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internal/crypto/key_test.go
} } 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 }
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Fri Feb 02 00:13:57 GMT 2024 - 6.8K bytes - Viewed (0) -
cmd/peer-s3-server.go
globalLocalDrivesMu.RLock() localDrives := cloneDrives(globalLocalDrives) globalLocalDrivesMu.RUnlock() quorum := (len(localDrives) / 2) buckets = make([]BucketInfo, 0, 32) healBuckets := map[string]VolInfo{} // lists all unique buckets across drives. if err := listAllBuckets(ctx, localDrives, healBuckets, quorum); err != nil { return nil, err }
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Fri Mar 08 19:08:18 GMT 2024 - 8.4K bytes - Viewed (0) -
docs/distributed/DESIGN.md
- Choice of erasure set size is automatic based on the number of drives available, let's say for example if there are 32 servers and 32 drives which is a total of 1024 drives. In this scenario 16 becomes the erasure set size. This is decided based on the greatest common divisor (GCD) of acceptable erasure set sizes ranging from *4 to 16*.
Plain Text - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Tue Aug 15 23:04:20 GMT 2023 - 8K bytes - Viewed (0) -
internal/crypto/sse-c.go
return true } return false } // ParseHTTP parses the SSE-C headers and returns the SSE-C client key // on success. SSE-C copy headers are ignored. func (ssec) ParseHTTP(h http.Header) (key [32]byte, err error) { if h.Get(xhttp.AmzServerSideEncryptionCustomerAlgorithm) != xhttp.AmzEncryptionAES { return key, ErrInvalidCustomerAlgorithm } if h.Get(xhttp.AmzServerSideEncryptionCustomerKey) == "" {
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Thu Jan 18 07:03:17 GMT 2024 - 5.2K bytes - Viewed (0) -
cmd/erasure-multipart.go
case size == -1: if size := data.ActualSize(); size > 0 && size < fi.Erasure.BlockSize { // Account for padding and forced compression overhead and encryption. buffer = make([]byte, data.ActualSize()+256+32+32, data.ActualSize()*2+512) } else { buffer = globalBytePoolCap.Load().Get() defer globalBytePoolCap.Load().Put(buffer) } case size >= fi.Erasure.BlockSize: buffer = globalBytePoolCap.Load().Get()
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Sun Apr 28 17:53:50 GMT 2024 - 43K bytes - Viewed (0) -
cmd/endpoint-ellipses_test.go
} }) } } func TestGetDivisibleSize(t *testing.T) { testCases := []struct { totalSizes []uint64 result uint64 }{ {[]uint64{24, 32, 16}, 8}, {[]uint64{32, 8, 4}, 4}, {[]uint64{8, 8, 8}, 8}, {[]uint64{24}, 24}, } for _, testCase := range testCases { testCase := testCase t.Run("", func(t *testing.T) {
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Thu Dec 07 09:33:56 GMT 2023 - 15.2K bytes - Viewed (0) -
internal/crypto/header.go
return true } return false } // ParseHTTP parses the SSE-C copy headers and returns the SSE-C client key // on success. Regular SSE-C headers are ignored. func (ssecCopy) ParseHTTP(h http.Header) (key [32]byte, err error) { if h.Get(xhttp.AmzServerSideEncryptionCopyCustomerAlgorithm) != xhttp.AmzEncryptionAES { return key, ErrInvalidCustomerAlgorithm } if h.Get(xhttp.AmzServerSideEncryptionCopyCustomerKey) == "" {
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Thu Feb 22 06:26:06 GMT 2024 - 2.9K bytes - Viewed (0) -
internal/etag/etag_test.go
Plaintext ETag }{ { // 0 Key: make([]byte, 32), ETag: must("3b83ef96387f14655fc854ddc3c6bd57"), Plaintext: must("3b83ef96387f14655fc854ddc3c6bd57"), }, { // 1 Key: make([]byte, 32), ETag: must("7b976cc68452e003eec7cb0eb631a19a-1"), Plaintext: must("7b976cc68452e003eec7cb0eb631a19a-1"), }, { // 2 Key: make([]byte, 32), ETag: must("7b976cc68452e003eec7cb0eb631a19a-10000"),
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Mon Sep 18 17:00:54 GMT 2023 - 12.6K bytes - Viewed (0) -
docs/kms/IAM.md
format: ```sh MINIO_KMS_SECRET_KEY=<key-name>:<base64-value> ``` First generate a 256 bit random key via: ```sh $ cat /dev/urandom | head -c 32 | base64 - OSMM+vkKUTCvQs9YL/CVMIMt43HFhkUpqJxTmGl6rYw= ``` Now, you can set `MINIO_KMS_SECRET_KEY` like this: ```sh export MINIO_KMS_SECRET_KEY=my-minio-key:OSMM+vkKUTCvQs9YL/CVMIMt43HFhkUpqJxTmGl6rYw= ```
Plain Text - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Thu Jan 18 07:03:17 GMT 2024 - 5.3K bytes - Viewed (0) -
internal/etag/etag.go
// just by its nature of being randomly generated. // The above implementation would incorrectly consider // such an ETag (with a nonce value containing a '-') // as non-encrypted. return len(e) >= 32 // We consider all ETags longer than 32 bytes as encrypted } // IsMultipart reports whether the ETag belongs to an // object that has been uploaded using the S3 multipart // API. // An S3 multipart ETag has a -<part-number> suffix.
Go - Registered: Sun Apr 28 19:28:10 GMT 2024 - Last Modified: Sun Mar 10 21:09:36 GMT 2024 - 13.3K bytes - Viewed (0)