3. SharePoint Security
Layers of Security in a SharePoint Environment
• 1: Infrastructure Security
– Physical Security
– Best Practice Service Account Setup
– Kerberos Authentication
• 2: Data Security
– Role Based Access Control (RBAC)
– Transparent Data Encryption (TDE) of SQL Databases
– Antivirus
• 3: Transport Security
– Secure Sockets Layer (SSL) from Client to Server
– IPSec from Server to Server
• 4: Edge Security
– Inbound Internet Security (Forefront UAG/TMG)
• 5: Rights Management
5. Layer 1: Infrastructure Security
Sample List of Service Accounts
Service Account Name Role of Service Account Special Permissions
COMPANYABCSRV-SP-Setup SharePoint Installation Account Local Admin on all SP Servers (for installs)
COMPANYABCSRV-SP-SQL SQL Service Account(s) – Should be separate Local Admin on Database Server(s)
admin accounts from SP accounts. (Generally, some exceptions apply)
COMPANYABCSRV-SP-Farm SharePoint Farm Account(s) – Can also be N/A
standard admin accounts. RBAC principles
apply ideally.
COMPANYABCSRV-SP-Search Search Account N/A
COMPANYABCSRV-SP-Content Default Content Access Account Read rights to any external data sources
to be crawled
COMPANYABCSRV-SP-Prof Default Profiles Access Account Member of Domain Users (to be able to
read attributes from users in domain) and
‘Replicate Directory Changes’ rights in AD.
COMPANYABCSRV-SP-AP-SPCA Application Pool Identity account for DBCreator and Security Admin on SQL.
SharePoint Central Admin. Create and Modify contacts rights in OU
used for mail.
COMPANYABCSRV-SP-AP-Data Application Pool Identity account for the N/A
Content related App Pool (Portal, MySites,
etc.) Additional as needed for security.
6. Layer 1: Infrastructure Security
Enable Kerberos
• When creating any Web Applications in Classic-mode, USE
KERBEROS. It is much more secure and also faster with heavy
loads as the SP server doesn’t have to keep asking for auth
requests from AD.
• Kerberos auth does require extra steps, which makes people
shy away from it, but once configured, it improves security
considerably and can improve performance on high-load sites.
• Should also be configured on SPCA Site! (Best Practice =
Configure SPCA for NLB, SSL, and Kerberos (i.e.
https://spca.companyabc.com)
7. Layer 1: Infrastructure Security
Kerberos Step 1: Create the Service Principal Names
• Use the setspn utility to create Service Principle Names in
AD, the following syntax for example:
– Setspn.exe -A HTTP/mysite.companyabc.com
DOMAINNAMEMYSiteAppAccount
– Setspn.exe -A HTTP/mysite DOMAINNAMEMYSITEAppAccount
– Setspn.exe -A HTTP/home.companyabc.com
DOMAINNAMEHOMEAppAccount
– Setspn.exe -A HTTP/sp DOMAINNAMEHOMEAppAccount
8. Layer 1: Infrastructure Security
Kerberos Step 2: Enable Kerberos between SP and SQL
• Use setspn to create SPNs for SQL Service Account
• SPNs need to match the name that SharePoint uses to
connect to SQL (Ideally SQL Alias, more on this later)
• Syntax similar to following:
– Setspn.exe -A MSSQLSvc/spsql:1433 COMPANYABCSRV-SQL-DB
– Setspn.exe –A MSSQLSvc/spsql.companyabc.com:1433
COMPANYABCSRV-SQL-DB
• MSSQLSvc = Default instance, if named instance, specify the name
instead
• In this example, SRV-SQL-DB is the SQL Admin account
9. Layer 1: Infrastructure Security
Kerberos Step 3: Allow Accounts to Delegate (Optional)
• Required only for Excel
Services and other
impersonation applications.
• On all SP Computer accounts
and on the Application
Identity accounts, check the
box in ADUC to allow for
delegation.
– In ADUC, navigate to the
computer or user account,
right-click and choose
Properties.
– Go to the Delegation tab
– Choose Trust this
user/computer for delegation
to any service (Kerberos)
10. Layer 1: Infrastructure Security
Kerberos Step 4: Enable Kerberos on Web Application
• Go to Application Management – Authentication Providers
• Choose the appropriate Web Application
• Click on the link for ‘Default’ under Zone
• Change to Integrated Windows Authentication - Kerberos
(Negotiate)
• Run iisreset /noforce from the command prompt
• If creating Web App from scratch, this step may be unnecessary
if you choose Negotiate from the beginning
12. Layer 2: Data Security
Role Based Access Control (RBAC)
• Role Groups defined within Active Directory (Universal
Groups) – i.e. ‘Marketing,’ ‘Sales,’ ‘IT,’ etc.
• Role Groups added directly into SharePoint ‘Access Groups’
such as ‘Contributors,’ ‘Authors,’ etc.
• Simply by adding a user account into the associated Role
Group, they gain access to whatever rights their role
requires.
User1
Role SharePoint
Group Group
User2
13. Layer 2: Data Security
SQL Transparent Data Encryption (TDE)
• SQL Server 2008 and 2008 R2 Enterprise Edition Feature
• Encrypts SQL Databases Transparently, SharePoint is unaware
of the encryption and does not need a key
• Encrypts the backups of the database as well
14. Layer 2: Data Security
TDE vs. Cell Level Encryption
• Available with either SQL 2005 or SQL 2008
• Encrypts individual cells in a database
• Requires a password to access the cell
• Requires that columns be changed from their original data
type to varbinary
• Advantage is that only specific info is encrypted
• Disadvantage is that you cannot use this for SharePoint
Databases
15. Layer 2: Data Security
TDE vs. File Level Encryption
• Two forms, older Encrypting File System (EFS) and Bitlocker
• EFS encrypts data at the File Level
• Bitlocker encrypts data at the Volume Level
• Bitlocker Encrypts every file on the disk, not just database files
• Could be used together with TDE
16. Layer 2: Data Security
SQL Transparent Data Encryption (TDE) Limitations
• Does not encrypt the Communication Channel (IPSec can be
added)
• Does not protect data in memory (DBAs could access)
• Cannot take advantage of SQL 2008 Backup Compression
• TempDB is encrypted for the entire instance, even if only one
DB is enabled for TDE, which can have a performance effect
for other DBs
• Replication or FILESTREAM data is not encrypted when TDE is
enabled (i.e. RBS BLOBs not encrypted)
17. Key Windows OS Level Hierarchy
and Cert Data Protection API (DPAPI)
DPAPI Encrypts SMK
SQL Instance Level Service Master Key
SMK encrypts the DMK for master DB
master DB Level Database Master Key
DMK creates Cert in master DB
master DB Level Certificate
Certificate Encrypts DEK in Content DB
Content DB Level Database Encryption Key
DEK used to encrypt Content DB
18. Layer 2: Data Security
SQL TDE Step 1: Creating the Database Master Key (DMK)
• Symmetric key used to protect private keys and asymmetric
keys
• Protected itself by Service Master Key (SMK), which is created
by SQL Server setup
• Use syntax as follows:
– USE master;
– GO
– CREATE MASTER KEY ENCRYPTION BY PASSWORD =
'CrypticTDEpw4CompanyABC';
– GO
19. Layer 2: Data Security
SQL TDE Step 2: Creating the TDE Certificate
• Protected by the DMK
• Used to protect the database encryption key
• Use syntax as follows:
USE master;
GO
CREATE CERTIFICATE CompanyABCtdeCert WITH SUBJECT =
'CompanyABC TDE Certificate' ;
GO
20. Layer 2: Data Security
SQL TDE Step 3: Backup the Master Key
• Without a backup, data can be lost
• Backup creates two files, the Cert backup and the Private Key File
• Use following syntax:
USE master;
GO
BACKUP CERTIFICATE CompanyABCtdeCert TO FILE =
'c:BackupCompanyABCtdeCERT.cer'
WITH PRIVATE KEY (
FILE = 'c:BackupCompanyABCtdeDECert.pvk',
ENCRYPTION BY PASSWORD = 'CrypticTDEpw4CompanyABC!' );
GO
21. Layer 2: Data Security
SQL TDE Step 4: Creating the Database Encryption Key (DEK)
• DEK is used to encrypt specific database
• One created for each database
• Encryption method can be chosen for each DEK
• Use following syntax:
USE SharePointContentDB;
GO
CREATE DATABASE ENCRYPTION KEY
WITH ALGORITHM = AES_256
ENCRYPTION BY SERVER CERTIFICATE CompanyABCtdeCert
GO
22. Layer 2: Data Security
SQL TDE Step 5: Enable TDE on the Database(s)
• Data encryption will begin after running command
• Size of DB will determine time it will take, can be lengthy and
could cause user blocking
• Use following syntax:
USE SharePointContentDB
GO
ALTER DATABASE SharePointContentDB
SET ENCRYPTION ON
GO
23. Layer 2: Data Security
SQL TDE Step 6: Monitor the TDE Encryption Progress
• State is Returned
• State of 2 = Encryption Begun
• State of 3 = Encryption Complete
• Use following syntax:
USE SharePointContentDB
GO
SELECT *
FROM sys.dm_database_encryption_keys
WHERE encryption_state = 3;
GO
24. Layer 2: Data Security
SQL TDE: Restoring a TDE Database to Another Server
• Step 1: Create new Master Key on Target Server (Does not need to match
source master key)
• Step 2: Backup Cert and Private Key from Source
• Step 3: Restore Cert and Private Key onto Target (No need to export the
DEK as it is part of the backup)
USE master;
GO
CREATE CERTIFICATE CompanyABCtdeCert
FROM FILE = 'C:RestoreCompanyABCtdeCert.cer'
WITH PRIVATE KEY (
FILE = 'C:RestoreCompanyABCtdeCert.pvk'
, DECRYPTION BY PASSWORD = 'CrypticTDEpw4CompanyABC!'
)
• Step 4: Restore DB
28. Layer 2: Data Security
SharePoint Antivirus VSAPI
• Realtime scanning only uses the VSAPI
• Realtime Scan Settings are Administered through the
SharePoint Central Admin Tool
– Realtime Options are grayed out in the ForeFront Admin
Console
29. Layer 2: Data Security
SharePoint Antivirus: FPS Keyword and File Filtering
• Look for specific
keywords (sensitive
company info,
profanity, etc.)
– Block
– Simply detect and
notify
• Create Filter List
– Add Keywords, either
manually or bulk as
lines in a text file
30. Layer 2: Data Security
SharePoint Antivirus: FPS Profanity Filters
• New Profanity lists in 11 languages
available in SP2
– (Run KeywordInstaller.msi to install)
– Import the lists into FF from Program
FilesMicrosoft Forefront
SecuritySharePointDataExample
Keywords
32. Layer 3: Transport Security
Client to Server: Using Secure Sockets Layer (SSL) Encryption
• External or Internal Certs highly recommended
• Protects Transport of content
• 20% overhead on Web Servers
• Can be offloaded via SSL offloaders if needed
• Don’t forget for SPCA as well!
33. Layer 3: Transport Security
Server to Server: Using IPSec to encrypt traffic
• By default, traffic between SharePoint Servers (i.e. Web
and SQL) is unencrypted
• IPSec encrypts all packets sent between servers in a farm
• For very high security scenarios when all possible data
breaches must be addressed
37. Layer 4: Edge Security
UAG Comparison with Forefront TMG
Capability TMG 2010 UAG
2010
Publish Web applications using HTTPS X X
Publish internal mobile applications to roaming mobile devices X X
Layer 3 firewall X X*
Outbound scenarios support X X*
Array support X
Globalisation and administration console localization X
Wizards and predefined settings to publish SharePoint sites and Exchange X X
Wizards and predefined settings to publish various applications X
Active Directory Federation Services (ADFS) support X
Rich authentication (for example, one-time password, forms-based, smart card) X X
Application protection (Web application firewall) Basic Full
Endpoint health detection X
Information leakage prevention X
Granular access policy X
Unified Portal X
39. Layer 5: Rights Management
Active Directory Rights Management Services (AD RMS)
• AD RMS is a form of Digital Rights Management (DRM)
technology, used in various forms to protect content
• Used to restrict activities on files AFTER they have
been accessed:
– Cut/Paste
– Print
– Save As…
• Directly integrates with SharePoint DocLibs
40. Layer 5: Rights Management
How AD RMS Works
1. On first use, authors
receive client licensor
certificate from RMS server
2. Author creates content and
assigns rights
3. File is distributed to
recipient(s)
4. Recipient opens file, and
their RMS client contacts
server for user validation
and to obtain a license
5. Application opens the file
and enforces the
restrictions
41. Layer 5: Rights Management
Installing AD RMS – Key Storage
• Select Cluster Key Storage
• CSP used for advanced scenarios
42. Layer 5: Rights Management
Installing AD RMS – Creating the Cluster Name
43. Layer 5: Rights Management
Installing AD RMS – Using an SSL Cert for Transport Encryption
44. Layer 5: Rights Management
Allowing SharePoint to use AD RMS
• By default, RMS server is configured to
only allow the local system account of the
RMS server or the Web Application
Identity accounts to access the certificate
pipeline directly
• SharePoint web servers and/or Web
Application Service Accounts need to be
added to this security list
• Add the RMS Service Group, the machine
account(s) of the SharePoint Server and
the Web App Identity accountswith Read
and Excecute permissions to the
ServerCertification.asmx file in the
%systemroot%inetpubwwwroot_wmcs
Certification folder on the RMS server
45.
46. Layer 5: Rights Management
Client Accessing AD RMS Documents
• RMS-enabled client, when accessing document in doclib, will
access RMS server to validate credentials
47. Layer 5: Rights Management
Client Accessing AD RMS Documents
• Effective permissions can
be viewed from the
document
• The RMS client will
enforce the restrictions
48. Session Summary
• Determine Security Risk for your SharePoint
Environment
• Identify any Regulatory Compliance Requirements for
SharePoint
• Address all layers of security, especially transport and
infrastructure layers, which are required for the
majority of SharePoint projects
• Determine which aspects of SharePoint need to be
secured, touching on all five layers of SharePoint
Security