6. System¶
The System section of the web interface contains these entries:
- General configures general settings such as HTTPS access, the language, and the timezone
- NTP Servers adds, edits, and deletes Network Time Protocol servers
- Boot Environments creates, renames, and deletes boot environments. It also shows the condition of the Boot Pool.
- Advanced configures advanced settings such as the serial console, swap space, and console messages
- Email configures the email address to receive notifications
- System Dataset configures the location where logs and reporting graphs are stored
- Alert Services configures services used to notify the administrator about system events.
- Alert Settings lists the available Alert conditions and provides configuration of the notification frequency for each alert.
- Cloud Credentials is used to enter connection credentials for remote cloud service providers
- Tunables provides a front-end for tuning in real-time and to load additional kernel modules at boot time
- Update performs upgrades and checks for system updates
- CAs: import or create internal or intermediate CAs (Certificate Authorities)
- Certificates: import existing certificates or create self-signed certificates
- Support: report a bug or request a new feature.
Each of these is described in more detail in this section.
6.1. General¶
is shown inTable 6.1.1 summarizes the configurable settings in the General tab:
Setting | Value | Description |
---|---|---|
Protocol | drop-down menu | Set the web protocol to use when connecting to the web interface from a browser. To change the default HTTP to HTTPS or to HTTP+HTTPS, select a certificate in GUI SSL Certificate. If there are no certificates, create a CA then a certificate. |
WebGUI IPv4 Address | drop-down menu | Choose a recent IP addresses to limit the usage when accessing the web interface. The built-in HTTP server binds to the wildcard address of 0.0.0.0 (any address) and issues an alert if the specified address becomes unavailable. |
WebGUI IPv6 Address | drop-down menu | Choose a recent IPv6 addresses to limit the usage when accessing the web interface. The built-in HTTP server binds to any address and issues an alert if the specified address becomes unavailable. |
WebGUI HTTP Port | integer | Allow configuring a non-standard port for accessing the web interface over HTTP. Changing this setting can also require changing a Firefox configuration setting. |
WebGUI HTTPS Port | integer | Allow configuring a non-standard port for accessing the web interface over HTTPS. |
GUI SSL Certificate | drop-down menu | Required for HTTPS. Browse to the location of the certificate to use for encrypted connections. |
WebGUI HTTP -> HTTPS Redirect | checkbox | Set to redirect HTTP connections to HTTPS. HTTPS must be selected in Protocol. |
Language | drop-down menu | Select a language. View the status of a language in the webui GitHub repository Refer to Contributing to FreeNAS® for more information about supported languages. |
Console Keyboard Map | drop-down menu | Select a keyboard layout. |
Timezone | drop-down menu | Select a timezone. |
Syslog level | drop-down menu | When Syslog server is defined, only logs matching this level are sent. |
Syslog server | string | Select an IP address_or_hostname:optional_port_number to send logs to. Set to write log entries to both the console and the remote server. |
After making any changes, click the SAVE button.
This screen also contains these buttons:
Save Config: save a backup copy of the current configuration database in the format hostname-version-architecture to the computer accessing the web interface. Saving the configuration after making any configuration changes is highly recommended. FreeNAS® automatically backs up the configuration database to the system dataset every morning at 3:45. However, this backup does not occur if the system is shut down at that time. If the system dataset is stored on the boot pool and the boot pool becomes unavailable, the backup will also not be available. The location of the system dataset can be viewed or set using
.Note
SSH keys are not stored in the configuration database and must be backed up separately.
There are two types of passwords. User account passwords for the base operating system are stored as hashed values, do not need to be encrypted to be secure, and are saved in the system configuration backup. Other passwords, like iSCSI CHAP passwords, Active Directory bind credentials, and cloud credentials are stored in an encrypted form to prevent them from being visible as plain text in the saved system configuration. The key or seed for this encryption is normally stored only on the operating system device. When Save Config is chosen, a dialog gives the option to Export Password Secret Seed with the saved configuration, allowing the configuration file to be restored to a different operating system device where the decryption seed is not already present. Configuration backups containing the seed must be physically secured to prevent decryption of passwords and unauthorized access.
Warning
The Include Password Secret Seed option is off by default and should only be used when making a configuration backup that will be stored securely. After moving a configuration to new hardware, media containing a configuration backup with a decryption seed should be securely erased before reuse.
Upload Config: allows browsing to the location of a previously saved configuration file to restore that configuration.
Reset Config: reset the configuration database to the default base version. This does not delete user SSH keys or any other data stored in a user home directory. Since configuration changes stored in the configuration database are erased, this option is useful when a mistake has been made or to return a test system to the original configuration.
6.2. NTP Servers¶
The network time protocol (NTP) is used to synchronize the time on the computers in a network. Accurate time is necessary for the successful operation of time sensitive applications such as Active Directory or other directory services. By default, FreeNAS® is pre-configured to use three public NTP servers. If the network is using a directory service, ensure that the FreeNAS® system and the server running the directory service have been configured to use the same NTP servers.
Available NTP servers can be found at https://support.ntp.org/bin/view/Servers/NTPPoolServers. For time accuracy, choose NTP servers that are geographically close to the physical location of the FreeNAS® system.
Click ADD to add an NTP server. Figure 6.2.1 shows the configuration options. Table 6.2.1 summarizes the options available when adding or editing an NTP server. ntp.conf(5) explains these options in more detail.
andSetting | Value | Description |
---|---|---|
Address | string | Enter the hostname or IP address of the NTP server. |
Burst | checkbox | Recommended when Max. Poll is greater than 10. Only use on personal servers. Do not use with a public NTP server. |
IBurst | checkbox | Speed up the initial synchronization, taking seconds rather than minutes. |
Prefer | checkbox | This option is only recommended for highly accurate NTP servers, such as those with time monitoring hardware. |
Min. Poll | integer | Minimum polling time in seconds. Must be a power of 2, and cannot be lower than 4 or higher than Max. Poll. |
Max. Poll | integer | Maximum polling time in seconds. Must be a power of 2, and cannot be higher than 17 or lower than Min. Poll. |
Force | checkbox | Force the addition of the NTP server, even if it is currently unreachable. |
6.3. Boot Environments¶
FreeNAS® supports a ZFS feature known as multiple boot environments. With multiple boot environments, the process of updating the operating system becomes a low-risk operation. The updater automatically creates a snapshot of the current boot environment and adds it to the boot menu before applying the update.
If an update fails, reboot the system and select the previous boot environment, using the instructions in If Something Goes Wrong, to instruct the system to go back to that system state.
Note
Boot environments are separate from the configuration database. Boot environments are a snapshot of the operating system at a specified time. When a FreeNAS® system boots, it loads the specified boot environment, or operating system, then reads the configuration database to load the current configuration values. If the intent is to make configuration changes rather than operating system changes, make a backup of the configuration database first using
.As seen in Figure 6.3.1, FreeNAS® displays the condition and statistics of the Boot Pool. It also shows the two boot environments that are created when FreeNAS® is installed. The system will boot into the default boot environment and users can make their changes and update from this version. The Initial-Install boot environment can be booted into if the system needs to be returned to a non-configured version of the installation.
Each boot environment entry contains this information:
- Name: the name of the boot entry as it will appear in the boot menu.
- Active: indicates which entry will boot by default if the user does not select another entry in the boot menu.
- Created: indicates the date and time the boot entry was created.
- Space: displays the size of the boot environment.
- Keep: indicates whether or not this boot environment can be pruned if an update does not have enough space to proceed. Click (Options) and Keep for an entry if that boot environment should not be automatically pruned.
Click (Options) on an entry to see these configuration buttons:
- Delete: used to delete the highlighted entry, which also removes that entry from the boot menu. Since an activated entry cannot be deleted, this button does not appear for the active boot environment. To delete an entry that is currently activated, first activate another entry, which will clear the On reboot field of the currently activated entry. Note that this button does not appear for the default boot environment as this entry is needed to return the system to the original installation state.
- Clone: makes a new boot environment from the selected boot environment.
- Rename: used to change the name of the boot environment.
- Activate: only appears on entries which are not currently set to Active. Changes the selected entry to the default boot entry on next boot. The status changes to Reboot and the current Active entry changes from Now/Reboot to Now, indicating that it was used on the last boot but will not be used on the next boot.
- Keep: used to toggle whether or not the updater can prune (automatically delete) this boot environment if there is not enough space to proceed with the update.
There are also other options available.
- Create: makes a new boot environment from the active environment.
The active boot environment contains the text
Now/Reboot
in the Active column. Only alphanumeric characters, underscores, and dashes are allowed in the name. - Scrub: Scrub Boot Pool is used to perform a manual scrub of the operating system device. By default, the operating system device is scrubbed every 7 days. To change the default interval, change the number in the Automatic scrub interval (in days) field of the Boot Environments screen. The date and results of the last scrub are also listed in this screen. The condition of the operating system device should be listed as HEALTHY.
- Status: click Boot Pool Status to see the status of the operating system device. Figure 6.3.2, shows only one operating system device, which is ONLINE.
Note
Using Clone to clone the active boot environment functions the same as using Create.
If the system has a mirrored boot pool, there will be a Detach option in addition to the Replace option. To remove a device from the boot pool, click (Options) for the device and click Detach. Alternately, if one of the operating system devices has an OFFLINE Status, click the device to replace, then click Replace to rebuild the boot mirror.
Note that the |os-device| cannot be replaced if it is the only |os-device| because it contains the operating system itself.
6.3.1. Mirroring the Operating System Device¶
If the system is currently booting from a single operating system device, another device can be added to create a mirrored operating system device. If one device in a mirror fails, the remaining device can still be used to boot the system.
Note
When adding another operating system device for a mirror, the new device must have at least the same capacity as the existing operating system device. Larger capacity devices can be added, but the mirror will only have the capacity of the smallest device. Different models of devices which advertise the same nominal size are not necessarily the same actual size. For this reason, adding another of the same model of operating system device is recommended.
In the example shown in Figure 6.3.3, the user has gone to , and clicked the BOOT POOL STATUS button to display the current status of the operating system device. As shown in Figure 6.3.2, the freenas-boot pool is made of a single device, ada0p2. There is only one disk, indicated by the word stripe. To create a mirrored operating system device, click (Options) then attach. If another device is available, it appears in the Member disk drop-down menu. Select the desired device.
The Use all disk space option gives control of how much of the new device is made available to ZFS. The new device is partitioned to the same size as the existing device by default. Select Use all disk space to use all available space on the new device. If either device in the mirror fails, it can be replaced with another of the same size as the original operating system device.
When Use all disk space is enabled, the entire capacity of the new device is used. If the original operating system device fails and is removed, the boot mirror will consist of just the newer drive, and will grow to whatever capacity it provides. However, new devices added to this mirror must now be as large as the new capacity.
Click SAVE to attach the new disk to the mirror.
After the mirror is created, the Boot Pool Status screen indicates that it is now a mirror. The number of devices in the mirror are shown as in Figure 6.3.4.
6.4. Advanced¶
Figure 6.4.1. The configurable settings are summarized in Table 6.4.1.
is shown inSetting | Value | Description |
---|---|---|
Show Text Console without Password Prompt | checkbox | Set for the system to immediately display the text console after booting. Unset to require logging into the system before the console menu is shown. |
Enable Serial Console | checkbox | Do not enable this option if the serial port is disabled. Adds the Serial Port and Serial Speed fields. |
Serial Port | string | Select the serial port address in hex. |
Serial Speed | drop-down menu | Select the speed in bps used by the serial port. |
Swap size in GiB | non-zero number | By default, all data disks are created with this amount of swap. This setting does not affect log or cache devices as they are created without swap. Setting to 0 disables swap creation completely. This is strongly discouraged. |
Enable autotune | checkbox | Enable the Autotune script which attempts to optimize the system based on the installed hardware. Warning: Autotuning is only used as a temporary measure and is not a permanent fix for system hardware issues. |
Enable Debug Kernel | checkbox | Use a debug version of the kernel on the next boot. |
Show console messages | checkbox | Set to display console messages in real time at bottom of browser. Click the console to bring up a scrollable screen. Enable the Stop refresh option in the scrollable screen to pause updating and deselect the option to continue to watch the messages as they occur. |
MOTD banner | string | This message is shown when a user logs in with SSH. |
Show tracebacks in case of fatal error | checkbox | Open a pop-up window of diagnostic information if a fatal error occurs. |
Show advanced fields by default | checkbox | Show Advanced Mode fields by default. |
Periodic Notification User | drop-down menu | Choose a user to receive security output emails. This output runs nightly, but only sends email when the system reboots or encounters an error. |
Remote Graphite Server Hostname | string | IP address or hostname of a remote server running Graphite. |
Use FQDN for logging | checkbox | Include the Fully-Qualified Domain Name (FQDN) in logs to precisely identify systems with similar hostnames. |
Report CPU usage in percentage | checkbox | Display CPU usage as percentages in Reporting. |
ATA Security User | drop-down menu | User passed to camcontrol security -u for unlocking SEDs. Values are User or Master. |
SED Password | string | Global password used to unlock Self-Encrypting Drives. |
Reset SED Password | checkbox | Select to clear the Password for SED column of . |
Click the SAVE button after making any changes.
This tab also contains this button:
SAVE DEBUG: used to generate text files that contain diagnostic information. After the debug data is collected, the system prompts for a location to save the compressed .tgz file.
6.4.1. Autotune¶
FreeNAS® provides an autotune script which optimizes the system depending on the installed hardware. For example, if a pool exists on a system with limited RAM, the autotune script automatically adjusts some ZFS sysctl values in an attempt to minimize memory starvation issues. It should only be used as a temporary measure on a system that hangs until the underlying hardware issue is addressed by adding more RAM. Autotune will always slow such a system, as it caps the ARC.
The Enable autotune option in is off by default. Enable this option to run the autotuner at boot. To run the script immediately, reboot the system.
If the autotune script adjusts any settings, the changed values appear in
. These values can be modified and overridden. Note that deleting tunables that were created by autotune only affects the current session, as autotune-set tunables are recreated at boot.When attempting to increase the performance of the FreeNAS® system, and particularly when the current hardware may be limiting performance, try enabling autotune.
For those who wish to see which checks are performed, the autotune
script is located in /usr/local/bin/autotune
.
6.4.2. Self-Encrypting Drives¶
FreeNAS® version 11.1-U5 introduced Self-Encrypting Drive (SED) support.
These SED specifications are supported:
Legacy interface for older ATA devices. Not recommended for security-critical environments
TCG Opal 1 legacy specification
TCG OPAL 2 standard for newer consumer-grade devices
TCG Opalite is a reduced form of OPAL 2
TCG Pyrite Version 1 and Version 2 are similar to Opalite, but hardware encryption is removed. Pyrite provides a logical equivalent of the legacy ATA security for non-ATA devices. Only the drive firmware is used to protect the device.
Danger
Pyrite Version 1 SEDs do not have PSID support and can become unusable if the password is lost.
TCG Enterprise is designed for systems with many data disks. These SEDs do not have the functionality to be unlocked before the operating system boots.
See this Trusted Computing Group® and NVM Express® joint white paper for more details about these specifications.
FreeNAS® implements the security capabilities of camcontrol for legacy devices and sedutil-cli for TCG devices. When managing a SED from the command line, it is important to use sedutil-cli rather than camcontrol to access the full capabilities of the device. FreeNAS® provides the sedhelper wrapper script to ease SED administration from the command line.
By default, SEDs are not locked until the administrator takes ownership of them. Ownership is taken by explicitly configuring a global or per-device password in the FreeNAS® web interface and adding the password to the SEDs.
A password-protected SED protects the data stored on the device when the device is physically removed from the FreeNAS® system. This allows secure disposal of the device without having to first wipe the contents. Repurposing a SED on another system requires the SED password.
6.4.2.1. Deploying SEDs¶
Run sedutil-cli --scan in the Shell to detect and list devices. The second column of the results identifies the drive type:
- no indicates a non-SED device
- 1 indicates a legacy TCG OPAL 1 device
- 2 indicates a modern TCG OPAL 2 device
- L indicates a TCG Opalite device
- p indicates a TCG Pyrite 1 device
- P indicates a TCG Pyrite 2 device
- E indicates a TCG Enterprise device
Example:
root@truenas1:~ # sedutil-cli --scan
Scanning for Opal compliant disks
/dev/ada0 No 32GB SATA Flash Drive SFDK003L
/dev/ada1 No 32GB SATA Flash Drive SFDK003L
/dev/da0 No HGST HUS726020AL4210 A7J0
/dev/da1 No HGST HUS726020AL4210 A7J0
/dev/da10 E WDC WUSTR1519ASS201 B925
/dev/da11 E WDC WUSTR1519ASS201 B925
FreeNAS® supports setting a global password for all detected SEDs or setting individual passwords for each SED. Using a global password for all SEDs is strongly recommended to simplify deployment and avoid maintaining separate passwords for each SED.
6.4.2.1.1. Setting a global password for SEDs¶
Go to
and enter the password. Record this password and store it in a safe place!Now the SEDs must be configured with this password. Go to the
Shell and enter sedhelper setup password
, where
password is the global password entered in
.
sedhelper ensures that all detected SEDs are properly configured to use the provided password:
root@truenas1:~ # sedhelper setup abcd1234
da9 [OK]
da10 [OK]
da11 [OK]
Rerun sedhelper setup password
every time a new SED is placed
in the system to apply the global password to the new SED.
6.4.2.1.2. Creating separate passwords for each SED¶
Go to Edit. Enter and confirm the password in the SED Password and Confirm SED Password fields.
. Click (Options) for the confirmed SED, thenThe SED Password column shows a mark when the disk has a password. Disks that are not a SED or are unlocked using the global password are not marked in this column.
screen shows which disks have a configured SED password. TheThe SED must be configured to use the new password. Go to the
Shell and enter sedhelper setup --disk da1 password
,
where da1 is the SED to configure and password is the created
password from
.
This process must be repeated for each SED and any SEDs added to the system in the future.
Danger
Remember SED passwords! If the SED password is lost, SEDs cannot be unlocked and their data is unavailable. While it is possible to specify the PSID number on the label of the device with sedutil-cli, doing so erases the contents of the device rather than unlock it. Always record SED passwords whenever they are configured or modified and store them in a secure place!
6.4.2.2. Check SED Functionality¶
When SED devices are detected during system boot, FreeNAS® checks for configured global and device-specific passwords.
Unlocking SEDs allows a pool to contain a mix of SED and non-SED devices. Devices with individual passwords are unlocked with their password. Devices without a device-specific password are unlocked using the global password.
To verify SED locking is working correctly, go to the Shell.
Enter sedutil-cli --listLockingRange 0 password dev/da1
,
where da1 is the SED and password is the global or individual
password for that SED. The command returns ReadLockEnabled: 1
,
WriteLockEnabled: 1
, and LockOnReset: 1
for drives
with locking enabled:
root@truenas1:~ # sedutil-cli --listLockingRange 0 abcd1234 /dev/da9
Band[0]:
Name: Global_Range
CommonName: Locking
RangeStart: 0
RangeLength: 0
ReadLockEnabled: 1
WriteLockEnabled:1
ReadLocked: 0
WriteLocked: 0
LockOnReset: 1
6.5. Email¶
An automatic script sends a nightly email to the root user account containing important information such as the health of the disks. Alert events are also emailed to the root user account. Problems with Scrub Tasks are reported separately in an email sent at 03:00AM.
Note
S.M.A.R.T. reports are mailed separately to the address configured in that service.
The administrator typically does not read email directly on the FreeNAS® system. Instead, these emails are usually sent to an external email address where they can be read more conveniently. It is important to configure the system so it can send these emails to the administrator’s remote email account so they are aware of problems or status changes.
The first step is to set the remote address where email will be sent. Go to Edit for the root user. In the Email field, enter the email address on the remote system where email is to be sent, like admin@example.com. Click SAVE to save the settings.
, click (Options) andAdditional configuration is performed with Figure 6.5.1.
, shown inSetting | Value | Description |
---|---|---|
From email | string | The envelope From address shown in the email. This can be set to make filtering mail
on the receiving system easier. The friendly name is set like this:
Friendly Name <address@example.com> |
Outgoing Mail Server | string or IP address | Hostname or IP address of SMTP server used for sending this email. |
Mail Server Port | integer | SMTP port number. Typically 25, 465 (secure SMTP), or 587 (submission). |
Security | drop-down menu | Choose an encryption type. Choices are Plain (No Encryption), SSL (Implicit TLS), or TLS (STARTTLS). |
SMTP Authentication | checkbox | Enable or disable SMTP AUTH using PLAIN SASL. If enabled, enter the required Username and Password. |
Username | string | Enter the SMTP username if the SMTP server requires authentication. |
Password | string | Enter the SMTP password if the SMTP server requires authentication. Only plain text characters (7-bit ASCII) are allowed in passwords. UTF or composed characters are not allowed. |
Click the SEND MAIL button to verify that the configured email settings are working. If the test email fails, double-check that the Email field of the root user is correctly configured by clicking the Edit button for the root account in .
Configuring email for TLS/SSL email providers is described in Are you having trouble getting FreeNAS to email you in Gmail?.
Note
The FreeNAS® user who receives periodic email is set in the Periodic Notification User field in .
6.6. System Dataset¶
Figure 6.6.1, is used to select the pool which contains the persistent system dataset. The system dataset stores debugging core files and Samba4 metadata such as the user/group cache and share level permissions. If the FreeNAS® system is configured to be a Domain Controller, all of the domain controller state is stored there as well, including domain controller users and groups.
, shown inNote
When the system dataset is moved, a new dataset is created and set active. The old dataset is intentionally not deleted by the system because the move might be temporary or the information in the old dataset might be useful for later recovery.
The system dataset can optionally be configured to also store the
system log and Reporting information. If there are lots of log
entries or reporting information, moving these to the system dataset
will prevent /var/
on the device holding the operating system
from filling up as /var/
has limited space.
Use the System Dataset Pool drop-down menu to select the volume (pool) to contain the system dataset. The system dataset can be moved to unencrypted volumes (pools) or encrypted volumes which do not have passphrases. If the system dataset is moved to an encrypted volume, that volume is no longer allowed to be locked or have a passphrase set.
Moving the system dataset also requires restarting the SMB service. A dialog warns that the SMB service must be restarted, causing a temporary outage of any active SMB connections.
To store the system log on the system dataset, enable the Syslog option.
To store the reporting information on the system dataset, enable the
Reporting Database option. When this option is not enabled,
a RAM disk is created to prevent reporting information from filling up
/var
.
Click the SAVE button to save changes.
If the pool storing the system dataset is changed at a later time, FreeNAS® migrates the existing data in the system dataset to the new location.
Note
Depending on configuration, the system dataset can occupy a large amount of space and receive frequent writes. Do not put the system dataset on a flash drive or other media with limited space or write life.
6.7. Alert Services¶
FreeNAS® can use a number of methods to notify the administrator of system events that require attention. These events are system Alerts.
Available alert services:
Warning
These alert services might use a third party commercial vendor not directly affiliated with iXsystems. Please investigate and fully understand that vendor’s pricing policies and services before using their alert service. iXsystems is not responsible for any charges incurred from the use of third party vendors with the Alert Services feature.
Select Figure 6.7.1.
to show the Alert Services screen,Click ADD to display the Add Alert Service form, Figure 6.7.2.
Select the Type to choose an alert service to configure. The configurable fields and required information differ for each alert service. Set Enabled to activate the service. Enter any other required information and click SAVE.
Configure which alerts are sent to the alert service by clicking SHOW SETTINGS.
Click SENDS TEST ALERT to test the configured service.
All saved alert services are displayed in Delete. To disable an alert service temporarily, click (Options) and Edit, then unset the Enabled option.
. To delete an alert service, click (Options) and6.8. Alert Settings¶
Alert. An example is shown in Figure 6.8.1.
displays the notification frequency for each type ofTo change the notification frequency of an alert, click its drop-down menu and select IMMEDIATELY, HOURLY, DAILY, or NEVER.
Note
To configure where alerts are sent, use Alert Services.
6.9. Cloud Credentials¶
FreeNAS® can use cloud services for features like Cloud Sync Tasks. The credentials to provide secure connections with cloud services are entered here. Amazon Cloud Drive, Amazon S3, Backblaze B2, Box, Dropbox, FTP, Google Cloud Storage, Google Drive, HTTP, Hubic, Mega, Microsoft Azure Blob Storage, Microsoft OneDrive, pCloud, SFTP, WebDAV, and Yandex are supported.
Warning
Cloud Credentials are stored in encrypted form. To be able to restore Cloud Credentials from a saved configuration, “Export Password Secret Seed” must be set when saving that configuration.
Click Figure 6.9.1.
to see the screen shown inThe list shows the Account Name and Provider for each credential. There are options to Edit and Delete a credential after clicking (Options) for a credential.
Click ADD to add a new cloud credential. Choose a Provider to display any specific options for that provider. Figure 6.9.2 shows the form for an Amazon Cloud Drive provider:
Enter a descriptive and unique name for the cloud credential in the Name field. The remaining options vary by Provider, and are shown in Table 6.9.1.
Provider | Setting | Description |
---|---|---|
Amazon Cloud Drive | Application Client ID, Application Key | Enter the Amazon application client ID and application key. |
Amazon S3 | Access Key ID | Enter the Amazon Web Services Key ID. This is found on Amazon AWS by going through My account –> Security Credentials –> Access Keys. |
Amazon S3 | Secret Access Key | Enter the Amazon Web Services password. If the Secret Access Key cannot be found or remembered, go to My Account –> Security Credentials –> Access Keys and create a new key pair. |
Amazon S3 | Endpoint URL | Set Advanced Settings to access this option. S3 API endpoint URL. When using AWS:
Refer to the AWS Documentation for a list of Simple Storage Service Website Endpoints. |
Amazon S3 | Disable Endpoint Region | Set Advanced Settings to access this option. Skip automatic detection of the Endpoint URL region. Set this when configuring a custom Endpoint URL. |
Amazon S3 | Use Signature Version 2 | Set Advanced Settings to access this option. Force using Signature Version 2 to sign API requests. Set this when configuring a custom Endpoint URL. |
Backblaze B2 | Account ID or Application Key ID, Master Application Key or Application Key | Enter the Account ID and Master Application Key for the Backblaze B2 account. These are visible after logging into the account, clicking Buckets, and clicking Show Account ID and Application Key. An Application Key with limited permissions can be used in place of the Account ID and Master Application Key. Create a new Application Key and enter the key string in place of the Master Application Key and replace the Account ID with the keyID. |
Box | Access Token | Enter the Box access token. |
Dropbox | Access Token | Enter the Dropbox access token. The token is located on the App Console. After creating an app, go to Settings and click the Generate button under the Generated access token field. |
FTP | Host, Port | Enter the FTP host and port. |
FTP | Username, Password | Enter the FTP username and password. |
Google Cloud Storage | JSON Service Account Key | Browse to the location of the saved Google Cloud Storage key and select it. |
Google Drive | Access Token, Team Drive ID | Enter the Google Drive Access Token. Team Drive ID is only used when connecting to a Team Drive. The ID is also the ID of the top level folder of the Team Drive. |
HTTP | URL | Enter the URL. |
Hubic | Access Token | Enter the access token. |
Mega | Username, Password | Enter the Mega username and password. |
Microsoft Azure Blob Storage | Account Name, Account Key | Enter the Azure Blob Storage account name and key. |
Microsoft OneDrive | Access Token, Drive Account Type, Drive ID | Enter the access token. Choose the account type: PERSONAL, BUSINESS, or SharePoint DOCUMENT_LIBRARY. Enter the unique drive identifier. Open the Shell, enter rclone config, and follow the prompts to find these values. The rclone OneDrive documentation guides through the configuraion process. |
pCloud | Access Token | Enter the access token. |
SFTP | Host, Port, Username, Password, PEM-encoded private key file path | Enter the SFTP host, port, and username. Enter a password or PEM-encoded private key file path. |
WebDAV | URL, WebDAV service | Enter the URL and use the dropdown to select the WebDAV service. |
WebDAV | Username, Password | Enter the username and password. |
Yandex | Access Token | Enter the access token. |
For Amazon S3, Access Key and Secret Key values are found on the Amazon AWS website by clicking on the account name, then My Security Credentials and Access Keys (Access Key ID and Secret Access Key). Copy the Access Key value to the FreeNAS® Cloud Credential Access Key field, then enter the Secret Key value saved when the key pair was created. If the Secret Key value is unknown, a new key pair can be created on the same Amazon screen. The Google Cloud Storage JSON Service Account Key is found on the Google Cloud Platform Console.
More details about individual Provider settings are available in the rclone documentation.
6.10. Tunables¶
can be used to manage:
- FreeBSD sysctls: a sysctl(8) makes changes to the FreeBSD kernel running on a FreeNAS® system and can be used to tune the system.
- FreeBSD loaders: a loader is only loaded when a FreeBSD-based system boots and can be used to pass a parameter to the kernel or to load an additional kernel module such as a FreeBSD hardware driver.
- FreeBSD rc.conf options:
rc.conf(5)
is used to pass system configuration options to the system startup
scripts as the system boots. Since FreeNAS® has been optimized for
storage, not all of the services mentioned in rc.conf(5) are
available for configuration. Note that in FreeNAS®, customized
rc.conf options are stored in
/tmp/rc.conf.freenas
.
Warning
Adding a sysctl, loader, or rc.conf
option is an
advanced feature. A sysctl immediately affects the kernel running
the FreeNAS® system and a loader could adversely affect the ability
of the FreeNAS® system to successfully boot.
Do not create a tunable on a production system before
testing the ramifications of that change.
Since sysctl, loader, and rc.conf values are specific to the kernel parameter to be tuned, the driver to be loaded, or the service to configure, descriptions and suggested values can be found in the man page for the specific driver and in many sections of the FreeBSD Handbook.
To add a loader, sysctl, or rc.conf
option, go to
and click ADD to access the screen shown in
Figure 6.10.1.
Table 6.10.1 summarizes the options when adding a tunable.
Setting | Value | Description |
---|---|---|
Variable | string | The name of the sysctl or driver to load. |
Value | integer or string | Set a value for the Variable. Refer to the man page for the specific driver or the FreeBSD Handbook for suggested values. |
Type | drop-down menu | Choices are Loader, rc.conf, and Sysctl. |
Comment | string | Optional. Enter a description of this tunable. |
Enabled | checkbox | Deselect this option to disable the tunable without deleting it. |
Note
As soon as a Sysctl is added or edited, the running kernel changes that variable to the value specified. However, when a Loader or rc.conf value is changed, it does not take effect until the system is rebooted. Regardless of the type of tunable, changes persist at each boot and across upgrades unless the tunable is deleted or the Enabled option is deselected.
Existing tunables are listed in Edit. To remove a tunable, click (Options) and Delete.
. To change the value of an existing tunable, click (Options) andRestarting the FreeNAS® system after making sysctl changes is recommended. Some sysctls only take effect at system startup, and restarting the system guarantees that the setting values correspond with what is being used by the running system.
The web interface does not display the sysctls that are pre-set when FreeNAS® is installed. FreeNAS® 11.2 ships with the sysctls set:
kern.corefile=/var/tmp/%N.core
kern.metadelay=3
kern.dirdelay=4
kern.filedelay=5
kern.coredump=1
kern.sugid_coredump=1
vfs.timestamp_precision=3
net.link.lagg.lacp.default_strict_mode=0
vfs.zfs.min_auto_ashift=12
Do not add or edit these default sysctls as doing so may render the system unusable.
The web interface does not display the loaders that are pre-set when FreeNAS® is installed. FreeNAS® 11.2 ships with these loaders set:
product="FreeNAS"
autoboot_delay="5"
loader_logo="FreeNAS"
loader_menu_title="Welcome to FreeNAS"
loader_brand="FreeNAS"
loader_version=" "
kern.cam.boot_delay="30000"
debug.debugger_on_panic=1
debug.ddb.textdump.pending=1
hw.hptrr.attach_generic=0
vfs.mountroot.timeout="30"
ispfw_load="YES"
ipmi_load="YES"
freenas_sysctl_load="YES"
hint.isp.0.role=2
hint.isp.1.role=2
hint.isp.2.role=2
hint.isp.3.role=2
module_path="/boot/kernel;/boot/modules;/usr/local/modules"
net.inet6.ip6.auto_linklocal="0"
net.inet.tcp.reass.maxqueuelen=1448
vfs.zfs.vol.mode=2
kern.geom.label.disk_ident.enable=0
kern.geom.label.ufs.enable=0
kern.geom.label.ufsid.enable=0
kern.geom.label.reiserfs.enable=0
kern.geom.label.ntfs.enable=0
kern.geom.label.msdosfs.enable=0
kern.geom.label.ext2fs.enable=0
hint.ahciem.0.disabled="1"
hint.ahciem.1.disabled="1"
kern.msgbufsize="524288"
hw.mfi.mrsas_enable="1"
hw.usb.no_shutdown_wait=1
vfs.nfsd.fha.write=0
vfs.nfsd.fha.max_nfsds_per_fh=32
vm.lowmem_period=0
Do not add or edit the default tunables. Changing the default tunables can make the system unusable.
The ZFS version used in 11.2 deprecates these tunables:
kvfs.zfs.write_limit_override
vfs.zfs.write_limit_inflated
vfs.zfs.write_limit_max
vfs.zfs.write_limit_min
vfs.zfs.write_limit_shift
vfs.zfs.no_write_throttle
After upgrading from an earlier version of FreeNAS®, these tunables are automatically deleted. Please do not manually add them back.
6.11. Update¶
FreeNAS® has an integrated update system to make it easy to keep up to date.
6.11.1. Preparing for Updates¶
It is best to perform updates at times the FreeNAS® system is idle, with no clients connected and no scrubs or other disk activity going on. Most updates require a system reboot. Plan updates around scheduled maintenance times to avoid disrupting user activities.
The update process will not proceed unless there is enough free space in the boot pool for the new update files. If a space warning is shown, use Boot Environments to remove unneeded boot environments.
6.11.2. Updates and Trains¶
Cryptographically signed update files are used to update FreeNAS®. Update files provide flexibility in deciding when to upgrade the system. Boot environments make it possible to test an update.
FreeNAS® defines software branches, known as trains. There are several trains available for updates, but the web interface only displays trains that can be selected as an upgrade.
Update trains are labeled with a numeric version followed by a short description. The current version receives regular bug fixes and new features. Supported older versions of FreeNAS® only receive maintenance updates. Several specific words are used to describe the type of train:
- STABLE: Bug fixes and new features are available from this train. Upgrades available from a STABLE train are tested and ready to apply to a production environment.
- Nightlies: Experimental train used for testing future versions of FreeNAS®.
- SDK: Software Developer Kit train. This has additional tools for testing and debugging FreeNAS®.
Warning
The UI will warn if the currently selected train is not suited for production use. Before using a non-production train, be prepared to experience bugs or problems. Testers are encouraged to submit bug reports at https://bug.ixsystems.com.
6.11.3. Checking for Updates¶
Figure 6.11.1 shows an example of the screen.
The system checks daily for updates and downloads an update if one is available. An alert is issued when a new update becomes available. The automatic check and download of updates is disabled by unsetting Check for Updates Daily and Download if Available. Click (Refresh) to perform another check for updates.
To change the train, use the drop-down menu to make a different selection.
Note
The train selector does not allow downgrades. For example, the STABLE train cannot be selected while booted into a Nightly boot environment, or a 9.10 train cannot be selected while booted into a 11 boot environment. To go back to an earlier version after testing or running a more recent version, reboot and select a boot environment for that earlier version. This screen can then be used to check for updates that train.
In the example shown in Figure 6.11.2, information about the update is displayed along with a link to the release notes. It is important to read the release notes before updating to determine if any of the changes in that release impact the use of the system.
6.11.4. Saving the Configuration File¶
A dialog to save the system configuration file appears before installing updates.
Note
The “Save Configuration” dialog can be disabled in (Settings) Preferences, although this is not recommended. Saving backups of configuration files allows recovery of the system after an operating system device failure.
Warning
Keep the system configuration file secure after saving it. The security information in the configuration file could be used for unauthorized access to the FreeNAS® system.
6.11.5. Applying Updates¶
Make sure the system is in a low-usage state as described above in Preparing for Updates.
Click FETCH AND INSTALL UPDATES to immediately download and install an update.
The “Save Configuration” dialog appears so the current configuration can be saved to external media.
A confirmation window appears before the update is installed. When Apply updates and reboot system after downloading is set and, clicking CONTINUE downloads, applies the updates, and then automatically reboots the system. The update can be downloaded for a later manual installation by unsetting the Apply updates and reboot system after downloading option.
APPLY PENDING UPDATE is visible when an update is downloaded and ready to install. Click the button to see a confirmation window. Setting Confirm and clicking CONTINUE installs the update and reboots the system.
Warning
Each update creates a boot environment. If the update process needs more space, it attempts to remove old boot environments. Boot environments marked with the Keep attribute as shown in Boot Environments will not be removed. If space for a new boot environment is not available, the upgrade fails. Space on the operating system device can be manually freed using . Review the boot environments and remove the Keep attribute or delete any boot environments that are no longer needed.
During the update process a progress dialog appears. Do not interrupt the update until it completes.
6.11.6. Manual Updates¶
Updates can also be manually downloaded and applied using the INSTALL MANUAL UPDATE FILE button.
The “Save Configuration” dialog appears so the current configuration can be saved to external media.
After clicking INSTALL MANUAL UPDATE FILE, choose a
location to temporarily store the update file on the FreeNAS® system.
Manual update file names end with manual-update-unsigned.tar
.
Use Browse to locate the downloaded manual update
file. Set Reboot After Update to reboot the system
after the update has been installed. Click
APPLY UPDATE to begin the update. A progress dialog is
displayed during the update. Do not interrupt the update.
Tip
Manual updates cannot be used to upgrade from older major versions.
6.12. CAs¶
FreeNAS® can act as a Certificate Authority (CA). When encrypting SSL or TLS connections to the FreeNAS® system, either import an existing certificate, or create a CA on the FreeNAS® system, then create a certificate. This certificate will appear in the drop-down menus for services that support SSL or TLS.
For secure LDAP, the public key of an existing CA can be imported with Import CA, or a new CA created on the FreeNAS® system and used on the LDAP server also.
Figure 6.12.1 shows the screen after clicking .
If the organization already has a CA, the CA certificate and key can be imported. Click ADD and set the Type to Import CA to see the configuration options shown in Figure 6.12.2. The configurable options are summarized in Table 6.12.1.
Setting | Value | Description |
---|---|---|
Identifier | string | Enter a descriptive name for the CA using only alphanumeric,
underscore (_ ), and dash (- ) characters. |
Type | drop-down menu | Choose the type of CA. Choices are Internal CA, Intermediate CA, and Import CA. |
Certificate | string | Mandatory. Paste in the certificate for the CA. |
Private Key | string | If there is a private key associated with the Certificate, paste it here. Private keys must be at least 1024 bits long. |
Passphrase | string | If the Private Key is protected by a passphrase, enter it here and repeat it in the “Confirm Passphrase” field. |
To create a new CA, first decide if it will be the only CA which will sign certificates for internal use or if the CA will be part of a certificate chain.
To create a CA for internal use only, click ADD and set the Type to Internal CA. Figure 6.12.3 shows the available options.
The configurable options are described in Table 6.12.2. When completing the fields for the certificate authority, supply the information for the organization.
Setting | Value | Description |
---|---|---|
Identifier | string | Enter a descriptive name for the CA using only alphanumeric,
underscore (_ ), and dash (- ) characters. |
Type | drop-down menu | Choose the type of CA. Choices are Internal CA, Intermediate CA, and Import CA. |
Key Length | drop-down menu | For security reasons, a minimum of 2048 is recommended. |
Digest Algorithm | drop-down menu | The default is acceptable unless the organization requires a different algorithm. |
Lifetime | integer | The lifetime of a CA is specified in days. |
Country | drop-down menu | Select the country for the organization. |
State | string | Enter the state or province of the organization. |
Locality | string | Enter the location of the organization. |
Organization | string | Enter the name of the company or organization. |
string | Enter the email address for the person responsible for the CA. | |
Common Name | string | Enter the fully-qualified hostname (FQDN) of the system. The Common Name must be unique within a certificate chain. |
Subject Alternate Names | string | Multi-domain support. Enter additional space separated domain names. |
To create an intermediate CA which is part of a certificate chain, set the Type to Intermediate CA. This screen adds one more option to the screen shown in Figure 6.12.3:
- Signing Certificate Authority: this drop-down menu is used to specify the root CA in the certificate chain. This CA must first be imported or created.
Imported or created CAs are added as entries in
. The columns in this screen indicate the name of the CA, whether it is an internal CA, whether the issuer is self-signed, the CA lifetime (in days), the common name of the CA, the date and time the CA was created, and the date and time the CA expires.Click (Options) on an existing CA to access these configuration buttons:
- View: use this option to view the contents of an existing Certificate, Private Key, or to edit the Identifier.
- Sign CSR: used to sign internal Certificate Signing Requests created using .
- Export Certificate: prompts to browse to the location to save a copy of the CA’s X.509 certificate on the computer being used to access the FreeNAS® system.
- Export Private Key: prompts to browse to the location to save a copy of the CA’s private key on the computer being used to access the FreeNAS® system. This option only appears if the CA has a private key.
- Delete: prompts for confirmation before deleting the CA.
6.13. Certificates¶
FreeNAS® can import existing certificates, create new certificates, and issue certificate signing requests so that created certificates can be signed by the CA which was previously imported or created in CAs.
Figure 6.13.1 shows the initial screen after clicking .
To import an existing certificate, click ADD and set the Type to Import Certificate. Figure 6.13.2 shows the options. When importing a certificate chain, paste the primary certificate, followed by any intermediate certificates, followed by the root CA certificate.
The configurable options are summarized in Table 6.13.1.
Setting | Value | Description |
---|---|---|
Identifier | string | Enter a descriptive name for the certificate using only alphanumeric,
underscore (_ ), and dash (- ) characters. |
Type | drop-down menu | Choose the type of certificate. Choices are Internal Certificate, Certificate Signing Request, and Import Certificate. |
Certificate | string | Paste the contents of the certificate. |
Private Key | string | Paste the private key associated with the certificate. Private keys must be at least 1024 bits long. |
Passphrase | string | If the private key is protected by a passphrase, enter it here and repeat it in the Confirm Passphrase field. |
To create a new self-signed certificate, set the Type to Internal Certificate to see the options shown in Figure 6.13.3. The configurable options are summarized in Table 6.13.2. When completing the fields for the certificate authority, use the information for the organization. Since this is a self-signed certificate, use the CA that was imported or created with CAs as the signing authority.
Setting | Value | Description |
---|---|---|
Identifier | string | Enter a descriptive name for the certificate using only alphanumeric,
underscore (_ ), and dash (- ) characters. |
Type | drop-down menu | Choose the type of certificate. Choices are Internal Certificate, Certificate Signing Request, and Import Certificate. |
Signing Certificate Authority | drop-down menu | Select the CA which was previously imported or created using CAs. |
Key Length | drop-down menu | For security reasons, a minimum of 2048 is recommended. |
Digest Algorithm | drop-down menu | The default is acceptable unless the organization requires a different algorithm. |
Lifetime | integer | The lifetime of the certificate is specified in days. |
Country | drop-down menu | Select the country for the organization. |
State | string | State or province of the organization. |
Locality | string | Location of the organization. |
Organization | string | Name of the company or organization. |
string | Enter the email address for the person responsible for the CA. | |
Common Name | string | Enter the fully-qualified hostname (FQDN) of the system. The Common Name must be unique within a certificate chain. |
Subject Alternate Names | string | Multi-domain support. Enter additional domain names and separate them with a space. |
If the certificate is signed by an external CA, such as Verisign, instead create a certificate signing request. To do so, set the Type to Certificate Signing Request. The options from Figure 6.13.3 display, but without the Signing Certificate Authority and Lifetime fields.
Certificates that are imported, self-signed, or for which a certificate signing request is created are added as entries to Figure 6.13.4, a self-signed certificate and a certificate signing request have been created for the fictional organization My Company. The self-signed certificate was issued by the internal CA named My Company and the administrator has not yet sent the certificate signing request to Verisign so that it can be signed. Once that certificate is signed and returned by the external CA, it should be imported with a new certificate set to Import Certificate. This makes the certificate available as a configurable option for encrypting connections.
. In the example shown inClicking (Options) for an entry shows these configuration buttons:
- View: use this option to view the contents of an existing Certificate, Private Key, or to edit the Identifier.
- Export Certificate saves a copy of the certificate or certificate signing request to the system being used to access the FreeNAS® system. For a certificate signing request, send the exported certificate to the external signing authority so that it can be signed.
- Export Private Key saves a copy of the private key associated with the certificate or certificate signing request to the system being used to access the FreeNAS® system.
- Delete is used to delete a certificate or certificate signing request.
6.14. Support¶
The FreeNAS® Support option, shown in Figure 6.14.1, provides a built-in ticketing system for generating bug reports and feature requests.
This screen provides a built-in interface to the FreeNAS® issue tracker located at https://bug.ixsystems.com. When using FreeNAS® bug tracker for the first time, go to that website, click the Register link, fill out the form, and reply to the registration email. This will create a username and password which can be used to create bug reports and receive notifications as the reports are actioned.
Before creating a bug report or feature request, ensure that an existing report does not already exist at https://bug.ixsystems.com. If a similar issue is already present and has not been marked Closed or Resolved, comment on that issue, adding new information to help solve it. If similar issues have already been Closed or Resolved, create a new issue and refer to the previous issue.
Note
Update the system to the latest version of STABLE and retest before reporting an issue. Newer versions of the software might have already fixed the problem.
To generate a report using the built-in Support screen, complete these fields:
- Username: enter the login name created when registering at https://bug.ixsystems.com.
- Password: enter the password associated with the registered login name.
- Type: select Bug when reporting an issue or Feature when requesting a new feature.
- Category: this drop-down menu is empty until a registered Username and Password are entered. The field remains empty if either value is incorrect. After the Username and Password are validated, possible categories are populated to the drop-down menu. Select the one that best describes the bug or feature being reported.
- Attach Debug: enabling this option is recommended so an overview of the system hardware, build string, and configuration is automatically generated and included with the ticket. Generating and attaching a debug to the ticket can take some time. An error will occur if the debug is more than the file size limit of 20 Mib.
- Subject: enter a descriptive title for the ticket. A good Subject makes it easy to find similar reports.
- Description: enter a one- to three-paragraph summary of the issue that describes the problem, and if applicable, what steps can be taken to reproduce it.
Click SUBMIT to automatically generate and upload the report to the bug tracker. This process can take several minutes while information is collected and sent.
After the new ticket is created, the ticket URL is shown for viewing or updating with more information.