#!/usr/bin/env nix-shell #!nix-shell -p awscli -p jq -p qemu -i bash # shellcheck shell=bash # # Future Deprecation? # This entire thing should probably be replaced with a generic terraform config # Uploads and registers NixOS images built from the # amazonImage attribute. Images are uploaded and # registered via a home region, and then copied to other regions. # The home region requires an s3 bucket, and an IAM role named "vmimport" # (by default) with access to the S3 bucket. The name can be # configured with the "service_role_name" variable. Configuration of the # vmimport role is documented in # https://docs.aws.amazon.com/vm-import/latest/userguide/vmimport-image-import.html # set -x set -euo pipefail var () { true; } # configuration var ${state_dir:=$HOME/amis/ec2-images} var ${home_region:=eu-west-1} var ${bucket:=nixos-amis} var ${service_role_name:=vmimport} var ${regions:=eu-west-1 eu-west-2 eu-west-3 eu-central-1 eu-north-1 us-east-1 us-east-2 us-west-1 us-west-2 ca-central-1 ap-southeast-1 ap-southeast-2 ap-northeast-1 ap-northeast-2 ap-south-1 ap-east-1 sa-east-1} regions=($regions) log() { echo "$@" >&2 } if [ "$#" -ne 1 ]; then log "Usage: ./upload-amazon-image.sh IMAGE_OUTPUT" exit 1 fi # result of the amazon-image from nixos/release.nix store_path=$1 if [ ! -e "$store_path" ]; then log "Store path: $store_path does not exist, fetching..." nix-store --realise "$store_path" fi if [ ! -d "$store_path" ]; then log "store_path: $store_path is not a directory. aborting" exit 1 fi read_image_info() { if [ ! -e "$store_path/nix-support/image-info.json" ]; then log "Image missing metadata" exit 1 fi jq -r "$1" "$store_path/nix-support/image-info.json" } # We handle a single image per invocation, store all attributes in # globals for convenience. zfs_disks=$(read_image_info .disks) is_zfs_image= if jq -e .boot <<< "$zfs_disks"; then is_zfs_image=1 zfs_boot=".disks.boot" fi image_label="$(read_image_info .label)${is_zfs_image:+-ZFS}" image_system=$(read_image_info .system) image_files=( $(read_image_info ".disks.root.file") ) image_logical_bytes=$(read_image_info "${zfs_boot:-.disks.root}.logical_bytes") if [[ -n "$is_zfs_image" ]]; then image_files+=( $(read_image_info .disks.boot.file) ) fi # Derived attributes image_logical_gigabytes=$(((image_logical_bytes-1)/1024/1024/1024+1)) # Round to the next GB case "$image_system" in aarch64-linux) amazon_arch=arm64 ;; x86_64-linux) amazon_arch=x86_64 ;; *) log "Unknown system: $image_system" exit 1 esac image_name="NixOS-${image_label}-${image_system}" image_description="NixOS ${image_label} ${image_system}" log "Image Details:" log " Name: $image_name" log " Description: $image_description" log " Size (gigabytes): $image_logical_gigabytes" log " System: $image_system" log " Amazon Arch: $amazon_arch" read_state() { local state_key=$1 local type=$2 cat "$state_dir/$state_key.$type" 2>/dev/null || true } write_state() { local state_key=$1 local type=$2 local val=$3 mkdir -p "$state_dir" echo "$val" > "$state_dir/$state_key.$type" } wait_for_import() { local region=$1 local task_id=$2 local state snapshot_id log "Waiting for import task $task_id to be completed" while true; do read -r state message snapshot_id < <( aws ec2 describe-import-snapshot-tasks --region "$region" --import-task-ids "$task_id" | \ jq -r '.ImportSnapshotTasks[].SnapshotTaskDetail | "\(.Status) \(.StatusMessage) \(.SnapshotId)"' ) log " ... state=$state message=$message snapshot_id=$snapshot_id" case "$state" in active) sleep 10 ;; completed) echo "$snapshot_id" return ;; *) log "Unexpected snapshot import state: '${state}'" log "Full response: " aws ec2 describe-import-snapshot-tasks --region "$region" --import-task-ids "$task_id" >&2 exit 1 ;; esac done } wait_for_image() { local region=$1 local ami_id=$2 local state log "Waiting for image $ami_id to be available" while true; do read -r state < <( aws ec2 describe-images --image-ids "$ami_id" --region "$region" | \ jq -r ".Images[].State" ) log " ... state=$state" case "$state" in pending) sleep 10 ;; available) return ;; *) log "Unexpected AMI state: '${state}'" exit 1 ;; esac done } make_image_public() { local region=$1 local ami_id=$2 wait_for_image "$region" "$ami_id" log "Making image $ami_id public" aws ec2 modify-image-attribute \ --image-id "$ami_id" --region "$region" --launch-permission 'Add={Group=all}' >&2 } upload_image() { local region=$1 for image_file in "${image_files[@]}"; do local aws_path=${image_file#/} if [[ -n "$is_zfs_image" ]]; then local suffix=${image_file%.*} suffix=${suffix##*.} fi local state_key="$region.$image_label${suffix:+.${suffix}}.$image_system" local task_id task_id=$(read_state "$state_key" task_id) local snapshot_id snapshot_id=$(read_state "$state_key" snapshot_id) local ami_id ami_id=$(read_state "$state_key" ami_id) if [ -z "$task_id" ]; then log "Checking for image on S3" if ! aws s3 ls --region "$region" "s3://${bucket}/${aws_path}" >&2; then log "Image missing from aws, uploading" aws s3 cp --region "$region" "$image_file" "s3://${bucket}/${aws_path}" >&2 fi log "Importing image from S3 path s3://$bucket/$aws_path" task_id=$(aws ec2 import-snapshot --role-name "$service_role_name" --disk-container "{ \"Description\": \"nixos-image-${image_label}-${image_system}\", \"Format\": \"vhd\", \"UserBucket\": { \"S3Bucket\": \"$bucket\", \"S3Key\": \"$aws_path\" } }" --region "$region" | jq -r '.ImportTaskId') write_state "$state_key" task_id "$task_id" fi if [ -z "$snapshot_id" ]; then snapshot_id=$(wait_for_import "$region" "$task_id") write_state "$state_key" snapshot_id "$snapshot_id" fi done if [ -z "$ami_id" ]; then log "Registering snapshot $snapshot_id as AMI" local block_device_mappings=( "DeviceName=/dev/xvda,Ebs={SnapshotId=$snapshot_id,VolumeSize=$image_logical_gigabytes,DeleteOnTermination=true,VolumeType=gp3}" ) if [[ -n "$is_zfs_image" ]]; then local root_snapshot_id=$(read_state "$region.$image_label.root.$image_system" snapshot_id) local root_image_logical_bytes=$(read_image_info ".disks.root.logical_bytes") local root_image_logical_gigabytes=$(((root_image_logical_bytes-1)/1024/1024/1024+1)) # Round to the next GB block_device_mappings+=( "DeviceName=/dev/xvdb,Ebs={SnapshotId=$root_snapshot_id,VolumeSize=$root_image_logical_gigabytes,DeleteOnTermination=true,VolumeType=gp3}" ) fi local extra_flags=( --root-device-name /dev/xvda --sriov-net-support simple --ena-support --virtualization-type hvm ) block_device_mappings+=("DeviceName=/dev/sdb,VirtualName=ephemeral0") block_device_mappings+=("DeviceName=/dev/sdc,VirtualName=ephemeral1") block_device_mappings+=("DeviceName=/dev/sdd,VirtualName=ephemeral2") block_device_mappings+=("DeviceName=/dev/sde,VirtualName=ephemeral3") ami_id=$( aws ec2 register-image \ --name "$image_name" \ --description "$image_description" \ --region "$region" \ --architecture $amazon_arch \ --block-device-mappings "${block_device_mappings[@]}" \ --boot-mode $(read_image_info .boot_mode) \ "${extra_flags[@]}" \ | jq -r '.ImageId' ) write_state "$state_key" ami_id "$ami_id" fi [[ -v PRIVATE ]] || make_image_public "$region" "$ami_id" echo "$ami_id" } copy_to_region() { local region=$1 local from_region=$2 local from_ami_id=$3 state_key="$region.$image_label.$image_system" ami_id=$(read_state "$state_key" ami_id) if [ -z "$ami_id" ]; then log "Copying $from_ami_id to $region" ami_id=$( aws ec2 copy-image \ --region "$region" \ --source-region "$from_region" \ --source-image-id "$from_ami_id" \ --name "$image_name" \ --description "$image_description" \ | jq -r '.ImageId' ) write_state "$state_key" ami_id "$ami_id" fi [[ -v PRIVATE ]] || make_image_public "$region" "$ami_id" echo "$ami_id" } upload_all() { home_image_id=$(upload_image "$home_region") jq -n \ --arg key "$home_region.$image_system" \ --arg value "$home_image_id" \ '$ARGS.named' for region in "${regions[@]}"; do if [ "$region" = "$home_region" ]; then continue fi copied_image_id=$(copy_to_region "$region" "$home_region" "$home_image_id") jq -n \ --arg key "$region.$image_system" \ --arg value "$copied_image_id" \ '$ARGS.named' done } upload_all | jq --slurp from_entries