This package provides a scheme adapter that interfaces between a Mojaloop API compliant switch and a DFSP backend platform that does not natively implement the Mojaloop API.
The API between the scheme adapter and the DFSP backend is synchronous HTTP while the interface between the scheme adapter and the switch is native Mojaloop API.
This package exemplifies the use of the Mojaloop SDK Standard Components for TLS, JWS and ILP (available here).
For information on the background and context of this project please see the presentation here
DFSP backends must implement the DFSP Inbound API in order for the scheme adapter to make incoming transfers i.e. to receive funds to a customer account.
DFSP backends can call the DFSP Outbound API in order to make outgoing transfers i.e. to send funds from a customer account.
This package is available as a pre-built docker image on Docker Hub: https://hub.docker.com/r/mojaloop/sdk-scheme-adapter
Users who do not wish to use all the functionality of the scheme adapter as-is are able to import this package as a dependency into their own projects. The scheme adapter package is published on npm and exposes the following components for external use:
- Inbound Server Middleware
- Outbound Server Middleware
- Request Router
- Request Validation Framework
- Unique Request Identifier Framework (RandomPhrase)
- Logger
- Distributed Cache Abstraction (uses REDIS as a backing service)
The steps shown below illustrate setting up the Mojaloop SDK Scheme Adapter locally with a mock DFSP backend.
This configuration is suitable as a starting point for DFSPs wishing to utilize the scheme adapter for integrating their backend systems with a Mojaloop API enabled switch.
Note that these instructions are for Linux based systems. For Mac and/or Windows you will need to translate the following for your environment.
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Make sure you have docker and docker-compose installed locally. See https://docs.docker.com/v17.12/install/ and https://docs.docker.com/compose/install/ respectively.
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Clone the Mojaloop SDK Mock DFSP Backend repository locally:
Change directory into your workspace then to clone using HTTPS:
$ git clone https://github.com/mojaloop/sdk-mock-dfsp-backend.git
or to clone using SSH:
$ git clone [email protected]:mojaloop/sdk-mock-dfsp-backend.git
Now change directory into the cloned repository directory:
$ cd sdk-mock-dfsp-backend
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Edit the scheme adapter configuration to point the scheme adapter at your Mojaloop API enabled switch or simulator:
Use your favourite text editor to edit the file
src/scheme-adapter.env
. Change the value of thePEER_ENDPOINT
variable to the DNS name or IP address and port number of your Mojaloop API enabled switch or simulator. Save the file. -
Use docker-compose to download and run the pre-built scheme-adapter, shared cache and mock DFSP backend containers locally:
Change directory into the
src
subfolder and run docker-compose$ cd src/ $ docker-compose up
You should see docker download the pre-built docker images for the scheme adapter, shared cache (redis) and mock DFSP backend. Docker-compose will start the containers.
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Test the outbound (sending money) API:
Find the IP address of the mock DFSP backend container. To do this you can use...
docker network ls
to find the list of docker networks on your local machine. Identity the docker network created by docker-compose, docker-compose will assign a name based on the directory name from which you ran the
docker-compose up
command.Once you have identified the network you can use...
docker network inspect {network name}
This will print a JSON structure to the terminal containing the set of containers in the network and their individual IP addresses.
Use the following command to tell the mock DFSP backend to initiate an outbound money transfer via the scheme-adapter:
Dont forget to substitute in the correct IP address for the Mock DFSP Backend container
curl -X POST \ http://{MOCK Container IP Address}:3000/send \ -H 'Content-Type: application/json' \ -d '{ "from": { "displayName": "John Doe", "idType": "MSISDN", "idValue": "123456789" }, "to": { "idType": "MSISDN", "idValue": "987654321" }, "amountType": "SEND", "currency": "USD", "amount": "100", "transactionType": "TRANSFER", "note": "test payment", "homeTransactionId": "123ABC" }'
The response from the above call should indicate the result of the communication between the scheme-adapter and the Mojaloop API enabled switch or simulator.
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Speak to your switch operator or use your simulator to test the inbound (receiving money) API.
You can now examine the code of the Mock DFSP backend to understand how it implements the scheme-adapter simplified inbound API.
Unit tests can be found in the ./src/test/unit
directory, and follow the same directory structure of the main project.
Run the unit tests with the following (from ./src
dir):
npm run test
docker-compose -f docker-compose.yml build
docker-compose -f docker-compose.yml up -d
./docker/wait4/wait4.js cicd-integration-tests
cd src
npm run test:int
cd ../
docker-compose -f docker-compose.yml down
# test report you can find in
src/junit.xml
The status of a previously sent quotation request can be get by executing GET /quotes/{ID}
.
When the response to the original quote request is sent, the response is cached in the redis store. When a GET /quotes/{ID}
is received,
the cached response is retrieved from the redis store and returned to the caller as a body with PUT /quotes/{ID}
request.
When the redis is setup as a persistent store then it will return the response for all the quote requests sent with POST /quotes
. If the the redis is setup as cache with expiry time then it will not return response for the expired quotes when the cache expires. Also only the payer dfsp is supposed to make the GET /quotes/{ID}
request.
If the quote response is not found in the redis store PUT /quotes/{ID}
will be made with the following body
{
"errorInformation":{
"errorCode":"3205",
"errorDescription":"Quote ID not found"
}
}
This project uses @redocly/openapi-cli and @mojaloop/api-snippets to build interfaces.
Any interface changes should be done in the corresponding api-template.yaml
file and then rebuilt using the command below or the build:openapi
scripts.
openapi bundle --output api.yaml --ext yaml api_template.yaml
To rebuild the inbound interface run
npm run build:openapi:inbound
To rebuild the outbound interface run
npm run build:openapi:outbound
As part of our CI/CD process, we use a combination of CircleCI, standard-version npm package and github-release CircleCI orb to automatically trigger our releases and image builds. This process essentially mimics a manual tag and release.
On a merge to master, CircleCI is configured to use the mojaloopci github account to push the latest generated CHANGELOG and package version number.
Once those changes are pushed, CircleCI will pull the updated master, tag and push a release triggering another subsequent build that also publishes a docker image.
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There is a case where the merge to master workflow will resolve successfully, triggering a release. Then that tagged release workflow subsequently failing due to the image scan, audit check, vulnerability check or other "live" checks.
This will leave master without an associated published build. Fixes that require a new merge will essentially cause a skip in version number or require a clean up of the master branch to the commit before the CHANGELOG and bump.
This may be resolved by relying solely on the previous checks of the merge to master workflow to assume that our tagged release is of sound quality. We are still mulling over this solution since catching bugs/vulnerabilities/etc earlier is a boon.
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It is unknown if a race condition might occur with multiple merges with master in quick succession, but this is a suspected edge case.