Supported terraform version 1.1.X
This Project provides a high configurable way to deploy SAP HANA database and SAP S/4HANA (or SAP NetWeaver) on various cloud platforms.
Both public cloud and private cloud scenarios are possible. The major cloud providers Google Cloud Platform (GCP), Microsoft Azure, and Amazon Web Services (AWS) are supported. Furthermore OpenStack and libvirt/KVM can be used.
It shall give an improved user experience for our SAP customers and partners. and deployment will takes minutes/hours instead of days. You can use it for POC or production deploymentes
Everything is powered by SUSE Linux Enterprise Server for SAP Applications.
The diagram above shows components for an example setup. Several features can be enabled or disabled through configuration options to control the behavior of the HA Cluster, the SAP HANA and SAP S/4HANA or SAP NetWeaver. The setup is also dependent on the cloud provider which is used.
-
SAP HANA Database: HANA might be deployed as a single SAP HANA database instance, or as a two-node configuration with system replication. Even HANA Scale-Out scenarios can be deployed, depending on the cloud provider (see Features section). In addition a SUSE HA cluster can be set on top of that. Please also have a look at Preparing SAP software
-
SAP S/4 HANA (or NetWeaver): S/4HANA can be deployed with a single PAS instance or as a full stack including ASCS, ERS, PAS and AAS (multiple) instances. In the latter sce case, a SUSE HA cluster is set on top of ASCS/ERS. For more information see S/4HANA and NetWeaver and Preparing SAP software.
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ISCSI server: This provides Stonith Block Devices used by the sbd fencing mechanism. Also see Fencing mechanism Native fencing mechanisms are available for some cloud environments (see Features section).
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Monitoring server: The monitoring solution is based on prometheus🔗 and grafana🔗. It provides informative and customizable dashboards to users and administrators. Every node has prometheus exporters installed which are used to collect the needed metrics. For more information see Monitoring of cluster.
-
DRBD cluster: It is used to provide a highly available NFS server for cloud providers that lack a native solution. It will be used to mount SAP NetWeaver shared files. For more information see DRBD. Some cloud providers have native solutions for high available NFS (see Features section), which should be preferred over the DRBD solution.
-
Bastion server: A bastion server is used to have a single internet-facing entry point (
ssh
) for the administrator and the provisioning process. Security-wise, it is a best practice to access you machines this way. The availability of this solution depends again on the used cloud provider (see Features section).
For more on various topics have a look on the following documentation:
This repository supports deployment with following products:
Vendor | Product |
---|---|
SUSE | SUSE Linux Enterprise Server for SAP Applications 12 SP5 Certification: SLES for SAP🔗 and SAP Process Automation🔗 |
SUSE | SUSE Linux Enterprise Server for SAP Applications 15 SP 3 Certification: SLES for SAP🔗 and SAP Process Automation🔗 |
SAP | SAP HANA 2.0 with SPS >= 02 |
SAP | SAP NETWEAVER 7.5 (and later) |
SAP | SAP S/4HANA 1610 |
SAP | SAP S/4HANA 1709 |
SAP | SAP S/4HANA 1809 |
SAP | SAP S/4HANA 1909 |
SAP | SAP S/4HANA 2020 |
SAP | SAP S/4HANA 2021 |
This repository supports deployment on the following SAP certified providers cloud providers:
Vendor | Product | Certification |
---|---|---|
Amazon | Amazon Web Services (AWS) | SAP Hardware Directory for AWS🔗 |
Microsoft | Azure | SAP Hardware Directory for Azure🔗 |
Google Cloud Platform (GCP) | SAP Hardware Directory for GCP🔗 | |
OpenInfra | OpenStack | Depends on deployed hardware, get an overview in SAP's Hardware Directory🔗 |
libvirt.org | Libvirt | not certified |
The following features are implemented:
Feature | AWS | Azure | GCP | OpenStack | Libvirt |
---|---|---|---|---|---|
SUSE saptune / SAP sapnotes SUSE's saptune is applied with the correct solution template to configure the systems based on SAP sapnotes recommendations. For additional information see Tuning Systems with saptune🔗. |
☒ | ☒ | ☒ | ☒ | ☒ |
HANA single node Deployment of HANA on a single node. For additional information see SAP Hardware Directory for AWS🔗 |
☒ | ☒ | ☒ | ☒ | ☒ |
HANA Scale-Up - performance optimized Deployment of HANA with system replication in a performance optimized setup. For addition information see SAP HANA System Replication Scale-Up - Performance Optimized Scenario🔗. |
☒ | ☒ | ☒ | ☒ | ☒ |
HANA Scale-Up - cost optimized Deployment of HANA with system replication in a cost optimized (additional tenant DB) setup. For additional information see SAP HANA System Replication Scale-Up - Cost Optimized Scenario🔗. |
☒ | ☒ | ☒ | ☒ | ☒ |
HANA Scale-Out - performance optimized Deployment of HANA Scale-Out (multi node) with system replication in a performance optimized setup. For additional information see SAP HANA System Replication Scale-Out - Performance Optimized Scenario🔗 and SAP HANA System Replication Scale-Out High Availability in Amazon Web Services🔗. |
☐ | ☒ | ☐ | ☒ | ☐ |
HANA Scale-Out - with standby nodes (HANA Host-Auto-Failover) Deployment of HANA Scale-Out (multi node) with system replication and Host-Auto-Failover via standby nodes. For additional information see Setting Up Host Auto-Failover🔗 and Azure: Deploy a SAP HANA scale-out system with standby node on Azure VMs by using Azure NetApp Files on SUSE Linux Enterprise Server🔗. |
🚫 | ☒ | 🚫 | ☒ | ☐ |
SAP S/4HANA ENSA 1 Deployment of a SAP S/4HANA in Enqueue Replication (ENSA) 1 scenario. For additional information see SAP NetWeaver Enqueue Replication 1 High Availability Cluster - Setup Guide for SAP NetWeaver 7.40 and 7.50 🔗. |
☒ | ☒ | ☒ | ☒ | ☒ |
SAP S/4HANA ENSA 2 Deployment of a S/4HANA in Enqueue Replication (ENSA) 2 scenario. For additional information see SAP S/4HANA - Enqueue Replication 2 High Availability Cluster - Setup Guide 🔗. |
☒ | ☒ | ☒ | ☒ | ☒ |
SAP S/4HANA single PAS Deployment of a single S/4HANA PAS (primary instance). For additional information see SAP S/4HANA - Enqueue Replication 2 High Availability Cluster - Setup Guide 🔗. |
☒ | ☒ | ☒ | ☒ | ☒ |
SAP S/4HANA High Availability Cluster Deployment of a full SAP S/4HANA stack including ASCS, ERS, PAS and AAS (multiple) instances. For additional information see SAP S/4HANA - Enqueue Replication 2 High Availability Cluster - Setup Guide 🔗. |
☒ | ☒ | ☒ | ☒ | ☒ |
Deployment in different Availability Zones/Sets Deployment of virtual instances in different Availability Zones/Sets for HA on hardware level. |
☒ | ☒ | ☒ | ☐ | ☐ |
Legend:
Symbol | Explanation |
---|---|
☒ | feature implemented in this repository |
☐ | not implemented in this repository |
🚫 | not recommended by vendor |
This project heavily uses terraform🔗 and salt🔗 for configuration and deployment.
Terraform is used to create the required infrastructure in the specified cloud.
The code is divided into sub directories for each terraform provider and split into different terraform modules. There are also some abstracted generic_modules
./ha-sap-terraform-deployments
├── aws
│ └── modules
├── azure
│ └── modules
├── generic_modules
│ └── ...
├── gcp
│ └── modules
├── libvirt
│ └── modules
├── openstack
│ └── modules
…
This makes the code modular and more maintainable.
Salt configures all virtual machine instances that are provisioned by terraform.
This includes configuring the operating system, mounting filesystems,
installing SAP software, installing HA components.
It does so by using pillars
and grains
which are injected by terraform
in a flexible and customizable way.
./ha-sap-terraform-deployments
├── pillar_examples
│ └── automatic
│ └── drbd
│ └── hana
│ └── netweaver
├── salt
│ └── bastion
│ └── cluster_node
│ └── ...
…
Terraform will first build up the infrastructure/machines and salt will do the actual provisioning.
Under the hood, shaptools🔗 and salt-shaptools🔗 are used, to have a stable API to access SAP HANA and Netweaver functionalities.
The whole architecture stack can be seen here:
This repository is intended to be configured and run from a local workstation, but should also be runnable from your cloud provider's cloud shell.
Each provider folder has it own provider relevant documentation, modules and example configuration. Be sure to get familiar with these before trying this out.
The SAP software media has to be available and prepared according to Preparing SAP software.
After you prepared the SAP software, make sure to have terraform and salt installed.
Clone this repository and follow the quickstart guides of the favored provider.
They can be found in ./<provider>/README.md
or linked below:
- Amazon Web Services (AWS) (pdf guide SUSE SAP automation guide AWS🔗)
- Microsoft Azure (pdf guide SUSE SAP automation guide Azure🔗)
- Google Cloud Platform (GCP) (pdf guide SUSE SAP automation guide GCP🔗)
- OpenStack
- libvirt/KVM
The SUSE SAP automation guides contain a lot more detailed explanations than the short quick start guides.
Each provider folder contains a minimal working configuration example
terraform.tfvars.example
.
Please be careful which instance type you will use! The selection of systems certified by SAP could lead to expensive unexpected costs.
In case you have some issue, take a look at this troubleshooting guide.