This repository includes several demos of the EVerest tech stack's capabilities. The intent of this repository is to showcase the foundational layers of a charging solution that could address interoperability and reliability issues in the EV charging industry. The demonstrations aim to exemplify the modular nature of EVerest and can be utilized to understand the following:
- Standards-based implementations for driving interoperability between the EV, EVSE, and CSMS
- Interoperability testing tools and test suites
- Simulated EVs, EVSEs, etc. following interoperability best practices and simulating stress testing scenarios
Below is a table of demonstrations that are currently available.
Demo | Content | Diagram |
---|---|---|
One EV ↔ EVSE (AC Simulation) | Simple AC charging session with one EV connecting to one Charger (EVSE) | One EV ↔ EVSE (AC Simulation) Diagram |
One EV ↔ EVSE (ISO 15118-2 DC) | ISO 15118-2 compliant charging session with one EV connecting to one EVSE | One EV ↔ EVSE (ISO 15118-2 DC) Diagram |
Two EV ↔ EVSE | Two EVSE connector points showcasing EVerests ability to work with a CSMS in a multi-station context | Two EV ↔ EVSE Diagram |
E2E Automated Tests | Performs an automated test of a full charging session | E2E Automated Tests Diagram |
OCPP Demos | Various OCPP 2.0.1 compliant charging sessions with differing security profiles | OCPP Demo Diagram |
- Mac OS
- EVerest Demos are currently NOT supported on M1 chips
- On x86 chips, no additional steps needed, move to Install and Set-up
- Linux
- No additional steps needed, move to Install and Set-up
- Windows
- Ensure that you are running Windows 10+
- Install Windows Subsystem for Linux (recommended version 2.0)
- Move to Install and Set-up
-
Install docker with the following link Get Docker
-
Ensure that docker is installed by opening your machines terminal and typing
docker --version
- Note: The terminal should return "Docker version x.x.x".
-
Open the Docker desktop application
-
Open your machines terminal
Copy and paste the command for the demo you wish to run into the machines terminal.
- Note: After you enter the command into the terminal, the docker application should open the associated containers
- One EV ↔ EVSE (AC Simulation):
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-ac.sh | bash
- One EV ↔ EVSE (ISO 15118 AC):
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-iso15118-2-dc.sh | bash
- Two EV ↔ EVSE:
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-two-evse.sh | bash
- E2E Automated Tests:
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-automated-testing.sh | bash
- OCPP Demos:
- OCPP basic and ISO 15118-2 AC Charging with OCPP 2.0.1 CSMS (MaEVe Security Profile 1):
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-iso15118-2-ac-plus-ocpp.sh | bash -s -- -1
- OCPP basic and ISO 15118-2 AC Charging with OCPP 2.0.1 CSMS (MaEVe Security Profile 2):
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-iso15118-2-ac-plus-ocpp.sh | bash -s -- -2
- OCPP basic and ISO 15118-2 AC Charging with OCPP 2.0.1 CSMS (MaEVe Security Profile 3):
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-iso15118-2-ac-plus-ocpp.sh | bash -s -- -3
- OCPP basic and ISO 15118-2 AC Charging with OCPP 2.0.1 CSMS (CitrineOS Security Profile 1):
curl https://raw.githubusercontent.com/everest/everest-demo/main/demo-iso15118-2-ac-plus-ocpp.sh | bash -s -- -c -1
- OCPP basic and ISO 15118-2 AC Charging with OCPP 2.0.1 CSMS (MaEVe Security Profile 1):
-
Open the demo UI at http://127.0.0.1:1880/ui
- Note: The demo UI will vary based on the demonstration that is selected. For the best results, having the demo UI and Docker desktop application up side-by-side will allow the user to understand what messages are being sent back-and-fourth across the demo actors.
-
Open the
nodered
flows to understand the module flows at http://127.0.0.1:1880- Note: The nodered flows will allow the user to understand how modules interact within the demonstrations. For more information on simulating Everest with software, the simulation GUI, and NODE RED, click here
Feel free to explore these demos on your own accord. Below is a table that will help the user understand how to interact with the UI.
Note: Only one demonstration can be run at a time, in order to spin up a new demo, move to Step 4: Teardown before attempting to start new demo.
- Select all Docker containers
- Delete all files and containers:
docker compose -p [prefix] down && rm docker-compose.yml
where[prefix]
iseverest, everest-dc, everest-two-evse...
There are many different variables that the user can experiment with throughout the demonstrations. See below:
- When running the Basic and ISO 15118-2 AC Charging with OCPP 201 CSMS demo,
the script currently checks out the maeve repository and builds it, so it is
fairly slow.
- It starts the Maeve containers in detached mode, so you would need to use
docker desktop or
docker logs
to see the logs - Note that the OCPP logs are available at
/tmp/everest_ocpp_logs/
on the EVerest manager and can be downloaded using the docker desktop ordocker cp
- It starts the Maeve containers in detached mode, so you would need to use
docker desktop or
- You can experiment with different constraints for a demo by exporting
EVEREST_MANAGER_CPUS
andEVEREST_MANAGER_MEMORY
environment variables prior to running one of the demos. The values of these variables can take on any valid Docker CPU value and memory limit, respectively. For example, to run a demo with two CPUs and 1536 MB of RAM, you could execute
export EVEREST_MANAGER_CPUS='2.0' EVEREST_MANAGER_MEMORY='1536mb'
-
This demo can be run independently, and exports the admin panel as explained in this video.It provides a visual representation of the configuration and the resulting configurations.
-
Run the explore configs demo:
curl -o docker-compose.yml https://raw.githubusercontent.com/everest/everest-demo/main/docker-compose.admin-panel.yml && docker compose -p everest-admin-panel up
-
Access the visual representation at http://localhost:8849
First, thank you for your interest in contributing to the demo repository. Please follow the steps outlined below to not only contribute your demonstration, but update the documentation associated with the Demo:
- Submit a Pull Request with a functional
curl
script based demonstration to the EVerest Demo Repository - Add the following content to the "Hosted Demos" section:
- Demo Column, add the demo's name
- Content Column, add a one sentence description of function of the demo
- Diagram Column, create a high-level mermaid diagram of the demo functionality and add the diagram to the "Appendix Diagrams" section with a hyperlink to the section in the column
- Add the
curl
script to the "Demo Commands" list - If there is any additional functionality not covered in the current documentation please add the details to the "Additional Functionality" section
For more information around ISO 15118-2 and OCPP messaging, see the below standards documentation.
The following diagrams provide a visual representation of the above demos.
sequenceDiagram
participant EV as Electric Vehicle (EV)
participant EVSE as Electric Vehicle Supply Equipment (EVSE)
EV->>EVSE: Plug-in
EV->>EVSE: Signal Response (State A to State B1)
EVSE-->>EV: Power Available?
EV-->>EVSE: Ready to Charge (State B2)
EVSE-->>EV: Start Charging (State B2 to State C2)
Note over EVSE, EV: Charging in progress
EV->>EVSE: Request Stop (State C2 to State B)
EVSE-->>EV: Power Cut Off
EV->>EVSE: Unplug (State A)
Note over EVSE, EV: Session Ends
sequenceDiagram
participant EV as Electric Vehicle (EV)
participant EVSE as Electric Vehicle Supply Equipment (EVSE)
Note over EV,EVSE: Connection Establishment
EV ->> EVSE: Physical Connection (PLC)
EVSE <<->> EV: ISO 15118-2 communications
EV ->> EVSE: Authorization Request (e.g., Plug & Charge, Contract-based)
EVSE -->> EV: Authorization Response
Note over EV,EVSE: Charging Parameters Setup
EV ->> EVSE: Charging Parameters Request
EVSE -->> EV: Charging Parameters Response
Note over EV,EVSE: Charging
EV ->> EVSE: Power Delivery Request (Start Charging)
EVSE -->> EV: Power Delivery Response
EVSE ->> EV: Power Flow
Note over EV,EVSE: Charging Status Updates
EV ->> EVSE: Charging Status Request
EVSE -->> EV: Charging Status Response
Note over EV,EVSE: Termination
EV ->> EVSE: Power Delivery Request (Stop Charging)
EVSE -->> EV: Power Delivery Response (End Charging)
Note over EV,EVSE: Session Termination
EV ->> EVSE: Session Stop Request
EVSE -->> EV: Session Stop Response
sequenceDiagram
participant EV1 as Electric Vehicle 1 (EV1)
participant EV2 as Electric Vehicle 2 (EV2)
participant EVSE as Electric Vehicle Supply Equipment (EVSE)
Note over EV1,EVSE: EV1 connects and starts charging
EV1 ->> EVSE: Physical Connection (PLC)
EVSE <<->> EV1: ISO 15118-2 communications
EV1 ->> EVSE: Power Delivery Request (Start Charging)
EVSE -->> EV1: Power Delivery Response
EVSE ->> EV1: Power Flow (100%)
Note over EV1 and EV2: EV2 connects while EV1 is charging
EV2 ->> EVSE: Physical Connection (PLC)
EVSE ->> EV2: ISO 15118-2 communications
Note over EV1 and EV2: Power shift occurs
EVSE ->> EV1: Power Reduction Request (50%)
EV1 -->> EVSE: Power Reduction Acknowledgment
EVSE ->> EV2: Power Delivery Request (50%)
EV2 -->> EVSE: Power Delivery Response
EVSE ->> EV1: Power Flow (50%)
EVSE ->> EV2: Power Flow (50%)
Note over EV2: EV2 finishes charging
EV2 ->> EVSE: Power Delivery Request (Stop Charging)
EVSE -->> EV2: Power Delivery Response (End Charging)
EV2 ->> EVSE: Session Stop Request
EVSE -->> EV2: Session Stop Response
EVSE ->> EV1: Power Delivery Request (100%)
EV1 -->> EVSE: Power Delivery Response
EVSE ->> EV1: Power Flow (100%)
Note over EV1: EV1 finishes charging
EV1 ->> EVSE: Power Delivery Request (Stop Charging)
EVSE -->> EV1: Power Delivery Response (End Charging)
EV1 ->> EVSE: Session Stop Request
EVSE -->> EV1: Session Stop Response
sequenceDiagram
participant EVerest
participant Probe Module
participant MQTT
par docker boots
EVerest ->> EVerest: Boot
Probe Module ->> Probe Module: init
end
Probe Module ->> MQTT: subcribe to session_event
Note over EVerest, MQTT: Test
Probe Module ->> EVerest: call_command
loop timeout or events
Probe Module->>MQTT: get message
Probe Module->>Probe Module: assert
end
sequenceDiagram
participant EV as Electric Vehicle (EV)
participant EVSE as Electric Vehicle Supply Equipment (EVSE)
participant CS as Central System (CS)
Note over EV,EVSE: EV connects to EVSE
EV ->> EVSE: Physical Connection
Note over EVSE,CS: Authorization phase
EVSE ->> CS: Authorize.req (RFID/ID)
CS -->> EVSE: Authorize.conf (Accepted)
Note over EVSE: EVSE starts charging session
EVSE ->> CS: StartTransaction.req (Session ID, EV info)
CS -->> EVSE: StartTransaction.conf (Accepted)
Note over EVSE,EV: Charging starts
EVSE ->> EV: Power Flow (Charging)
Note over EVSE,CS: Periodic meter values reporting
EVSE ->> CS: MeterValues.req (Energy consumption)
CS -->> EVSE: MeterValues.conf (Acknowledgment)
Note over EV,EVSE: EV requests to stop charging
EV ->> EVSE: Stop Charging Request (Unplug)
Note over EVSE,CS: Charging session ends
EVSE ->> CS: StopTransaction.req (Final meter values, session end)
CS -->> EVSE: StopTransaction.conf (Acknowledged)
Note over EVSE: EVSE stops charging
EVSE ->> EV: Power Flow Stops