| intCertNum |
2568 |
| strVendorName |
Security First Corp. |
| strURL |
http://www.securityfirstcorp.com |
| strAddress1 |
29811 Santa Margarita Parkway |
| strAddress2 |
Suite 600 |
| strAddress3 |
|
| strCity |
Rancho Santa Margarita |
| strStateProv |
CA |
| strPostalCode |
92688 |
| strCountry |
92688 |
| strContact |
Rick Orsini |
| strEmail |
rorsini@SecurityFirstCorp.com |
| strPhone |
949-858-7525 |
| strFax |
949-858-7092 |
| strContact2 |
|
| strEmail2 |
|
| strFax2 |
|
| strPhone2 |
|
| intCertNum |
2568 |
| strModuleName |
SecureParser |
| strPartNumber |
Software Version: 4.7.1 |
| memModuleNotes |
When operated in FIPS mode |
| str140Version |
140-2 |
| _sp_ |
Security Policy [pdf][html][txt] |
| _cert_ |
Certificate [pdf] |
| strPURL |
|
| strModuleType |
Software |
| strValidationDate |
02/22/2016 |
| intOverallLevel |
1 |
| memIndividualLevelNotes |
-Cryptographic Module Specification: Level 3;-EMI/EMC: Level 3;-Design Assurance: Level 3;-Operational Environment: Microsoft Windows 8 64-bit running on a Lenovo ThinkPad X140e with PAA; Microsoft Windows 8 64-bit running on a Lenovo ThinkPad X140e without PAA; Microsoft Windows 7 64-bit running on a Dell Inspiron 660 with PAA; Microsoft Windows 7 64-bit running on a Dell Inspiron 660 without PAA; Android 4.4 running on a Samsung Galaxy S5; Android 5.0 running on a Samsung Galaxy Note 3; Android 4.4 running on Samsung Galaxy Note 4 (single-user mode) |
| strFIPSAlgorithms |
AES (Cert. #3365);
DRBG (Cert. #793);
ECDSA (Cert. #668);
HMAC (Cert. #2145);
RSA (Cert. #1729);
SHS (Cert. #2790) |
| strOtherAlgorithms |
RSA (key wrapping;
key establishment methodology provides 128 bits of encryption strength);
AES (Cert. #3365, key wrapping;
key establishment methodology provides between 128 and 256 bits of encryption strength) |
| strConfiguration |
Multi-Chip Stand Alone |
| memModuleDescription |
The SecureParser is a security and high data availability architecture delivered in the form of a software toolkit that provides cryptographic data splitting (data encryption, random or deterministic distribution to multiple shares including additional fault tolerant bits, key splitting, authentication, integrity, share reassembly, key restoration and decryption) of arbitrary data. During the split process, additional redundant data may be optionally written to each share enabling the capability of restoring the original data when all shares are not available. |
| intModuleCount |
1 |
| memAdditionalNotes |
|
| strFirstValidtionDate |
02/22/16 00:00:00 |
| strLabName |
InfoGard |
| strValidationYear |
2016 |