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refactor/php-cli
archived-frankenphp/internal/cpu/cpu_unix.go
Kévin Dunglas 25ed020036 feat: Windows support (#2119) 
Closes #83 #880 #1286.

Working patch for Windows support.

Supports linking to the [official PHP release (TS
version)](https://www.php.net/downloads.php).
Includes some work from #1286 (thanks @TenHian!!)

This patch allows using Visual Studio to compile the cgo code. To do so,
it must be compiled with Go 1.26 (RC) with the following setup:

```powershell
winget install -e --id Microsoft.VisualStudio.2022.Community --override "--passive --wait --add Microsoft.VisualStudio.Workload.NativeDesktop --add Microsoft.VisualStudio.Component.VC.Llvm.Clang --includeRecommended"
winget install -e --id GoLang.Go

$env:PATH += ';C:\Program Files\Microsoft Visual Studio\2022\Community\VC\Tools\Llvm\bin'

cd c:\
gh repo clone microsoft/vcpkg
.\vcpkg\bootstrap-vcpkg.bat
.\vcpkg\vcpkg install pthreads brotli

# build watcher
Invoke-WebRequest -Uri "https://github.com/e-dant/watcher/releases/download/0.14.3/x86_64-pc-windows-msvc.tar" -OutFile "$env:TEMP\watcher.tar"
tar -xf "$env:TEMP\watcher.tar" -C C:\
Rename-Item -Path "C:\x86_64-pc-windows-msvc" -NewName "watcher-x86_64-pc-windows-msvc"
Remove-Item "$env:TEMP\watcher.tar"

# download php
Invoke-WebRequest -Uri "https://downloads.php.net/~windows/releases/archives/php-8.5.1-Win32-vs17-x64.zip" -OutFile "$env:TEMP\php.zip"
Expand-Archive -Path "$env:TEMP\php.zip" -DestinationPath "C:\"
Remove-Item "$env:TEMP\php.zip"

# download php development package
Invoke-WebRequest -Uri "https://downloads.php.net/~windows/releases/archives/php-devel-pack-8.5.1-Win32-vs17-x64.zip" -OutFile "$env:TEMP\php-devel.zip"
Expand-Archive -Path "$env:TEMP\php-devel.zip" -DestinationPath "C:\"
Remove-Item "$env:TEMP\php-devel.zip"

$env:GOTOOLCHAIN = 'go1.26rc1'
$env:CC = 'clang'
$env:CXX = 'clang++'
$env:CGO_CFLAGS = "-I$env:C:\vcpkg\installed\x64-windows\include -IC:\watcher-x86_64-pc-windows-msvc -IC:\php-8.5.1-devel-vs17-x64\include -IC:\php-8.5.1-devel-vs17-x64\include\main -IC:\php-8.5.1-devel-vs17-x64\include\TSRM -IC:\php-8.5.1-devel-vs17-x64\include\Zend -IC:\php-8.5.1-devel-vs17-x64\include\ext"
$env:CGO_LDFLAGS = '-LC:\vcpkg\installed\x64-windows\lib -lbrotlienc -LC:\watcher-x86_64-pc-windows-msvc -llibwatcher-c -LC:\php-8.5.1-Win32-vs17-x64 -LC:\php-8.5.1-devel-vs17-x64\lib -lphp8ts -lphp8embed'

# clone frankenphp and build
git clone -b windows https://github.com/php/frankenphp.git
cd frankenphp\caddy\frankenphp
go build -ldflags '-extldflags="-fuse-ld=lld"' -tags nowatcher,nobadger,nomysql,nopgx

# Tests

$env:PATH += ";$env:VCPKG_ROOT\installed\x64-windows\bin;C:\watcher-x86_64-pc-windows-msvc";C:\php-8.5.1-Win32-vs17-x64"
"opcache.enable=0`r`nopcache.enable_cli=0" | Out-File -Encoding ascii php.ini
$env:PHPRC = Get-Location
go test -ldflags '-extldflags="-fuse-ld=lld"' -tags nowatcher,nobadger,nomysql,nopgx .
```

TODO:

- [x] Fix remaining skipped tests (scaling and watcher)
- [x] Test if the watcher mode works as expected
- [x] Automate the build with GitHub Actions

---------

Signed-off-by: Marc <m@pyc.ac>
Co-authored-by: Kévin Dunglas <kevin@dunglas.dev>
Co-authored-by: DubbleClick <m@pyc.ac>
2026-02-26 12:38:14 +01:00

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//go:build unix
package cpu
// #include <time.h>
import "C"
import (
"runtime"
"time"
)
var cpuCount = runtime.GOMAXPROCS(0)
// ProbeCPUs probes the CPU usage of the process
// if CPUs are not busy, most threads are likely waiting for I/O, so we should scale
// if CPUs are already busy we won't gain much by scaling and want to avoid the overhead of doing so
func ProbeCPUs(probeTime time.Duration, maxCPUUsage float64, abort chan struct{}) bool {
var cpuStart, cpuEnd C.struct_timespec
// note: clock_gettime is a POSIX function
// on Windows we'd need to use QueryPerformanceCounter instead
start := time.Now()
C.clock_gettime(C.CLOCK_PROCESS_CPUTIME_ID, &cpuStart)
select {
case <-abort:
return false
case <-time.After(probeTime):
}
C.clock_gettime(C.CLOCK_PROCESS_CPUTIME_ID, &cpuEnd)
elapsedTime := float64(time.Since(start).Nanoseconds())
elapsedCpuTime := float64(cpuEnd.tv_sec-cpuStart.tv_sec)*1e9 + float64(cpuEnd.tv_nsec-cpuStart.tv_nsec)
cpuUsage := elapsedCpuTime / elapsedTime / float64(cpuCount)
return cpuUsage < maxCPUUsage
}
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