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FFI imports packaging utility

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* Extra parameters for the '''C''' preprocessor
 
* Extra parameters for the '''C''' preprocessor
 
* Comparison with "hand-crafted" bindings
 
* Comparison with "hand-crafted" bindings
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To buld the '''SYSLOG''' package, the '''ffipkg''' utility is invoked as follows:
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ffipkg -p SYSLOG -c "-DSYSLOG_NAMES" unistd.h syslog.h
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Package name is specified explicitly to prevent picking it from the first include file name. It is necessary to include ''unistd.h'' before ''syslog.h'' as the manual page suggests. Part of the ''syslog.h'' header file definitions is surrounded by an ''#ifdef SYSLOG_NAMES'' directive, so to open it up for import, the ''-c'' option is used.
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An example program
   
 
=== Berkeley DB Binding ===
 
=== Berkeley DB Binding ===

Revision as of 02:23, 8 February 2006

Contents

1 Abstract

The Haskell Cabal [1] is a framework which defines a common interface for authors to more easily build their applications in a portable way. The Haskell Foreign Functions Import Generator (hsffig) [3] is a tool to convert a C header file (.h) into Haskell code containing FFI [2] import statements for all entities whose declarations are found in the header file. The FFI Packaging Utility (ffipkg) is a tool that integrates the functionality of hsffig with the Cabal framework allowing for building and installation of packages entirely consisting of foreign functions imports.

It is recommended that readers of this document be familiar with the documents referred to as [3] and [4].

2 Benefits of Packaging FFI Imports

To build a Haskell application linked to a foreign library, it is necessary to specify the locations of certain files (C headers and static or shared library files) for the Haskell compiler, and this information must be remembered for every application using the library. Building a FFI package means that all such information is contained within the package descriptor, and all that needs to be remembered is just name of the package.

3 Purpose

The ffipkg utility accepts locations of C header and foreign library files as command line arguments and produces Haskell source files with FFI declarations, a Makefile, a Cabal package descriptor file, and a Setup.hs file suitable for running the Cabal package setup program. The utility acts as a "driver" running the C preprocessor, the equivalent of the hsffig program, and the source splitter. The Makefile created allows for compilation of Haskell source files into split object files: a feature provided by GHC. This technique is discussed in [4].

4 Command Line Options

4.1 Synopsis

Usage: ffipkg [OPTION...] include-file...
  -v      --verbose              provide verbose output
  -n      --new-hooks            use newer userHooks interface
  -i      --header               stop after writing package include file
  -?, -h  --help                 print this help message
  -I                             include files location (may be multiple)
  -L                             library files location (may be multiple)
  -l                             library file to link (may be multiple)
  -c      --cpp=                 option for CPP (may be multiple)
  -V      --version              show program version number
  -w 0.0  --package-version=0.0  specify version of the package
  -p      --package-name=        name the package (will be uppercased)
          --with-make=make       path to make
          --with-awk=awk         path to awk
          --with-ar=ar           path to ar
          --with-ghc=ghc         path to ghc
          --with-gcc=gcc         path to gcc
          --with-hsc2hs=hsc2hs   path to hsc2hs

4.2 Package Naming and Versioning

Per the Cabal specification, the two fields are mandatory for a package descriptor file: Name and Version. The -p option sets the name of the package into its argument uppercased. If omitted, name of the first include file found on the command line will be used for package name, uppercased, with directory part and file name suffix stripped. The -w option sets the version field of the package descriptor file to its argument. The version supplied is checked for correctness using the same parser Cabal itself uses. If the syntax of the version is incorrect, or if the option is omitted, the default version string "0.0" will be used.

For FFI packages, versioning does not carry as much sense as it does for native library packages. In some cases, as shown in the Berkeley DB Binding example, it may be set to the version of the library used, but this is totally up to the FFI package creator. It is generally safe to omit this option unless there are separate packages created for different versions of the same library.

4.3 Location of Libraries and Include (Header) Files

Similarly to GCC, the -I option is used to specify location(s) where header files will be searched for, and the -L option is used to specify location(s) where library files will be searched for. The -l option is to specify name(s) of library files to link the resulting executable against, and all non-option command line arguments regardless of their position will be treated as include file names (although it is advisable to place all the option arguments on the command line first, and then all non-option arguments).

The ffipkg utility itself does not check for validity or existence of directories and files supplied this way; it only places this information in appropriate fields of the Cabal package descriptor file created by the utility.

Include file names may or may not include the directory part. If included, that may be either relative or absolute paths. The utility creates a small include file which in turn contains #include directives for all include files found on the command line.

For example, if the command line contains:

db.h sys/stat.h

then the include file will look like:

/* File is generated automatically: do not edit */
#include "db.h"
#include "sys/stat.h"

Library file names may be anything a particular linker would accept. It is recommended though to keep with the standard practice not to include directory part into library file names, but use the -L option instead.

Number of -I, -L, -l options, and non-option command line arguments is not limited by the logic of the utility.

4.4 External Programs

The --with-XXX options may be used to specify paths to certain programs (list of programs may vary between the versions of ffipkg) used during the course of action, and referred to in the Makefile. This may be necessary if a program is not on the default PATH, or it is desired to use a specific version of a program other than installed in "standard" way.

Only absolute paths to executable programs are accepted with the --with-XXX command line options.

The ffipkg utility checks for existence and executability of these programs (full list in the Synopsis), and also of several other programs (such as echo, rm, find, etc.) to make sure that the Makefile produced is valid.

If any of these programs is not possible to execute, the utility aborts with a diagnostic message. Users are advised to check their PATH environment variable in this case.

4.5 Compatibility

The specialized Cabal setup program created by the ffipkg utility uses the userHooks interface to alter Cabal's behavior while building the package. This interface has been evolving with time. Around the version 1.1.3 of Cabal, this interface underwent a minor change resulting however in the change of buildHook 's type signature. By default, the Setup.hs file generated is for "older" version of buildHook signature. If the -n option is specified, the file will be generated for "newer" type signature of buildHook.

If version of Cabal installed is less than 1.1.3, the -n option should not be used. If it is greater than 1.1.3, the option should be used. Otherwise, it is recommended to try to run ffipkg without this option; if buiding of the package fails, and the source of failure is compilation of Setup.hs then ffipkg must be rerun with the -n option.

4.6 Other Options

  • The -v option sets verbosity level: if specified, the 'ffipkg utility will output intermediate information about intermediate steps.
  • The -i option causes the utility to stop after the package include file has been created. No hsc code is produced, and neither Makefile nor Setup.hs files are created. This option may be used to just check that all the external programs are available or specified correctly on the utility command line.
  • The -V option prints version number of the utility.
  • The -h option prints the command line options synopsis.
  • The -c option passes an option to the C preprocessor and compiler. To add a definition of a constant for the C preprocessor and compiler, use for example: -c "-DX=Y"

5 Creating a FFI Import Package

5.1 Preparatory Steps

Create an empty package building directory and change there. There are no source files specific to a FFI package.

Determine which include and library files will be used in the package, locate them. Keep in mind that the more is the summary length of all include files, the longer it takes to run the utility, and this dependency may be nonlinear. Also determine the package installation location: it should not be the same directory as the package building directory nor its subdirectory.

Possible reasons of failure at this step:

none (in this and following sections, only failures related to the utility itself, and the Cabal setup program are discussed; reasons like no space available on the file device are not mentioned).

Remember: always start with an empty directory. Any pre-existing files may have unspecified effects on the process of a FFI package creation.

5.2 Creating Haskell Sources, Makefile, Cabal File, Setup Program

Execute the ffipkg utility supplying all information about locations of include and library files, and package name and version if applicable.

After the utility finishes, the following files will be created in the directory:

  • the package include file
  • Haskell sources which are result of running hsc2hs, and the splitter
  • the Cabal package descriptor file
  • the Makefile
  • the Setup.hs file

Possible reasons of failure at this step:

  • one or more external programs necessary to build the package were not found or cannot execute: rerun the utility with -i, -v options to see which programs failed.
  • syntax error reported by the preprocessor: check if the correct include files were supplied.
  • syntax error reported by the header file parser: this is an internal error; contact the utility developer/maintainer.

5.3 Configuring a Package

Execute the runghc Setup.hs configure command as specified in [1].

Possible reasons of failure at this step:

none related to the utility itself. For Cabal-related failures see the Cabal documentation.

5.4 Building a Package

Execute the runghc Setup.hs build command as specified in [1].

Possible reasons of failure at this step:

  • incompatible userHooks interface: rerun ffipkg with the same options as were uset at the Creating Haskell Sources... step plus the -n option, then go to the Configuring a Package step. If the -n option does not help, contact utility developer/maintainer specifying the version of Cabal installed.

5.5 Package Installation

Execute the runghc Setup.hs build command as specified in [1].

Possible reasons of failure at this step:

none related to the utility itself. For Cabal-related failures see the Cabal documentation.

6 Using FFI Packages: Naming Conventions

If name of a package is PKG then the module to include in an application using the package is HS_PKG_H. This module should be imported in any application's module which uses the package.

See also [3] for the information how imported functions/ structures/ unions/ etc. are named and visible to applications using FFI packages.

7 Examples

In this section, several examples of building FFI packages are provided.

7.1 Hello, World

A very simple example featuring:

  • Utility default operation.

This example shows how to create a package out of the unistd.h include file, and how to call low-level library calls directly from a Haskell program.

It is assumed that the include file unistd.h is at some location known to the compiler, so there is no need in additional command line options.

Command line to build the package UNISTD:

ffipkg unistd.h

In this and the rest of the examples, commands running the Cabal setup program are omitted. They are issued in a standard manner as if this were a regular Haskell package.

A sample program using this package (syscall.hs):

-- Test of syscalls invoked directly with unistd.h

module Main where

import HS_UNISTD_H

main = withCStringLen "Hello World\n" $ \hello -> do
  f_write (fromIntegral 0) (fst hello) (fromIntegral $ snd hello)

A command line to GHC to compile and build the executable using the package UNISTD:

ghc -fglasgow-exts -package HSFFIG -package UNISTD --make syscall.hs -o syscall

In the sample program above, f_write is the name that the write (2) function is imported under. See [3] for the complete information about how the names of imported entities are formed by HSFFIG.

7.2 Alternative Bindings to Syslog (3)

This example was inspired by [7]. Features:

  • Multiple include files
  • Explicitly naming the package
  • Extra parameters for the C preprocessor
  • Comparison with "hand-crafted" bindings

To buld the SYSLOG package, the ffipkg utility is invoked as follows:

ffipkg -p SYSLOG -c "-DSYSLOG_NAMES" unistd.h syslog.h

Package name is specified explicitly to prevent picking it from the first include file name. It is necessary to include unistd.h before syslog.h as the manual page suggests. Part of the syslog.h header file definitions is surrounded by an #ifdef SYSLOG_NAMES directive, so to open it up for import, the -c option is used.

An example program

7.3 Berkeley DB Binding

7.4 X11 Transport Protocol

8 References