// Deploying Cloudflare Access with Cloudflare Tunnel to provide zero trust access to self-hosted and private applications, configuring identity-aware access policies, device posture checks, and WARP client enrollment for VPN replacement.
Triage and prioritize vulnerabilities using CISA's Stakeholder-Specific Vulnerability Categorization (SSVC) decision tree framework to produce actionable remediation priorities.
SOC 2 Type II audit preparation involves designing, implementing, and demonstrating the operational effectiveness of controls aligned to the AICPA Trust Services Criteria (TSC) over a defined audit pe
UI/UX best practices for web interfaces. Use when reviewing animations, CSS, audio, typography, UX patterns, prefetching, or icon implementations. Covers 11 categories from animation principles to typography. Outputs file:line findings.
Configure AWS Verified Access to provide VPN-less zero trust network access to internal applications using identity and device posture verification with Cedar policy language.
Configuring Google Cloud Identity-Aware Proxy (IAP) to enforce per-request identity verification for Compute Engine, App Engine, Cloud Run, and GKE services using access levels, context-aware policies, and programmatic access with service accounts.
Configuring Zscaler Private Access (ZPA) to replace traditional VPN with zero trust network access by deploying App Connectors, defining application segments, configuring access policies based on user identity and device posture, and integrating with IdPs.
| name | deploying-cloudflare-access-for-zero-trust |
| description | Deploying Cloudflare Access with Cloudflare Tunnel to provide zero trust access to self-hosted and private applications, configuring identity-aware access policies, device posture checks, and WARP client enrollment for VPN replacement. |
| domain | cybersecurity |
| subdomain | zero-trust-architecture |
| tags | ["cloudflare","cloudflare-access","zero-trust","cloudflare-tunnel","warp","ztna","cloudflare-one"] |
| version | 1.0 |
| author | mahipal |
| license | Apache-2.0 |
Do not use for applications requiring persistent UDP connections not supported by Cloudflare Tunnel, for environments requiring air-gapped or fully on-premises access control, or when regulatory requirements prohibit routing traffic through third-party cloud infrastructure.
cloudflared tunnel daemonInstall cloudflared and create a persistent tunnel to expose internal services.
# Install cloudflared on Ubuntu/Debian
curl -L https://github.com/cloudflare/cloudflared/releases/latest/download/cloudflared-linux-amd64.deb \
-o cloudflared.deb
sudo dpkg -i cloudflared.deb
# Authenticate cloudflared with your Cloudflare account
cloudflared tunnel login
# Create a named tunnel
cloudflared tunnel create internal-apps
# Output: Created tunnel internal-apps with id xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
# Configure tunnel routes to internal applications
cat > ~/.cloudflared/config.yml << 'EOF'
tunnel: xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx
credentials-file: /home/admin/.cloudflared/xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx.json
ingress:
- hostname: wiki.company.com
service: http://localhost:8080
- hostname: git.company.com
service: http://10.1.1.50:3000
- hostname: grafana.company.com
service: http://10.1.1.60:3000
- hostname: ssh.company.com
service: ssh://localhost:22
- hostname: rdp.company.com
service: rdp://10.1.1.100:3389
# Catch-all rule (required)
- service: http_status:404
EOF
# Route DNS to the tunnel
cloudflared tunnel route dns internal-apps wiki.company.com
cloudflared tunnel route dns internal-apps git.company.com
cloudflared tunnel route dns internal-apps grafana.company.com
# Run tunnel as a systemd service
sudo cloudflared service install
sudo systemctl enable cloudflared
sudo systemctl start cloudflared
# Verify tunnel status
cloudflared tunnel info internal-apps
Set up authentication with your organization's identity provider.
# Using Cloudflare API to configure Okta as IdP
curl -X PUT "https://api.cloudflare.com/client/v4/accounts/{account_id}/access/identity_providers" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "Corporate Okta",
"type": "okta",
"config": {
"client_id": "OKTA_CLIENT_ID",
"client_secret": "OKTA_CLIENT_SECRET",
"okta_account": "company.okta.com",
"api_token": "OKTA_API_TOKEN",
"claims": ["email", "groups", "name"],
"email_claim_name": "email"
}
}'
# Configure Microsoft Entra ID as additional IdP
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/access/identity_providers" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "Microsoft Entra ID",
"type": "azureAD",
"config": {
"client_id": "AZURE_APP_CLIENT_ID",
"client_secret": "AZURE_APP_CLIENT_SECRET",
"directory_id": "AZURE_TENANT_ID",
"support_groups": true,
"claims": ["email", "groups", "name"]
}
}'
Define Access applications with identity-aware policies for each internal service.
# Create Access application for internal wiki
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/access/apps" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "Internal Wiki",
"domain": "wiki.company.com",
"type": "self_hosted",
"session_duration": "8h",
"auto_redirect_to_identity": true,
"http_only_cookie_attribute": true,
"same_site_cookie_attribute": "lax",
"logo_url": "https://company.com/wiki-logo.png",
"allowed_idps": ["OKTA_IDP_ID", "AZURE_IDP_ID"]
}'
# Create Allow policy for the wiki application
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/access/apps/{app_id}/policies" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "Allow Engineering Team",
"decision": "allow",
"precedence": 1,
"include": [
{"group": {"id": "ENGINEERING_GROUP_ID"}},
{"okta": {"name": "Engineering", "identity_provider_id": "OKTA_IDP_ID"}}
],
"require": [
{"device_posture": {"integration_uid": "CROWDSTRIKE_INTEGRATION_ID"}}
]
}'
# Create Access application for SSH access
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/access/apps" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "SSH Access",
"domain": "ssh.company.com",
"type": "ssh",
"session_duration": "4h",
"auto_redirect_to_identity": true
}'
Enroll corporate devices using Cloudflare WARP for private network access and device posture.
# Create device enrollment rule
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/devices/policy" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "Corporate Device Enrollment",
"match": "identity.email matches \".*@company\\.com$\"",
"precedence": 100,
"enabled": true,
"gateway_unique_id": "GATEWAY_ID",
"support_url": "https://helpdesk.company.com/warp-help"
}'
# Install WARP on macOS via MDM (Jamf/Intune)
# Download: https://developers.cloudflare.com/cloudflare-one/connections/connect-devices/warp/download-warp/
# Deploy with MDM configuration profile:
cat > warp_mdm_config.plist << 'EOF'
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>organization</key>
<string>company</string>
<key>auto_connect</key>
<integer>1</integer>
<key>switch_locked</key>
<true/>
<key>onboarding</key>
<false/>
</dict>
</plist>
EOF
# Install Cloudflare root certificate for TLS inspection
# Download from: https://developers.cloudflare.com/cloudflare-one/connections/connect-devices/warp/user-side-certificates/
sudo cp cloudflare-root-ca.pem /usr/local/share/ca-certificates/cloudflare-root-ca.crt
sudo update-ca-certificates
# Configure split tunnel to route private network through WARP
curl -X PUT "https://api.cloudflare.com/client/v4/accounts/{account_id}/devices/policy/{policy_id}/fallback_domains" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '[
{"suffix": "internal.corp", "description": "Internal corporate domain"},
{"suffix": "10.0.0.0/8", "description": "Private network range"}
]'
Integrate endpoint security signals into Access policies.
# Add CrowdStrike device posture integration
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/devices/posture/integration" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "CrowdStrike Falcon",
"type": "crowdstrike_s2s",
"config": {
"api_url": "https://api.crowdstrike.com",
"client_id": "CS_API_CLIENT_ID",
"client_secret": "CS_API_CLIENT_SECRET",
"customer_id": "CS_CUSTOMER_ID"
},
"interval": "10m"
}'
# Create device posture rule for disk encryption
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/devices/posture" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "Disk Encryption Required",
"type": "disk_encryption",
"match": [{"platform": "windows"}, {"platform": "mac"}],
"input": {"requireAll": true}
}'
# Create device posture rule for OS version
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/devices/posture" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "Minimum OS Version",
"type": "os_version",
"match": [{"platform": "windows"}],
"input": {"version": "10.0.19045", "operator": ">="}
}'
Configure logging for access decisions and tunnel health monitoring.
# Enable Logpush for Access audit logs to S3
curl -X POST "https://api.cloudflare.com/client/v4/accounts/{account_id}/logpush/jobs" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"name": "access-audit-logs",
"output_options": {
"field_names": ["RayID","Action","Allowed","AppDomain","AppUUID","Connection","Country","CreatedAt","Email","IPAddress","PurposeJustificationPrompt","PurposeJustificationResponse","TemporaryAccessDuration","UserUID"],
"timestamp_format": "rfc3339"
},
"destination_conf": "s3://security-logs-bucket/cloudflare-access/?region=us-east-1&access-key-id=AKID&secret-access-key=SECRET",
"dataset": "access_requests",
"enabled": true
}'
# Query access logs via GraphQL Analytics API
curl -X POST "https://api.cloudflare.com/client/v4/graphql" \
-H "Authorization: Bearer ${CF_API_TOKEN}" \
-H "Content-Type: application/json" \
--data '{
"query": "{ viewer { accounts(filter: {accountTag: \"ACCOUNT_ID\"}) { accessLoginRequestsAdaptiveGroups(filter: {datetime_gt: \"2026-02-22T00:00:00Z\"}, limit: 100, orderBy: [count_DESC]) { dimensions { action appName userEmail country } count } } } }"
}'
| Term | Definition |
|---|---|
| Cloudflare Tunnel | Encrypted outbound-only connection from your infrastructure to Cloudflare's network, exposing internal services without opening inbound firewall ports |
| Cloudflare Access | Identity-aware reverse proxy evaluating every request against access policies before granting access to protected applications |
| WARP Client | Cloudflare's endpoint agent that routes device traffic through Cloudflare's network for policy enforcement and private network access |
| Access Application | Configuration object defining a protected resource (self-hosted, SaaS, or infrastructure) with associated access policies |
| Device Posture | Endpoint health signals (OS version, disk encryption, EDR status) evaluated as conditions in Access policies |
| Cloudflare One | Unified SASE platform combining ZTNA (Access), SWG (Gateway), CASB, DLP, and RBI |
Context: A SaaS startup with 200 employees and no existing VPN wants to provide secure access to internal tools (Grafana, internal APIs, staging environments) running on AWS. Budget is limited, and the team has no dedicated security staff.
Approach:
cloudflared tunnel on an EC2 instance in the production VPCPitfalls: Cloudflare root certificate must be installed on all devices for TLS inspection to work; some applications may break with TLS interception. Tunnel failover requires running multiple cloudflared instances or using Cloudflare's replicas feature. Access policies should always include a default deny rule. WebSocket applications may require specific tunnel configuration.
Cloudflare Zero Trust Deployment Report
==================================================
Organization: StartupCorp
Team Name: startupcorp
Deployment Date: 2026-02-23
TUNNEL INFRASTRUCTURE:
Active Tunnels: 2 (primary + failover)
Tunnel Status: Healthy
Connected Edge: Washington DC, Ashburn
Ingress Routes: 8
ACCESS APPLICATIONS:
Self-Hosted Apps: 6
SaaS Apps: 3
SSH/Infrastructure: 2
Total Policies: 15
DEVICE ENROLLMENT:
Enrolled Devices: 187 / 200
WARP Connected: 182 / 187 (97.3%)
Posture Compliant: 175 / 187 (93.6%)
ACCESS METRICS (last 30 days):
Total Requests: 89,432
Allowed: 88,756 (99.2%)
Blocked: 676 (0.8%)
Unique Users: 195
Countries: 12
Avg Session Duration: 6.2 hours