// Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package cmd import ( "bytes" "fmt" "io" "net/http" "reflect" "strconv" "testing" "github.com/klauspost/compress/s2" "github.com/minio/minio/internal/config/compress" "github.com/minio/minio/internal/crypto" "github.com/minio/pkg/trie" ) // Tests validate bucket name. func TestIsValidBucketName(t *testing.T) { testCases := []struct { bucketName string shouldPass bool }{ // cases which should pass the test. // passing in valid bucket names. {"lol", true}, {"1-this-is-valid", true}, {"1-this-too-is-valid-1", true}, {"this.works.too.1", true}, {"1234567", true}, {"123", true}, {"s3-eu-west-1.amazonaws.com", true}, {"ideas-are-more-powerful-than-guns", true}, {"testbucket", true}, {"1bucket", true}, {"bucket1", true}, {"a.b", true}, {"ab.a.bc", true}, // cases for which test should fail. // passing invalid bucket names. {"------", false}, {"my..bucket", false}, {"192.168.1.1", false}, {"$this-is-not-valid-too", false}, {"contains-$-dollar", false}, {"contains-^-carret", false}, {"contains-$-dollar", false}, {"contains-$-dollar", false}, {"......", false}, {"", false}, {"a", false}, {"ab", false}, {".starts-with-a-dot", false}, {"ends-with-a-dot.", false}, {"ends-with-a-dash-", false}, {"-starts-with-a-dash", false}, {"THIS-BEGINS-WITH-UPPERCASe", false}, {"tHIS-ENDS-WITH-UPPERCASE", false}, {"ThisBeginsAndEndsWithUpperCasE", false}, {"una ñina", false}, {"dash-.may-not-appear-next-to-dot", false}, {"dash.-may-not-appear-next-to-dot", false}, {"dash-.-may-not-appear-next-to-dot", false}, {"lalalallalallalalalallalallalala-thestring-size-is-greater-than-63", false}, } for i, testCase := range testCases { isValidBucketName := IsValidBucketName(testCase.bucketName) if testCase.shouldPass && !isValidBucketName { t.Errorf("Test case %d: Expected \"%s\" to be a valid bucket name", i+1, testCase.bucketName) } if !testCase.shouldPass && isValidBucketName { t.Errorf("Test case %d: Expected bucket name \"%s\" to be invalid", i+1, testCase.bucketName) } } } // Tests for validate object name. func TestIsValidObjectName(t *testing.T) { testCases := []struct { objectName string shouldPass bool }{ // cases which should pass the test. // passing in valid object name. {"object", true}, {"The Shining Script .pdf", true}, {"Cost Benefit Analysis (2009-2010).pptx", true}, {"117Gn8rfHL2ACARPAhaFd0AGzic9pUbIA/5OCn5A", true}, {"SHØRT", true}, {"f*le", true}, {"contains-^-carret", true}, {"contains-|-pipe", true}, {"contains-`-tick", true}, {"..test", true}, {".. test", true}, {". test", true}, {".test", true}, {"There are far too many object names, and far too few bucket names!", true}, {"!\"#$%&'()*+,-.／:;<=>?@[\\]^_`{|}~/!\"#$%&'()*+,-.／:;<=>?@[\\]^_`{|}~)", true}, {"!\"#$%&'()*+,-.／:;<=>?@[\\]^_`{|}~", true}, {"␀␁␂␃␄␅␆␇␈␉␊␋␌␍␎␏␐␑␒␓␔␕␖␗␘␙␚␛␜␝␞␟␡", true}, {"trailing VT␋/trailing VT␋", true}, {"␋leading VT/␋leading VT", true}, {"~leading tilde", true}, {"\rleading CR", true}, {"\nleading LF", true}, {"\tleading HT", true}, {"trailing CR\r", true}, {"trailing LF\n", true}, {"trailing HT\t", true}, // cases for which test should fail. // passing invalid object names. {"", false}, {"a/b/c/", false}, {"../../etc", false}, {"../../", false}, {"/../../etc", false}, {" ../etc", false}, {"./././", false}, {"./etc", false}, {`contains//double/forwardslash`, false}, {`//contains/double-forwardslash-prefix`, false}, {string([]byte{0xff, 0xfe, 0xfd}), false}, } for i, testCase := range testCases { isValidObjectName := IsValidObjectName(testCase.objectName) if testCase.shouldPass && !isValidObjectName { t.Errorf("Test case %d: Expected \"%s\" to be a valid object name", i+1, testCase.objectName) } if !testCase.shouldPass && isValidObjectName { t.Errorf("Test case %d: Expected object name \"%s\" to be invalid", i+1, testCase.objectName) } } } // Tests getCompleteMultipartMD5 func TestGetCompleteMultipartMD5(t *testing.T) { testCases := []struct { parts []CompletePart expectedResult string expectedErr string }{ // Wrong MD5 hash string, returns md5um of hash {[]CompletePart{{ETag: "wrong-md5-hash-string"}}, "0deb8cb07527b4b2669c861cb9653607-1", ""}, // Single CompletePart with valid MD5 hash string. {[]CompletePart{{ETag: "cf1f738a5924e645913c984e0fe3d708"}}, "10dc1617fbcf0bd0858048cb96e6bd77-1", ""}, // Multiple CompletePart with valid MD5 hash string. {[]CompletePart{{ETag: "cf1f738a5924e645913c984e0fe3d708"}, {ETag: "9ccbc9a80eee7fb6fdd22441db2aedbd"}}, "0239a86b5266bb624f0ac60ba2aed6c8-2", ""}, } for i, test := range testCases { result := getCompleteMultipartMD5(test.parts) if result != test.expectedResult { t.Fatalf("test %d failed: expected: result=%v, got=%v", i+1, test.expectedResult, result) } } } // TestIsMinioBucketName - Tests isMinioBucketName helper function. func TestIsMinioMetaBucketName(t *testing.T) { testCases := []struct { bucket string result bool }{ // MinIO meta bucket. { bucket: minioMetaBucket, result: true, }, // MinIO meta bucket. { bucket: minioMetaMultipartBucket, result: true, }, // MinIO meta bucket. { bucket: minioMetaTmpBucket, result: true, }, // Normal bucket { bucket: "mybucket", result: false, }, } for i, test := range testCases { actual := isMinioMetaBucketName(test.bucket) if actual != test.result { t.Errorf("Test %d - expected %v but received %v", i+1, test.result, actual) } } } // Tests RemoveStandardStorageClass method. Expectation is metadata map // should be cleared of x-amz-storage-class, if it is set to STANDARD func TestRemoveStandardStorageClass(t *testing.T) { tests := []struct { name string metadata map[string]string want map[string]string }{ { name: "1", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "x-amz-storage-class": "STANDARD"}, want: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86"}, }, { name: "2", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "x-amz-storage-class": "REDUCED_REDUNDANCY"}, want: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "x-amz-storage-class": "REDUCED_REDUNDANCY"}, }, { name: "3", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86"}, want: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86"}, }, } for _, tt := range tests { if got := removeStandardStorageClass(tt.metadata); !reflect.DeepEqual(got, tt.want) { t.Errorf("Test %s failed, expected %v, got %v", tt.name, tt.want, got) } } } // Tests CleanMetadata method. Expectation is metadata map // should be cleared of etag, md5Sum and x-amz-storage-class, if it is set to STANDARD func TestCleanMetadata(t *testing.T) { tests := []struct { name string metadata map[string]string want map[string]string }{ { name: "1", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "x-amz-storage-class": "STANDARD"}, want: map[string]string{"content-type": "application/octet-stream"}, }, { name: "2", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "x-amz-storage-class": "REDUCED_REDUNDANCY"}, want: map[string]string{"content-type": "application/octet-stream", "x-amz-storage-class": "REDUCED_REDUNDANCY"}, }, { name: "3", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "md5Sum": "abcde"}, want: map[string]string{"content-type": "application/octet-stream"}, }, } for _, tt := range tests { if got := cleanMetadata(tt.metadata); !reflect.DeepEqual(got, tt.want) { t.Errorf("Test %s failed, expected %v, got %v", tt.name, tt.want, got) } } } // Tests CleanMetadataKeys method. Expectation is metadata map // should be cleared of keys passed to CleanMetadataKeys method func TestCleanMetadataKeys(t *testing.T) { tests := []struct { name string metadata map[string]string keys []string want map[string]string }{ { name: "1", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "x-amz-storage-class": "STANDARD", "md5": "abcde"}, keys: []string{"etag", "md5"}, want: map[string]string{"content-type": "application/octet-stream", "x-amz-storage-class": "STANDARD"}, }, { name: "2", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "x-amz-storage-class": "REDUCED_REDUNDANCY", "md5sum": "abcde"}, keys: []string{"etag", "md5sum"}, want: map[string]string{"content-type": "application/octet-stream", "x-amz-storage-class": "REDUCED_REDUNDANCY"}, }, { name: "3", metadata: map[string]string{"content-type": "application/octet-stream", "etag": "de75a98baf2c6aef435b57dd0fc33c86", "xyz": "abcde"}, keys: []string{"etag", "xyz"}, want: map[string]string{"content-type": "application/octet-stream"}, }, } for _, tt := range tests { if got := cleanMetadataKeys(tt.metadata, tt.keys...); !reflect.DeepEqual(got, tt.want) { t.Errorf("Test %s failed, expected %v, got %v", tt.name, tt.want, got) } } } // Tests isCompressed method func TestIsCompressed(t *testing.T) { testCases := []struct { objInfo ObjectInfo result bool err bool }{ 0: { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-compression": compressionAlgorithmV1, "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, }, result: true, }, 1: { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-compression": compressionAlgorithmV2, "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, }, result: true, }, 2: { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-compression": "unknown/compression/type", "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, }, result: true, err: true, }, 3: { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-compression": compressionAlgorithmV2, "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2", crypto.MetaIV: "yes", }, }, result: true, err: false, }, 4: { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-XYZ": "klauspost/compress/s2", "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, }, result: false, }, 5: { objInfo: ObjectInfo{ UserDefined: map[string]string{"content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, }, result: false, }, } for i, test := range testCases { t.Run(strconv.Itoa(i), func(t *testing.T) { got := test.objInfo.IsCompressed() if got != test.result { t.Errorf("IsCompressed: Expected %v but received %v", test.result, got) } got, gErr := test.objInfo.IsCompressedOK() if got != test.result { t.Errorf("IsCompressedOK: Expected %v but received %v", test.result, got) } if gErr != nil != test.err { t.Errorf("IsCompressedOK: want error: %t, got error: %v", test.err, gErr) } }) } } // Tests excludeForCompression. func TestExcludeForCompression(t *testing.T) { testCases := []struct { object string header http.Header result bool }{ { object: "object.txt", header: http.Header{ "Content-Type": []string{"application/zip"}, }, result: true, }, { object: "object.zip", header: http.Header{ "Content-Type": []string{"application/XYZ"}, }, result: true, }, { object: "object.json", header: http.Header{ "Content-Type": []string{"application/json"}, }, result: false, }, { object: "object.txt", header: http.Header{ "Content-Type": []string{"text/plain"}, }, result: false, }, { object: "object", header: http.Header{ "Content-Type": []string{"text/something"}, }, result: false, }, } for i, test := range testCases { got := excludeForCompression(test.header, test.object, compress.Config{ Enabled: true, }) if got != test.result { t.Errorf("Test %d - expected %v but received %v", i+1, test.result, got) } } } func BenchmarkGetPartFileWithTrie(b *testing.B) { b.ResetTimer() entriesTrie := trie.NewTrie() for i := 1; i <= 10000; i++ { entriesTrie.Insert(fmt.Sprintf("%.5d.8a034f82cb9cb31140d87d3ce2a9ede3.67108864", i)) } for i := 1; i <= 10000; i++ { partFile := getPartFile(entriesTrie, i, "8a034f82cb9cb31140d87d3ce2a9ede3") if partFile == "" { b.Fatal("partFile returned is empty") } } b.ReportAllocs() } func TestGetActualSize(t *testing.T) { testCases := []struct { objInfo ObjectInfo result int64 }{ { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-compression": "klauspost/compress/s2", "X-Minio-Internal-actual-size": "100000001", "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, Parts: []ObjectPartInfo{ { Size: 39235668, ActualSize: 67108864, }, { Size: 19177372, ActualSize: 32891137, }, }, }, result: 100000001, }, { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-compression": "klauspost/compress/s2", "X-Minio-Internal-actual-size": "841", "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, Parts: []ObjectPartInfo{}, }, result: 841, }, { objInfo: ObjectInfo{ UserDefined: map[string]string{"X-Minio-Internal-compression": "klauspost/compress/s2", "content-type": "application/octet-stream", "etag": "b3ff3ef3789147152fbfbc50efba4bfd-2"}, Parts: []ObjectPartInfo{}, }, result: -1, }, } for i, test := range testCases { got, _ := test.objInfo.GetActualSize() if got != test.result { t.Errorf("Test %d - expected %d but received %d", i+1, test.result, got) } } } func TestGetCompressedOffsets(t *testing.T) { testCases := []struct { objInfo ObjectInfo offset int64 startOffset int64 snappyStartOffset int64 firstPart int }{ 0: { objInfo: ObjectInfo{ Parts: []ObjectPartInfo{ { Size: 39235668, ActualSize: 67108864, }, { Size: 19177372, ActualSize: 32891137, }, }, }, offset: 79109865, startOffset: 39235668, snappyStartOffset: 12001001, firstPart: 1, }, 1: { objInfo: ObjectInfo{ Parts: []ObjectPartInfo{ { Size: 39235668, ActualSize: 67108864, }, { Size: 19177372, ActualSize: 32891137, }, }, }, offset: 19109865, startOffset: 0, snappyStartOffset: 19109865, }, 2: { objInfo: ObjectInfo{ Parts: []ObjectPartInfo{ { Size: 39235668, ActualSize: 67108864, }, { Size: 19177372, ActualSize: 32891137, }, }, }, offset: 0, startOffset: 0, snappyStartOffset: 0, }, } for i, test := range testCases { startOffset, snappyStartOffset, firstPart := getCompressedOffsets(test.objInfo, test.offset) if startOffset != test.startOffset { t.Errorf("Test %d - expected startOffset %d but received %d", i, test.startOffset, startOffset) } if snappyStartOffset != test.snappyStartOffset { t.Errorf("Test %d - expected snappyOffset %d but received %d", i, test.snappyStartOffset, snappyStartOffset) } if firstPart != test.firstPart { t.Errorf("Test %d - expected firstPart %d but received %d", i, test.firstPart, firstPart) } } } func TestS2CompressReader(t *testing.T) { tests := []struct { name string data []byte }{ {name: "empty", data: nil}, {name: "small", data: []byte("hello, world")}, {name: "large", data: bytes.Repeat([]byte("hello, world"), 1000)}, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { buf := make([]byte, 100) // make small buffer to ensure multiple reads are required for large case r := newS2CompressReader(bytes.NewReader(tt.data), int64(len(tt.data))) defer r.Close() var rdrBuf bytes.Buffer _, err := io.CopyBuffer(&rdrBuf, r, buf) if err != nil { t.Fatal(err) } var stdBuf bytes.Buffer w := s2.NewWriter(&stdBuf) _, err = io.CopyBuffer(w, bytes.NewReader(tt.data), buf) if err != nil { t.Fatal(err) } err = w.Close() if err != nil { t.Fatal(err) } var ( got = rdrBuf.Bytes() want = stdBuf.Bytes() ) if !bytes.Equal(got, want) { t.Errorf("encoded data does not match\n\t%q\n\t%q", got, want) } var decBuf bytes.Buffer decRdr := s2.NewReader(&rdrBuf) _, err = io.Copy(&decBuf, decRdr) if err != nil { t.Fatal(err) } if !bytes.Equal(tt.data, decBuf.Bytes()) { t.Errorf("roundtrip failed\n\t%q\n\t%q", tt.data, decBuf.Bytes()) } }) } }