#!powershell $ErrorActionPreference = "Stop" function amdGPUs { if ($env:AMDGPU_TARGETS) { return $env:AMDGPU_TARGETS } # TODO - load from some common data file for linux + windows build consistency $GPU_LIST = @( "gfx900" "gfx906:xnack-" "gfx908:xnack-" "gfx90a:xnack+" "gfx90a:xnack-" "gfx1010" "gfx1012" "gfx1030" "gfx1100" "gfx1101" "gfx1102" ) $GPU_LIST -join ';' } function init_vars { # Verify the environment is a Developer Shell for MSVC 2019 write-host $env:VSINSTALLDIR if (($env:VSINSTALLDIR -eq $null)) { Write-Error "`r`nBUILD ERROR - YOUR DEVELOPMENT ENVIRONMENT IS NOT SET UP CORRECTLY`r`nTo build Ollama you must run from an MSVC Developer Shell`r`nSee .\docs\development.md for instructions to set up your dev environment" exit 1 } $script:SRC_DIR = $(resolve-path "..\..\") $script:llamacppDir = "../llama.cpp" $script:cmakeDefs = @( "-DBUILD_SHARED_LIBS=on", "-DLLAMA_NATIVE=off" ) $script:cmakeTargets = @("ext_server") $script:ARCH = "amd64" # arm not yet supported. if ($env:CGO_CFLAGS -contains "-g") { $script:cmakeDefs += @("-DCMAKE_VERBOSE_MAKEFILE=on", "-DLLAMA_SERVER_VERBOSE=on", "-DCMAKE_BUILD_TYPE=RelWithDebInfo") $script:config = "RelWithDebInfo" } else { $script:cmakeDefs += @("-DLLAMA_SERVER_VERBOSE=off", "-DCMAKE_BUILD_TYPE=Release") $script:config = "Release" } if ($null -ne $env:CMAKE_SYSTEM_VERSION) { $script:cmakeDefs += @("-DCMAKE_SYSTEM_VERSION=${env:CMAKE_SYSTEM_VERSION}") } # Try to find the CUDA dir if ($env:CUDA_LIB_DIR -eq $null) { $d=(get-command -ea 'silentlycontinue' nvcc).path if ($d -ne $null) { $script:CUDA_LIB_DIR=($d| split-path -parent) $script:CUDA_INCLUDE_DIR=($script:CUDA_LIB_DIR|split-path -parent)+"\include" } } else { $script:CUDA_LIB_DIR=$env:CUDA_LIB_DIR } $script:GZIP=(get-command -ea 'silentlycontinue' gzip).path $script:DUMPBIN=(get-command -ea 'silentlycontinue' dumpbin).path if ($null -eq $env:CMAKE_CUDA_ARCHITECTURES) { $script:CMAKE_CUDA_ARCHITECTURES="50;52;61;70;75;80" } else { $script:CMAKE_CUDA_ARCHITECTURES=$env:CMAKE_CUDA_ARCHITECTURES } # Note: 10 Windows Kit signtool crashes with GCP's plugin ${script:SignTool}="C:\Program Files (x86)\Windows Kits\8.1\bin\x64\signtool.exe" if ("${env:KEY_CONTAINER}") { ${script:OLLAMA_CERT}=$(resolve-path "${script:SRC_DIR}\ollama_inc.crt") } } function git_module_setup { # TODO add flags to skip the init/patch logic to make it easier to mod llama.cpp code in-repo & git submodule init if ($LASTEXITCODE -ne 0) { exit($LASTEXITCODE)} & git submodule update --force "${script:llamacppDir}" if ($LASTEXITCODE -ne 0) { exit($LASTEXITCODE)} } function apply_patches { # Wire up our CMakefile if (!(Select-String -Path "${script:llamacppDir}/examples/server/CMakeLists.txt" -Pattern 'ollama')) { Add-Content -Path "${script:llamacppDir}/examples/server/CMakeLists.txt" -Value 'include (../../../ext_server/CMakeLists.txt) # ollama' } # Apply temporary patches until fix is upstream $patches = Get-ChildItem "../patches/*.diff" foreach ($patch in $patches) { # Extract file paths from the patch file $filePaths = Get-Content $patch.FullName | Where-Object { $_ -match '^\+\+\+ ' } | ForEach-Object { $parts = $_ -split ' ' ($parts[1] -split '/', 2)[1] } # Checkout each file Set-Location -Path ${script:llamacppDir} foreach ($file in $filePaths) { git checkout $file } } # Apply each patch foreach ($patch in $patches) { Set-Location -Path ${script:llamacppDir} git apply $patch.FullName } # Avoid duplicate main symbols when we link into the cgo binary $content = Get-Content -Path "${script:llamacppDir}/examples/server/server.cpp" $content = $content -replace 'int main\(', 'int __main(' Set-Content -Path "${script:llamacppDir}/examples/server/server.cpp" -Value $content } function build { write-host "generating config with: cmake -S ${script:llamacppDir} -B $script:buildDir $script:cmakeDefs" & cmake --version & cmake -S "${script:llamacppDir}" -B $script:buildDir $script:cmakeDefs if ($LASTEXITCODE -ne 0) { exit($LASTEXITCODE)} write-host "building with: cmake --build $script:buildDir --config $script:config ($script:cmakeTargets | ForEach-Object { "--target", $_ })" & cmake --build $script:buildDir --config $script:config ($script:cmakeTargets | ForEach-Object { "--target", $_ }) if ($LASTEXITCODE -ne 0) { exit($LASTEXITCODE)} } function install { rm -ea 0 -recurse -force -path "${script:buildDir}/lib" md "${script:buildDir}/lib" -ea 0 > $null cp "${script:buildDir}/bin/${script:config}/ext_server.dll" "${script:buildDir}/lib" cp "${script:buildDir}/bin/${script:config}/llama.dll" "${script:buildDir}/lib" # Display the dll dependencies in the build log if ($script:DUMPBIN -ne $null) { & "$script:DUMPBIN" /dependents "${script:buildDir}/bin/${script:config}/ext_server.dll" | select-string ".dll" } } function sign { if ("${env:KEY_CONTAINER}") { write-host "Signing ${script:buildDir}/lib/*.dll" foreach ($file in (get-childitem "${script:buildDir}/lib/*.dll")){ & "${script:SignTool}" sign /v /fd sha256 /t http://timestamp.digicert.com /f "${script:OLLAMA_CERT}" ` /csp "Google Cloud KMS Provider" /kc "${env:KEY_CONTAINER}" $file if ($LASTEXITCODE -ne 0) { exit($LASTEXITCODE)} } } } function compress_libs { if ($script:GZIP -eq $null) { write-host "gzip not installed, not compressing files" return } write-host "Compressing dlls..." $libs = dir "${script:buildDir}/lib/*.dll" foreach ($file in $libs) { & "$script:GZIP" --best -f $file } } function cleanup { $patches = Get-ChildItem "../patches/*.diff" foreach ($patch in $patches) { # Extract file paths from the patch file $filePaths = Get-Content $patch.FullName | Where-Object { $_ -match '^\+\+\+ ' } | ForEach-Object { $parts = $_ -split ' ' ($parts[1] -split '/', 2)[1] } # Checkout each file Set-Location -Path ${script:llamacppDir} foreach ($file in $filePaths) { git checkout $file } } Set-Location "${script:llamacppDir}/examples/server" git checkout CMakeLists.txt server.cpp } init_vars git_module_setup apply_patches # -DLLAMA_AVX -- 2011 Intel Sandy Bridge & AMD Bulldozer # -DLLAMA_F16C -- 2012 Intel Ivy Bridge & AMD 2011 Bulldozer (No significant improvement over just AVX) # -DLLAMA_AVX2 -- 2013 Intel Haswell & 2015 AMD Excavator / 2017 AMD Zen # -DLLAMA_FMA (FMA3) -- 2013 Intel Haswell & 2012 AMD Piledriver $script:commonCpuDefs = @("-DCMAKE_POSITION_INDEPENDENT_CODE=on") init_vars $script:cmakeDefs = $script:commonCpuDefs + @("-A", "x64", "-DLLAMA_AVX=off", "-DLLAMA_AVX2=off", "-DLLAMA_AVX512=off", "-DLLAMA_FMA=off", "-DLLAMA_F16C=off") + $script:cmakeDefs $script:buildDir="${script:llamacppDir}/build/windows/${script:ARCH}/cpu" write-host "Building LCD CPU" build install sign compress_libs init_vars $script:cmakeDefs = $script:commonCpuDefs + @("-A", "x64", "-DLLAMA_AVX=on", "-DLLAMA_AVX2=off", "-DLLAMA_AVX512=off", "-DLLAMA_FMA=off", "-DLLAMA_F16C=off") + $script:cmakeDefs $script:buildDir="${script:llamacppDir}/build/windows/${script:ARCH}/cpu_avx" write-host "Building AVX CPU" build install sign compress_libs init_vars $script:cmakeDefs = $script:commonCpuDefs + @("-A", "x64", "-DLLAMA_AVX=on", "-DLLAMA_AVX2=on", "-DLLAMA_AVX512=off", "-DLLAMA_FMA=on", "-DLLAMA_F16C=on") + $script:cmakeDefs $script:buildDir="${script:llamacppDir}/build/windows/${script:ARCH}/cpu_avx2" write-host "Building AVX2 CPU" build install sign compress_libs if ($null -ne $script:CUDA_LIB_DIR) { # Then build cuda as a dynamically loaded library $nvcc = "$script:CUDA_LIB_DIR\nvcc.exe" $script:CUDA_VERSION=(get-item ($nvcc | split-path | split-path)).Basename if ($null -ne $script:CUDA_VERSION) { $script:CUDA_VARIANT="_"+$script:CUDA_VERSION } init_vars $script:buildDir="${script:llamacppDir}/build/windows/${script:ARCH}/cuda$script:CUDA_VARIANT" $script:cmakeDefs += @("-A", "x64", "-DLLAMA_CUBLAS=ON", "-DLLAMA_AVX=on", "-DLLAMA_AVX2=off", "-DCUDAToolkit_INCLUDE_DIR=$script:CUDA_INCLUDE_DIR", "-DCMAKE_CUDA_ARCHITECTURES=${script:CMAKE_CUDA_ARCHITECTURES}") write-host "Building CUDA" build install sign compress_libs } if ($null -ne $env:HIP_PATH) { $script:ROCM_VERSION=(get-item $env:HIP_PATH).Basename if ($null -ne $script:ROCM_VERSION) { $script:ROCM_VARIANT="_v"+$script:ROCM_VERSION } init_vars $script:buildDir="${script:llamacppDir}/build/windows/${script:ARCH}/rocm$script:ROCM_VARIANT" $script:cmakeDefs += @( "-G", "Ninja", "-DCMAKE_C_COMPILER=clang.exe", "-DCMAKE_CXX_COMPILER=clang++.exe", "-DLLAMA_HIPBLAS=on", "-DLLAMA_AVX=on", "-DLLAMA_AVX2=off", "-DCMAKE_POSITION_INDEPENDENT_CODE=on", "-DAMDGPU_TARGETS=$(amdGPUs)", "-DGPU_TARGETS=$(amdGPUs)" ) # Make sure the ROCm binary dir is first in the path $env:PATH="$env:HIP_PATH\bin;$env:VSINSTALLDIR\Common7\IDE\CommonExtensions\Microsoft\CMake\Ninja;$env:PATH" # We have to clobber the LIB var from the developer shell for clang to work properly $env:LIB="" write-host "Building ROCm" build # Ninja doesn't prefix with config name ${script:config}="" install if ($null -ne $script:DUMPBIN) { & "$script:DUMPBIN" /dependents "${script:buildDir}/bin/${script:config}/ext_server.dll" | select-string ".dll" } sign compress_libs } cleanup write-host "`ngo generate completed"