This content is for reference only. Always consult official vendor documentation for your distribution. Test thoroughly in a lab environment before production use. In case of conflicts, vendor documentation takes precedence.
Network Security
1. Network Isolation
Dedicated Storage Network:
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Never route storage traffic through management network: Prevents unauthorized access to storage traffic; reduces attack surface; improves performance.
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Use dedicated VLANs or physical networks for storage: Isolates storage from other network traffic; prevents VLAN hopping attacks.
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No default gateway on storage interfaces: Prevents routing storage traffic outside the storage network; reduces exposure.
Configuration:
# Storage interfaces should NOT have gateway configured
# /etc/network/interfaces
auto ens1f0
iface ens1f0 inet static
address 10.100.1.101/24
mtu 9000
# NO gateway line
Verification:
# Verify no default route on storage interface
ip route show dev ens1f0
# Should show only local subnet route
2. Firewall Configuration
Option 1: Disable Filtering on Storage Interfaces (Recommended)
For dedicated, isolated storage networks, disable firewall filtering on storage interfaces to eliminate CPU overhead from packet inspection.
# Add storage interfaces to trusted zone (firewalld)
firewall-cmd --permanent --zone=trusted --add-interface=ens1f0
firewall-cmd --permanent --zone=trusted --add-interface=ens1f1
firewall-cmd --reload
# Or accept all traffic on interfaces (iptables)
iptables -A INPUT -i ens1f0 -j ACCEPT
iptables -A INPUT -i ens1f1 -j ACCEPT
Why disable filtering on storage interfaces:
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CPU overhead: Firewall packet inspection adds latency and consumes CPU cycles
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Performance impact: At high IOPS (millions with NVMe-TCP), filtering overhead becomes significant
-
Network isolation: Dedicated storage VLANs provide security at the network layer
-
Simplicity: No port rules to maintain for storage traffic
Option 2: Port Filtering (For Shared or Non-Isolated Networks)
Use port filtering only when storage interfaces share a network with other traffic or when additional host-level security is required by policy.
Port filtering adds CPU overhead for every packet. For production storage with high IOPS requirements, use Option 1 with network-level isolation instead.
# Allow only NVMe-TCP traffic on storage interfaces
# Port 4420 = Data port (connections)
# Port 8009 = Discovery port (optional)
iptables -A INPUT -i ens1f0 -p tcp --dport 4420 -j ACCEPT
iptables -A INPUT -i ens1f0 -p tcp --dport 8009 -j ACCEPT
iptables -A INPUT -i ens1f0 -j DROP # Drop all other traffic
Required Ports (if using port filtering): Port 4420 (data), Port 8009 (discovery)
3. Access Control
Storage Array Configuration:
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Register only authorized Host NQNs
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Implement IP-based ACLs on storage array
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Regularly audit authorized hosts
Verify host identifier:
# Check host NQN
cat /etc/nvme/hostnqn
# Example: nqn.2014-08.org.nvmexpress:uuid:12345678-1234-1234-1234-123456789abc
Best Practice:
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Use unique NQN per host (don't clone VMs without regenerating)
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Document all registered NQNs
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Remove decommissioned hosts from storage array
Authentication and Encryption
NVMe-TCP with TLS (if supported):
Why use TLS:
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Encrypts data in transit
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Prevents eavesdropping on storage traffic
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Required for compliance in some industries
Configuration:
# Connect with TLS (requires kernel 5.15+ and array support)
nvme connect -t tcp -a <portal_ip> -s 4420 -n <subsystem_nqn> \
--tls
Considerations:
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Performance impact: 5-15% throughput reduction
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CPU overhead: Encryption/decryption uses CPU cycles
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Certificate management: Requires PKI infrastructure
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Only use if required by security policy or compliance
Host Security
1. Minimize Attack Surface
Disable unnecessary services:
# List running services
systemctl list-units --type=service --state=running
# Disable unnecessary services
systemctl disable <service_name>
systemctl stop <service_name>
2. Keep Systems Updated
Regular patching:
# RHEL/Rocky/AlmaLinux
dnf update
# Debian/Ubuntu
apt update && apt upgrade
# SUSE
zypper update
Best Practices:
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Patch monthly at minimum
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Test patches in non-production first
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Have rollback plan
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Monitor security advisories for NVMe/kernel updates
3. Audit and Logging
Enable audit logging:
# Install and enable auditd
systemctl enable --now auditd
# Add audit rules for NVMe devices
auditctl -w /dev/nvme0n1 -p rwa -k nvme_access
auditctl -w /etc/nvme/ -p wa -k nvme_config
SELinux Configuration
Oracle Linux has SELinux enabled by default (enforcing mode).
Verify SELinux status:
# Check status
getenforce
# Should return: Enforcing
SELinux policy for NVMe-TCP:
# Check for denials
sudo ausearch -m avc -ts recent | grep nvme
# If denials found, generate policy
sudo ausearch -m avc -ts recent | grep nvme | audit2allow -M nvme_tcp_policy
# Review the policy
cat nvme_tcp_policy.te
# Install policy
sudo semodule -i nvme_tcp_policy.pp
# Verify
sudo semodule -l | grep nvme
Common SELinux contexts for storage:
# Set correct context for NVMe devices
sudo restorecon -Rv /dev/nvme*
# Set context for mount points
sudo semanage fcontext -a -t var_t "/mnt/nvme-storage(/.*)?"
sudo restorecon -Rv /mnt/nvme-storage
Firewall Configuration
Option 1: Trusted Zone (Recommended for Dedicated Storage Networks)
For dedicated storage networks, disable firewall filtering on storage interfaces to eliminate CPU overhead from packet inspection. This is critical for high-throughput NVMe-TCP storage.
Why disable filtering on storage interfaces:
-
CPU overhead: Firewall packet inspection adds latency and consumes CPU cycles
-
Performance impact: At high IOPS (millions with NVMe-TCP), filtering overhead becomes significant
-
Network isolation: Dedicated storage VLANs provide security at the network layer
-
Simplicity: No port rules to maintain for storage traffic
# Add storage interfaces to trusted zone (no packet filtering)
sudo firewall-cmd --permanent --zone=trusted --add-interface=ens1f0
sudo firewall-cmd --permanent --zone=trusted --add-interface=ens1f1
# Reload
sudo firewall-cmd --reload
# Verify
sudo firewall-cmd --zone=trusted --list-all
Option 2: Port Filtering (For Shared or Non-Isolated Networks)
Use port filtering only when storage interfaces share a network with other traffic or when additional host-level security is required by policy.
Port filtering adds CPU overhead for every packet. For production storage with high IOPS requirements, use Option 1 with network-level isolation instead.
# Create dedicated zone for storage with port filtering
sudo firewall-cmd --permanent --new-zone=storage
# Port 4420 = Data port (connections)
# Port 8009 = Discovery port (optional, for nvme discover)
sudo firewall-cmd --permanent --zone=storage --add-port=4420/tcp
sudo firewall-cmd --permanent --zone=storage --add-port=8009/tcp
# Add storage interfaces to storage zone
sudo firewall-cmd --permanent --zone=storage --add-interface=ens1f0
sudo firewall-cmd --permanent --zone=storage --add-interface=ens1f1
# Set target to DROP (deny by default except allowed ports)
sudo firewall-cmd --permanent --zone=storage --set-target=DROP
# Reload
sudo firewall-cmd --reload
# Verify
sudo firewall-cmd --list-all-zones
Oracle Linux Security Features
Enable automatic security updates:
# Install dnf-automatic
sudo dnf install -y dnf-automatic
# Configure for security updates only
sudo nano /etc/dnf/automatic.conf
# Set: upgrade_type = security
# Set: apply_updates = yes
# Enable and start
sudo systemctl enable --now dnf-automatic.timer
# Verify
systemctl status dnf-automatic.timer
Audit daemon for compliance:
# Install auditd
sudo dnf install -y audit
# Add rules for storage access
sudo tee -a /etc/audit/rules.d/storage.rules > /dev/null <<'EOF'
# Monitor NVMe device access
-w /dev/nvme0n1 -p rwa -k nvme_access
# Monitor NVMe configuration changes
-w /etc/nvme/ -p wa -k nvme_config
-w /etc/nvme/hostnqn -p wa -k nvme_hostnqn
# Monitor network configuration changes
-w /etc/sysconfig/network-scripts/ -p wa -k network_config
EOF
# Reload rules
sudo augenrules --load
# Enable and start
sudo systemctl enable --now auditd