indoorvivants / sn-vcpkg   0.0.2

GitHub

SBT/Mill plugins (and a CLI) to install C/C++ dependencies using Vcpkg (https://vcpkg.io/en/index.html), with Scala Native integration

Scala versions: 2.12
sbt plugins: 1.0

sn-vcpkg

Utilities and build tools to work with vcpkg C/C++ dependency manager

If you are in a rant-reading mood, please refer to motivation.

If you want to update this documentation file, don't edit it directly - edit docs/README.in.md and run sbt updateDocs. It's annoying, but this document contains compiled snippets of code which I want to prevent from going out of date

Usage TLDR: most likely you want to take a look at SBT plugin or Mill plugin

Vcpkg and native dependencies 101

  • By native dependencies we mean C/C++ libraries
  • Usually distributed as sources (but some distributions contain pre-built artifacts, like gtk)
  • Usually built on user's machine
  • Contain following artifact types:
    • Binary
      • dynamic libraries (needed at runtime and linktime)
      • static libraries (needed at linktime)
    • C/C++ headers (optional, needed for compile time)
    • pkg-config files *.pc (optional, provide a recipe for constructing the correct clang/gcc flags to use the dependency)
  • vcpkg contains lots and lots of pre-made recipes for popular libraries, with aim to work on Linux, MacOS, and Windows
  • vcpkg works as both a CLI installer (vcpkg install cjson) and as manifest installer (vcpkg install vcpkg.json) with dependencies specified in a JSON file :)
  • vcpkg can bootstrap itself from a cloned repo :)
  • vcpkg can install libraries into a custom location (instead of system-wide) making caching and isolation easier :)

:) - this project does it for you

Usage

Examples

Summary

There are several modules of interest:

  1. core - contains all the tool-agnostic logic for bootstrapping, invoking, and communicating with vcpkg. This module is the meat on the proverbial bones, the plugins and the CLI merely invoke it.

  2. cli - contains a very barebones CLI wrapper over core with dubious value proposition: as it delegates fully to the core module, it uses the same defaults, location, and installation logic as the build tooling would use.

    As such, it's possible to invoke the CLI prior to launching the build, to preinstall the necessary dependencies (as in a separate layer in a Docker container), and to be sure that the same dependencies definition in a build tool of your choosing (SBT or Mill) will immediately find the packages where they're supposed to be.

    You can quickly test it by running:

     $ cs launch com.indoorvivants.vcpkg:sn-vcpkg_3:0.0.18 -- install libpq -l -q -c
     -I<...>/sbt-vcpkg/vcpkg-install/arm64-osx/lib/pkgconfig/../../include
     -L<...>/sbt-vcpkg/vcpkg-install/arm64-osx/lib/pkgconfig/../../lib
     -L<...>/sbt-vcpkg/vcpkg-install/arm64-osx/lib/pkgconfig/../../lib/pkgconfig/../../lib
     -lpq
     -lpgcommon
     -lpgport
     -lm
     -lssl
     -lcrypto
    

    This particular example

    1. Installs libpq (C interface to Postgres)
    2. Outputs compilation and linking flags for Clang/GCC one per line

    As part of the process, the CLI will also bootstrap vcpkg if it cannot find it in the predetermined location (see below)

  3. SBT plugin and Mill plugin that just install the dependencies

  4. SBT and Mill plugins that additionally integrate with respective Scala Native plugins, see Scala Native integration

SBT plugin

For SBT, add this to your project/plugins.sbt:

addSbtPlugin("com.indoorvivants.vcpkg" % "sbt-vcpkg" % "0.0.18")

And in your build.sbt:

enablePlugins(VcpkgPlugin)

vcpkgDependencies := VcpkgDependencies(
  "cjson",
  "cmark"
)

After that, run vcpkgInstall and vcpkg will be bootstrapped and dependencies installed.

Tasks and settings (find them all by doing help vcpkg* in SBT shell):

  • vcpkgDependencies - see VcpkgDependencies

  • vcpkgInstall - performs bootstrap and installation of all specified dependencies. Triggers bootstrap

  • vcpkgRootInit - see VcpkgRootInit

  • vcpkgRoot - the actual location of vcpkg installation, computed using vcpkgRootInit

  • vcpkgInstallDir - the location where installed vcpkg artifacts will be placed - by default it's a cache folder located according to OS-specific guidelines

  • vcpkgBinary - the location of just the vcpkg binary itself. Triggers bootstrap

  • vcpkgConfigurator - see VcpkgConfigurator

  • vcpkgRun - invoke the vcpkg CLI directly

Mill plugin

Add dependency to your build.sc:

import $ivy.`com.indoorvivants.vcpkg::mill-vcpkg:0.0.18`

And use the VcpkgModule mixin:

import com.indoorvivants.vcpkg.millplugin.VcpkgModule
import com.indoorvivants.vcpkg._

import mill._, mill.scalalib._
object example extends ScalaModule with VcpkgModule {
  def scalaVersion = "3.3.1"
  def vcpkgDependencies = T(VcpkgDependencies("cmark", "cjson"))
}

and use vcpkgInstall to install vcpkg dependencies.

The Mill tasks are the same as in the SBT plugin

Scala Native integration

SBT

In project/plugins.sbt:

addSbtPlugin("com.indoorvivants.vcpkg" % "sbt-vcpkg-native" % "0.0.18")

In build.sbt:

enablePlugins(VcpkgNativePlugin, ScalaNativePlugin)

vcpkgDependencies := VcpkgDependencies(
  "cjson",
  "cmark",
)

vcpkgNativeConfig ~= {
  _.withRenamedLibraries(
    Map("cjson" -> "libcjson", "cmark" -> "libcmark")
  )
}

With that, if you run the project, vcpkg dependencies will be automatically installed and the NativeConfig will be configured so that compilation and linking will succeed.

For real world usage, see Examples.

Mill

Add dependency to your build.sc:

import $ivy.`com.indoorvivants.vcpkg::mill-vcpkg-native:0.0.18`

And use the VcpkgNativeModule mixin:

import com.indoorvivants.vcpkg.millplugin.native.VcpkgNativeModule
import com.indoorvivants.vcpkg.millplugin.VcpkgModule
import com.indoorvivants.vcpkg._

import mill._, mill.scalalib._
object example extends VcpkgNativeModule {
  def vcpkgDependencies = T(VcpkgDependencies("cjson", "cmark"))
  def scalaVersion = T("3.2.2")
  def scalaNativeVersion = T("0.4.10")

  override def vcpkgNativeConfig =
    T(super
        .vcpkgNativeConfig()
        .addRenamedLibrary("cjson", "libcjson")
        .addRenamedLibrary("cmark", "libcmark")
    )
}

CLI

This is a very thin interface to the Core module, designed mostly for demonstration purposes or to install dependencies in CI/containers, without launching the SBT/Mill project.

Installation with Coursier:

$ cs install sn-vcpkg --channel https://cs.indoorvivants.com/i.json

Usage example:

$ sn-vcpkg install libgit2 -l -c

This will install libgit2 package, and output linking flags (-l) and compilation flags (-c), one per line.

--rename argument

All commands accept a --rename name1=alt_name1,name2=alt_name2 because for some packages in vcpkg the name of the package and the name under which it is installed in pkg-config might be different.

For example, curl is one of those. Running the simple command will complain that pkg-config configuration was not found

$ sn-vcpkg install curl -l -c 
...
    [vcpkg stderr] Package curl was not found in the pkg-config search path.
    [vcpkg stderr] Perhaps you should add the directory containing `curl.pc'
    [vcpkg stderr] to the PKG_CONFIG_PATH environment variable
    [vcpkg stderr] No package 'curl' found
...

And the approximated arguments it will output will be insufficient.

But if you ask to rename it during resolution:

$ sn-vcpkg install -l -c curl --rename curl=libcurl

Then you get the correct flags. The name of the argument is not great, but it's a bandaid for an equally not great gotcha in vcpkg so I think we're even.

pass command

If you just want to invoke the vcpkg CLI, you can do so with the pass command:

sn-vcpkg pass -- help

Arguments after -- will be passed directly to vcpkg, and its STDOUT output will be printed to STDOUT.

bootstrap

Only bootstrap vcpkg if necessary, without installing anything

Usage: sn-vcpkg bootstrap [--vcpkg-root-manual <location> [--no-bootstrap] | --vcpkg-root-env <env-var> [--no-bootstrap] | --no-bootstrap] [--vcpkg-install <dir>] [--no-bootstrap] [--verbose] [--quiet]

Bootstrap vcpkg

Options and flags:
    --help
        Display this help text.
    --vcpkg-root-manual <location>
        Initialise vcpkg in this location
    --no-bootstrap
        Allow bootstrapping vcpkg from scratch
    --vcpkg-root-env <env-var>
        Pick up vcpkg root from the environment variable
    --vcpkg-install <dir>
        folder where packages will be installed
    --verbose, -v
        Verbose logging
    --quiet, -q
        Only error logging

install command

Install one or several dependencies, by name or from a manifest file, and optionally output linking/compilation flags for all of them.

Examples:

  • sn-vcpkg install libgit2 cjson -l -c
  • sn-vcpkg install --manifest vcpkg.json -l -c
Usage:
    sn-vcpkg install --manifest <string> [--output-compilation] [--output-linking] [--rename <spec1,spec2,spec3>] [--vcpkg-root-manual <location> [--no-bootstrap] | --vcpkg-root-env <env-var> [--no-bootstrap] | --no-bootstrap] [--vcpkg-install <dir>] [--no-bootstrap] [--verbose] [--quiet]
    sn-vcpkg install [--output-compilation] [--output-linking] [--rename <spec1,spec2,spec3>] [--vcpkg-root-manual <location> [--no-bootstrap] | --vcpkg-root-env <env-var> [--no-bootstrap] | --no-bootstrap] [--vcpkg-install <dir>] [--no-bootstrap] [--verbose] [--quiet] <dep>...

Install a list of vcpkg dependencies

Options and flags:
    --help
        Display this help text.
    --manifest <string>
        vcpkg manifest file
    --output-compilation, -c
        Output (to STDOUT) compilation flags for installed libraries, one per line
    --output-linking, -l
        Output (to STDOUT) linking flags for installed libraries, one per line
    --rename <spec1,spec2,spec3>
        rename packages when looking up their flags in pkg-config
        e.g. --rename curl=libcurl,cjson=libcjson
    --vcpkg-root-manual <location>
        Initialise vcpkg in this location
    --no-bootstrap
        Allow bootstrapping vcpkg from scratch
    --vcpkg-root-env <env-var>
        Pick up vcpkg root from the environment variable
    --vcpkg-install <dir>
        folder where packages will be installed
    --verbose, -v
        Verbose logging
    --quiet, -q
        Only error logging

clang and clang++ commands

These commands invoke clang or clang++ with all the configuration flags required 1 to run the specified dependencies.

For example, say you have a snippet of C code that needs sqlite3 dependency:

#include <stdio.h>
#include <sqlite3.h> 

int main(int argc, char* argv[]) {
   sqlite3 *db;
   char *zErrMsg = 0;
   int rc;

   rc = sqlite3_open("test.db", &db);

   if( rc ) {
      fprintf(stderr, "Can't open database: %s\n", sqlite3_errmsg(db));
      return(0);
   } else {
      fprintf(stderr, "Opened database successfully\n");
   }
   sqlite3_close(db);
}

You can compile it directly by running

sn-vcpkg clang sqlite3 -- test-sqlite.c

Or if you have a vcpkg manifest file:

{
 "name": "my-application",
 "version": "0.15.2",
 "dependencies": ["sqlite3"]
}

You can use that as well:

sn-vcpkg clang --manifest vcpkg.json -- test-sqlite.c

All the arguments after -- will be passed to clang/clang++ without modification (before the flags calculated for dependencies)

scala-cli command

This command invokes your local installation of Scala CLI (scala-cli must be available on PATH), and passes all the flags required by the specified dependencies 1.

For example, say you have a Scala CLI script using Porcupine, a cross-platform functional library for Sqlite3:

scala-cli-sqlite3.scala

//> using dep "com.armanbilge::porcupine::0.0.1"
//> using platform scala-native
//> using scala 3.3.1

import porcupine.*
import cats.effect.IOApp
import cats.effect.IO
import cats.syntax.all.*
import scodec.bits.ByteVector

import Codec.*

object Test extends IOApp.Simple:
  val run =
    Database
      .open[IO](":memory:")
      .use: db =>
        db.execute(sql"create table porcupine (n, i, r, t, b);".command) *>
          db.execute(
            sql"insert into porcupine values(${`null`}, $integer, $real, $text, $blob);".command,
            (None, 42L, 3.14, "quill-pig", ByteVector(0, 1, 2, 3))
          ) *>
          db.unique(
            sql"select b, t, r, i, n from porcupine;"
              .query(blob *: text *: real *: integer *: `null` *: nil)
          ).flatTap(IO.println)
      .void
end Test

To run it with Scala Native, you must have sqlite3 native dependency installed and configured, along with correct flags passed to Scala Native.

You can run the script like this:

sn-vcpkg scala-cli sqlite3 -- run scala-cli-sqlite3.scala

The sn-vcpkg CLI will add the required --native-compile/--native-linking flags to the end of your argument list automatically.

Docker base image

Because of the sheer number of different tools required to install packages from vcpkg (like libtool, curl, zip/unzip, autoconf, make, cmake, etc.) we provide a Docker base image that contains some of them. The list is by no means exhaustive and a PR adding more will be happily accepted.

The docker image contains the following:

  1. Ubuntu 22.04 base

  2. OpenJDK 17

  3. Tools like

    clang zip unzip tar make cmake autoconf ninja-build
    pkg-config git libtool curl
    
  4. SBT (1.9.x)

  5. Coursier

  6. sn-vpkg CLI itself

Te purpose of this docker image is to be used as a baser on CI, e.g.:

# huge container we use only for builds 
FROM keynmol/sn-vcpkg:latest as dev

# install your application's dependencies
RUN sn-vcpkg install curl

WORKDIR /workdir

# copy your sources into container
COPY . .

# run the build of your scala native application
RUN sbt myApp/nativeLink

# This is the actual, much smaller container that will run the app
FROM <runtime-container> 

# copy the built app from the dev container
COPY --from=dev /workdir/build/server /usr/bin/server

ENTRYPOINT ["server"]

Core

VcpkgRootInit

Defines the location where Vcpkg will be bootstrapped.

Variations (with defaults):

  • (default) SystemCache(allowBootstrap = true) - will bootstrap (if allowed) vcpkg in a system cache directory, decided by dirs-dev library

  • FromEnv(name = "VCPKG_ROOT", allowBootstrap = true) - will bootstrap (if allowed) in a location specified by an environment variable name

  • Manual(file: File, allowBootstrap = true) - will bootstrap (if allowed) in a location specified by file

VcpkgNativeConfig

This configuration object controls various aspects of how sn-vcpkg manipulates Scala Native's NativeConfig object to add linking and compilation arguments from installed vcpkg dependencies.

Defaults

VcpkgNativeConfig()
// res2: VcpkgNativeConfig = Vcpkg NativeConfig: 
//   | approximate = true
//   | autoConfigure = true
//   | prependCompileOptions = true
//   | prependLinkingOptions = true
//   | renamedLibraries = 
//   | staticLinking = false

approximate - whether to approximate compilation/linking flags in case pkg-config file is not shipped with the library

VcpkgNativeConfig().withApproximate(true)

autoConfigure - whether to automatically configure Scala Native's NativeConfig with flags for all specified vcpkg dependencies

VcpkgNativeConfig().withAutoConfigure(true)

prependCompileOptions - whether to prepend compilation flags derived from vcpkg before the flags that Scala Native puts.

It can be useful because Scala Native adds certain system locations to linking flags by default, and these might have non-vcpkg versions of some of your dependencies

VcpkgNativeConfig().withPrependCompileOptions(true)

prependLinkingOptions - whether to prepend linking flags derived from vcpkg before the flags that Scala Native puts.

VcpkgNativeConfig().withPrependLinkingOptions(true)

renamedLibraries - a mapping between vcpkg package names and the names under which the pkg-config files are installed - those can be different for no good reason whatsoever.

// Completely overwrite
VcpkgNativeConfig().withRenamedLibraries(Map("cjson" -> "libcjson", "cmark" -> "libcmark"))
// res7: VcpkgNativeConfig = Vcpkg NativeConfig: 
//   | approximate = true
//   | autoConfigure = true
//   | prependCompileOptions = true
//   | prependLinkingOptions = true
//   | renamedLibraries = cjson -> libcjson, cmark -> libcmark
//   | staticLinking = false

// Append only
VcpkgNativeConfig().addRenamedLibrary("cjson", "libcjson")
// res8: VcpkgNativeConfig = Vcpkg NativeConfig: 
//   | approximate = true
//   | autoConfigure = true
//   | prependCompileOptions = true
//   | prependLinkingOptions = true
//   | renamedLibraries = cjson -> libcjson
//   | staticLinking = false

VcpkgDependencies

Specification for vcpkg dependencies. Can be either:

  • a simple list of dependency names:
VcpkgDependencies("cmark", "cjson")
// res9: VcpkgDependencies = Names(
//   deps = List(
//     Dependency(name = "cmark", features = Set()),
//     Dependency(name = "cjson", features = Set())
//   )
// )
  • a path to manifest file:
VcpkgDependencies(new java.io.File("./vcpkg.json"))
// res10: VcpkgDependencies = ManifestFile(path = ./vcpkg.json)
  • a list of detailed dependency specs:
VcpkgDependencies.Names(List(Dependency("libpq", Set("arm-build")), Dependency.parse("cpprestsdk[boost]")))
// res11: Names = Names(
//   deps = List(
//     Dependency(name = "libpq", features = Set("arm-build")),
//     Dependency(name = "cpprestsdk", features = Set("boost"))
//   )
// )

VcpkgConfigurator

While this class has useful methods of its own (see API docs), its main purpose is to provide a configured PkgConfig instance

PkgConfig

API docs

A thin pre-configured (by the build tool) wrapper around pkg-config tool.

Footnotes

  1. as long as the dependencies themselves provide a well configured pkg-config file, of course 2