Files
LocalAI/.docker/install-base-deps.sh
Richard Palethorpe 606128e4e9 feat(vulkan): make Vulkan backends self-contained on the GPU (#10404)
Vulkan backends bundled their own loader and ICD manifests but neither the
Mesa driver the manifests point at nor a way to make the loader find them,
so on a runtime base image without Mesa the loader enumerated zero devices
and the GPU silently fell back to CPU (only NVIDIA worked, since its ICD is
injected by the container toolkit).

- scripts/build/package-gpu-libs.sh: for each installed ICD manifest, bundle
  the driver .so its library_path names — no hard-coded, platform-dependent
  soname list — plus that driver's ldd dependencies, skipping manifests whose
  driver isn't installed. Rewrite each library_path to a bare soname so the
  bundled driver resolves via the LD_LIBRARY_PATH run.sh already sets.
- .docker/install-base-deps.sh, backend/Dockerfile.golang,
  backend/Dockerfile.python: install mesa-vulkan-drivers in every Vulkan
  builder so the driver + manifests exist to be packaged (the LunarG SDK
  ships only the loader and shader tooling).
- pkg/model/process.go: when a backend ships vulkan/icd.d/, point the loader
  at it via VK_DRIVER_FILES/VK_ICD_FILENAMES at launch (no-op otherwise).
  Covered by pkg/model/process_vulkan_test.go.
- backend/go/parakeet-cpp/package.sh: complete the L0 stub (was missing the
  libc-family ldd walk + GPU-lib packaging) by mirroring whisper, so the
  vulkan-parakeet image actually bundles its GPU runtime.

Assisted-by: Claude Code:claude-opus-4-8

Signed-off-by: Richard Palethorpe <io@richiejp.com>
2026-06-19 17:16:33 +02:00

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#!/usr/bin/env bash
# Single source of truth for builder-base contents.
#
# Used by:
# - backend/Dockerfile.base-grpc-builder (CI prebuilt-base source of truth)
# - backend/Dockerfile.llama-cpp (builder-fromsource stage)
# - backend/Dockerfile.ik-llama-cpp (builder-fromsource stage)
# - backend/Dockerfile.turboquant (builder-fromsource stage)
#
# All four files invoke this script via
# RUN --mount=type=bind,source=.docker/install-base-deps.sh,target=/usr/local/sbin/install-base-deps \
# --mount=type=bind,source=.docker/apt-mirror.sh,target=/usr/local/sbin/apt-mirror \
# bash /usr/local/sbin/install-base-deps
#
# so the prebuilt CI base image and the from-source local-dev path are
# bit-equivalent by construction.
#
# Inputs (env, populated from Dockerfile ARG/ENV):
# BUILD_TYPE ("cublas"|"l4t"|"hipblas"|"vulkan"|"sycl"|"clblas"|"")
# CUDA_MAJOR_VERSION ("12" | "13" | "")
# CUDA_MINOR_VERSION ("8" | "0" | "")
# TARGETARCH ("amd64" | "arm64")
# UBUNTU_VERSION ("2204" | "2404")
# SKIP_DRIVERS ("false" | "true")
# CMAKE_FROM_SOURCE ("false" | "true")
# CMAKE_VERSION ("3.31.10")
# GRPC_VERSION ("v1.65.0")
# GRPC_MAKEFLAGS ("-j4 -Otarget")
# APT_MIRROR / APT_PORTS_MIRROR (optional; consumed by /usr/local/sbin/apt-mirror)
# AMDGPU_TARGETS (optional; only relevant for hipblas downstream)
#
# IMPORTANT: install logic is copied verbatim from the prior in-Dockerfile
# RUN blocks. Do not paraphrase apt invocations / version pins / sed line
# numbers / deb URLs — the bit-equivalence guarantee depends on it.
set -eux
# --- 0. apt mirror rewrite (no-op when APT_MIRROR / APT_PORTS_MIRROR unset) ---
if [ -x /usr/local/sbin/apt-mirror ]; then
APT_MIRROR="${APT_MIRROR:-}" APT_PORTS_MIRROR="${APT_PORTS_MIRROR:-}" \
sh /usr/local/sbin/apt-mirror
fi
export DEBIAN_FRONTEND=noninteractive
export MAKEFLAGS="${GRPC_MAKEFLAGS:-}"
# --- 1. Base apt build deps ---
apt-get update
apt-get install -y --no-install-recommends \
build-essential \
ccache git \
ca-certificates \
make \
pkg-config libcurl4-openssl-dev \
curl unzip \
libssl-dev wget
apt-get clean
rm -rf /var/lib/apt/lists/*
# --- 2. Vulkan SDK (BUILD_TYPE=vulkan) ---
# NB: this block intentionally installs `cmake` via apt as part of the
# Vulkan tooling — must run before the dedicated CMake step below.
if [ "${BUILD_TYPE:-}" = "vulkan" ] && [ "${SKIP_DRIVERS:-false}" = "false" ]; then
apt-get update
apt-get install -y --no-install-recommends \
software-properties-common pciutils wget gpg-agent
apt-get install -y libglm-dev cmake libxcb-dri3-0 libxcb-present0 libpciaccess0 \
libpng-dev libxcb-keysyms1-dev libxcb-dri3-dev libx11-dev g++ gcc \
libwayland-dev libxrandr-dev libxcb-randr0-dev libxcb-ewmh-dev \
git python-is-python3 bison libx11-xcb-dev liblz4-dev libzstd-dev \
ocaml-core ninja-build pkg-config libxml2-dev wayland-protocols python3-jsonschema \
clang-format qtbase5-dev qt6-base-dev libxcb-glx0-dev sudo xz-utils
# Mesa Vulkan ICD drivers (ANV/RADV/lavapipe + Arm SoC) and their ICD
# manifests. The LunarG SDK below only provides the loader and shader
# tooling, not hardware drivers — without Mesa the packaged Vulkan backend
# would ship a loader that finds no GPU. package-gpu-libs.sh bundles these
# .so files plus their deps into the backend so it stays self-contained.
apt-get install -y mesa-vulkan-drivers libdrm2
if [ "amd64" = "${TARGETARCH:-}" ]; then
wget "https://sdk.lunarg.com/sdk/download/1.4.335.0/linux/vulkansdk-linux-x86_64-1.4.335.0.tar.xz"
tar -xf vulkansdk-linux-x86_64-1.4.335.0.tar.xz
rm vulkansdk-linux-x86_64-1.4.335.0.tar.xz
mkdir -p /opt/vulkan-sdk
mv 1.4.335.0 /opt/vulkan-sdk/
( cd /opt/vulkan-sdk/1.4.335.0 && \
./vulkansdk --no-deps --maxjobs \
vulkan-loader \
vulkan-validationlayers \
vulkan-extensionlayer \
vulkan-tools \
shaderc )
cp -rfv /opt/vulkan-sdk/1.4.335.0/x86_64/bin/* /usr/bin/
cp -rfv /opt/vulkan-sdk/1.4.335.0/x86_64/lib/* /usr/lib/x86_64-linux-gnu/
cp -rfv /opt/vulkan-sdk/1.4.335.0/x86_64/include/* /usr/include/
cp -rfv /opt/vulkan-sdk/1.4.335.0/x86_64/share/* /usr/share/
rm -rf /opt/vulkan-sdk
fi
if [ "arm64" = "${TARGETARCH:-}" ]; then
mkdir vulkan
( cd vulkan && \
curl -L -o vulkan-sdk.tar.xz https://github.com/mudler/vulkan-sdk-arm/releases/download/1.4.335.0/vulkansdk-ubuntu-24.04-arm-1.4.335.0.tar.xz && \
tar -xvf vulkan-sdk.tar.xz && \
rm vulkan-sdk.tar.xz && \
cd 1.4.335.0 && \
cp -rfv aarch64/bin/* /usr/bin/ && \
cp -rfv aarch64/lib/* /usr/lib/aarch64-linux-gnu/ && \
cp -rfv aarch64/include/* /usr/include/ && \
cp -rfv aarch64/share/* /usr/share/ )
rm -rf vulkan
fi
ldconfig
apt-get clean
rm -rf /var/lib/apt/lists/*
fi
# --- 3. CUDA toolkit (BUILD_TYPE=cublas|l4t) ---
if { [ "${BUILD_TYPE:-}" = "cublas" ] || [ "${BUILD_TYPE:-}" = "l4t" ]; } && [ "${SKIP_DRIVERS:-false}" = "false" ]; then
apt-get update
apt-get install -y --no-install-recommends \
software-properties-common pciutils
if [ "amd64" = "${TARGETARCH:-}" ]; then
curl -O "https://developer.download.nvidia.com/compute/cuda/repos/ubuntu${UBUNTU_VERSION}/x86_64/cuda-keyring_1.1-1_all.deb"
fi
if [ "arm64" = "${TARGETARCH:-}" ]; then
if [ "${CUDA_MAJOR_VERSION}" = "13" ]; then
curl -O "https://developer.download.nvidia.com/compute/cuda/repos/ubuntu${UBUNTU_VERSION}/sbsa/cuda-keyring_1.1-1_all.deb"
else
curl -O "https://developer.download.nvidia.com/compute/cuda/repos/ubuntu${UBUNTU_VERSION}/arm64/cuda-keyring_1.1-1_all.deb"
fi
fi
dpkg -i cuda-keyring_1.1-1_all.deb
rm -f cuda-keyring_1.1-1_all.deb
apt-get update
apt-get install -y --no-install-recommends \
"cuda-nvcc-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}" \
"libcufft-dev-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}" \
"libcurand-dev-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}" \
"libcublas-dev-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}" \
"libcusparse-dev-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}" \
"libcusolver-dev-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}"
if [ "${CUDA_MAJOR_VERSION}" = "13" ] && [ "arm64" = "${TARGETARCH:-}" ]; then
apt-get install -y --no-install-recommends \
"libcufile-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}" \
"libcudnn9-cuda-${CUDA_MAJOR_VERSION}" \
"cuda-cupti-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}" \
"libnvjitlink-${CUDA_MAJOR_VERSION}-${CUDA_MINOR_VERSION}"
fi
apt-get clean
rm -rf /var/lib/apt/lists/*
fi
# --- 4. cuDSS / NVPL on arm64 + cublas (legacy JetPack / Tegra) ---
# https://github.com/NVIDIA/Isaac-GR00T/issues/343
if [ "${BUILD_TYPE:-}" = "cublas" ] && [ "${TARGETARCH:-}" = "arm64" ]; then
wget "https://developer.download.nvidia.com/compute/cudss/0.6.0/local_installers/cudss-local-tegra-repo-ubuntu${UBUNTU_VERSION}-0.6.0_0.6.0-1_arm64.deb"
dpkg -i "cudss-local-tegra-repo-ubuntu${UBUNTU_VERSION}-0.6.0_0.6.0-1_arm64.deb"
cp /var/cudss-local-tegra-repo-ubuntu"${UBUNTU_VERSION}"-0.6.0/cudss-*-keyring.gpg /usr/share/keyrings/
apt-get update
apt-get -y install cudss "cudss-cuda-${CUDA_MAJOR_VERSION}"
wget "https://developer.download.nvidia.com/compute/nvpl/25.5/local_installers/nvpl-local-repo-ubuntu${UBUNTU_VERSION}-25.5_1.0-1_arm64.deb"
dpkg -i "nvpl-local-repo-ubuntu${UBUNTU_VERSION}-25.5_1.0-1_arm64.deb"
cp /var/nvpl-local-repo-ubuntu"${UBUNTU_VERSION}"-25.5/nvpl-*-keyring.gpg /usr/share/keyrings/
apt-get update
apt-get install -y nvpl
fi
# --- 5. clBLAS (BUILD_TYPE=clblas) ---
# Present in variant Dockerfiles' from-source path but not in master's
# Dockerfile.base-grpc-builder. No CI matrix entry currently uses this,
# but keep parity so a future BUILD_TYPE=clblas build doesn't drift.
if [ "${BUILD_TYPE:-}" = "clblas" ] && [ "${SKIP_DRIVERS:-false}" = "false" ]; then
apt-get update
apt-get install -y --no-install-recommends \
libclblast-dev
apt-get clean
rm -rf /var/lib/apt/lists/*
fi
# --- 6. ROCm / HIP build deps (BUILD_TYPE=hipblas) ---
if [ "${BUILD_TYPE:-}" = "hipblas" ] && [ "${SKIP_DRIVERS:-false}" = "false" ]; then
apt-get update
apt-get install -y --no-install-recommends \
hipblas-dev \
hipblaslt-dev \
rocblas-dev
apt-get clean
rm -rf /var/lib/apt/lists/*
# I have no idea why, but the ROCM lib packages don't trigger ldconfig after they install,
# which results in local-ai and others not being able to locate the libraries.
# We run ldconfig ourselves to work around this packaging deficiency.
ldconfig
# Log which GPU architectures have rocBLAS kernel support
echo "rocBLAS library data architectures:"
(ls /opt/rocm*/lib/rocblas/library/Kernels* 2>/dev/null || ls /opt/rocm*/lib64/rocblas/library/Kernels* 2>/dev/null) | grep -oP 'gfx[0-9a-z+-]+' | sort -u || \
echo "WARNING: No rocBLAS kernel data found"
fi
echo "TARGETARCH: ${TARGETARCH:-}"
# --- 7. protoc (always) ---
# The version in 22.04 is too old. We will create one as part of installing
# the GRPC build below but that will also bring in a newer version of absl
# which stablediffusion cannot compile with. This version of protoc is only
# here so that we can generate the grpc code for the stablediffusion build.
if [ "amd64" = "${TARGETARCH:-}" ]; then
curl -L -s https://github.com/protocolbuffers/protobuf/releases/download/v27.1/protoc-27.1-linux-x86_64.zip -o protoc.zip
unzip -j -d /usr/local/bin protoc.zip bin/protoc
rm protoc.zip
fi
if [ "arm64" = "${TARGETARCH:-}" ]; then
curl -L -s https://github.com/protocolbuffers/protobuf/releases/download/v27.1/protoc-27.1-linux-aarch_64.zip -o protoc.zip
unzip -j -d /usr/local/bin protoc.zip bin/protoc
rm protoc.zip
fi
# --- 8. CMake (apt or compiled from source) ---
# The version in 22.04 is too old. Vulkan path above already pulled cmake
# via apt; the from-source branch here will install over it which is fine.
if [ "${CMAKE_FROM_SOURCE:-false}" = "true" ]; then
curl -L -s "https://github.com/Kitware/CMake/releases/download/v${CMAKE_VERSION}/cmake-${CMAKE_VERSION}.tar.gz" -o cmake.tar.gz
tar xvf cmake.tar.gz
( cd "cmake-${CMAKE_VERSION}" && ./configure && make && make install )
else
apt-get update
apt-get install -y \
cmake
apt-get clean
rm -rf /var/lib/apt/lists/*
fi
# --- 9. gRPC compile + install at /opt/grpc ---
# We install GRPC to a different prefix here so that we can copy in only
# the build artifacts later — saves several hundred MB on the final docker
# image size vs copying in the entire GRPC source tree and running
# `make install` in the target container.
#
# The TESTONLY abseil sed patch and /opt/grpc prefix are load-bearing —
# downstream Dockerfiles `COPY` /opt/grpc to /usr/local (or rely on the
# prebuilt base having it at /opt/grpc).
mkdir -p /build
cd /build
git clone --recurse-submodules --jobs 4 -b "${GRPC_VERSION}" --depth 1 --shallow-submodules https://github.com/grpc/grpc
mkdir -p /build/grpc/cmake/build
cd /build/grpc/cmake/build
sed -i "216i\\ TESTONLY" "../../third_party/abseil-cpp/absl/container/CMakeLists.txt"
cmake -DgRPC_INSTALL=ON -DgRPC_BUILD_TESTS=OFF -DCMAKE_INSTALL_PREFIX:PATH=/opt/grpc ../..
make
make install
cd /
rm -rf /build