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Results 111 - 120 of 218 for algorithms (0.19 sec)
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docs/site-replication/run-sse-kms-object-replication.sh
rep_obj4_md5=$(echo "${stat_out4}" | jq '.metadata."X-Amz-Server-Side-Encryption-Customer-Key-Md5"') # Check the algo and keyId of replicated objects if [ "${rep_obj1_algo}" != "${src_obj1_algo}" ]; then echo "BUG: Algorithm: '${rep_obj1_algo}' of replicated object: 'minio2/test-bucket/encrypted' doesn't match with source value: '${src_obj1_algo}'" exit_1 fi if [ "${rep_obj1_keyid}" != "${src_obj1_keyid}" ]; then
Registered: Sun Nov 03 19:28:11 UTC 2024 - Last Modified: Thu Oct 10 06:49:55 UTC 2024 - 11.5K bytes - Viewed (0) -
src/main/java/jcifs/smb1/smb1/ACE.java
* based on these entries. * <p> * To fully understand the information exposed by this class a description * of the access check algorithm used by Windows is required. The following * is a basic description of the algorithm. For a more complete description * we recommend reading the section on Access Control in Keith Brown's * "The .NET Developer's Guide to Windows Security" (which is also
Registered: Sun Nov 03 00:10:13 UTC 2024 - Last Modified: Fri Mar 22 21:10:40 UTC 2019 - 7.2K bytes - Viewed (0) -
compat/maven-compat/src/main/java/org/apache/maven/repository/legacy/DefaultWagonManager.java
file.deleteOnExit(); } } } private ChecksumObserver addChecksumObserver(Wagon wagon, String algorithm) throws TransferFailedException { try { ChecksumObserver checksumObserver = new ChecksumObserver(algorithm); wagon.addTransferListener(checksumObserver); return checksumObserver; } catch (NoSuchAlgorithmException e) {
Registered: Sun Nov 03 03:35:11 UTC 2024 - Last Modified: Fri Oct 25 12:31:46 UTC 2024 - 29.9K bytes - Viewed (0) -
internal/hash/checksum.go
} // IsSet returns whether the type is valid and known. func (c ChecksumType) IsSet() bool { return !c.Is(ChecksumInvalid) && !c.Is(ChecksumNone) } // NewChecksumType returns a checksum type based on the algorithm string. func NewChecksumType(alg string) ChecksumType { switch strings.ToUpper(alg) { case "CRC32": return ChecksumCRC32 case "CRC32C": return ChecksumCRC32C case "SHA1": return ChecksumSHA1
Registered: Sun Nov 03 19:28:11 UTC 2024 - Last Modified: Thu Sep 19 12:59:07 UTC 2024 - 12.7K bytes - Viewed (0) -
cmd/erasure-healing-common_test.go
Checksums: map[string]string(nil), }, }, Erasure: ErasureInfo{ Algorithm: "ReedSolomon", DataBlocks: 6, ParityBlocks: 6, BlockSize: 1048576, Index: 1, Distribution: []int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12}, Checksums: []ChecksumInfo{{PartNumber: 1, Algorithm: 0x3, Hash: []uint8{}}}, }, NumVersions: 1, Idx: 0, }
Registered: Sun Nov 03 19:28:11 UTC 2024 - Last Modified: Tue Oct 01 15:19:10 UTC 2024 - 23.1K bytes - Viewed (0) -
docs/bucket/versioning/DESIGN.md
"X-Minio-Internal-Server-Side-Encryption-Seal-Algorithm": "REFSRXYyLUhNQUMtU0hBMjU2", "X-Minio-Internal-Server-Side-Encryption-Iv": "bW5YRDhRUGczMVhkc2pJT1V1UVlnbWJBcndIQVhpTUN1dnVBS0QwNUVpaz0=",
Registered: Sun Nov 03 19:28:11 UTC 2024 - Last Modified: Sun Jul 17 15:43:14 UTC 2022 - 5.8K bytes - Viewed (0) -
internal/http/lambda-headers.go
AmzFwdHeaderSSE = "x-amz-fwd-header-x-amz-server-side-encryption" AmzFwdHeaderSSEC = "x-amz-fwd-header-x-amz-server-side-encryption-customer-algorithm" AmzFwdHeaderSSEKMSID = "x-amz-fwd-header-x-amz-server-side-encryption-aws-kms-key-id" AmzFwdHeaderSSECMD5 = "x-amz-fwd-header-x-amz-server-side-encryption-customer-key-MD5"
Registered: Sun Nov 03 19:28:11 UTC 2024 - Last Modified: Tue Mar 07 16:12:41 UTC 2023 - 3.1K bytes - Viewed (0) -
internal/config/certsinfo.go
var buf strings.Builder buf.WriteString(color.Blue("\nCertificate:\n")) if cert.SignatureAlgorithm != x509.UnknownSignatureAlgorithm { buf.WriteString(color.Blue("%4sSignature Algorithm: ", "") + color.Bold(fmt.Sprintf("%s\n", cert.SignatureAlgorithm))) } // Issuer information buf.WriteString(color.Blue("%4sIssuer: ", "")) printName(cert.Issuer.Names, &buf) // Validity information
Registered: Sun Nov 03 19:28:11 UTC 2024 - Last Modified: Tue Nov 16 17:28:29 UTC 2021 - 3.1K bytes - Viewed (0) -
internal/event/target/kafka_scram_client_contrib.go
scram.HashGeneratorFcn } // Begin constructs a SCRAM client component based on a given hash.Hash // factory receiver. This constructor will normalize the username, password // and authzID via the SASLprep algorithm, as recommended by RFC-5802. If // SASLprep fails, the method returns an error. func (x *XDGSCRAMClient) Begin(userName, password, authzID string) (err error) {
Registered: Sun Nov 03 19:28:11 UTC 2024 - Last Modified: Thu Nov 09 04:04:01 UTC 2023 - 3.2K bytes - Viewed (0) -
src/main/java/jcifs/pac/PacMac.java
} return calculateMacHMACAES(usage, key, data); } else { throw new PACDecodingException("Invalid MAC algorithm"); } } catch ( GeneralSecurityException e ) { throw new PACDecodingException("Failed to calculate MAC", e); } }
Registered: Sun Nov 03 00:10:13 UTC 2024 - Last Modified: Sun Jul 01 13:12:10 UTC 2018 - 7K bytes - Viewed (0)