353 lines
14 KiB
Markdown
353 lines
14 KiB
Markdown
# Dependancy
|
||
|
||
Red Panda C++ need Qt 5 (>=5.12) to build.
|
||
|
||
# Windows
|
||
|
||
| Library + Toolchain \ Target | x86 | x64 | ARM64 |
|
||
| ---------------------------- | --- | --- | ----- |
|
||
| MSYS2 + GNU-based MinGW | ✔️ | ✔️ | ❌ |
|
||
| MSYS2 + LLVM-based MinGW | ✔️ | ✔️ | ✔️ |
|
||
| Qt.io + MinGW | ✔️ | ✔️ | ❌ |
|
||
| Qt.io + MSVC | ✔️ | ✔️ | ❌ |
|
||
| vcpkg + MSVC | ✔️ | ✔️ | ❌ |
|
||
|
||
Notes for Windows on ARM:
|
||
- Red Panda C++ can be built for ARM64 ABI only on Windows 11 ARM64, while it is supposed (but not tested) to run on Windows 10 ARM64.
|
||
- The ARM64EC (“emulation compatible”) ABI, which highlights interoperability with x64, is currently not supported.
|
||
- ARM64EC does not bring significant benefit, since Red Panda C++ can be built to ARM64 classic ABI.
|
||
- However, ARM64EC will allow users to use their favorite input methods, fancy Qt styles.
|
||
- With the [ARM32 deprecation in Windows 11 Insider Preview Build 25905](https://blogs.windows.com/windows-insider/2023/07/12/announcing-windows-11-insider-preview-build-25905/), ARM32 support will never be added.
|
||
|
||
## MSYS2 Qt Library with MinGW Toolchain (Recommended)
|
||
|
||
Red Panda C++ should work with any MinGW toolchain from MSYS2, including GCCs and Clangs in three GNU-based environments (MINGW32, MINGW64 and UCRT64), and Clangs in three LLVM-based environments (CLANG32, CLANG64 and CLANGARM64; see also [MSYS2’s document](https://www.msys2.org/docs/environments/)), while the following toolchains are frequently tested:
|
||
- MINGW32 GCC,
|
||
- MINGW64 GCC,
|
||
- UCRT64 GCC (recommended for x64)
|
||
- CLANGARM64 Clang (the only and recommended toolchain for ARM64).
|
||
|
||
Official distributions of Red Panda C++ are built with MINGW32 GCC and MINGW64 GCC.
|
||
|
||
Prerequisites:
|
||
|
||
0. Windows 8.1 x64 or later, or Windows 11 ARM64.
|
||
1. Install MSYS2.
|
||
2. In selected environment, install toolchain and Qt 5 library:
|
||
```bash
|
||
pacman -S $MINGW_PACKAGE_PREFIX-toolchain $MINGW_PACKAGE_PREFIX-qt5-static
|
||
```
|
||
|
||
For build only:
|
||
|
||
1. In selected environment, set related variables:
|
||
```bash
|
||
SRC_DIR="/c/src/redpanda-src" # “C:\src\redpanda-src” for example
|
||
BUILD_DIR="/c/src/redpanda-build" # “C:\src\redpanda-build” for example
|
||
INSTALL_DIR="/c/src/redpanda-pkg" # “C:\src\redpanda-pkg” for example
|
||
```
|
||
2. Navigate to build directory:
|
||
```bash
|
||
rm -rf "$BUILD_DIR" # optional for clean build
|
||
mkdir -p "$BUILD_DIR" && cd "$BUILD_DIR"
|
||
```
|
||
3. Configure, build and install:
|
||
```bash
|
||
$MSYSTEM_PREFIX/qt5-static/bin/qmake PREFIX="$INSTALL_DIR" "$SRC_DIR/Red_Panda_CPP.pro"
|
||
mingw32-make -j$(nproc)
|
||
mingw32-make install
|
||
```
|
||
|
||
For development:
|
||
|
||
1. Install Qt Creator (either MSYS2 edition from package `$MINGW_PACKAGE_PREFIX-qt-creator` or standalone edition from [Qt.io downloads site](https://download.qt.io/official_releases/qtcreator/)).
|
||
2. Open `Red_Panda_CPP.pro` with Qt Creator.
|
||
|
||
## Qt.io Qt Library with MinGW Toolchain or MSVC Toolchain
|
||
|
||
Prerequisites:
|
||
|
||
0. Windows 7 x64 or later. ARM64 is not supported.
|
||
1. Install Qt with online installer from [Qt.io](https://www.qt.io/download-qt-installer-oss).
|
||
- Select the library (in _Qt_ group, _Qt 5.15.2_ subgroup, check at lease one of _MinGW 8.1.0 32-bit_, _MinGW 8.1.0 64-bit_, _MSVC 2019 32-bit_ or _MSVC 2019 64-bit_).
|
||
- For MinGW toolchain, select the toolchain (in _Qt_ group, _Developer and Designer Tools_ subgroup, check _MinGW 8.1.0 32-bit_ or _MinGW 8.1.0 64-bit_, matching the library).
|
||
- Optionally select Qt Creator (in _Qt_ group, _Developer and Designer Tools_ subgroup; recomended for MSVC toolchain for parallel build support).
|
||
2. For MSVC toolchain, install Visual Studio 2019 or later, or Visual Studio Build Tools 2019 or later, with _Desktop Development with C++_ workload.
|
||
- In _Installation Details_ panel, under the _Desktop Development with C++_ workload, select at least one _MSVC x86/x64 build tools_ and one _Windows SDK_.
|
||
|
||
For build only:
|
||
|
||
1. Launch Qt environment from Start Menu.
|
||
2. In Qt environment, set related variables:
|
||
```bat
|
||
rem no quotes even if path contains spaces
|
||
set SRC_DIR=C:\src\redpanda-src
|
||
set BUILD_DIR=C:\src\redpanda-build
|
||
set INSTALL_DIR=C:\src\redpanda-pkg
|
||
rem for MSVC toolchain
|
||
set VS_INSTALL_PATH=C:\Program Files\Microsoft Visual Studio\2022\Community
|
||
rem for MSVC toolchain; or x86
|
||
set VC_ARCH=amd64
|
||
rem for MSVC toolchain; keep unset if Qt Creator is not installed
|
||
set QT_CREATOR_DIR=C:\Qt\Tools\QtCreator
|
||
```
|
||
3. Navigate to build directory:
|
||
```bat
|
||
rem optional for clean build
|
||
rmdir /s /q "%BUILD_DIR%"
|
||
mkdir "%BUILD_DIR%" && cd /d "%BUILD_DIR%"
|
||
```
|
||
4. Configure, build and install. For MinGW toolchain:
|
||
```bat
|
||
qmake PREFIX="%INSTALL_DIR%" "%SRC_DIR%\Red_Panda_CPP.pro"
|
||
mingw32-make -j%NUMBER_OF_PROCESSORS%
|
||
mingw32-make install
|
||
windeployqt "%INSTALL_DIR%\RedPandaIDE.exe"
|
||
```
|
||
For MSVC toolchain:
|
||
```bat
|
||
call "%VS_INSTALL_PATH%\Common7\Tools\VsDevCmd.bat" -arch=%VC_ARCH%
|
||
qmake PREFIX="%INSTALL_DIR%" "%SRC_DIR%\Red_Panda_CPP.pro"
|
||
|
||
set JOM=%QT_CREATOR_DIR%\bin\jom\jom.exe
|
||
if "%QT_CREATOR_DIR%" neq "" (
|
||
"%JOM%" -j%NUMBER_OF_PROCESSORS%
|
||
"%JOM%" install
|
||
) else (
|
||
nmake
|
||
nmake install
|
||
)
|
||
windeployqt "%INSTALL_DIR%\RedPandaIDE.exe"
|
||
```
|
||
|
||
For development:
|
||
|
||
1. Open `Red_Panda_CPP.pro` with Qt Creator.
|
||
|
||
## Advanced Option: vcpkg Qt Static Library with MSVC Toolchain
|
||
|
||
Prerequisites:
|
||
|
||
0. Windows 7 x64 or later. ARM64 is not supported.
|
||
- For a fresh installation of Windows 7, install following components in order:
|
||
1. SHA-2 code signing support (prerequisite of .NET Framework 4.8),
|
||
2. .NET Framework 4.8 (prerequisite of Windows Management Framework 5.1 and Visual Studio; also optional dependency of Git for Windows),
|
||
3. Windows Management Framework 5.1 (prerequisite of vcpkg bootstrapping).
|
||
1. Install Visual Studio 2017 or later, or Visual Studio Build Tools 2017 or later, with _Desktop Development with C++_ workload.
|
||
- In _Installation Details_ panel, under the _Desktop Development with C++_ workload, select at least one _MSVC x86/x64 build tools_ and one _Windows SDK_.
|
||
2. Install [standalone vcpkg](https://vcpkg.io/en/getting-started).
|
||
- As of 2023.08.09, [a patch](./packages/windows/vcpkg-win7-2023.08.09.patch) is required for Windows 7 to use compatible version of Python. Affected files will change over time, so manually edit them to apply the patch.
|
||
3. Install Qt with vcpkg.
|
||
```ps1
|
||
$TARGET = "x64-windows-static" # or "x86-windows-static"
|
||
vcpkg install qt5-base:$TARGET qt5-svg:$TARGET qt5-tools:$TARGET
|
||
```
|
||
|
||
To build with VS 2019 or later in PowerShell (Core) or Windows PowerShell:
|
||
|
||
1. Set related variables:
|
||
```ps1
|
||
$SRC_DIR = "C:\src\redpanda-src"
|
||
$BUILD_DIR = "C:\src\redpanda-build"
|
||
$INSTALL_DIR = "C:\src\redpanda-pkg"
|
||
$VCPKG_ROOT = "C:\src\vcpkg"
|
||
$VCPKG_TARGET = "x64-windows-static" # or "x86-windows-static"
|
||
$VS_INSTALL_PATH = "C:\Program Files\Microsoft Visual Studio\2022\Community"
|
||
$VC_ARCH = "amd64" # or "x86"
|
||
$JOM = "$VCPKG_ROOT\downloads\tools\jom\jom-1.1.3\jom.exe" # check the version
|
||
```
|
||
2. Navigate to build directory:
|
||
```ps1
|
||
Remove-Item -Recurse -Force "$BUILD_DIR" # optional for clean build
|
||
(New-Item -ItemType Directory -Force "$BUILD_DIR") -and (Set-Location "$BUILD_DIR")
|
||
```
|
||
3. Configure, build and install:
|
||
```ps1
|
||
Import-Module "$VS_INSTALL_PATH\Common7\Tools\Microsoft.VisualStudio.DevShell.dll"
|
||
Enter-VsDevShell -VsInstallPath "$VS_INSTALL_PATH" -SkipAutomaticLocation -DevCmdArguments "-arch=$VC_ARCH"
|
||
& "$VCPKG_ROOT\installed\$VCPKG_TARGET\tools\qt5\bin\qmake.exe" PREFIX="$INSTALL_DIR" "$SRC_DIR\Red_Panda_CPP.pro"
|
||
& "$JOM" "-j${Env:NUMBER_OF_PROCESSORS}"
|
||
& "$JOM" install
|
||
```
|
||
|
||
To build with VS 2017 or later in Command Prompt:
|
||
|
||
1. Launch proper VC environment from Start Menu.
|
||
2. Set related variables:
|
||
```bat
|
||
rem no quotes even if path contains spaces
|
||
set SRC_DIR=C:\src\redpanda-src
|
||
set BUILD_DIR=C:\src\redpanda-build
|
||
set INSTALL_DIR=C:\src\redpanda-pkg
|
||
set VCPKG_ROOT=C:\src\vcpkg
|
||
rem or x86-windows-static
|
||
set VCPKG_TARGET=x64-windows-static
|
||
rem check the version
|
||
set JOM=%VCPKG_ROOT%\downloads\tools\jom\jom-1.1.3\jom.exe
|
||
```
|
||
3. Navigate to build directory:
|
||
```bat
|
||
rem optional for clean build
|
||
rmdir /s /q "%BUILD_DIR%"
|
||
mkdir "%BUILD_DIR%" && cd /d "%BUILD_DIR%"
|
||
```
|
||
4. Configure, build and install:
|
||
```bat
|
||
"%VCPKG_ROOT%\installed\%VCPKG_TARGET%\tools\qt5\bin\qmake.exe" PREFIX="%INSTALL_DIR%" "%SRC_DIR%\Red_Panda_CPP.pro"
|
||
"%JOM%" -j%NUMBER_OF_PROCESSORS%
|
||
"%JOM%" install
|
||
```
|
||
|
||
# Linux
|
||
|
||
- Install gcc and qt5
|
||
- Optionally install fcitx5-qt for building with static version of Qt
|
||
- Open `Red_Panda_CPP.pro` with Qt Creator
|
||
|
||
qmake variables:
|
||
- `PREFIX`: default to `/usr/local`. It should be set to `/usr` or `/opt/redpanda-cpp` when packaging.
|
||
- `LIBEXECDIR`: directory for auxiliary executables, default to `$PREFIX/libexec`. Arch Linux uses `/usr/lib`.
|
||
- `XDG_ADAPTIVE_ICON=ON`: install the icon file following [freedesktop.org Icon Theme Specification](https://specifications.freedesktop.org/icon-theme-spec/icon-theme-spec-latest.html) for adaptiveness to themes and sizes. Required by AppImage; recommended for Linux packaging if `PREFIX` set to `/usr`.
|
||
- `LINUX_STATIC_IME_PLUGIN=ON` (make phase): link to static ime plugin. Recommended for building with static version of Qt; **DO NOT** set for dynamic version of Qt.
|
||
|
||
## Debian and Its Derivatives
|
||
|
||
### “deb” Package for Current OS
|
||
|
||
1. Install dependency:
|
||
```bash
|
||
sudo apt install \
|
||
build-essential debhelper \
|
||
libqt5svg5-dev qtbase5-dev qtbase5-dev-tools qttools5-dev-tools
|
||
```
|
||
2. Build the package:
|
||
```bash
|
||
./packages/debian/builddeb.sh
|
||
```
|
||
3. Install the package:
|
||
```bash
|
||
sudo apt install /tmp/redpanda-cpp_*.deb
|
||
```
|
||
4. Run Red Panda C++:
|
||
```bash
|
||
RedPandaIDE
|
||
```
|
||
|
||
### Build Packages for Multiple Architectures and Versions in Containers
|
||
|
||
Extra requirements for Windows host:
|
||
- Docker uses WSL 2 based engine, or enable file sharing on the project folder (Settings > Resources > File sharing);
|
||
- PowerShell (Core) or Windows PowerShell.
|
||
|
||
* Linux host:
|
||
```bash
|
||
DOCKER=docker # or podman
|
||
SOURCE_DIR=/build/RedPanda-CPP # source directory *in container*
|
||
|
||
MIRROR=mirrors.kernel.org # leave empty for default mirror
|
||
PLATFORM=linux/amd64 # or linux/386, linux/arm64/v8, linux/arm/v7, linux/riscv64
|
||
IMAGE=debian:12 # or Ubuntu (e.g. ubuntu:22.04)
|
||
|
||
$DOCKER run --rm -e MIRROR=$MIRROR -e SOURCE_DIR=$SOURCE_DIR -v $PWD:$SOURCE_DIR --platform $PLATFORM $IMAGE $SOURCE_DIR/packages/debian/01-in-docker.sh
|
||
```
|
||
* Windows host:
|
||
```ps1
|
||
$DOCKER = "docker" # or "podman"
|
||
$SOURCE_DIR = "/build/RedPanda-CPP" # source directory *in container*
|
||
|
||
$MIRROR = "mirrors.kernel.org" # leave empty for default mirror
|
||
$PLATFORM = "linux/amd64" # or "linux/386", "linux/arm64/v8", "linux/arm/v7", "linux/riscv64"
|
||
$IMAGE = "debian:12" # or Ubuntu (e.g. "ubuntu:22.04")
|
||
|
||
& $DOCKER run --rm -e MIRROR=$MIRROR -e SOURCE_DIR=$SOURCE_DIR -v "$(Get-Location):$SOURCE_DIR" --platform $PLATFORM $IMAGE $SOURCE_DIR/packages/debian/01-in-docker.sh
|
||
```
|
||
|
||
### Manual Install
|
||
|
||
1. Install compiler
|
||
```bash
|
||
apt install gcc g++ make gdb gdbserver
|
||
```
|
||
2. Install Qt 5 and other dependencies
|
||
```bash
|
||
apt install qtbase5-dev qttools5-dev-tools libqt5svg5-dev git qterminal
|
||
```
|
||
3. Fetch source code
|
||
```bash
|
||
git clone https://github.com/royqh1979/RedPanda-CPP.git
|
||
```
|
||
4. Build
|
||
```bash
|
||
cd RedPanda-CPP/
|
||
qmake Red_Panda_CPP.pro
|
||
make -j$(nproc)
|
||
sudo make install
|
||
```
|
||
5. Run
|
||
```bash
|
||
RedPandaIDE
|
||
```
|
||
|
||
## Arch Linux
|
||
|
||
A reference PKGBUILD is available at `packages/archlinux`. Build RedPanda C++ with [makepkg](https://wiki.archlinux.org/title/Makepkg) and then install.
|
||
|
||
Enter `RedPandaIDE` to launch RedPanda C++.
|
||
|
||
Note that makepkg checks out HEAD of the repo, so any change should be committed before building.
|
||
|
||
## AppImage
|
||
|
||
1. Install dependency: Docker or Podman.
|
||
|
||
Extra requirements for Windows host:
|
||
- Docker uses WSL 2 based engine, or enable file sharing on the project folder (Settings > Resources > File sharing);
|
||
- PowerShell (Core) or Windows PowerShell.
|
||
2. Prepare build environment. Linux host:
|
||
```bash
|
||
ARCH=x86_64 # or aarch64, riscv64
|
||
DOCKER=docker # or podman
|
||
$DOCKER build -t redpanda-builder-$ARCH packages/appimage/dockerfile-$ARCH
|
||
```
|
||
Windows host:
|
||
```ps1
|
||
$ARCH = "x86_64" # or "aarch64", "riscv64"
|
||
$DOCKER = "docker" # or "podman"
|
||
& $DOCKER build -t redpanda-builder-$ARCH packages/appimage/dockerfile-$ARCH
|
||
```
|
||
3. Build AppImage. Linux host:
|
||
```bash
|
||
ARCH=x86_64
|
||
DOCKER=docker
|
||
$DOCKER run --rm -v $PWD:/build/RedPanda-CPP -e CARCH=$ARCH redpanda-builder-$ARCH /build/RedPanda-CPP/packages/appimage/01-in-docker.sh
|
||
```
|
||
Windows host:
|
||
```ps1
|
||
$ARCH = "x86_64"
|
||
$DOCKER = "docker"
|
||
& $DOCKER run --rm -v "$(Get-Location):/build/RedPanda-CPP" -e CARCH=$ARCH redpanda-builder-$ARCH /build/RedPanda-CPP/packages/appimage/01-in-docker.sh
|
||
```
|
||
4. Run Red Panda C++.
|
||
```bash
|
||
./dist/RedPandaIDE-x86_64.AppImage # or *-aarch64.AppImage, *-riscv64.AppImage
|
||
```
|
||
|
||
## Emulated Native Build for Foreign Architectures
|
||
|
||
It is possible to build Red Panda C++ for foreign architectures using targets’ native toolchains with QEMU user space emulation.
|
||
|
||
Note: Always run emulated native build **in containers**. Mixing architectures may kill your system.
|
||
|
||
For Linux host, install statically linked QEMU user space emulator (package name is likely `qemu-user-static`) and make sure that binfmt support is enabled.
|
||
|
||
For Windows host, Docker and Podman should have QEMU user space emulation enabled. If not,
|
||
* For Docker:
|
||
```ps1
|
||
docker run --rm --privileged multiarch/qemu-user-static:register
|
||
```
|
||
* For Podman, whose virtual machine is based on Fedora WSL, simply enable binfmt support:
|
||
```ps1
|
||
wsl -d podman-machine-default sudo cp /usr/lib/binfmt.d/qemu-aarch64-static.conf /proc/sys/fs/binfmt_misc/register
|
||
wsl -d podman-machine-default sudo cp /usr/lib/binfmt.d/qemu-riscv64-static.conf /proc/sys/fs/binfmt_misc/register
|
||
```
|