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# Copyright (c) 2019-2020 Status Research & Development GmbH. Licensed under
# either of:
# - Apache License, version 2.0
# - MIT license
# at your option. This file may not be copied, modified, or distributed except
# according to those terms.
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SHELL := bash # the shell used internally by Make
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# used inside the included makefiles
BUILD_SYSTEM_DIR := vendor/nimbus-build-system
# we don't want an error here, so we can handle things later, in the ".DEFAULT" target
- i n c l u d e $( BUILD_SYSTEM_DIR ) / m a k e f i l e s / v a r i a b l e s . m k
.PHONY : \
all \
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bottles \
bottles-dummy \
bottles-macos \
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
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check-pkg-target-linux \
check-pkg-target-macos \
check-pkg-target-windows \
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clean \
deps \
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fleets-remove \
fleets-update \
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nim_status_client \
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
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nim_windows_launcher \
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pkg \
pkg-linux \
pkg-macos \
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pkg-windows \
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run \
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run-linux \
run-macos \
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run-windows \
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status-go \
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update
i f e q ( $( NIM_PARAMS ) , )
# "variables.mk" was not included, so we update the submodules.
GIT_SUBMODULE_UPDATE := git submodule update --init --recursive
.DEFAULT :
+@ echo -e " Git submodules not found. Running ' $( GIT_SUBMODULE_UPDATE) '.\n " ; \
$( GIT_SUBMODULE_UPDATE) ; \
echo
# Now that the included *.mk files appeared, and are newer than this file, Make will restart itself:
# https://www.gnu.org/software/make/manual/make.html#Remaking-Makefiles
#
# After restarting, it will execute its original goal, so we don't have to start a child Make here
# with "$(MAKE) $(MAKECMDGOALS)". Isn't hidden control flow great?
e l s e # "variables.mk" was included. Business as usual until the end of this file.
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all : nim_status_client
# must be included after the default target
- i n c l u d e $( BUILD_SYSTEM_DIR ) / m a k e f i l e s / t a r g e t s . m k
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i f e q ( $( OS ) , W i n d o w s _ N T ) # is Windows_NT on XP, 2000, 7, Vista, 10...
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detected_OS := Windows
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e l s e
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detected_OS := $( strip $( shell uname) )
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e n d i f
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i f e q ( $( detected_OS ) , D a r w i n )
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BOTTLES_TARGET := bottles-macos
CFLAGS := -mmacosx-version-min= 10.13
export CFLAGS
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CGO_CFLAGS := -mmacosx-version-min= 10.13
export CGO_CFLAGS
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LIBSTATUS_EXT := dylib
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MACOSX_DEPLOYMENT_TARGET := 10.13
export MACOSX_DEPLOYMENT_TARGET
PKG_TARGET := pkg-macos
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RUN_TARGET := run-macos
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e l s e i f e q ( $( detected_OS ) , W i n d o w s )
BOTTLES_TARGET := bottles-dummy
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LIBSTATUS_EXT := dll
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PKG_TARGET := pkg-windows
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
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QRCODEGEN_MAKE_PARAMS := CC = gcc
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RUN_TARGET := run-windows
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SIGNTOOL ?= C:\\ Program Files ( x86) \\ Windows Kits\\ 10\\ bin\\ 10.0.17763.0\\ x64\\ signtool.exe
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
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VCINSTALLDIR ?= C:\\ Program Files ( x86) \\ Microsoft Visual Studio\\ 2017\\ BuildTools\\ VC\\
export VCINSTALLDIR
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e l s e
BOTTLES_TARGET := bottles-dummy
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LIBSTATUS_EXT := so
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PKG_TARGET := pkg-linux
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RUN_TARGET := run-linux
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e n d i f
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
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check-pkg-target-linux :
i f n e q ( $( detected_OS ) , L i n u x )
$( error The pkg-linux target must be run on Linux)
e n d i f
check-pkg-target-macos :
i f n e q ( $( detected_OS ) , D a r w i n )
$( error The pkg-macos target must be run on macOS)
e n d i f
check-pkg-target-windows :
i f n e q ( $( detected_OS ) , W i n d o w s )
$( error The pkg-windows target must be run on Windows)
e n d i f
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bottles : $( BOTTLES_TARGET )
bottles-dummy : ;
BOTTLE_OPENSSL := bottles/openssl/INSTALL_RECEIPT.json
$(BOTTLE_OPENSSL) :
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echo -e "\e[92mFetching:\e[39m bottles for macOS"
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rm -rf bottles/Downloads/openssl* bottles/openssl*
mkdir -p bottles/Downloads
cd bottles/Downloads && \
wget -O openssl.tar.gz "https://bintray.com/homebrew/bottles/download_file?file_path=openssl%401.1-1.1.1g.high_sierra.bottle.tar.gz" && \
tar xzf openssl* && \
mv openssl@1.1/1.1.1g ../openssl
BOTTLE_PCRE := bottles/pcre/INSTALL_RECEIPT.json
$(BOTTLE_PCRE) :
rm -rf bottles/Downloads/pcre* bottles/pcre*
mkdir -p bottles/Downloads
cd bottles/Downloads && \
wget -O pcre.tar.gz "https://bintray.com/homebrew/bottles/download_file?file_path=pcre-8.44.high_sierra.bottle.tar.gz" && \
tar xzf pcre* && \
mv pcre/8.44 ../pcre
bottles-macos : | $( BOTTLE_OPENSSL ) $( BOTTLE_PCRE )
rm -rf bottles/Downloads
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deps : | deps -common bottles
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update : | update -common
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# Qt5 dirs (we can't indent with tabs here)
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i f n e q ( $( detected_OS ) , W i n d o w s )
QT5_PCFILEDIR := $( shell pkg-config --variable= pcfiledir Qt5Core 2>/dev/null)
QT5_LIBDIR := $( shell pkg-config --variable= libdir Qt5Core 2>/dev/null)
ifeq ( $( QT5_PCFILEDIR) ,)
ifeq ( $( QTDIR) ,)
$( error Cannot find your Qt5 installation. Please run " $( MAKE) QTDIR=/path/to/your/Qt5/installation/prefix ... " )
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else
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QT5_PCFILEDIR := $( QTDIR) /lib/pkgconfig
QT5_LIBDIR := $( QTDIR) /lib
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# some manually installed Qt5 instances have wrong paths in their *.pc files, so we pass the right one to the linker here
ifeq ( $( detected_OS) ,Darwin)
NIM_PARAMS += -L:"-framework Foundation -framework Security -framework IOKit -framework CoreServices"
# Fix for failures due to 'can't allocate code signature data for'
NIM_PARAMS += --passL:"-headerpad_max_install_names"
NIM_PARAMS += --passL:" -F $( QT5_LIBDIR) "
export QT5_LIBDIR
else
NIM_PARAMS += --passL:" -L $( QT5_LIBDIR) "
endif
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endif
endif
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DOTHERSIDE := vendor/DOtherSide/build/lib/libDOtherSideStatic.a
DOTHERSIDE_CMAKE_PARAMS := -DENABLE_DYNAMIC_LIBS= OFF -DENABLE_STATIC_LIBS= ON
DOTHERSIDE_BUILD_CMD := $( MAKE) VERBOSE = $( V) $( HANDLE_OUTPUT)
# order matters here, due to "-Wl,-as-needed"
NIM_PARAMS += --passL:" $( DOTHERSIDE) " --passL:" $( shell PKG_CONFIG_PATH = " $( QT5_PCFILEDIR) " pkg-config --libs Qt5Core Qt5Qml Qt5Gui Qt5Quick Qt5QuickControls2 Qt5Widgets Qt5Svg) "
e l s e
DOTHERSIDE := vendor/DOtherSide/build/lib/Release/DOtherSide.dll
DOTHERSIDE_CMAKE_PARAMS := -T"v141" -A x64 -DENABLE_DYNAMIC_LIBS= ON -DENABLE_STATIC_LIBS= OFF
DOTHERSIDE_BUILD_CMD := cmake --build . --config Release $( HANDLE_OUTPUT)
NIM_PARAMS += -L:$( DOTHERSIDE)
NIM_EXTRA_PARAMS := --passL:"-lsetupapi -lhid"
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e n d i f
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# TODO: control debug/release builds with a Make var
# We need `-d:debug` to get Nim's default stack traces.
NIM_PARAMS += --outdir:./bin -d:debug
# Enable debugging symbols in DOtherSide, in case we need GDB backtraces from it.
CFLAGS += -g
CXXFLAGS += -g
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$(DOTHERSIDE) : | deps
echo -e $( BUILD_MSG) "DOtherSide"
+ cd vendor/DOtherSide && \
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mkdir -p build && \
cd build && \
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rm -f CMakeCache.txt && \
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cmake $( DOTHERSIDE_CMAKE_PARAMS) \
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-DCMAKE_BUILD_TYPE= Release \
-DENABLE_DOCS= OFF \
-DENABLE_TESTS= OFF \
.. $( HANDLE_OUTPUT) && \
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$( DOTHERSIDE_BUILD_CMD)
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STATUSGO := vendor/status-go/build/bin/libstatus.$( LIBSTATUS_EXT)
STATUSGO_LIBDIR := $( shell pwd ) /$( shell dirname " $( STATUSGO) " )
export STATUSGO_LIBDIR
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status-go : $( STATUSGO )
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$(STATUSGO) : | deps
echo -e $( BUILD_MSG) "status-go"
+ cd vendor/status-go && \
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$( MAKE) statusgo-shared-library $( HANDLE_OUTPUT)
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QRCODEGEN := vendor/QR-Code-generator/c/libqrcodegen.a
$(QRCODEGEN) : | deps
echo -e $( BUILD_MSG) "QR-Code-generator"
+ cd vendor/QR-Code-generator/c && \
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$( MAKE) $( QRCODEGEN_MAKE_PARAMS)
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FLEETS := fleets.json
$(FLEETS) :
echo -e $( BUILD_MSG) " Getting latest $( FLEETS) "
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curl -s https://fleets.status.im/ \
| jq --indent 4 --sort-keys . \
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> $( FLEETS)
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fleets-remove :
rm -f $( FLEETS)
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fleets-update : fleets -remove $( FLEETS )
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rcc :
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echo -e $( BUILD_MSG) "resources.rcc"
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rm -f ./resources.rcc
rm -f ./ui/resources.qrc
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./ui/generate-rcc.sh
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rcc -binary ui/resources.qrc -o ./resources.rcc
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# default token is a free-tier token with limited capabilities and usage
# limits; our docs should include directions for community contributor to setup
# their own Infura account and token instead of relying on this default token
# during development
DEFAULT_TOKEN := 220a1abb4b6943a093c35d0ce4fb0732
INFURA_TOKEN ?= $( DEFAULT_TOKEN)
NIM_PARAMS += -d:INFURA_TOKEN:" $( INFURA_TOKEN) "
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nim_status_client : | $( DOTHERSIDE ) $( STATUSGO ) $( QRCODEGEN ) $( FLEETS ) rcc deps
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echo -e $( BUILD_MSG) " $@ " && \
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$( ENV_SCRIPT) nim c $( NIM_PARAMS) --passL:" -L $( STATUSGO_LIBDIR) " --passL:"-lstatus" $( NIM_EXTRA_PARAMS) --passL:" $( QRCODEGEN) " --passL:"-lm" src/nim_status_client.nim && \
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[ [ $$ ? = 0 ] ] && \
( ( [ [ $( detected_OS) = Darwin ] ] && \
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install_name_tool -change \
libstatus.dylib \
@rpath/libstatus.dylib \
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bin/nim_status_client) || true )
2020-05-14 20:19:01 +00:00
2020-06-04 20:56:44 +00:00
_APPIMAGE_TOOL := appimagetool-x86_64.AppImage
APPIMAGE_TOOL := tmp/linux/tools/$( _APPIMAGE_TOOL)
$(APPIMAGE_TOOL) :
2020-07-08 16:48:13 +00:00
echo -e "\e[92mFetching:\e[39m appimagetool"
2020-06-04 20:56:44 +00:00
rm -rf tmp/linux
mkdir -p tmp/linux/tools
wget https://github.com/AppImage/AppImageKit/releases/download/continuous/$( _APPIMAGE_TOOL)
mv $( _APPIMAGE_TOOL) tmp/linux/tools/
chmod +x $( APPIMAGE_TOOL)
2020-05-19 15:32:48 +00:00
2020-06-18 16:44:22 +00:00
STATUS_CLIENT_APPIMAGE ?= pkg/NimStatusClient-x86_64.AppImage
2020-05-14 20:19:01 +00:00
2020-06-18 16:44:22 +00:00
$(STATUS_CLIENT_APPIMAGE) : nim_status_client $( APPIMAGE_TOOL ) nim -status .desktop
2020-06-04 20:56:44 +00:00
rm -rf pkg/*.AppImage
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
rm -rf tmp/linux/dist
2020-06-04 20:56:44 +00:00
mkdir -p tmp/linux/dist/usr/bin
mkdir -p tmp/linux/dist/usr/lib
mkdir -p tmp/linux/dist/usr/qml
2020-05-18 16:51:29 +00:00
2020-05-15 13:00:49 +00:00
# General Files
2020-06-04 20:56:44 +00:00
cp bin/nim_status_client tmp/linux/dist/usr/bin
cp nim-status.desktop tmp/linux/dist/.
cp status.svg tmp/linux/dist/status.svg
2020-06-30 21:35:24 +00:00
cp status.svg tmp/linux/dist/usr/.
cp -R resources.rcc tmp/linux/dist/usr/.
2020-12-10 16:56:32 +00:00
cp -R $( FLEETS) tmp/linux/dist/usr/.
2020-08-10 20:19:15 +00:00
mkdir -p tmp/linux/dist/usr/i18n
cp ui/i18n/* tmp/linux/dist/usr/i18n
2020-05-15 13:00:49 +00:00
2020-08-06 21:14:06 +00:00
# Libraries
2020-10-07 15:24:24 +00:00
cp -r /usr/lib/x86_64-linux-gnu/nss tmp/linux/dist/usr/lib/
2020-08-06 21:14:06 +00:00
cp vendor/status-go/build/bin/libstatus.so tmp/linux/dist/usr/lib/
2020-05-14 20:19:01 +00:00
echo -e $( BUILD_MSG) "AppImage"
2020-08-12 15:01:03 +00:00
linuxdeployqt tmp/linux/dist/nim-status.desktop -no-copy-copyright-files -qmldir= ui -qmlimport= $( QTDIR) /qml -bundle-non-qt-libs
2020-06-04 20:56:44 +00:00
rm tmp/linux/dist/AppRun
cp AppRun tmp/linux/dist/.
mkdir -p pkg
2020-06-18 16:44:22 +00:00
$( APPIMAGE_TOOL) tmp/linux/dist $( STATUS_CLIENT_APPIMAGE)
2020-06-04 20:56:44 +00:00
DMG_TOOL := node_modules/.bin/create-dmg
2020-05-15 13:00:49 +00:00
2020-06-04 20:56:44 +00:00
$(DMG_TOOL) :
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echo -e "\e[92mInstalling:\e[39m create-dmg"
2020-06-04 20:56:44 +00:00
npm i
2020-05-15 13:00:49 +00:00
2020-09-22 15:12:48 +00:00
MACOS_OUTER_BUNDLE := tmp/macos/dist/Status.app
MACOS_INNER_BUNDLE := $( MACOS_OUTER_BUNDLE) /Contents/Frameworks/QtWebEngineCore.framework/Versions/Current/Helpers/QtWebEngineProcess.app
2020-05-14 20:19:01 +00:00
2020-06-18 16:44:22 +00:00
STATUS_CLIENT_DMG ?= pkg/Status.dmg
2020-06-04 20:56:44 +00:00
2020-06-18 16:44:22 +00:00
$(STATUS_CLIENT_DMG) : nim_status_client $( DMG_TOOL )
2020-06-04 20:56:44 +00:00
rm -rf tmp/macos pkg/*.dmg
2020-09-22 15:12:48 +00:00
mkdir -p $( MACOS_OUTER_BUNDLE) /Contents/MacOS
mkdir -p $( MACOS_OUTER_BUNDLE) /Contents/Resources
cp Info.plist $( MACOS_OUTER_BUNDLE) /Contents/
cp bin/nim_status_client $( MACOS_OUTER_BUNDLE) /Contents/MacOS/
cp nim_status_client.sh $( MACOS_OUTER_BUNDLE) /Contents/MacOS/
chmod +x $( MACOS_OUTER_BUNDLE) /Contents/MacOS/nim_status_client.sh
cp status-icon.icns $( MACOS_OUTER_BUNDLE) /Contents/Resources/
cp status.svg $( MACOS_OUTER_BUNDLE) /Contents/
cp -R resources.rcc $( MACOS_OUTER_BUNDLE) /Contents/
2020-12-10 16:56:32 +00:00
cp -R $( FLEETS) $( MACOS_OUTER_BUNDLE) /Contents/
2020-09-22 15:12:48 +00:00
mkdir -p $( MACOS_OUTER_BUNDLE) /Contents/i18n
cp ui/i18n/* $( MACOS_OUTER_BUNDLE) /Contents/i18n
2020-06-04 20:56:44 +00:00
2020-07-08 16:48:13 +00:00
echo -e $( BUILD_MSG) "app"
2020-06-04 20:56:44 +00:00
macdeployqt \
2020-09-22 15:12:48 +00:00
$( MACOS_OUTER_BUNDLE) \
-executable= $( MACOS_OUTER_BUNDLE) /Contents/MacOS/nim_status_client \
2020-06-04 20:56:44 +00:00
-qmldir= ui
2020-09-22 15:12:48 +00:00
cp Info.runner.plist $( MACOS_OUTER_BUNDLE) /Contents/Info.plist
macdeployqt \
$( MACOS_INNER_BUNDLE) \
-executable= $( MACOS_INNER_BUNDLE) /Contents/MacOS/QtWebEngineProcess
2020-06-04 20:56:44 +00:00
2020-09-22 15:12:48 +00:00
# if MACOS_CODESIGN_IDENT is not set then the outer and inner .app
# bundles are not signed
2020-06-18 16:44:22 +00:00
i f d e f M A C O S _ C O D E S I G N _ I D E N T
2020-09-22 15:12:48 +00:00
scripts/sign-macos-pkg.sh $( MACOS_OUTER_BUNDLE) $( MACOS_CODESIGN_IDENT)
scripts/sign-macos-pkg.sh $( MACOS_INNER_BUNDLE) $( MACOS_CODESIGN_IDENT) \
--entitlements QtWebEngineProcess.plist
2020-06-18 16:44:22 +00:00
e n d i f
2020-07-08 16:48:13 +00:00
echo -e $( BUILD_MSG) "dmg"
2020-06-04 20:56:44 +00:00
mkdir -p pkg
# See: https://github.com/sindresorhus/create-dmg#dmg-icon
# GraphicsMagick must be installed for create-dmg to make the custom
# DMG icon based on app icon, but should otherwise work without it
npx create-dmg \
--identity= "NOBODY" \
2020-09-22 15:12:48 +00:00
$( MACOS_OUTER_BUNDLE) \
2020-06-04 20:56:44 +00:00
pkg || true
2020-06-18 16:44:22 +00:00
# We ignore failure above create-dmg can't skip signing.
# To work around that a dummy identity - 'NOBODY' - is specified.
# This causes non-zero exit code despite DMG being created.
# It is just not signed, hence the next command should succeed.
mv "`ls pkg/*.dmg`" $( STATUS_CLIENT_DMG)
i f d e f M A C O S _ C O D E S I G N _ I D E N T
scripts/sign-macos-pkg.sh $( STATUS_CLIENT_DMG) $( MACOS_CODESIGN_IDENT)
e n d i f
2020-06-04 20:56:44 +00:00
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
NIM_WINDOWS_PREBUILT_DLLS ?= tmp/windows/tools/pcre.dll
$(NIM_WINDOWS_PREBUILT_DLLS) :
echo -e "\e[92mFetching:\e[39m prebuilt DLLs from nim-lang.org"
rm -rf tmp/windows
mkdir -p tmp/windows/tools
cd tmp/windows/tools && \
wget https://nim-lang.org/download/dlls.zip && \
unzip dlls.zip
nim_windows_launcher : | deps
$( ENV_SCRIPT) nim c -d:debug --outdir:./bin --passL:"-static-libgcc -Wl,-Bstatic,--whole-archive -lwinpthread -Wl,--no-whole-archive" src/nim_windows_launcher.nim
2020-07-21 16:28:42 +00:00
i f n e q ( $( WINDOWS_CODESIGN_TIMESTAMP_URL ) , )
WINDOWS_CODESIGN_TIMESTAMP_PARAM := -t $( WINDOWS_CODESIGN_TIMESTAMP_URL)
e n d i f
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
STATUS_CLIENT_ZIP ?= pkg/Status.zip
$(STATUS_CLIENT_ZIP) : nim_status_client nim_windows_launcher $( NIM_WINDOWS_PREBUILT_DLLS )
rm -rf pkg/*.zip
rm -rf tmp/windows/dist
mkdir -p tmp/windows/dist/Status/bin
mkdir -p tmp/windows/dist/Status/resources
mkdir -p tmp/windows/dist/Status/vendor
cp windows-install.txt tmp/windows/dist/Status/INSTALL.txt
unix2dos -k tmp/windows/dist/Status/INSTALL.txt
# cp LICENSE tmp/windows/dist/Status/LICENSE.txt
# unix2dos -k tmp/windows/dist/Status/LICENSE.txt
cp status.ico tmp/windows/dist/Status/resources/
cp status.svg tmp/windows/dist/Status/resources/
cp resources.rcc tmp/windows/dist/Status/resources/
2020-12-10 16:56:32 +00:00
cp $( FLEETS) tmp/windows/dist/Status/resources/
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
cp bin/nim_status_client.exe tmp/windows/dist/Status/bin/Status.exe
2020-07-21 16:28:42 +00:00
cp bin/nim_windows_launcher.exe tmp/windows/dist/Status/Status.exe
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
rcedit \
tmp/windows/dist/Status/bin/Status.exe \
--set-icon tmp/windows/dist/Status/resources/status.ico
rcedit \
tmp/windows/dist/Status/Status.exe \
--set-icon tmp/windows/dist/Status/resources/status.ico
cp $( DOTHERSIDE) tmp/windows/dist/Status/bin/
2020-08-06 21:14:06 +00:00
cp $( STATUSGO) tmp/windows/dist/Status/bin/
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
cp tmp/windows/tools/*.dll tmp/windows/dist/Status/bin/
2020-08-10 20:19:15 +00:00
mkdir -p tmp/windows/dist/Status/resources/i18n
cp ui/i18n/* tmp/windows/dist/Status/resources/i18n
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
cp " $( shell which libgcc_s_seh-1.dll) " tmp/windows/dist/Status/bin/
cp " $( shell which libwinpthread-1.dll) " tmp/windows/dist/Status/bin/
echo -e $( BUILD_MSG) "deployable folder"
windeployqt \
--compiler-runtime \
--qmldir ui \
--release \
tmp/windows/dist/Status/bin/DOtherSide.dll
mv tmp/windows/dist/Status/bin/vc_redist.x64.exe tmp/windows/dist/Status/vendor/
2020-07-21 16:28:42 +00:00
# if WINDOWS_CODESIGN_PFX_PATH is not set then DLLs, EXEs are not signed
i f d e f W I N D O W S _ C O D E S I G N _ P F X _ P A T H
find ./tmp/windows/dist/Status -type f \
| /usr/bin/egrep -i " \.(dll|exe) $$ " \
| /usr/bin/xargs -I{ } /usr/bin/bash -c \
" if ! ' $( SIGNTOOL) ' verify -pa {} &>/dev/null; then echo {}; fi " \
| /usr/bin/xargs -I{ } " $( SIGNTOOL) " \
sign \
-v \
-f $( WINDOWS_CODESIGN_PFX_PATH) \
$( WINDOWS_CODESIGN_TIMESTAMP_PARAM) \
{ }
e n d i f
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
echo -e $( BUILD_MSG) "zip"
mkdir -p pkg
cd tmp/windows/dist/Status && \
2020-09-28 15:36:13 +00:00
7z a ../../../../$( STATUS_CLIENT_ZIP) *
2020-07-08 16:48:13 +00:00
2020-06-04 20:56:44 +00:00
pkg : $( PKG_TARGET )
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
pkg-linux : check -pkg -target -linux $( STATUS_CLIENT_APPIMAGE )
2020-06-04 20:56:44 +00:00
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
pkg-macos : check -pkg -target -macos $( STATUS_CLIENT_DMG )
2020-05-14 14:58:08 +00:00
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
pkg-windows : check -pkg -target -windows $( STATUS_CLIENT_ZIP )
2020-07-08 16:48:13 +00:00
2020-05-14 14:58:08 +00:00
clean : | clean -common
2020-06-04 20:56:44 +00:00
rm -rf bin/* node_modules pkg/* tmp/* $( STATUSGO)
+ $( MAKE) -C vendor/DOtherSide/build --no-print-directory clean
2020-07-08 16:48:13 +00:00
run : rcc $( RUN_TARGET )
2020-07-03 19:22:15 +00:00
NIM_STATUS_CLIENT_DEV ?= t
build: use a different colored app icon and a non-default STATUS_PORT for dev builds
By default the desktop app uses port 30305, unless a value is specifically set
in environment variable `STATUS_PORT`. For convenience of those developing the
app and running development builds, while simultaneously running production
builds (a.k.a. packaged builds, whether built locally or in CI), have `make
run` invoke `bin/nim_status_client` with `STATUS_PORT=30306`. That value can
still be overriden by manually invoking `make run` with a different value,
e.g. `make STATUS_PORT=30307 run` and `STATUS_PORT=30307 make run` are both
valid and achieve the same effect. NOTE: the port "sticks" in the database
after the first clean run, so when changing ports developers will need to
delete the data dir within their local repository, else the existing database
for dev builds will be stuck using whatever port was used previously. In the
future, we can figure out a means to always update the port setting in the
database just after the login event (but see #1505).
Also, for development builds use an icon (for the running app) that is
orangered (`#ff4500`) instead of the official blue color. This makes it much
easier to select between a running production instance and development instance
when Cmd-Tab'ing (on macOS, or equiv on Linux and Windows) through open
applications. Not all icons displayed at runtime have been changed in this
manner for development builds, just the main application icon, and that seems
to be sufficient to achieve the desired effect; though in the future we could
do similar for notification icon, menu bar icon, etc.
2020-12-16 01:15:44 +00:00
STATUS_PORT ?= 30306
2020-07-03 19:22:15 +00:00
2020-08-06 21:14:06 +00:00
run-linux :
echo -e "\e[92mRunning:\e[39m bin/nim_status_client"
NIM_STATUS_CLIENT_DEV = " $( NIM_STATUS_CLIENT_DEV) " \
LD_LIBRARY_PATH = " $( QT5_LIBDIR) " :" $( STATUSGO_LIBDIR) " \
build: use a different colored app icon and a non-default STATUS_PORT for dev builds
By default the desktop app uses port 30305, unless a value is specifically set
in environment variable `STATUS_PORT`. For convenience of those developing the
app and running development builds, while simultaneously running production
builds (a.k.a. packaged builds, whether built locally or in CI), have `make
run` invoke `bin/nim_status_client` with `STATUS_PORT=30306`. That value can
still be overriden by manually invoking `make run` with a different value,
e.g. `make STATUS_PORT=30307 run` and `STATUS_PORT=30307 make run` are both
valid and achieve the same effect. NOTE: the port "sticks" in the database
after the first clean run, so when changing ports developers will need to
delete the data dir within their local repository, else the existing database
for dev builds will be stuck using whatever port was used previously. In the
future, we can figure out a means to always update the port setting in the
database just after the login event (but see #1505).
Also, for development builds use an icon (for the running app) that is
orangered (`#ff4500`) instead of the official blue color. This makes it much
easier to select between a running production instance and development instance
when Cmd-Tab'ing (on macOS, or equiv on Linux and Windows) through open
applications. Not all icons displayed at runtime have been changed in this
manner for development builds, just the main application icon, and that seems
to be sufficient to achieve the desired effect; though in the future we could
do similar for notification icon, menu bar icon, etc.
2020-12-16 01:15:44 +00:00
STATUS_PORT = " $( STATUS_PORT) " \
2020-08-06 21:14:06 +00:00
./bin/nim_status_client
run-macos :
2020-07-08 16:48:13 +00:00
echo -e "\e[92mRunning:\e[39m bin/nim_status_client"
2020-07-03 19:22:15 +00:00
NIM_STATUS_CLIENT_DEV = " $( NIM_STATUS_CLIENT_DEV) " \
build: use a different colored app icon and a non-default STATUS_PORT for dev builds
By default the desktop app uses port 30305, unless a value is specifically set
in environment variable `STATUS_PORT`. For convenience of those developing the
app and running development builds, while simultaneously running production
builds (a.k.a. packaged builds, whether built locally or in CI), have `make
run` invoke `bin/nim_status_client` with `STATUS_PORT=30306`. That value can
still be overriden by manually invoking `make run` with a different value,
e.g. `make STATUS_PORT=30307 run` and `STATUS_PORT=30307 make run` are both
valid and achieve the same effect. NOTE: the port "sticks" in the database
after the first clean run, so when changing ports developers will need to
delete the data dir within their local repository, else the existing database
for dev builds will be stuck using whatever port was used previously. In the
future, we can figure out a means to always update the port setting in the
database just after the login event (but see #1505).
Also, for development builds use an icon (for the running app) that is
orangered (`#ff4500`) instead of the official blue color. This makes it much
easier to select between a running production instance and development instance
when Cmd-Tab'ing (on macOS, or equiv on Linux and Windows) through open
applications. Not all icons displayed at runtime have been changed in this
manner for development builds, just the main application icon, and that seems
to be sufficient to achieve the desired effect; though in the future we could
do similar for notification icon, menu bar icon, etc.
2020-12-16 01:15:44 +00:00
STATUS_PORT = " $( STATUS_PORT) " \
2020-07-03 19:22:15 +00:00
./bin/nim_status_client
2020-05-14 14:58:08 +00:00
build: implement packaging steps for the Windows build
Implement a `pkg-windows` target that ultimately results in `Status.zip` being
written to `pkg/`.
Note: this commit does not introduce code signing for the Windows build since
that piece is still a work in progress.
`pkg-windows` creates a portable folder in `tmp/windows/dist` with the help of
[`windeployqt`][windeployqt], which copies the needed portions of Qt into the
folder.
Since DLL resolution is relatively inflexible, a launcher `Status.exe` is
created at the top-level of the folder; the launcher opens `bin/Status.exe`
while adding the portable folder's `bin/` to the `PATH`, allowing
`bin/Status.exe` to resolve the DLLs in that folder.
A few additional tools need to be installed (e.g. with [scoop][scoop]) and
availble in `PATH`:
* 7-zip
* dos2unix (provides unix2dos)
* findutils
* go
* rcedit
* wget
The above list builds on the tools list in PR #521, and the other requirements
and instructions in that PR's description still apply.
**Why not build an installer?**
When starting work on packaging for the Windows build, my initial plan was to
build an installer, and for that purpose I researched the [WiX Toolset][wix],
the [Qt Installer Framework][qtif], and some other options.
I found that building an installer is a bit complex. I then recalled, from
personal experience, that [Cmder][cmder]'s [Mini download][mini] is
installer-less. You simply unzip the download and place the `cmder_mini` folder
wherever you prefer. Such an approach was also recommended to me in one of the
Nim language's community chats.
In addition to being simpler, the installer-less approach also gives
installation of Status Desktop a lower profile than an installer-application
would since nothing is written to the Windows registry, added to the *Add or
remove programs* list, etc. I think that's a benefit given the privacy-security
focus of Status, but others may feel differently so please provide feedback on
this point!
[windeployqt]: https://doc.qt.io/qt-5/windows-deployment.html
[scoop]: https://scoop.sh/
[wix]: https://wixtoolset.org/
[qtif]: https://doc.qt.io/qtinstallerframework/index.html
[cmder]: https://cmder.net/
[mini]: https://github.com/cmderdev/cmder/releases/download/v1.3.15/cmder_mini.zip
2020-07-15 22:45:56 +00:00
run-windows : $( NIM_WINDOWS_PREBUILT_DLLS )
2020-07-08 16:48:13 +00:00
echo -e "\e[92mRunning:\e[39m bin/nim_status_client.exe"
2020-07-03 19:22:15 +00:00
NIM_STATUS_CLIENT_DEV = " $( NIM_STATUS_CLIENT_DEV) " \
2020-08-06 21:14:06 +00:00
PATH = " $( shell pwd ) " /" $( shell dirname " $( DOTHERSIDE) " ) " :" $( STATUSGO_LIBDIR) " :" $( shell pwd ) " /" $( shell dirname " $( NIM_WINDOWS_PREBUILT_DLLS) " ) " :" $( PATH) " \
build: use a different colored app icon and a non-default STATUS_PORT for dev builds
By default the desktop app uses port 30305, unless a value is specifically set
in environment variable `STATUS_PORT`. For convenience of those developing the
app and running development builds, while simultaneously running production
builds (a.k.a. packaged builds, whether built locally or in CI), have `make
run` invoke `bin/nim_status_client` with `STATUS_PORT=30306`. That value can
still be overriden by manually invoking `make run` with a different value,
e.g. `make STATUS_PORT=30307 run` and `STATUS_PORT=30307 make run` are both
valid and achieve the same effect. NOTE: the port "sticks" in the database
after the first clean run, so when changing ports developers will need to
delete the data dir within their local repository, else the existing database
for dev builds will be stuck using whatever port was used previously. In the
future, we can figure out a means to always update the port setting in the
database just after the login event (but see #1505).
Also, for development builds use an icon (for the running app) that is
orangered (`#ff4500`) instead of the official blue color. This makes it much
easier to select between a running production instance and development instance
when Cmd-Tab'ing (on macOS, or equiv on Linux and Windows) through open
applications. Not all icons displayed at runtime have been changed in this
manner for development builds, just the main application icon, and that seems
to be sufficient to achieve the desired effect; though in the future we could
do similar for notification icon, menu bar icon, etc.
2020-12-16 01:15:44 +00:00
STATUS_PORT = " $( STATUS_PORT) " \
2020-07-03 19:22:15 +00:00
./bin/nim_status_client.exe
2020-07-08 16:48:13 +00:00
2020-05-14 14:58:08 +00:00
e n d i f # "variables.mk" was not included
