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Makefile
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# Copyright (c) 2018 Zededa, Inc.
# SPDX-License-Identifier: Apache-2.0
#
# Run make (with no arguments) to see help on what targets are available
# universal constants and functions
null :=
space := $(null) #
comma := ,
uniq = $(if $1,$(firstword $1) $(call uniq,$(filter-out $(firstword $1),$1)))
# you are not supposed to tweak these variables -- they are effectively R/O
HV_DEFAULT=kvm
GOVER ?= 1.20.1
PKGBASE=github.com/lf-edge/eve
GOMODULE=$(PKGBASE)/pkg/pillar
GOTREE=$(CURDIR)/pkg/pillar
BUILDTOOLS_BIN=$(CURDIR)/build-tools/bin
PATH:=$(BUILDTOOLS_BIN):$(PATH)
GOPKGVERSION=$(shell tools/goversion.sh 2>/dev/null)
export CGO_ENABLED GOOS GOARCH PATH
ifeq ($(BUILDKIT_PROGRESS),)
export BUILDKIT_PROGRESS := plain
endif
# A set of tweakable knobs for our build needs (tweak at your risk!)
# Which version to assign to snapshot builds (0.0.0 if built locally, 0.0.0-snapshot if on CI/CD)
EVE_SNAPSHOT_VERSION=0.0.0
# which language bindings to generate for EVE API
PROTO_LANGS=go python
# Use 'make HV=acrn|xen|kvm|kubevirt' to build ACRN images (AMD64 only), Xen or KVM
HV=$(HV_DEFAULT)
# Enable development build (disabled by default)
DEV=n
# How large to we want the disk to be in Mb
MEDIA_SIZE?=32768
# Image type for final disk images
IMG_FORMAT=qcow2
ifdef LIVE_UPDATE
# For live updates we support read-write FS, like ext4
ROOTFS_FORMAT=ext4
# And generate tar faster
LIVE_FAST=1
else
# Filesystem type for rootfs image
ROOTFS_FORMAT?=squash
endif
# Image type for installer image
INSTALLER_IMG_FORMAT=raw
# SSH port to use for running images live
SSH_PORT=2222
# ports to proxy into a running EVE instance (in ssh notation with -L)
SSH_PROXY=-L6000:localhost:6000
# ssh key to be used for getting into an EVE instance
SSH_KEY=$(CONF_DIR)/ssh.key
# Disable QEMU H/W acceleration (any non-empty value will trigger using it)
NOACCEL=
# Use TPM device (any non-empty value will trigger using it), i.e. 'make TPM=y run'
TPM=
# Prune dangling images after build of package to reduce disk usage (any non-empty value will trigger using it)
# Be aware that with this flag we will clean all dangling images in system, not only EVE-OS related
PRUNE=
# Location of the EVE configuration folder to be used in builds
CONF_DIR=conf
# Source of the cloud-init enabled qcow2 Linux VM for all architectures
BUILD_VM_SRC_arm64=https://cloud-images.ubuntu.com/focal/current/focal-server-cloudimg-arm64.img
BUILD_VM_SRC_amd64=https://cloud-images.ubuntu.com/focal/current/focal-server-cloudimg-amd64.img
BUILD_VM_SRC=$(BUILD_VM_SRC_$(ZARCH))
UNAME_S := $(shell uname -s)
UNAME_S_LCASE=$(shell uname -s | tr '[A-Z]' '[a-z]')
# store the goos for local, as an easier-to-reference var
LOCAL_GOOS=$(UNAME_S_LCASE)
USER = $(shell id -u -n)
GROUP = $(shell id -g -n)
UID = $(shell id -u)
GID = $(shell id -g)
#for MacOS - use predefined user and group IDs
ifeq ($(UNAME_S),Darwin)
USER = eve
GROUP = eve
UID = 1001
GID = 1001
endif
REPO_BRANCH=$(shell git rev-parse --abbrev-ref HEAD | tr / _)
REPO_SHA=$(shell git describe --match '$$^' --abbrev=8 --always --dirty)
# set this variable to the current tag only if we are building from a tag (annotated or not), otherwise set it to "snapshot", which means rootfs version will be constructed differently
REPO_TAG=$(shell git describe --always --tags | grep -E '^[0-9]+\.[0-9]+\.[0-9]+(-lts|-rc[0-9]+)?$$' || echo snapshot)
REPO_DIRTY_TAG=$(if $(findstring -dirty,$(REPO_SHA)),-$(shell date -u +"%Y-%m-%d.%H.%M"))
EVE_TREE_TAG = $(shell git describe --abbrev=8 --always --dirty --tags)
ifeq ($(DEV),y)
DEV_TAG:=-dev
endif
# ROOTFS_VERSION used to construct the installer directory
# set this to the current tag only if we are building from a tag
ROOTFS_VERSION:=$(if $(findstring snapshot,$(REPO_TAG)),$(EVE_SNAPSHOT_VERSION)-$(REPO_BRANCH)-$(REPO_SHA)$(REPO_DIRTY_TAG)$(DEV_TAG),$(REPO_TAG))
#if KERNEL_TAG is set, append it to the ROOTFS_VERSION but replace docker.io/lfedge/eve-kernel:eve-kernel- part with k-
SHORT_KERNEL_TAG=$(subst docker.io/lfedge/eve-kernel:eve-kernel-,k-,$(KERNEL_TAG))
ROOTFS_VERSION:=$(if $(SHORT_KERNEL_TAG),$(ROOTFS_VERSION)-$(SHORT_KERNEL_TAG),$(ROOTFS_VERSION))
HOSTARCH:=$(subst aarch64,arm64,$(subst x86_64,amd64,$(shell uname -m)))
# by default, take the host architecture as the target architecture, but can override with `make ZARCH=foo`
# assuming that the toolchain supports it, of course...
ZARCH ?= $(HOSTARCH)
export ZARCH
# warn if we are cross-compiling and track it
CROSS ?=
ifneq ($(HOSTARCH),$(ZARCH))
CROSS = 1
$(warning "WARNING: We are assembling an $(ZARCH) image on $(HOSTARCH). Things may break.")
endif
DOCKER_ARCH_TAG=$(ZARCH)
FULL_VERSION:=$(ROOTFS_VERSION)-$(HV)-$(ZARCH)
# must be included after ZARCH is set
include $(CURDIR)/kernel-version.mk
# where we store outputs
DIST=$(CURDIR)/dist/$(ZARCH)
DOCKER_DIST=/eve/dist/$(ZARCH)
BUILD_DIR=$(DIST)/$(ROOTFS_VERSION)
INSTALLER=$(BUILD_DIR)/installer
LIVE=$(BUILD_DIR)/live
LIVE_IMG=$(BUILD_DIR)/live.$(IMG_FORMAT)
TARGET_IMG=$(BUILD_DIR)/target.img
VERSION_FILE=$(INSTALLER)/eve_version
CURRENT_DIR=$(DIST)/current
CURRENT_IMG=$(CURRENT_DIR)/live.$(IMG_FORMAT)
CURRENT_SWTPM=$(CURRENT_DIR)/swtpm
CURRENT_INSTALLER=$(CURRENT_DIR)/installer
INSTALLER_FIRMWARE_DIR=$(INSTALLER)/firmware
CURRENT_FIRMWARE_DIR=$(CURRENT_INSTALLER)/firmware
UBOOT_IMG=$(INSTALLER_FIRMWARE_DIR)/boot
# not every firmware file is used on every architecture
BIOS_IMG_amd64=$(INSTALLER_FIRMWARE_DIR)/OVMF.fd $(INSTALLER_FIRMWARE_DIR)/OVMF_CODE.fd $(INSTALLER_FIRMWARE_DIR)/OVMF_VARS.fd
BIOS_IMG_arm64=$(INSTALLER_FIRMWARE_DIR)/OVMF.fd $(INSTALLER_FIRMWARE_DIR)/OVMF_VARS.fd
BIOS_IMG_riscv64=$(INSTALLER_FIRMWARE_DIR)/OVMF.fd $(INSTALLER_FIRMWARE_DIR)/OVMF_CODE.fd $(INSTALLER_FIRMWARE_DIR)/OVMF_VARS.fd
BIOS_IMG=$(BIOS_IMG_$(ZARCH))
RUNME=$(BUILD_DIR)/runme.sh
BUILD_YML=$(BUILD_DIR)/build.yml
BUILD_VM=$(DIST)/build-vm.qcow2
BUILD_VM_CLOUD_INIT=$(DIST)/build-vm-ci.qcow2
ROOTFS=$(INSTALLER)/rootfs
ROOTFS_FULL_NAME=$(INSTALLER)/rootfs-$(ROOTFS_VERSION)
ROOTFS_COMPLETE=$(ROOTFS_FULL_NAME)-%-$(ZARCH).$(ROOTFS_FORMAT)
ROOTFS_IMG=$(ROOTFS).img
# ROOTFS_TAR is in BUILD_DIR, not installer, so it does not get installed
ROOTFS_TAR=$(BUILD_DIR)/rootfs.tar
CONFIG_IMG=$(INSTALLER)/config.img
INITRD_IMG=$(INSTALLER)/initrd.img
INSTALLER_TAR=$(BUILD_DIR)/installer.tar
INSTALLER_IMG=$(INSTALLER)/installer.img
PERSIST_IMG=$(INSTALLER)/persist.img
NETBOOT=$(BUILD_DIR)/netboot
IPXE_IMG=$(NETBOOT)/ipxe.efi
EFI_PART=$(INSTALLER)/EFI
BOOT_PART=$(INSTALLER)/boot
BSP_IMX_PART=$(INSTALLER)/bsp-imx
SBOM?=$(ROOTFS).spdx.json
SOURCES_DIR=$(BUILD_DIR)/sources
COLLECTED_SOURCES=$(SOURCES_DIR)/collected_sources.tar.gz
DEVICETREE_DTB_amd64=
DEVICETREE_DTB_arm64=$(DIST)/dtb/eve.dtb
DEVICETREE_DTB=$(DEVICETREE_DTB_$(ZARCH))
CONF_FILES=$(shell ls -d $(CONF_DIR)/*)
LIVE_PART_SPEC=efi conf imga
# parallels settings
# https://github.com/qemu/qemu/blob/595123df1d54ed8fbab9e1a73d5a58c5bb71058f/docs/interop/prl-xml.txt
# predefined GUID according link ^
PARALLELS_UUID={5fbaabe3-6958-40ff-92a7-860e329aab41}
PARALLELS_VM_NAME=EVE_Live
PARALLELS_CPUS=2 #num
PARALLELS_MEMORY=2048 #in megabytes
# VirtualBox settings
VB_VM_NAME=EVE_Live
VB_CPUS=2 #num
VB_MEMORY=2048 #in megabytes
# public cloud settings (only GCP is supported for now)
# note how GCP doesn't like dots so we replace them with -
CLOUD_IMG_NAME=$(subst .,-,live-$(FULL_VERSION))
CLOUD_PROJECT=-project lf-edge-eve
CLOUD_BUCKET=-bucket eve-live
CLOUD_INSTANCE=-zone us-west1-a -machine n1-standard-1
# qemu settings
QEMU_SYSTEM_arm64=qemu-system-aarch64
QEMU_SYSTEM_amd64=qemu-system-x86_64
QEMU_SYSTEM_riscv64=qemu-system-riscv64
QEMU_SYSTEM=$(QEMU_SYSTEM_$(ZARCH))
ifeq ($(NOACCEL),)
ACCEL=1
else
ACCEL=
endif
ifeq ($(UNAME_S)_$(ZARCH),Darwin_arm64)
QEMU_DEFAULT_MACHINE=virt,
endif
QEMU_ACCEL_Y_Darwin_amd64=-machine q35,accel=hvf,usb=off -cpu kvm64,kvmclock=off
QEMU_ACCEL_Y_Linux_amd64=-machine q35,accel=kvm,usb=off,dump-guest-core=off -cpu host,invtsc=on,kvmclock=off -machine kernel-irqchip=split -device intel-iommu,intremap=on,caching-mode=on,aw-bits=48
# -machine virt,gic_version=3
QEMU_ACCEL_Y_Darwin_arm64=-machine $(QEMU_DEFAULT_MACHINE)accel=hvf,usb=off -cpu host
QEMU_ACCEL_Y_Linux_arm64=-machine virt,accel=kvm,usb=off,dump-guest-core=off -cpu host
QEMU_ACCEL__$(UNAME_S)_arm64=-machine virt,virtualization=true -cpu cortex-a57
QEMU_ACCEL__$(UNAME_S)_amd64=-machine q35 -cpu SandyBridge
QEMU_ACCEL__$(UNAME_S)_riscv64=-machine virt -cpu rv64
QEMU_ACCEL:=$(QEMU_ACCEL_$(ACCEL:%=Y)_$(UNAME_S)_$(ZARCH))
QEMU_OPTS_NET1=192.168.1.0/24
QEMU_OPTS_NET1_FIRST_IP=192.168.1.10
QEMU_OPTS_NET2=192.168.2.0/24
QEMU_OPTS_NET2_FIRST_IP=192.168.2.10
QEMU_MEMORY?=4096
QEMU_EVE_SERIAL?=31415926
PFLASH_amd64=y
PFLASH=$(PFLASH_$(ZARCH))
QEMU_OPTS_BIOS_y=-drive if=pflash,format=raw,unit=0,readonly,file=$(CURRENT_FIRMWARE_DIR)/OVMF_CODE.fd -drive if=pflash,format=raw,unit=1,file=$(CURRENT_FIRMWARE_DIR)/OVMF_VARS.fd
QEMU_OPTS_BIOS_=-bios $(CURRENT_FIRMWARE_DIR)/OVMF.fd
QEMU_OPTS_BIOS=$(QEMU_OPTS_BIOS_$(PFLASH))
QEMU_TPM_DEVICE_amd64=tpm-tis
QEMU_TPM_DEVICE_arm64=tpm-tis-device
QEMU_TPM_DEVICE_riscv64=tpm-tis
QEMU_OPTS_TPM_Y_$(ZARCH)=-chardev socket,id=chrtpm,path=$(CURRENT_SWTPM)/swtpm-sock -tpmdev emulator,id=tpm0,chardev=chrtpm -device $(QEMU_TPM_DEVICE_$(ZARCH)),tpmdev=tpm0
QEMU_OPTS_TPM=$(QEMU_OPTS_TPM_$(TPM:%=Y)_$(ZARCH))
QEMU_OPTS_amd64=-smbios type=1,serial=$(QEMU_EVE_SERIAL)
QEMU_OPTS_arm64=-smbios type=1,serial=$(QEMU_EVE_SERIAL) -drive file=fat:rw:$(dir $(DEVICETREE_DTB)),label=QEMU_DTB,format=vvfat
QEMU_OPTS_riscv64=-kernel $(UBOOT_IMG)/u-boot.bin -device virtio-blk,drive=uefi-disk
QEMU_OPTS_COMMON= -m $(QEMU_MEMORY) -smp 4 -display none $(QEMU_OPTS_BIOS) \
-serial mon:stdio \
-global ICH9-LPC.noreboot=false -watchdog-action reset \
-rtc base=utc,clock=rt \
-netdev user,id=eth0,net=$(QEMU_OPTS_NET1),dhcpstart=$(QEMU_OPTS_NET1_FIRST_IP),hostfwd=tcp::$(SSH_PORT)-:22$(QEMU_TFTP_OPTS) -device virtio-net-pci,netdev=eth0,romfile="" \
-netdev user,id=eth1,net=$(QEMU_OPTS_NET2),dhcpstart=$(QEMU_OPTS_NET2_FIRST_IP) -device virtio-net-pci,netdev=eth1,romfile="" \
-device nec-usb-xhci,id=xhci \
-qmp unix:$(CURDIR)/qmp.sock,server,wait=off
QEMU_OPTS_CONF_PART=$(shell [ -d "$(CONF_PART)" ] && echo '-drive file=fat:rw:$(CONF_PART),format=raw')
QEMU_OPTS=$(QEMU_OPTS_COMMON) $(QEMU_ACCEL) $(QEMU_OPTS_$(ZARCH)) $(QEMU_OPTS_CONF_PART) $(QEMU_OPTS_TPM)
# -device virtio-blk-device,drive=image -drive if=none,id=image,file=X
# -device virtio-net-device,netdev=user0 -netdev user,id=user0,hostfwd=tcp::1234-:22
GOOS=linux
CGO_ENABLED=1
GOBUILDER=eve-build-$(shell echo $(USER) | tr A-Z a-z)
# if proxy is set, use it when building docker builder
ifneq ($(HTTP_PROXY),)
DOCKER_HTTP_PROXY:=--build-arg http_proxy=$(HTTP_PROXY)
endif
ifneq ($(HTTPS_PROXY),)
DOCKER_HTTPS_PROXY:=--build-arg https_proxy=$(HTTPS_PROXY)
endif
ifneq ($(NO_PROXY),)
DOCKER_NO_PROXY:=--build-arg no_proxy=$(NO_PROXY)
endif
ifneq ($(ALL_PROXY),)
DOCKER_ALL_PROXY:=--build-arg all_proxy=$(ALL_PROXY)
endif
# use "make V=1" for verbose logging
DASH_V :=
QUIET := @
SET_X := :
ifeq ($(V),1)
DASH_V := -v
QUIET :=
SET_X := set -x
endif
DOCKER_GO = _() { $(SET_X); mkdir -p $(CURDIR)/.go/src/$${3:-dummy} ; mkdir -p $(CURDIR)/.go/bin ; \
docker_go_line="docker run $$DOCKER_GO_ARGS -i --rm -u $(USER) -w /go/src/$${3:-dummy} \
-v $(CURDIR)/.go:/go:z -v $$2:/go/src/$${3:-dummy}:z -v $${4:-$(CURDIR)/.go/bin}:/go/bin:z -v $(CURDIR)/:/eve:z -v $${HOME}:/home/$(USER):z \
-e GOOS -e GOARCH -e CGO_ENABLED -e BUILD=local $(GOBUILDER) bash --noprofile --norc -c" ; \
verbose=$(V) ;\
verbose=$${verbose:-0} ;\
[ $$verbose -ge 1 ] && echo $$docker_go_line "\"$$1\""; \
$$docker_go_line "$$1" ; } ; _
PARSE_PKGS=$(if $(strip $(EVE_HASH)),EVE_HASH=)$(EVE_HASH) DOCKER_ARCH_TAG=$(DOCKER_ARCH_TAG) KERNEL_TAG=$(KERNEL_TAG) ./tools/parse-pkgs.sh
LINUXKIT=$(BUILDTOOLS_BIN)/linuxkit
# linuxkit version. This **must** be a published semver version so it can be downloaded already compiled from
# the release page at https://github.com/linuxkit/linuxkit/releases
LINUXKIT_VERSION=v1.5.2
LINUXKIT_SOURCE=https://github.com/linuxkit/linuxkit
LINUXKIT_OPTS=$(if $(strip $(EVE_HASH)),--hash) $(EVE_HASH) $(if $(strip $(EVE_REL)),--release) $(EVE_REL)
LINUXKIT_PKG_TARGET=build
ifdef LIVE_FAST
# Check the makerootfs.sh and the linuxkit tool invocation, the --input-tar
# parameter specifically. This will create a new tar based on the old one
# (already generated), which speeds tar generation up a bit.
UPDATE_TAR=-u
endif
RESCAN_DEPS=FORCE
# set FORCE_BUILD to --force to enforce rebuild
FORCE_BUILD=
# ROOTFS_DEPS enforces the scan of all rootfs image dependencies
ifdef ROOTFS_DEPS
ROOTFS_GET_DEPS=-r
else
ROOTFS_GET_DEPS=
endif
# for the go build sources
GOSOURCES=$(BUILDTOOLS_BIN)/go-sources-and-licenses
GOSOURCES_VERSION=6047a068b2702ed2687cd13dcb7eaa2542d20344
GOSOURCES_SOURCE=github.com/deitch/go-sources-and-licenses
# for the compare sbom and collecte sources
COMPARESOURCES=$(BUILDTOOLS_BIN)/compare-sbom-sources
COMPARE_SOURCE=./tools/compare-sbom-sources
# tool for scan docker package dependencies
GET_DEPS_DIR=./tools/get-deps
GET_DEPS=./tools/get-deps/get-deps
DOCKERFILE_FROM_CHECKER_DIR=./tools/dockerfile-from-checker/
DOCKERFILE_FROM_CHECKER=$(DOCKERFILE_FROM_CHECKER_DIR)/dockerfile-from-checker
SYFT_VERSION:=v0.85.0
SYFT_IMAGE:=docker.io/anchore/syft:$(SYFT_VERSION)
# we use the following block to assign correct tag to the Docker registry artifact
ifeq ($(LINUXKIT_PKG_TARGET),push)
# only builds from master branch are allowed to be called snapshots
# everything else gets tagged with a branch name itself UNLESS
# we're building off of a annotated tag
EVE_REL_$(REPO_BRANCH)_$(REPO_TAG):=$(REPO_TAG)
EVE_REL_$(REPO_BRANCH)_snapshot:=$(REPO_BRANCH)
EVE_REL_master_snapshot:=snapshot
EVE_REL:=$(EVE_REL_$(REPO_BRANCH)_$(REPO_TAG))
# the only time we rebuild everything from scratch is when we're building 'latest' release
# in order to achieve that we have to force EVE_HASH to be the release version
ifeq ($(shell [ "`git tag | grep -E '[0-9]*\.[0-9]*\.[0-9]*' | sort -t. -n -k1,1 -k2,2 -k3,3 | tail -1`" = $(REPO_TAG) ] && echo latest),latest)
EVE_HASH:=$(REPO_TAG)
EVE_REL:=latest
endif
endif
# The rootfs partition size is set to 512MB after 10.2.0 release (see commit 719b4d516)
# Before 10.2.0 it was 300MB. We must maintain compatibility with older versions so rootfs size cannot exceed 300MB.
# kubevirt and nvidia are not affected by this limitation because there no installation of kubevirt prior to 10.2.0
# Nethertheless lets check for ROOTFS_MAXSIZE_MB not exceeding 450MB for kubevirt and ARM and 270MB for x86_64
# That helps in catching image size increases earlier than at later stage.
# We are currently filtering out a few packages from bulk builds since they are not getting published in Docker HUB
ifeq ($(HV),kubevirt)
PKGS_$(ZARCH)=$(shell find pkg -maxdepth 1 -type d | grep -Ev "eve|alpine|sources$$")
ROOTFS_MAXSIZE_MB=450
else
#kube container will not be in non-kubevirt builds
PKGS_$(ZARCH)=$(shell find pkg -maxdepth 1 -type d | grep -Ev "eve|alpine|sources|kube|external-boot-image$$")
# nvidia platform requires more space
ifeq ($(PLATFORM),nvidia)
ROOTFS_MAXSIZE_MB=450
else
ROOTFS_MAXSIZE_MB=270
endif
endif
PKGS_riscv64=pkg/ipxe pkg/mkconf pkg/mkimage-iso-efi pkg/grub \
pkg/mkimage-raw-efi pkg/uefi pkg/u-boot pkg/cross-compilers \
pkg/debug pkg/dom0-ztools pkg/gpt-tools pkg/storage-init pkg/mkrootfs-squash \
pkg/bsp-imx pkg/optee-os pkg/recovertpm pkg/bpftrace
# alpine-base and alpine must be the first packages to build
PKGS=pkg/alpine $(PKGS_$(ZARCH))
# eve-alpine-base is bootstrap image for eve-alpine
# to update please see https://github.com/lf-edge/eve/blob/master/docs/BUILD.md#how-to-update-eve-alpine-package
# if you want to bootstrap eve-alpine again, uncomment the line below
# PKGS:=pkg/alpine-base $(PKGS)
# these are the packages that, when built, also need to be loaded into docker
# if you need a pkg to be loaded into docker, in addition to the lkt cache, add it here
PKGS_DOCKER_LOAD=mkconf mkimage-iso-efi mkimage-raw-efi mkrootfs-ext4 mkrootfs-squash
# these packages should exists for HOSTARCH as well as for ZARCH
# alpine-base, alpine and cross-compilers are dependencies for others
PKGS_HOSTARCH=alpine-base alpine cross-compilers $(PKGS_DOCKER_LOAD)
# Package dependencies auto-generated by the build system
-include pkg-deps.mk
# Top-level targets
all: help
$(QUIET): $@: Succeeded
# just reports the version, without appending qualifies like HVM or such
version:
@echo $(ROOTFS_VERSION)
# makes a link to current
current: $(CURRENT_DIR)
$(CURRENT_DIR): $(BUILD_DIR)
@rm -f $@ && ln -s $(BUILD_DIR) $@
# reports the image version that current points to
# we explicitly do *not* use $(BUILD_DIR), because that is recalculated each time, and it might have changed
# since we last built. We just want to know what current is pointing to *now*, not what it might point to
# if we ran a new build.
currentversion:
#echo $(shell readlink $(CURRENT) | sed -E 's/rootfs-(.*)\.[^.]*$/\1/')
@cat $(CURRENT_DIR)/installer/eve_version
.PHONY: currentversion linuxkit pkg/kernel
test: $(LINUXKIT) test-images-patches | $(DIST)
@echo Running tests on $(GOMODULE)
make -C pkg/pillar test
cp pkg/pillar/results.json $(DIST)/
cp pkg/pillar/results.xml $(DIST)/
make -C eve-tools/bpftrace-compiler test
$(QUIET): $@: Succeeded
test-profiling:
make -C pkg/pillar test-profiling
# wrap command into DOCKER_GO and propagate it to the pillar's Makefile
# for example make pillar-fmt will run docker container based on
# build-tools/src/scripts/Dockerfile
# mount pkg/pillar into it
# and will run make fmt
pillar-%: $(GOBUILDER) | $(DIST)
@echo Running make $* on pillar
$(QUIET)$(DOCKER_GO) "make $*" $(GOTREE)
$(QUIET): $@: Succeeded
clean:
rm -rf $(DIST) images/out pkg-deps.mk
$(DOCKERFILE_FROM_CHECKER): $(DOCKERFILE_FROM_CHECKER_DIR)/*.go $(DOCKERFILE_FROM_CHECKER_DIR)/go.*
make -C $(DOCKERFILE_FROM_CHECKER_DIR)
# this next section checks that the FROM hashes for any image in any dockerfile anywhere here are consistent.
# For example, one Dockerfile has foo:abc and the next has foo:def, it will flag them.
# These are the packages that we are ignoring for now
IGNORE_DOCKERFILE_HASHES_PKGS=alpine
IGNORE_DOCKERFILE_HASHES_EVE_TOOLS=bpftrace-compiler
IGNORE_DOCKERFILE_HASHES_PKGS_ARGS=$(foreach pkg,$(IGNORE_DOCKERFILE_HASHES_PKGS),-i pkg/$(pkg)/Dockerfile)
IGNORE_DOCKERFILE_HASHES_EVE_TOOLS_ARGS=$(foreach tool,$(IGNORE_DOCKERFILE_HASHES_EVE_TOOLS),$(addprefix -i ,$(shell find eve-tools/$(tool) -path '*/vendor' -prune -o -name Dockerfile -print)))
.PHONY: check-docker-hashes-consistency
check-docker-hashes-consistency: $(DOCKERFILE_FROM_CHECKER)
@echo "Checking Dockerfiles for inconsistencies"
$(DOCKERFILE_FROM_CHECKER) ./ $(IGNORE_DOCKERFILE_HASHES_PKGS_ARGS) $(IGNORE_DOCKERFILE_HASHES_EVE_TOOLS_ARGS)
yetus:
@echo Running yetus
mkdir -p yetus-output
docker run --rm -v $(CURDIR):/src:delegated,z ghcr.io/apache/yetus:0.15.0 \
--basedir=/src \
--test-parallel=true \
--dirty-workspace \
--empty-patch \
--plugins=all \
--patch-dir=/src/yetus-output
mini-yetus:
@echo Running mini-yetus
./tools/mini-yetus.sh $(if $(MYETUS_VERBOSE),-f) $(if $(MYETUS_SBRANCH),-s $(MYETUS_SBRANCH)) $(if $(MYETUS_DBRANCH),-d $(MYETUS_DBRANCH))
build-tools: $(LINUXKIT)
@echo Done building $<
$(BUILD_VM_CLOUD_INIT): build-tools/src/scripts/cloud-init.in | $(DIST)
@if [ -z "$(BUILD_VM_SSH_PUB_KEY)" ] || [ -z "$(BUILD_VM_GH_TOKEN)" ]; then \
echo "Must be run as: make BUILD_VM_SSH_PUB_KEY=XXX BUILD_VM_GH_TOKEN=YYY $@" && exit 1 ;\
fi
$(QUIET)sed -e 's#@ZARCH@#$(subst amd64,x64,$(ZARCH))#' -e 's#@SSH_PUB_KEY@#$(BUILD_VM_SSH_PUB_KEY)#g' \
-e 's#@GH_TOKEN@#$(BUILD_VM_GH_TOKEN)#g' < $< | docker run -i alpine:edge sh -c \
'apk add cloud-utils > /dev/null 2>&1 && cloud-localds --disk-format qcow2 _ - && cat _' > $@
$(BUILD_VM).orig: | $(DIST)
@curl -L $(BUILD_VM_SRC) > $@
$(BUILD_VM): $(BUILD_VM_CLOUD_INIT) $(BUILD_VM).orig $(DEVICETREE_DTB) $(BIOS_IMG) $(SWTPM) | $(DIST)
# currently a fulle EVE build *almost* fits into 40Gb -- we need twice as much in a VM
qemu-img resize [email protected] 100G
$(QEMU_SYSTEM) $(QEMU_OPTS) -drive format=qcow2,[email protected] -drive format=qcow2,file=$<
mv [email protected] $@
$(DEVICETREE_DTB): $(BIOS_IMG) | $(DIST)
mkdir $(dir $@) 2>/dev/null || :
# start swtpm to generate dtb
$(MAKE) $(SWTPM)
$(QEMU_SYSTEM) $(QEMU_OPTS) -machine $(QEMU_DEFAULT_MACHINE)dumpdtb=$@
$(QUIET): $@: Succeeded
$(EFI_PART): PKG=grub
$(BOOT_PART): PKG=u-boot
$(INITRD_IMG): PKG=mkimage-raw-efi
$(IPXE_IMG): PKG=ipxe
$(BIOS_IMG): PKG=uefi
$(UBOOT_IMG): PKG=u-boot
$(BSP_IMX_PART): PKG=bsp-imx
$(EFI_PART) $(BOOT_PART) $(INITRD_IMG) $(IPXE_IMG) $(BIOS_IMG) $(UBOOT_IMG) $(BSP_IMX_PART): $(LINUXKIT) | $(INSTALLER)
mkdir -p $(dir $@)
$(LINUXKIT) pkg build --pull --platforms linux/$(ZARCH) pkg/$(PKG) # running linuxkit pkg build _without_ force ensures that we either pull it down or build it.
cd $(dir $@) && $(LINUXKIT) cache export --arch $(DOCKER_ARCH_TAG) --format filesystem --outfile - $(shell $(LINUXKIT) pkg show-tag pkg/$(PKG)) | tar xvf - $(notdir $@)
$(QUIET): $@: Succeeded
# run swtpm if TPM flag defined
# to run it please ensure that https://github.com/stefanberger/swtpm package built/installed in your system
# we use --terminate flag, so swtpm will terminate after qemu disconnection
SWTPM_:
SWTPM_Y:
mkdir -p $(CURRENT_SWTPM)
swtpm socket --daemon --terminate --tpmstate dir=$(CURRENT_SWTPM) --ctrl type=unixio,path=$(CURRENT_SWTPM)/swtpm-sock --log file=$(CURRENT_SWTPM)/swtpm.log,level=20 --pid file=$(CURRENT_SWTPM)/swtpm.pid --tpm2
SWTPM:=SWTPM_$(TPM:%=Y)
# patch /conf/grub.cfg for developer's builds to enable getty
GETTY:
echo "Enabling GETTY in grub.cfg"
if [ ! -f $(CONF_DIR)/grub.cfg ]; then\
cp $(CONF_DIR)/grub.cfg.tmpl $(CONF_DIR)/grub.cfg;\
fi
# run-installer
#
# This creates an image equivalent to live.img (called target.img)
# through the installer. It's the long road to live.img. Good for
# testing.
#
run-installer-iso: $(BIOS_IMG) $(DEVICETREE_DTB) $(SWTPM) GETTY
qemu-img create -f ${IMG_FORMAT} $(TARGET_IMG) ${MEDIA_SIZE}M
$(QEMU_SYSTEM) -drive file=$(TARGET_IMG),format=$(IMG_FORMAT) -cdrom $(INSTALLER).iso -boot d $(QEMU_OPTS)
run-installer-raw: $(BIOS_IMG) $(DEVICETREE_DTB) $(SWTPM) GETTY
qemu-img create -f ${IMG_FORMAT} $(TARGET_IMG) ${MEDIA_SIZE}M
$(QEMU_SYSTEM) -drive file=$(TARGET_IMG),format=$(IMG_FORMAT) -drive file=$(INSTALLER).raw,format=raw $(QEMU_OPTS)
run-installer-net: QEMU_TFTP_OPTS=,tftp=$(dir $(IPXE_IMG)),bootfile=$(notdir $(IPXE_IMG))
run-installer-net: $(BIOS_IMG) $(IPXE_IMG) $(DEVICETREE_DTB) $(SWTPM) GETTY
tar -C $(NETBOOT) -xvf $(INSTALLER).net || :
qemu-img create -f ${IMG_FORMAT} $(TARGET_IMG) ${MEDIA_SIZE}M
$(QEMU_SYSTEM) -drive file=$(TARGET_IMG),format=$(IMG_FORMAT) $(QEMU_OPTS)
# run MUST NOT change the current dir; it depends on the output being correct from a previous build
run-live run: $(BIOS_IMG) $(DEVICETREE_DTB) $(SWTPM) GETTY
$(QEMU_SYSTEM) $(QEMU_OPTS) -drive file=$(CURRENT_IMG),format=$(IMG_FORMAT),id=uefi-disk
run-target: $(BIOS_IMG) $(DEVICETREE_DTB) $(SWTPM) GETTY
$(QEMU_SYSTEM) $(QEMU_OPTS) -drive file=$(TARGET_IMG),format=$(IMG_FORMAT)
run-rootfs: $(BIOS_IMG) $(UBOOT_IMG) $(EFI_PART) $(DEVICETREE_DTB) $(SWTPM) GETTY
(echo 'set devicetree="(hd0,msdos1)/eve.dtb"' ; echo 'set rootfs_root=/dev/vdb' ; echo 'set root=hd1' ; echo 'export rootfs_root' ; echo 'export devicetree' ; echo 'configfile /EFI/BOOT/grub.cfg' ) > $(EFI_PART)/BOOT/grub.cfg
$(QEMU_SYSTEM) $(QEMU_OPTS) -drive file=$(ROOTFS_IMG),format=raw -drive file=fat:rw:$(EFI_PART)/..,label=CONFIG,id=uefi-disk,format=vvfat
$(QUIET): $@: Succeeded
run-grub: $(BIOS_IMG) $(UBOOT_IMG) $(EFI_PART) $(DEVICETREE_DTB) $(SWTPM) GETTY
[ -f $(EFI_PART)/BOOT/grub.cfg ] && mv $(EFI_PART)/BOOT/grub.cfg $(EFI_PART)/BOOT/grub.cfg.$(notdir $(shell mktemp))
$(QEMU_SYSTEM) $(QEMU_OPTS) -drive format=vvfat,id=uefi-disk,label=EVE,file=fat:rw:$(EFI_PART)/..
$(QUIET): $@: Succeeded
run-compose: images/out/version.yml
# we regenerate this on every run, in case things changed
$(PARSE_PKGS) > tmp/images
docker-compose -f docker-compose.yml run storage-init sh -c 'rm -rf /run/* /config/* ; cp -Lr /conf/* /config/ ; echo IMGA > /run/eve.id'
docker-compose -f docker-compose.yml --env-file tmp/images up
run-proxy:
ssh $(SSH_PROXY) -N -i $(SSH_KEY) -p $(SSH_PORT) -o StrictHostKeyChecking=no -o GlobalKnownHostsFile=/dev/null -o UserKnownHostsFile=/dev/null root@localhost &
run-build-vm: $(BIOS_IMG) $(DEVICETREE_DTB)
$(QEMU_SYSTEM) $(QEMU_OPTS) -drive format=qcow2,file=$(BUILD_VM)
run-live-vb:
@[ -f "$(LIVE).vdi" ] || { echo "Please run: make live-vdi"; exit 1; }
VBoxManage list vms | grep $(VB_VM_NAME) >/dev/null && VBoxManage controlvm $(VB_VM_NAME) acpipowerbutton & sleep 10 & VBoxManage unregistervm $(VB_VM_NAME) --delete || echo "No VMs with $(VB_VM_NAME) name"
VBoxManage createvm --name $(VB_VM_NAME) --register --basefolder $(DIST)/
VBoxManage modifyvm $(VB_VM_NAME) --cpus $(VB_CPUS) --memory $(VB_MEMORY) --vram 16 --nested-hw-virt on --ostype Ubuntu_64 --mouse usbtablet --graphicscontroller vmsvga --boot1 disk --boot2 net
VBoxManage storagectl $(VB_VM_NAME) --name "SATA Controller" --add SATA --controller IntelAhci --bootable on --hostiocache on
VBoxManage storageattach $(VB_VM_NAME) --storagectl "SATA Controller" --port 0 --device 0 --type hdd --medium $(LIVE).vdi
VBoxManage modifyvm $(VB_VM_NAME) --nic1 natnetwork --nat-network1 natnet1 --cableconnected1 on --natpf1 ssh,tcp,,$(SSH_PORT),,22
VBoxManage modifyvm $(VB_VM_NAME) --nic2 natnetwork --nat-network2 natnet2 --cableconnected2 on
VBoxManage startvm $(VB_VM_NAME)
run-live-parallels:
@[ -d "$(LIVE).parallels" ] || { echo "Please run: make live-parallels"; exit 1; }
@prlctl list -a | grep $(PARALLELS_VM_NAME) | grep "invalid" >/dev/null && prlctl unregister $(PARALLELS_VM_NAME) || echo "No invalid $(PARALLELS_VM_NAME) VM"
@if prlctl list --all | grep "$(PARALLELS_VM_NAME)"; then \
prlctl stop $(PARALLELS_VM_NAME) --kill; \
prlctl set $(PARALLELS_VM_NAME) --device-set hdd0 --image $(LIVE).parallels --nested-virt on --adaptive-hypervisor on --hypervisor-type parallels --cpus $(PARALLELS_CPUS) --memsize $(PARALLELS_MEMORY); \
else \
prlctl create $(PARALLELS_VM_NAME) --distribution ubuntu --no-hdd --dst $(DIST)/ ; \
prlctl set $(PARALLELS_VM_NAME) --device-add hdd --image $(LIVE).parallels --nested-virt on --adaptive-hypervisor on --hypervisor-type parallels --cpus $(PARALLELS_CPUS) --memsize $(PARALLELS_MEMORY); \
prlctl set $(PARALLELS_VM_NAME) --device-del net0 ; \
prlctl set $(PARALLELS_VM_NAME) --device-add net --type shared --adapter-type virtio --ipadd 192.168.1.0/24 --dhcp yes ; \
prlctl set $(PARALLELS_VM_NAME) --device-add net --type shared --adapter-type virtio --ipadd 192.168.2.0/24 --dhcp yes ; \
prlsrvctl net set Shared --nat-tcp-add ssh,$(SSH_PORT),$(PARALLELS_VM_NAME),22 ; \
prlctl start $(PARALLELS_VM_NAME) ; \
fi
# alternatively (and if you want greater control) you can replace the first command with
# gcloud auth activate-service-account --key-file=-
# gcloud compute images create $(CLOUD_IMG_NAME) --project=lf-edge-eve
# --source-uri=https://storage.googleapis.com/eve-live/live.img.tar.gz
# --licenses="https://www.googleapis.com/compute/v1/projects/vm-options/global/licenses/enable-vmx"
run-live-gcp: $(LINUXKIT)
if gcloud compute images list -$(CLOUD_PROJECT) --filter="name=$(CLOUD_IMG_NAME)" 2>&1 | grep -q 'Listed 0 items'; then \
$^ push gcp -nested-virt -img-name $(CLOUD_IMG_NAME) $(CLOUD_PROJECT) $(CLOUD_BUCKET) $(LIVE).img.tar.gz ;\
fi
$^ run gcp $(CLOUD_PROJECT) $(CLOUD_INSTANCE) $(CLOUD_IMG_NAME)
live-gcp-upload: $(LINUXKIT)
if gcloud compute images list -$(CLOUD_PROJECT) --filter="name=$(CLOUD_IMG_NAME)" 2>&1 | grep -q 'Listed 0 items'; then \
$^ push gcp -nested-virt -img-name $(CLOUD_IMG_NAME) $(CLOUD_PROJECT) $(CLOUD_BUCKET) $(LIVE).img.tar.gz ;\
echo "Uploaded $(CLOUD_IMG_NAME)"; \
else \
echo "Image $(CLOUD_IMG_NAME) already exists in GCP" ;\
fi
# ensure the dist directory exists
$(DIST) $(BUILD_DIR) $(INSTALLER_FIRMWARE_DIR):
mkdir -p $@
# ensure the installer dir exists, and save the version in the directory
# we need to save the version including hypervisor and architecture
$(INSTALLER):
@mkdir -p $@
@cp -r pkg/eve/installer/* $@
# sample output 0.0.0-HEAD-a437e8e4-xen-amd64
@echo $(FULL_VERSION) > $(VERSION_FILE)
$(NETBOOT):
@mkdir -p $@
# convenience targets - so you can do `make config` instead of `make dist/config.img`, and `make installer` instead of `make dist/amd64/installer.img
linuxkit: $(LINUXKIT)
build-vm: $(BUILD_VM)
initrd: $(INITRD_IMG)
config: $(CONFIG_IMG) ; $(QUIET): "$@: Succeeded, CONFIG_IMG=$(CONFIG_IMG)"
ssh-key: $(SSH_KEY)
rootfs: $(ROOTFS_TAR) $(ROOTFS_IMG) current
rootfs.tar: $(ROOTFS_TAR)
rootfstar: $(ROOTFS_TAR)
sbom: $(SBOM)
live: $(LIVE_IMG) $(BIOS_IMG) current ; $(QUIET): "$@: Succeeded, LIVE_IMG=$(LIVE_IMG)"
live-%: $(LIVE).% ; $(QUIET): "$@: Succeeded, LIVE=$(LIVE)"
installer: $(INSTALLER).raw current
installer.tar: $(INSTALLER_TAR)
installertar: $(INSTALLER_TAR)
installer-img: $(INSTALLER_IMG)
installer-%: $(INSTALLER).% current ; @echo "$@: Succeeded, INSTALLER_IMG=$<"
collected_sources: $(COLLECTED_SOURCES)
gosources: $(GOSOURCES)
$(SSH_KEY):
rm -f $@*
ssh-keygen -P "" -f $@
mv [email protected] $(CONF_DIR)/authorized_keys
$(CONFIG_IMG): $(CONF_FILES) | $(INSTALLER)
./tools/makeconfig.sh $@ "$(ROOTFS_VERSION)" $(CONF_FILES)
$(QUIET): $@: Succeeded
$(PERSIST_IMG): | $(INSTALLER)
# 1M of zeroes should be enough to trigger filesystem wipe on first boot
dd if=/dev/zero bs=1048576 count=1 >> $@
$(QUIET): $@: Succeeded
$(ROOTFS)-%.img: $(ROOTFS_IMG)
@rm -f $@ && ln -s $(notdir $<) $@
$(QUIET): $@: Succeeded
$(ROOTFS_TAR): images/out/rootfs-$(HV)-$(PLATFORM).yml | $(INSTALLER)
$(QUIET): $@: Begin
./tools/makerootfs.sh tar $(UPDATE_TAR) -y $< -t $@ -d $(INSTALLER) -a $(ZARCH)
$(QUIET): $@: Succeeded
ifdef KERNEL_IMAGE
# Consider this as a cry from the heart: enormous amount of time is
# wasted during kernel rebuild on every small testing change. Now any
# kernel image can be used by providing path to a file. You heard it
# right: path-to-a-file. No docker. Yay!
$(eval KIMAGE = $$(realpath $(KERNEL_IMAGE)))
@echo "Replace kernel image in \"$@\" with \"$(KIMAGE)\""
# Delete /boot/kernel kernel image
tar --delete -f "$@" boot/kernel
# Append new kernel image and rename
tar -P -u --transform="flags=r;s|$(KIMAGE)|/boot/kernel|" -f "$@" "$(KIMAGE)"
endif
$(INSTALLER_TAR): images/out/installer-$(HV)-$(PLATFORM).yml $(ROOTFS_IMG) $(PERSIST_IMG) $(CONFIG_IMG) | $(INSTALLER)
$(QUIET): $@: Begin
./tools/makerootfs.sh tar $(UPDATE_TAR) -y $< -t $@ -d $(INSTALLER) -a $(ZARCH)
$(QUIET): $@: Succeeded
ifdef LIVE_UPDATE
# Don't regenerate the whole image if tar was changed, but
# do generate if does not exist. qcow2 target will handle
# the rest
$(ROOTFS_IMG): | $(ROOTFS_TAR) $(INSTALLER)
else
$(ROOTFS_IMG): $(ROOTFS_TAR) | $(INSTALLER)
endif
$(QUIET): $@: Begin
./tools/makerootfs.sh imagefromtar -t $(ROOTFS_TAR) -i $@ -f $(ROOTFS_FORMAT) -a $(ZARCH)
@echo "size of $@ is $$(wc -c < "$@")B"
ifeq ($(ROOTFS_FORMAT),squash)
@[ $$(wc -c < "$@") -gt $$(( $(ROOTFS_MAXSIZE_MB) * 1024 * 1024 )) ] && \
echo "ERROR: size of $@ is greater than $(ROOTFS_MAXSIZE_MB)MB (bigger than allocated partition)" && exit 1 || :
endif
$(QUIET): $@: Succeeded
$(GET_DEPS):
$(MAKE) -C $(GET_DEPS_DIR) GOOS=$(LOCAL_GOOS)
sbom_info:
@echo "$(SBOM)"
collected_sources_info:
@echo "$(COLLECTED_SOURCES)"
$(SBOM): $(ROOTFS_TAR) | $(INSTALLER)
$(QUIET): $@: Begin
$(eval TMP_ROOTDIR := $(shell mktemp -d))
# this is a bit of a hack, but we need to extract the rootfs tar to a directory, and it fails if
# we try to extract character devices, block devices or pipes, so we just exclude the dir.
# when syft supports reading straight from a tar archive with duplicate entries,
# this all can go away, and we can read the rootfs.tar
# see https://github.com/anchore/syft/issues/1400
#
# the ROOTFS_TAR includes extended PAX headers, which GNU tar does not support.
# It does not break, but logs two lines of warnings for each file, which is a lot.
# For BSD tar, no need to do anything; for GNU tar, need to add `--warning=no-unknown-keyword`
$(eval TAR_OPTS = $(shell tar --version | grep -qi 'GNU tar' && echo --warning=no-unknown-keyword || echo))
tar $(TAR_OPTS) -xf $< -C $(TMP_ROOTDIR) --exclude "dev/*"
docker run -v $(TMP_ROOTDIR):/rootdir:ro -v $(CURDIR)/.syft.yaml:/syft.yaml:ro $(SYFT_IMAGE) -c /syft.yaml --base-path /rootdir /rootdir > $@
rm -rf $(TMP_ROOTDIR)
$(QUIET): $@: Succeeded
$(GOSOURCES):
$(QUIET): $@: Begin
$(shell GOBIN=$(BUILDTOOLS_BIN) GO111MODULE=on CGO_ENABLED=0 go install $(GOSOURCES_SOURCE)@$(GOSOURCES_VERSION))
@echo Done building packages
$(QUIET): $@: Succeeded
# ensure the installer dir exists, and save the version in the directory
$(SOURCES_DIR):
@mkdir -p $@
$(COLLECTED_SOURCES): $(ROOTFS_TAR) $(GOSOURCES)| $(INSTALLER) $(SOURCES_DIR)
$(QUIET): $@: Begin
bash tools/collect-sources.sh $< $(CURDIR) $@
$(QUIET): $@: Succeeded
$(COMPARESOURCES):
$(QUIET): $@: Begin
cd $(COMPARE_SOURCE) && GOOS=$(LOCAL_GOOS) CGO_ENABLED=0 go build -o $(COMPARESOURCES)
@echo Done building packages
$(QUIET): $@: Succeeded
compare_sbom_collected_sources: $(COLLECTED_SOURCES) $(SBOM) | $(COMPARESOURCES)
$(QUIET): $@: Begin
$(COMPARESOURCES) $(COLLECTED_SOURCES):./collected_sources_manifest.csv $(SBOM)
@echo Done comparing the sbom and collected sources manifest file
$(QUIET): $@: Succeeded
publish_sources: $(COLLECTED_SOURCES)
$(QUIET): $@: Begin
cp pkg/sources/* $(SOURCES_DIR)
$(LINUXKIT) $(DASH_V) pkg $(LINUXKIT_PKG_TARGET) --platforms linux/$(ZARCH) --hash-path $(CURDIR) --hash $(ROOTFS_VERSION)-$(HV) --docker $(if $(strip $(EVE_REL)),--release) $(EVE_REL)$(if $(strip $(EVE_REL)),-$(HV)) $(SOURCES_DIR) $|
$(QUIET)if [ -n "$(EVE_REL)" ] && [ $(HV) = $(HV_DEFAULT) ]; then \
$(LINUXKIT) $(DASH_V) pkg $(LINUXKIT_PKG_TARGET) --platforms linux/$(ZARCH) --hash-path $(CURDIR) --hash $(EVE_REL)-$(HV) --docker --release $(EVE_REL) $(SOURCES_DIR) $| ;\
fi
$(QUIET): $@: Succeeded
$(LIVE).raw: $(BOOT_PART) $(EFI_PART) $(ROOTFS_IMG) $(CONFIG_IMG) $(PERSIST_IMG) $(BSP_IMX_PART) | $(INSTALLER)
./tools/prepare-platform.sh "$(PLATFORM)" "$(BUILD_DIR)" "$(INSTALLER)" || :
./tools/makeflash.sh "mkimage-raw-efi" -C $| $@ $(LIVE_PART_SPEC)
$(QUIET): $@: Succeeded
$(INSTALLER_IMG): $(INSTALLER_TAR) | $(INSTALLER)
$(QUIET): $@: Begin
./tools/makerootfs.sh imagefromtar -t $(INSTALLER_TAR) -i $@ -f $(ROOTFS_FORMAT) -a $(ZARCH)
$(QUIET): $@: Succeeded
$(INSTALLER).raw: $(INSTALLER_IMG) $(EFI_PART) $(BOOT_PART) $(CONFIG_IMG) $(BSP_IMX_PART) | $(INSTALLER)
./tools/prepare-platform.sh "$(PLATFORM)" "$(BUILD_DIR)" "$(INSTALLER)" || :
./tools/makeflash.sh "mkimage-raw-efi" -C $| $@ "efi conf_win installer inventory_win"
$(QUIET): $@: Succeeded
$(INSTALLER).iso: $(INSTALLER_TAR) $(BSP_IMX_PART) | $(INSTALLER)
./tools/makeiso.sh $< $@ installer
$(QUIET): $@: Succeeded
$(INSTALLER).net: $(INSTALLER).iso $(EFI_PART) $(INITRD_IMG) $(CONFIG_IMG) | $(INSTALLER)
./tools/makenet.sh $| $< $@
$(QUIET): $@: Succeeded
$(LIVE).vdi: $(LIVE).raw
qemu-img resize -f raw $< ${MEDIA_SIZE}M
qemu-img convert -O vdi $< $@
$(LIVE).parallels: $(LIVE).raw
rm -rf $@; mkdir $@
qemu-img resize -f raw $< ${MEDIA_SIZE}M
qemu-img convert -O parallels $< $@/live.0.$(PARALLELS_UUID).hds
qemu-img info -f parallels --output json $(LIVE).parallels/live.0.$(PARALLELS_UUID).hds | jq --raw-output '.["virtual-size"]' | xargs ./tools/parallels_disk.sh $(LIVE) $(PARALLELS_UUID)
# top-level linuxkit packages targets, note the one enforcing ordering between packages
pkgs: RESCAN_DEPS=
pkgs: build-tools $(PKGS)
@echo Done building packages
# No-op target for get-deps which looks at
# external-boot-image and sees a dep for eve-kernel
# and attempts to build pkg/kernel, which is in
# lf-edge/eve-kernel and not built here.
pkg/kernel:
$(QUIET): $@: No-op pkg/kernel
pkg/external-boot-image/build.yml: pkg/external-boot-image/build.yml.in
$(QUIET)tools/compose-external-boot-image-yml.sh $< $@ $(shell echo ${KERNEL_TAG} | cut -d':' -f2) $(shell $(LINUXKIT) pkg show-tag pkg/xen-tools | cut -d':' -f2)
eve-external-boot-image: pkg/external-boot-image/build.yml
pkg/kube/external-boot-image.tar: pkg/external-boot-image
$(MAKE) cache-export IMAGE=$(shell $(LINUXKIT) pkg show-tag pkg/external-boot-image) OUTFILE=pkg/kube/external-boot-image.tar
rm -f pkg/external-boot-image/build.yml
pkg/kube: pkg/kube/external-boot-image.tar eve-kube
$(QUIET): $@: Succeeded
pkg/pillar: pkg/dnsmasq pkg/gpt-tools pkg/dom0-ztools eve-pillar
$(QUIET): $@: Succeeded
pkg/xen-tools: pkg/uefi eve-xen-tools
$(QUIET): $@: Succeeded
pkg/%: eve-% FORCE
$(QUIET): $@: Succeeded
$(RUNME) $(BUILD_YML):
cp pkg/eve/$(@F) $@
EVE_ARTIFACTS=$(BIOS_IMG) $(EFI_PART) $(CONFIG_IMG) $(PERSIST_IMG) $(INITRD_IMG) $(ROOTFS_IMG) $(INSTALLER_IMG) $(SBOM) $(BSP_IMX_PART) fullname-rootfs $(BOOT_PART)
eve: $(INSTALLER) $(EVE_ARTIFACTS) current $(RUNME) $(BUILD_YML) | $(BUILD_DIR)
$(QUIET): "$@: Begin: EVE_REL=$(EVE_REL), HV=$(HV), LINUXKIT_PKG_TARGET=$(LINUXKIT_PKG_TARGET)"
cp images/out/*.yml $|
$(PARSE_PKGS) pkg/eve/Dockerfile.in > $|/Dockerfile
$(LINUXKIT) $(DASH_V) pkg $(LINUXKIT_PKG_TARGET) --platforms linux/$(ZARCH) --hash-path $(CURDIR) --hash $(ROOTFS_VERSION)-$(HV) --docker $(if $(strip $(EVE_REL)),--release) $(EVE_REL)$(if $(strip $(EVE_REL)),-$(HV)) $(FORCE_BUILD) $|
$(QUIET)if [ -n "$(EVE_REL)" ] && [ $(HV) = $(HV_DEFAULT) ]; then \
$(LINUXKIT) $(DASH_V) pkg $(LINUXKIT_PKG_TARGET) --platforms linux/$(ZARCH) --hash-path $(CURDIR) --hash $(EVE_REL)-$(HV) --docker --release $(EVE_REL) $(FORCE_BUILD) $| ;\
fi
$(QUIET): $@: Succeeded
.PHONY: image-set outfile-set cache-export cache-export-docker-load cache-export-docker-load-all
image-set:
ifndef IMAGE
$(error IMAGE is not set)
endif
outfile-set:
ifndef OUTFILE
$(error OUTFILE is not set)
endif
## exports an image from the linuxkit cache to stdout
cache-export: image-set outfile-set $(LINUXKIT)
$(eval IMAGE_TAG_OPT := $(if $(IMAGE_NAME),--name $(IMAGE_NAME),))
$(LINUXKIT) $(DASH_V) cache export --format docker --arch $(ZARCH) --outfile $(OUTFILE) $(IMAGE_TAG_OPT) $(IMAGE)
## export an image from linuxkit cache and load it into docker.
cache-export-docker-load: $(LINUXKIT)
$(eval TARFILE := $(shell mktemp))
$(MAKE) cache-export OUTFILE=${TARFILE} && cat ${TARFILE} | docker load
rm -rf ${TARFILE}
%-cache-export-docker-load: $(LINUXKIT)
$(eval IMAGE_TAG := $(shell $(MAKE) $*-show-tag))
$(eval CACHE_CONTENT := $(shell $(LINUXKIT) cache ls 2>&1))
$(if $(filter $(IMAGE_TAG),$(CACHE_CONTENT)),$(MAKE) cache-export-docker-load IMAGE=$(IMAGE_TAG),@echo "Missing image $(IMAGE_TAG) in cache")
## export list of images in PKGS_DOCKER_LOAD from linuxkit cache and load them into docker
## will skip image if not found in cache
cache-export-docker-load-all: $(LINUXKIT) $(addsuffix -cache-export-docker-load,$(PKGS_DOCKER_LOAD))
proto-vendor:
@$(DOCKER_GO) "cd pkg/pillar ; go mod vendor" $(CURDIR) proto
bump-eve-api:
find . -type f -name "go.mod" -exec grep -q 'github.com/lf-edge/eve-api/go' {} \; -execdir go get -u github.com/lf-edge/eve-api/go \; -execdir go mod tidy \; -execdir go mod vendor \;
.PHONY: proto-api-%
rc-release:
./tools/rc-release.sh
lts-release:
./tools/lts-release.sh
release:
@bail() { echo "ERROR: $$@" ; exit 1 ; } ;\
X=`echo $(VERSION) | cut -s -d. -f1` ; Y=`echo $(VERSION) | cut -s -d. -f2` ; Z=`echo $(VERSION) | cut -s -d. -f3` ;\
if echo $$Z | grep -Eq '[0-9]+-lts'; then BRANCH=$$X.$$Y-stable; else BRANCH=$$X.$$Y; fi ;\
[ -z "$$X" -o -z "$$Y" -o -z "$$Z" ] && bail "VERSION missing (or incorrect). Re-run as: make VERSION=x.y.z $@" ;\
(git fetch && [ `git diff origin/master..master | wc -l` -eq 0 ]) || bail "origin/master is different from master" ;\
if git checkout $$BRANCH 2>/dev/null ; then \
echo "WARNING: branch $$BRANCH already exists: you may want to run make patch instead" ;\
git merge origin/master ;\
else \
git checkout master -b $$BRANCH && echo zedcloud.zededa.net > conf/server &&\
git commit -m"Setting default server to prod" conf/server ;\
fi || bail "Can't create $$BRANCH branch" ;\
git tag -a -m"Release $$X.$$Y.$$Z" $$X.$$Y.$$Z &&\
echo "Done tagging $$X.$$Y.$$Z release. Check the branch with git log and then run" &&\
echo " git push origin $$BRANCH $$X.$$Y.$$Z"
shell: $(GOBUILDER)
$(QUIET)DOCKER_GO_ARGS=-t ; $(DOCKER_GO) bash $(GOTREE) $(GOMODULE)
#
# Utility targets in support of our Dockerized build infrastrucutre
#
# check to make sure linuxkit version is correct
# if it does not exist, version is incorrect, or it cannot report `version --short`, download it
$(LINUXKIT): FORCE
$(eval ACTUAL_LINUXKIT_VERSION := $(strip $(shell $@ version --short 2>/dev/null || echo "unknown")))
$(if $(filter $(LINUXKIT_VERSION),$(ACTUAL_LINUXKIT_VERSION)),,$(QUIET) curl -L -o $@ $(LINUXKIT_SOURCE)/releases/download/$(LINUXKIT_VERSION)/linuxkit-$(LOCAL_GOOS)-$(HOSTARCH) && chmod +x $@)
$(QUIET): $@: Succeeded
$(GOBUILDER):
$(QUIET): "$@: Begin: GOBUILDER=$(GOBUILDER)"
ifneq ($(BUILD),local)
@echo "Creating go builder image for user $(USER)"
$(QUIET)docker build --build-arg GOVER=$(GOVER) --build-arg USER=$(USER) --build-arg GROUP=$(GROUP) \
--build-arg UID=$(UID) --build-arg GID=$(GID) \
$(DOCKER_HTTP_PROXY) $(DOCKER_HTTPS_PROXY) $(DOCKER_NO_PROXY) $(DOCKER_ALL_PROXY) \
-t $@ build-tools/src/scripts > /dev/null
@echo "$@ docker container is ready to use"
endif
$(QUIET): $@: Succeeded
#
# Common, generalized rules
#
%.gcp: %.raw | $(DIST)
cp $< $@
dd of=$@ bs=1 seek=$$(($(MEDIA_SIZE) * 1024 * 1024)) count=0
rm -f $(dir $@)/disk.raw ; ln -s $(notdir $@) $(dir $@)/disk.raw
$(DOCKER_GO) "tar --mode=644 --owner=root --group=root -S -h -czvf $(notdir $*).img.tar.gz disk.raw" $(dir $@) dist
rm -f $(dir $@)/disk.raw
$(QUIET): $(dir $@)/$(notdir $*).img.tar.gz: Succeeded
ifdef LIVE_UPDATE
# Target depends on rootfs tarbar directly, which gives possibility to
# detect when qcow2 should be updated with a tarball and when it should
# be recreated from scratch.
%.qcow2: %.raw $(ROOTFS_TAR) | $(DIST)
# Detect if the first %.raw ($<) prerequisite is in the "$?" list,
# which means qcow has to be fully recreated. If not - just update
# with the existing tar.
$(eval RECREATE := $(if $(filter $<,$?),1,0))
# Convert raw to qcow or update rootfs with all files from tar:
# guestfish one line magic.
$(QUIET)if [ "$(RECREATE)" = "1" ]; then \
echo "Recreate $@:"; \
echo " qemu-img convert ..."; \
qemu-img convert -c -f raw -O qcow2 $< $@; \
echo " qemu-img resize ..."; \
qemu-img resize $@ ${MEDIA_SIZE}M; \
else \
echo "Update $@ with generated tarball:"; \
echo " guestfish ..."; \
guestfish -a $@ run : mount /dev/sda2 / : tar-in $(ROOTFS_TAR) /; \
fi
$(QUIET): $@: Succeeded
else
%.qcow2: %.raw | $(DIST)
qemu-img convert -c -f raw -O qcow2 $< $@
qemu-img resize $@ ${MEDIA_SIZE}M
$(QUIET): $@: Succeeded
endif