nixpkgs/pkgs/tools/archivers/sharutils/default.nix
Mitchell Skaggs d0f90d9ca7
{libedit,sharutils}: move env vars to env.*
Closes https://github.com/NixOS/nixpkgs/issues/273746
See https://github.com/NixOS/nixpkgs/pull/217206

Co-authored-by: Weijia Wang <9713184+wegank@users.noreply.github.com>
2024-01-15 02:50:52 -06:00

89 lines
3.8 KiB
Nix

{ lib, stdenv, fetchurl, fetchpatch, gettext, coreutils }:
stdenv.mkDerivation rec {
pname = "sharutils";
version = "4.15.2";
src = fetchurl {
url = "mirror://gnu/sharutils/sharutils-${version}.tar.xz";
sha256 = "16isapn8f39lnffc3dp4dan05b7x6mnc76v6q5nn8ysxvvvwy19b";
};
hardeningDisable = [ "format" ];
# GNU Gettext is needed on non-GNU platforms.
buildInputs = [ coreutils gettext ];
# These tests try to hit /etc/passwd to find out your username if pass in a submitter
# name on the command line. Since we block access to /etc/passwd on the Darwin sandbox
# that cause shar to just segfault. It isn't a problem on Linux because their sandbox
# remaps /etc/passwd to a trivial file, but we can't do that on Darwin so I do this
# instead. In this case, I pass in the very imaginative "submitter" as the submitter name
patches = [
# CVE-2018-1000097
(fetchurl {
url = "https://sources.debian.org/data/main/s/sharutils/1:4.15.2-2+deb9u1/debian/patches/01-fix-heap-buffer-overflow-cve-2018-1000097.patch";
sha256 = "19g0sxc8g79aj5gd5idz5409311253jf2q8wqkasf0handdvsbxx";
})
(fetchurl {
url = "https://sources.debian.org/data/main/s/sharutils/1:4.15.2-4/debian/patches/02-fix-ftbfs-with-glibc-2.28.patch";
sha256 = "15kpjqnfs98n6irmkh8pw7masr08xala7gx024agv7zv14722vkc";
})
# pending upstream build fix against -fno-common compilers like >=gcc-10
# Taken from https://lists.gnu.org/archive/html/bug-gnu-utils/2020-01/msg00002.html
(fetchpatch {
name = "sharutils-4.15.2-Fix-building-with-GCC-10.patch";
url = "https://lists.gnu.org/archive/html/bug-gnu-utils/2020-01/txtDL8i6V6mUU.txt";
sha256 = "0kfch1vm45lg237hr6fdv4b2lh5b1933k0fn8yj91gqm58svskvl";
})
(fetchpatch {
name = "sharutils-4.15.2-Do-not-include-lib-md5.c-into-src-shar.c.patch";
url = "https://lists.gnu.org/archive/html/bug-gnu-utils/2020-01/txt5Z_KZup0yN.txt";
sha256 = "0an8vfy3qj6sss9w0i4j8ilf7g5mbc7y13l644jy5bcm9przcjbd";
})
];
postPatch = let
# This evaluates to a string containing:
#
# substituteInPlace tests/shar-2 --replace '${SHAR}' '${SHAR} -s submitter'
# substituteInPlace tests/shar-2 --replace '${SHAR}' '${SHAR} -s submitter'
shar_sub = "\${SHAR}";
in ''
substituteInPlace tests/shar-1 --replace '${shar_sub}' '${shar_sub} -s submitter'
substituteInPlace tests/shar-2 --replace '${shar_sub}' '${shar_sub} -s submitter'
substituteInPlace intl/Makefile.in --replace "AR = ar" ""
'';
# Workaround to fix the static build on macOS.
env.NIX_CFLAGS_COMPILE = "-Wno-implicit-function-declaration";
doCheck = true;
meta = with lib; {
description = "Tools for remote synchronization and `shell archives'";
longDescription =
'' GNU shar makes so-called shell archives out of many files, preparing
them for transmission by electronic mail services. A shell archive
is a collection of files that can be unpacked by /bin/sh. A wide
range of features provide extensive flexibility in manufacturing
shars and in specifying shar smartness. For example, shar may
compress files, uuencode binary files, split long files and
construct multi-part mailings, ensure correct unsharing order, and
provide simplistic checksums.
GNU unshar scans a set of mail messages looking for the start of
shell archives. It will automatically strip off the mail headers
and other introductory text. The archive bodies are then unpacked
by a copy of the shell. unshar may also process files containing
concatenated shell archives.
'';
homepage = "https://www.gnu.org/software/sharutils/";
license = licenses.gpl3Plus;
maintainers = [];
platforms = platforms.all;
};
}