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{ stdenv, lib, fetchurl, dpkg, makeWrapper , mono, gtk-sharp-3_0
, glib, libusb1 , zlib, gtk3-x11, callPackage
, scopes ? [
"picocv"
"ps2000"
"ps2000a"
"ps3000"
"ps3000a"
"ps4000"
"ps4000a"
"ps5000"
"ps5000a"
"ps6000"
"ps6000a"
] }:
let
shared_meta = lib:
with lib; {
homepage = "https://www.picotech.com/downloads/linux";
maintainers = with maintainers; [ expipiplus1 wirew0rm ] ++ teams.lumiguide.members;
platforms = [ "x86_64-linux" ];
license = licenses.unfree;
};
libpicoipp = callPackage ({ stdenv, lib, fetchurl, autoPatchelfHook, dpkg }:
stdenv.mkDerivation rec {
pname = "libpicoipp";
inherit (sources.libpicoipp) version;
src = fetchurl { inherit (sources.libpicoipp) url sha256; };
nativeBuildInputs = [ dpkg autoPatchelfHook ];
buildInputs = [ stdenv.cc.cc.lib ];
sourceRoot = ".";
unpackCmd = "dpkg-deb -x $src .";
installPhase = ''
runHook preInstall
mkdir -p $out/lib
cp -d opt/picoscope/lib/* $out/lib
install -Dt $out/usr/share/doc/libpicoipp usr/share/doc/libpicoipp/copyright
runHook postInstall
'';
meta = with lib;
shared_meta lib // {
sourceProvenance = with sourceTypes; [ binaryNativeCode ];
description = "library for picotech oscilloscope software";
};
}) { };
# If we don't have a platform available, put a dummy version here, so at
# least evaluation succeeds.
sources =
(lib.importJSON ./sources.json).${stdenv.system} or { picoscope.version = "unknown"; };
scopePkg = name:
{ url, version, sha256 }:
stdenv.mkDerivation rec {
pname = "lib${name}";
inherit version;
src = fetchurl { inherit url sha256; };
# picoscope does a signature check, so we can't patchelf these
nativeBuildInputs = [ dpkg ];
sourceRoot = ".";
unpackCmd = "dpkg-deb -x $src .";
installPhase = ''
runHook preInstall
mkdir -p $out/lib
cp -d opt/picoscope/lib/* $out/lib
runHook postInstall
'';
meta = with lib;
shared_meta lib // {
description = "library for picotech oscilloscope ${name} series";
};
};
scopePkgs = lib.mapAttrs scopePkg sources;
in stdenv.mkDerivation rec {
pname = "picoscope";
inherit (sources.picoscope) version;
src = fetchurl { inherit (sources.picoscope) url sha256; };
nativeBuildInputs = [ dpkg makeWrapper ];
buildInputs = [ gtk-sharp-3_0 mono glib libusb1 zlib ];
unpackCmd = "dpkg-deb -x $src .";
sourceRoot = ".";
scopeLibs = lib.attrVals (map (x: "lib${x}") scopes) scopePkgs;
MONO_PATH = "${gtk-sharp-3_0}/lib/mono/gtk-sharp-3.0:" + (lib.makeLibraryPath
([
glib
gtk3-x11
gtk-sharp-3_0
libusb1
zlib
libpicoipp
] ++ scopeLibs));
installPhase = ''
runHook preInstall
mkdir -p $out/
cp -dr usr/share $out/share
cp -dr opt/picoscope/* $out/
makeWrapper "$(command -v mono)" $out/bin/picoscope \
--add-flags $out/lib/PicoScope.GTK.exe \
--prefix MONO_PATH : "$MONO_PATH" \
--prefix LD_LIBRARY_PATH : "$MONO_PATH" \
--set LANG C
runHook postInstall
'';
# usage:
# services.udev.packages = [ pkgs.picoscope.rules ];
# users.groups.pico = {};
# users.users.you.extraGroups = [ "pico" ];
passthru.rules = lib.writeTextDir "lib/udev/rules.d/95-pico.rules" ''
SUBSYSTEMS=="usb", ATTRS{idVendor}=="0ce9", MODE="664",GROUP="pico"
'';
meta = with lib;
shared_meta lib // {
description =
"Oscilloscope application that works with all PicoScope models";
longDescription = ''
PicoScope for Linux is a powerful oscilloscope application that works
with all PicoScope models. The most important features from PicoScope
for Windows are included—scope, spectrum analyzer, advanced triggers,
automated measurements, interactive zoom, persistence modes and signal
generator control. More features are being added all the time.
Waveform captures can be saved for off-line analysis, and shared with
PicoScope for Linux, PicoScope for macOS and PicoScope for Windows
users, or exported in text, CSV and MathWorks MATLAB 4 formats.
'';
sourceProvenance = with sourceTypes; [ binaryBytecode ];
};
}
|