Configure SSH Multi-Factor Authentication on OneFS Using Duo
Thu, 27 Jan 2022 21:03:07 -0000
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Duo Security at Cisco is a vendor of cloud-based multi-factor authentication (MFA) services. MFA enables security to prevent a hacker from masquerading as an authenticated user. Duo allows an administrator to require multiple options for secondary authentication. With multi-factor authentication, even though a hacker steals the username and password, he cannot be authenticated to a network service easily without a user’s device.
SSH Multi-Factor Authentication (MFA) with Duo is a new feature introduced in OneFS 8.2. Currently, OneFS supports the SSH MFA with Duo service through SMS (short message service), phone callback, and Push notification via the Duo app. This blog describes how to integrate OneFS SSH MFA with the Duo service.
Duo supports many kinds of applications, such as Microsoft Azure Active Directory, Cisco Webex, and Amazon Web Services. For a OneFS cluster, it appears as a "Unix Application" entry. To integrate OneFS with the Duo service, you must configure the Duo service and the OneFS cluster. Before configuring OneFS with Duo, you need to have Duo account. In this blog, we used a trial version account for demonstration purposes.
Failback mode
By default, the SSH failback mode for Duo in OneFS is “safe”, which allows common authentication if the Duo service is not available. The “secure” mode will deny SSH access if the Duo service is not available, including the bypass users, because the bypass users are defined and validated in the Duo service. To configure the failback mode in OneFS, specify the --failmode option using the following command:
# isi auth duo modify --failmode
Exclusion group
By default, all groups are required to use Duo unless the group is configured to bypass Duo auth. The groups option allows you to exclude or specify dedicated user groups from using Duo service authentication. This method provides a way to configure users so they can still SSH into the cluster even when the Duo service is not available and failback mode is set to “secure”. Otherwise, all users may be locked out of the cluster in this situation.
To configure the exclusion group option, add an exclamation character “!” before the group name and preceded by an asterisk to ensure that all other groups use Duo service. For example:
# isi auth duo modify --groups=”*,!groupname”
Note: zsh shell requires the “!” to be escaped. In this case, the example above should be changed to:
# isi auth duo modify --groups=”*,\!groupname”
Prepare the Duo service for OneFS
1. Use your new Duo account to log into the Duo Admin Panel. Select the Application item from the left menu, then click Protect an Application, as shown in Figure 1.
Figure 1 Protect an Application
2. Type “Unix Application” in the search bar. Click Protect this Application to create a new UNIX Application entry.
Figure 2 Search for UNIX Application
3. Scroll down the creation page to find the Settings section. Type a name for the new UNIX Application. Try to use a name that can recognize your OneFS cluster, as shown in Figure 3. In the Settings section, you can also find the Duo’s name normalization setting.
By default, Duo username normalization is not AD aware. This means that it will alter incoming usernames before trying to match them to a user account. For example, "DOMAIN\username", "username@domain.com", and "username" are treated as the same user. For other options, refer to here.
Figure 3 UNIX Application Name
4. Check the required information for OneFS under the Details section, including API hostname, integration key, and secret key, as shown in Figure 4.
Figure 4 Required Information for OneFS
5. Manually enroll a user. In this example, we are creating a user named admin, which is the default OneFS administrator user. Switch the menu item to Users and click the Add User button, as shown in Figure 5. For details about user enrollment in the Duo service, refer to the Duo documentation Enrolling Users.
Figure 5 User Enrollment
6. Type the user name, as shown in Figure 6.
Figure 6 Manually User Enrollment
7. Find the Phones settings in the user page and click the Add Phone button to add a device for the user. See Figure 7.
Figure 7 Add Phone for User
8. Type your phone number.
Figure 8 Add New Phone
9. (optional) If you want to use Duo push authentication methods, you need to install the Duo Mobile app in the phone and activate the Duo Mobile app. As highlighted in Figure 9, click the link to activate the Duo Mobile app.
Figure 9 Activate the Duo Mobile app
The Duo service is now prepared for OneFS. Now let's go on to configure OneFS.
Configuring and verifying OneFS
1. By default, the authentication setting template is set for “any”. To use OneFS with the Duo service, the authentication setting template must not be set to “any” or “custom”. It should be set to “password”, “publickey”, or “both”. In the following example, we are configuring the setting to “password”, which will use user password and Duo for SSH MFA.
# isi ssh modify --auth-settings-template=password
2. To confirm the authentication method, use the following command:
# isi ssh settings view| grep "Auth Settings Template"
Auth Settings Template: password
3. Configure the required Duo service information and enable it for SSH MFA, as shown here. Use the same information as when we set up the UNIX Application in Duo, including API hostname, integration key, and secret key.
# isi auth duo modify --enabled=true --failmode=safe --host=api-13b1ee8c.duosecurity.com --ikey=DIRHW4IRSC7Q4R1YQ3CQ --set-skey Enter skey: Confirm:
4. Verify SSH MFA using the user “admin”. An SMS passcode and the user’s password are used for authentication in this example, as shown in Figure 10.
Figure 10 SSH MFA Verification
You have now completed the configuration on your Duo service portal and OneFS cluster as well! SSH users have to be authenticated with Duo, therefore, you can further strengthen your OneFS cluster security with MFA enabled.
Author: Lieven Lin
Related Blog Posts
OneFS and HTTP Security
Mon, 22 Apr 2024 20:35:30 -0000
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To enable granular HTTP security configuration, OneFS provides an option to disable nonessential HTTP components selectively. This can help reduce the overall attack surface of your infrastructure. Disabling a specific component’s service still allows other essential services on the cluster to continue to run unimpeded. In OneFS 9.4 and later, you can disable the following nonessential HTTP services:
Service | Description |
PowerScaleUI | The OneFS WebUI configuration interface. |
Platform-API-External | External access to the OneFS platform API endpoints. |
Rest Access to Namespace (RAN) | REST-ful access by HTTP to a cluster’s /ifs namespace. |
RemoteService | Remote Support and In-Product Activation. |
SWIFT (deprecated) | Deprecated object access to the cluster using the SWIFT protocol. This has been replaced by the S3 protocol in OneFS. |
You can enable or disable each of these services independently, using the CLI or platform API, if you have a user account with the ISI_PRIV_HTTP RBAC privilege.
You can use the isi http services CLI command set to view and modify the nonessential HTTP services:
# isi http services list ID Enabled ------------------------------ Platform-API-External Yes PowerScaleUI Yes RAN Yes RemoteService Yes SWIFT No ------------------------------ Total: 5
For example, you can easily disable remote HTTP access to the OneFS /ifs namespace as follows:
# isi http services modify RAN --enabled=0
You are about to modify the service RAN. Are you sure? (yes/[no]): yes
Similarly, you can also use the WebUI to view and edit a subset of the HTTP configuration settings, by navigating to Protocols > HTTP settings:
That said, the implications and impact of disabling each of the services is as follows:
Service | Disabling impacts |
WebUI | The WebUI is completely disabled, and access attempts (default TCP port 8080) are denied with the warning Service Unavailable. Please contact Administrator. If the WebUI is re-enabled, the external platform API service (Platform-API-External) is also started if it is not running. Note that disabling the WebUI does not affect the PlatformAPI service. |
Platform API | External API requests to the cluster are denied, and the WebUI is disabled, because it uses the Platform-API-External service. Note that the Platform-API-Internal service is not impacted if/when the Platform-API-External is disabled, and internal pAPI services continue to function as expected. If the Platform-API-External service is re-enabled, the WebUI will remain inactive until the PowerScaleUI service is also enabled. |
RAN | If RAN is disabled, the WebUI components for File System Explorer and File Browser are also automatically disabled. From the WebUI, attempts to access the OneFS file system explorer (File System > File System Explorer) fail with the warning message Browse is disabled as RAN service is not running. Contact your administrator to enable the service. This same warning also appears when attempting to access any other WebUI components that require directory selection. |
RemoteService | If RemoteService is disabled, the WebUI components for Remote Support and In-Product Activation are disabled. In the WebUI, going to Cluster Management > General Settings and selecting the Remote Support tab displays the message The service required for the feature is disabled. Contact your administrator to enable the service. In the WebUI, going to Cluster Management > Licensing and scrolling to the License Activation section displays the message The service required for the feature is disabled. Contact your administrator to enable the service. |
SWIFT | Deprecated object protocol and disabled by default. |
You can use the CLI command isi http settings view to display the OneFS HTTP configuration:
# isi http settings view Access Control: No Basic Authentication: No WebHDFS Ran HTTPS Port: 8443 Dav: No Enable Access Log: Yes HTTPS: No Integrated Authentication: No Server Root: /ifs Service: disabled Service Timeout: 8m20s Inactive Timeout: 15m Session Max Age: 4H Httpd Controlpath Redirect: No
Similarly, you can manage and change the HTTP configuration using the isi http settings modify CLI command.
For example, to reduce the maximum session age from four to two hours:
# isi http settings view | grep -i age Session Max Age: 4H # isi http settings modify --session-max-age=2H # isi http settings view | grep -i age Session Max Age: 2H
The full set of configuration options for isi http settings includes:
Option | Description |
--access-control <boolean> | Enable Access Control Authentication for the HTTP service. Access Control Authentication requires at least one type of authentication to be enabled. |
--basic-authentication <boolean> | Enable Basic Authentication for the HTTP service. |
--webhdfs-ran-https-port <integer> | Configure Data Services Port for the HTTP service. |
--revert-webhdfs-ran-https-port | Set value to system default for --webhdfs-ran-https-port. |
--dav <boolean> | Comply with Class 1 and 2 of the DAV specification (RFC 2518) for the HTTP service. All DAV clients must go through a single node. DAV compliance is NOT met if you go through SmartConnect, or using 2 or more node IPs. |
--enable-access-log <boolean> | Enable writing to a log when the HTTP server is accessed for the HTTP service. |
--https <boolean> | Enable the HTTPS transport protocol for the HTTP service. |
--https <boolean> | Enable the HTTPS transport protocol for the HTTP service. |
--integrated-authentication <boolean> | Enable Integrated Authentication for the HTTP service. |
--server-root <path> | Document root directory for the HTTP service. Must be within /ifs. |
--service (enabled | disabled | redirect | disabled_basicfile) | Enable/disable the HTTP Service or redirect to WebUI or disabled BasicFileAccess. |
--service-timeout <duration> | The amount of time (in seconds) that the server will wait for certain events before failing a request. A value of 0 indicates that the service timeout value is the Apache default. |
--revert-service-timeout | Set value to system default for --service-timeout. |
--inactive-timeout <duration> | Get the HTTP RequestReadTimeout directive from both the WebUI and the HTTP service. |
--revert-inactive-timeout | Set value to system default for --inactive-timeout. |
--session-max-age <duration> | Get the HTTP SessionMaxAge directive from both WebUI and HTTP service. |
--revert-session-max-age | Set value to system default for --session-max-age. |
--httpd-controlpath-redirect <boolean> | Enable or disable WebUI redirection to the HTTP service. |
Note that while the OneFS S3 service uses HTTP, it is considered a tier-1 protocol, and as such is managed using its own isi s3 CLI command set and corresponding WebUI area. For example, the following CLI command forces the cluster to only accept encrypted HTTPS/SSL traffic on TCP port 9999 (rather than the default TCP port 9021):
# isi s3 settings global modify --https-only 1 –https-port 9921 # isi s3 settings global view HTTP Port: 9020 HTTPS Port: 9999 HTTPS only: Yes S3 Service Enabled: Yes
Additionally, you can entirely disable the S3 service with the following CLI command:
# isi services s3 disable The service 's3' has been disabled.
Or from the WebUI, under Protocols > S3 > Global settings:
Author: Nick Trimbee
OneFS Key Manager Rekey Support
Mon, 24 Jul 2023 19:16:34 -0000
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The OneFS key manager is a backend service that orchestrates the storage of sensitive information for PowerScale clusters. To satisfy Dell’s Secure Infrastructure Ready requirements and other public and private sector security mandates, the manager provides the ability to replace, or rekey, cryptographic keys.
The quintessential consumer of OneFS key management is data-at-rest encryption (DARE). Protecting sensitive data stored on the cluster with cryptography ensures that it’s guarded against theft, in the event that drives or nodes are removed from a PowerScale cluster. DARE is a requirement for federal and industry regulations, ensuring data is encrypted when it is stored. OneFS has provided DARE solutions for many years through secure encrypted drives (SEDs) and the OneFS key management system.
A 256-bit key (MK) encrypts the Key Manager Database (KMDB) for SED and cluster domains. In OneFS 9.2 and later, the MK for SEDs can either be stored off-cluster on a KMIP server or locally on a node (the legacy behavior).
However, there are a variety of other consumers of the OneFS key manager, in addition to DARE. These include services and protocols such as:
Service | Description |
---|---|
CELOG | Cluster event log |
CloudPools | Cluster tier to cloud service |
Electronic mail | |
FTP | File transfer protocol |
IPMI | Intelligent platform management interface for remote cluster console access |
JWT | JSON web tokens |
NDMP | Network data management protocol for cluster backups and DR |
Pstore | Active directory and Kerberos password store |
S3 | S3 object protocol |
SyncIQ | Cluster replication service |
SmartSync | OneFS push and pull replication cluster and cloud replication service |
SNMP | Simple network monitoring protocol |
SRS | Old Dell support remote cluster connectivity |
SSO | Single sign-on |
SupportAssist | Remote cluster connectivity to Dell Support |
OneFS 9.5 introduces a number of enhancements to the venerable key manager, including:
- The ability to rekey keystores. Rekey operation will generate a new MK and re-encrypt all entries stored with the new key.
- New CLI commands and WebUI options to perform a rekey operation or schedule key rotation on a time interval.
- New commands to monitor the progress and status of a rekey operation.
As such, OneFS 9.5 now provides the ability to rekey the MK, irrespective of where it is stored.
Note that when you are upgrading from an earlier OneFS release, the new rekey functionality is only available once the OneFS 9.5 upgrade has been committed.
Under the hood, each provider store in the key manager consists of secure backend storage and an MK. Entries are kept in a SQLite database or key-value store. A provider datastore uses its MK to encrypt all its entries within the store.
During the rekey process, the old MK is only deleted after a successful re-encryption with the new MK. If for any reason the process fails, the old MK is available and remains as the current MK. The rekey daemon retries the rekey every 15 minutes if the process fails.
The OneFS rekey process is as follows:
- A new MK is generated, and internal configuration is updated.
- Any entries in the provider store are decrypted and encrypted with the new MK.
- If the prior steps are successful, the previous MK is deleted.
To support the rekey process, the MK in OneFS 9.5 now has an ID associated with it. All entries have a new field referencing the MK ID.
During the rekey operation, there are two MK values with different IDs, and all entries in the database will associate which key they are encrypted by.
In OneFS 9.5, the rekey configuration and management is split between the cluster keys and the SED keys:
Rekey component | Detail |
---|---|
SED |
|
Cluster |
|
SED keys rekey
The SED key manager rekey operation can be managed through a DARE cluster’s CLI or WebUI, and it can either be automatically scheduled or run manually on demand. The following CLI syntax can be used to manually initiate a rekey:
# isi keymanager sed rekey start
Alternatively, to schedule a rekey operation, for example, to schedule a key rotation every two months:
# isi keymanager sed rekey modify --key-rotation=2m
The key manager status for SEDs can be viewed as follows:
# isi keymanager sed status Node Status Location Remote Key ID Key Creation Date Error Info(if any) ----------------------------------------------------------------------------- 1 LOCAL Local 1970-01-01T00:00:00 ----------------------------------------------------------------------------- Total: 1
Alternatively, from the WebUI, go to Access > Key Management > SED/Cluster Rekey, select Automatic rekey for SED keys, and configure the rekey frequency:
Note that for SED rekey operations, if a migration from local cluster key management to a KMIP server is in progress, the rekey process will begin once the migration is complete.
Cluster keys rekey
As mentioned previously, OneFS 9.5 also supports the rekey of cluster keystore domains. This cluster rekey operation is available through the CLI and the WebUI and may either be scheduled or run on demand. The available cluster domains can be queried by running the following CLI syntax:
# isi keymanager cluster status Domain Status Key Creation Date Error Info(if any) ---------------------------------------------------------- CELOG ACTIVE 2023-04-06T09:19:16 CERTSTORE ACTIVE 2023-04-06T09:19:16 CLOUDPOOLS ACTIVE 2023-04-06T09:19:16 EMAIL ACTIVE 2023-04-06T09:19:16 FTP ACTIVE 2023-04-06T09:19:16 IPMI_MGMT IN_PROGRESS 2023-04-06T09:19:16 JWT ACTIVE 2023-04-06T09:19:16 LHOTSE ACTIVE 2023-04-06T09:19:11 NDMP ACTIVE 2023-04-06T09:19:16 NETWORK ACTIVE 2023-04-06T09:19:16 PSTORE ACTIVE 2023-04-06T09:19:16 RICE ACTIVE 2023-04-06T09:19:16 S3 ACTIVE 2023-04-06T09:19:16 SIQ ACTIVE 2023-04-06T09:19:16 SNMP ACTIVE 2023-04-06T09:19:16 SRS ACTIVE 2023-04-06T09:19:16 SSO ACTIVE 2023-04-06T09:19:16 ---------------------------------------------------------- Total: 17
The rekey process generates a new key and re-encrypts the entries for the domain. The old key is then deleted.
Performance-wise, the rekey process does consume cluster resources (CPU and disk) as a result of the re-encryption phase, which is fairly write-intensive. As such, a good practice is to perform rekey operations outside of core business hours or during scheduled cluster maintenance windows.
During the rekey process, the old MK is only deleted once a successful re-encryption with the new MK has been confirmed. In the event of a rekey process failure, the old MK is available and remains as the current MK.
A rekey may be requested immediately or may be scheduled with a cadence. The rekey operation is available through the CLI and the WebUI. In the WebUI, go to Access > Key Management > SED/Cluster Rekey.
To start a rekey of the cluster domains immediately, from the CLI run the following syntax:
# isi keymanager cluster rekey start Are you sure you want to rekey the master passphrase? (yes/[no]):yes
Alternatively, from the WebUI, go to Access under the SED/Cluster Rekey tab, and click Rekey Now next to Cluster keys:
A scheduled rekey of the cluster keys (excluding the SED keys) can be configured from the CLI with the following syntax:
# isi keymanager cluster rekey modify –-key-rotation [YMWDhms]
Specify the frequency of the Key Rotation field as an integer, using Y for years, M for months, W for weeks, D for days, h for hours, m for minutes, and s for seconds. For example, the following command will schedule the cluster rekey operation to run every six weeks:
# isi keymanager cluster rekey view Rekey Time: 1970-01-01T00:00:00 Key Rotation: Never # isi keymanager cluster rekey modify --key-rotation 6W # isi keymanager cluster rekey view Rekey Time: 2023-04-28T18:38:45 Key Rotation: 6W
The rekey configuration can be easily reverted back to on demand from a schedule as follows:
# isi keymanager cluster rekey modify --key-rotation Never # isi keymanager cluster rekey view Rekey Time: 2023-04-28T18:38:45 Key Rotation: Never
Alternatively, from the WebUI, under the SED/Cluster Rekey tab, select the Automatic rekey for Cluster keys checkbox and specify the rekey frequency. For example:
In an event of a rekeying failure, a CELOG KeyManagerRekeyFailed or KeyManagerSedsRekeyFailed event is created. Since SED rekey is a node-local operation, the KeyManagerSedsRekeyFailed event information will also include which node experienced the failure.
Additionally, current cluster rekey status can also be queried with the following CLI command:
# isi keymanager cluster status Domain Status Key Creation Date Error Info(if any) ---------------------------------------------------------- CELOG ACTIVE 2023-04-06T09:19:16 CERTSTORE ACTIVE 2023-04-06T09:19:16 CLOUDPOOLS ACTIVE 2023-04-06T09:19:16 EMAIL ACTIVE 2023-04-06T09:19:16 FTP ACTIVE 2023-04-06T09:19:16 IPMI_MGMT ACTIVE 2023-04-06T09:19:16 JWT ACTIVE 2023-04-06T09:19:16 LHOTSE ACTIVE 2023-04-06T09:19:11 NDMP ACTIVE 2023-04-06T09:19:16 NETWORK ACTIVE 2023-04-06T09:19:16 PSTORE ACTIVE 2023-04-06T09:19:16 RICE ACTIVE 2023-04-06T09:19:16 S3 ACTIVE 2023-04-06T09:19:16 SIQ ACTIVE 2023-04-06T09:19:16 SNMP ACTIVE 2023-04-06T09:19:16 SRS ACTIVE 2023-04-06T09:19:16 SSO ACTIVE 2023-04-06T09:19:16 ---------------------------------------------------------- Total: 17
Or, for SEDs rekey status:
# isi keymanager sed status Node Status Location Remote Key ID Key Creation Date Error Info(if any) ----------------------------------------------------------------------------- 1 LOCAL Local 1970-01-01T00:00:00 2 LOCAL Local 1970-01-01T00:00:00 3 LOCAL Local 1970-01-01T00:00:00 4 LOCAL Local 1970-01-01T00:00:00 ----------------------------------------------------------------------------- Total: 4
The rekey process also outputs to the /var/log/isi_km_d.log file, which is a useful source for additional troubleshooting.
If an error in rekey occurs, the previous MK is not deleted, so entries in the provider store can still be created and read as normal. The key manager daemon will retry the rekey operation in the background every 15 minutes until it succeeds.
Author: Nick Trimbee