } func TestSealUnsealKey(t *testing.T) { for i, test := range sealUnsealKeyTests { key := GenerateKey(test.SealExtKey, rand.Reader) sealedKey := key.Seal(test.SealExtKey, test.SealIV, test.SealDomain, test.SealBucket, test.SealObject) if err := key.Unseal(test.UnsealExtKey, sealedKey, test.UnsealDomain, test.UnsealBucket, test.UnsealObject); err == nil && !test.ShouldPass { t.Errorf("Test %d should fail but passed successfully", i) } else if err != nil && test.ShouldPass { t.Errorf("Test %d should pass put failed: %v", i, err) } } // Test legacy InsecureSealAlgorithm var extKey, iv [32]byte key := GenerateKey(extKey, rand.Reader) sealedKey := key.Seal(extKey, iv, "SSE-S3", "bucket", "object") sealedKey.Algorithm = InsecureSealAlgorithm if err := key.Unseal(extKey, sealedKey, "SSE-S3", "bucket", "object"); err == nil { t.Errorf("'%s' test succeeded but it should fail because the legacy algorithm was used", sealedKey.Algorithm) } } var derivePartKeyTest = []struct { PartID uint32 PartKey string }{ {PartID: 0, PartKey: "aa7855e13839dd767cd5da7c1ff5036540c9264b7a803029315e55375287b4af"}, {PartID: 1, PartKey: "a3e7181c6eed030fd52f79537c56c4d07da92e56d374ff1dd2043350785b37d8"}, {PartID: 10000, PartKey: "f86e65c396ed52d204ee44bd1a0bbd86eb8b01b7354e67a3b3ae0e34dd5bd115"}, } func TestDerivePartKey(t *testing.T) { var key ObjectKey for i, test := range derivePartKeyTest { expectedPartKey, err := hex.DecodeString(test.PartKey) if err != nil { t.Fatalf("Test %d failed to decode expected part-key: %v", i, err) } partKey := key.DerivePartKey(test.PartID) if !bytes.Equal(partKey[:], expectedPartKey[:]) { t.Errorf("Test %d derives wrong part-key: got '%s' want: '%s'", i, hex.EncodeToString(partKey[:]), test.PartKey) } } }