SwiftBox is a SwiftNIO based package that helps building Swift/NIO-based microservices.
Running microservices with Swift requires:
- logging capabilities
- accessing configuration (e.g from Vault store)
- pushing metrics to the metric store.
Coming soon: Integration with https://github.com/apple/swift-log.
SwiftBox Configuration allows to pass type-safe configuration such as command line, environment variables and external providers (e.g Vault) by declaring one simple struct. Configuration can be inherited from multiple sources simultaneously.
Feed the configuration with:
- Command line arguments:
./yourapp --config:simple=test --config:nested.number=1 --config:array.0=string
- Environment variables:
SIMPLE=test NESTED_NUMBER=1 ARRAY_0=string ./yourapp
- JSON
- Dictionary
SwiftBox Configuration supports:
- overriding (source that is declared later can override previous values)
- inheritance
- optionals
- type-safety
- nesting (structs and arrays)
- environment variables prefixes (avoid conflicting with system variables)
Import module:
import SwiftBoxConfig
When you create your configuration, remember that it in order to be decoded properly, it must conform to the Configuration
protocol.
struct Conf: Configuration {
let simple: String
let int: Int
let double: Double
let nested: NestedConf // nested configuration
let array: [String?] // array of optionals
let arraynested: [NestedConf] // nested array
struct NestedConf: Configuration {
let value: String? // optional
}
}
Configuration must be bootstrapped before use. To do so, you need to conform to the ConfigManager
protocol in the first place:
extension Conf: ConfigManager {
public static var configuration: Conf? = nil
}
Next, call bootstrap
method on your ConfigManager
and pass sources you want to use:
try Conf.bootstrap(from: [EnvSource()])
Remember that bootstrap must be called before using config and cannot be called more than once. Otherwise, fatalError
will be thrown.
After completing all the previous steps you can finally use config in your application.
You can access the configuration instance via global
property:
Conf.global.simple
Conf.global.int
Conf.global.double
Conf.global.array[0] // Optional[String]
Conf.global.nested.value // Optional[String]
Conf.global.arraynested[0].value // Optional[String]
Configuration can be fed with multiple sources. Sources are passed into bootstrap function.
If you are using multiple sources, outputs are merged (structs are merged recursively, other values are overridden):
try Conf.bootstrap(from: [
DictionarySource(dataSource: [
"int": 1,
"string": "some",
"array": [1, 2],
"nested": ["value1": 1]
]),
DictionarySource(dataSource: [
"string": "test",
"array": [2, 3],
"nested": ["value2": 2]
]),
])
// Output config:
[
"int": 1,
"string": "test",
"array": [2, 3],
"nested": [
"value1": 1,
"value2": 2
]
]
Allows reading configuration from Dictionary, may be used to specify in-code defaults for configuration.
try Conf.bootstrap(from: [
DictionarySource(dataSource: [
"int": 1,
"string": "some",
"array": [1, 2],
"nested": ["value1": 1]
])
])
Allows reading configuration from JSON data.
try Conf.bootstrap(from: [
JSONSource(dataSource: "{\"test\": \"sample\"}")
])
Allows reading configuration data from environment.
try Conf.bootstrap(from: [
EnvSource(prefix: "SAMPLE")
])
Prefix can be set for EnvSource
, so it reads only variables which key starts with a given value.
struct Conf: Configuration {
let simple: String
let int: Int
let double: Double
let nested: NestedConf
let array: [String?]
let arraynested: [NestedConf]
struct NestedConf: Configuration {
let value: String?
}
}
Above example may be populated using following env variables:
SIMPLE="test"
INT="1"
DOUBLE="1.0"
NULL="null"
NESTED_VALUE="test"
ARRAY_0="test0"
ARRAY_1="test1"
ARRAY_2="null"
ARRAYNESTED_0_VALUE="test0"
ARRAYNESTED_1_VALUE="test1"
ARRAYNESTED_2_VALUE="null"
Value "null" is coerced to internal nil value
Allows reading configuration data from environment.
Conf.bootstrap(from: [
CommandLineSource(prefix: "--config:my-prefix-")
])
If a prefix is set, only arguments which start with a given value will be read. Defaults to --config:
struct Conf: Configuration {
let simple: String
let int: Int
let double: Double
let null: String?
let nested: NestedConf
let array: [String?]
let arraynested: [NestedConf]
struct NestedConf: Configuration {
let value: String?
}
}
The example above may be populated using following command line arguments:
--config:simple=test
--config:int=1
--config:double=1.0
--config:null=null
--config:nested.value=test
--config:array.0=test0
--config:array.1=test1
--config:array.2=null
--config:arraynested.0.value=test0
--config:arraynested.1.value=test1
--config:arraynested.2.value=null
Value "null" is coerced to internal nil value
To create custom sources, you need to create a class that conforms to ConfigSource
.
DictionarySource
is the simplest working source that can be used as an example:
public typealias Storage = [String: Any?]
public class DictionarySource: ConfigSource {
let dataSource: Storage
public init(dataSource: Storage) {
self.dataSource = dataSource
}
public func getConfig() throws -> Storage {
return self.dataSource
}
}
Logging system for Swift.
import SwiftBoxLogging
Logging should be bootstrapped before use (it defaults to PrintLogger
).
Bootstrap requires one parameter which is the logger factory.
Logger factory must return LogHandler
from swift-log package.
Logging.bootstrap { label in ElasticsearchLogHandler(label: name) }
Create a logger instance:
fileprivate var logger = Logging.make(#file)
Log a message using one of the available protocol methods:
func trace(_ message: String)
func info(_ message: String)
func debug(_ message: String)
func notice(_ message: String)
func warning(_ message: String)
func error(_ message: String)
func critical(_ message: String)
To create custom loggers your class must conform to LoggerProtocol
.
You can use the same logging by overriding Vapor's default log handler:
import Logging
LoggingSystem.bootstrap { label in
ElasticsearchLogHandler(label: label)
}
StatsD and Logger handlers for official swift-metrics API.
Supported metric types:
- Counters
- Timers
- Gauges
import Metrics
import SwiftBoxMetrics
Metrics must be bootstraped with Handler, which conforms to MetricsHandler
protocol:
// StatsD Handler initialization
MetricsSystem.bootstrap(
try! StatsDMetricsHandler(
baseMetricPath: AppConfig.global.statsd.basePath!,
client: UDPStatsDClient(
config: UDPConnectionConfig(
host: AppConfig.global.statsd.host!,
port: AppConfig.global.statsd.port!
)
)
)
)
// Logger Handler initialization
MetricsSystem.bootstrap(LoggerMetricsHandler())
Usage details can be found in official swift-metrics GitHub repository.
Default metrics handler which sends gathered metrics to its logger.
StatsD Metrics Handler is responsible for sending gathered logs to StatsD server. Supports TCP and UDP protocols. Metrics are sent in separate thread, so operation is non-blocking for application.
try StatsDMetricsHandler(
baseMetricPath: AppConfig.global.statsd.basePath!,
client: UDPStatsDClient(
config: UDPConnectionConfig(
host: AppConfig.global.statsd.host!,
port: AppConfig.global.statsd.port!
)
)
)
baseMetricPath
is a path that will be prepended to every metric sent via handler.
client
is a TCPStatsDClient
or UDPStatsDClient
instance.
To create custom handlers, conform to MetricsHandler
class.