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nim-confutils

License: Apache License: MIT Github action

Introduction

Confutils is a library that aims to solve the configuration problem with a holistic approach. The run-time configuration of a program is described as a plain Nim object type from which the library automatically derives the code for handling command-line options, configuration files and other platform-specific sources such as the Windows registry.

The library focuses on providing a lot of compile-time configurability and extensibility with a strong adherence to the DRY principle.

Let's illustrate the API with a highly annotated example. Our configuration might be described in a separate module looking like this:

# config.nim
import
  confutils/defs

type
  NimbusConf* = object
    #
    # This is our configuration type.
    #
    # Each field will be considered a configuration option that may appear
    # on the command-line, whitin an environment variable or a configuration
    # file, or elsewhere. Custom pragmas are used to annotate the fields with
    # additional metadata that is used to augment the behavior of the library.
    #
    logLevel* {.
      defaultValue: LogLevel.INFO
      desc: "Sets the log level" }: LogLevel

    #
    # This program uses a CLI interface with sub-commands (similar to git).
    #
    # The `StartUpCommand` enum provides the list of available sub-commands,
    # but since we are specifying a default value of `noCommand`, the user
    # can also launch the program without entering any particular command.
    # The default command will also be omitted from help messages.
    #
    # Please note that the `logLevel` option above will be shared by all
    # sub-commands. The rest of the nested options will be relevant only
    # when the designated sub-command is being invoked.
    #
    case cmd* {.
      command
      defaultValue: noCommand }: StartUpCommand

    of noCommand:
      dataDir* {.
        defaultValue: getConfigDir() / "nimbus"
        desc: "The directory where nimbus will store all blockchain data."
        abbr: "d" }: DirPath

      bootstrapNodes* {.
        desc: "Specifies one or more bootstrap nodes to use when connecting to the network."
        abbr: "b"
        name: "bootstrap-node" }: seq[string]

      bootstrapNodesFile* {.
        defaultValue: ""
        desc: "Specifies a line-delimited file of bootsrap Ethereum network addresses"
        abbr: "f" }: InputFile

      tcpPort* {.
        desc: "TCP listening port" }: int

      udpPort* {.
        desc: "UDP listening port" }: int

      validators* {.
        required
        desc: "A path to a pair of public and private keys for a validator. " &
              "Nimbus will automatically add the extensions .privkey and .pubkey."
        abbr: "v"
        name: "validator" }: seq[PrivateValidatorData]

      stateSnapshot* {.
        desc: "Json file specifying a recent state snapshot"
        abbr: "s" }: Option[BeaconState]

    of createChain:
      chainStartupData* {.
        desc: ""
        abbr: "c" }: ChainStartupData

      outputStateFile* {.
        desc: "Output file where to write the initial state snapshot"
        name: "out"
        abbr: "o" }: OutFilePath

  StartUpCommand* = enum
    noCommand
    createChain

  #
  # The configuration can use user-defined types that feature custom
  # command-line parsing and serialization routines.
  #
  PrivateValidatorData* = object
    privKey*: ValidatorPrivKey
    randao*: Randao

Then from our main module, we just need to call confutils.load which must be given our configuration type as a parameter:

# main.nim
import
  confutils, config

when isMainModule:
  let conf = NimbusConf.load()
  initDatabase conf.dataDir

And that's it - calling load with default parameters will first process any command-line options and then it will try to load any missing options from the most appropriate configuration location for the platform. Diagnostic messages will be provided for many simple configuration errors and the following help message will be produced automatically when calling the program with program --help:

Usage: beacon_node [OPTIONS] <command>

The following options are supported:

  --logLevel=LogLevel                        : Sets the log level
  --dataDir=DirPath                          : The directory where nimbus will store all blockchain data.
  --bootstrapNode=seq[string]                : Specifies one or more bootstrap nodes to use when connecting to the network.
  --bootstrapNodesFile=FilePath              : Specifies a line-delimited file of bootsrap Ethereum network addresses
  --tcpPort=int                              : TCP listening port
  --udpPort=int                              : UDP listening port
  --validator=seq[PrivateValidatorData]      : A path to a pair of public and private keys for a validator. Nimbus will automatically add the extensions .privkey and .pubkey.
  --stateSnapshot=Option[BeaconState]        : Json file specifying a recent state snapshot

Available sub-commands:

  beacon_node createChain

  --out=OutFilePath                          : Output file where to write the initial state snapshot

For simpler CLI utilities, Confutils also provides the following convenience APIs:

import
  confutils

cli do (validators {.
          desc: "number of validators"
          abbr: "v" }: int,

        outputDir {.
          desc: "output dir to store the generated files"
          abbr: "o" }: OutPath,

        startupDelay {.
          desc: "delay in seconds before starting the simulation" } = 0):

  if validators < 64:
    echo "The number of validators must be greater than EPOCH_LENGTH (64)"
    quit(1)
import
  confutils

proc main(foo: string, bar: int) =
  ...

dispatch(main)

Under the hood, using these APIs will result in calling load on an anonymous configuration type having the same fields as the supplied proc params. Any additional arguments given as cli(args) do ... and dispatch(fn, args) will be passed to load without modification. Please note that this requires all parameters types to be concrete (non-generic).

This covers the basic usage of the library and the rest of the documentation will describe the various ways the default behavior can be tweaked or extended.

Configuration field pragmas

A number of pragmas defined in confutils/defs can be attached to the configuration fields to control the behavior of the library.

template desc*(v: string) {.pragma.}

A description of the configuration option that will appear in the produced help messages.

template longDesc*(v: string) {.pragma.}

A long description text that will appear below regular desc. You can use one of {'\n', '\r'} to break it into multiple lines. But you can't use '\p' as line break.

 -x, --name   regular description [=defVal].
              longdesc line one.
              longdesc line two.
              longdesc line three.

template name*(v: string) {.pragma.}

A long name of the option. Typically, it will have to be be specified as --longOptionName value. See Handling of command-line options for more details.


template abbr*(v: string) {.pragma.}

A short name of the option. Typically, it will be required to be specified as -x value. See Handling of command-line options for more details.


template defaultValue*(v: untyped) {.pragma.}

The default value of the option if no value was supplied by the user.


template required* {.pragma.}

By default, all options without default values are considered required. An exception to this rule are all seq[T] or Option[T] options for which the "empty" value can be considered a reasonable default. You can also extend this behavior to other user-defined types by providing the following overloads:

template hasDefault*(T: type Foo): bool = true
template default*(T: type Foo): Foo = Foo(...)

The required pragma can be applied to fields having such defaultable types to make them required.


template command* {.pragma.}

This must be applied to an enum field that represents a possible sub-command. See the section on sub-commands for more details.


template argument* {.pragma.}

This field represents an argument to the program. If the program expects multiple arguments, this pragma can be applied to multiple fields or to a single seq[T] field depending on the desired behavior.


template separator(v: string)* {.pragma.}

Using this pragma, a customizable separator text will be displayed just before this field. E.g.:

Network Options:     # this is a separator
  -a, --opt1 desc
  -b, --opt2 desc

----------------     # this is a separator too
  -c, --opt3 desc

Configuration field types

The confutils/defs module provides a number of types frequently used for configuration purposes:

InputFile, InputDir

Confutils will validate that the file/directory exists and that it can be read by the current user.

ConfigFilePath[Format]

A file system path pointing to a configuration file in the specific format. The actual configuration can be loaded by calling load(path, ConfigType). When the format is WindowsRegistry the path should indicate a registry key.

OutPath

A valid path must be given.


Furthermore, you can extend the behavior of the library by providing overloads such as:

proc parseCmdArg*(T: type Foo, p: string): T =
  ## This provides parsing and validation for fields having the `Foo` type.
  ## You should raise `ConfigurationError` in case of detected problems.
  ...

proc humaneTypeName*[T](_: type MyList[T]): string =
  ## The returned string will be used in the help messages produced by the
  ## library to describe the expected type of the configuration option.
  mixin humaneTypeName
  return "list of " & humaneTypeName(T)

For config files, Confutils can work with any format supported by the nim-serialization library and it will use the standard serialization routines defined for the field types in this format. Fields marked with the command or argument pragmas will be ignored.

Handling of command-line options

Confutils includes parsers that can mimic several traditional styles of command line interfaces. You can select the parser being used by specifying the CmdParser option when calling the configuration loading APIs.

The default parser of Confutils is called MixedCmdParser. It tries to follow the robustness principle by recognizing as many styles of passing command-line switches as possible. A prefix of -- is used to indicate a long option name, while the - prefix uses the short option name. Multiple short options such as -a, -b and -c can be combined into a single -abc string. Both the long and the short forms can also be prefixed with / in the style of Windows utilities. The option names are matched in case-insensitive fashion and certain characters such as _ and - will be ignored. The values can be separated from the option names with a space, colon or an equal sign. bool flags default to false and merely including them in the command line sets them to true.

Other provided choices are UnixCmdParser, WindowsCmdParser and NimCmdParser which are based on more strict grammars following the most established tradition of the respective platforms. All of the discussed parsers are defined in terms of the lower-level parametric type CustomCmdParser that can be tweaked further for a more custom behavior.

Please note that the choice of CmdParser will also affect the formatting of the help messages. Please see the definition of the standard Windows or Posix command-line help syntax for mode details.

Using sub-commands

As seen in the introduction example, Confutils makes it easy to create command-line interfaces featuring sub-commands in the style of git or nimble. The structure of the sub-command tree is encoded as a Nim case object where the sub-command name is represented by an enum field having the command pragma. Any nested fields will be considered options of the particular sub-command. The top-level fields will be shared between all sub-commands.

For each available choice of command and options, Confutils will automatically provide a help command and the following additional switches:

Handling of environment variables and config files

After parsing the command line options, the default behavior of Confutils is to try to fill any missing options by examining the contents of the environment variables plus two per-user and system-wide configuration locations derived from the program name. If you want to use Confutils only as a command-line processor or a config file parser for example, you can supply an empty/nil value to the cmdLine, envTable or configFileEnumerator parameters of the load call.

More specifically, the load call supports the following parameters:

cmdLine, envTable

The command-line parameters and the environment table of the program. By default, these will be obtained through Nim's os module.

EnvValuesFormat, envVarsPrefix

A nim-serialization format used to deserialize the values of environment variables. The default format is called CmdLineFormat and it uses the same parseCmdArg calls responsible for parsing the command-line.

The names of the environment variables are prefixed by the name of the program by default and joined with the name of command line option, which is uppercased and characters - and spaces are replaced with underscore:

let env_variable_name = &"{prefix}_{key}".toUpperAscii.multiReplace(("-", "_"), (" ", "_"))

configFileEnumerator

A function responsible for returning a sequence of ConfigFilePath objects. To support heterogenous config file types, you can also return a tuple of sequences. The default behavior of Windows is to obtain the configuration from the Windows registry by looking at the following keys:

HKEY_CURRENT_USER/SOFTWARE/{appVendor}/{appName}/
HKEY_LOCAL_MACHINE/SOFTWARE/{appVendor}/{appName}/

On Posix systems, the default behavior is attempt to load the configuration from the following files:

/$HOME/.config/{appName}.{ConfigFileFormat.extension}
/etc/{appName}.{ConfigFileForamt.extension}

ConfigFileFormat

A nim-serialization format that will be used by default by Confutils.

Customization of the help messages

The load call offers few more optional parameters for modifying the produced help messages:

bannerBeforeHelp

A copyright banner or a similar message that will appear before the automatically generated help messages.

bannerAfterHelp

A copyright banner or a similar message that will appear after the automatically generated help messages.

version

If you provide this parameter, Confutils will automatically respond to the standard --version switch. If sub-commands are used, an additional version top-level command will be inserted as well.

Compile-time options

confutils_colors

This option controls the use of colors appearing in the help messages produced by Confutils. Possible values are:

Contributing

The development of Confutils is sponsored by Status.im through the use of GitCoin. Please take a look at our tracker for any issues having the bounty tag.

When submitting pull requests, please add test cases for any new features or fixes and make sure nimble test is still able to execute the entire test suite successfully.

License

Licensed and distributed under either of

or

at your option. This file may not be copied, modified, or distributed except according to those terms.