paas-billing

command module

v0.72.0 Latest Latest Go to latest Published: May 6, 2020 License: MIT Imports: 23 Imported by: 0

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Repository

github.com/alphagov/paas-billing

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README ¶

Overview

A Golang application that provides an API endpoint for querying a Cloudfoundry organisation's resource usage/costs over a given time period.

Events are collected from multiple sources and stored in a postgres instance, normalized, combined with pricing configuration and then exposed for querying via an HTTP API.

The repository contains the following packages:

eventio - a collection of interfaces that describe the system
eventcollector - EventCollector's periodically poll for events via an eventio.EventFetcher
eventfetchers/cffetcher - an eventio.EventFetcher that gets cf usage events
eventstore - implements eventio.EventWriter to persist eventio.RawEvents from collectors and implements eventio.BillableEventReader to read out the processed events.
apiserver - an HTTP server that allows reading data from the store

Installation

You will need:

Go v1.9+

To build the application run the default make target:

make

You should then get a binary in bin/paas-billing.

The application has two commands to run the following components:

api: Runs the tenant-facing API server which can be scaled to any number of instances. Only queries the database.
collector: Runs all the processes to regularly collect usage information and produce billing data. There should be no multiple instances running.

E.g. to run the API you should use the following command:

./bin/paas-billing api

Configuration

Configuring Pricing Plans

You must tell the application how to map service plan GUID's to pricing formulas so that costs can be calculated.

These are configured via a config.json file in the APP_ROOT directory. Pricing plans can change over time and so all items in the config file have valid_from dates.

Here is an example plan configuration file including VAT rates and currency rates:

{
  "currency_rates": [
    {
      "code": "GBP",
      "valid_from": "2011-01-01",
      "rate": 1
    },
    {
      "code": "USD",
      "valid_from": "2011-01-1",
      "rate": 0.8
    }
  ],
  "vat_rates": [
    {
      "code": "Standard",
      "valid_from": "epoch",
      "rate": 0.2
    },
  ],
  "pricing_plans": [
    {
      "name": "my-database-service",
      "valid_from": "2017-01-01",
      "plan_guid": "9befba08-c364-4d50-83d1-955b84a69989",
      "components": [
        {
          "name": "instance",
          "formula": "0",
          "currency_code": "GBP",
          "vat_code": "Standard"
        }
      ]
    },
    {
      "name": "app",
      "valid_from": "2017-01-01",
      "plan_guid": "f4d4b95a-f55e-4593-8d54-3364c25798c4",
      "components": [
        {
          "name": "instance",
          "formula": "$number_of_nodes * ceil($time_in_seconds / 3600) * ($memory_in_mb/1024.0) * 0.01",
          "currency_code": "USD",
          "vat_code": "Standard"
        },
        {
          "name": "storage",
          "formula": "($storage_in_mb/1024) * ceil($time_in_seconds / 3600) * 0.0001",
          "currency_code": "USD",
          "vat_code": "Standard"
        }
      ]
    },
  ]
}

Writing formulas:

The following variables are available for use in formulas:

Name	Description	example
`$number_of_nodes`	number of instances	`$number_of_nodes * 0.1`
`$time_in_seconds`	the time period in seconds that the resource was active	`$time_in_seconds * 0.01`
`$memory_in_mb`	amount of memory used by resource in MB	`$memory_in_mb * 0.01`

Note: variables may be 0 if they are not relevent to the resource.

The following functions are available for use in formulas:

Name	Description	example
`ceil(number)`	converts to the nearest integer greater than or equal to argument. It can be used to calculate billable hours	`ceil($time_in_seconds / 3600 * 1.5)`

Configuring the store

The store can be configured via the following environment variables

Variable name	Type	Required	Default	Description
`APP_ROOT`	string	no	`$PWD`	absolute path to the application source to discover assets at runtime
`DATABASE_URL`	string	yes		Postgres connection string
`PROCESSOR_SCHEDULE`	duration	no	15m	how often to process the raw events into queryable BillableEvents

Configuring the Collectors

Variable name	Type	Required	Default	Description
`COLLECTOR_SCHEDULE`	duration	no	1m	how often to fetch new data from the API
`COLLECTOR_MIN_WAIT_TIME`	duration	no	3s	if we are able to fetch the maximum number of items we only wait this much before the next fetch (this allows us to speed up the the processing if necessary)

Configuring Cloudfoundry integration

Variable name	Type	Required	Default	Description
`CF_API_ADDRESS`	string	yes		Cloud Foundry API endpoint
`CF_CLIENT_ID`	string	yes		Cloud Foundry client id
`CF_CLIENT_SECRET`	string	yes		Cloud Foundry client secret
`CF_SKIP_SSL_VALIDATION`	bool	no	false	skip the SSL certificate validation (use only for development!)
`CF_TOKEN`	string	no		Cloud Foundry OAuth token
`CF_USER_AGENT`	string	no		User agent when connecting to Cloud Foundry
`CF_FETCH_LIMIT`	integer	no	50	how many items to fetch from the API in one request, must be a positive integer. Max: 100.
`CF_RECORD_MIN_AGE`	duration	no	5m	stop processing records from the API if a record is found with less than a minimum age. This guarantees that we don't miss events from ongoing transactions.

Note: in development you can use CF_USERNAME and CF_PASSWORD instead of CF_CLIENT_ID CF_CLIENT_SECRET to configure the CFFetcher

Configuring the API server

Variable name	Type	Required	Default	Description
`PORT`	integer	no	8881	port that the HTTP server will listen on

The collectors/fetchers can be configured via the following environment variables

API Usage

`GET /usage_events`

UsageEvents are the normalized, processed events. Each event represents some kind of resource usage over a period of time.

A single event might represent a Cloudfoundry app running for 20mins, with 64MB memory and 3x instances. Another event might represent a medium mysql database that was running for 3hrs.

The resource_guid field references the subject of the event. For a cloudfoundry app event (resource_type=app) this would be an app guid. For a cloudfoundry service event (resource_type=service) this would be a service instance guid.

Authorization:

The Authorization header must contain a valid Cloudfoundry bearer token with permission to access the requested orgs is required.

Query parameters:

Name	Type	Example	Notes
`range_start`	timestamp	2001-01-01	required start of period to query
`range_stop`	timestamp	2017-01-01	required end of period to query
`org_guid`	uuid	"2884b2bc-f74b-4aaa-956d-f679ca498dce"	can specify this param multiple times to request multiple orgs

Example:

RANGE_START="2018-01-01"
RANGE_STOP="2018-02-01"
ORG_GUID="$(cf org my-org --guid)"

curl -s -G -H "Authorization: $(cf oauth-token)" 'http://localhost:8881/usage_events' \
	--data-urlencode "range_start=${RANGE_START}" \
	--data-urlencode "range_stop=${RANGE_STOP}" \
	--data-urlencode "org_guid=${ORG_GUID}"

Returns:

[
	...
	{
		"event_guid":      "aa30fa3c-725d-4272-9052-c7186d4968a6",
		"event_start":     "2001-01-01T00:00:00+00:00",
		"event_stop":      "2001-01-01T01:00:00+00:00",
		"resource_guid":   "c85e98f0-6d1b-4f45-9368-ea58263165a0",
		"resource_name":   "APP1",
		"resource_type":   "app",
		"org_guid":        "51ba75ef-edc0-47ad-a633-a8f6e8770944",
		"space_guid":      "276f4886-ac40-492d-a8cd-b2646637ba76",
		"plan_guid":       "f4d4b95a-f55e-4593-8d54-3364c25798c4",
		"number_of_nodes": 3,
		"memory_in_mb":    1024,
		"storage_in_mb":   0,
	}
	...
]

`GET /billable_events`

BillableEvents have all the same details as UsageEvents but they also contain a price field shows the cost calculated for the event.

Authorization:

The Authorization header must contain a valid Cloudfoundy bearer token with permission to access the requested orgs is required.

Query parameters:

Name	Type	Example	Notes
`range_start`	timestamp	2001-01-01	required start of period to query
`range_stop`	timestamp	2017-01-01	required end of period to query
`org_guid`	uuid	"2884b2bc-f74b-4aaa-956d-f679ca498dce"	can specify this param multiple times to request multiple orgs

Example:

RANGE_START="2018-01-01"
RANGE_STOP="2018-02-01"
ORG_GUID="$(cf org my-org --guid)"

curl -s -G -H "Authorization: $(cf oauth-token)" 'http://localhost:8881/billable_events' \
	--data-urlencode "range_start=${RANGE_START}" \
	--data-urlencode "range_stop=${RANGE_STOP}" \
	--data-urlencode "org_guid=${ORG_GUID}"

Returns:

[
	...
	{
		"event_guid":      "aa30fa3c-725d-4272-9052-c7186d4968a6",
		"event_start":     "2001-01-01T00:00:00+00:00",
		"event_stop":      "2001-01-01T01:00:00+00:00",
		"resource_guid":   "c85e98f0-6d1b-4f45-9368-ea58263165a0",
		"resource_name":   "APP1",
		"resource_type":   "app",
		"org_guid":        "51ba75ef-edc0-47ad-a633-a8f6e8770944",
		"space_guid":      "276f4886-ac40-492d-a8cd-b2646637ba76",
		"plan_guid":       "f4d4b95a-f55e-4593-8d54-3364c25798c4",
		"quota_definition_guid": "dcb680a9-b190-4453-a2d1-cdb1377e42f4",
		"number_of_nodes": 1,
		"memory_in_mb":    1024,
		"storage_in_mb":   0,
		"price": {
			"inc_vat": "0.012",
			"ex_vat":  "0.01",
			"details": {
				{
					"name":          "compute",
					"plan_name":     "PLAN1",
					"start":         "2001-01-01T00:00:00+00:00",
					"stop":          "2001-01-01T01:00:00+00:00",
					"vat_rate":      "0.2",
					"vat_code":      "Standard",
					"currency_code": "GBP",
					"currency_rate": "1",
					"inc_vat":       "0.012",
					"ex_vat":        "0.01",
				},
			},
		}
	}
	...
]

`GET /forecast_events`

The forecast endpoint accepts a list of UsageEvents and a time range as input and outputs BillingEvents with prices. This can be used as a pricing calculator or to estimate future costs based on given scenarios.

Authorization:

This endpoint can be used without an authorization token so long as you only use the dummy org_guid 00000001-0000-0000-0000-000000000000 in requests.

Query parameters:

Name	Type	Example	Notes
`range_start`	timestamp	2001-01-01	required start of period to query
`range_stop`	timestamp	2017-01-01	required end of period to query
`org_guid`	uuid	"00000001-0000-0000-0000-000000000000"	dummy organization guid
`events`	JSON	`[{event1,event2}]`	Use dummy org_guid `00000001-0000-0000-0000-000000000000` and dummy space_guid `00000001-0001-0000-0000-000000000000`

Example:

RANGE_START="2018-03-01"
RANGE_STOP="2018-04-01"
COMPUTE_PLAN_GUID="f4d4b95a-f55e-4593-8d54-3364c25798c4"

curl -s -G 'http://localhost:8881/forecast_events' \
	--data-urlencode "range_start=${RANGE_START}" \
	--data-urlencode "range_stop=${RANGE_STOP}" \
	--data-urlencode "events=$(cat <<-END
		[{
			"event_guid": "00000000-0000-0000-0000-000000000001",
			"resource_guid": "00000000-0000-0000-0001-000000000001",
			"resource_name": "fake-app-1",
			"resource_type": "app",
			"org_guid": "00000001-0000-0000-0000-000000000000",
			"space_guid": "00000001-0001-0000-0000-000000000000",
			"event_start": "${RANGE_START}",
			"event_stop": "${RANGE_STOP}",
			"plan_guid": "${COMPUTE_PLAN_GUID}",
			"number_of_nodes": 2,
			"memory_in_mb": 2048,
			"storage_in_mb": 1024
		}]
	END
)"

Returns:

[
	...
	{
		"event_guid":      "aa30fa3c-725d-4272-9052-c7186d4968a6",
		"event_start":     "2001-01-01T00:00:00+00:00",
		"event_stop":      "2001-01-01T01:00:00+00:00",
		"resource_guid":   "c85e98f0-6d1b-4f45-9368-ea58263165a0",
		"resource_name":   "APP1",
		"resource_type":   "app",
		"org_guid":        "51ba75ef-edc0-47ad-a633-a8f6e8770944",
		"space_guid":      "276f4886-ac40-492d-a8cd-b2646637ba76",
		"plan_guid":       "f4d4b95a-f55e-4593-8d54-3364c25798c4",
		"number_of_nodes": 1,
		"memory_in_mb":    1024,
		"storage_in_mb":   0,
		"price": {
			"inc_vat": "0.012",
			"ex_vat":  "0.01",
			"details": {
				{
					"name":          "compute",
					"plan_name":     "PLAN1",
					"start":         "2001-01-01T00:00:00+00:00",
					"stop":          "2001-01-01T01:00:00+00:00",
					"vat_rate":      "0.2",
					"vat_code":      "Standard",
					"currency_code": "GBP",
					"currency_rate": "1",
					"inc_vat":       "0.012",
					"ex_vat":        "0.01",
				},
			},
		}
	}
	...
]

`GET /pricing_plans`

PricingPlans define how the costs for resources are applied. The PricingPlans are setup in the configuration json file. Each UsageEvent's PlanGUID should have a matching PricingPlan for a given point in time.

Each PricingPlan may be made up of multiple PricingComponents (for example a database service may have components for the CPU/VM instance and also for the storage used).

You can fetch the available PricingPlans for a given time period to see what resources are available and how the costs are calculated.

Authorization:

Authorization is not required for this endpoint.

Query parameters:

Name	Type	Example	Notes
range_start	timestamp	2001-01-01	required start of period to query
range_stop	timestamp	2017-01-01	required end of period to query

Example:

RANGE_START="2018-01-01"
RANGE_STOP="2018-02-01"

curl -s -G 'http://localhost:8881/pricing_plans' \
	--data-urlencode "range_start=${RANGE_START}" \
	--data-urlencode "range_stop=${RANGE_STOP}"

Returns:

[
	...
	{
		"name": "PLAN2",
		"plan_guid": "f4d4b95a-f55e-4593-8d54-3364c25798c4",
		"valid_from": "2002-01-01",
		"components": [
			{
				"name": "cpu-usage",
				"formula": "$number_of_nodes * 0.001 * $time_in_seconds",
				"vat_code": "Standard",
				"currency_code": "GBP"
			},
			{
				"name": "storage-usage",
				"formula": "$storage_in_mb * 0.0001 * $time_in_seconds",
				"vat_code": "Standard",
				"currency_code": "GBP"
			}
		],
		"memory_in_mb": 264,
		"storage_in_mb": 265,
		"number_of_nodes": 2
	}
	...
]

Development

You will need:

dep for dependency management.
ginkgo for running tests
counterfeiter for generating test mocks: go get github.com/maxbrunsfeld/counterfeiter
postgres 9.5 database (you can use docker to spin one up)
A cloudfoundry instance

Create a temporary Postgres server

Locally you can use a container for Postgres with Docker for Mac or Docker for Linux:

docker run -p 5432:5432 --name postgres -e POSTGRES_PASSWORD= -d postgres:9.5

# Clean up after
docker rm -f postgres

If you want to use a different database you should set the DATABASE_URL environment variable to your connection string.

Run the application

You will need:

The aws cli tools and relevent keys
A paas-cf dev environment

Use the provided run-dev make target to run all application components and connect it to a development instance of paas-cf:

make run-dev

The task will extract the necessary secrets for Cloud Foundry and set up the important environment variables.

If you want to run the application components separately, then you should use the appropriate make targets:

make run-dev-api
make run-dev-collector

Run the tests

Unit tests

Use the provided test make target to run unit tests

make test

Smoke tests

If you have a development environment setup that works with run-dev you can run a basic smoke test against it via:

BROKEN Currently the smoke tests are broken.

make smoke

Acceptance tests

Use the provided acceptance make target to run acceptance tests. To override the billing API URL, set the BILLING_API_URL environment variable. As with other tests, the environment must have an active CF session

cf login -a $API_ENDPOINT -u $USERNAME -p $PASSWORD
make acceptance

Documentation ¶

There is no documentation for this package.

Source Files ¶

View all Source files

Directories ¶

Path	Synopsis
apiserver
auth
cfstore
eventcollector
eventfetchers
cffetcher
eventio
eventstore
fakes Code generated by counterfeiter.	Code generated by counterfeiter.
testenv

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