Merge pull request #4593 from fidencio/2.4.3-branch-bump

# Kata Containers 2.4.3
release: Kata Containers 2.4.3
2026-03-01 02:02:11 +00:00 · 2022-07-05 15:04:34 -07:00 · 2022-07-05 22:26:52 +02:00 · 2022-07-05 22:26:52 +02:00 · 2022-07-01 11:28:35 -05:00 · 2022-06-30 21:55:13 +02:00
2667 changed files with 40707 additions and 500015 deletions
--- a/.github/cargo-deny-composite-action/cargo-deny-generator.sh
+++ b/.github/cargo-deny-composite-action/cargo-deny-generator.sh
@@ -1,40 +0,0 @@
-#!/bin/bash
-#
-# Copyright (c) 2022 Red Hat
-#
-# SPDX-License-Identifier: Apache-2.0
-#
-
-script_dir=$(dirname "$(readlink -f "$0")")
-parent_dir=$(realpath "${script_dir}/../..")
-cidir="${parent_dir}/ci"
-source "${cidir}/lib.sh"
-
-cargo_deny_file="${script_dir}/action.yaml"
-
-cat cargo-deny-skeleton.yaml.in > "${cargo_deny_file}"
-
-changed_files_status=$(run_get_pr_changed_file_details)
-changed_files_status=$(echo "$changed_files_status" | grep "Cargo\.toml$" || true)
-changed_files=$(echo "$changed_files_status" | awk '{print $NF}' || true)
-
-if [ -z "$changed_files" ]; then
-  cat >> "${cargo_deny_file}" << EOF
-    - run: echo "No Cargo.toml files to check"
-      shell: bash
-EOF
-fi
-
-for path in $changed_files
-do
-    cat >> "${cargo_deny_file}" << EOF
-
-    - name: ${path}
-      continue-on-error: true
-      shell: bash
-      run: |
-        pushd $(dirname ${path})
-        cargo deny check
-        popd
-EOF
-done
--- a/.github/cargo-deny-composite-action/cargo-deny-skeleton.yaml.in
+++ b/.github/cargo-deny-composite-action/cargo-deny-skeleton.yaml.in
@@ -1,30 +0,0 @@
-#
-# Copyright (c) 2022 Red Hat
-#
-# SPDX-License-Identifier: Apache-2.0
-#
-
-name: 'Cargo Crates Check'
-description: 'Checks every Cargo.toml file using cargo-deny'
-
-env:
-  CARGO_TERM_COLOR: always
-
-runs:
-  using: "composite"
-  steps:
-    - name: Install Rust
-      uses: actions-rs/toolchain@v1
-      with:
-        profile: minimal
-        toolchain: nightly 
-        override: true
-
-    - name: Cache
-      uses: Swatinem/rust-cache@v2
-
-    - name: Install Cargo deny
-      shell: bash
-      run: |
-        which cargo
-        cargo install --locked cargo-deny || true
--- a/.github/workflows/add-backport-label.yaml
+++ b/.github/workflows/add-backport-label.yaml
@@ -1,100 +0,0 @@
-name: Add backport label
-
-on:
-  pull_request:
-    types:
-      - opened
-      - synchronize
-      - reopened
-      - edited
-      - labeled
-      - unlabeled
-
-jobs:
-  check-issues:
-    if: ${{ github.event.label.name != 'auto-backport' }}
-    runs-on: ubuntu-latest
-    steps:
-      - name: Checkout code to allow hub to communicate with the project
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        uses: actions/checkout@v3
-
-      - name: Install hub extension script
-        run: |
-          pushd $(mktemp -d) &>/dev/null
-          git clone --single-branch --depth 1 "https://github.com/kata-containers/.github" && cd .github/scripts
-          sudo install hub-util.sh /usr/local/bin
-          popd &>/dev/null
-
-      - name: Determine whether to add label 
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        env:
-          GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
-          CONTAINS_AUTO_BACKPORT: ${{ contains(github.event.pull_request.labels.*.name, 'auto-backport') }}
-        id: add_label
-        run: |
-          pr=${{ github.event.pull_request.number }}
-          linked_issue_urls=$(hub-util.sh \
-            list-issues-for-pr "$pr" |\
-            grep -v "^\#"  |\
-            cut -d';' -f3 || true)
-          [ -z "$linked_issue_urls" ] && {
-            echo "::error::No linked issues for PR $pr"
-            exit 1
-          }
-          has_bug=false
-          for issue_url in $(echo "$linked_issue_urls")
-          do
-            issue=$(echo "$issue_url"| awk -F\/ '{print $NF}' || true)
-            [ -z "$issue" ] && {
-              echo "::error::Cannot determine issue number from $issue_url for PR $pr"
-              exit 1
-            }
-            labels=$(hub-util.sh list-labels-for-issue "$issue")
-            
-            label_names=$(echo $labels | jq -r '.[].name' || true)
-            if [[ "$label_names" =~ "bug" ]]; then
-              has_bug=true
-              break
-            fi
-          done
-
-          has_backport_needed_label=${{ contains(github.event.pull_request.labels.*.name, 'needs-backport') }}
-          has_no_backport_needed_label=${{ contains(github.event.pull_request.labels.*.name, 'no-backport-needed') }}
-
-          echo "add_backport_label=false" >> $GITHUB_OUTPUT
-          if [ $has_backport_needed_label  = true ] || [ $has_bug  = true ]; then
-            if [[ $has_no_backport_needed_label = false ]]; then
-              echo "add_backport_label=true" >> $GITHUB_OUTPUT
-            fi
-          fi
-
-          # Do not spam comment, only if auto-backport label is going to be newly added.
-          echo "auto_backport_added=$CONTAINS_AUTO_BACKPORT" >> $GITHUB_OUTPUT
-
-      - name: Add comment
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') && steps.add_label.outputs.add_backport_label == 'true' && steps.add_label.outputs.auto_backport_added == 'false' }}
-        uses: actions/github-script@v6
-        with:
-          script: |
-            github.rest.issues.createComment({
-              issue_number: context.issue.number,
-              owner: context.repo.owner,
-              repo: context.repo.repo,
-              body: 'This issue has been marked for auto-backporting. Add label(s) backport-to-BRANCHNAME to backport to them'
-            })
-
-      # Allow label to be removed by adding no-backport-needed label
-      - name: Remove auto-backport label
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') && steps.add_label.outputs.add_backport_label == 'false' }}
-        uses: andymckay/labeler@e6c4322d0397f3240f0e7e30a33b5c5df2d39e90
-        with:
-          remove-labels: "auto-backport"
-          repo-token: ${{ secrets.GITHUB_TOKEN }}
-
-      - name: Add auto-backport label
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') && steps.add_label.outputs.add_backport_label == 'true' }}
-        uses: andymckay/labeler@e6c4322d0397f3240f0e7e30a33b5c5df2d39e90
-        with:
-          add-labels: "auto-backport"
-          repo-token: ${{ secrets.GITHUB_TOKEN }}
--- a/.github/workflows/add-pr-sizing-label.yaml
+++ b/.github/workflows/add-pr-sizing-label.yaml
@@ -1,40 +0,0 @@
-# Copyright (c) 2022 Intel Corporation
-#
-# SPDX-License-Identifier: Apache-2.0
-#
-
-name: Add PR sizing label
-
-on:
-  pull_request_target:
-    types:
-      - opened
-      - reopened
-      - synchronize
-
-jobs:
-  add-pr-size-label:
-    runs-on: ubuntu-latest
-    steps:
-      - name: Checkout code
-        uses: actions/checkout@v1
-
-      - name: Install PR sizing label script
-        run: |
-          # Clone into a temporary directory to avoid overwriting
-          # any existing github directory.
-          pushd $(mktemp -d) &>/dev/null
-          git clone --single-branch --depth 1 "https://github.com/kata-containers/.github" && cd .github/scripts
-          sudo install pr-add-size-label.sh /usr/local/bin
-          popd &>/dev/null
-
-      - name: Add PR sizing label
-        env:
-          GITHUB_TOKEN: ${{ secrets.KATA_GITHUB_ACTIONS_PR_SIZE_TOKEN }}
-        run: |
-          pr=${{ github.event.number }}
-          # Removing man-db, workflow kept failing, fixes: #4480
-          sudo apt -y remove --purge man-db
-          sudo apt -y install diffstat patchutils
-
-          pr-add-size-label.sh -p "$pr"
--- a/.github/workflows/auto-backport.yaml
+++ b/.github/workflows/auto-backport.yaml
@@ -1,29 +0,0 @@
-on:
-  pull_request_target:
-    types: ["labeled", "closed"]
-
-jobs:
-  backport:
-    name: Backport PR
-    runs-on: ubuntu-latest
-    if: |
-      github.event.pull_request.merged == true
-      && contains(github.event.pull_request.labels.*.name, 'auto-backport')
-      && (
-        (github.event.action == 'labeled' && github.event.label.name == 'auto-backport')
-        || (github.event.action == 'closed')
-      )
-    steps:
-      - name: Backport Action
-        uses: sqren/backport-github-action@v8.9.2
-        with:
-          github_token: ${{ secrets.GITHUB_TOKEN }}
-          auto_backport_label_prefix: backport-to-
-
-      - name: Info log
-        if: ${{ success() }}
-        run: cat /home/runner/.backport/backport.info.log
-        
-      - name: Debug log
-        if: ${{ failure() }}
-        run: cat /home/runner/.backport/backport.debug.log
--- a/.github/workflows/build-kata-static-tarball-amd64.yaml
+++ b/.github/workflows/build-kata-static-tarball-amd64.yaml
@@ -1,94 +0,0 @@
-name: CI | Build kata-static tarball for amd64
-on:
-  workflow_call:
-    inputs:
-      tarball-suffix:
-        required: false
-        type: string
-      push-to-registry:
-        required: false
-        type: string
-        default: no
-
-jobs:
-  build-asset:
-    runs-on: ubuntu-latest
-    strategy:
-      matrix:
-        asset:
-          - cloud-hypervisor
-          - firecracker
-          - kernel
-          - kernel-sev
-          - kernel-dragonball-experimental
-          - kernel-tdx-experimental
-          - kernel-nvidia-gpu
-          - kernel-nvidia-gpu-snp
-          - kernel-nvidia-gpu-tdx-experimental
-          - nydus
-          - ovmf
-          - ovmf-sev
-          - qemu
-          - qemu-snp-experimental
-          - qemu-tdx-experimental
-          - rootfs-image
-          - rootfs-initrd
-          - rootfs-initrd-sev
-          - shim-v2
-          - tdvf
-          - virtiofsd
-    steps:
-      - name: Login to Kata Containers quay.io
-        if: ${{ inputs.push-to-registry == 'yes' }}
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-          fetch-depth: 0 # This is needed in order to keep the commit ids history
-
-      - name: Build ${{ matrix.asset }}
-        run: |
-          make "${KATA_ASSET}-tarball"
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-        env:
-          KATA_ASSET: ${{ matrix.asset }}
-          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
-          PUSH_TO_REGISTRY: ${{ inputs.push-to-registry }}
-
-      - name: store-artifact ${{ matrix.asset }}
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts-amd64${{ inputs.tarball-suffix }}
-          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  create-kata-tarball:
-    runs-on: ubuntu-latest
-    needs: build-asset
-    steps:
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-      - name: get-artifacts
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-artifacts-amd64${{ inputs.tarball-suffix }}
-          path: kata-artifacts
-      - name: merge-artifacts
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
-      - name: store-artifacts
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-static-tarball-amd64${{ inputs.tarball-suffix }}
-          path: kata-static.tar.xz
-          retention-days: 1
-          if-no-files-found: error
--- a/.github/workflows/build-kata-static-tarball-arm64.yaml
+++ b/.github/workflows/build-kata-static-tarball-arm64.yaml
@@ -1,90 +0,0 @@
-name: CI | Build kata-static tarball for arm64
-on:
-  workflow_call:
-    inputs:
-      tarball-suffix:
-        required: false
-        type: string
-      push-to-registry:
-        required: false
-        type: string
-        default: no
-
-jobs:
-  build-asset:
-    runs-on: arm64
-    strategy:
-      matrix:
-        asset:
-          - cloud-hypervisor
-          - firecracker
-          - kernel
-          - kernel-dragonball-experimental
-          - nydus
-          - qemu
-          - rootfs-image
-          - rootfs-initrd
-          - shim-v2
-          - virtiofsd
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - name: Login to Kata Containers quay.io
-        if: ${{ inputs.push-to-registry == 'yes' }}
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-          fetch-depth: 0 # This is needed in order to keep the commit ids history
-      - name: Build ${{ matrix.asset }}
-        run: |
-          make "${KATA_ASSET}-tarball"
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-        env:
-          KATA_ASSET: ${{ matrix.asset }}
-          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
-          PUSH_TO_REGISTRY: ${{ inputs.push-to-registry }}
-
-      - name: store-artifact ${{ matrix.asset }}
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts-arm64${{ inputs.tarball-suffix }}
-          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  create-kata-tarball:
-    runs-on: arm64
-    needs: build-asset
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-      - name: get-artifacts
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-artifacts-arm64${{ inputs.tarball-suffix }}
-          path: kata-artifacts
-      - name: merge-artifacts
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
-      - name: store-artifacts
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-static-tarball-arm64${{ inputs.tarball-suffix }}
-          path: kata-static.tar.xz
-          retention-days: 1
-          if-no-files-found: error
--- a/.github/workflows/build-kata-static-tarball-s390x.yaml
+++ b/.github/workflows/build-kata-static-tarball-s390x.yaml
@@ -1,87 +0,0 @@
-name: CI | Build kata-static tarball for s390x
-on:
-  workflow_call:
-    inputs:
-      tarball-suffix:
-        required: false
-        type: string
-      push-to-registry:
-        required: false
-        type: string
-        default: no
-
-jobs:
-  build-asset:
-    runs-on: s390x
-    strategy:
-      matrix:
-        asset:
-          - kernel
-          - qemu
-          - rootfs-image
-          - rootfs-initrd
-          - shim-v2
-          - virtiofsd
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - name: Login to Kata Containers quay.io
-        if: ${{ inputs.push-to-registry == 'yes' }}
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-          fetch-depth: 0 # This is needed in order to keep the commit ids history
-      - name: Build ${{ matrix.asset }}
-        run: |
-          make "${KATA_ASSET}-tarball"
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-          sudo chown -R $(id -u):$(id -g) "kata-build"
-        env:
-          KATA_ASSET: ${{ matrix.asset }}
-          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
-          PUSH_TO_REGISTRY: ${{ inputs.push-to-registry }}
-
-      - name: store-artifact ${{ matrix.asset }}
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts-s390x${{ inputs.tarball-suffix }}
-          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  create-kata-tarball:
-    runs-on: s390x
-    needs: build-asset
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-      - name: get-artifacts
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-artifacts-s390x${{ inputs.tarball-suffix }}
-          path: kata-artifacts
-      - name: merge-artifacts
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
-      - name: store-artifacts
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-static-tarball-s390x${{ inputs.tarball-suffix }}
-          path: kata-static.tar.xz
-          retention-days: 1
-          if-no-files-found: error
--- a/.github/workflows/cargo-deny-runner.yaml
+++ b/.github/workflows/cargo-deny-runner.yaml
@@ -1,26 +0,0 @@
-name: Cargo Crates Check Runner
-on:
-  pull_request:
-    types:
-      - opened
-      - edited
-      - reopened
-      - synchronize
-    paths-ignore: [ '**.md', '**.png', '**.jpg', '**.jpeg', '**.svg', '/docs/**' ]
-jobs:
-  cargo-deny-runner:
-    runs-on: ubuntu-latest
-
-    steps:
-      - name: Checkout Code
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        uses: actions/checkout@v3
-      - name: Generate Action
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        run: bash cargo-deny-generator.sh
-        working-directory: ./.github/cargo-deny-composite-action/
-        env:
-          GOPATH: ${{ runner.workspace }}/kata-containers
-      - name: Run Action
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        uses: ./.github/cargo-deny-composite-action
--- a/.github/workflows/cc-payload-after-push-amd64.yaml
+++ b/.github/workflows/cc-payload-after-push-amd64.yaml
@@ -1,161 +0,0 @@
-name: CI | Publish CC runtime payload for amd64
-on:
-  workflow_call:
-    inputs:
-      target-arch:
-        required: true
-        type: string
-
-jobs:
-  build-asset:
-    runs-on: ubuntu-latest
-    strategy:
-      matrix:
-        asset:
-          - cc-cloud-hypervisor
-          - cc-kernel
-          - cc-qemu
-          - cc-rootfs-image
-          - cc-virtiofsd
-          - cc-sev-kernel
-          - cc-sev-ovmf
-          - cc-x86_64-ovmf
-          - cc-snp-qemu
-          - cc-sev-rootfs-initrd
-          - cc-tdx-kernel
-          - cc-tdx-rootfs-image
-          - cc-tdx-qemu
-          - cc-tdx-td-shim
-          - cc-tdx-tdvf
-    steps:
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-        with:
-          fetch-depth: 0 # This is needed in order to keep the commit ids history
-      - name: Build ${{ matrix.asset }}
-        run: |
-          make "${KATA_ASSET}-tarball"
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-        env:
-          KATA_ASSET: ${{ matrix.asset }}
-          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
-          PUSH_TO_REGISTRY: yes
-
-      - name: store-artifact ${{ matrix.asset }}
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts
-          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-      - name: store-artifact root_hash_tdx.txt 
-        uses: actions/upload-artifact@v3
-        with:
-          name: root_hash_tdx.txt
-          path: tools/osbuilder/root_hash_tdx.txt
-          retention-days: 1
-          if-no-files-found: ignore
-
-      - name: store-artifact root_hash_vanilla.txt 
-        uses: actions/upload-artifact@v3
-        with:
-          name: root_hash_vanilla.txt
-          path: tools/osbuilder/root_hash_vanilla.txt
-          retention-days: 1
-          if-no-files-found: ignore
-
-  build-asset-cc-shim-v2:
-    runs-on: ubuntu-latest
-    needs: build-asset
-    steps:
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-
-      - name: Get root_hash_tdx.txt
-        uses: actions/download-artifact@v3
-        with:
-          name: root_hash_tdx.txt
-          path: tools/osbuilder/
-
-      - name: Get root_hash_vanilla.txt
-        uses: actions/download-artifact@v3
-        with:
-          name: root_hash_vanilla.txt
-          path: tools/osbuilder/
-
-      - name: Build cc-shim-v2
-        run: |
-          make cc-shim-v2-tarball
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-        env:
-          PUSH_TO_REGISTRY: yes
-
-      - name: store-artifact cc-shim-v2
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts
-          path: kata-build/kata-static-cc-shim-v2.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  create-kata-tarball:
-    runs-on: ubuntu-latest
-    needs: [build-asset, build-asset-cc-shim-v2]
-    steps:
-      - uses: actions/checkout@v3
-      - name: get-artifacts
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-artifacts
-          path: kata-artifacts
-      - name: merge-artifacts
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
-      - name: store-artifacts
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-static-tarball
-          path: kata-static.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  kata-payload:
-    needs: create-kata-tarball
-    runs-on: ubuntu-latest
-    steps:
-      - name: Login to Confidential Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.COCO_QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.COCO_QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball
-
-      - name: build-and-push-kata-payload
-        id: build-and-push-kata-payload
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-          $(pwd)/kata-static.tar.xz "quay.io/confidential-containers/runtime-payload-ci" \
-          "kata-containers-${{ inputs.target-arch }}"
--- a/.github/workflows/cc-payload-after-push-s390x.yaml
+++ b/.github/workflows/cc-payload-after-push-s390x.yaml
@@ -1,164 +0,0 @@
-name: CI | Publish CC runtime payload for s390x
-on:
-  workflow_call:
-    inputs:
-      target-arch:
-        required: true
-        type: string
-
-jobs:
-  build-asset:
-    runs-on: s390x
-    strategy:
-      matrix:
-        asset:
-          - cc-kernel
-          - cc-qemu
-          - cc-rootfs-image
-          - cc-rootfs-initrd
-          - cc-se-image
-          - cc-virtiofsd
-    steps:
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-        with:
-          fetch-depth: 0 # This is needed in order to keep the commit ids history
-
-      - name: Place a host key document
-        run: |
-          mkdir -p "host-key-document"
-          cp "${CI_HKD_PATH}" "host-key-document"
-        env:
-          CI_HKD_PATH: ${{ secrets.CI_HKD_PATH }}
-
-      - name: Build ${{ matrix.asset }}
-        run: |
-          make "${KATA_ASSET}-tarball"
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-          sudo chown -R $(id -u):$(id -g) "kata-build"
-        env:
-          KATA_ASSET: ${{ matrix.asset }}
-          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
-          PUSH_TO_REGISTRY: yes
-          HKD_PATH: "host-key-document"
-
-      - name: store-artifact ${{ matrix.asset }}
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts-s390x
-          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-      - name: store-artifact root_hash_vanilla.txt 
-        uses: actions/upload-artifact@v3
-        with:
-          name: root_hash_vanilla.txt-s390x
-          path: tools/osbuilder/root_hash_vanilla.txt
-          retention-days: 1
-          if-no-files-found: ignore
-
-  build-asset-cc-shim-v2:
-    runs-on: s390x
-    needs: build-asset
-    steps:
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-
-      - name: Get root_hash_vanilla.txt
-        uses: actions/download-artifact@v3
-        with:
-          name: root_hash_vanilla.txt-s390x
-          path: tools/osbuilder/
-
-      - name: Build cc-shim-v2
-        run: |
-          make cc-shim-v2-tarball
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-        env:
-          PUSH_TO_REGISTRY: yes
-
-      - name: store-artifact cc-shim-v2
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts-s390x
-          path: kata-build/kata-static-cc-shim-v2.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  create-kata-tarball:
-    runs-on: s390x
-    needs: [build-asset, build-asset-cc-shim-v2]
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-      - name: get-artifacts
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-artifacts-s390x
-          path: kata-artifacts
-      - name: merge-artifacts
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
-      - name: store-artifacts
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-static-tarball-s390x
-          path: kata-static.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  kata-payload:
-    needs: create-kata-tarball
-    runs-on: s390x
-    steps:
-      - name: Login to Confidential Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.COCO_QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.COCO_QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-s390x
-
-      - name: build-and-push-kata-payload
-        id: build-and-push-kata-payload
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-          $(pwd)/kata-static.tar.xz "quay.io/confidential-containers/runtime-payload-ci" \
-          "kata-containers-${{ inputs.target-arch }}"
--- a/.github/workflows/cc-payload-after-push.yaml
+++ b/.github/workflows/cc-payload-after-push.yaml
@@ -1,46 +0,0 @@
-name: CI | Publish Kata Containers payload for Confidential Containers
-on:
-  push:
-    branches:
-      - CCv0
-
-jobs:
-  build-assets-amd64:
-    uses: ./.github/workflows/cc-payload-after-push-amd64.yaml
-    with:
-      target-arch: amd64
-    secrets: inherit
-
-  build-assets-s390x:
-    uses: ./.github/workflows/cc-payload-after-push-s390x.yaml
-    with:
-      target-arch: s390x
-    secrets: inherit
-
-  publish:
-    runs-on: ubuntu-latest
-    needs: [build-assets-amd64, build-assets-s390x]
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v3
-
-      - name: Login to Confidential Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.COCO_QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.COCO_QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Push commit multi-arch manifest
-        run: |
-          docker manifest create quay.io/confidential-containers/runtime-payload-ci:kata-containers-${GITHUB_SHA} \
-          --amend quay.io/confidential-containers/runtime-payload-ci:kata-containers-${GITHUB_SHA}-amd64 \
-          --amend quay.io/confidential-containers/runtime-payload-ci:kata-containers-${GITHUB_SHA}-s390x
-          docker manifest push quay.io/confidential-containers/runtime-payload-ci:kata-containers-${GITHUB_SHA}
-
-      - name: Push latest multi-arch manifest
-        run: |
-          docker manifest create quay.io/confidential-containers/runtime-payload-ci:kata-containers-latest \
-          --amend quay.io/confidential-containers/runtime-payload-ci:kata-containers-amd64 \
-          --amend quay.io/confidential-containers/runtime-payload-ci:kata-containers-s390x
-          docker manifest push quay.io/confidential-containers/runtime-payload-ci:kata-containers-latest
--- a/.github/workflows/cc-payload-amd64.yaml
+++ b/.github/workflows/cc-payload-amd64.yaml
@@ -1,144 +0,0 @@
-name: Publish Kata Containers payload for Confidential Containers (amd64)
-on:
-  workflow_call:
-    inputs:
-      target-arch:
-        required: true
-        type: string
-
-jobs:
-  build-asset:
-    runs-on: ubuntu-latest
-    strategy:
-      matrix:
-        asset:
-          - cc-cloud-hypervisor
-          - cc-kernel
-          - cc-qemu
-          - cc-rootfs-image
-          - cc-virtiofsd
-          - cc-sev-kernel
-          - cc-sev-ovmf
-          - cc-x86_64-ovmf
-          - cc-snp-qemu
-          - cc-sev-rootfs-initrd
-          - cc-tdx-kernel
-          - cc-tdx-rootfs-image
-          - cc-tdx-qemu
-          - cc-tdx-td-shim
-          - cc-tdx-tdvf
-    steps:
-      - uses: actions/checkout@v3
-      - name: Build ${{ matrix.asset }}
-        run: |
-          make "${KATA_ASSET}-tarball"
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-        env:
-          KATA_ASSET: ${{ matrix.asset }}
-          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
-
-      - name: store-artifact ${{ matrix.asset }}
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts
-          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-      - name: store-artifact root_hash_tdx.txt 
-        uses: actions/upload-artifact@v3
-        with:
-          name: root_hash_tdx.txt
-          path: tools/osbuilder/root_hash_tdx.txt
-          retention-days: 1
-          if-no-files-found: ignore
-
-      - name: store-artifact root_hash_vanilla.txt 
-        uses: actions/upload-artifact@v3
-        with:
-          name: root_hash_vanilla.txt
-          path: tools/osbuilder/root_hash_vanilla.txt
-          retention-days: 1
-          if-no-files-found: ignore
-
-  build-asset-cc-shim-v2:
-    runs-on: ubuntu-latest
-    needs: build-asset
-    steps:
-      - uses: actions/checkout@v3
-
-      - name: Get root_hash_tdx.txt
-        uses: actions/download-artifact@v3
-        with:
-          name: root_hash_tdx.txt
-          path: tools/osbuilder/
-
-      - name: Get root_hash_vanilla.txt
-        uses: actions/download-artifact@v3
-        with:
-          name: root_hash_vanilla.txt
-          path: tools/osbuilder/
-
-      - name: Build cc-shim-v2
-        run: |
-          make cc-shim-v2-tarball
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-
-      - name: store-artifact cc-shim-v2
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts
-          path: kata-build/kata-static-cc-shim-v2.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  create-kata-tarball:
-    runs-on: ubuntu-latest
-    needs: [build-asset, build-asset-cc-shim-v2]
-    steps:
-      - uses: actions/checkout@v3
-      - name: get-artifacts
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-artifacts
-          path: kata-artifacts
-      - name: merge-artifacts
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
-      - name: store-artifacts
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-static-tarball
-          path: kata-static.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  kata-payload:
-    needs: create-kata-tarball
-    runs-on: ubuntu-latest
-    steps:
-      - name: Login to quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.COCO_QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.COCO_QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball
-
-      - name: build-and-push-kata-payload
-        id: build-and-push-kata-payload
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-          $(pwd)/kata-static.tar.xz \
-          "quay.io/confidential-containers/runtime-payload" \
-          "kata-containers-${{ inputs.target-arch }}"
-
--- a/.github/workflows/cc-payload-s390x.yaml
+++ b/.github/workflows/cc-payload-s390x.yaml
@@ -1,134 +0,0 @@
-name: Publish Kata Containers payload for Confidential Containers (s390x)
-on:
-  workflow_call:
-    inputs:
-      target-arch:
-        required: true
-        type: string
-
-jobs:
-  build-asset:
-    runs-on: s390x
-    strategy:
-      matrix:
-        asset:
-          - cc-kernel
-          - cc-qemu
-          - cc-rootfs-image
-          - cc-virtiofsd
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-      - name: Build ${{ matrix.asset }}
-        run: |
-          make "${KATA_ASSET}-tarball"
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-        env:
-          KATA_ASSET: ${{ matrix.asset }}
-          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
-
-      - name: store-artifact ${{ matrix.asset }}
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts-s390x
-          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-      - name: store-artifact root_hash_vanilla.txt 
-        uses: actions/upload-artifact@v3
-        with:
-          name: root_hash_vanilla.txt-s390x
-          path: tools/osbuilder/root_hash_vanilla.txt
-          retention-days: 1
-          if-no-files-found: ignore
-
-  build-asset-cc-shim-v2:
-    runs-on: s390x
-    needs: build-asset
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-
-      - name: Get root_hash_vanilla.txt
-        uses: actions/download-artifact@v3
-        with:
-          name: root_hash_vanilla.txt-s390x
-          path: tools/osbuilder/
-
-      - name: Build cc-shim-v2
-        run: |
-          make cc-shim-v2-tarball
-          build_dir=$(readlink -f build)
-          # store-artifact does not work with symlink
-          sudo cp -r "${build_dir}" "kata-build"
-
-      - name: store-artifact cc-shim-v2
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-artifacts-s390x
-          path: kata-build/kata-static-cc-shim-v2.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  create-kata-tarball:
-    runs-on: s390x
-    needs: [build-asset, build-asset-cc-shim-v2]
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-      - name: get-artifacts
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-artifacts-s390x
-          path: kata-artifacts
-      - name: merge-artifacts
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
-      - name: store-artifacts
-        uses: actions/upload-artifact@v3
-        with:
-          name: kata-static-tarball-s390x
-          path: kata-static.tar.xz
-          retention-days: 1
-          if-no-files-found: error
-
-  kata-payload:
-    needs: create-kata-tarball
-    runs-on: s390x
-    steps:
-      - name: Login to quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.COCO_QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.COCO_QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-s390x
-
-      - name: build-and-push-kata-payload
-        id: build-and-push-kata-payload
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-          $(pwd)/kata-static.tar.xz \
-          "quay.io/confidential-containers/runtime-payload" \
-          "kata-containers-${{ inputs.target-arch }}"
--- a/.github/workflows/cc-payload.yaml
+++ b/.github/workflows/cc-payload.yaml
@@ -1,46 +0,0 @@
-name: Publish Kata Containers payload for Confidential Containers
-on:
-  push:
-    tags:
-      - 'CC\-[0-9]+.[0-9]+.[0-9]+'
-
-jobs:
-  build-assets-amd64:
-    uses: ./.github/workflows/cc-payload-amd64.yaml
-    with:
-      target-arch: amd64
-    secrets: inherit
-
-  build-assets-s390x:
-    uses: ./.github/workflows/cc-payload-s390x.yaml
-    with:
-      target-arch: s390x
-    secrets: inherit
-
-  publish:
-    runs-on: ubuntu-latest
-    needs: [build-assets-amd64, build-assets-s390x]
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v3
-
-      - name: Login to Confidential Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.COCO_QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.COCO_QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Push commit multi-arch manifest
-        run: |
-          docker manifest create quay.io/confidential-containers/runtime-payload:kata-containers-${GITHUB_SHA} \
-          --amend quay.io/confidential-containers/runtime-payload:kata-containers-${GITHUB_SHA}-amd64 \
-          --amend quay.io/confidential-containers/runtime-payload:kata-containers-${GITHUB_SHA}-s390x
-          docker manifest push quay.io/confidential-containers/runtime-payload:kata-containers-${GITHUB_SHA}
-
-      - name: Push latest multi-arch manifest
-        run: |
-          docker manifest create quay.io/confidential-containers/runtime-payload:kata-containers-latest \
-          --amend quay.io/confidential-containers/runtime-payload:kata-containers-amd64 \
-          --amend quay.io/confidential-containers/runtime-payload:kata-containers-s390x
-          docker manifest push quay.io/confidential-containers/runtime-payload:kata-containers-latest
--- a/.github/workflows/ci-on-push.yaml
+++ b/.github/workflows/ci-on-push.yaml
@@ -1,54 +0,0 @@
-name: Kata Containers CI
-on:
-  pull_request_target:
-    branches:
-      - 'main'
-
-jobs:
-  build-kata-static-tarball-amd64:
-    uses: ./.github/workflows/build-kata-static-tarball-amd64.yaml
-    with:
-      tarball-suffix: -${{ github.event.pull_request.number}}-${{ github.event.pull_request.head.sha }}
-
-  publish-kata-deploy-payload-amd64:
-    needs: build-kata-static-tarball-amd64
-    uses: ./.github/workflows/publish-kata-deploy-payload-amd64.yaml
-    with:
-      tarball-suffix: -${{ github.event.pull_request.number}}-${{ github.event.pull_request.head.sha }}
-      registry: ghcr.io
-      repo: ${{ github.repository_owner }}/kata-deploy-ci
-      tag: ${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-amd64
-    secrets: inherit
-
-  run-k8s-tests-on-aks:
-    needs: publish-kata-deploy-payload-amd64
-    uses: ./.github/workflows/run-k8s-tests-on-aks.yaml
-    with:
-      registry: ghcr.io
-      repo: ${{ github.repository_owner }}/kata-deploy-ci
-      tag: ${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-amd64
-    secrets: inherit
-
-  run-k8s-tests-on-sev:
-    needs: publish-kata-deploy-payload-amd64
-    uses: ./.github/workflows/run-k8s-tests-on-sev.yaml
-    with:
-      registry: ghcr.io
-      repo: ${{ github.repository_owner }}/kata-deploy-ci
-      tag: ${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-amd64
-
-  run-k8s-tests-on-snp:
-    needs: publish-kata-deploy-payload-amd64
-    uses: ./.github/workflows/run-k8s-tests-on-snp.yaml
-    with:
-      registry: ghcr.io
-      repo: ${{ github.repository_owner }}/kata-deploy-ci
-      tag: ${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-amd64
-
-  run-k8s-tests-on-tdx:
-    needs: publish-kata-deploy-payload-amd64
-    uses: ./.github/workflows/run-k8s-tests-on-tdx.yaml
-    with:
-      registry: ghcr.io
-      repo: ${{ github.repository_owner }}/kata-deploy-ci
-      tag: ${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-amd64
--- a/.github/workflows/commit-message-check.yaml
+++ b/.github/workflows/commit-message-check.yaml
@@ -10,7 +10,7 @@ env:
  error_msg: |+
    See the document below for help on formatting commits for the project.

-    https://github.com/kata-containers/community/blob/main/CONTRIBUTING.md#patch-format
+    https://github.com/kata-containers/community/blob/master/CONTRIBUTING.md#patch-format

 jobs:
  commit-message-check:
@@ -47,7 +47,7 @@ jobs:
      uses: tim-actions/commit-message-checker-with-regex@v0.3.1
      with:
        commits: ${{ steps.get-pr-commits.outputs.commits }}
-        pattern: '^.{0,75}(\n.*)*$|^Merge pull request (?:kata-containers)?#[\d]+ from.*'
+        pattern: '^.{0,75}(\n.*)*$'
        error: 'Subject too long (max 75)'
        post_error: ${{ env.error_msg }}

@@ -62,12 +62,8 @@ jobs:
        #   to be specified at the start of the regex as the action is passed
        #   the entire commit message.
        #
-        # - This check will pass if the commit message only contains a subject
-        #   line, as other body message properties are enforced elsewhere.
-        #
        # - Body lines *can* be longer than the maximum if they start
-        #   with a non-alphabetic character or if there is no whitespace in
-        #   the line.
+        #   with a non-alphabetic character.
        #
        #   This allows stack traces, log files snippets, emails, long URLs,
        #   etc to be specified. Some of these naturally "work" as they start
@@ -78,8 +74,8 @@ jobs:
        #
        # - A SoB comment can be any length (as it is unreasonable to penalise
        #   people with long names/email addresses :)
-        pattern: '(^[^\n]+$|^.+(\n([a-zA-Z].{0,150}|[^a-zA-Z\n].*|[^\s\n]*|Signed-off-by:.*|))+$)'
-        error: 'Body line too long (max 150)'
+        pattern: '^.+(\n([a-zA-Z].{0,149}|[^a-zA-Z\n].*|Signed-off-by:.*|))+$'
+        error: 'Body line too long (max 72)'
        post_error: ${{ env.error_msg }}

    - name: Check Fixes
@@ -98,6 +94,6 @@ jobs:
      uses: tim-actions/commit-message-checker-with-regex@v0.3.1
      with:
        commits: ${{ steps.get-pr-commits.outputs.commits }}
-        pattern: '^[\s\t]*[^:\s\t]+[\s\t]*:|^Merge pull request (?:kata-containers)?#[\d]+ from.*'
+        pattern: '^[\s\t]*[^:\s\t]+[\s\t]*:'
        error: 'Failed to find subsystem in subject'
        post_error: ${{ env.error_msg }}
--- a/.github/workflows/darwin-tests.yaml
+++ b/.github/workflows/darwin-tests.yaml
@@ -5,16 +5,20 @@ on:
      - edited
      - reopened
      - synchronize
-    paths-ignore: [ '**.md', '**.png', '**.jpg', '**.jpeg', '**.svg', '/docs/**' ]
+
 name: Darwin tests
 jobs:
  test:
-    runs-on: macos-latest
+    strategy:
+      matrix:
+        go-version: [1.16.x, 1.17.x]
+        os: [macos-latest]
+    runs-on: ${{ matrix.os }}
    steps:
    - name: Install Go
      uses: actions/setup-go@v2
      with:
-        go-version: 1.19.3
+        go-version: ${{ matrix.go-version }}
    - name: Checkout code
      uses: actions/checkout@v2
    - name: Build utils
--- a/.github/workflows/docs-url-alive-check.yaml
+++ b/.github/workflows/docs-url-alive-check.yaml
@@ -1,37 +0,0 @@
-on:
-  schedule:
-    - cron:  '0 23 * * 0'
-
-name: Docs URL Alive Check
-jobs:
-  test:
-    runs-on: ubuntu-20.04
-    # don't run this action on forks
-    if: github.repository_owner == 'kata-containers'
-    env:
-      target_branch: ${{ github.base_ref }}
-    steps:
-    - name: Install Go
-      uses: actions/setup-go@v2
-      with:
-        go-version: 1.19.3
-      env:
-        GOPATH: ${{ runner.workspace }}/kata-containers
-    - name: Set env
-      run: |
-        echo "GOPATH=${{ github.workspace }}" >> $GITHUB_ENV
-        echo "${{ github.workspace }}/bin" >> $GITHUB_PATH
-    - name: Checkout code
-      uses: actions/checkout@v2
-      with:
-        fetch-depth: 0
-        path: ./src/github.com/${{ github.repository }}
-    - name: Setup
-      run: |
-        cd ${GOPATH}/src/github.com/${{ github.repository }} && ./ci/setup.sh
-      env:
-        GOPATH: ${{ runner.workspace }}/kata-containers
-    # docs url alive check
-    - name: Docs URL Alive Check
-      run: |
-        cd ${GOPATH}/src/github.com/${{ github.repository }} && make docs-url-alive-check
--- a/.github/workflows/kata-deploy-push.yaml
+++ b/.github/workflows/kata-deploy-push.yaml
@@ -0,0 +1,83 @@
+name: kata deploy build
+
+on: 
+  pull_request:
+    types:
+      - opened
+      - edited
+      - reopened
+      - synchronize
+    paths:
+      - tools/**
+      - versions.yaml
+
+jobs:
+  build-asset:
+    runs-on: ubuntu-latest
+    strategy:
+      matrix:
+        asset:
+          - kernel
+          - shim-v2
+          - qemu
+          - cloud-hypervisor
+          - firecracker
+          - rootfs-image
+          - rootfs-initrd
+    steps:
+      - uses: actions/checkout@v2
+      - name: Install docker
+        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+        run: |
+          curl -fsSL https://test.docker.com -o test-docker.sh
+          sh test-docker.sh
+
+      - name: Build ${{ matrix.asset }}
+        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+        run: |
+          make "${KATA_ASSET}-tarball"
+          build_dir=$(readlink -f build)
+          # store-artifact does not work with symlink
+          sudo cp -r --preserve=all "${build_dir}" "kata-build"
+        env:
+          KATA_ASSET: ${{ matrix.asset }}
+
+      - name: store-artifact ${{ matrix.asset }}
+        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+        uses: actions/upload-artifact@v2
+        with:
+          name: kata-artifacts
+          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
+          if-no-files-found: error
+
+  create-kata-tarball:
+    runs-on: ubuntu-latest
+    needs: build-asset
+    steps:
+      - uses: actions/checkout@v2
+      - name: get-artifacts
+        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+        uses: actions/download-artifact@v2
+        with:
+          name: kata-artifacts
+          path: build
+      - name: merge-artifacts
+        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+        run: |
+          make merge-builds
+      - name: store-artifacts
+        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+        uses: actions/upload-artifact@v2
+        with:
+          name: kata-static-tarball
+          path: kata-static.tar.xz
+
+  make-kata-tarball:
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@v2
+      - name: make kata-tarball
+        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+        run: |
+          make kata-tarball
+          sudo make install-tarball
--- a/.github/workflows/kata-deploy-test.yaml
+++ b/.github/workflows/kata-deploy-test.yaml
@@ -1,8 +1,9 @@
 on:
+  workflow_dispatch: # this is used to trigger the workflow on non-main branches
  issue_comment:
    types: [created, edited]

-name: deploy-ccv0-demo
+name: test-kata-deploy

 jobs:
  check-comment-and-membership:
@@ -11,7 +12,7 @@ jobs:
      github.event.issue.pull_request
      && github.event_name == 'issue_comment'
      && github.event.action == 'created'
-      && startsWith(github.event.comment.body, '/deploy-ccv0-demo')
+      && startsWith(github.event.comment.body, '/test_kata_deploy')
    steps:
      - name: Check membership
        uses: kata-containers/is-organization-member@1.0.1
@@ -48,17 +49,20 @@ jobs:
          - rootfs-initrd
          - shim-v2
    steps:
-      - uses: actions/checkout@v2
-      - name: Prepare confidential container rootfs
-        if: ${{ matrix.asset == 'rootfs-initrd' }}
+      - name: get-PR-ref
+        id: get-PR-ref
        run: |
-          pushd include_rootfs/etc
-          curl -LO https://raw.githubusercontent.com/confidential-containers/documentation/main/demos/ssh-demo/aa-offline_fs_kbc-keys.json
-          mkdir kata-containers
-          envsubst < docs/how-to/data/confidential-agent-config.toml.in > kata-containers/agent.toml
-          popd
-        env:
-          AA_KBC_PARAMS: offline_fs_kbc::null
+            ref=$(cat $GITHUB_EVENT_PATH | jq -r '.issue.pull_request.url' | sed  's#^.*\/pulls#refs\/pull#' | sed 's#$#\/merge#')
+            echo "reference for PR: " ${ref}
+            echo "##[set-output name=pr-ref;]${ref}"
+      - uses: actions/checkout@v2
+        with:
+          ref: ${{ steps.get-PR-ref.outputs.pr-ref }}
+
+      - name: Install docker
+        run: |
+          curl -fsSL https://test.docker.com -o test-docker.sh
+          sh test-docker.sh

      - name: Build ${{ matrix.asset }}
        run: |
@@ -67,8 +71,6 @@ jobs:
          # store-artifact does not work with symlink
          sudo cp -r "${build_dir}" "kata-build"
        env:
-          AA_KBC: offline_fs_kbc
-          INCLUDE_ROOTFS: include_rootfs
          KATA_ASSET: ${{ matrix.asset }}
          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz

@@ -83,7 +85,15 @@ jobs:
    runs-on: ubuntu-latest
    needs: build-asset
    steps:
+      - name: get-PR-ref
+        id: get-PR-ref
+        run: |
+            ref=$(cat $GITHUB_EVENT_PATH | jq -r '.issue.pull_request.url' | sed  's#^.*\/pulls#refs\/pull#' | sed 's#$#\/merge#')
+            echo "reference for PR: " ${ref}
+            echo "##[set-output name=pr-ref;]${ref}"
      - uses: actions/checkout@v2
+        with:
+          ref: ${{ steps.get-PR-ref.outputs.pr-ref }}
      - name: get-artifacts
        uses: actions/download-artifact@v2
        with:
@@ -102,7 +112,15 @@ jobs:
    needs: create-kata-tarball
    runs-on: ubuntu-latest
    steps:
+      - name: get-PR-ref
+        id: get-PR-ref
+        run: |
+            ref=$(cat $GITHUB_EVENT_PATH | jq -r '.issue.pull_request.url' | sed  's#^.*\/pulls#refs\/pull#' | sed 's#$#\/merge#')
+            echo "reference for PR: " ${ref}
+            echo "##[set-output name=pr-ref;]${ref}"
      - uses: actions/checkout@v2
+        with:
+          ref: ${{ steps.get-PR-ref.outputs.pr-ref }}
      - name: get-kata-tarball
        uses: actions/download-artifact@v2
        with:
@@ -110,15 +128,21 @@ jobs:
      - name: build-and-push-kata-deploy-ci
        id: build-and-push-kata-deploy-ci
        run: |
-          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
-          pushd $GITHUB_WORKSPACE
-          git checkout $tag
-          pkg_sha=$(git rev-parse HEAD)
-          popd
+          PR_SHA=$(git log --format=format:%H -n1)
          mv kata-static.tar.xz $GITHUB_WORKSPACE/tools/packaging/kata-deploy/kata-static.tar.xz
-          docker build --build-arg KATA_ARTIFACTS=kata-static.tar.xz -t quay.io/confidential-containers/runtime-payload:$pkg_sha $GITHUB_WORKSPACE/tools/packaging/kata-deploy
+          docker build --build-arg KATA_ARTIFACTS=kata-static.tar.xz -t quay.io/kata-containers/kata-deploy-ci:$PR_SHA $GITHUB_WORKSPACE/tools/packaging/kata-deploy
          docker login -u ${{ secrets.QUAY_DEPLOYER_USERNAME }} -p ${{ secrets.QUAY_DEPLOYER_PASSWORD }} quay.io
-          docker push quay.io/confidential-containers/runtime-payload:$pkg_sha
+          docker push quay.io/kata-containers/kata-deploy-ci:$PR_SHA
          mkdir -p packaging/kata-deploy
          ln -s $GITHUB_WORKSPACE/tools/packaging/kata-deploy/action packaging/kata-deploy/action
-          echo "::set-output name=PKG_SHA::${pkg_sha}"
+          echo "::set-output name=PKG_SHA::${PR_SHA}"
+      - name: test-kata-deploy-ci-in-aks
+        uses: ./packaging/kata-deploy/action
+        with:
+          packaging-sha: ${{steps.build-and-push-kata-deploy-ci.outputs.PKG_SHA}}
+        env:
+          PKG_SHA: ${{steps.build-and-push-kata-deploy-ci.outputs.PKG_SHA}}
+          AZ_APPID: ${{ secrets.AZ_APPID }}
+          AZ_PASSWORD: ${{ secrets.AZ_PASSWORD }}
+          AZ_SUBSCRIPTION_ID: ${{ secrets.AZ_SUBSCRIPTION_ID }}
+          AZ_TENANT_ID: ${{ secrets.AZ_TENANT_ID }}
--- a/.github/workflows/payload-after-push.yaml
+++ b/.github/workflows/payload-after-push.yaml
@@ -1,74 +0,0 @@
-name: CI | Publish Kata Containers payload
-on:
-  push:
-    branches:
-      - main
-      - stable-*
-
-jobs:
-  build-assets-amd64:
-    uses: ./.github/workflows/build-kata-static-tarball-amd64.yaml
-    with:
-      push-to-registry: yes
-    secrets: inherit
-
-  build-assets-arm64:
-    uses: ./.github/workflows/build-kata-static-tarball-arm64.yaml
-    with:
-      push-to-registry: yes
-    secrets: inherit
-
-  build-assets-s390x:
-    uses: ./.github/workflows/build-kata-static-tarball-s390x.yaml
-    with:
-      push-to-registry: yes
-    secrets: inherit
-
-  publish-kata-deploy-payload-amd64:
-    needs: build-assets-amd64
-    uses: ./.github/workflows/publish-kata-deploy-payload-amd64.yaml
-    with:
-      registry: quay.io
-      repo: kata-containers/kata-deploy-ci
-      tag: kata-containers-amd64
-    secrets: inherit
-
-  publish-kata-deploy-payload-arm64:
-    needs: build-assets-arm64
-    uses: ./.github/workflows/publish-kata-deploy-payload-arm64.yaml
-    with:
-      registry: quay.io
-      repo: kata-containers/kata-deploy-ci
-      tag: kata-containers-arm64
-    secrets: inherit
-
-  publish-kata-deploy-payload-s390x:
-    needs: build-assets-s390x
-    uses: ./.github/workflows/publish-kata-deploy-payload-s390x.yaml
-    with:
-      registry: quay.io
-      repo: kata-containers/kata-deploy-ci
-      tag: kata-containers-s390x
-    secrets: inherit
-
-  publish-manifest:
-    runs-on: ubuntu-latest
-    needs: [publish-kata-deploy-payload-amd64, publish-kata-deploy-payload-arm64, publish-kata-deploy-payload-s390x]
-    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v3
-
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Push multi-arch manifest
-        run: |
-          docker manifest create quay.io/kata-containers/kata-deploy-ci:kata-containers-latest \
-          --amend quay.io/kata-containers/kata-deploy-ci:kata-containers-amd64 \
-          --amend quay.io/kata-containers/kata-deploy-ci:kata-containers-arm64 \
-          --amend quay.io/kata-containers/kata-deploy-ci:kata-containers-s390x
-          docker manifest push quay.io/kata-containers/kata-deploy-ci:kata-containers-latest
--- a/.github/workflows/publish-kata-deploy-payload-amd64.yaml
+++ b/.github/workflows/publish-kata-deploy-payload-amd64.yaml
@@ -1,52 +0,0 @@
-name: CI | Publish kata-deploy payload for amd64
-on:
-  workflow_call:
-    inputs:
-      tarball-suffix:
-        required: false
-        type: string
-      registry:
-        required: true
-        type: string
-      repo:
-        required: true
-        type: string
-      tag:
-        required: true
-        type: string
-
-jobs:
-  kata-payload:
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-amd64${{ inputs.tarball-suffix }}
-
-      - name: Login to Kata Containers quay.io
-        if: ${{ inputs.registry == 'quay.io' }}
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Login to Kata Containers ghcr.io
-        if: ${{ inputs.registry == 'ghcr.io' }}
-        uses: docker/login-action@v2
-        with:
-          registry: ghcr.io
-          username: ${{ github.actor }}
-          password: ${{ secrets.GITHUB_TOKEN }}
-
-      - name: build-and-push-kata-payload
-        id: build-and-push-kata-payload
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-          $(pwd)/kata-static.tar.xz \
-          ${{ inputs.registry }}/${{ inputs.repo }} ${{ inputs.tag }}
--- a/.github/workflows/publish-kata-deploy-payload-arm64.yaml
+++ b/.github/workflows/publish-kata-deploy-payload-arm64.yaml
@@ -1,57 +0,0 @@
-name: CI | Publish kata-deploy payload for arm64
-on:
-  workflow_call:
-    inputs:
-      tarball-suffix:
-        required: false
-        type: string
-      registry:
-        required: true
-        type: string
-      repo:
-        required: true
-        type: string
-      tag:
-        required: true
-        type: string
-
-jobs:
-  kata-payload:
-    runs-on: arm64
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-arm64${{ inputs.tarball-suffix }}
-
-      - name: Login to Kata Containers quay.io
-        if: ${{ inputs.registry == 'quay.io' }}
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Login to Kata Containers ghcr.io
-        if: ${{ inputs.registry == 'ghcr.io' }}
-        uses: docker/login-action@v2
-        with:
-          registry: ghcr.io
-          username: ${{ github.actor }}
-          password: ${{ secrets.GITHUB_TOKEN }}
-
-      - name: build-and-push-kata-payload
-        id: build-and-push-kata-payload
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-          $(pwd)/kata-static.tar.xz \
-          ${{ inputs.registry }}/${{ inputs.repo }} ${{ inputs.tag }}
-
--- a/.github/workflows/publish-kata-deploy-payload-s390x.yaml
+++ b/.github/workflows/publish-kata-deploy-payload-s390x.yaml
@@ -1,56 +0,0 @@
-name: CI | Publish kata-deploy payload for s390x
-on:
-  workflow_call:
-    inputs:
-      tarball-suffix:
-        required: false
-        type: string
-      registry:
-        required: true
-        type: string
-      repo:
-        required: true
-        type: string
-      tag:
-        required: true
-        type: string
-
-jobs:
-  kata-payload:
-    runs-on: s390x
-    steps:
-      - name: Adjust a permission for repo
-        run: |
-          sudo chown -R $USER:$USER $GITHUB_WORKSPACE
-
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-s390x${{ inputs.tarball-suffix }}
-
-      - name: Login to Kata Containers quay.io
-        if: ${{ inputs.registry == 'quay.io' }}
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - name: Login to Kata Containers ghcr.io
-        if: ${{ inputs.registry == 'ghcr.io' }}
-        uses: docker/login-action@v2
-        with:
-          registry: ghcr.io
-          username: ${{ github.actor }}
-          password: ${{ secrets.GITHUB_TOKEN }}
-
-      - name: build-and-push-kata-payload
-        id: build-and-push-kata-payload
-        run: |
-          ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-          $(pwd)/kata-static.tar.xz \
-          ${{ inputs.registry }}/${{ inputs.repo }} ${{ inputs.tag }}
--- a/.github/workflows/release-amd64.yaml
+++ b/.github/workflows/release-amd64.yaml
@@ -1,51 +0,0 @@
-name: Publish Kata release artifacts for amd64
-on:
-  workflow_call:
-    inputs:
-      target-arch:
-        required: true
-        type: string
-
-jobs:
-  build-kata-static-tarball-amd64:
-    uses: ./.github/workflows/build-kata-static-tarball-amd64.yaml
-
-  kata-deploy:
-    needs: build-kata-static-tarball-amd64
-    runs-on: ubuntu-latest
-    steps:
-      - name: Login to Kata Containers docker.io
-        uses: docker/login-action@v2
-        with:
-          username: ${{ secrets.DOCKER_USERNAME }}
-          password: ${{ secrets.DOCKER_PASSWORD }}
-
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-amd64
-
-      - name: build-and-push-kata-deploy-ci-amd64
-        id: build-and-push-kata-deploy-ci-amd64
-        run: |
-          # We need to do such trick here as the format of the $GITHUB_REF 
-          # is "refs/tags/<tag>"
-          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
-          tags=($tag)
-          tags+=($([[ "$tag" =~ "alpha"|"rc" ]] && echo "latest" || echo "stable"))
-          for tag in ${tags[@]}; do
-              ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-                  $(pwd)/kata-static.tar.xz "docker.io/katadocker/kata-deploy" \
-                  "${tag}-${{ inputs.target-arch }}"
-              ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-                  $(pwd)/kata-static.tar.xz "quay.io/kata-containers/kata-deploy" \
-                  "${tag}-${{ inputs.target-arch }}"
-          done
--- a/.github/workflows/release-arm64.yaml
+++ b/.github/workflows/release-arm64.yaml
@@ -1,51 +0,0 @@
-name: Publish Kata release artifacts for arm64
-on:
-  workflow_call:
-    inputs:
-      target-arch:
-        required: true
-        type: string
-
-jobs:
-  build-kata-static-tarball-arm64:
-    uses: ./.github/workflows/build-kata-static-tarball-arm64.yaml
-
-  kata-deploy:
-    needs: build-kata-static-tarball-arm64
-    runs-on: arm64
-    steps:
-      - name: Login to Kata Containers docker.io
-        uses: docker/login-action@v2
-        with:
-          username: ${{ secrets.DOCKER_USERNAME }}
-          password: ${{ secrets.DOCKER_PASSWORD }}
-
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-arm64
-
-      - name: build-and-push-kata-deploy-ci-arm64
-        id: build-and-push-kata-deploy-ci-arm64
-        run: |
-          # We need to do such trick here as the format of the $GITHUB_REF 
-          # is "refs/tags/<tag>"
-          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
-          tags=($tag)
-          tags+=($([[ "$tag" =~ "alpha"|"rc" ]] && echo "latest" || echo "stable"))
-          for tag in ${tags[@]}; do
-              ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-                  $(pwd)/kata-static.tar.xz "docker.io/katadocker/kata-deploy" \
-                  "${tag}-${{ inputs.target-arch }}"
-              ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-                  $(pwd)/kata-static.tar.xz "quay.io/kata-containers/kata-deploy" \
-                  "${tag}-${{ inputs.target-arch }}"
-          done
--- a/.github/workflows/release-s390x.yaml
+++ b/.github/workflows/release-s390x.yaml
@@ -1,51 +0,0 @@
-name: Publish Kata release artifacts for s390x
-on:
-  workflow_call:
-    inputs:
-      target-arch:
-        required: true
-        type: string
-
-jobs:
-  build-kata-static-tarball-s390x:
-    uses: ./.github/workflows/build-kata-static-tarball-s390x.yaml
-
-  kata-deploy:
-    needs: build-kata-static-tarball-s390x
-    runs-on: s390x
-    steps:
-      - name: Login to Kata Containers docker.io
-        uses: docker/login-action@v2
-        with:
-          username: ${{ secrets.DOCKER_USERNAME }}
-          password: ${{ secrets.DOCKER_PASSWORD }}
-
-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
-        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
-
-      - uses: actions/checkout@v3
-      - name: get-kata-tarball
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-s390x
-
-      - name: build-and-push-kata-deploy-ci-s390x
-        id: build-and-push-kata-deploy-ci-s390x
-        run: |
-          # We need to do such trick here as the format of the $GITHUB_REF 
-          # is "refs/tags/<tag>"
-          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
-          tags=($tag)
-          tags+=($([[ "$tag" =~ "alpha"|"rc" ]] && echo "latest" || echo "stable"))
-          for tag in ${tags[@]}; do
-              ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-                  $(pwd)/kata-static.tar.xz "docker.io/katadocker/kata-deploy" \
-                  "${tag}-${{ inputs.target-arch }}"
-              ./tools/packaging/kata-deploy/local-build/kata-deploy-build-and-upload-payload.sh \
-                  $(pwd)/kata-static.tar.xz "quay.io/kata-containers/kata-deploy" \
-                  "${tag}-${{ inputs.target-arch }}"
-          done
--- a/.github/workflows/release.yaml
+++ b/.github/workflows/release.yaml
@@ -1,86 +1,130 @@
-name: Publish Kata release artifacts
+name: Publish Kata 2.x release artifacts
 on:
  push:
    tags:
-      - '[0-9]+.[0-9]+.[0-9]+*'
+     - '2.*'

 jobs:
-  build-and-push-assets-amd64:
-    uses: ./.github/workflows/release-amd64.yaml
-    with:
-      target-arch: amd64
-    secrets: inherit
-
-  build-and-push-assets-arm64:
-    uses: ./.github/workflows/release-arm64.yaml
-    with:
-      target-arch: arm64
-    secrets: inherit
-
-  build-and-push-assets-s390x:
-    uses: ./.github/workflows/release-s390x.yaml
-    with:
-      target-arch: s390x
-    secrets: inherit
-
-  publish-multi-arch-images:
+  build-asset:
    runs-on: ubuntu-latest
-    needs: [build-and-push-assets-amd64, build-and-push-assets-arm64, build-and-push-assets-s390x]
+    strategy:
+      matrix:
+        asset:
+          - cloud-hypervisor
+          - firecracker
+          - kernel
+          - qemu
+          - rootfs-image
+          - rootfs-initrd
+          - shim-v2
    steps:
-      - name: Checkout repository
-        uses: actions/checkout@v3
+      - uses: actions/checkout@v2
+      - name: Install docker
+        run: |
+          curl -fsSL https://test.docker.com -o test-docker.sh
+          sh test-docker.sh

-      - name: Login to Kata Containers docker.io
-        uses: docker/login-action@v2
+      - name: Build ${{ matrix.asset }}
+        run: |
+          ./tools/packaging/kata-deploy/local-build/kata-deploy-copy-yq-installer.sh
+          ./tools/packaging/kata-deploy/local-build/kata-deploy-binaries-in-docker.sh --build="${KATA_ASSET}"
+          build_dir=$(readlink -f build)
+          # store-artifact does not work with symlink
+          sudo cp -r "${build_dir}" "kata-build"
+        env:
+          KATA_ASSET: ${{ matrix.asset }}
+          TAR_OUTPUT: ${{ matrix.asset }}.tar.gz
+
+      - name: store-artifact ${{ matrix.asset }}
+        uses: actions/upload-artifact@v2
        with:
-          username: ${{ secrets.DOCKER_USERNAME }}
-          password: ${{ secrets.DOCKER_PASSWORD }}
+          name: kata-artifacts
+          path: kata-build/kata-static-${{ matrix.asset }}.tar.xz
+          if-no-files-found: error

-      - name: Login to Kata Containers quay.io
-        uses: docker/login-action@v2
+  create-kata-tarball:
+    runs-on: ubuntu-latest
+    needs: build-asset
+    steps:
+      - uses: actions/checkout@v2
+      - name: get-artifacts
+        uses: actions/download-artifact@v2
        with:
-          registry: quay.io
-          username: ${{ secrets.QUAY_DEPLOYER_USERNAME }}
-          password: ${{ secrets.QUAY_DEPLOYER_PASSWORD }}
+          name: kata-artifacts
+          path: kata-artifacts
+      - name: merge-artifacts
+        run: |
+          ./tools/packaging/kata-deploy/local-build/kata-deploy-merge-builds.sh kata-artifacts
+      - name: store-artifacts
+        uses: actions/upload-artifact@v2
+        with:
+          name: kata-static-tarball
+          path: kata-static.tar.xz

-      - name: Push multi-arch manifest
+  kata-deploy:
+    needs: create-kata-tarball
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@v2
+      - name: get-kata-tarball
+        uses: actions/download-artifact@v2
+        with:
+          name: kata-static-tarball
+      - name: build-and-push-kata-deploy-ci
+        id: build-and-push-kata-deploy-ci
+        run: |
+          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
+          pushd $GITHUB_WORKSPACE
+          git checkout $tag
+          pkg_sha=$(git rev-parse HEAD)
+          popd
+          mv kata-static.tar.xz $GITHUB_WORKSPACE/tools/packaging/kata-deploy/kata-static.tar.xz
+          docker build --build-arg KATA_ARTIFACTS=kata-static.tar.xz -t katadocker/kata-deploy-ci:$pkg_sha -t quay.io/kata-containers/kata-deploy-ci:$pkg_sha $GITHUB_WORKSPACE/tools/packaging/kata-deploy
+          docker login -u ${{ secrets.DOCKER_USERNAME }} -p ${{ secrets.DOCKER_PASSWORD }}
+          docker push katadocker/kata-deploy-ci:$pkg_sha
+          docker login -u ${{ secrets.QUAY_DEPLOYER_USERNAME }} -p ${{ secrets.QUAY_DEPLOYER_PASSWORD }} quay.io
+          docker push quay.io/kata-containers/kata-deploy-ci:$pkg_sha
+          mkdir -p packaging/kata-deploy
+          ln -s $GITHUB_WORKSPACE/tools/packaging/kata-deploy/action packaging/kata-deploy/action
+          echo "::set-output name=PKG_SHA::${pkg_sha}"
+      - name: test-kata-deploy-ci-in-aks
+        uses: ./packaging/kata-deploy/action
+        with:
+          packaging-sha: ${{steps.build-and-push-kata-deploy-ci.outputs.PKG_SHA}}
+        env:
+          PKG_SHA: ${{steps.build-and-push-kata-deploy-ci.outputs.PKG_SHA}}
+          AZ_APPID: ${{ secrets.AZ_APPID }}
+          AZ_PASSWORD: ${{ secrets.AZ_PASSWORD }}
+          AZ_SUBSCRIPTION_ID: ${{ secrets.AZ_SUBSCRIPTION_ID }}
+          AZ_TENANT_ID: ${{ secrets.AZ_TENANT_ID }}
+      - name: push-tarball
        run: |
          # tag the container image we created and push to DockerHub
          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
          tags=($tag)
          tags+=($([[ "$tag" =~ "alpha"|"rc" ]] && echo "latest" || echo "stable"))
-          # push to quay.io and docker.io
-          for tag in ${tags[@]}; do
-            docker manifest create quay.io/kata-containers/kata-deploy:${tag} \
-              --amend quay.io/kata-containers/kata-deploy:${tag}-amd64 \
-              --amend quay.io/kata-containers/kata-deploy:${tag}-arm64 \
-              --amend quay.io/kata-containers/kata-deploy:${tag}-s390x
-
-            docker manifest create docker.io/katadocker/kata-deploy:${tag} \
-              --amend docker.io/katadocker/kata-deploy:${tag}-amd64 \
-              --amend docker.io/katadocker/kata-deploy:${tag}-arm64 \
-              --amend docker.io/katadocker/kata-deploy:${tag}-s390x
-
-            docker manifest push quay.io/kata-containers/kata-deploy:${tag}
-            docker manifest push docker.io/katadocker/kata-deploy:${tag}
+          for tag in ${tags[@]}; do \
+            docker tag katadocker/kata-deploy-ci:${{steps.build-and-push-kata-deploy-ci.outputs.PKG_SHA}} katadocker/kata-deploy:${tag} && \
+            docker tag quay.io/kata-containers/kata-deploy-ci:${{steps.build-and-push-kata-deploy-ci.outputs.PKG_SHA}} quay.io/kata-containers/kata-deploy:${tag} && \
+            docker push katadocker/kata-deploy:${tag} && \
+            docker push quay.io/kata-containers/kata-deploy:${tag}; \
          done

-  upload-multi-arch-static-tarball:
-    needs: publish-multi-arch-images
+  upload-static-tarball:
+    needs: kata-deploy
    runs-on: ubuntu-latest
    steps:
-      - uses: actions/checkout@v3
+      - uses: actions/checkout@v2
+      - name: download-artifacts
+        uses: actions/download-artifact@v2
+        with:
+          name: kata-static-tarball
      - name: install hub
        run: |
          HUB_VER=$(curl -s "https://api.github.com/repos/github/hub/releases/latest" | jq -r .tag_name | sed 's/^v//')
          wget -q -O- https://github.com/github/hub/releases/download/v$HUB_VER/hub-linux-amd64-$HUB_VER.tgz | \
          tar xz --strip-components=2 --wildcards '*/bin/hub' && sudo mv hub /usr/local/bin/hub
-
-      - name: download-artifacts-amd64
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-amd64
-      - name: push amd64 static tarball to github
+      - name: push static tarball to github
        run: |
          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
          tarball="kata-static-$tag-x86_64.tar.xz"
@@ -90,39 +134,11 @@ jobs:
          GITHUB_TOKEN=${{ secrets.GIT_UPLOAD_TOKEN }} hub release edit -m "" -a "${tarball}" "${tag}"
          popd

-      - name: download-artifacts-arm64
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-arm64
-      - name: push arm64 static tarball to github
-        run: |
-          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
-          tarball="kata-static-$tag-aarch64.tar.xz"
-          mv kata-static.tar.xz "$GITHUB_WORKSPACE/${tarball}"
-          pushd $GITHUB_WORKSPACE
-          echo "uploading asset '${tarball}' for tag: ${tag}"
-          GITHUB_TOKEN=${{ secrets.GIT_UPLOAD_TOKEN }} hub release edit -m "" -a "${tarball}" "${tag}"
-          popd
-
-      - name: download-artifacts-s390x
-        uses: actions/download-artifact@v3
-        with:
-          name: kata-static-tarball-s390x
-      - name: push s390x static tarball to github
-        run: |
-          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
-          tarball="kata-static-$tag-s390x.tar.xz"
-          mv kata-static.tar.xz "$GITHUB_WORKSPACE/${tarball}"
-          pushd $GITHUB_WORKSPACE
-          echo "uploading asset '${tarball}' for tag: ${tag}"
-          GITHUB_TOKEN=${{ secrets.GIT_UPLOAD_TOKEN }} hub release edit -m "" -a "${tarball}" "${tag}"
-          popd
-
  upload-cargo-vendored-tarball:
-    needs: upload-multi-arch-static-tarball
+    needs: upload-static-tarball
    runs-on: ubuntu-latest
    steps:
-      - uses: actions/checkout@v3
+      - uses: actions/checkout@v2
      - name: generate-and-upload-tarball
        run: |
          tag=$(echo $GITHUB_REF | cut -d/ -f3-)
@@ -136,7 +152,7 @@ jobs:
    needs: upload-cargo-vendored-tarball
    runs-on: ubuntu-latest
    steps:
-      - uses: actions/checkout@v3
+      - uses: actions/checkout@v2
      - name: download-and-upload-tarball
        env:
          GITHUB_TOKEN: ${{ secrets.GIT_UPLOAD_TOKEN }}
--- a/.github/workflows/run-k8s-tests-on-aks.yaml
+++ b/.github/workflows/run-k8s-tests-on-aks.yaml
@@ -1,95 +0,0 @@
-name: CI | Run kubernetes tests on AKS
-on:
-  workflow_call:
-    inputs:
-      registry:
-        required: true
-        type: string
-      repo:
-        required: true
-        type: string
-      tag:
-        required: true
-        type: string
-
-jobs:
-  run-k8s-tests:
-    strategy:
-      fail-fast: false
-      matrix:
-        vmm:
-          - clh
-          - dragonball
-          - qemu
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-
-      - name: Download Azure CLI
-        run: |
-          curl -sL https://aka.ms/InstallAzureCLIDeb | sudo bash
-
-      - name: Log into the Azure account
-        run: |
-          az login \
-            --service-principal \
-            -u "${{ secrets.AZ_APPID }}" \
-            -p "${{ secrets.AZ_PASSWORD }}" \
-            --tenant "${{ secrets.AZ_TENANT_ID }}"
-
-      - name: Create AKS cluster
-        run: |
-          az aks create \
-            -g "kataCI" \
-            -n "${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-${{ matrix.vmm }}-amd64" \
-            -s "Standard_D4s_v5" \
-            --node-count 1 \
-            --generate-ssh-keys
-
-      - name: Install `bats`
-        run: |
-          sudo apt-get update
-          sudo apt-get -y install bats
-
-      - name: Install `kubectl`
-        run: |
-          sudo az aks install-cli
-
-      - name: Download credentials for the Kubernetes CLI to use them
-        run: |
-          az aks get-credentials -g "kataCI" -n ${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-${{ matrix.vmm }}-amd64
-
-      - name: Run tests
-        timeout-minutes: 35
-        run: |
-          sed -i -e "s|quay.io/kata-containers/kata-deploy:latest|${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}|g" tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml | grep "${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}" || die "Failed to setup the tests image"
-
-          kubectl apply -f tools/packaging/kata-deploy/kata-rbac/base/kata-rbac.yaml
-          kubectl apply -f tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          kubectl -n kube-system wait --timeout=10m --for=condition=Ready -l name=kata-deploy pod
-          kubectl apply -f tools/packaging/kata-deploy/runtimeclasses/kata-runtimeClasses.yaml
-
-          # This is needed as the kata-deploy pod will be set to "Ready" when it starts running,
-          # which may cause issues like not having the node properly labeled or the artefacts
-          # properly deployed when the tests actually start running.
-          sleep 150s
-
-          pushd tests/integration/kubernetes
-          sed -i -e 's|runtimeClassName: kata|runtimeClassName: kata-${{ matrix.vmm }}|' runtimeclass_workloads/*.yaml
-          bash run_kubernetes_tests.sh
-          popd
-        env:
-          KATA_HYPERVISOR: ${{ matrix.vmm }}
-
-      - name: Delete AKS cluster
-        if: always()
-        run: |
-          az aks delete \
-            -g "kataCI" \
-            -n "${{ github.event.pull_request.number }}-${{ github.event.pull_request.head.sha }}-${{ matrix.vmm }}-amd64" \
-            --yes \
-            --no-wait
--- a/.github/workflows/run-k8s-tests-on-sev.yaml
+++ b/.github/workflows/run-k8s-tests-on-sev.yaml
@@ -1,68 +0,0 @@
-name: CI | Run kubernetes tests on SEV
-on:
-  workflow_call:
-    inputs:
-      registry:
-        required: true
-        type: string
-      repo:
-        required: true
-        type: string
-      tag:
-        required: true
-        type: string
-
-jobs:
-  run-k8s-tests:
-    strategy:
-      fail-fast: false
-      matrix:
-        vmm:
-          - qemu-sev
-    runs-on: sev
-    env:
-      KUBECONFIG: /home/kata/.kube/config
-    steps:
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-
-      - name: Run tests
-        timeout-minutes: 30
-        run: |
-          sed -i -e "s|quay.io/kata-containers/kata-deploy:latest|${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}|g" tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml | grep "${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}" || die "Failed to setup the tests image"
-
-          kubectl apply -f tools/packaging/kata-deploy/kata-rbac/base/kata-rbac.yaml
-          kubectl apply -f tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          kubectl -n kube-system wait --timeout=10m --for=condition=Ready -l name=kata-deploy pod
-          kubectl apply -f tools/packaging/kata-deploy/runtimeclasses/kata-runtimeClasses.yaml
-
-          # This is needed as the kata-deploy pod will be set to "Ready" when it starts running,
-          # which may cause issues like not having the node properly labeled or the artefacts
-          # properly deployed when the tests actually start running.
-          sleep 60s
-
-          pushd tests/integration/kubernetes
-          sed -i -e 's|runtimeClassName: kata|runtimeClassName: kata-${{ matrix.vmm }}|' runtimeclass_workloads/*.yaml
-          bash run_kubernetes_tests.sh
-          popd
-        env:
-          KATA_HYPERVISOR: ${{ matrix.vmm }}
-
-      - name: Delete kata-deploy
-        if: always()
-        run: |
-          kubectl delete -f tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          kubectl -n kube-system wait --timeout=10m --for=delete -l name=kata-deploy pod
-
-          sed -i -e "s|quay.io/kata-containers/kata-deploy:latest|${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}|g" tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          cat tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          cat tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml | grep "${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}" || die "Failed to setup the tests image"
-          kubectl apply -f tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          sleep 180s
-
-          kubectl delete -f tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          kubectl delete -f tools/packaging/kata-deploy/kata-rbac/base/kata-rbac.yaml
-          kubectl delete -f tools/packaging/kata-deploy/runtimeclasses/kata-runtimeClasses.yaml
--- a/.github/workflows/run-k8s-tests-on-snp.yaml
+++ b/.github/workflows/run-k8s-tests-on-snp.yaml
@@ -1,68 +0,0 @@
-name: CI | Run kubernetes tests on SEV-SNP
-on:
-  workflow_call:
-    inputs:
-      registry:
-        required: true
-        type: string
-      repo:
-        required: true
-        type: string
-      tag:
-        required: true
-        type: string
-
-jobs:
-  run-k8s-tests:
-    strategy:
-      fail-fast: false
-      matrix:
-        vmm:
-          - qemu-snp
-    runs-on: sev-snp
-    env:
-      KUBECONFIG: /home/kata/.kube/config
-    steps:
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-
-      - name: Run tests
-        timeout-minutes: 30
-        run: |
-          sed -i -e "s|quay.io/kata-containers/kata-deploy:latest|${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}|g" tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml | grep "${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}" || die "Failed to setup the tests image"
-
-          kubectl apply -f tools/packaging/kata-deploy/kata-rbac/base/kata-rbac.yaml
-          kubectl apply -f tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          kubectl -n kube-system wait --timeout=10m --for=condition=Ready -l name=kata-deploy pod
-          kubectl apply -f tools/packaging/kata-deploy/runtimeclasses/kata-runtimeClasses.yaml
-
-          # This is needed as the kata-deploy pod will be set to "Ready" when it starts running,
-          # which may cause issues like not having the node properly labeled or the artefacts
-          # properly deployed when the tests actually start running.
-          sleep 60s
-
-          pushd tests/integration/kubernetes
-          sed -i -e 's|runtimeClassName: kata|runtimeClassName: kata-${{ matrix.vmm }}|' runtimeclass_workloads/*.yaml
-          bash run_kubernetes_tests.sh
-          popd
-        env:
-          KATA_HYPERVISOR: ${{ matrix.vmm }}
-
-      - name: Delete kata-deploy
-        if: always()
-        run: |
-          kubectl delete -f tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          kubectl -n kube-system wait --timeout=10m --for=delete -l name=kata-deploy pod
-
-          sed -i -e "s|quay.io/kata-containers/kata-deploy:latest|${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}|g" tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          cat tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          cat tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml | grep "${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}" || die "Failed to setup the tests image"
-          kubectl apply -f tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          sleep 180s
-
-          kubectl delete -f tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          kubectl delete -f tools/packaging/kata-deploy/kata-rbac/base/kata-rbac.yaml
-          kubectl delete -f tools/packaging/kata-deploy/runtimeclasses/kata-runtimeClasses.yaml
--- a/.github/workflows/run-k8s-tests-on-tdx.yaml
+++ b/.github/workflows/run-k8s-tests-on-tdx.yaml
@@ -1,68 +0,0 @@
-name: CI | Run kubernetes tests on TDX
-on:
-  workflow_call:
-    inputs:
-      registry:
-        required: true
-        type: string
-      repo:
-        required: true
-        type: string
-      tag:
-        required: true
-        type: string
-
-jobs:
-  run-k8s-tests:
-    strategy:
-      fail-fast: false
-      matrix:
-        vmm:
-          - qemu-tdx
-    runs-on: tdx
-    env:
-      KUBECONFIG: /etc/rancher/k3s/k3s.yaml
-    steps:
-      - uses: actions/checkout@v3
-        with:
-          ref: ${{ github.event.pull_request.head.sha }}
-
-      - name: Run tests
-        timeout-minutes: 30
-        run: |
-          sed -i -e "s|quay.io/kata-containers/kata-deploy:latest|${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}|g" tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml
-          cat tools/packaging/kata-deploy/kata-deploy/base/kata-deploy.yaml | grep "${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}" || die "Failed to setup the tests image"
-
-          kubectl apply -f tools/packaging/kata-deploy/kata-rbac/base/kata-rbac.yaml
-          kubectl apply -k tools/packaging/kata-deploy/kata-deploy/overlays/k3s
-          kubectl -n kube-system wait --timeout=10m --for=condition=Ready -l name=kata-deploy pod
-          kubectl apply -f tools/packaging/kata-deploy/runtimeclasses/kata-runtimeClasses.yaml
-
-          # This is needed as the kata-deploy pod will be set to "Ready" when it starts running,
-          # which may cause issues like not having the node properly labeled or the artefacts
-          # properly deployed when the tests actually start running.
-          sleep 60s
-
-          pushd tests/integration/kubernetes
-          sed -i -e 's|runtimeClassName: kata|runtimeClassName: kata-${{ matrix.vmm }}|' runtimeclass_workloads/*.yaml
-          bash run_kubernetes_tests.sh
-          popd
-        env:
-          KATA_HYPERVISOR: ${{ matrix.vmm }}
-
-      - name: Delete kata-deploy
-        if: always()
-        run: |
-          kubectl delete -k tools/packaging/kata-deploy/kata-deploy/overlays/k3s
-          kubectl -n kube-system wait --timeout=10m --for=delete -l name=kata-deploy pod
-
-          sed -i -e "s|quay.io/kata-containers/kata-deploy:latest|${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}|g" tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          cat tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml
-          cat tools/packaging/kata-deploy/kata-cleanup/base/kata-cleanup.yaml | grep "${{ inputs.registry }}/${{ inputs.repo }}:${{ inputs.tag }}" || die "Failed to setup the tests image"
-          kubectl apply -k tools/packaging/kata-deploy/kata-cleanup/overlays/k3s
-          sleep 180s
-
-          kubectl delete -k tools/packaging/kata-deploy/kata-cleanup/overlays/k3s
-          kubectl delete -f tools/packaging/kata-deploy/kata-rbac/base/kata-rbac.yaml
-          kubectl delete -f tools/packaging/kata-deploy/runtimeclasses/kata-runtimeClasses.yaml
--- a/.github/workflows/snap-release.yaml
+++ b/.github/workflows/snap-release.yaml
@@ -1,38 +1,24 @@
-name: Release Kata in snapcraft store
+name: Release Kata 2.x in snapcraft store
 on:
  push:
    tags:
-      - '[0-9]+.[0-9]+.[0-9]+*'
-
-env:
-  SNAPCRAFT_STORE_CREDENTIALS: ${{ secrets.snapcraft_token }}
-
+      - '2.*'
 jobs:
  release-snap:
    runs-on: ubuntu-20.04
    steps:
      - name: Check out Git repository
-        uses: actions/checkout@v3
+        uses: actions/checkout@v2
        with:
          fetch-depth: 0

      - name: Install Snapcraft
-        run: |
-          # Required to avoid snapcraft install failure
-          sudo chown root:root /
-
-          # "--classic" is needed for the GitHub action runner
-          # environment.
-          sudo snap install snapcraft --classic
-
-          # Allow other parts to access snap binaries
-          echo /snap/bin >> "$GITHUB_PATH"
+        uses: samuelmeuli/action-snapcraft@v1
+        with:
+          snapcraft_token: ${{ secrets.snapcraft_token }}

      - name: Build snap
        run: |
-          # Removing man-db, workflow kept failing, fixes: #4480
-          sudo apt -y remove --purge man-db
-          sudo apt-get update
          sudo apt-get install -y git git-extras
          kata_url="https://github.com/kata-containers/kata-containers"
          latest_version=$(git ls-remote --tags ${kata_url}  | egrep -o "refs.*" | egrep -v "\-alpha|\-rc|{}" | egrep -o "[[:digit:]]+\.[[:digit:]]+\.[[:digit:]]+" | sort -V -r | head -1)
--- a/.github/workflows/snap.yaml
+++ b/.github/workflows/snap.yaml
@@ -6,7 +6,6 @@ on:
      - synchronize
      - reopened
      - edited
-    paths-ignore: [ '**.md', '**.png', '**.jpg', '**.jpeg', '**.svg', '/docs/**' ]

 jobs:
  test:
@@ -14,22 +13,13 @@ jobs:
    steps:
      - name: Check out
        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        uses: actions/checkout@v3
+        uses: actions/checkout@v2
        with:
          fetch-depth: 0

      - name: Install Snapcraft
        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        run: |
-          # Required to avoid snapcraft install failure
-          sudo chown root:root /
-
-          # "--classic" is needed for the GitHub action runner
-          # environment.
-          sudo snap install snapcraft --classic
-
-          # Allow other parts to access snap binaries
-          echo /snap/bin >> "$GITHUB_PATH"
+        uses: samuelmeuli/action-snapcraft@v1

      - name: Build snap
        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
--- a/.github/workflows/static-checks-dragonball.yaml
+++ b/.github/workflows/static-checks-dragonball.yaml
@@ -1,33 +0,0 @@
-on:
-  pull_request:
-    types:
-      - opened
-      - edited
-      - reopened
-      - synchronize
-    paths-ignore: [ '**.md', '**.png', '**.jpg', '**.jpeg', '**.svg', '/docs/**' ]
-
-name: Static checks dragonball
-jobs:
-  test-dragonball:
-    runs-on: self-hosted
-    env:
-      RUST_BACKTRACE: "1"
-    steps:
-      - uses: actions/checkout@v3
-      - name: Set env
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        run: |
-          echo "GOPATH=${{ github.workspace }}" >> $GITHUB_ENV
-      - name: Install Rust
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        run: |
-          ./ci/install_rust.sh
-          PATH=$PATH:"$HOME/.cargo/bin"
-      - name: Run Unit Test
-        if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
-        run: |
-          cd src/dragonball
-          cargo version
-          rustc --version
-          sudo -E env PATH=$PATH LIBC=gnu SUPPORT_VIRTUALIZATION=true make test
--- a/.github/workflows/static-checks.yaml
+++ b/.github/workflows/static-checks.yaml
@@ -8,57 +8,56 @@ on:

 name: Static checks
 jobs:
-  static-checks:
-    runs-on: ubuntu-20.04
+  test:
    strategy:
      matrix:
-        cmd:
-          - "make vendor"
-          - "make static-checks"
-          - "make check"
-          - "make test"
-          - "sudo -E PATH=\"$PATH\" make test"
+        go-version: [1.16.x, 1.17.x]
+        os: [ubuntu-20.04]
+    runs-on: ${{ matrix.os }}
    env:
+      TRAVIS: "true"
+      TRAVIS_BRANCH: ${{ github.base_ref }}
+      TRAVIS_PULL_REQUEST_BRANCH: ${{ github.head_ref }}
+      TRAVIS_PULL_REQUEST_SHA : ${{ github.event.pull_request.head.sha }}
      RUST_BACKTRACE: "1"
      target_branch: ${{ github.base_ref }}
-      GOPATH: ${{ github.workspace }}
    steps:
-    - name: Free disk space
+    - name: Install Go
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+      uses: actions/setup-go@v2
+      with:
+        go-version: ${{ matrix.go-version }}
+      env:
+        GOPATH: ${{ runner.workspace }}/kata-containers
+    - name: Setup GOPATH
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
      run: |
-        sudo rm -rf /usr/share/dotnet
-        sudo rm -rf "$AGENT_TOOLSDIRECTORY"
+        echo "TRAVIS_BRANCH: ${TRAVIS_BRANCH}"
+        echo "TRAVIS_PULL_REQUEST_BRANCH: ${TRAVIS_PULL_REQUEST_BRANCH}"
+        echo "TRAVIS_PULL_REQUEST_SHA: ${TRAVIS_PULL_REQUEST_SHA}"
+        echo "TRAVIS: ${TRAVIS}"
+    - name: Set env
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+      run: |
+        echo "GOPATH=${{ github.workspace }}" >> $GITHUB_ENV
+        echo "${{ github.workspace }}/bin" >> $GITHUB_PATH
    - name: Checkout code
-      uses: actions/checkout@v3
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+      uses: actions/checkout@v2
      with:
        fetch-depth: 0
        path: ./src/github.com/${{ github.repository }}
-    - name: Install Go
-      uses: actions/setup-go@v3
-      with:
-        go-version: 1.19.3
-    - name: Check kernel config version
-      run: |
-        cd "${{ github.workspace }}/src/github.com/${{ github.repository }}"
-        kernel_dir="tools/packaging/kernel/"
-        kernel_version_file="${kernel_dir}kata_config_version"
-        modified_files=$(git diff --name-only origin/CCv0..HEAD)
-        if git diff --name-only origin/CCv0..HEAD "${kernel_dir}" | grep "${kernel_dir}"; then
-          echo "Kernel directory has changed, checking if $kernel_version_file has been updated"
-          if echo "$modified_files" | grep -v "README.md" | grep "${kernel_dir}" >>"/dev/null"; then
-            echo "$modified_files" | grep "$kernel_version_file" >>/dev/null || ( echo "Please bump version in $kernel_version_file" && exit 1)
-          else
-            echo "Readme file changed, no need for kernel config version update."
-          fi
-          echo "Check passed"
-        fi
-    - name: Set PATH
+    - name: Setup travis references
      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
      run: |
-        echo "${{ github.workspace }}/bin" >> $GITHUB_PATH
+        echo "TRAVIS_BRANCH=${TRAVIS_BRANCH:-$(echo $GITHUB_REF | awk 'BEGIN { FS = \"/\" } ; { print $3 }')}"
+        target_branch=${TRAVIS_BRANCH}
    - name: Setup
      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
      run: |
        cd ${GOPATH}/src/github.com/${{ github.repository }} && ./ci/setup.sh
+      env:
+        GOPATH: ${{ runner.workspace }}/kata-containers
    - name: Installing rust
      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
      run: |
@@ -67,7 +66,6 @@ jobs:
        rustup target add x86_64-unknown-linux-musl
        rustup component add rustfmt clippy
    - name: Setup seccomp
-      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
      run: |
        libseccomp_install_dir=$(mktemp -d -t libseccomp.XXXXXXXXXX)
        gperf_install_dir=$(mktemp -d -t gperf.XXXXXXXXXX)
@@ -75,7 +73,24 @@ jobs:
        echo "Set environment variables for the libseccomp crate to link the libseccomp library statically"
        echo "LIBSECCOMP_LINK_TYPE=static" >> $GITHUB_ENV
        echo "LIBSECCOMP_LIB_PATH=${libseccomp_install_dir}/lib" >> $GITHUB_ENV
-    - name: Run check
+    # Check whether the vendored code is up-to-date & working as the first thing
+    - name: Check vendored code
      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
      run: |
-        cd ${GOPATH}/src/github.com/${{ github.repository }} && ${{ matrix.cmd }}
+        cd ${GOPATH}/src/github.com/${{ github.repository }} && make vendor
+    - name: Static Checks
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+      run: |
+        cd ${GOPATH}/src/github.com/${{ github.repository }} && make static-checks
+    - name: Run Compiler Checks
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+      run: |
+        cd ${GOPATH}/src/github.com/${{ github.repository }} && make check
+    - name: Run Unit Tests
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+      run: |
+        cd ${GOPATH}/src/github.com/${{ github.repository }} && make test
+    - name: Run Unit Tests As Root User
+      if: ${{ !contains(github.event.pull_request.labels.*.name, 'force-skip-ci') }}
+      run: |
+        cd ${GOPATH}/src/github.com/${{ github.repository }} && sudo -E PATH="$PATH" make test
--- a/.gitignore
+++ b/.gitignore
@@ -4,14 +4,10 @@
 **/*.rej
 **/target
 **/.vscode
-**/.idea
-**/.fleet
-**/*.swp
-**/*.swo
 pkg/logging/Cargo.lock
 src/agent/src/version.rs
 src/agent/kata-agent.service
 src/agent/protocols/src/*.rs
 !src/agent/protocols/src/lib.rs
 build
-src/tools/log-parser/kata-log-parser
+
--- a/27
+++ b/27
@@ -6,26 +6,24 @@
 # List of available components
 COMPONENTS =

-COMPONENTS += libs
 COMPONENTS += agent
-COMPONENTS += dragonball
 COMPONENTS += runtime
-COMPONENTS += runtime-rs

 # List of available tools
 TOOLS =

 TOOLS += agent-ctl
-TOOLS += kata-ctl
-TOOLS += log-parser
-TOOLS += log-parser-rs
-TOOLS += runk
 TOOLS += trace-forwarder

-STANDARD_TARGETS = build check clean install static-checks-build test vendor
+STANDARD_TARGETS = build check clean install test vendor

 default: all

+all: logging-crate-tests build
+
+logging-crate-tests:
+	make -C src/libs/logging
+
 include utils.mk
 include ./tools/packaging/kata-deploy/local-build/Makefile

@@ -38,16 +36,13 @@ generate-protocols:
 	make -C src/agent generate-protocols

 # Some static checks rely on generated source files of components.
-static-checks: static-checks-build
+static-checks: build
 	bash ci/static-checks.sh

-docs-url-alive-check:
-	bash ci/docs-url-alive-check.sh
-
 .PHONY: \
 	all \
-	kata-tarball \
-	install-tarball \
+	binary-tarball \
 	default \
-	static-checks \
-	docs-url-alive-check
+	install-binary-tarball \
+	logging-crate-tests \
+	static-checks
--- a/README.md
+++ b/README.md
@@ -71,7 +71,6 @@ See the [official documentation](docs) including:
 - [Developer guide](docs/Developer-Guide.md)
 - [Design documents](docs/design)
  - [Architecture overview](docs/design/architecture)
-  - [Architecture 3.0 overview](docs/design/architecture_3.0/)

 ## Configuration

@@ -117,9 +116,7 @@ The table below lists the core parts of the project:
 | Component | Type | Description |
 |-|-|-|
 | [runtime](src/runtime) | core | Main component run by a container manager and providing a containerd shimv2 runtime implementation. |
-| [runtime-rs](src/runtime-rs) | core | The Rust version runtime. |
 | [agent](src/agent) | core | Management process running inside the virtual machine / POD that sets up the container environment. |
-| [`dragonball`](src/dragonball) | core | An optional built-in VMM brings out-of-the-box Kata Containers experience with optimizations on container workloads |
 | [documentation](docs) | documentation | Documentation common to all components (such as design and install documentation). |
 | [tests](https://github.com/kata-containers/tests) | tests | Excludes unit tests which live with the main code. |

@@ -133,10 +130,7 @@ The table below lists the remaining parts of the project:
 | [kernel](https://www.kernel.org) | kernel | Linux kernel used by the hypervisor to boot the guest image. Patches are stored [here](tools/packaging/kernel). |
 | [osbuilder](tools/osbuilder) | infrastructure | Tool to create "mini O/S" rootfs and initrd images and kernel for the hypervisor. |
 | [`agent-ctl`](src/tools/agent-ctl) | utility | Tool that provides low-level access for testing the agent. |
-| [`kata-ctl`](src/tools/kata-ctl) | utility | Tool that provides advanced commands and debug facilities. |
-| [`log-parser-rs`](src/tools/log-parser-rs) | utility | Tool that aid in analyzing logs from the kata runtime. |
 | [`trace-forwarder`](src/tools/trace-forwarder) | utility | Agent tracing helper. |
-| [`runk`](src/tools/runk) | utility | Standard OCI container runtime based on the agent. |
 | [`ci`](https://github.com/kata-containers/ci) | CI | Continuous Integration configuration files and scripts. |
 | [`katacontainers.io`](https://github.com/kata-containers/www.katacontainers.io) | Source for the [`katacontainers.io`](https://www.katacontainers.io) site. |

@@ -144,7 +138,7 @@ The table below lists the remaining parts of the project:

 Kata Containers is now
 [available natively for most distributions](docs/install/README.md#packaged-installation-methods).
-However, packaging scripts and metadata are still used to generate [snap](snap/local) and GitHub releases. See
+However, packaging scripts and metadata are still used to generate snap and GitHub releases. See
 the [components](#components) section for further details.

 ## Glossary of Terms
--- a/2
+++ b/2
@@ -1 +1 @@
-3.2.0-alpha3
+2.4.3
--- a/ci/darwin-test.sh
+++ b/ci/darwin-test.sh
@@ -11,10 +11,10 @@ runtimedir=$cidir/../src/runtime

 build_working_packages() {
 	# working packages:
-	device_api=$runtimedir/pkg/device/api
-	device_config=$runtimedir/pkg/device/config
-	device_drivers=$runtimedir/pkg/device/drivers
-	device_manager=$runtimedir/pkg/device/manager
+	device_api=$runtimedir/virtcontainers/device/api
+	device_config=$runtimedir/virtcontainers/device/config
+	device_drivers=$runtimedir/virtcontainers/device/drivers
+	device_manager=$runtimedir/virtcontainers/device/manager
 	rc_pkg_dir=$runtimedir/pkg/resourcecontrol/
 	utils_pkg_dir=$runtimedir/virtcontainers/utils

--- a/ci/docs-url-alive-check.sh
+++ b/ci/docs-url-alive-check.sh
@@ -1,6 +1,6 @@
-#!/bin/bash
+#!/usr/bin/env bash
 #
-# Copyright (c) 2021 Easystack Inc.
+# Copyright (c) 2020 Intel Corporation
 #
 # SPDX-License-Identifier: Apache-2.0

@@ -9,4 +9,4 @@ set -e
 cidir=$(dirname "$0")
 source "${cidir}/lib.sh"

-run_docs_url_alive_check
+run_go_test
--- a/ci/install_libseccomp.sh
+++ b/ci/install_libseccomp.sh
@@ -19,31 +19,29 @@ source "${tests_repo_dir}/.ci/lib.sh"
 # fail. So let's ensure they are unset here.
 unset PREFIX DESTDIR

-arch=${ARCH:-$(uname -m)}
+arch=$(uname -m)
 workdir="$(mktemp -d --tmpdir build-libseccomp.XXXXX)"

 # Variables for libseccomp
-libseccomp_version="${LIBSECCOMP_VERSION:-""}"
-if [ -z "${libseccomp_version}" ]; then
-    libseccomp_version=$(get_version "externals.libseccomp.version")
-fi
-libseccomp_url="${LIBSECCOMP_URL:-""}"
-if [ -z "${libseccomp_url}" ]; then
-    libseccomp_url=$(get_version "externals.libseccomp.url")
-fi
+# Currently, specify the libseccomp version directly without using `versions.yaml`
+# because the current Snap workflow is incomplete.
+# After solving the issue, replace this code by using the `versions.yaml`.
+# libseccomp_version=$(get_version "externals.libseccomp.version")
+# libseccomp_url=$(get_version "externals.libseccomp.url")
+libseccomp_version="2.5.1"
+libseccomp_url="https://github.com/seccomp/libseccomp"
 libseccomp_tarball="libseccomp-${libseccomp_version}.tar.gz"
 libseccomp_tarball_url="${libseccomp_url}/releases/download/v${libseccomp_version}/${libseccomp_tarball}"
 cflags="-O2"

 # Variables for gperf
-gperf_version="${GPERF_VERSION:-""}"
-if [ -z "${gperf_version}" ]; then
-    gperf_version=$(get_version "externals.gperf.version")
-fi
-gperf_url="${GPERF_URL:-""}"
-if [ -z "${gperf_url}" ]; then
-    gperf_url=$(get_version "externals.gperf.url")
-fi
+# Currently, specify the gperf version directly without using `versions.yaml`
+# because the current Snap workflow is incomplete.
+# After solving the issue, replace this code by using the `versions.yaml`.
+# gperf_version=$(get_version "externals.gperf.version")
+# gperf_url=$(get_version "externals.gperf.url")
+gperf_version="3.1"
+gperf_url="https://ftp.gnu.org/gnu/gperf"
 gperf_tarball="gperf-${gperf_version}.tar.gz"
 gperf_tarball_url="${gperf_url}/${gperf_tarball}"

@@ -72,9 +70,7 @@ build_and_install_gperf() {
    curl -sLO "${gperf_tarball_url}"
    tar -xf "${gperf_tarball}"
    pushd "gperf-${gperf_version}"
-    # gperf is a build time dependency of libseccomp and not to be used in the target.
-    # Unset $CC since that might point to a cross compiler.
-    CC= ./configure --prefix="${gperf_install_dir}"
+    ./configure --prefix="${gperf_install_dir}"
    make
    make install
    export PATH=$PATH:"${gperf_install_dir}"/bin
@@ -88,7 +84,7 @@ build_and_install_libseccomp() {
    curl -sLO "${libseccomp_tarball_url}"
    tar -xf "${libseccomp_tarball}"
    pushd "libseccomp-${libseccomp_version}"
-    ./configure --prefix="${libseccomp_install_dir}" CFLAGS="${cflags}" --enable-static --host="${arch}"
+    ./configure --prefix="${libseccomp_install_dir}" CFLAGS="${cflags}" --enable-static
    make
    make install
    popd
--- a/ci/install_musl.sh
+++ b/ci/install_musl.sh
@@ -0,0 +1,24 @@
+#!/usr/bin/env bash
+# Copyright (c) 2020 Ant Group
+#
+# SPDX-License-Identifier: Apache-2.0
+#
+
+set -e
+
+install_aarch64_musl() {
+	local arch=$(uname -m)
+	if [ "${arch}" == "aarch64" ]; then
+		local musl_tar="${arch}-linux-musl-native.tgz"
+		local musl_dir="${arch}-linux-musl-native"
+		pushd /tmp
+		if curl -sLO --fail https://musl.cc/${musl_tar}; then
+			tar -zxf ${musl_tar}
+			mkdir -p /usr/local/musl/
+			cp -r ${musl_dir}/* /usr/local/musl/
+		fi
+		popd
+	fi
+}
+
+install_aarch64_musl
--- a/ci/install_yq.sh
+++ b/ci/install_yq.sh
@@ -43,16 +43,6 @@ function install_yq() {
 	"aarch64")
 		goarch=arm64
 		;;
-	"arm64")
-		# If we're on an apple silicon machine, just assign amd64. 
-		# The version of yq we use doesn't have a darwin arm build, 
-		# but Rosetta can come to the rescue here.
-		if [ $goos == "Darwin" ]; then 
-			goarch=amd64
-		else 
-			goarch=arm64
-		fi
-		;;
 	"ppc64le")
 		goarch=ppc64le
 		;;
@@ -74,7 +64,7 @@ function install_yq() {
 	fi

 	## NOTE: ${var,,} => gives lowercase value of var
-	local yq_url="https://${yq_pkg}/releases/download/${yq_version}/yq_${goos}_${goarch}"
+	local yq_url="https://${yq_pkg}/releases/download/${yq_version}/yq_${goos,,}_${goarch}"
 	curl -o "${yq_path}" -LSsf "${yq_url}"
 	[ $? -ne 0 ] && die "Download ${yq_url} failed"
 	chmod +x "${yq_path}"
--- a/ci/lib.sh
+++ b/ci/lib.sh
@@ -18,13 +18,6 @@ clone_tests_repo()
 {
 	if [ -d "$tests_repo_dir" ]; then
 		[ -n "${CI:-}" ] && return
-		# git config --global --add safe.directory will always append
-		# the target to .gitconfig without checking the existence of
-		# the target, so it's better to check it before adding the target repo.
-		local sd="$(git config --global --get safe.directory ${tests_repo_dir} || true)"
-		if [ -z "${sd}" ]; then
-			git config --global --add safe.directory ${tests_repo_dir}
-		fi
 		pushd "${tests_repo_dir}"
 		git checkout "${branch}"
 		git pull
@@ -46,104 +39,8 @@ run_static_checks()
 	bash "$tests_repo_dir/.ci/static-checks.sh" "$@"
 }

-run_docs_url_alive_check()
+run_go_test()
 {
 	clone_tests_repo
-	# Make sure we have the targeting branch
-	git remote set-branches --add origin "${branch}"
-	git fetch -a
-	bash "$tests_repo_dir/.ci/static-checks.sh" --docs --all "github.com/kata-containers/kata-containers"
-}
-
-run_get_pr_changed_file_details()
-{
-	clone_tests_repo
-	# Make sure we have the targeting branch
-	git remote set-branches --add origin "${branch}"
-	git fetch -a
-	source "$tests_repo_dir/.ci/lib.sh"
-	get_pr_changed_file_details
-}
-
-# Check if the 1st argument version is greater than and equal to 2nd one
-# Version format: [0-9]+ separated by period (e.g. 2.4.6, 1.11.3 and etc.)
-#
-# Parameters:
-#	$1	- a version to be tested
-#	$2	- a target version
-#
-# Return:
-# 	0 if $1 is greater than and equal to $2
-#	1 otherwise
-version_greater_than_equal() {
-	local current_version=$1
-	local target_version=$2
-	smaller_version=$(echo -e "$current_version\n$target_version" | sort -V | head -1)
-	if [ "${smaller_version}" = "${target_version}" ]; then
-		return 0
-	else
-		return 1
-	fi
-}
-
-# Build a IBM zSystem secure execution (SE) image
-#
-# Parameters:
-#	$1	- kernel_parameters
-#	$2	- a source directory where kernel and initrd are located
-#	$3	- a destination directory where a SE image is built
-#
-# Return:
-# 	0 if the image is successfully built
-#	1 otherwise
-build_secure_image() {
-	kernel_params="${1:-}"
-	install_src_dir="${2:-}"
-	install_dest_dir="${3:-}"
-
-	if [ ! -f "${install_src_dir}/vmlinuz.container" ] ||
-		[ ! -f "${install_src_dir}/kata-containers-initrd.img" ]; then
-		cat << EOF >&2
-Either kernel or initrd does not exist or is mistakenly named
-A file name for kernel must be vmlinuz.container (raw binary)
-A file name for initrd must be kata-containers-initrd.img
-EOF
-		return 1
-	fi
-
-	cmdline="${kernel_params} panic=1 scsi_mod.scan=none swiotlb=262144"
-	parmfile="$(mktemp --suffix=-cmdline)"
-	echo "${cmdline}" > "${parmfile}"
-	chmod 600 "${parmfile}"
-
-	[ -n "${HKD_PATH:-}" ] || (echo >&2 "No host key document specified." && return 1)
-	cert_list=($(ls -1 $HKD_PATH))
-	declare hkd_options
-	eval "for cert in ${cert_list[*]}; do
-		hkd_options+=\"--host-key-document=\\\"\$HKD_PATH/\$cert\\\" \"
-	done"
-
-	command -v genprotimg > /dev/null 2>&1 || { apt update; apt install -y s390-tools; }
-	extra_arguments=""
-	genprotimg_version=$(genprotimg --version | grep -Po '(?<=version )[^-]+')
-	if ! version_greater_than_equal "${genprotimg_version}" "2.17.0"; then
-		extra_arguments="--x-pcf '0xe0'"
-	fi
-
-	eval genprotimg \
-		"${extra_arguments}" \
-		"${hkd_options}" \
-		--output="${install_dest_dir}/kata-containers-secure.img" \
-		--image="${install_src_dir}/vmlinuz.container" \
-		--ramdisk="${install_src_dir}/kata-containers-initrd.img" \
-		--parmfile="${parmfile}" \
-		--no-verify # no verification for CI testing purposes
-
-	build_result=$?
-	rm -f "${parmfile}"
-	if [ $build_result -eq 0 ]; then
-		return 0
-	else
-		return 1
-	fi
+	bash "$tests_repo_dir/.ci/go-test.sh"
 }
--- a/deny.toml
+++ b/deny.toml
@@ -1,33 +0,0 @@
-targets = [
-    { triple = "x86_64-apple-darwin" },
-    { triple = "x86_64-unknown-linux-gnu" },
-    { triple = "x86_64-unknown-linux-musl" },
-]
-
-[advisories]
-vulnerability = "deny"
-unsound = "deny"
-unmaintained = "deny"
-ignore = ["RUSTSEC-2020-0071"]
-
-[bans]
-multiple-versions = "allow"
-deny = [
-    { name = "cmake" },
-    { name = "openssl-sys" },
-]
-
-[licenses]
-unlicensed = "deny"
-allow-osi-fsf-free = "neither"
-copyleft = "allow"
-# We want really high confidence when inferring licenses from text
-confidence-threshold = 0.93
-allow = ["0BSD", "Apache-2.0", "BSD-2-Clause", "BSD-3-Clause", "CC0-1.0", "ISC", "MIT", "MPL-2.0"]
-private = { ignore = true}
-
-exceptions = []
-
-[sources]
-unknown-registry = "allow"
-unknown-git = "allow"
--- a/docs/Developer-Guide.md
+++ b/docs/Developer-Guide.md
@@ -2,8 +2,6 @@

 This document is written **specifically for developers**: it is not intended for end users.

-If you want to contribute changes that you have made, please read the [community guidelines](https://github.com/kata-containers/community/blob/main/CONTRIBUTING.md) for information about our processes.
-
 # Assumptions

 - You are working on a non-critical test or development system.
@@ -35,41 +33,51 @@ You need to install the following to build Kata Containers components:
 - `make`.
 - `gcc` (required for building the shim and runtime).

-# Build and install Kata Containers
-## Build and install the Kata Containers runtime
+# Build and install the Kata Containers runtime

-```bash
-$ git clone https://github.com/kata-containers/kata-containers.git
-$ pushd kata-containers/src/runtime
-$ make && sudo -E "PATH=$PATH" make install
-$ sudo mkdir -p /etc/kata-containers/
-$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
-$ popd
+```
+$ go get -d -u github.com/kata-containers/kata-containers
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/src/runtime
+$ make && sudo -E PATH=$PATH make install
 ```

 The build will create the following:

 - runtime binary: `/usr/local/bin/kata-runtime` and `/usr/local/bin/containerd-shim-kata-v2`
- configuration file: `/usr/share/defaults/kata-containers/configuration.toml` and `/etc/kata-containers/configuration.toml`
+- configuration file: `/usr/share/defaults/kata-containers/configuration.toml`
+
+# Check hardware requirements
+
+You can check if your system is capable of creating a Kata Container by running the following:
+
+```
+$ sudo kata-runtime check
+```
+
+If your system is *not* able to run Kata Containers, the previous command will error out and explain why.

 ## Configure to use initrd or rootfs image

 Kata containers can run with either an initrd image or a rootfs image.

-If you want to test with `initrd`, make sure you have uncommented `initrd = /usr/share/kata-containers/kata-containers-initrd.img`
-in your configuration file, commenting out the `image` line in
-`/etc/kata-containers/configuration.toml`. For example:
+If you want to test with `initrd`, make sure you have `initrd = /usr/share/kata-containers/kata-containers-initrd.img`
+in your configuration file, commenting out the `image` line:

-```bash
+`/usr/share/defaults/kata-containers/configuration.toml` and comment out the `image` line with the following. For example:
+
+```
+$ sudo mkdir -p /etc/kata-containers/
+$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
 $ sudo sed -i 's/^\(image =.*\)/# \1/g' /etc/kata-containers/configuration.toml
-$ sudo sed -i 's/^# \(initrd =.*\)/\1/g' /etc/kata-containers/configuration.toml
 ```
 You can create the initrd image as shown in the [create an initrd image](#create-an-initrd-image---optional) section.

-If you want to test with a rootfs `image`, make sure you have uncommented `image = /usr/share/kata-containers/kata-containers.img`
+If you want to test with a rootfs `image`, make sure you have `image = /usr/share/kata-containers/kata-containers.img`
 in your configuration file, commenting out the `initrd` line. For example:

-```bash
+```
+$ sudo mkdir -p /etc/kata-containers/
+$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
 $ sudo sed -i 's/^\(initrd =.*\)/# \1/g' /etc/kata-containers/configuration.toml
 ```
 The rootfs image is created as shown in the [create a rootfs image](#create-a-rootfs-image) section.
@@ -82,38 +90,19 @@ rootfs `image`(100MB+).

 Enable seccomp as follows:

-```bash
+```
 $ sudo sed -i '/^disable_guest_seccomp/ s/true/false/' /etc/kata-containers/configuration.toml
 ```

 This will pass container seccomp profiles to the kata agent.

-## Enable SELinux on the guest
-
-> **Note:**
->
-> - To enable SELinux on the guest, SELinux MUST be also enabled on the host.
-> - You MUST create and build a rootfs image for SELinux in advance.
->   See [Create a rootfs image](#create-a-rootfs-image) and [Build a rootfs image](#build-a-rootfs-image).
-> - SELinux on the guest is supported in only a rootfs image currently, so
->   you cannot enable SELinux with the agent init (`AGENT_INIT=yes`) yet.
-
-Enable guest SELinux in Enforcing mode as follows:
-
-```
-$ sudo sed -i '/^disable_guest_selinux/ s/true/false/g' /etc/kata-containers/configuration.toml
-```
-
-The runtime automatically will set `selinux=1` to the kernel parameters and `xattr` option to
-`virtiofsd` when `disable_guest_selinux` is set to `false`.
-
-If you want to enable SELinux in Permissive mode, add `enforcing=0` to the kernel parameters.
-
 ## Enable full debug

 Enable full debug as follows:

-```bash
+```
+$ sudo mkdir -p /etc/kata-containers/
+$ sudo install -o root -g root -m 0640 /usr/share/defaults/kata-containers/configuration.toml /etc/kata-containers
 $ sudo sed -i -e 's/^# *\(enable_debug\).*=.*$/\1 = true/g' /etc/kata-containers/configuration.toml
 $ sudo sed -i -e 's/^kernel_params = "\(.*\)"/kernel_params = "\1 agent.log=debug initcall_debug"/g' /etc/kata-containers/configuration.toml
 ```
@@ -127,7 +116,7 @@ detailed below.
 The Kata logs appear in the `containerd` log files, along with logs from `containerd` itself.

 For more information about `containerd` debug, please see the
-[`containerd` documentation](https://github.com/containerd/containerd/blob/main/docs/getting-started.md).
+[`containerd` documentation](https://github.com/containerd/containerd/blob/master/docs/getting-started.md).

 #### Enabling full `containerd` debug

@@ -186,7 +175,7 @@ and offers possible workarounds and fixes.
 it stores. When messages are suppressed, it is noted in the logs. This can be checked
 for by looking for those notifications, such as:

-```bash
+```sh
 $ sudo journalctl --since today | fgrep Suppressed
 Jun 29 14:51:17 mymachine systemd-journald[346]: Suppressed 4150 messages from /system.slice/docker.service
 ```
@@ -211,7 +200,7 @@ RateLimitBurst=0

 Restart `systemd-journald` for the changes to take effect:

-```bash
+```sh
 $ sudo systemctl restart systemd-journald
 ```

@@ -225,52 +214,39 @@ $ sudo systemctl restart systemd-journald

 The agent is built with a statically linked `musl.` The default `libc` used is `musl`, but on `ppc64le` and `s390x`, `gnu` should be used. To configure this:

-```bash
-$ export ARCH="$(uname -m)"
+```
+$ export ARCH=$(uname -m)
 $ if [ "$ARCH" = "ppc64le" -o "$ARCH" = "s390x" ]; then export LIBC=gnu; else export LIBC=musl; fi
-$ [ "${ARCH}" == "ppc64le" ] && export ARCH=powerpc64le
-$ rustup target add "${ARCH}-unknown-linux-${LIBC}"
+$ [ ${ARCH} == "ppc64le" ] && export ARCH=powerpc64le
+$ rustup target add ${ARCH}-unknown-linux-${LIBC}
 ```

 To build the agent:

+```
+$ go get -d -u github.com/kata-containers/kata-containers
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/src/agent && make
+```
+
 The agent is built with seccomp capability by default.
 If you want to build the agent without the seccomp capability, you need to run `make` with `SECCOMP=no` as follows.

-```bash
-$ make -C kata-containers/src/agent SECCOMP=no
 ```
-
-For building the agent with seccomp support using `musl`, set the environment
-variables for the [`libseccomp` crate](https://github.com/libseccomp-rs/libseccomp-rs).
-
-```bash
-$ export LIBSECCOMP_LINK_TYPE=static
-$ export LIBSECCOMP_LIB_PATH="the path of the directory containing libseccomp.a"
-$ make -C kata-containers/src/agent
+$ make -C $GOPATH/src/github.com/kata-containers/kata-containers/src/agent SECCOMP=no
 ```

-If the compilation fails when the agent tries to link the `libseccomp` library statically
-against `musl`, you will need to build `libseccomp` manually with `-U_FORTIFY_SOURCE`.
-You can use [our script](https://github.com/kata-containers/kata-containers/blob/main/ci/install_libseccomp.sh)
-to install `libseccomp` for the agent.
-
-```bash
-$ mkdir -p ${seccomp_install_path} ${gperf_install_path}
-$ kata-containers/ci/install_libseccomp.sh ${seccomp_install_path} ${gperf_install_path}
-$ export LIBSECCOMP_LIB_PATH="${seccomp_install_path}/lib"
-```
-
-On `ppc64le` and `s390x`, `glibc` is used. You will need to install the `libseccomp` library
-provided by your distribution.
-
-> e.g. `libseccomp-dev` for Ubuntu, or `libseccomp-devel` for CentOS
-
 > **Note:**
 >
 > - If you enable seccomp in the main configuration file but build the agent without seccomp capability,
 >   the runtime exits conservatively with an error message.

+## Get the osbuilder
+
+```
+$ go get -d -u github.com/kata-containers/kata-containers
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/tools/osbuilder
+```
+
 ## Create a rootfs image
 ### Create a local rootfs

@@ -278,32 +254,24 @@ As a prerequisite, you need to install Docker. Otherwise, you will not be
 able to run the `rootfs.sh` script with `USE_DOCKER=true` as expected in
 the following example.

-```bash
-$ export distro="ubuntu" # example
-$ export ROOTFS_DIR="$(realpath kata-containers/tools/osbuilder/rootfs-builder/rootfs)"
-$ sudo rm -rf "${ROOTFS_DIR}"
-$ pushd kata-containers/tools/osbuilder/rootfs-builder
-$ script -fec 'sudo -E USE_DOCKER=true ./rootfs.sh "${distro}"'
-$ popd
+```
+$ export ROOTFS_DIR=${GOPATH}/src/github.com/kata-containers/kata-containers/tools/osbuilder/rootfs-builder/rootfs
+$ sudo rm -rf ${ROOTFS_DIR}
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/tools/osbuilder/rootfs-builder
+$ script -fec 'sudo -E GOPATH=$GOPATH USE_DOCKER=true ./rootfs.sh ${distro}'
 ```

 You MUST choose a distribution (e.g., `ubuntu`) for `${distro}`.
 You can get a supported distributions list in the Kata Containers by running the following.

-```bash
-$ ./kata-containers/tools/osbuilder/rootfs-builder/rootfs.sh -l
+```
+$ ./rootfs.sh -l
 ```

 If you want to build the agent without seccomp capability, you need to run the `rootfs.sh` script with `SECCOMP=no` as follows.

-```bash
-$ script -fec 'sudo -E AGENT_INIT=yes USE_DOCKER=true SECCOMP=no ./rootfs.sh "${distro}"'
 ```
-
-If you want to enable SELinux on the guest, you MUST choose `centos` and run the `rootfs.sh` script with `SELINUX=yes` as follows.
-
-```
-$ script -fec 'sudo -E GOPATH=$GOPATH USE_DOCKER=true SELINUX=yes ./rootfs.sh centos'
+$ script -fec 'sudo -E GOPATH=$GOPATH AGENT_INIT=yes USE_DOCKER=true SECCOMP=no ./rootfs.sh ${distro}'
 ```

 > **Note:**
@@ -319,32 +287,18 @@ $ script -fec 'sudo -E GOPATH=$GOPATH USE_DOCKER=true SELINUX=yes ./rootfs.sh ce
 >
 > - You should only do this step if you are testing with the latest version of the agent.

-```bash
-$ sudo install -o root -g root -m 0550 -t "${ROOTFS_DIR}/usr/bin" "${ROOTFS_DIR}/../../../../src/agent/target/x86_64-unknown-linux-musl/release/kata-agent"
-$ sudo install -o root -g root -m 0440 "${ROOTFS_DIR}/../../../../src/agent/kata-agent.service" "${ROOTFS_DIR}/usr/lib/systemd/system/"
-$ sudo install -o root -g root -m 0440 "${ROOTFS_DIR}/../../../../src/agent/kata-containers.target" "${ROOTFS_DIR}/usr/lib/systemd/system/"
+```
+$ sudo install -o root -g root -m 0550 -t ${ROOTFS_DIR}/usr/bin ../../../src/agent/target/x86_64-unknown-linux-musl/release/kata-agent
+$ sudo install -o root -g root -m 0440 ../../../src/agent/kata-agent.service ${ROOTFS_DIR}/usr/lib/systemd/system/
+$ sudo install -o root -g root -m 0440 ../../../src/agent/kata-containers.target ${ROOTFS_DIR}/usr/lib/systemd/system/
 ```

 ### Build a rootfs image

-```bash
-$ pushd  kata-containers/tools/osbuilder/image-builder
-$ script -fec 'sudo -E USE_DOCKER=true ./image_builder.sh "${ROOTFS_DIR}"'
-$ popd
 ```
-
-If you want to enable SELinux on the guest, you MUST run the `image_builder.sh` script with `SELINUX=yes`
-to label the guest image as follows.
-To label the image on the host, you need to make sure that SELinux is enabled (`selinuxfs` is mounted) on the host
-and the rootfs MUST be created by running the `rootfs.sh` with `SELINUX=yes`.
-
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/tools/osbuilder/image-builder
+$ script -fec 'sudo -E USE_DOCKER=true ./image_builder.sh ${ROOTFS_DIR}'
 ```
-$ script -fec 'sudo -E USE_DOCKER=true SELINUX=yes ./image_builder.sh ${ROOTFS_DIR}'
-```
-
-Currently, the `image_builder.sh` uses `chcon` as an interim solution in order to apply `container_runtime_exec_t`
-to the `kata-agent`. Hence, if you run `restorecon` to the guest image after running the `image_builder.sh`,
-the `kata-agent` needs to be labeled `container_runtime_exec_t` again by yourself.

 > **Notes:**
 >
@@ -355,31 +309,25 @@ the `kata-agent` needs to be labeled `container_runtime_exec_t` again by yoursel
 >   variable in the previous command and ensure the `qemu-img` command is
 >   available on your system.
 >   - If `qemu-img` is not installed, you will likely see errors such as `ERROR: File /dev/loop19p1 is not a block device` and `losetup: /tmp/tmp.bHz11oY851: Warning: file is smaller than 512 bytes; the loop device may be useless or invisible for system tools`. These can be mitigated by installing the `qemu-img` command (available in the `qemu-img` package on Fedora or the `qemu-utils` package on Debian).
-> - If `loop` module is not probed, you will likely see errors such as `losetup: cannot find an unused loop device`. Execute `modprobe loop` could resolve it.


 ### Install the rootfs image

-```bash
-$ pushd kata-containers/tools/osbuilder/image-builder
-$ commit="$(git log --format=%h -1 HEAD)"
-$ date="$(date +%Y-%m-%d-%T.%N%z)"
+```
+$ commit=$(git log --format=%h -1 HEAD)
+$ date=$(date +%Y-%m-%d-%T.%N%z)
 $ image="kata-containers-${date}-${commit}"
 $ sudo install -o root -g root -m 0640 -D kata-containers.img "/usr/share/kata-containers/${image}"
 $ (cd /usr/share/kata-containers && sudo ln -sf "$image" kata-containers.img)
-$ popd
 ```

 ## Create an initrd image - OPTIONAL
 ### Create a local rootfs for initrd image
-
-```bash
-$ export distro="ubuntu" # example
-$ export ROOTFS_DIR="$(realpath kata-containers/tools/osbuilder/rootfs-builder/rootfs)"
-$ sudo rm -rf "${ROOTFS_DIR}"
-$ pushd kata-containers/tools/osbuilder/rootfs-builder/
-$ script -fec 'sudo -E AGENT_INIT=yes USE_DOCKER=true ./rootfs.sh "${distro}"'
-$ popd
+```
+$ export ROOTFS_DIR="${GOPATH}/src/github.com/kata-containers/kata-containers/tools/osbuilder/rootfs-builder/rootfs"
+$ sudo rm -rf ${ROOTFS_DIR}
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/tools/osbuilder/rootfs-builder
+$ script -fec 'sudo -E GOPATH=$GOPATH AGENT_INIT=yes USE_DOCKER=true ./rootfs.sh ${distro}'
 ```
 `AGENT_INIT` controls if the guest image uses the Kata agent as the guest `init` process. When you create an initrd image,
 always set `AGENT_INIT` to `yes`.
@@ -387,14 +335,14 @@ always set `AGENT_INIT` to `yes`.
 You MUST choose a distribution (e.g., `ubuntu`) for `${distro}`.
 You can get a supported distributions list in the Kata Containers by running the following.

-```bash
-$ ./kata-containers/tools/osbuilder/rootfs-builder/rootfs.sh -l
+```
+$ ./rootfs.sh -l
 ```

 If you want to build the agent without seccomp capability, you need to run the `rootfs.sh` script with `SECCOMP=no` as follows.

-```bash
-$ script -fec 'sudo -E AGENT_INIT=yes USE_DOCKER=true SECCOMP=no ./rootfs.sh "${distro}"'
+```
+$ script -fec 'sudo -E GOPATH=$GOPATH AGENT_INIT=yes USE_DOCKER=true SECCOMP=no ./rootfs.sh ${distro}'
 ```

 > **Note:**
@@ -403,31 +351,28 @@ $ script -fec 'sudo -E AGENT_INIT=yes USE_DOCKER=true SECCOMP=no ./rootfs.sh "${

 Optionally, add your custom agent binary to the rootfs with the following commands. The default `$LIBC` used
 is `musl`, but on ppc64le and s390x, `gnu` should be used. Also, Rust refers to ppc64le as `powerpc64le`:
-```bash
-$ export ARCH="$(uname -m)"
-$ [ "${ARCH}" == "ppc64le" ] || [ "${ARCH}" == "s390x" ] && export LIBC=gnu || export LIBC=musl
-$ [ "${ARCH}" == "ppc64le" ] && export ARCH=powerpc64le
-$ sudo install -o root -g root -m 0550 -T "${ROOTFS_DIR}/../../../../src/agent/target/${ARCH}-unknown-linux-${LIBC}/release/kata-agent" "${ROOTFS_DIR}/sbin/init"
+```
+$ export ARCH=$(uname -m)
+$ [ ${ARCH} == "ppc64le" ] || [ ${ARCH} == "s390x" ] && export LIBC=gnu || export LIBC=musl
+$ [ ${ARCH} == "ppc64le" ] && export ARCH=powerpc64le
+$ sudo install -o root -g root -m 0550 -T ../../../src/agent/target/${ARCH}-unknown-linux-${LIBC}/release/kata-agent ${ROOTFS_DIR}/sbin/init
 ```

 ### Build an initrd image

-```bash
-$ pushd kata-containers/tools/osbuilder/initrd-builder
-$ script -fec 'sudo -E AGENT_INIT=yes USE_DOCKER=true ./initrd_builder.sh "${ROOTFS_DIR}"'
-$ popd
+```
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/tools/osbuilder/initrd-builder
+$ script -fec 'sudo -E AGENT_INIT=yes USE_DOCKER=true ./initrd_builder.sh ${ROOTFS_DIR}'
 ```

 ### Install the initrd image

-```bash
-$ pushd kata-containers/tools/osbuilder/initrd-builder
-$ commit="$(git log --format=%h -1 HEAD)"
-$ date="$(date +%Y-%m-%d-%T.%N%z)"
+```
+$ commit=$(git log --format=%h -1 HEAD)
+$ date=$(date +%Y-%m-%d-%T.%N%z)
 $ image="kata-containers-initrd-${date}-${commit}"
 $ sudo install -o root -g root -m 0640 -D kata-containers-initrd.img "/usr/share/kata-containers/${image}"
 $ (cd /usr/share/kata-containers && sudo ln -sf "$image" kata-containers-initrd.img)
-$ popd
 ```

 # Install guest kernel images
@@ -446,43 +391,43 @@ Kata Containers makes use of upstream QEMU branch. The exact version
 and repository utilized can be found by looking at the [versions file](../versions.yaml).

 Find the correct version of QEMU from the versions file:
-```bash
-$ source kata-containers/tools/packaging/scripts/lib.sh
-$ qemu_version="$(get_from_kata_deps "assets.hypervisor.qemu.version")"
-$ echo "${qemu_version}"
+```
+$ source ${GOPATH}/src/github.com/kata-containers/kata-containers/tools/packaging/scripts/lib.sh
+$ qemu_version=$(get_from_kata_deps "assets.hypervisor.qemu.version")
+$ echo ${qemu_version}
 ```
 Get source from the matching branch of QEMU:
-```bash
-$ git clone -b "${qemu_version}" https://github.com/qemu/qemu.git
-$ your_qemu_directory="$(realpath qemu)"
+```
+$ go get -d github.com/qemu/qemu
+$ cd ${GOPATH}/src/github.com/qemu/qemu
+$ git checkout ${qemu_version}
+$ your_qemu_directory=${GOPATH}/src/github.com/qemu/qemu
 ```

 There are scripts to manage the build and packaging of QEMU. For the examples below, set your
 environment as:
-```bash
-$ packaging_dir="$(realpath kata-containers/tools/packaging)"
+```
+$ go get -d github.com/kata-containers/kata-containers
+$ packaging_dir="${GOPATH}/src/github.com/kata-containers/kata-containers/tools/packaging"
 ```

 Kata often utilizes patches for not-yet-upstream and/or backported fixes for components,
 including QEMU. These can be found in the [packaging/QEMU directory](../tools/packaging/qemu/patches),
 and it's *recommended* that you apply them. For example, suppose that you are going to build QEMU
 version 5.2.0, do:
-```bash
-$ "$packaging_dir/scripts/apply_patches.sh" "$packaging_dir/qemu/patches/5.2.x/"
+```
+$ cd $your_qemu_directory
+$ $packaging_dir/scripts/apply_patches.sh $packaging_dir/qemu/patches/5.2.x/
 ```

 To build utilizing the same options as Kata, you should make use of the `configure-hypervisor.sh` script. For example:
-```bash
-$ pushd "$your_qemu_directory"
-$ "$packaging_dir/scripts/configure-hypervisor.sh" kata-qemu > kata.cfg
-$ eval ./configure "$(cat kata.cfg)"
-$ make -j $(nproc --ignore=1)
-# Optional
-$ sudo -E make install
-$ popd
 ```
-
-If you do not want to install the respective QEMU version, the configuration file can be modified to point to the correct binary. In `/etc/kata-containers/configuration.toml`, change `path = "/path/to/qemu/build/qemu-system-x86_64"` to point to the correct QEMU binary.
+$ cd $your_qemu_directory
+$ $packaging_dir/scripts/configure-hypervisor.sh kata-qemu > kata.cfg
+$ eval ./configure "$(cat kata.cfg)"
+$ make -j $(nproc)
+$ sudo -E make install
+```

 See the [static-build script for QEMU](../tools/packaging/static-build/qemu/build-static-qemu.sh) for a reference on how to get, setup, configure and build QEMU for Kata.

@@ -494,33 +439,11 @@ See the [static-build script for QEMU](../tools/packaging/static-build/qemu/buil
 >   under upstream review for supporting NVDIMM on aarch64.
 >
 You could build the custom `qemu-system-aarch64` as required with the following command:
-```bash
-$ git clone https://github.com/kata-containers/tests.git
-$ script -fec 'sudo -E tests/.ci/install_qemu.sh'
 ```
-
-## Build `virtiofsd`
-
-When using the file system type virtio-fs (default), `virtiofsd` is required
-
-```bash
-$ pushd kata-containers/tools/packaging/static-build/virtiofsd
-$ ./build.sh
-$ popd
+$ go get -d github.com/kata-containers/tests
+$ script -fec 'sudo -E ${GOPATH}/src/github.com/kata-containers/tests/.ci/install_qemu.sh'
 ```

-Modify `/etc/kata-containers/configuration.toml` and update value `virtio_fs_daemon = "/path/to/kata-containers/tools/packaging/static-build/virtiofsd/virtiofsd/virtiofsd"` to point to the binary.
-
-# Check hardware requirements
-
-You can check if your system is capable of creating a Kata Container by running the following:
-
-```bash
-$ sudo kata-runtime check
-```
-
-If your system is *not* able to run Kata Containers, the previous command will error out and explain why.
-
 # Run Kata Containers with Containerd
 Refer to the [How to use Kata Containers and Containerd](how-to/containerd-kata.md) how-to guide.

@@ -542,7 +465,7 @@ script and paste its output directly into a
 > [runtime](../src/runtime) repository.

 To perform analysis on Kata logs, use the
-[`kata-log-parser`](../src/tools/log-parser)
+[`kata-log-parser`](https://github.com/kata-containers/tests/tree/main/cmd/log-parser)
 tool, which can convert the logs into formats (e.g. JSON, TOML, XML, and YAML).

 See [Set up a debug console](#set-up-a-debug-console).
@@ -551,7 +474,7 @@ See [Set up a debug console](#set-up-a-debug-console).

 ## Checking Docker default runtime

-```bash
+```
 $ sudo docker info 2>/dev/null | grep -i "default runtime" | cut -d: -f2- | grep -q runc  && echo "SUCCESS" || echo "ERROR: Incorrect default Docker runtime"
 ```
 ## Set up a debug console
@@ -568,7 +491,7 @@ contain either `/bin/sh` or `/bin/bash`.

 Enable debug_console_enabled in the `configuration.toml` configuration file:

-```toml
+```
 [agent.kata]
 debug_console_enabled = true
 ```
@@ -579,7 +502,7 @@ This will pass `agent.debug_console agent.debug_console_vport=1026` to agent as

 For Kata Containers `2.0.x` releases, the `kata-runtime exec` command depends on the`kata-monitor` running, in order to get the sandbox's `vsock` address to connect to. Thus, first start the `kata-monitor` process.

-```bash
+```
 $ sudo kata-monitor
 ```

@@ -599,7 +522,7 @@ bash-4.2# exit
 exit
 ```

-`kata-runtime exec` has a command-line option `runtime-namespace`, which is used to specify under which [runtime namespace](https://github.com/containerd/containerd/blob/main/docs/namespaces.md) the particular pod was created. By default, it is set to `k8s.io` and works for containerd when configured
+`kata-runtime exec` has a command-line option `runtime-namespace`, which is used to specify under which [runtime namespace](https://github.com/containerd/containerd/blob/master/docs/namespaces.md) the particular pod was created. By default, it is set to `k8s.io` and works for containerd when configured
 with Kubernetes. For CRI-O, the namespace should set to `default` explicitly. This should not be confused with [Kubernetes namespaces](https://kubernetes.io/docs/concepts/overview/working-with-objects/namespaces/).
 For other CRI-runtimes and configurations, you may need to set the namespace utilizing the `runtime-namespace` option.

@@ -641,10 +564,10 @@ an additional `coreutils` package.

 For example using CentOS:

-```bash
-$ pushd kata-containers/tools/osbuilder/rootfs-builder
-$ export ROOTFS_DIR="$(realpath ./rootfs)"
-$ script -fec 'sudo -E USE_DOCKER=true EXTRA_PKGS="bash coreutils" ./rootfs.sh centos'
+```
+$ cd $GOPATH/src/github.com/kata-containers/kata-containers/tools/osbuilder/rootfs-builder
+$ export ROOTFS_DIR=${GOPATH}/src/github.com/kata-containers/kata-containers/tools/osbuilder/rootfs-builder/rootfs
+$ script -fec 'sudo -E GOPATH=$GOPATH USE_DOCKER=true EXTRA_PKGS="bash coreutils" ./rootfs.sh centos'
 ```

 #### Build the debug image
@@ -656,13 +579,12 @@ section when using rootfs, or when using initrd, complete the steps in the [Buil

 Install the image:

->**Note**: When using an initrd image, replace the below rootfs image name `kata-containers.img`
+>**Note**: When using an initrd image, replace the below rootfs image name `kata-containers.img` 
 >with the initrd image name `kata-containers-initrd.img`.

-```bash
+```
 $ name="kata-containers-centos-with-debug-console.img"
 $ sudo install -o root -g root -m 0640 kata-containers.img "/usr/share/kata-containers/${name}"
-$ popd
 ```

 Next, modify the `image=` values in the `[hypervisor.qemu]` section of the
@@ -671,7 +593,7 @@ to specify the full path to the image name specified in the previous code
 section. Alternatively, recreate the symbolic link so it points to
 the new debug image:

-```bash
+```
 $ (cd /usr/share/kata-containers && sudo ln -sf "$name" kata-containers.img)
 ```

@@ -682,7 +604,7 @@ to avoid all subsequently created containers from using the debug image.

 Create a container as normal. For example using `crictl`:

-```bash
+```
 $ sudo crictl run -r kata container.yaml pod.yaml
 ```

@@ -690,25 +612,25 @@ $ sudo crictl run -r kata container.yaml pod.yaml

 The steps required to enable debug console for QEMU slightly differ with
 those for firecracker / cloud-hypervisor.
-
+ 
 ##### Enabling debug console for QEMU

-Add `agent.debug_console` to the guest kernel command line to allow the agent process to start a debug console.
+Add `agent.debug_console` to the guest kernel command line to allow the agent process to start a debug console. 

-```bash
+```
 $ sudo sed -i -e 's/^kernel_params = "\(.*\)"/kernel_params = "\1 agent.debug_console"/g' "${kata_configuration_file}"
 ```

-Here `kata_configuration_file` could point to `/etc/kata-containers/configuration.toml`
+Here `kata_configuration_file` could point to `/etc/kata-containers/configuration.toml` 
 or `/usr/share/defaults/kata-containers/configuration.toml`
 or `/opt/kata/share/defaults/kata-containers/configuration-{hypervisor}.toml`, if
 you installed Kata Containers using `kata-deploy`.

 ##### Enabling debug console for cloud-hypervisor / firecracker

-Slightly different configuration is required in case of firecracker and cloud hypervisor.
-Firecracker and cloud-hypervisor don't have a UNIX socket connected to `/dev/console`.
-Hence, the kernel command line option `agent.debug_console` will not work for them.
+Slightly different configuration is required in case of firecracker and cloud hypervisor. 
+Firecracker and cloud-hypervisor don't have a UNIX socket connected to `/dev/console`. 
+Hence, the kernel command line option `agent.debug_console` will not work for them. 
 These hypervisors support `hybrid vsocks`,  which can be used for communication
 between the host and the guest. The kernel command line option `agent.debug_console_vport`
 was added to allow developers specify on which `vsock` port the debugging console should be connected.
@@ -716,12 +638,12 @@ between the host and the guest. The kernel command line option `agent.debug_cons

 Add the parameter `agent.debug_console_vport=1026` to the kernel command line
 as shown below:
-```bash
+```
 sudo sed -i -e 's/^kernel_params = "\(.*\)"/kernel_params = "\1 agent.debug_console_vport=1026"/g' "${kata_configuration_file}"
 ```

 > **Note** Ports 1024 and 1025 are reserved for communication with the agent
-> and gathering of agent logs respectively.
+> and gathering of agent logs respectively. 

 ##### Connecting to the debug console

@@ -729,7 +651,7 @@ Next, connect to the debug console. The VSOCKS paths vary slightly between each
 VMM solution.

 In case of cloud-hypervisor, connect to the `vsock` as shown:
-```bash
+```
 $ sudo su -c 'cd /var/run/vc/vm/${sandbox_id}/root/ && socat stdin unix-connect:clh.sock'
 CONNECT 1026
 ```
@@ -737,7 +659,7 @@ CONNECT 1026
 **Note**: You need to type `CONNECT 1026` and press `RETURN` key after entering the `socat` command.

 For firecracker, connect to the `hvsock` as shown:
-```bash
+```
 $ sudo su -c 'cd /var/run/vc/firecracker/${sandbox_id}/root/ && socat stdin unix-connect:kata.hvsock'
 CONNECT 1026
 ```
@@ -746,7 +668,7 @@ CONNECT 1026


 For QEMU, connect to the `vsock` as shown:
-```bash
+```
 $ sudo su -c 'cd /var/run/vc/vm/${sandbox_id} && socat "stdin,raw,echo=0,escape=0x11" "unix-connect:console.sock"'
 ```

@@ -759,7 +681,7 @@ If the image is created using
 [osbuilder](../tools/osbuilder), the following YAML
 file exists and contains details of the image and how it was created:

-```bash
+```
 $ cat /var/lib/osbuilder/osbuilder.yaml
 ```

@@ -778,11 +700,11 @@ options to have the kernel boot messages logged into the system journal.
 For generic information on enabling debug in the configuration file, see the
 [Enable full debug](#enable-full-debug) section.

-The kernel boot messages will appear in the `kata` logs (and in the `containerd` or `CRI-O` log appropriately).
+The kernel boot messages will appear in the `containerd` or `CRI-O` log appropriately,
 such as:

 ```bash
-$ sudo journalctl -t kata
+$ sudo journalctl -t containerd
 -- Logs begin at Thu 2020-02-13 16:20:40 UTC, end at Thu 2020-02-13 16:30:23 UTC. --
 ...
 time="2020-09-15T14:56:23.095113803+08:00" level=debug msg="reading guest console" console-protocol=unix console-url=/run/vc/vm/ab9f633385d4987828d342e47554fc6442445b32039023eeddaa971c1bb56791/console.sock pid=107642 sandbox=ab9f633385d4987828d342e47554fc6442445b32039023eeddaa971c1bb56791 source=virtcontainers subsystem=sandbox vmconsole="[    0.395399] brd: module loaded"
@@ -792,4 +714,3 @@ time="2020-09-15T14:56:23.105268162+08:00" level=debug msg="reading guest consol
 time="2020-09-15T14:56:23.121121598+08:00" level=debug msg="reading guest console" console-protocol=unix console-url=/run/vc/vm/ab9f633385d4987828d342e47554fc6442445b32039023eeddaa971c1bb56791/console.sock pid=107642 sandbox=ab9f633385d4987828d342e47554fc6442445b32039023eeddaa971c1bb56791 source=virtcontainers subsystem=sandbox vmconsole="[    0.421324] memmap_init_zone_device initialised 32768 pages in 12ms"
 ...
 ```
-Refer to the [kata-log-parser documentation](../src/tools/log-parser/README.md) which is useful to fetch these.
--- a/docs/Limitations.md
+++ b/docs/Limitations.md
@@ -46,7 +46,7 @@ The following link shows the latest list of limitations:
 # Contributing

 If you would like to work on resolving a limitation, please refer to the
-[contributors guide](https://github.com/kata-containers/community/blob/main/CONTRIBUTING.md).
+[contributors guide](https://github.com/kata-containers/community/blob/master/CONTRIBUTING.md).
 If you wish to raise an issue for a new limitation, either
 [raise an issue directly on the runtime](https://github.com/kata-containers/kata-containers/issues/new)
 or see the
@@ -60,26 +60,17 @@ This section lists items that might be possible to fix.
 ## OCI CLI commands

 ### Docker and Podman support
-Currently Kata Containers does not support Podman.
+Currently Kata Containers does not support Docker or Podman.

 See issue https://github.com/kata-containers/kata-containers/issues/722 for more information.

-Docker supports Kata Containers since 22.06:
-
-```bash
-$ sudo docker run --runtime io.containerd.kata.v2
-```
-
-Kata Containers works perfectly with containerd, we recommend to use
-containerd's Docker-style command line tool [`nerdctl`](https://github.com/containerd/nerdctl).
-
 ## Runtime commands

 ### checkpoint and restore

 The runtime does not provide `checkpoint` and `restore` commands. There
 are discussions about using VM save and restore to give us a
-[`criu`](https://github.com/checkpoint-restore/criu)-like functionality,
+`[criu](https://github.com/checkpoint-restore/criu)`-like functionality,
 which might provide a solution.

 Note that the OCI standard does not specify `checkpoint` and `restore`
@@ -102,42 +93,6 @@ All other configurations are supported and are working properly.

 ## Networking

-### Host network
-
-Host network (`nerdctl/docker run --net=host`or [Kubernetes `HostNetwork`](https://kubernetes.io/docs/reference/kubernetes-api/workload-resources/pod-v1/#hosts-namespaces)) is not supported.
-It is not possible to directly access the host networking configuration
-from within the VM.
-
-The `--net=host` option can still be used with `runc` containers and
-inter-mixed with running Kata Containers, thus enabling use of `--net=host`
-when necessary.
-
-It should be noted, currently passing the `--net=host` option into a
-Kata Container may result in the Kata Container networking setup
-modifying, re-configuring and therefore possibly breaking the host
-networking setup. Do not use `--net=host` with Kata Containers.
-
-### Support for joining an existing VM network
-
-Docker supports the ability for containers to join another containers
-namespace with the `docker run --net=containers` syntax. This allows
-multiple containers to share a common network namespace and the network
-interfaces placed in the network namespace. Kata Containers does not
-support network namespace sharing. If a Kata Container is setup to
-share the network namespace of a `runc` container, the runtime
-effectively takes over all the network interfaces assigned to the
-namespace and binds them to the VM. Consequently, the `runc` container loses
-its network connectivity.
-
-### docker run --link
-
-The runtime does not support the `docker run --link` command. This
-command is now deprecated by docker and we have no intention of adding support.
-Equivalent functionality can be achieved with the newer docker networking commands.
-
-See more documentation at
-[docs.docker.com](https://docs.docker.com/network/links/).
-
 ## Resource management

 Due to the way VMs differ in their CPU and memory allocation, and sharing
--- a/docs/README.md
+++ b/docs/README.md
@@ -30,6 +30,7 @@ See the [how-to documentation](how-to).
 * [GPU Passthrough with Kata](./use-cases/GPU-passthrough-and-Kata.md)
 * [SR-IOV with Kata](./use-cases/using-SRIOV-and-kata.md)
 * [Intel QAT with Kata](./use-cases/using-Intel-QAT-and-kata.md)
+* [VPP with Kata](./use-cases/using-vpp-and-kata.md)
 * [SPDK vhost-user with Kata](./use-cases/using-SPDK-vhostuser-and-kata.md)
 * [Intel SGX with Kata](./use-cases/using-Intel-SGX-and-kata.md)

--- a/docs/Release-Process.md
+++ b/docs/Release-Process.md
@@ -28,6 +28,23 @@
  $ ./update-repository-version.sh -p "$NEW_VERSION" "$BRANCH"
  ```

+### Point tests repository to stable branch
+
+  If you create a new stable branch, i.e. if your release changes a major or minor version number (not a patch release), then
+  you should modify the `tests` repository to point to that newly created stable branch and not the `main` branch.
+  The objective is that changes in the CI on the main branch will not impact the stable branch.
+
+  In the test directory, change references the main branch in:
+  * `README.md`
+  * `versions.yaml`
+  * `cmd/github-labels/labels.yaml.in`
+  * `cmd/pmemctl/pmemctl.sh`
+  * `.ci/lib.sh`
+  * `.ci/static-checks.sh`
+
+  See the commits in [the corresponding PR for stable-2.1](https://github.com/kata-containers/tests/pull/3504) for an example of the changes.
+
+
 ### Merge all bump version Pull requests

  - The above step will create a GitHub pull request in the Kata projects. Trigger the CI using `/test` command on each bump Pull request.
@@ -46,24 +63,6 @@
  $ ./tag_repos.sh -p -b "$BRANCH" tag
  ```

-### Point tests repository to stable branch
-
-  If your release changes a major or minor version number(not a patch release), then the above 
-  `./tag_repos.sh` script will create a new stable branch in all the repositories in addition to tagging them.
-  This happens when you are making the first `rc` release for a new major or minor version in Kata.
-  In this case, you should modify the `tests` repository to point to the newly created stable branch and not the `main` branch.
-  The objective is that changes in the CI on the main branch will not impact the stable branch.
-
-  In the test directory, change references of the `main` branch to the new stable branch in:
-  * `README.md`
-  * `versions.yaml`
-  * `cmd/github-labels/labels.yaml.in`
-  * `cmd/pmemctl/pmemctl.sh`
-  * `.ci/lib.sh`
-  * `.ci/static-checks.sh`
-
-  See the commits in [the corresponding PR for stable-2.1](https://github.com/kata-containers/tests/pull/3504) for an example of the changes.
-
 ### Check Git-hub Actions

  We make use of [GitHub actions](https://github.com/features/actions) in this [file](../.github/workflows/release.yaml) in the `kata-containers/kata-containers` repository to build and upload release artifacts. This action is auto triggered with the above step when a new tag is pushed to the `kata-containers/kata-containers` repository.
--- a/docs/Unit-Test-Advice.md
+++ b/docs/Unit-Test-Advice.md
@@ -277,9 +277,7 @@ mod tests {

 ## Temporary files

-Use `t.TempDir()` to create temporary directory. The directory created by
-`t.TempDir()` is automatically removed when the test and all its subtests
-complete.
+Always delete temporary files on success.

 ### Golang temporary files

@@ -288,7 +286,11 @@ func TestSomething(t *testing.T) {
    assert := assert.New(t)

    // Create a temporary directory
-    tmpdir := t.TempDir()
+    tmpdir, err := os.MkdirTemp("", "")
+    assert.NoError(err)
+
+    // Delete it at the end of the test
+    defer os.RemoveAll(tmpdir) 

    // Add test logic that will use the tmpdir here...
 }
@@ -320,7 +322,7 @@ mod tests {

 ## Test user

-[Unit tests are run *twice*](../src/runtime/go-test.sh):
+[Unit tests are run *twice*](https://github.com/kata-containers/tests/blob/main/.ci/go-test.sh):

 - as the current user
 - as the `root` user (if different to the current user)
@@ -341,7 +343,7 @@ The main repository has the most comprehensive set of skip abilities. See:

 One method is to use the `nix` crate along with some custom macros:

-```rust
+```
 #[cfg(test)]
 mod tests {
    #[allow(unused_macros)]
--- a/docs/code-pr-advice.md
+++ b/docs/code-pr-advice.md
@@ -79,7 +79,7 @@ a "`BUG: feature X not implemented see {bug-url}`" type error.
 - Don't use multiple log calls when a single log call could be used.

 - Use structured logging where possible to allow
-  [standard tooling](../src/tools/log-parser)
+  [standard tooling](https://github.com/kata-containers/tests/tree/main/cmd/log-parser)
  be able to extract the log fields.

 ### Names
--- a/docs/design/README.md
+++ b/docs/design/README.md
@@ -7,15 +7,11 @@ Kata Containers design documents:
 - [Design requirements for Kata Containers](kata-design-requirements.md)
 - [VSocks](VSocks.md)
 - [VCPU handling](vcpu-handling.md)
- [VCPU threads pinning](vcpu-threads-pinning.md)
 - [Host cgroups](host-cgroups.md)
- [Agent systemd cgroup](agent-systemd-cgroup.md)
 - [`Inotify` support](inotify.md)
- [`Hooks` support](hooks-handling.md)
 - [Metrics(Kata 2.0)](kata-2-0-metrics.md)
 - [Design for Kata Containers `Lazyload` ability with `nydus`](kata-nydus-design.md)
- [Design for direct-assigned volume](direct-blk-device-assignment.md)
- [Design for core-scheduling](core-scheduling.md)
+
 ---

 - [Design proposals](proposals)
--- a/docs/design/VSocks.md
+++ b/docs/design/VSocks.md
@@ -67,15 +67,22 @@ Using a proxy for multiplexing the connections between the VM and the host uses
 4.5MB per [POD][2]. In a high density deployment this could add up to GBs of
 memory that could have been used to host more PODs. When we talk about density
 each kilobyte matters and it might be the decisive factor between run another
-POD or not. Before making the decision not to use VSOCKs, you should ask
+POD or not. For example if you have 500 PODs running in a server, the same
+amount of [`kata-proxy`][3] processes will be running and consuming for around
+2250MB of RAM. Before making the decision not to use VSOCKs, you should ask
 yourself, how many more containers can run with the memory RAM consumed by the
 Kata proxies?

 ### Reliability

+[`kata-proxy`][3] is in charge of multiplexing the connections between virtual
+machine and host processes, if it dies all connections get broken. For example
+if you have a [POD][2] with 10 containers running, if `kata-proxy` dies it would
+be impossible to contact your containers, though they would still be running.
 Since communication via VSOCKs is direct, the only way to lose communication
 with the containers is if the VM itself or the `containerd-shim-kata-v2` dies, if this happens
 the containers are removed automatically.

 [1]: https://wiki.qemu.org/Features/VirtioVsock
 [2]: ./vcpu-handling.md#virtual-cpus-and-kubernetes-pods
+[3]: https://github.com/kata-containers/proxy
--- a/docs/design/agent-systemd-cgroup.md
+++ b/docs/design/agent-systemd-cgroup.md
@@ -1,84 +0,0 @@
-# Systemd Cgroup for Agent
-
-As we know, we can interact with cgroups in two ways, **`cgroupfs`** and **`systemd`**. The former is achieved by reading and writing cgroup `tmpfs` files under `/sys/fs/cgroup` while the latter is done by configuring a transient unit by requesting systemd. Kata agent uses **`cgroupfs`** by default, unless you pass the parameter `--systemd-cgroup`.
-
-## usage
-
-For systemd, kata agent configures cgroups according to the following `linux.cgroupsPath` format standard provided by `runc` (`[slice]:[prefix]:[name]`). If you don't provide a valid `linux.cgroupsPath`, kata agent will treat it as `"system.slice:kata_agent:<container-id>"`. 
-
-> Here slice is a systemd slice under which the container is placed. If empty, it defaults to system.slice, except when cgroup v2 is used and rootless container is created, in which case it defaults to user.slice.
->
-> Note that slice can contain dashes to denote a sub-slice (e.g. user-1000.slice is a correct notation, meaning a `subslice` of user.slice), but it must not contain slashes (e.g. user.slice/user-1000.slice is invalid).
->
-> A slice of `-` represents a root slice.
->
-> Next, prefix and name are used to compose the unit name, which is `<prefix>-<name>.scope`, unless name has `.slice` suffix, in which case prefix is ignored and the name is used as is.
-
-## supported properties
-
-The kata agent will translate the parameters in the `linux.resources` of `config.json` into systemd unit properties, and send it to systemd for configuration. Since systemd supports limited properties, only the following parameters in `linux.resources` will be applied. We will simply treat hybrid mode as legacy mode by the way.
-
- CPU
-
-  - v1
-
-  | runtime spec resource | systemd property name |
-  | --------------------- | --------------------- |
-  | `cpu.shares`          | `CPUShares`           |
-
-  - v2
-
-  | runtime spec resource      | systemd property name      |
-  | -------------------------- | -------------------------- |
-  | `cpu.shares`               | `CPUShares`                |
-  | `cpu.period`               | `CPUQuotaPeriodUSec`(v242) |
-  | `cpu.period` & `cpu.quota` | `CPUQuotaPerSecUSec`       |
-
- MEMORY
-
-  - v1
-
-  | runtime spec resource | systemd property name |
-  | --------------------- | --------------------- |
-  | `memory.limit`        | `MemoryLimit`         |
-
-  - v2
-
-  | runtime spec resource          | systemd property name |
-  | ------------------------------ | --------------------- |
-  | `memory.low`                   | `MemoryLow`           |
-  | `memory.max`                   | `MemoryMax`           |
-  | `memory.swap` & `memory.limit` | `MemorySwapMax`       |
-
- PIDS
-
-  | runtime spec resource | systemd property name |
-  | --------------------- | --------------------- |
-  | `pids.limit `         | `TasksMax`            |
-
- CPUSET
-
-  | runtime spec resource | systemd property name      |
-  | --------------------- | -------------------------- |
-  | `cpuset.cpus`         | `AllowedCPUs`(v244)        |
-  | `cpuset.mems`         | `AllowedMemoryNodes`(v244) |
-
-## Systemd Interface
-
-`session.rs` and `system.rs` in `src/agent/rustjail/src/cgroups/systemd/interface` are automatically generated by `zbus-xmlgen`, which is is an accompanying tool provided by `zbus` to generate Rust code from `D-Bus XML interface descriptions`. The specific commands to generate these two files are as follows: 
-
-```shell
-// system.rs
-zbus-xmlgen --system org.freedesktop.systemd1 /org/freedesktop/systemd1
-// session.rs
-zbus-xmlgen --session org.freedesktop.systemd1 /org/freedesktop/systemd1
-```
-
-The current implementation of `cgroups/systemd` uses `system.rs` while `session.rs` could be used to build rootless containers in the future.
-
-## references
-
- [runc - systemd cgroup driver](https://github.com/opencontainers/runc/blob/main/docs/systemd.md)
-
- [systemd.resource-control  — Resource control unit settings](https://www.freedesktop.org/software/systemd/man/systemd.resource-control.html)
-
--- a/docs/design/arch-images/vcpus-pinning-process.png
+++ b/docs/design/arch-images/vcpus-pinning-process.png
--- a/docs/design/architecture/kubernetes.md
+++ b/docs/design/architecture/kubernetes.md
@@ -17,7 +17,7 @@ Kubelet instance is responsible for managing the lifecycle of pods
 within the nodes and eventually relies on a container runtime to
 handle execution. The Kubelet architecture decouples lifecycle
 management from container execution through a dedicated gRPC based
-[Container Runtime Interface (CRI)](https://github.com/kubernetes/design-proposals-archive/blob/main/node/container-runtime-interface-v1.md).
+[Container Runtime Interface (CRI)](https://github.com/kubernetes/community/blob/master/contributors/design-proposals/node/container-runtime-interface-v1.md).

 In other words, a Kubelet is a CRI client and expects a CRI
 implementation to handle the server side of the interface.
--- a/docs/design/architecture/networking.md
+++ b/docs/design/architecture/networking.md
@@ -36,7 +36,7 @@ compatibility, and performance on par with MACVTAP.
 Kata Containers has deprecated support for bridge due to lacking performance relative to TC-filter and MACVTAP.

 Kata Containers supports both
-[CNM](https://github.com/moby/libnetwork/blob/master/docs/design.md#the-container-network-model)
+[CNM](https://github.com/docker/libnetwork/blob/master/docs/design.md#the-container-network-model)
 and [CNI](https://github.com/containernetworking/cni) for networking management.

 ## Network Hotplug
--- a/docs/design/architecture/storage.md
+++ b/docs/design/architecture/storage.md
@@ -1,17 +1,5 @@
 # Storage

-## Limits
-
-Kata Containers is [compatible](README.md#compatibility) with existing
-standards and runtime. From the perspective of storage, this means no
-limits are placed on the amount of storage a container
-[workload](README.md#workload) may use.
-
-Since cgroups are not able to set limits on storage allocation, if you
-wish to constrain the amount of storage a container uses, consider
-using an existing facility such as `quota(1)` limits or
-[device mapper](#devicemapper) limits.
-
 ## virtio SCSI

 If a block-based graph driver is [configured](README.md#configuration),
@@ -32,7 +20,7 @@ For virtio-fs, the [runtime](README.md#runtime) starts one `virtiofsd` daemon
 ## Devicemapper

 The
-[devicemapper `snapshotter`](https://github.com/containerd/containerd/tree/main/snapshots/devmapper)
+[devicemapper `snapshotter`](https://github.com/containerd/containerd/tree/master/snapshots/devmapper)
 is a special case. The `snapshotter` uses dedicated block devices
 rather than formatted filesystems, and operates at the block level
 rather than the file level. This knowledge is used to directly use the
--- a/docs/design/architecture_3.0/README.md
+++ b/docs/design/architecture_3.0/README.md
@@ -1,169 +0,0 @@
-# Kata 3.0 Architecture
-## Overview
-In cloud-native scenarios, there is an increased demand for container startup speed, resource consumption, stability, and security, areas where the present Kata Containers runtime is challenged relative to other runtimes. To achieve this, we propose a solid, field-tested and secure Rust version of the kata-runtime.
-
-Also, we provide the following designs:
-
- Turn key solution with builtin `Dragonball` Sandbox
- Async I/O to reduce resource consumption
- Extensible framework for multiple services, runtimes and hypervisors
- Lifecycle management for sandbox and container associated resources
-
-### Rationale for choosing Rust
-
-We chose Rust because it is designed as a system language with a focus on efficiency.
-In contrast to Go, Rust makes a variety of design trade-offs in order to obtain
-good execution performance, with innovative techniques that, in contrast to C or
-C++, provide reasonable protection against common memory errors (buffer
-overflow, invalid pointers, range errors), error checking (ensuring errors are
-dealt with), thread safety, ownership of resources, and more.
-
-These benefits were verified in our project when the Kata Containers guest agent
-was rewritten in Rust. We notably saw a significant reduction in memory usage
-with the Rust-based implementation.
-
-
-## Design
-### Architecture
-![architecture](./images/architecture.png)
-### Built-in VMM
-#### Current Kata 2.x architecture
-![not_builtin_vmm](./images/not_built_in_vmm.png)
-As shown in the figure, runtime and VMM are separate processes. The runtime process forks the VMM process and interacts through the inter-process RPC. Typically, process interaction consumes more resources than peers within the process, and it will result in relatively low efficiency. At the same time, the cost of resource operation and maintenance should be considered. For example, when performing resource recovery under abnormal conditions, the exception of any process must be detected by others and activate the appropriate resource recovery process. If there are additional processes, the recovery becomes even more difficult.
-#### How To Support Built-in VMM
-We provide `Dragonball` Sandbox to enable built-in VMM by integrating VMM's function into the Rust library. We could perform VMM-related functionalities by using the library. Because runtime and VMM  are in the same process, there is a benefit in terms of message processing speed and API synchronization. It can also guarantee the consistency of the runtime and the VMM life cycle, reducing resource recovery and exception handling maintenance, as shown in the figure:
-![builtin_vmm](./images/built_in_vmm.png)
-### Async Support
-#### Why Need Async
-**Async is already in stable Rust and allows us to write async code**
-
- Async provides significantly reduced CPU and memory overhead, especially for workloads with a large amount of IO-bound tasks
- Async is zero-cost in Rust, which means that you only pay for what you use. Specifically, you can use async without heap allocations and dynamic dispatch, which greatly improves efficiency
- For more (see [Why Async?](https://rust-lang.github.io/async-book/01_getting_started/02_why_async.html) and [The State of Asynchronous Rust](https://rust-lang.github.io/async-book/01_getting_started/03_state_of_async_rust.html)).
-
-**There may be several problems if implementing kata-runtime with Sync Rust**
-
- Too many threads with a new TTRPC connection
-   - TTRPC threads: reaper thread(1) + listener thread(1) + client handler(2)
- Add 3 I/O threads with a new container
- In Sync mode, implementing a timeout mechanism is challenging. For example, in TTRPC API interaction, the timeout mechanism is difficult to align with Golang
-#### How To Support Async
-The kata-runtime is controlled by TOKIO_RUNTIME_WORKER_THREADS to run the OS thread, which is 2 threads by default. For TTRPC and container-related threads run in the `tokio` thread in a unified manner, and related dependencies need to be switched to Async, such as Timer, File, Netlink, etc. With the help of Async, we can easily support no-block I/O and timer. Currently, we only utilize Async for kata-runtime. The built-in VMM keeps the OS thread because it can ensure that the threads are controllable.
-
-**For N tokio worker threads and M containers**
-
- Sync runtime(both OS thread and `tokio` task are OS thread but without `tokio` worker thread)  OS thread number:  4 + 12*M
- Async runtime(only OS thread is OS thread) OS thread number: 2 + N
-```shell
-├─ main(OS thread)
-├─ async-logger(OS thread)
-└─ tokio worker(N * OS thread)
-  ├─ agent log forwarder(1 * tokio task)
-  ├─ health check thread(1 * tokio task)
-  ├─ TTRPC reaper thread(M * tokio task)
-  ├─ TTRPC listener thread(M * tokio task)
-  ├─ TTRPC client handler thread(7 * M * tokio task)
-  ├─ container stdin io thread(M * tokio task)
-  ├─ container stdout io thread(M * tokio task)
-  └─ container stderr io thread(M * tokio task)
-```
-### Extensible Framework
-The Kata 3.x runtime is designed with the extension of service, runtime, and hypervisor, combined with configuration to meet the needs of different scenarios. At present, the service provides a register mechanism to support multiple services. Services could interact with runtime through messages. In addition, the runtime handler handles messages from services. To meet the needs of a binary that supports multiple runtimes and hypervisors, the startup must obtain the runtime handler type and hypervisor type through configuration.
-
-![framework](./images/framework.png)
-### Resource Manager
-In our case, there will be a variety of resources, and every resource has several subtypes. Especially for `Virt-Container`, every subtype of resource has different operations. And there may be dependencies, such as the share-fs rootfs and the share-fs volume will use share-fs resources to share files to the VM. Currently, network and share-fs are regarded as sandbox resources, while rootfs, volume, and cgroup are regarded as container resources. Also, we abstract a common interface for each resource and use subclass operations to evaluate the differences between different subtypes.
-![resource manager](./images/resourceManager.png)
-
-## Roadmap
-
- Stage 1 (June): provide basic features (current delivered)
- Stage 2 (September): support common features
- Stage 3: support full features
-
-| **Class**                  | **Sub-Class**       | **Development Stage** | **Status** |
-| -------------------------- | ------------------- | --------------------- |------------|
-| Service                    | task service        | Stage 1               |  ✅        |
-|                            | extend service      | Stage 3               |  🚫        |
-|                            | image service       | Stage 3               |  🚫        |
-| Runtime handler            | `Virt-Container`    | Stage 1               |  ✅        |
-| Endpoint                   | VETH Endpoint       | Stage 1               |  ✅        |
-|                            | Physical Endpoint   | Stage 2               |  ✅        |
-|                            | Tap Endpoint        | Stage 2               |  ✅        |
-|                            | `Tuntap` Endpoint   | Stage 2               |  ✅        |
-|                            | `IPVlan` Endpoint   | Stage 2               |  ✅        |
-|                            | `MacVlan` Endpoint  | Stage 2               |  ✅        |
-|                            | MACVTAP Endpoint    | Stage 3               |  🚫        |
-|                            | `VhostUserEndpoint` | Stage 3               |  🚫        |
-| Network Interworking Model | Tc filter           | Stage 1               |  ✅        |
-|                            | `MacVtap`           | Stage 3               |  🚧        |
-| Storage                    | Virtio-fs           | Stage 1               |  ✅        |
-|                            | `nydus`             | Stage 2               |  🚧        |
-|                            | `device mapper`     | Stage 2               |  🚫        |
-| `Cgroup V2`                |                     | Stage 2               |  🚧        |
-| Hypervisor                 | `Dragonball`        | Stage 1               |  🚧        |
-|                            | QEMU                | Stage 2               |  🚫        |
-|                            | ACRN                | Stage 3               |  🚫        |
-|                            | Cloud Hypervisor    | Stage 3               |  🚫        |
-|                            | Firecracker         | Stage 3               |  🚫        |
-
-## FAQ
-
- Are the "service", "message dispatcher" and "runtime handler" all part of the single Kata 3.x runtime binary?
-
-  Yes. They are components in Kata 3.x runtime. And they will be packed into one binary.
-  1. Service is an interface, which is responsible for handling multiple services like task service, image service and etc. 
-  2. Message dispatcher, it is used to match multiple requests from the service module. 
-  3. Runtime handler is used to deal with the operation for sandbox and container. 
- What is the name of the Kata 3.x runtime binary?
-  
-  Apparently we can't use `containerd-shim-v2-kata` because it's already used. We are facing the hardest issue of "naming" again. Any suggestions are welcomed.
-  Internally we use `containerd-shim-v2-rund`.
-
- Is the Kata 3.x design compatible with the containerd shimv2 architecture? 
-  
-  Yes. It is designed to follow the functionality of go version kata.  And it implements the `containerd shim v2` interface/protocol.
-
- How will users migrate to the Kata 3.x architecture?
-  
-  The migration plan will be provided before the Kata 3.x is merging into the main branch.
-
- Is `Dragonball` limited to its own built-in VMM? Can the `Dragonball` system be configured to work using an external `Dragonball` VMM/hypervisor?
-
-  The `Dragonball` could work as an external hypervisor. However, stability and performance is challenging in this case. Built in VMM could optimise the container overhead, and it's easy to maintain stability.
-
-  `runD` is the `containerd-shim-v2` counterpart of `runC` and can run a pod/containers. `Dragonball` is a `microvm`/VMM that is designed to run container workloads. Instead of `microvm`/VMM, we sometimes refer to it as secure sandbox.
-
- QEMU, Cloud Hypervisor and Firecracker support are planned, but how that would work. Are they working in separate process?
- 
-  Yes. They are unable to work as built in VMM.
-
- What is `upcall`?
-  
-    The `upcall` is used to hotplug CPU/memory/MMIO devices, and it solves two issues.
-    1. avoid dependency on PCI/ACPI
-    2. avoid dependency on `udevd` within guest and get deterministic results for hotplug operations. So `upcall` is an alternative to ACPI based CPU/memory/device hotplug. And we may cooperate with the community to add support for ACPI based CPU/memory/device hotplug if needed.
-   
-    `Dbs-upcall` is a `vsock-based` direct communication tool between VMM and guests. The server side of the `upcall` is a driver in guest kernel (kernel patches are needed for this feature) and it'll start to serve the requests once the kernel has started. And the client side is in VMM , it'll be a thread that communicates with VSOCK through `uds`. We have accomplished device hotplug / hot-unplug directly through `upcall` in order to avoid virtualization of ACPI  to minimize virtual machine's overhead. And there could be many other usage through this direct communication channel. It's already open source.
-   https://github.com/openanolis/dragonball-sandbox/tree/main/crates/dbs-upcall 
-
- The URL below says the kernel patches work with 4.19, but do they also work with 5.15+ ?
-  
-  Forward compatibility should be achievable, we have ported it to 5.10 based kernel.
-
- Are these patches platform-specific or would they work for any architecture that supports VSOCK?
-  
-  It's almost platform independent, but some message related to CPU hotplug are platform dependent.
-
- Could the kernel driver be replaced with a userland daemon in the guest using loopback VSOCK?
-  
-  We need to create device nodes for hot-added CPU/memory/devices, so it's not easy for userspace daemon to do these tasks.
-
- The fact that `upcall` allows communication between the VMM and the guest suggests that this architecture might be incompatible with https://github.com/confidential-containers where the VMM should have no knowledge of what happens inside the VM.
-  
-  1. `TDX` doesn't support CPU/memory hotplug yet.
-  2. For ACPI based device hotplug, it depends on ACPI `DSDT` table, and the guest kernel will execute `ASL` code to handle during handling those hotplug event. And it should be easier to audit VSOCK based communication than ACPI `ASL` methods.
-
- What is the security boundary for the monolithic / "Built-in VMM" case?
-  
-  It has the security boundary of virtualization. More details will be provided in next stage.
--- a/docs/design/architecture_3.0/images/architecture.png
+++ b/docs/design/architecture_3.0/images/architecture.png
--- a/docs/design/architecture_3.0/images/built_in_vmm.png
+++ b/docs/design/architecture_3.0/images/built_in_vmm.png
--- a/docs/design/architecture_3.0/images/framework.png
+++ b/docs/design/architecture_3.0/images/framework.png
--- a/docs/design/architecture_3.0/images/not_built_in_vmm.png
+++ b/docs/design/architecture_3.0/images/not_built_in_vmm.png
--- a/docs/design/architecture_3.0/images/resourceManager.png
+++ b/docs/design/architecture_3.0/images/resourceManager.png
--- a/docs/design/architecture_3.0/images/source_code/kata_3.0_images.drawio
+++ b/docs/design/architecture_3.0/images/source_code/kata_3.0_images.drawio
--- a/docs/design/core-scheduling.md
+++ b/docs/design/core-scheduling.md
@@ -1,12 +0,0 @@
-# Core scheduling
-
-Core scheduling is a Linux kernel feature that allows only trusted tasks to run concurrently on
-CPUs sharing compute resources (for example, hyper-threads on a core).
-
-Containerd versions >= 1.6.4 leverage this to treat all of the processes associated with a
-given pod or container to be a single group of trusted tasks. To indicate this should be carried
-out, containerd sets the `SCHED_CORE` environment variable for each shim it spawns. When this is
-set, the Kata Containers shim implementation uses the `prctl` syscall to create a new core scheduling
-domain for the shim process itself as well as future VMM processes it will start.
-
-For more details on the core scheduling feature, see the [Linux documentation](https://www.kernel.org/doc/html/latest/admin-guide/hw-vuln/core-scheduling.html).
--- a/docs/design/direct-blk-device-assignment.md
+++ b/docs/design/direct-blk-device-assignment.md
@@ -1,253 +0,0 @@
-# Motivation
-Today, there exist a few gaps between Container Storage Interface (CSI) and virtual machine (VM) based runtimes such as Kata Containers 
-that prevent them from working together smoothly.
-
-First, it’s cumbersome to use a persistent volume (PV) with Kata Containers. Today, for a PV with Filesystem volume mode, Virtio-fs
-is the only way to surface it inside a Kata Container guest VM. But often mounting the filesystem (FS) within the guest operating system (OS) is 
-desired due to performance benefits, availability of native FS features and security benefits over the Virtio-fs mechanism.
-
-Second, it’s difficult if not impossible to resize a PV online with Kata Containers. While a PV can be expanded on the host OS, 
-the updated metadata needs to be propagated to the guest OS in order for the application container to use the expanded volume. 
-Currently, there is not a way to propagate the PV metadata from the host OS to the guest OS without restarting the Pod sandbox.
-
-# Proposed Solution
-
-Because of the OS boundary, these features cannot be implemented in the CSI node driver plugin running on the host OS 
-as is normally done in the runc container. Instead, they can be done by the Kata Containers agent inside the guest OS, 
-but it requires the CSI driver to pass the relevant information to the Kata Containers runtime. 
-An ideal long term solution would be to have the `kubelet` coordinating the communication between the CSI driver and 
-the container runtime, as described in [KEP-2857](https://github.com/kubernetes/enhancements/pull/2893/files). 
-However, as the KEP is still under review, we would like to propose a short/medium term solution to unblock our use case.
-
-The proposed solution is built on top of a previous [proposal](https://github.com/egernst/kata-containers/blob/da-proposal/docs/design/direct-assign-volume.md) 
-described by Eric Ernst. The previous proposal has two gaps:
-
-1. Writing a `csiPlugin.json` file to the volume root path introduced a security risk. A malicious user can gain unauthorized 
-access to a block device by writing their own `csiPlugin.json` to the above location through an ephemeral CSI plugin.  
-
-2. The proposal didn't describe how to establish a mapping between a volume and a kata sandbox, which is needed for 
-implementing CSI volume resize and volume stat collection APIs.
-
-This document particularly focuses on how to address these two gaps.
-
-## Assumptions and Limitations
-1. The proposal assumes that a block device volume will only be used by one Pod on a node at a time, which we believe 
-is the most common pattern in Kata Containers use cases. It’s also unsafe to have the same block device attached to more than 
-one Kata pod. In the context of Kubernetes, the `PersistentVolumeClaim` (PVC) needs to have the `accessMode` as `ReadWriteOncePod`. 
-2. More advanced Kubernetes volume features such as, `fsGroup`, `fsGroupChangePolicy`, and `subPath` are not supported. 
-
-## End User Interface
-
-1. The user specifies a PV as a direct-assigned volume. How a PV is specified as a direct-assigned volume is left for each CSI implementation to decide.
-There are a few options for reference:
-   1. A storage class parameter specifies whether it's a direct-assigned volume. This avoids any lookups of PVC 
-   or Pod information from the CSI plugin (as external provisioner takes care of these). However, all PVs in the storage class with the parameter set 
-   will have host mounts skipped.
-   2. Use a PVC annotation. This approach requires the CSI plugins have `--extra-create-metadata` [set](https://kubernetes-csi.github.io/docs/external-provisioner.html#persistentvolumeclaim-and-persistentvolume-parameters)
-   to be able to perform a lookup of the PVC annotations from the API server. Pro: API server lookup of annotations only required during creation of PV. 
-   Con: The CSI plugin will always skip host mounting of the PV.
-   3. The CSI plugin can also lookup pod `runtimeclass` during `NodePublish`. This approach can be found in the [ALIBABA CSI plugin](https://github.com/kubernetes-sigs/alibaba-cloud-csi-driver/blob/master/pkg/disk/nodeserver.go#L248).
-2. The CSI node driver delegates the direct assigned volume to the Kata Containers runtime. The CSI node driver APIs need to 
-   be modified to pass the volume mount information and collect volume information to/from the Kata Containers runtime by invoking `kata-runtime` command line commands.
-   * **NodePublishVolume** -- It invokes `kata-runtime direct-volume add --volume-path [volumePath] --mount-info [mountInfo]` 
-   to propagate the volume mount information to the Kata Containers runtime for it to carry out the filesystem mount operation.
-   The `volumePath` is the [target_path](https://github.com/container-storage-interface/spec/blob/master/csi.proto#L1364) in the CSI `NodePublishVolumeRequest`.
-   The `mountInfo` is a serialized JSON string. 
-   * **NodeGetVolumeStats** -- It invokes `kata-runtime direct-volume stats --volume-path [volumePath]` to retrieve the filesystem stats of direct-assigned volume.
-   * **NodeExpandVolume** -- It invokes `kata-runtime direct-volume resize --volume-path [volumePath] --size [size]` to send a resize request to the Kata Containers runtime to
-   resize the direct-assigned volume.
-   * **NodeStageVolume/NodeUnStageVolume** -- It invokes `kata-runtime direct-volume remove --volume-path [volumePath]` to remove the persisted metadata of a direct-assigned volume.
-
-The `mountInfo` object is defined as follows:
-```Golang
-type MountInfo struct {
-    // The type of the volume (ie. block)
-    VolumeType string `json:"volume-type"`
-    // The device backing the volume.
-    Device string `json:"device"`
-    // The filesystem type to be mounted on the volume.
-    FsType string `json:"fstype"`
-    // Additional metadata to pass to the agent regarding this volume.
-    Metadata map[string]string `json:"metadata,omitempty"`
-    // Additional mount options.
-    Options []string `json:"options,omitempty"`
-}
-```
-Notes: given that the `mountInfo` is persisted to the disk by the Kata runtime, it shouldn't container any secrets (such as SMB mount password).
-
-## Implementation Details
-
-### Kata runtime
-Instead of the CSI node driver writing the mount info into a `csiPlugin.json` file under the volume root, 
-as described in the original proposal, here we propose that the CSI node driver passes the mount information to 
-the Kata Containers runtime through a new `kata-runtime` commandline command. The `kata-runtime` then writes the mount 
-information to a `mountInfo.json` file in a predefined location (`/run/kata-containers/shared/direct-volumes/[volume_path]/`).
-
-When the Kata Containers runtime starts a container, it verifies whether a volume mount is a direct-assigned volume by checking 
-whether there is a `mountInfo` file under the computed Kata `direct-volumes` directory. If it is, the runtime parses the `mountInfo` file, 
-updates the mount spec with the data in `mountInfo`. The updated mount spec is then passed to the Kata agent in the guest VM together
-with other mounts. The Kata Containers runtime also creates a file named by the sandbox id under the `direct-volumes/[volume_path]/` 
-directory. The reason for adding a sandbox id file is to establish a mapping between the volume and the sandbox using it. 
-Later, when the Kata Containers runtime handles the `get-stats` and `resize` commands, it uses the sandbox id to identify 
-the endpoint of the corresponding `containerd-shim-kata-v2`.
-
-### containerd-shim-kata-v2 changes
-`containerd-shim-kata-v2` provides an API for sandbox management through a Unix domain socket. Two new handlers are proposed: `/direct-volume/stats` and `/direct-volume/resize`:
-
-Example:
-
-```bash
-$ curl --unix-socket "$shim_socket_path" -I -X GET 'http://localhost/direct-volume/stats/[urlSafeVolumePath]'
-$ curl --unix-socket "$shim_socket_path" -I -X POST 'http://localhost/direct-volume/resize' -d '{ "volumePath"": [volumePath], "Size": "123123" }'
-```
-
-The shim then forwards the corresponding request to the `kata-agent` to carry out the operations inside the guest VM. For `resize` operation, 
-the Kata runtime also needs to notify the hypervisor to resize the block device (e.g. call `block_resize` in QEMU). 
-
-### Kata agent changes
-
-The mount spec of a direct-assigned volume is passed to `kata-agent` through the existing `Storage` GRPC object. 
-Two new APIs and three new GRPC objects are added to GRPC protocol between the shim and agent for resizing and getting volume stats:
-```protobuf
-
-rpc GetVolumeStats(VolumeStatsRequest) returns (VolumeStatsResponse);
-rpc ResizeVolume(ResizeVolumeRequest) returns (google.protobuf.Empty);
-
-message VolumeStatsRequest {
-// The volume path on the guest outside the container
-    string volume_guest_path = 1;
-}
-
-message ResizeVolumeRequest {
-// Full VM guest path of the volume (outside the container)
-    string volume_guest_path = 1;
-    uint64 size = 2;
-}
-
-// This should be kept in sync with CSI NodeGetVolumeStatsResponse (https://github.com/container-storage-interface/spec/blob/v1.5.0/csi.proto)
-message VolumeStatsResponse {
-   // This field is OPTIONAL.
-   repeated VolumeUsage usage = 1;
-   // Information about the current condition of the volume.
-   // This field is OPTIONAL.
-   // This field MUST be specified if the VOLUME_CONDITION node
-   // capability is supported.
-   VolumeCondition volume_condition = 2;
-}
-message VolumeUsage {
-   enum Unit {
-      UNKNOWN = 0;
-      BYTES = 1;
-      INODES = 2;
-   }
-   // The available capacity in specified Unit. This field is OPTIONAL.
-   // The value of this field MUST NOT be negative.
-   uint64 available = 1;
-
-   // The total capacity in specified Unit. This field is REQUIRED.
-   // The value of this field MUST NOT be negative.
-   uint64 total = 2;
-
-   // The used capacity in specified Unit. This field is OPTIONAL.
-   // The value of this field MUST NOT be negative.
-   uint64 used = 3;
-
-   // Units by which values are measured. This field is REQUIRED.
-   Unit unit = 4;
-}
-
-// VolumeCondition represents the current condition of a volume.
-message VolumeCondition {
-
-   // Normal volumes are available for use and operating optimally.
-   // An abnormal volume does not meet these criteria.
-   // This field is REQUIRED.
-   bool abnormal = 1;
-
-   // The message describing the condition of the volume.
-   // This field is REQUIRED.
-   string message = 2;
-}
-
-```
-
-### Step by step walk-through
-
-Given the following definition:
-```YAML
---
-apiVersion: v1
-kind: Pod
-metadata:
-  name: app
-spec:
-  runtime-class: kata-qemu
-  containers:
-  - name: app
-    image: centos
-    command: ["/bin/sh"]
-    args: ["-c", "while true; do echo $(date -u) >> /data/out.txt; sleep 5; done"]
-    volumeMounts:
-    - name: persistent-storage
-      mountPath: /data
-  volumes:
-  - name: persistent-storage
-    persistentVolumeClaim:
-      claimName: ebs-claim
---
-apiVersion: v1
-kind: PersistentVolumeClaim
-metadata:
-  annotations:
-    skip-hostmount: "true"
-  name: ebs-claim
-spec:
-  accessModes:
-    - ReadWriteOncePod
-  volumeMode: Filesystem
-  storageClassName: ebs-sc
-  resources:
-    requests:
-      storage: 4Gi
---
-kind: StorageClass
-apiVersion: storage.k8s.io/v1
-metadata:
-  name: ebs-sc
-provisioner: ebs.csi.aws.com
-volumeBindingMode: WaitForFirstConsumer
-parameters:
-  csi.storage.k8s.io/fstype: ext4
-
-```
-Let’s assume that changes have been made in the `aws-ebs-csi-driver` node driver.
-
-**Node publish volume**
-1. In the node CSI driver, the `NodePublishVolume` API invokes: `kata-runtime direct-volume add --volume-path "/kubelet/a/b/c/d/sdf" --mount-info "{\"Device\": \"/dev/sdf\", \"fstype\": \"ext4\"}"`.
-2. The `Kata-runtime` writes the mount-info JSON to a file called `mountInfo.json` under `/run/kata-containers/shared/direct-volumes/kubelet/a/b/c/d/sdf`.
-
-**Node unstage volume**
-1. In the node CSI driver, the `NodeUnstageVolume` API invokes: `kata-runtime direct-volume remove --volume-path "/kubelet/a/b/c/d/sdf"`.
-2. Kata-runtime deletes the directory `/run/kata-containers/shared/direct-volumes/kubelet/a/b/c/d/sdf`.
-
-**Use the volume in sandbox**
-1. Upon the request to start a container, the `containerd-shim-kata-v2` examines the container spec,
-and iterates through the mounts. For each mount, if there is a `mountInfo.json` file under `/run/kata-containers/shared/direct-volumes/[mount source path]`,
-it generates a `storage` GRPC object after overwriting the mount spec with the information in `mountInfo.json`.
-2. The shim sends the storage objects to kata-agent through TTRPC.
-3. The shim writes a file with the sandbox id as the name under `/run/kata-containers/shared/direct-volumes/[mount source path]`.
-4. The kata-agent mounts the storage objects for the container.
-
-**Node expand volume**
-1. In the node CSI driver, the `NodeExpandVolume` API invokes: `kata-runtime direct-volume resize –-volume-path "/kubelet/a/b/c/d/sdf" –-size 8Gi`.
-2. The Kata runtime checks whether there is a sandbox id file under the directory `/run/kata-containers/shared/direct-volumes/kubelet/a/b/c/d/sdf`.
-3. The Kata runtime identifies the shim instance through the sandbox id, and sends a GRPC request to resize the volume.
-4. The shim handles the request, asks the hypervisor to resize the block device and sends a GRPC request to Kata agent to resize the filesystem.
-5. Kata agent receives the request and resizes the filesystem.
-
-**Node get volume stats**
-1. In the node CSI driver, the `NodeGetVolumeStats` API invokes: `kata-runtime direct-volume stats –-volume-path "/kubelet/a/b/c/d/sdf"`.
-2. The Kata runtime checks whether there is a sandbox id file under the directory `/run/kata-containers/shared/direct-volumes/kubelet/a/b/c/d/sdf`.
-3. The Kata runtime identifies the shim instance through the sandbox id, and sends a GRPC request to get the volume stats.
-4. The shim handles the request and forwards it to the Kata agent.
-5. Kata agent receives the request and returns the filesystem stats.
--- a/docs/design/hooks-handling.md
+++ b/docs/design/hooks-handling.md
@@ -1,63 +0,0 @@
-# Kata Containers support for `Hooks`
-
-## Introduction
-
-During container's lifecycle, different Hooks can be executed to do custom actions. In Kata Containers, we support two types of Hooks, `OCI Hooks` and `Kata Hooks`.
-
-### OCI Hooks
-
-The OCI Spec stipulates six hooks that can be executed at different time points and namespaces, including `Prestart Hooks`, `CreateRuntime Hooks`, `CreateContainer Hooks`, `StartContainer Hooks`, `Poststart Hooks` and `Poststop Hooks`. We support these types of Hooks as compatible as possible in Kata Containers.
-
-The path and arguments of these hooks will be passed to Kata for execution via `bundle/config.json`. For example:
-```
-...
-"hooks": {
-  "prestart": [
-    {
-      "path": "/usr/bin/prestart-hook",
-      "args": ["prestart-hook", "arg1", "arg2"],
-      "env":  [ "key1=value1"]
-    }
-  ],
-  "createRuntime": [
-    {
-      "path": "/usr/bin/createRuntime-hook",
-      "args": ["createRuntime-hook", "arg1", "arg2"],
-      "env":  [ "key1=value1"]
-    }
-  ]
-}
-...
-```
-
-### Kata Hooks
-
-In Kata, we support another three kinds of hooks executed in guest VM, including `Guest Prestart Hook`, `Guest Poststart Hook`, `Guest Poststop Hook`.
-
-The executable files for Kata Hooks must be packaged in the *guest rootfs*. The file path to those guest hooks should be specified in the configuration file, and guest hooks must be stored in a subdirectory of `guest_hook_path` according to their hook type. For example:
-
-+ In configuration file:
-```
-guest_hook_path="/usr/share/hooks"
-```
-+ In guest rootfs, prestart-hook is stored in `/usr/share/hooks/prestart/prestart-hook`.
-
-## Execution
-The table below summarized when and where those different hooks will be executed in Kata Containers:
-
-| Hook Name | Hook Type | Hook Path | Exec Place | Exec Time |
-|---|---|---|---|---|
-| `Prestart(deprecated)` | OCI hook | host runtime namespace | host runtime namespace | After VM is started, before container is created. |
-| `CreateRuntime` | OCI hook | host runtime namespace | host runtime namespace | After VM is started, before container is created, after `Prestart` hooks. |
-| `CreateContainer` | OCI hook | host runtime namespace | host vmm namespace* | After VM is started, before container is created, after `CreateRuntime` hooks. |
-| `StartContainer` | OCI hook | guest container namespace | guest container namespace | After container is created, before container is started. |
-| `Poststart` | OCI hook | host runtime namespace | host runtime namespace | After container is started, before start operation returns. |
-| `Poststop` | OCI hook | host runtime namespace | host runtime namespace | After container is deleted, before delete operation returns. |
-| `Guest Prestart` | Kata hook | guest agent namespace | guest agent namespace | During start operation, before container command is executed. |
-| `Guest Poststart` | Kata hook | guest agent namespace | guest agent namespace | During start operation, after container command is executed, before start operation returns. |
-| `Guest Poststop` | Kata hook | guest agent namespace | guest agent namespace | During delete operation, after container is deleted, before delete operation returns. |
-
-+ `Hook Path` specifies where hook's path be resolved.
-+ `Exec Place` specifies in which namespace those hooks can be executed.
-  + For `CreateContainer` Hooks, OCI requires to run them inside the container namespace while the hook executable path is in the host runtime, which is a non-starter for VM-based containers. So we design to keep them running in the *host vmm namespace.* 
-+ `Exec Time` specifies at which time point those hooks can be executed.
--- a/docs/design/host-cgroups.md
+++ b/docs/design/host-cgroups.md
@@ -12,7 +12,7 @@ The OCI [runtime specification][linux-config] provides guidance on where the con
  > [`cgroupsPath`][cgroupspath]: (string, OPTIONAL) path to the cgroups. It can be used to either control the cgroups
  > hierarchy for containers or to run a new process in an existing container

-The cgroups are hierarchical, and this can be seen with the following pod example:
+Cgroups are hierarchical, and this can be seen with the following pod example:

 - Pod 1: `cgroupsPath=/kubepods/pod1`
  - Container 1: `cgroupsPath=/kubepods/pod1/container1`
@@ -247,14 +247,14 @@ cgroup size and constraints accordingly.

 # Supported cgroups

-Kata Containers currently supports cgroups `v1` and `v2`. 
+Kata Containers currently only supports cgroups `v1`. 

 In the following sections each cgroup is described briefly.

-## cgroups v1
+## Cgroups V1

-`cgroups v1` are under a [`tmpfs`][1] filesystem mounted at `/sys/fs/cgroup`, where each cgroup is
-mounted under a separate cgroup filesystem. A `cgroups v1` hierarchy may look like the following
+`Cgroups V1` are under a [`tmpfs`][1] filesystem mounted at `/sys/fs/cgroup`, where each cgroup is
+mounted under a separate cgroup filesystem. A `Cgroups v1` hierarchy may look like the following
 diagram:

 ```
@@ -301,12 +301,13 @@ diagram:
 A process can join a cgroup by writing its process id (`pid`) to `cgroup.procs` file,
 or join a cgroup partially by writing the task (thread) id (`tid`) to the `tasks` file.

+Kata Containers only supports `v1`.
 To know more about `cgroups v1`, see [cgroupsv1(7)][2].

-## cgroups v2
+## Cgroups V2

-`cgroups v2` are also known as unified cgroups, unlike `cgroups v1`, the cgroups are
-mounted under the same cgroup filesystem. A `cgroups v2` hierarchy may look like the following
+`Cgroups v2` are also known as unified cgroups, unlike `cgroups v1`, the cgroups are
+mounted under the same cgroup filesystem. A `Cgroups v2` hierarchy may look like the following
 diagram:

 ```
@@ -353,6 +354,8 @@ Same as `cgroups v1`, a process can join the cgroup by writing its process id (`
 `cgroup.procs` file, or join a cgroup partially by writing the task (thread) id (`tid`) to
 `cgroup.threads` file.

+Kata Containers does not support cgroups `v2` on the host.
+
 ### Distro Support

 Many Linux distributions do not yet support `cgroups v2`, as it is quite a recent addition.
--- a/docs/design/vcpu-handling.md
+++ b/docs/design/vcpu-handling.md
@@ -2,15 +2,24 @@

 ## Default number of virtual CPUs

-Before starting a container, the [runtime][4] reads the `default_vcpus` option
-from the [configuration file][5] to determine the number of virtual CPUs
+Before starting a container, the [runtime][6] reads the `default_vcpus` option
+from the [configuration file][7] to determine the number of virtual CPUs
 (vCPUs) needed to start the virtual machine. By default, `default_vcpus` is
 equal to 1 for fast boot time and a small memory footprint per virtual machine.
 Be aware that increasing this value negatively impacts the virtual machine's
 boot time and memory footprint.
 In general, we recommend that you do not edit this variable, unless you know
 what are you doing. If your container needs more than one vCPU, use
-[Kubernetes `cpu` limits][1] to assign more resources.
+[docker `--cpus`][1], [docker update][4], or [Kubernetes `cpu` limits][2] to
+assign more resources.
+
+*Docker*
+
+```sh
+$ docker run --name foo -ti --cpus 2 debian bash
+$ docker update --cpus 4 foo
+```
+

 *Kubernetes*

@@ -40,7 +49,7 @@ $ sudo -E kubectl create -f ~/cpu-demo.yaml
 ## Virtual CPUs and Kubernetes pods

 A Kubernetes pod is a group of one or more containers, with shared storage and
-network, and a specification for how to run the containers [[specification][2]].
+network, and a specification for how to run the containers [[specification][3]].
 In Kata Containers this group of containers, which is called a sandbox, runs inside
 the same virtual machine. If you do not specify a CPU constraint, the runtime does
 not add more vCPUs and the container is not placed inside a CPU cgroup.
@@ -64,7 +73,13 @@ constraints with each container trying to consume 100% of vCPU, the resources
 divide in two parts, 50% of vCPU for each container because your virtual
 machine does not have enough resources to satisfy containers needs. If you want
 to give access to a greater or lesser portion of vCPUs to a specific container,
-use [Kubernetes `cpu` requests][1].
+use [`docker --cpu-shares`][1] or [Kubernetes `cpu` requests][2].
+
+*Docker*
+
+```sh
+$ docker run -ti --cpus-shares=512 debian bash
+```

 *Kubernetes*

@@ -94,9 +109,10 @@ $ sudo -E kubectl create -f ~/cpu-demo.yaml
 Before running containers without CPU constraint, consider that your containers
 are not running alone. Since your containers run inside a virtual machine other
 processes use the vCPUs as well (e.g. `systemd` and the Kata Containers
-[agent][3]). In general, we recommend setting `default_vcpus` equal to 1 to
+[agent][5]). In general, we recommend setting `default_vcpus` equal to 1 to
 allow non-container processes to run on this vCPU and to specify a CPU
-constraint for each container.
+constraint for each container. If your container is already running and needs
+more vCPUs, you can add more using [docker update][4].

 ## Container with CPU constraint

@@ -105,7 +121,7 @@ constraints using the following formula: `vCPUs = ceiling( quota / period )`, wh
 `quota` specifies the number of microseconds per CPU Period that the container is
 guaranteed CPU access and `period` specifies the CPU CFS scheduler period of time
 in microseconds. The result determines the number of vCPU to hot plug into the
-virtual machine. Once the vCPUs have been added, the [agent][3] places the
+virtual machine. Once the vCPUs have been added, the [agent][5] places the
 container inside a CPU cgroup. This placement allows the container to use only
 its assigned resources.

@@ -122,6 +138,25 @@ the virtual machine starts with 8 vCPUs and 1 vCPUs is added and assigned
 to the container. Non-container processes might be able to use 8 vCPUs but they
 use a maximum 1 vCPU, hence 7 vCPUs might not be used.

+
+*Container without CPU constraint*
+
+```sh
+$ docker run -ti debian bash -c "nproc; cat /sys/fs/cgroup/cpu,cpuacct/cpu.cfs_*"
+1       # number of vCPUs
+100000  # cfs period
+-1      # cfs quota
+```
+
+*Container with CPU constraint*
+
+```sh
+docker run --cpus 4 -ti debian bash -c "nproc; cat /sys/fs/cgroup/cpu,cpuacct/cpu.cfs_*"
+5       # number of vCPUs
+100000  # cfs period
+400000  # cfs quota
+```
+
 ## Virtual CPU handling without hotplug

 In some cases, the hardware and/or software architecture being utilized does not support
@@ -148,8 +183,11 @@ the container's `spec` will provide the sizing information directly. If these ar
 calculate the number of CPUs required for the workload and augment this by `default_vcpus`
 configuration option, and use this for the virtual machine size.

-[1]: https://kubernetes.io/docs/tasks/configure-pod-container/assign-cpu-resource
-[2]: https://kubernetes.io/docs/concepts/workloads/pods/pod/
-[3]: ../../src/agent
-[4]: ../../src/runtime
-[5]: ../../src/runtime/README.md#configuration
+
+[1]: https://docs.docker.com/config/containers/resource_constraints/#cpu
+[2]: https://kubernetes.io/docs/tasks/configure-pod-container/assign-cpu-resource
+[3]: https://kubernetes.io/docs/concepts/workloads/pods/pod/
+[4]: https://docs.docker.com/engine/reference/commandline/update/
+[5]: ../../src/agent
+[6]: ../../src/runtime
+[7]: ../../src/runtime/README.md#configuration
--- a/docs/design/vcpu-threads-pinning.md
+++ b/docs/design/vcpu-threads-pinning.md
@@ -1,37 +0,0 @@
-# Design Doc for Kata Containers' VCPUs Pinning Feature
-
-## Background
-By now, vCPU threads of Kata Containers are scheduled randomly to CPUs. And each pod would request a specific set of CPUs which we call it CPU set (just the CPU set meaning in Linux cgroups).    
-
-If the number of vCPU threads are equal to that of CPUs claimed in CPU set, we can then pin each vCPU thread to one specified CPU, to reduce the cost of random scheduling. 
-
-## Detailed Design
-
-### Passing Config Parameters
-Two ways are provided to use this vCPU thread pinning feature: through `QEMU` configuration file and through annotations. Finally the pinning parameter is passed to `HypervisorConfig`.
-
-### Related Linux Thread Scheduling API
-
-| API Info          | Value                                                     |
-|-------------------|-----------------------------------------------------------|
-| Package           | `golang.org/x/sys/unix`                                     |
-| Method            | `unix.SchedSetaffinity(thread_id, &unixCPUSet)`             |
-| Official Doc Page | https://pkg.go.dev/golang.org/x/sys/unix#SchedSetaffinity |
-
-### When is VCPUs Pinning Checked?
-
-As shown in Section 1, when `num(vCPU threads) == num(CPUs in CPU set)`, we shall pin each vCPU thread to a specified CPU. And when this condition is broken, we should restore to the original random scheduling pattern.  
-So when may `num(CPUs in CPU set)` change? There are 5 possible scenes:
-
-| Possible scenes                   | Related Code                               |
-|-----------------------------------|--------------------------------------------|
-| when creating a container         | File Sandbox.go, in method `CreateContainer`  |
-| when starting a container         | File Sandbox.go, in method `StartContainer`   |
-| when deleting a container         | File Sandbox.go, in method `DeleteContainer`  |
-| when updating a container         | File Sandbox.go, in method `UpdateContainer`  |
-| when creating multiple containers | File Sandbox.go, in method `createContainers` |
-
-### Core Pinning Logics
-
-We can split the whole process into the following steps. Related methods are `checkVCPUsPinning` and `resetVCPUsPinning`, in file Sandbox.go.
-![](arch-images/vcpus-pinning-process.png) 
--- a/docs/design/virtualization.md
+++ b/docs/design/virtualization.md
@@ -39,7 +39,7 @@ Details of each solution and a summary are provided below.
 Kata Containers with QEMU has complete compatibility with Kubernetes.

 Depending on the host architecture, Kata Containers supports various machine types,
-for example `q35` on x86 systems, `virt` on ARM systems and `pseries` on IBM Power systems. The default Kata Containers
+for example `pc` and `q35` on x86 systems, `virt` on ARM systems and `pseries` on IBM Power systems. The default Kata Containers
 machine type is `q35`. The machine type and its [`Machine accelerators`](#machine-accelerators) can
 be changed by editing the runtime [`configuration`](architecture/README.md#configuration) file.

@@ -60,8 +60,9 @@ Machine accelerators are architecture specific and can be used to improve the pe
 and enable specific features of the machine types. The following machine accelerators
 are used in Kata Containers:

- NVDIMM: This machine accelerator is x86 specific and only supported by `q35` machine types.
-`nvdimm` is used to provide the root filesystem as a persistent memory device to the Virtual Machine.
+- NVDIMM: This machine accelerator is x86 specific and only supported by `pc` and
+`q35` machine types. `nvdimm` is used to provide the root filesystem as a persistent
+memory device to the Virtual Machine.

 #### Hotplug devices

@@ -110,7 +111,7 @@ Devices and features used:
 - VFIO
 - hotplug
 - seccomp filters
- [HTTP OpenAPI](https://github.com/cloud-hypervisor/cloud-hypervisor/blob/main/vmm/src/api/openapi/cloud-hypervisor.yaml)
+- [HTTP OpenAPI](https://github.com/cloud-hypervisor/cloud-hypervisor/blob/master/vmm/src/api/openapi/cloud-hypervisor.yaml)

 ### Summary

--- a/docs/how-to/README.md
+++ b/docs/how-to/README.md
@@ -5,7 +5,7 @@
 - [Run Kata containers with `crictl`](run-kata-with-crictl.md)
 - [Run Kata Containers with Kubernetes](run-kata-with-k8s.md)
 - [How to use Kata Containers and Containerd](containerd-kata.md)
- [How to use Kata Containers and containerd with Kubernetes](how-to-use-k8s-with-containerd-and-kata.md)
+- [How to use Kata Containers and CRI (containerd) with Kubernetes](how-to-use-k8s-with-cri-containerd-and-kata.md)
 - [Kata Containers and service mesh for Kubernetes](service-mesh.md)
 - [How to import Kata Containers logs into Fluentd](how-to-import-kata-logs-with-fluentd.md)

@@ -15,11 +15,6 @@
 - `qemu`
 - `cloud-hypervisor`
 - `firecracker`
-
-   In the case of `firecracker` the use of a block device `snapshotter` is needed
-   for the VM rootfs. Refer to the following guide for additional configuration
-   steps:
-   - [Setup Kata containers with `firecracker`](how-to-use-kata-containers-with-firecracker.md)
 - `ACRN`

  While `qemu` , `cloud-hypervisor` and `firecracker` work out of the box with installation of Kata,
@@ -42,9 +37,4 @@
 - [How to setup swap devices in guest kernel](how-to-setup-swap-devices-in-guest-kernel.md)
 - [How to run rootless vmm](how-to-run-rootless-vmm.md)
 - [How to run Docker with Kata Containers](how-to-run-docker-with-kata.md)
- [How to run Kata Containers with `nydus`](how-to-use-virtio-fs-nydus-with-kata.md)
- [How to run Kata Containers with AMD SEV-SNP](how-to-run-kata-containers-with-SNP-VMs.md)
- [How to use EROFS to build rootfs in Kata Containers](how-to-use-erofs-build-rootfs.md)
-## Confidential Containers
- [How to use build and test the Confidential Containers `CCv0` proof of concept](how-to-build-and-test-ccv0.md)
- [How to generate a Kata Containers payload for the Confidential Containers Operator](how-to-generate-a-kata-containers-payload-for-the-confidential-containers-operator.md)
+- [How to run Kata Containers with `nydus`](how-to-use-virtio-fs-nydus-with-kata.md)
--- a/docs/how-to/ccv0.sh
+++ b/docs/how-to/ccv0.sh
@@ -1,635 +0,0 @@
-#!/bin/bash -e
-#
-# Copyright (c) 2021, 2023 IBM Corporation
-#
-# SPDX-License-Identifier: Apache-2.0
-#
-
-# Disclaimer: This script is work in progress for supporting the CCv0 prototype
-# It shouldn't be considered supported by the Kata Containers community, or anyone else
-
-# Based on https://github.com/kata-containers/kata-containers/blob/main/docs/Developer-Guide.md,
-# but with elements of the tests/.ci scripts used
-
-readonly script_name="$(basename "${BASH_SOURCE[0]}")"
-
-# By default in Golang >= 1.16 GO111MODULE is set to "on", but not all modules support it, so overwrite to "auto"
-export GO111MODULE="auto"
-
-# Setup kata containers environments if not set - we default to use containerd
-export CRI_CONTAINERD=${CRI_CONTAINERD:-"yes"}
-export CRI_RUNTIME=${CRI_RUNTIME:-"containerd"}
-export CRIO=${CRIO:-"no"}
-export KATA_HYPERVISOR="${KATA_HYPERVISOR:-qemu}"
-export KUBERNETES=${KUBERNETES:-"no"}
-export AGENT_INIT="${AGENT_INIT:-${TEST_INITRD:-no}}"
-export AA_KBC="${AA_KBC:-offline_fs_kbc}"
-export KATA_BUILD_CC=${KATA_BUILD_CC:-"yes"}
-export TEE_TYPE=${TEE_TYPE:-}
-export PREFIX="${PREFIX:-/opt/confidential-containers}"
-export RUNTIME_CONFIG_PATH="${RUNTIME_CONFIG_PATH:-${PREFIX}/share/defaults/kata-containers/configuration.toml}"
-
-# Allow the user to overwrite the default repo and branch names if they want to build from a fork
-export katacontainers_repo="${katacontainers_repo:-github.com/kata-containers/kata-containers}"
-export katacontainers_branch="${katacontainers_branch:-CCv0}" 
-export kata_default_branch=${katacontainers_branch}
-export tests_repo="${tests_repo:-github.com/kata-containers/tests}"
-export tests_branch="${tests_branch:-CCv0}"
-export target_branch=${tests_branch} # kata-containers/ci/lib.sh uses target branch var to check out tests repo
-
-# if .bash_profile exists then use it, otherwise fall back to .profile
-export PROFILE="${HOME}/.profile"
-if [ -r "${HOME}/.bash_profile" ]; then
-    export PROFILE="${HOME}/.bash_profile"
-fi
-# Stop PS1: unbound variable error happening
-export PS1=${PS1:-}
-
-# Create a bunch of common, derived values up front so we don't need to create them in all the different functions
-. ${PROFILE}
-if [ -z ${GOPATH} ]; then
-    export GOPATH=${HOME}/go
-fi
-export tests_repo_dir="${GOPATH}/src/${tests_repo}"
-export katacontainers_repo_dir="${GOPATH}/src/${katacontainers_repo}"
-export ROOTFS_DIR="${katacontainers_repo_dir}/tools/osbuilder/rootfs-builder/rootfs"
-export PULL_IMAGE="${PULL_IMAGE:-quay.io/kata-containers/confidential-containers:signed}" # Doesn't need authentication
-export CONTAINER_ID="${CONTAINER_ID:-0123456789}"
-source /etc/os-release || source /usr/lib/os-release
-grep -Eq "\<fedora\>" /etc/os-release 2> /dev/null && export USE_PODMAN=true
-
-
-# If we've already checked out the test repo then source the confidential scripts
-if [ "${KUBERNETES}" == "yes" ]; then
-    export BATS_TEST_DIRNAME="${tests_repo_dir}/integration/kubernetes/confidential"
-    [ -d "${BATS_TEST_DIRNAME}" ] && source "${BATS_TEST_DIRNAME}/lib.sh"
-else
-    export BATS_TEST_DIRNAME="${tests_repo_dir}/integration/containerd/confidential"
-    [ -d "${BATS_TEST_DIRNAME}" ] && source "${BATS_TEST_DIRNAME}/lib.sh"
-fi
-
-[ -d "${BATS_TEST_DIRNAME}" ] && source "${BATS_TEST_DIRNAME}/../../confidential/lib.sh"
-
-usage() {
-    exit_code="$1"
-    cat <<EOF
-Overview:
-    Build and test kata containers from source
-    Optionally set kata-containers and tests repo and branch as exported variables before running
-    e.g. export katacontainers_repo=github.com/stevenhorsman/kata-containers && export katacontainers_branch=kata-ci-from-fork && export tests_repo=github.com/stevenhorsman/tests && export tests_branch=kata-ci-from-fork && ~/${script_name} build_and_install_all
-Usage:
-    ${script_name} [options] <command>
-Commands:
- agent_create_container:           Run CreateContainer command against the agent with agent-ctl
- agent_pull_image:                 Run PullImage command against the agent with agent-ctl
- all:                              Build and install everything, test kata with containerd and capture the logs
- build_and_add_agent_to_rootfs:    Builds the kata-agent and adds it to the rootfs
- build_and_install_all:            Build and install everything
- build_and_install_rootfs:         Builds and installs the rootfs image
- build_kata_runtime:               Build and install the kata runtime
- build_cloud_hypervisor            Checkout, patch, build and install Cloud Hypervisor
- build_qemu:                       Checkout, patch, build and install QEMU
- configure:                        Configure Kata to use rootfs and enable debug
- connect_to_ssh_demo_pod:          Ssh into the ssh demo pod, showing that the decryption succeeded
- copy_signature_files_to_guest     Copies signature verification files to guest
- create_rootfs:                    Create a local rootfs
- crictl_create_cc_container        Use crictl to create a new busybox container in the kata cc pod
- crictl_create_cc_pod              Use crictl to create a new kata cc pod
- crictl_delete_cc                  Use crictl to delete the kata cc pod sandbox and container in it
- help:                             Display this help
- init_kubernetes:                  initialize a Kubernetes cluster on this system
- initialize:                       Install dependencies and check out kata-containers source
- install_guest_kernel:             Setup, build and install the guest kernel
- kubernetes_create_cc_pod:         Create a Kata CC runtime busybox-based pod in Kubernetes
- kubernetes_create_ssh_demo_pod:   Create a Kata CC runtime pod based on the ssh demo
- kubernetes_delete_cc_pod:         Delete the Kata CC runtime busybox-based pod in Kubernetes
- kubernetes_delete_ssh_demo_pod:   Delete the Kata CC runtime pod based on the ssh demo
- open_kata_shell:                  Open a shell into the kata runtime
- rebuild_and_install_kata:         Rebuild the kata runtime and agent and build and install the image
- shim_pull_image:                  Run PullImage command against the shim with ctr
- test_capture_logs:                Test using kata with containerd and capture the logs in the user's home directory
- test:                             Test using kata with containerd
-
-Options:
-    -d: Enable debug
-    -h: Display this help
-EOF
-    # if script sourced don't exit as this will exit the main shell, just return instead
-    [[ $_ != $0 ]] && return "$exit_code" || exit "$exit_code"
-}
-
-build_and_install_all() {
-    initialize
-    build_and_install_kata_runtime
-    configure
-    create_a_local_rootfs
-    build_and_install_rootfs
-    install_guest_kernel_image
-    case "$KATA_HYPERVISOR" in
-        "qemu") 
-            build_qemu
-            ;;
-        "cloud-hypervisor") 
-            build_cloud_hypervisor
-            ;;
-        *)
-            echo "Invalid option: $KATA_HYPERVISOR is not supported." >&2
-            ;;
-    esac
-
-    check_kata_runtime
-    if [ "${KUBERNETES}" == "yes" ]; then
-        init_kubernetes
-    fi
-}
-
-rebuild_and_install_kata() {
-    checkout_tests_repo
-    checkout_kata_containers_repo
-    build_and_install_kata_runtime
-    build_and_add_agent_to_rootfs
-    build_and_install_rootfs
-    check_kata_runtime
-}
-
-# Based on the jenkins_job_build.sh script in kata-containers/tests/.ci - checks out source code and installs dependencies
-initialize() {
-    # We need git to checkout and bootstrap the ci scripts and some other packages used in testing
-    sudo apt-get update && sudo apt-get install -y curl git qemu-utils
-    
-    grep -qxF "export GOPATH=\${HOME}/go" "${PROFILE}" || echo "export GOPATH=\${HOME}/go" >> "${PROFILE}"
-    grep -qxF "export GOROOT=/usr/local/go" "${PROFILE}" || echo "export GOROOT=/usr/local/go" >> "${PROFILE}"
-    grep -qxF "export PATH=\${GOPATH}/bin:/usr/local/go/bin:\${PATH}" "${PROFILE}" || echo "export PATH=\${GOPATH}/bin:/usr/local/go/bin:\${PATH}" >> "${PROFILE}"
-    
-    # Load the new go and PATH parameters from the profile
-    . ${PROFILE}
-    mkdir -p "${GOPATH}"
-
-    checkout_tests_repo
-
-    pushd "${tests_repo_dir}"
-    local ci_dir_name=".ci"
-    sudo -E PATH=$PATH -s "${ci_dir_name}/install_go.sh" -p -f
-    sudo -E PATH=$PATH -s "${ci_dir_name}/install_rust.sh"
-    # Need to change ownership of rustup so later process can create temp files there
-    sudo chown -R ${USER}:${USER} "${HOME}/.rustup"
-
-    checkout_kata_containers_repo
-
-    # Run setup, but don't install kata as we will build it ourselves in locations matching the developer guide
-    export INSTALL_KATA="no"
-    sudo -E PATH=$PATH -s ${ci_dir_name}/setup.sh
-    # Reload the profile to pick up installed dependencies
-    . ${PROFILE}
-    popd
-}
-
-checkout_tests_repo() {
-    echo "Creating repo: ${tests_repo} and branch ${tests_branch} into ${tests_repo_dir}..."
-    # Due to git https://github.blog/2022-04-12-git-security-vulnerability-announced/ the tests repo needs
-    # to be owned by root as it is re-checked out in rootfs.sh
-    mkdir -p $(dirname "${tests_repo_dir}")
-    [ -d "${tests_repo_dir}" ] || sudo -E git clone "https://${tests_repo}.git" "${tests_repo_dir}"
-    sudo -E chown -R root:root "${tests_repo_dir}"
-    pushd "${tests_repo_dir}"
-    sudo -E git fetch
-    if [ -n "${tests_branch}" ]; then
-        sudo -E git checkout ${tests_branch}
-    fi
-    sudo -E git reset --hard origin/${tests_branch}
-    popd
-
-    source "${BATS_TEST_DIRNAME}/lib.sh"
-    source "${BATS_TEST_DIRNAME}/../../confidential/lib.sh"
-}
-
-# Note: clone_katacontainers_repo using go, so that needs to be installed first
-checkout_kata_containers_repo() {
-    source "${tests_repo_dir}/.ci/lib.sh"
-    echo "Creating repo: ${katacontainers_repo} and branch ${kata_default_branch} into ${katacontainers_repo_dir}..."
-    clone_katacontainers_repo
-    sudo -E chown -R ${USER}:${USER} "${katacontainers_repo_dir}"
-}
-
-build_and_install_kata_runtime() {
-    export DEFAULT_HYPERVISOR=${KATA_HYPERVISOR}
-    ${tests_repo_dir}/.ci/install_runtime.sh
-}
-
-configure() {
-    # configure kata to use rootfs, not initrd
-    sudo sed -i 's/^\(initrd =.*\)/# \1/g' ${RUNTIME_CONFIG_PATH}
-
-    enable_full_debug
-    enable_agent_console
-
-    # Switch image offload to true in kata config
-    switch_image_service_offload "on"
-
-    configure_cc_containerd
-    # From crictl v1.24.1 the default timoout leads to the pod creation failing, so update it
-    sudo crictl config --set timeout=10
-
-    # Verity checks aren't working locally, as we aren't re-genning the hash maybe? so remove it from the kernel parameters
-    remove_kernel_param "cc_rootfs_verity.scheme"
-}
-
-build_and_add_agent_to_rootfs() {
-    build_a_custom_kata_agent
-    add_custom_agent_to_rootfs
-}
-
-build_a_custom_kata_agent() {
-    # Install libseccomp for static linking
-    sudo -E PATH=$PATH GOPATH=$GOPATH ${katacontainers_repo_dir}/ci/install_libseccomp.sh /tmp/kata-libseccomp /tmp/kata-gperf
-    export LIBSECCOMP_LINK_TYPE=static
-    export LIBSECCOMP_LIB_PATH=/tmp/kata-libseccomp/lib
-
-    . "$HOME/.cargo/env"
-    pushd ${katacontainers_repo_dir}/src/agent
-    sudo -E PATH=$PATH make
-
-    ARCH=$(uname -m)
-    [ ${ARCH} == "ppc64le" ] || [ ${ARCH} == "s390x" ] && export LIBC=gnu || export LIBC=musl
-    [ ${ARCH} == "ppc64le" ] && export ARCH=powerpc64le
-
-    # Run a make install into the rootfs directory in order to create the kata-agent.service file which is required when we add to the rootfs
-    sudo -E PATH=$PATH make install DESTDIR="${ROOTFS_DIR}"
-    popd
-}
-
-create_a_local_rootfs() {
-    sudo rm -rf "${ROOTFS_DIR}"
-    pushd ${katacontainers_repo_dir}/tools/osbuilder/rootfs-builder
-    export distro="ubuntu"
-    [[ -z "${USE_PODMAN:-}" ]] && use_docker="${use_docker:-1}"
-    sudo -E OS_VERSION="${OS_VERSION:-}" GOPATH=$GOPATH EXTRA_PKGS="vim iputils-ping net-tools" DEBUG="${DEBUG:-}" USE_DOCKER="${use_docker:-}" SKOPEO=${SKOPEO:-} AA_KBC=${AA_KBC:-} UMOCI=yes SECCOMP=yes ./rootfs.sh -r ${ROOTFS_DIR} ${distro}
-
-     # Install_rust.sh during rootfs.sh switches us to the main branch of the tests repo, so switch back now
-    pushd "${tests_repo_dir}"
-    sudo -E git checkout ${tests_branch}
-    popd
-    # During the ./rootfs.sh call the kata agent is built as root, so we need to update the permissions, so we can rebuild it
-    sudo chown -R ${USER}:${USER} "${katacontainers_repo_dir}/src/agent/"
-
-    popd
-}
-
-add_custom_agent_to_rootfs() {
-    pushd ${katacontainers_repo_dir}/tools/osbuilder/rootfs-builder
-
-    ARCH=$(uname -m)
-    [ ${ARCH} == "ppc64le" ] || [ ${ARCH} == "s390x" ] && export LIBC=gnu || export LIBC=musl
-    [ ${ARCH} == "ppc64le" ] && export ARCH=powerpc64le
-
-    sudo install -o root -g root -m 0550 -t ${ROOTFS_DIR}/usr/bin ${katacontainers_repo_dir}/src/agent/target/${ARCH}-unknown-linux-${LIBC}/release/kata-agent
-    sudo install -o root -g root -m 0440 ../../../src/agent/kata-agent.service ${ROOTFS_DIR}/usr/lib/systemd/system/
-    sudo install -o root -g root -m 0440 ../../../src/agent/kata-containers.target ${ROOTFS_DIR}/usr/lib/systemd/system/
-    popd
-}
-
-build_and_install_rootfs() {
-    build_rootfs_image
-    install_rootfs_image
-}
-
-build_rootfs_image() {
-    pushd ${katacontainers_repo_dir}/tools/osbuilder/image-builder
-    # Logic from install_kata_image.sh - if we aren't using podman (ie on a fedora like), then use docker
-    [[ -z "${USE_PODMAN:-}" ]] && use_docker="${use_docker:-1}"
-    sudo -E USE_DOCKER="${use_docker:-}" ./image_builder.sh ${ROOTFS_DIR}
-    popd
-}
-
-install_rootfs_image() {
-    pushd ${katacontainers_repo_dir}/tools/osbuilder/image-builder
-    local commit=$(git log --format=%h -1 HEAD)
-    local date=$(date +%Y-%m-%d-%T.%N%z)
-    local image="kata-containers-${date}-${commit}"
-    sudo install -o root -g root -m 0640 -D kata-containers.img "${PREFIX}/share/kata-containers/${image}"
-    (cd ${PREFIX}/share/kata-containers && sudo ln -sf "$image" kata-containers.img)
-    echo "Built Rootfs from ${ROOTFS_DIR} to ${PREFIX}/share/kata-containers/${image}"
-    ls -al ${PREFIX}/share/kata-containers
-    popd
-}
-
-install_guest_kernel_image() {
-   ${tests_repo_dir}/.ci/install_kata_kernel.sh
-}
-
-build_qemu() {
-    ${tests_repo_dir}/.ci/install_virtiofsd.sh
-    ${tests_repo_dir}/.ci/install_qemu.sh
-}
-
-build_cloud_hypervisor() {
-    ${tests_repo_dir}/.ci/install_virtiofsd.sh
-    ${tests_repo_dir}/.ci/install_cloud_hypervisor.sh
-}
-
-check_kata_runtime() {
-    sudo kata-runtime check
-}
-
-k8s_pod_file="${HOME}/busybox-cc.yaml"
-init_kubernetes() {
-    # Check that kubeadm was installed and install it otherwise
-    if ! [ -x "$(command -v kubeadm)" ]; then
-        pushd "${tests_repo_dir}/.ci"
-        sudo -E PATH=$PATH -s install_kubernetes.sh
-        if [ "${CRI_CONTAINERD}" == "yes" ]; then
-            sudo -E PATH=$PATH -s "configure_containerd_for_kubernetes.sh"
-        fi
-        popd
-    fi
-
-    # If kubernetes init has previously run we need to clean it by removing the image and resetting k8s
-    local cid=$(sudo docker ps -a -q -f name=^/kata-registry$)
-    if [ -n "${cid}" ]; then
-        sudo docker stop ${cid} && sudo docker rm ${cid}
-    fi
-    local k8s_nodes=$(kubectl get nodes -o name 2>/dev/null || true)
-    if [ -n "${k8s_nodes}" ]; then
-        sudo kubeadm reset -f
-    fi
-
-    export CI="true" && sudo -E PATH=$PATH -s ${tests_repo_dir}/integration/kubernetes/init.sh
-    sudo chown ${USER}:$(id -g -n ${USER}) "$HOME/.kube/config"
-    cat << EOF > ${k8s_pod_file}
-apiVersion: v1
-kind: Pod
-metadata:
-  name: busybox-cc
-spec:
-  runtimeClassName: kata
-  containers:
-  - name: nginx
-    image: quay.io/kata-containers/confidential-containers:signed
-    imagePullPolicy: Always  
-EOF
-}
-
-call_kubernetes_create_cc_pod() {
-    kubernetes_create_cc_pod ${k8s_pod_file}
-}
-
-call_kubernetes_delete_cc_pod() {
-    pod_name=$(kubectl get pods -o jsonpath='{.items..metadata.name}')
-    kubernetes_delete_cc_pod $pod_name
-}
-
-call_kubernetes_create_ssh_demo_pod() {
-    setup_decryption_files_in_guest
-    kubernetes_create_ssh_demo_pod
-}
-
-call_connect_to_ssh_demo_pod() {
-    connect_to_ssh_demo_pod
-}
-
-call_kubernetes_delete_ssh_demo_pod() {
-    pod=$(kubectl get pods -o jsonpath='{.items..metadata.name}')
-    kubernetes_delete_ssh_demo_pod $pod
-}
-
-crictl_sandbox_name=kata-cc-busybox-sandbox
-call_crictl_create_cc_pod() {
-    # Update iptables to allow forwarding to the cni0 bridge avoiding issues caused by the docker0 bridge
-    sudo iptables -P FORWARD ACCEPT
-    
-    # get_pod_config in tests_common exports `pod_config` that points to the prepared pod config yaml 
-    get_pod_config
-
-    crictl_delete_cc_pod_if_exists "${crictl_sandbox_name}"
-    crictl_create_cc_pod "${pod_config}"
-    sudo crictl pods
-}
-
-call_crictl_create_cc_container() {
-    # Create container configuration yaml based on our test copy of busybox
-    # get_pod_config in tests_common exports `pod_config` that points to the prepared pod config yaml 
-    get_pod_config
-
-    local container_config="${FIXTURES_DIR}/${CONTAINER_CONFIG_FILE:-container-config.yaml}"
-    local pod_name=${crictl_sandbox_name}
-    crictl_create_cc_container ${pod_name} ${pod_config} ${container_config}
-    sudo crictl ps -a
-}
-
-crictl_delete_cc() {
-    crictl_delete_cc_pod ${crictl_sandbox_name}
-}
-
-test_kata_runtime() {
-    echo "Running ctr with the kata runtime..."
-    local test_image="quay.io/kata-containers/confidential-containers:signed"
-    if [ -z $(sudo ctr images ls -q name=="${test_image}") ]; then
-        sudo ctr image pull "${test_image}"
-    fi
-    sudo ctr run --runtime "io.containerd.kata.v2" --rm -t "${test_image}" test-kata uname -a
-}
-
-run_kata_and_capture_logs() {
-    echo "Clearing systemd journal..."
-    sudo systemctl stop systemd-journald
-    sudo rm -f /var/log/journal/*/* /run/log/journal/*/*
-    sudo systemctl start systemd-journald
-    test_kata_runtime
-    echo "Collecting logs..."
-    sudo journalctl -q -o cat -a -t kata-runtime > ${HOME}/kata-runtime.log
-    sudo journalctl -q -o cat -a -t kata > ${HOME}/shimv2.log
-    echo "Logs output to ${HOME}/kata-runtime.log and ${HOME}/shimv2.log"
-}
-
-get_ids() {
-    guest_cid=$(sudo ss -H --vsock | awk '{print $6}' | cut -d: -f1)
-    sandbox_id=$(ps -ef | grep containerd-shim-kata-v2 | egrep -o "id [^,][^,].* " | awk '{print $2}')
-}
-
-open_kata_shell() {
-    get_ids
-    sudo -E "PATH=$PATH" kata-runtime exec ${sandbox_id}
-}
-
-build_bundle_dir_if_necessary() {
-    bundle_dir="/tmp/bundle"
-    if [ ! -d "${bundle_dir}" ]; then
-        rootfs_dir="$bundle_dir/rootfs"
-        image="quay.io/kata-containers/confidential-containers:signed"
-        mkdir -p "$rootfs_dir" && (cd "$bundle_dir" && runc spec)
-        sudo docker export $(sudo docker create "$image") | tar -C "$rootfs_dir" -xvf -
-    fi
-    # There were errors in create container agent-ctl command due to /bin/ seemingly not being on the path, so hardcode it
-    sudo sed -i -e 's%^\(\t*\)"sh"$%\1"/bin/sh"%g' "${bundle_dir}/config.json"
-}
-
-build_agent_ctl() {
-    cd ${GOPATH}/src/${katacontainers_repo}/src/tools/agent-ctl/
-    if [ -e "${HOME}/.cargo/registry" ]; then
-        sudo chown -R ${USER}:${USER} "${HOME}/.cargo/registry"
-    fi
-    sudo -E PATH=$PATH -s  make
-    ARCH=$(uname -m)
-    [ ${ARCH} == "ppc64le" ] || [ ${ARCH} == "s390x" ] && export LIBC=gnu || export LIBC=musl
-    [ ${ARCH} == "ppc64le" ] && export ARCH=powerpc64le
-    cd "./target/${ARCH}-unknown-linux-${LIBC}/release/"
-}
-
-run_agent_ctl_command() {
-    get_ids
-    build_bundle_dir_if_necessary
-    command=$1
-    # If kata-agent-ctl pre-built in this directory, use it directly, otherwise build it first and switch to release
-    if [ ! -x kata-agent-ctl ]; then
-        build_agent_ctl
-    fi 
-     ./kata-agent-ctl -l debug connect --bundle-dir "${bundle_dir}" --server-address "vsock://${guest_cid}:1024" -c "${command}"
-}
-
-agent_pull_image() {
-    run_agent_ctl_command "PullImage image=${PULL_IMAGE} cid=${CONTAINER_ID} source_creds=${SOURCE_CREDS}"
-}
-
-agent_create_container() {
-    run_agent_ctl_command "CreateContainer cid=${CONTAINER_ID}"
-}
-
-shim_pull_image() {
-    get_ids
-    local ctr_shim_command="sudo ctr --namespace k8s.io shim --id ${sandbox_id} pull-image ${PULL_IMAGE} ${CONTAINER_ID}"
-    echo "Issuing command '${ctr_shim_command}'"
-    ${ctr_shim_command}
-}
-
-call_copy_signature_files_to_guest() {
-    # TODO #5173 - remove this once the kernel_params aren't ignored by the agent config
-    export DEBUG_CONSOLE="true"
-    
-    if [ "${SKOPEO:-}" = "yes" ]; then
-        add_kernel_params "agent.container_policy_file=/etc/containers/quay_verification/quay_policy.json"
-        setup_skopeo_signature_files_in_guest
-    else
-        # TODO #4888 - set config to specifically enable signature verification to be on in ImageClient
-        setup_offline_fs_kbc_signature_files_in_guest
-    fi
-}
-
-main() {
-    while getopts "dh" opt; do
-        case "$opt" in
-            d) 
-                export DEBUG="-d"
-                set -x
-                ;;
-            h) 
-                usage 0
-                ;;
-            \?)
-                echo "Invalid option: -$OPTARG" >&2
-                usage 1
-                ;;
-        esac
-    done
-
-    shift $((OPTIND - 1))
-
-    subcmd="${1:-}"
-
-    [ -z "${subcmd}" ] && usage 1
-
-    case "${subcmd}" in
-        all)
-            build_and_install_all
-            run_kata_and_capture_logs
-            ;;
-        build_and_install_all)
-            build_and_install_all
-            ;;
-        rebuild_and_install_kata)
-            rebuild_and_install_kata
-            ;;
-        initialize)
-            initialize
-            ;;
-        build_kata_runtime)
-            build_and_install_kata_runtime
-            ;;
-        configure)
-            configure
-            ;;
-        create_rootfs)
-            create_a_local_rootfs
-            ;;
-        build_and_add_agent_to_rootfs)
-            build_and_add_agent_to_rootfs
-            ;;
-        build_and_install_rootfs)
-            build_and_install_rootfs
-            ;;
-        install_guest_kernel)
-            install_guest_kernel_image
-            ;;
-        build_cloud_hypervisor)
-            build_cloud_hypervisor
-            ;;
-        build_qemu)
-            build_qemu
-            ;;
-        init_kubernetes)
-            init_kubernetes
-            ;;
-        crictl_create_cc_pod)
-            call_crictl_create_cc_pod
-            ;;
-        crictl_create_cc_container)
-            call_crictl_create_cc_container
-            ;;
-        crictl_delete_cc)
-            crictl_delete_cc
-            ;;
-        kubernetes_create_cc_pod)
-            call_kubernetes_create_cc_pod
-            ;;
-        kubernetes_delete_cc_pod)
-            call_kubernetes_delete_cc_pod
-            ;;
-        kubernetes_create_ssh_demo_pod)
-            call_kubernetes_create_ssh_demo_pod
-            ;;
-        connect_to_ssh_demo_pod)
-            call_connect_to_ssh_demo_pod
-            ;;
-        kubernetes_delete_ssh_demo_pod)
-            call_kubernetes_delete_ssh_demo_pod
-            ;;
-        test)
-            test_kata_runtime
-            ;;
-        test_capture_logs)
-            run_kata_and_capture_logs
-            ;;
-        open_kata_console)
-            open_kata_console
-            ;;
-        open_kata_shell)
-            open_kata_shell
-            ;;
-        agent_pull_image)
-            agent_pull_image
-            ;;
-        shim_pull_image)
-            shim_pull_image
-            ;;
-        agent_create_container)
-            agent_create_container
-            ;;
-        copy_signature_files_to_guest)
-            call_copy_signature_files_to_guest
-            ;;
-        *)
-            usage 1
-            ;;
-    esac
-}
-
-main $@
--- a/docs/how-to/containerd-kata.md
+++ b/docs/how-to/containerd-kata.md
@@ -40,7 +40,7 @@ use `RuntimeClass` instead of the deprecated annotations.
 ### Containerd Runtime V2 API: Shim V2 API

 The [`containerd-shim-kata-v2` (short as `shimv2` in this documentation)](../../src/runtime/cmd/containerd-shim-kata-v2/)
-implements the [Containerd Runtime V2 (Shim API)](https://github.com/containerd/containerd/tree/main/runtime/v2) for Kata.
+implements the [Containerd Runtime V2 (Shim API)](https://github.com/containerd/containerd/tree/master/runtime/v2) for Kata.
 With `shimv2`, Kubernetes can launch Pod and OCI-compatible containers with one shim per Pod. Prior to `shimv2`, `2N+1` 
 shims (i.e. a `containerd-shim` and a `kata-shim` for each container and the Pod sandbox itself) and no standalone `kata-proxy` 
 process were used, even with VSOCK not available.
@@ -72,13 +72,14 @@ $ command -v containerd

 ### Install CNI plugins

+> **Note:** You do not need to install CNI plugins if you do not want to use containerd with Kubernetes.
 > If you have installed Kubernetes with `kubeadm`, you might have already installed the CNI plugins.

 You can manually install CNI plugins as follows:

 ```bash
-$ git clone https://github.com/containernetworking/plugins.git
-$ pushd plugins
+$ go get github.com/containernetworking/plugins
+$ pushd $GOPATH/src/github.com/containernetworking/plugins
 $ ./build_linux.sh
 $ sudo mkdir /opt/cni
 $ sudo cp -r bin /opt/cni/
@@ -93,8 +94,8 @@ $ popd
 You can install the `cri-tools` from source code:

 ```bash
-$ git clone https://github.com/kubernetes-sigs/cri-tools.git
-$ pushd cri-tools
+$ go get github.com/kubernetes-incubator/cri-tools
+$ pushd $GOPATH/src/github.com/kubernetes-incubator/cri-tools
 $ make
 $ sudo -E make install
 $ popd
@@ -130,42 +131,74 @@ For

 The `RuntimeClass` is suggested.

-The following configuration includes two runtime classes:
+The following configuration includes three runtime classes:
 - `plugins.cri.containerd.runtimes.runc`: the runc, and it is the default runtime.
- `plugins.cri.containerd.runtimes.kata`: The function in containerd (reference [the document here](https://github.com/containerd/containerd/tree/main/runtime/v2#binary-naming)) 
+- `plugins.cri.containerd.runtimes.kata`: The function in containerd (reference [the document here](https://github.com/containerd/containerd/tree/master/runtime/v2#binary-naming)) 
  where the dot-connected string `io.containerd.kata.v2` is translated to `containerd-shim-kata-v2` (i.e. the 
-  binary name of the Kata implementation of [Containerd Runtime V2 (Shim API)](https://github.com/containerd/containerd/tree/main/runtime/v2)).
+  binary name of the Kata implementation of [Containerd Runtime V2 (Shim API)](https://github.com/containerd/containerd/tree/master/runtime/v2)).
+- `plugins.cri.containerd.runtimes.katacli`: the `containerd-shim-runc-v1` calls `kata-runtime`, which is the legacy process.

 ```toml
    [plugins.cri.containerd]
      no_pivot = false
    [plugins.cri.containerd.runtimes]
-      [plugins."io.containerd.grpc.v1.cri".containerd.runtimes.runc]
-         privileged_without_host_devices = false
-         runtime_type = "io.containerd.runc.v2"
-        [plugins."io.containerd.grpc.v1.cri".containerd.runtimes.runc.options]
-            BinaryName = ""
-            CriuImagePath = ""
-            CriuPath = ""
-            CriuWorkPath = ""
-            IoGid = 0
+      [plugins.cri.containerd.runtimes.runc]
+         runtime_type = "io.containerd.runc.v1"
+         [plugins.cri.containerd.runtimes.runc.options]
+           NoPivotRoot = false
+           NoNewKeyring = false
+           ShimCgroup = ""
+           IoUid = 0
+           IoGid = 0
+           BinaryName = "runc"
+           Root = ""
+           CriuPath = ""
+           SystemdCgroup = false
      [plugins.cri.containerd.runtimes.kata]
         runtime_type = "io.containerd.kata.v2"
-         privileged_without_host_devices = true
-         pod_annotations = ["io.katacontainers.*"]
-         container_annotations = ["io.katacontainers.*"]
-         [plugins."io.containerd.grpc.v1.cri".containerd.runtimes.kata.options]
-            ConfigPath = "/opt/kata/share/defaults/kata-containers/configuration.toml"
+      [plugins.cri.containerd.runtimes.katacli]
+         runtime_type = "io.containerd.runc.v1"
+         [plugins.cri.containerd.runtimes.katacli.options]
+           NoPivotRoot = false
+           NoNewKeyring = false
+           ShimCgroup = ""
+           IoUid = 0
+           IoGid = 0
+           BinaryName = "/usr/bin/kata-runtime"
+           Root = ""
+           CriuPath = ""
+           SystemdCgroup = false
+```
+
+From Containerd v1.2.4 and Kata v1.6.0, there is a new runtime option supported, which allows you to specify a specific Kata configuration file as follows:
+
+```toml
+      [plugins.cri.containerd.runtimes.kata]
+         runtime_type = "io.containerd.kata.v2"
+	 privileged_without_host_devices = true
+	 [plugins.cri.containerd.runtimes.kata.options]
+	   ConfigPath = "/etc/kata-containers/config.toml"
 ```

 `privileged_without_host_devices` tells containerd that a privileged Kata container should not have direct access to all host devices. If unset, containerd will pass all host devices to Kata container, which may cause security issues.

-`pod_annotations` is the list of pod annotations passed to both the pod sandbox as well as container through the OCI config.
-
-`container_annotations` is the list of container annotations passed through to the OCI config of the containers.
-
 This `ConfigPath` option is optional. If you do not specify it, shimv2 first tries to get the configuration file from the environment variable `KATA_CONF_FILE`. If neither are set, shimv2 will use the default Kata configuration file paths (`/etc/kata-containers/configuration.toml` and `/usr/share/defaults/kata-containers/configuration.toml`).

+If you use Containerd older than v1.2.4 or a version of Kata older than v1.6.0  and also want to specify a configuration file, you can use the following workaround, since the shimv2 accepts an environment variable, `KATA_CONF_FILE` for the configuration file path. Then, you can create a
+shell script with the following:
+
+```bash
+#!/usr/bin/env bash
+KATA_CONF_FILE=/etc/kata-containers/firecracker.toml containerd-shim-kata-v2 $@
+```
+
+Name it as `/usr/local/bin/containerd-shim-katafc-v2` and reference it in the configuration of containerd:
+
+```toml
+      [plugins.cri.containerd.runtimes.kata-firecracker]
+         runtime_type = "io.containerd.katafc.v2"
+```
+
 #### Kata Containers as the runtime for untrusted workload

 For cases without `RuntimeClass` support, we can use the legacy annotation method to support using Kata Containers 
@@ -185,8 +218,28 @@ and then, run an untrusted workload with Kata Containers:
      runtime_type = "io.containerd.kata.v2"
 ```

+For the earlier versions of Kata Containers and containerd that do not support Runtime V2 (Shim API), you can use the following alternative configuration:
+
+```toml
+    [plugins.cri.containerd]
+  
+    # "plugins.cri.containerd.default_runtime" is the runtime to use in containerd.
+    [plugins.cri.containerd.default_runtime]
+      # runtime_type is the runtime type to use in containerd e.g. io.containerd.runtime.v1.linux
+      runtime_type = "io.containerd.runtime.v1.linux"
+
+    # "plugins.cri.containerd.untrusted_workload_runtime" is a runtime to run untrusted workloads on it.
+    [plugins.cri.containerd.untrusted_workload_runtime]
+      # runtime_type is the runtime type to use in containerd e.g. io.containerd.runtime.v1.linux
+      runtime_type = "io.containerd.runtime.v1.linux"
+
+      # runtime_engine is the name of the runtime engine used by containerd.
+      runtime_engine = "/usr/bin/kata-runtime"
+```
+
 You can find more information on the [Containerd config documentation](https://github.com/containerd/cri/blob/master/docs/config.md)

+
 #### Kata Containers as the default runtime

 If you want to set Kata Containers as the only runtime in the deployment, you can simply configure as follows:
@@ -197,6 +250,15 @@ If you want to set Kata Containers as the only runtime in the deployment, you ca
      runtime_type = "io.containerd.kata.v2"
 ```

+Alternatively, for the earlier versions of Kata Containers and containerd that do not support Runtime V2 (Shim API), you can use the following alternative configuration:
+
+```toml
+    [plugins.cri.containerd]
+    [plugins.cri.containerd.default_runtime]
+      runtime_type = "io.containerd.runtime.v1.linux"
+      runtime_engine = "/usr/bin/kata-runtime"
+```
+
 ### Configuration for `cri-tools`

 > **Note:** If you skipped the [Install `cri-tools`](#install-cri-tools) section, you can skip this section too.
@@ -250,55 +312,11 @@ To run a container with Kata Containers through the containerd command line, you

 ```bash
 $ sudo ctr image pull docker.io/library/busybox:latest
-$ sudo ctr run --cni --runtime io.containerd.run.kata.v2 -t --rm docker.io/library/busybox:latest hello sh
+$ sudo ctr run --runtime io.containerd.run.kata.v2 -t --rm docker.io/library/busybox:latest hello sh
 ```

 This launches a BusyBox container named `hello`, and it will be removed by `--rm` after it quits.
-The `--cni` flag enables CNI networking for the container. Without this flag, a container with just a
-loopback interface is created.

-### Launch containers using `ctr` command line with rootfs bundle
-
-#### Get rootfs
-Use the script to create rootfs
-```bash
-ctr i pull quay.io/prometheus/busybox:latest
-ctr i export rootfs.tar quay.io/prometheus/busybox:latest
-
-rootfs_tar=rootfs.tar
-bundle_dir="./bundle"
-mkdir -p "${bundle_dir}"
-
-# extract busybox rootfs
-rootfs_dir="${bundle_dir}/rootfs"
-mkdir -p "${rootfs_dir}"
-layers_dir="$(mktemp -d)"
-tar -C "${layers_dir}" -pxf "${rootfs_tar}"
-for ((i=0;i<$(cat ${layers_dir}/manifest.json | jq -r ".[].Layers | length");i++)); do
-  tar -C ${rootfs_dir} -xf ${layers_dir}/$(cat ${layers_dir}/manifest.json | jq -r ".[].Layers[${i}]")
-done
-```
-#### Get `config.json`
-Use runc spec to generate `config.json`
-```bash
-cd ./bundle/rootfs
-runc spec
-mv config.json ../
-```
-Change the root `path` in `config.json` to the absolute path of rootfs
-
-```JSON
-"root":{
-    "path":"/root/test/bundle/rootfs",
-    "readonly": false
-},
-```
-
-#### Run container
-```bash
-sudo ctr run -d --runtime io.containerd.run.kata.v2 --config bundle/config.json hello
-sudo ctr t exec --exec-id ${ID} -t hello sh
-```
 ### Launch Pods with `crictl` command line

 With the `crictl` command line of `cri-tools`, you can specify runtime class with `-r` or `--runtime` flag.
--- a/docs/how-to/data/confidential-agent-config.toml.in
+++ b/docs/how-to/data/confidential-agent-config.toml.in
@@ -1,45 +0,0 @@
-# Copyright (c) 2021 IBM Corp.
-#
-# SPDX-License-Identifier: Apache-2.0
-#
-
-aa_kbc_params = "$AA_KBC_PARAMS"
-https_proxy = "$HTTPS_PROXY"
-[endpoints]
-allowed = [
-"AddARPNeighborsRequest",
-"AddSwapRequest",
-"CloseStdinRequest",
-"CopyFileRequest",
-"CreateContainerRequest",
-"CreateSandboxRequest",
-"DestroySandboxRequest",
-#"ExecProcessRequest",
-"GetMetricsRequest",
-"GetOOMEventRequest",
-"GuestDetailsRequest",
-"ListInterfacesRequest",
-"ListRoutesRequest",
-"MemHotplugByProbeRequest",
-"OnlineCPUMemRequest",
-"PauseContainerRequest",
-"PullImageRequest",
-"ReadStreamRequest",
-"RemoveContainerRequest",
-#"ReseedRandomDevRequest",
-"ResizeVolumeRequest",
-"ResumeContainerRequest",
-"SetGuestDateTimeRequest",
-"SignalProcessRequest",
-"StartContainerRequest",
-"StartTracingRequest",
-"StatsContainerRequest",
-"StopTracingRequest",
-"TtyWinResizeRequest",
-"UpdateContainerRequest",
-"UpdateInterfaceRequest",
-"UpdateRoutesRequest",
-"VolumeStatsRequest",
-"WaitProcessRequest",
-"WriteStreamRequest"
-]
--- a/docs/how-to/data/kata-monitor-daemonset.yml
+++ b/docs/how-to/data/kata-monitor-daemonset.yml
@@ -45,9 +45,6 @@ spec:
        - name: containerdsocket
          mountPath: /run/containerd/containerd.sock
          readOnly: true
-        - name: sbs
-          mountPath: /run/vc/sbs/
-          readOnly: true
      terminationGracePeriodSeconds: 30
      volumes:
      - name: containerdtask
@@ -56,6 +53,3 @@ spec:
      - name: containerdsocket
        hostPath:
          path: /run/containerd/containerd.sock
-      - name: sbs
-        hostPath:
-          path: /run/vc/sbs/
--- a/docs/how-to/how-to-build-and-test-ccv0.md
+++ b/docs/how-to/how-to-build-and-test-ccv0.md
@@ -1,475 +0,0 @@
-# How to build, run and test Kata CCv0
-
-## Introduction and Background
-
-In order to try and make building (locally) and demoing the Kata Containers `CCv0` code base as simple as possible I've
-shared a script [`ccv0.sh`](./ccv0.sh). This script was originally my attempt to automate the steps of the 
-[Developer Guide](https://github.com/kata-containers/kata-containers/blob/main/docs/Developer-Guide.md) so that I could do
-different sections of them repeatedly and reliably as I was playing around with make changes to different parts of the 
-Kata code base. I then tried to weave in some of the [`tests/.ci`](https://github.com/kata-containers/tests/tree/main/.ci) 
-scripts in order to have less duplicated code.
-As we're progress on the confidential containers journey I hope to add more features to demonstrate the functionality
-we have working.
-
-*Disclaimer: This script has mostly just been used and tested by me ([@stevenhorsman](https://github.com/stevenhorsman)),*
-*so there might be issues with it. I'm happy to try and help solve these if possible, but this shouldn't be considered a*
-*fully supported process by the Kata Containers community.*
-
-### Basic script set-up and optional environment variables
-
-In order to build, configure and demo the CCv0 functionality, these are the set-up steps I take:
- Provision a new VM
-    - *I choose a Ubuntu 20.04 8GB VM for this as I had one available. There are some dependences on apt-get installed*
-    *packages, so these will need re-working to be compatible with other platforms.*
- Copy the script over to your VM *(I put it in the home directory)* and ensure it has execute permission by running 
-```bash
-$ chmod u+x ccv0.sh
-```
- Optionally set up some environment variables
-    - By default the script checks out the `CCv0` branches of the `kata-containers/kata-containers` and 
-      `kata-containers/tests` repositories, but it is designed to be used to test of personal forks and branches as well. 
-      If you want to build and run these you can export the `katacontainers_repo`, `katacontainers_branch`, `tests_repo`
-      and `tests_branch` variables e.g.
-      ```bash
-      $ export katacontainers_repo=github.com/stevenhorsman/kata-containers
-      $ export katacontainers_branch=stevenh/agent-pull-image-endpoint
-      $ export tests_repo=github.com/stevenhorsman/tests
-      $ export tests_branch=stevenh/add-ccv0-changes-to-build
-      ```
-      before running the script.
-    - By default the build and configuration are using `QEMU` as the hypervisor. In order to use `Cloud Hypervisor` instead
-      set:
-      ```
-      $ export KATA_HYPERVISOR="cloud-hypervisor"
-      ```
-      before running the build.
-
- At this point you can provision a Kata confidential containers pod and container with either
-  [`crictl`](#using-crictl-for-end-to-end-provisioning-of-a-kata-confidential-containers-pod-with-an-unencrypted-image),
-  or [Kubernetes](#using-kubernetes-for-end-to-end-provisioning-of-a-kata-confidential-containers-pod-with-an-unencrypted-image)
-  and then test and use it. 
-
-### Using crictl for end-to-end provisioning of a Kata confidential containers pod with an unencrypted image
-
- Run the full build process with Kubernetes turned off, so its configuration doesn't interfere with `crictl` using:
-  ```bash
-  $ export KUBERNETES="no"
-  $ export KATA_HYPERVISOR="qemu"
-  $ ~/ccv0.sh -d build_and_install_all
-  ```
-    > **Note**: Much of this script has to be run as `sudo`, so you are likely to get prompted for your password.
-    - *I run this script sourced just so that the required installed components are accessible on the `PATH` to the rest*
-      *of the process without having to reload the session.*
-    - The steps that `build_and_install_all` takes is:
-        - Checkout the git repos for the `tests` and `kata-containers` repos as specified by the environment variables
-        (default to `CCv0` branches if they are not supplied)
-        - Use the `tests/.ci` scripts to install the build dependencies
-        - Build and install the Kata runtime
-        - Configure Kata to use containerd and for debug and confidential containers features to be enabled (including
-          enabling console access to the Kata guest shell, which should only be done in development)
-        - Create, build and install a rootfs for the Kata hypervisor to use. For 'CCv0' this is currently based on Ubuntu
-        20.04.
-        - Build the Kata guest kernel
-        - Install the hypervisor (in order to select which hypervisor will be used, the `KATA_HYPERVISOR` environment
-        variable can be used to select between `qemu` or `cloud-hypervisor`)
-    > **Note**: Depending on how where your VMs are hosted and how IPs are shared you might get an error from docker
-    during matching `ERROR: toomanyrequests: Too Many Requests`. To get past
-    this, login into Docker Hub and pull the images used with:
-  >  ```bash
-  >  $ sudo docker login
-  >  $ sudo docker pull ubuntu
-  >  ```
-  >  then re-run the command.
-    - The first time this runs it may take a while, but subsequent runs will be quicker as more things are already
-      installed and they can be further cut down by not running all the above steps 
-      [see "Additional script usage" below](#additional-script-usage)
-   
- Create a new Kata sandbox pod using `crictl` with:
-  ```bash
-  $ ~/ccv0.sh crictl_create_cc_pod
-  ```
-    - This creates a pod configuration file, creates the pod from this using 
-    `sudo crictl runp -r kata ~/pod-config.yaml` and runs `sudo crictl pods` to show the pod
- Create a new Kata confidential container with:
-  ```bash
-  $ ~/ccv0.sh crictl_create_cc_container
-  ```
-    - This creates a container (based on `busybox:1.33.1`) in the Kata cc sandbox and prints a list of containers.
-      This will have been created based on an image pulled in the Kata pod sandbox/guest, not on the host machine.
-
-As this point you should have a `crictl` pod and container that is using the Kata confidential containers runtime.
-You can [validate that the container image was pulled on the guest](#validate-that-the-container-image-was-pulled-on-the-guest)
-or [using the Kata pod sandbox for testing with `agent-ctl` or `ctr shim`](#using-a-kata-pod-sandbox-for-testing-with-agent-ctl-or-ctr-shim)
-
-#### Clean up the `crictl` pod sandbox and container
- When the testing is complete you can delete the container and pod by running:
-  ```bash
-  $ ~/ccv0.sh crictl_delete_cc
-  ```
-### Using Kubernetes for end-to-end provisioning of a Kata confidential containers pod with an unencrypted image
-
- Run the full build process with the Kubernetes environment variable set to `"yes"`, so the Kubernetes cluster is
-  configured and created using the VM
-  as a single node cluster: 
-  ```bash
-  $ export KUBERNETES="yes"
-  $ ~/ccv0.sh build_and_install_all
-  ```
-    > **Note**: Depending on how where your VMs are hosted and how IPs are shared you might get an error from docker
-    during matching `ERROR: toomanyrequests: Too Many Requests`. To get past
-    this, login into Docker Hub and pull the images used with:
-  >  ```bash
-  >  $ sudo docker login
-  >  $ sudo docker pull registry:2
-  >  $ sudo docker pull ubuntu:20.04
-  >  ```
-  >  then re-run the command.
- Check that your Kubernetes cluster has been correctly set-up by running : 
-  ```bash
-  $ kubectl get nodes
-  ```
-  and checking that you see a single node e.g.
-  ```text
-  NAME                             STATUS   ROLES                  AGE   VERSION
-  stevenh-ccv0-k8s1.fyre.ibm.com   Ready    control-plane,master   43s   v1.22.0
-  ```
- Create a Kata confidential containers pod by running:
-  ```bash
-  $ ~/ccv0.sh kubernetes_create_cc_pod
-  ```
- Wait a few seconds for pod to start then check that the pod's status is `Running` with 
-  ```bash
-  $ kubectl get pods
-  ```
-  which should show something like:
-  ```text
-  NAME         READY   STATUS    RESTARTS   AGE
-  busybox-cc   1/1     Running   0          54s
-  ```
-
- As this point you should have a Kubernetes pod and container running, that is using the Kata 
-confidential containers runtime.
-You can [validate that the container image was pulled on the guest](#validate-that-the-container-image-was-pulled-on-the-guest)
-or [using the Kata pod sandbox for testing with `agent-ctl` or `ctr shim`](#using-a-kata-pod-sandbox-for-testing-with-agent-ctl-or-ctr-shim)
-
-#### Clean up the Kubernetes pod sandbox and container
- When the testing is complete you can delete the container and pod by running:
-  ```bash
-  $ ~/ccv0.sh kubernetes_delete_cc_pod
-  ```
-
-### Validate that the container image was pulled on the guest
-
-There are a couple of ways we can check that the container pull image action was offloaded to the guest, by checking
-the guest's file system for the unpacked bundle and checking the host's directories to ensure it wasn't also pulled
-there.
- To check the guest's file system:
-    - Open a shell into the Kata guest with:
-      ```bash
-      $ ~/ccv0.sh open_kata_shell
-      ```
-    - List the files in the directory that the container image bundle should have been unpacked to with:
-      ```bash
-      $ ls -ltr /run/kata-containers/confidential-containers_signed/
-      ```
-    - This should give something like
-        ```
-        total 72
-        -rw-r--r--  1 root root  2977 Jan 20 10:03 config.json
-        drwxr-xr-x 12 root root   240 Jan 20 10:03 rootfs
-        ```
-        which shows how the image has been pulled and then unbundled on the guest.
-    - Leave the Kata guest shell by running:
-      ```bash
-      $ exit
-      ```
- To verify that the image wasn't pulled on the host system we can look at the shared sandbox on the host and we
-  should only see a single bundle for the pause container as the `busybox` based container image should have been
-  pulled on the guest:
-    - Find all the `rootfs` directories under in the pod's shared directory with:
-      ```bash
-      $ pod_id=$(ps -ef | grep containerd-shim-kata-v2 | egrep -o "id [^,][^,].* " | awk '{print $2}')
-      $ sudo find /run/kata-containers/shared/sandboxes/${pod_id}/shared -name rootfs
-      ```
-      which should only show a single `rootfs` directory if the container image was pulled on the guest, not the host
-    - Looking that `rootfs` directory with
-      ```bash
-      $ sudo ls -ltr $(sudo find /run/kata-containers/shared/sandboxes/${pod_id}/shared -name rootfs)
-      ```
-      shows something similar to
-      ```
-      total 668
-      -rwxr-xr-x 1 root root 682696 Aug 25 13:58 pause
-      drwxr-xr-x 2 root root      6 Jan 20 02:01 proc
-      drwxr-xr-x 2 root root      6 Jan 20 02:01 dev
-      drwxr-xr-x 2 root root      6 Jan 20 02:01 sys
-      drwxr-xr-x 2 root root     25 Jan 20 02:01 etc
-      ```
-      which is clearly the pause container indicating that the `busybox` based container image is not exposed to the host.
-
-### Using a Kata pod sandbox for testing with `agent-ctl` or `ctr shim`
-
-Once you have a kata pod sandbox created as described above, either using 
-[`crictl`](#using-crictl-for-end-to-end-provisioning-of-a-kata-confidential-containers-pod-with-an-unencrypted-image), or [Kubernetes](#using-kubernetes-for-end-to-end-provisioning-of-a-kata-confidential-containers-pod-with-an-unencrypted-image)
-, you can use this to test specific components of the Kata confidential
-containers architecture. This can be useful for development and debugging to isolate and test features
-that aren't broadly supported end-to-end. Here are some examples:
-
- In the first terminal run the pull image on guest command against the Kata agent, via the shim (`containerd-shim-kata-v2`).
-This can be achieved using the [containerd](https://github.com/containerd/containerd) CLI tool, `ctr`, which can be used to
-interact with the shim directly. The command takes the form
-`ctr --namespace k8s.io shim --id <sandbox-id> pull-image <image> <new-container-id>` and can been run directly, or through
-the `ccv0.sh` script to automatically fill in the variables:
-  - Optionally, set up some environment variables to set the image and credentials used:
-    - By default the shim pull image test in `ccv0.sh` will use the `busybox:1.33.1` based test image
-     `quay.io/kata-containers/confidential-containers:signed` which requires no authentication. To use a different
-      image, set the `PULL_IMAGE` environment variable e.g. 
-      ```bash
-      $ export PULL_IMAGE="docker.io/library/busybox:latest"
-      ```
-      Currently the containerd shim pull image
-      code doesn't support using a container registry that requires authentication, so if this is required, see the 
-      below steps to run the pull image command against the agent directly.
-  - Run the pull image agent endpoint with:
-    ```bash
-    $ ~/ccv0.sh shim_pull_image
-    ```
-    which we print the `ctr shim` command for reference
- Alternatively you can issue the command directly to the `kata-agent` pull image endpoint, which also supports
-  credentials in order to pull from an authenticated registry:
-    - Optionally set up some environment variables to set the image and credentials used:
-        - Set the `PULL_IMAGE` environment variable e.g. `export PULL_IMAGE="docker.io/library/busybox:latest"`
-          if a specific container image is required.
-        - If the container registry for the image requires authentication then this can be set with an environment
-          variable `SOURCE_CREDS`. For example to use Docker Hub (`docker.io`) as an authenticated user first run 
-          `export SOURCE_CREDS="<dockerhub username>:<dockerhub api key>"`
-            > **Note**: the credentials support on the agent request is a tactical solution for the short-term
-              proof of concept to allow more images to be pulled and tested. Once we have support for getting
-              keys into the Kata guest image using the attestation-agent and/or KBS I'd expect container registry
-              credentials to be looked up using that mechanism.
-    - Run the pull image agent endpoint with
-      ```bash
-      $ ~/ccv0.sh agent_pull_image
-      ```
-      and you should see output which includes `Command PullImage (1 of 1) returned (Ok(()), false)` to indicate
-      that the `PullImage` request was successful e.g.
-      ```
-      Finished release [optimized] target(s) in 0.21s
-      {"msg":"announce","level":"INFO","ts":"2021-09-15T08:40:14.189360410-07:00","subsystem":"rpc","name":"kata-agent-ctl","pid":"830920","version":"0.1.0","source":"kata-agent-ctl","config":"Config { server_address: \"vsock://1970354082:1024\", bundle_dir: \"/tmp/bundle\", timeout_nano: 0, interactive: false, ignore_errors: false }"}
-      {"msg":"client setup complete","level":"INFO","ts":"2021-09-15T08:40:14.193639057-07:00","pid":"830920","source":"kata-agent-ctl","name":"kata-agent-ctl","subsystem":"rpc","version":"0.1.0","server-address":"vsock://1970354082:1024"}
-      {"msg":"Run command PullImage (1 of 1)","level":"INFO","ts":"2021-09-15T08:40:14.196643765-07:00","pid":"830920","source":"kata-agent-ctl","subsystem":"rpc","name":"kata-agent-ctl","version":"0.1.0"}
-      {"msg":"response received","level":"INFO","ts":"2021-09-15T08:40:43.828200633-07:00","source":"kata-agent-ctl","name":"kata-agent-ctl","subsystem":"rpc","version":"0.1.0","pid":"830920","response":""}
-      {"msg":"Command PullImage (1 of 1) returned (Ok(()), false)","level":"INFO","ts":"2021-09-15T08:40:43.828261708-07:00","subsystem":"rpc","pid":"830920","source":"kata-agent-ctl","version":"0.1.0","name":"kata-agent-ctl"}
-      ```
-      > **Note**: The first time that `~/ccv0.sh agent_pull_image` is run, the `agent-ctl` tool will be built
-      which may take a few minutes.
- To validate that the image pull was successful, you can open a shell into the Kata guest with:
-  ```bash
-  $ ~/ccv0.sh open_kata_shell
-  ```
- Check the `/run/kata-containers/` directory to verify that the container image bundle has been created in a directory
-  named either `01234556789` (for the container id), or the container image name, e.g.
-  ```bash
-  $ ls -ltr /run/kata-containers/confidential-containers_signed/
-  ```
-  which should show something like
-  ```
-  total 72
-  drwxr-xr-x 10 root root   200 Jan  1  1970 rootfs
-  -rw-r--r--  1 root root  2977 Jan 20 16:45 config.json
-  ```
- Leave the Kata shell by running:
-  ```bash
-  $ exit
-  ```
-
-## Verifying signed images
-
-For this sample demo, we use local attestation to pass through the required
-configuration to do container image signature verification. Due to this, the ability to verify images is limited
-to a pre-created selection of test images in our test
-repository [`quay.io/kata-containers/confidential-containers`](https://quay.io/repository/kata-containers/confidential-containers?tab=tags).
-For pulling images not in this test repository (called an *unprotected* registry below), we fall back to the behaviour
-of not enforcing signatures. More documentation on how to customise this to match your own containers through local,
-or remote attestation will be available in future.
-
-In our test repository there are three tagged images:
-
-| Test Image | Base Image used | Signature status | GPG key status |
-| --- | --- | --- | --- |
-| `quay.io/kata-containers/confidential-containers:signed` | `busybox:1.33.1` | [signature](https://github.com/kata-containers/tests/tree/CCv0/integration/confidential/fixtures/quay_verification/x86_64/signatures.tar) embedded in kata rootfs |  [public key](https://github.com/kata-containers/tests/tree/CCv0/integration/confidential/fixtures/quay_verification/x86_64/public.gpg) embedded in kata rootfs |
-| `quay.io/kata-containers/confidential-containers:unsigned` | `busybox:1.33.1` | not signed | not signed |
-| `quay.io/kata-containers/confidential-containers:other_signed` | `nginx:1.21.3` | [signature](https://github.com/kata-containers/tests/tree/CCv0/integration/confidential/fixtures/quay_verification/x86_64/signatures.tar) embedded in kata rootfs | GPG key not kept |
-
-Using a standard unsigned `busybox` image that can be pulled from another, *unprotected*, `quay.io` repository we can
-test a few scenarios.
-
-In this sample, with local attestation, we pass in the the public GPG key and signature files, and the [`offline_fs_kbc`
-configuration](https://github.com/confidential-containers/attestation-agent/blob/main/src/kbc_modules/offline_fs_kbc/README.md)
-into the guest image which specifies that any container image from `quay.io/kata-containers`
-must be signed with the embedded GPG key and the agent configuration needs updating to enable this. 
-With this policy set a few tests of image verification can be done to test different scenarios by attempting
-to create containers from these images using `crictl`:
-
- If you don't already have the Kata Containers CC code built and configured for `crictl`, then follow the 
-[instructions above](#using-crictl-for-end-to-end-provisioning-of-a-kata-confidential-containers-pod-with-an-unencrypted-image)
-up to the `~/ccv0.sh crictl_create_cc_pod` command.
-
- In order to enable the guest image, you will need to setup the required configuration, policy and signature files
-needed by running 
-`~/ccv0.sh copy_signature_files_to_guest` and then run `~/ccv0.sh crictl_create_cc_pod` which will delete and recreate 
-your pod - adding in the new files.
- 
- To test the fallback behaviour works using an unsigned image from an *unprotected* registry we can pull the `busybox`
-image by running:
-  ```bash
-  $ export CONTAINER_CONFIG_FILE=container-config_unsigned-unprotected.yaml
-  $ ~/ccv0.sh crictl_create_cc_container
-  ```
-  - This finishes showing the running container e.g.
-  ```text
-  CONTAINER           IMAGE                               CREATED                  STATE               NAME                        ATTEMPT             POD ID
-  98c70fefe997a       quay.io/prometheus/busybox:latest   Less than a second ago   Running             prometheus-busybox-signed   0                   70119e0539238
-  ```
- To test that an unsigned image from our *protected* test container registry is rejected we can run:
-  ```bash
-  $ export CONTAINER_CONFIG_FILE=container-config_unsigned-protected.yaml
-  $ ~/ccv0.sh crictl_create_cc_container
-  ```
-  - This correctly results in an error message from `crictl`:
-  `PullImage from image service failed" err="rpc error: code = Internal desc = Security validate failed: Validate image failed: The signatures do not satisfied! Reject reason: [Match reference failed.]" image="quay.io/kata-containers/confidential-containers:unsigned"`
- To test that the signed image our *protected* test container registry is accepted we can run:
-  ```bash
-  $ export CONTAINER_CONFIG_FILE=container-config.yaml
-  $ ~/ccv0.sh crictl_create_cc_container
-  ```
-  - This finishes by showing a new `kata-cc-busybox-signed` running container e.g.
-  ```text
-  CONTAINER           IMAGE                                                    CREATED                  STATE               NAME                        ATTEMPT             POD ID
-  b4d85c2132ed9       quay.io/kata-containers/confidential-containers:signed   Less than a second ago   Running             kata-cc-busybox-signed      0                   70119e0539238
-  ...
-  ```
- Finally to check the image with a valid signature, but invalid GPG key (the real trusted piece of information we really
-want to protect with the attestation agent in future) fails we can run: 
-  ```bash
-  $ export CONTAINER_CONFIG_FILE=container-config_signed-protected-other.yaml
-  $ ~/ccv0.sh crictl_create_cc_container
-  ```
-  - Again this results in an error message from `crictl`:
-  `"PullImage from image service failed" err="rpc error: code = Internal desc = Security validate failed: Validate image failed: The signatures do not satisfied! Reject reason: [signature verify failed! There is no pubkey can verify the signature!]" image="quay.io/kata-containers/confidential-containers:other_signed"`
-
-### Using Kubernetes to create a Kata confidential containers pod from the encrypted ssh demo sample image
-
-The [ssh-demo](https://github.com/confidential-containers/documentation/tree/main/demos/ssh-demo) explains how to
-demonstrate creating a Kata confidential containers pod from an encrypted image with the runtime created by the
-[confidential-containers operator](https://github.com/confidential-containers/documentation/blob/main/demos/operator-demo).
-To be fully confidential, this should be run on a Trusted Execution Environment, but it can be tested on generic
-hardware as well.
-
-If you wish to build the Kata confidential containers runtime to do this yourself, then you can using the following
-steps:
-
- Run the full build process with the Kubernetes environment variable set to `"yes"`, so the Kubernetes cluster is
-  configured and created using the VM as a single node cluster and with `AA_KBC` set to `offline_fs_kbc`. 
-  ```bash
-  $ export KUBERNETES="yes"
-  $ export AA_KBC=offline_fs_kbc
-  $ ~/ccv0.sh build_and_install_all
-  ```
-    - The `AA_KBC=offline_fs_kbc` mode will ensure that, when creating the rootfs of the Kata guest, the 
-      [attestation-agent](https://github.com/confidential-containers/attestation-agent) will be added along with the
-      [sample offline KBC](https://github.com/confidential-containers/documentation/blob/main/demos/ssh-demo/aa-offline_fs_kbc-keys.json)
-      and an agent configuration file
-    > **Note**: Depending on how where your VMs are hosted and how IPs are shared you might get an error from docker
-    during matching `ERROR: toomanyrequests: Too Many Requests`. To get past
-    this, login into Docker Hub and pull the images used with:
-  >  ```bash
-  >  $ sudo docker login
-  >  $ sudo docker pull registry:2
-  >  $ sudo docker pull ubuntu:20.04
-  >  ```
-  >  then re-run the command.
- Check that your Kubernetes cluster has been correctly set-up by running : 
-  ```bash
-  $ kubectl get nodes
-  ```
-  and checking that you see a single node e.g.
-  ```text
-  NAME                             STATUS   ROLES                  AGE   VERSION
-  stevenh-ccv0-k8s1.fyre.ibm.com   Ready    control-plane,master   43s   v1.22.0
-  ```
- Create a sample Kata confidential containers ssh pod by running:
-  ```bash
-  $ ~/ccv0.sh kubernetes_create_ssh_demo_pod
-  ```
- As this point you should have a Kubernetes pod running the Kata confidential containers runtime that has pulled
-the [sample image](https://hub.docker.com/r/katadocker/ccv0-ssh) which was encrypted by the key file that we included
-in the rootfs.
-During the pod deployment the image was pulled and then decrypted using the key file, on the Kata guest image, without
-it ever being available to the host.
-
- To validate that the container is working you, can connect to the image via SSH by running:
-  ```bash
-  $ ~/ccv0.sh connect_to_ssh_demo_pod
-  ```
-  - During this connection the host key fingerprint is shown and should match:
-    `ED25519 key fingerprint is SHA256:wK7uOpqpYQczcgV00fGCh+X97sJL3f6G1Ku4rvlwtR0.`
-  - After you are finished connecting then run:
-    ```bash
-    $ exit
-    ```
-  
- To delete the sample SSH demo pod run:
-  ```bash
-  $ ~/ccv0.sh kubernetes_delete_ssh_demo_pod
-  ```
-
-## Additional script usage
-
-As well as being able to use the script as above to build all of `kata-containers` from scratch it can be used to just
-re-build bits of it by running the script with different parameters. For example after the first build you will often
-not need to re-install the dependencies, the hypervisor or the Guest kernel, but just test code changes made to the
-runtime and agent. This can be done by running `~/ccv0.sh rebuild_and_install_kata`. (*Note this does a hard checkout*
-*from git, so if your changes are only made locally it is better to do the individual steps e.g.* 
-`~/ccv0.sh build_kata_runtime && ~/ccv0.sh build_and_add_agent_to_rootfs && ~/ccv0.sh build_and_install_rootfs`).
-There are commands for a lot of steps in building, setting up and testing and the full list can be seen by running
-`~/ccv0.sh help`:
-```
-$ ~/ccv0.sh help
-Overview:
-    Build and test kata containers from source
-    Optionally set kata-containers and tests repo and branch as exported variables before running
-    e.g. export katacontainers_repo=github.com/stevenhorsman/kata-containers && export katacontainers_branch=kata-ci-from-fork && export tests_repo=github.com/stevenhorsman/tests && export tests_branch=kata-ci-from-fork && ~/ccv0.sh build_and_install_all
-Usage:
-    ccv0.sh [options] <command>
-Commands:
- help:                         Display this help
- all:                          Build and install everything, test kata with containerd and capture the logs
- build_and_install_all:        Build and install everything
- initialize:                   Install dependencies and check out kata-containers source
- rebuild_and_install_kata:     Rebuild the kata runtime and agent and build and install the image
- build_kata_runtime:           Build and install the kata runtime
- configure:                    Configure Kata to use rootfs and enable debug
- create_rootfs:                Create a local rootfs
- build_and_add_agent_to_rootfs:Builds the kata-agent and adds it to the rootfs
- build_and_install_rootfs:     Builds and installs the rootfs image
- install_guest_kernel:         Setup, build and install the guest kernel
- build_cloud_hypervisor        Checkout, patch, build and install Cloud Hypervisor
- build_qemu:                   Checkout, patch, build and install QEMU
- init_kubernetes:              initialize a Kubernetes cluster on this system
- crictl_create_cc_pod          Use crictl to create a new kata cc pod
- crictl_create_cc_container    Use crictl to create a new busybox container in the kata cc pod
- crictl_delete_cc              Use crictl to delete the kata cc pod sandbox and container in it
- kubernetes_create_cc_pod:     Create a Kata CC runtime busybox-based pod in Kubernetes
- kubernetes_delete_cc_pod:     Delete the Kata CC runtime busybox-based pod in Kubernetes
- open_kata_shell:              Open a shell into the kata runtime
- agent_pull_image:             Run PullImage command against the agent with agent-ctl
- shim_pull_image:              Run PullImage command against the shim with ctr
- agent_create_container:       Run CreateContainer command against the agent with agent-ctl
- test:                         Test using kata with containerd
- test_capture_logs:            Test using kata with containerd and capture the logs in the user's home directory
-
-Options:
-    -d: Enable debug
-    -h: Display this help
-```
--- a/docs/how-to/how-to-generate-a-kata-containers-payload-for-the-confidential-containers-operator.md
+++ b/docs/how-to/how-to-generate-a-kata-containers-payload-for-the-confidential-containers-operator.md
@@ -1,44 +0,0 @@
-# Generating a Kata Containers payload for the Confidential Containers Operator
-
-[Confidential Containers
-Operator](https://github.com/confidential-containers/operator) consumes a Kata
-Containers payload, generated from the `CCv0` branch, and here one can find all
-the necessary info on how to build such a payload.
-
-## Requirements
-
-* `make` installed in the machine
-* Docker installed in the machine
-* `sudo` access to the machine
-
-## Process
-
-* Clone [Kata Containers](https://github.com/kata-containers/kata-containers)
-  ```sh
-  git clone --branch CCv0 https://github.com/kata-containers/kata-containers
-  ```
-  * In case you've already cloned the repo, make sure to switch to the `CCv0` branch
-    ```sh
-    git checkout CCv0
-    ```
-  * Ensure your tree is clean and in sync with upstream `CCv0`
-    ```sh
-    git clean -xfd
-    git reset --hard <upstream>/CCv0
-    ```
-* Make sure you're authenticated to `quay.io`
-    ```sh
-    sudo docker login quay.io
-    ```
-* From the top repo directory, run:
-  ```sh
-  sudo make cc-payload
-  ```
-* Make sure the image was upload to the [Confidential Containers
-  runtime-payload
-registry](https://quay.io/repository/confidential-containers/runtime-payload?tab=tags)
-
-## Notes
-
-Make sure to run it on a machine that's not the one you're hacking on, prepare a
-cup of tea, and get back to it an hour later (at least).
--- a/docs/how-to/how-to-hotplug-memory-arm64.md
+++ b/docs/how-to/how-to-hotplug-memory-arm64.md
@@ -15,18 +15,6 @@ $ sudo .ci/aarch64/install_rom_aarch64.sh
 $ popd
 ```

-## Config KATA QEMU
-
-After executing the above script, two files will be generated under the directory `/usr/share/kata-containers/` by default, namely `kata-flash0.img` and `kata-flash1.img`. Next we need to change the configuration file of `kata qemu`, which is in `/opt/kata/share/defaults/kata-containers/configuration-qemu.toml` by default, specify in the configuration file to use the UEFI ROM installed above. The above is an example of `kata deploy` installation. For package management installation, please use `kata-runtime env` to find the location of the configuration file. Please refer to the following configuration.
-
-```
-[hypervisor.qemu]
-
-# -pflash can add image file to VM. The arguments of it should be in format
-# of ["/path/to/flash0.img", "/path/to/flash1.img"]
-pflashes = ["/usr/share/kata-containers/kata-flash0.img", "/usr/share/kata-containers/kata-flash1.img"]
-```
-
 ## Run for test

 Let's test if the memory hotplug is ready for Kata after install the UEFI ROM. Make sure containerd is ready to run Kata before test.
--- a/docs/how-to/how-to-import-kata-logs-with-fluentd.md
+++ b/docs/how-to/how-to-import-kata-logs-with-fluentd.md
@@ -68,7 +68,7 @@ the Kata logs import to the EFK stack.
 > stack they are able to utilise in order to modify and test as necessary.

 Minikube by default
-[configures](https://github.com/kubernetes/minikube/blob/master/deploy/iso/minikube-iso/board/minikube/x86_64/rootfs-overlay/etc/systemd/journald.conf)
+[configures](https://github.com/kubernetes/minikube/blob/master/deploy/iso/minikube-iso/board/coreos/minikube/rootfs-overlay/etc/systemd/journald.conf)
 the `systemd-journald` with the
 [`Storage=volatile`](https://www.freedesktop.org/software/systemd/man/journald.conf.html) option,
 which results in the journal being stored in `/run/log/journal`. Unfortunately, the Minikube EFK
@@ -163,7 +163,7 @@ sub-filter on, for instance, the `SYSLOG_IDENTIFIER` to differentiate the Kata c
 on the `PRIORITY` to filter out critical issues etc.

 Kata generates a significant amount of Kata specific information, which can be seen as
-[`logfmt`](../../src/tools/log-parser/README.md#logfile-requirements).
+[`logfmt`](https://github.com/kata-containers/tests/tree/main/cmd/log-parser#logfile-requirements).
 data contained in the `MESSAGE` field. Imported as-is, there is no easy way to filter on that data
 in Kibana:

--- a/docs/how-to/how-to-run-docker-with-kata.md
+++ b/docs/how-to/how-to-run-docker-with-kata.md
@@ -48,9 +48,9 @@ Running Docker containers Kata Containers requires care because `VOLUME`s specif
 kataShared on / type virtiofs (rw,relatime,dax)
 ```

-`kataShared` mount types are powered by [`virtio-fs`](https://virtio-fs.gitlab.io/), a marked improvement over `virtio-9p`, thanks to [PR #1016](https://github.com/kata-containers/runtime/pull/1016). While `virtio-fs` is normally an excellent choice, in the case of DinD workloads `virtio-fs` causes an issue -- [it *cannot* be used as a "upper layer" of `overlayfs` without a custom patch](http://lists.katacontainers.io/pipermail/kata-dev/2020-January/001216.html).
+`kataShared` mount types are powered by [`virtio-fs`][virtio-fs], a marked improvement over `virtio-9p`, thanks to [PR #1016](https://github.com/kata-containers/runtime/pull/1016). While `virtio-fs` is normally an excellent choice, in the case of DinD workloads `virtio-fs` causes an issue -- [it *cannot* be used as a "upper layer" of `overlayfs` without a custom patch](http://lists.katacontainers.io/pipermail/kata-dev/2020-January/001216.html).

-As `/var/lib/docker` is a `VOLUME` specified by DinD (i.e. the `docker` images tagged `*-dind`/`*-dind-rootless`), `docker` will fail to start (or even worse, silently pick a worse storage driver like `vfs`) when started in a Kata Container. Special measures must be taken when running DinD-powered workloads in Kata Containers.
+As `/var/lib/docker` is a `VOLUME` specified by DinD (i.e. the `docker` images tagged `*-dind`/`*-dind-rootless`), `docker` fill fail to start (or even worse, silently pick a worse storage driver like `vfs`) when started in a Kata Container. Special measures must be taken when running DinD-powered workloads in Kata Containers.

 ## Workarounds/Solutions

@@ -58,7 +58,7 @@ Thanks to various community contributions (see [issue references below](#referen

 ### Use a memory backed volume

-For small workloads (small container images, without much generated filesystem load), a memory-backed volume is sufficient. Kubernetes supports a variant of  [the `EmptyDir` volume](https://kubernetes.io/docs/concepts/storage/volumes/#emptydir), which allows for memdisk-backed storage -- the the `medium: Memory`. An example of a `Pod` using such a setup [was contributed](https://github.com/kata-containers/runtime/issues/1429#issuecomment-477385283), and is reproduced below:
+For small workloads (small container images, without much generated filesystem load), a memory-backed volume is sufficient. Kubernetes supports a variant of  [the `EmptyDir` volume][k8s-emptydir], which allows for memdisk-backed storage -- the [the `medium: Memory` ][k8s-memory-volume-type]. An example of a `Pod` using such a setup [was contributed](https://github.com/kata-containers/runtime/issues/1429#issuecomment-477385283), and is reproduced below:

 ```yaml
 apiVersion: v1
--- a/docs/how-to/how-to-run-kata-containers-with-SNP-VMs.md
+++ b/docs/how-to/how-to-run-kata-containers-with-SNP-VMs.md
@@ -1,158 +0,0 @@
-# Kata Containers with AMD SEV-SNP VMs
-
-## Disclaimer
-
-This guide is designed for developers and is - same as the Developer Guide - not intended for production systems or end users. It is advisable to only follow this guide on non-critical development systems.
-
-## Prerequisites
-
-To run  Kata Containers in SNP-VMs, the following software stack is used.
-
-![Kubernetes integration with shimv2](./images/SNP-stack.svg)
-
-The host BIOS and kernel must be capable of supporting AMD SEV-SNP and configured accordingly. For Kata Containers, the host kernel with branch [`sev-snp-iommu-avic_5.19-rc6_v3`](https://github.com/AMDESE/linux/tree/sev-snp-iommu-avic_5.19-rc6_v3) and commit [`3a88547`](https://github.com/AMDESE/linux/commit/3a885471cf89156ea555341f3b737ad2a8d9d3d0) is known to work in conjunction with SEV Firmware version 1.51.3 (0xh\_1.33.03) available on AMD's [SEV developer website](https://developer.amd.com/sev/). See [AMD's guide](https://github.com/AMDESE/AMDSEV/tree/sev-snp-devel) to configure the host accordingly. Verify that you are able to run SEV-SNP encrypted VMs first. The guest components required for Kata Containers are built as described below.
-
-**Tip**: It is easiest to first have Kata Containers running on your system and then modify it to run containers in SNP-VMs. Follow the [Developer guide](../Developer-Guide.md#warning) and then follow the below steps. Nonetheless, you can just follow this guide from the start.
-
-## How to build
-
-Follow all of the below steps to install Kata Containers with SNP-support from scratch. These steps mostly follow the developer guide with modifications to support SNP
-
-__Steps from the Developer Guide:__
- Get all the [required components](../Developer-Guide.md#requirements-to-build-individual-components) for building the kata-runtime
- [Build the and install kata-runtime](../Developer-Guide.md#build-and-install-the-kata-containers-runtime)
- [Build a custom agent](../Developer-Guide.md#build-a-custom-kata-agent---optional)
- [Create an initrd image](../Developer-Guide.md#create-an-initrd-image---optional) by first building a rootfs, then building the initrd based on the rootfs, use a custom agent and install. `ubuntu` works as the distribution of choice.
- Get the [required components](../../tools/packaging/kernel/README.md#requirements) to build a custom kernel
-
-__SNP-specific steps:__
- Build the SNP-specific kernel as shown below (see this [guide](../../tools/packaging/kernel/README.md#build-kata-containers-kernel) for more information)
-```bash
-$ pushd kata-containers/tools/packaging/kernel/
-$ ./build-kernel.sh -a x86_64 -x snp setup
-$ ./build-kernel.sh -a x86_64 -x snp build
-$ sudo -E PATH="${PATH}" ./build-kernel.sh -x snp install
-$ popd
-```
- Build a current OVMF capable of SEV-SNP:
-```bash
-$ pushd kata-containers/tools/packaging/static-build/ovmf
-$ ./build.sh
-$ tar -xvf edk2-x86_64.tar.gz
-$ popd
-```
- Build a custom QEMU
-```bash
-$ source kata-containers/tools/packaging/scripts/lib.sh
-$ qemu_url="$(get_from_kata_deps "assets.hypervisor.qemu-snp-experimental.url")"
-$ qemu_tag="$(get_from_kata_deps "assets.hypervisor.qemu-snp-experimental.tag")"
-$ git clone "${qemu_url}"
-$ pushd qemu
-$ git checkout "${qemu_tag}"
-$ ./configure --enable-virtfs --target-list=x86_64-softmmu --enable-debug
-$ make -j "$(nproc)"
-$ popd
-```
-
-### Kata Containers Configuration for SNP
-
-The configuration file located at `/etc/kata-containers/configuration.toml` must be adapted as follows to support SNP-VMs:
- Use the SNP-specific kernel for the guest VM (change path)
-```toml
-kernel = "/usr/share/kata-containers/vmlinuz-snp.container"
-```
- Enable the use of an initrd (uncomment)
-```toml
-initrd = "/usr/share/kata-containers/kata-containers-initrd.img"
-```
- Disable the use of a rootfs (comment out)
-```toml
-# image = "/usr/share/kata-containers/kata-containers.img"
-```
- Use the custom QEMU capable of SNP (change path)
-```toml
-path = "/path/to/qemu/build/qemu-system-x86_64"
-```
- Use `virtio-9p` device since `virtio-fs` is unsupported due to bugs / shortcomings in QEMU version [`snp-v3`](https://github.com/AMDESE/qemu/tree/snp-v3) for SEV and SEV-SNP (change value)
-```toml
-shared_fs = "virtio-9p"
-```
- Disable `virtiofsd` since it is no longer required (comment out)
-```toml
-# virtio_fs_daemon = "/usr/libexec/virtiofsd"
-```
- Disable NVDIMM (uncomment)
-```toml
-disable_image_nvdimm = true
-```
- Disable shared memory (uncomment)
-```toml
-file_mem_backend = ""
-```
- Enable confidential guests (uncomment)
-```toml
-confidential_guest = true
-```
- Enable SNP-VMs (uncomment)
-```toml
-sev_snp_guest = true
-```
-  - Configure an OVMF (add path)
-```toml
-firmware = "/path/to/kata-containers/tools/packaging/static-build/ovmf/opt/kata/share/ovmf/OVMF.fd"
-```
-
-## Test Kata Containers with Containerd
-
-With Kata Containers configured to support SNP-VMs, we use containerd to test and deploy containers in these VMs.
-
-### Install Containerd
-If not already present, follow [this guide](./containerd-kata.md#install) to install containerd and its related components including `CNI` and the `cri-tools` (skip Kata Containers since we already installed it)
-
-### Containerd Configuration
-
-Follow [this guide](./containerd-kata.md#configuration) to configure containerd to use Kata Containers
-
-## Run Kata Containers in SNP-VMs
-
-Run the below commands to start a container. See [this guide](./containerd-kata.md#run) for more information
-```bash
-$ sudo ctr image pull docker.io/library/busybox:latest
-$ sudo ctr run --cni --runtime io.containerd.run.kata.v2 -t --rm docker.io/library/busybox:latest hello sh
-```
-
-### Check for active SNP:
-
-Inside the running container, run the following commands to check if SNP is active. It should look something like this:
-```
-/ # dmesg | grep -i sev
-[    0.299242] Memory Encryption Features active: AMD SEV SEV-ES SEV-SNP
-[    0.472286] SEV: Using SNP CPUID table, 31 entries present.
-[    0.514574] SEV: SNP guest platform device initialized.
-[    0.885425] sev-guest sev-guest: Initialized SEV guest driver (using vmpck_id 0)
-```
-
-### Obtain an SNP Attestation Report
-
-To obtain an attestation report inside the container, the `/dev/sev-guest` must first be configured. As of now, the VM does not perform this step, however it can be performed inside the container, either in the terminal or in code.
-
-Example for shell:
-```
-/ # SNP_MAJOR=$(cat /sys/devices/virtual/misc/sev-guest/dev | awk -F: '{print $1}')
-/ # SNP_MINOR=$(cat /sys/devices/virtual/misc/sev-guest/dev | awk -F: '{print $2}')
-/ # mknod -m 600 /dev/sev-guest c "${SNP_MAJOR}" "${SNP_MINOR}"
-```
-
-## Known Issues
-
- Support for cgroups v2 is still [work in progress](https://github.com/kata-containers/kata-containers/issues/927). If issues occur due to cgroups v2 becoming the default in newer systems, one possible solution is to downgrade cgroups to v1:
-```bash
-sudo sed -i 's/^\(GRUB_CMDLINE_LINUX=".*\)"/\1 systemd.unified_cgroup_hierarchy=0"/' /etc/default/grub
-sudo update-grub
-sudo reboot
-```
- If both SEV and SEV-SNP are supported by the host, Kata Containers uses SEV-SNP by default. You can verify what features are enabled by checking `/sys/module/kvm_amd/parameters/sev` and `sev_snp`. This means that Kata Containers can not run both SEV-SNP-VMs and SEV-VMs at the same time. If SEV is to be used by Kata Containers instead, reload the `kvm_amd` kernel module without SNP-support, this will disable SNP-support for the entire platform.
-```bash
-sudo rmmod kvm_amd && sudo modprobe kvm_amd sev_snp=0
-```
-
--- a/docs/how-to/how-to-run-rootless-vmm.md
+++ b/docs/how-to/how-to-run-rootless-vmm.md
@@ -1,5 +1,5 @@
 ## Introduction
-To improve security, Kata Container supports running the VMM process (QEMU and cloud-hypervisor) as a non-`root` user. 
+To improve security, Kata Container supports running the VMM process (currently only QEMU) as a non-`root` user.
 This document describes how to enable the rootless VMM mode and its limitations.

 ## Pre-requisites
@@ -27,7 +27,7 @@ Another necessary change is to move the hypervisor runtime files (e.g. `vhost-fs
 ## Limitations

 1. Only the VMM process is running as a non-root user. Other processes such as Kata Container shimv2 and `virtiofsd` still run as the root user.
-2. Currently, this feature is only supported in QEMU and cloud-hypervisor. For firecracker, you can use jailer to run the VMM process with a non-root user.
+2. Currently, this feature is only supported in QEMU. Still need to bring it to Firecracker and Cloud Hypervisor (see https://github.com/kata-containers/kata-containers/issues/2567).
 3. Certain features will not work when rootless VMM is enabled, including:
   1. Passing devices to the guest (`virtio-blk`, `virtio-scsi`) will not work if the non-privileged user does not have permission to access it (leading to a permission denied error). A more permissive permission (e.g. 666) may overcome this issue. However, you need to be aware of the potential security implications of reducing the security on such devices.
   2. `vfio` device will also not work because of permission denied error.
--- a/docs/how-to/how-to-set-prometheus-in-k8s.md
+++ b/docs/how-to/how-to-set-prometheus-in-k8s.md
@@ -19,7 +19,7 @@ Also you should ensure that `kubectl` working correctly.
 > **Note**: More information about Kubernetes integrations:
 >   - [Run Kata Containers with Kubernetes](run-kata-with-k8s.md)
 >   - [How to use Kata Containers and Containerd](containerd-kata.md)
->   - [How to use Kata Containers and containerd with Kubernetes](how-to-use-k8s-with-containerd-and-kata.md)
+>   - [How to use Kata Containers and CRI (containerd plugin) with Kubernetes](how-to-use-k8s-with-cri-containerd-and-kata.md)

 ## Configure Prometheus

--- a/docs/how-to/how-to-set-sandbox-config-kata.md
+++ b/docs/how-to/how-to-set-sandbox-config-kata.md
@@ -57,7 +57,6 @@ There are several kinds of Kata configurations and they are listed below.
 | `io.katacontainers.config.hypervisor.enable_iothreads` | `boolean`| enable IO to be processed in a separate thread. Supported currently for virtio-`scsi` driver |
 | `io.katacontainers.config.hypervisor.enable_mem_prealloc` | `boolean` | the memory space used for `nvdimm` device by the hypervisor |
 | `io.katacontainers.config.hypervisor.enable_vhost_user_store` | `boolean` | enable vhost-user storage device (QEMU) |
-| `io.katacontainers.config.hypervisor.vhost_user_reconnect_timeout_sec` | `string`| the timeout for reconnecting vhost user socket (QEMU) 
 | `io.katacontainers.config.hypervisor.enable_virtio_mem` | `boolean` | enable virtio-mem (QEMU) |
 | `io.katacontainers.config.hypervisor.entropy_source` (R) | string| the path to a host source of entropy (`/dev/random`, `/dev/urandom` or real hardware RNG device) |
 | `io.katacontainers.config.hypervisor.file_mem_backend` (R) | string | file based memory backend root directory |
@@ -88,21 +87,10 @@ There are several kinds of Kata configurations and they are listed below.
 | `io.katacontainers.config.hypervisor.use_vsock` | `boolean` | specify use of `vsock` for agent communication |
 | `io.katacontainers.config.hypervisor.vhost_user_store_path` (R) | `string` | specify the directory path where vhost-user devices related folders, sockets and device nodes should be (QEMU) |
 | `io.katacontainers.config.hypervisor.virtio_fs_cache_size` | uint32 | virtio-fs DAX cache size in `MiB` |
-| `io.katacontainers.config.hypervisor.virtio_fs_cache` | string | the cache mode for virtio-fs, valid values are `always`, `auto` and `never` |
+| `io.katacontainers.config.hypervisor.virtio_fs_cache` | string | the cache mode for virtio-fs, valid values are `always`, `auto` and `none` |
 | `io.katacontainers.config.hypervisor.virtio_fs_daemon` | string | virtio-fs `vhost-user` daemon path |
 | `io.katacontainers.config.hypervisor.virtio_fs_extra_args` | string | extra options passed to `virtiofs` daemon |
 | `io.katacontainers.config.hypervisor.enable_guest_swap` | `boolean` | enable swap in the guest |
-| `io.katacontainers.config.hypervisor.use_legacy_serial` | `boolean` | uses legacy serial device for guest's console (QEMU) |
-
-## Confidential Computing Options
-| Key | Value Type | Comments |
-|-------| ----- | ----- |
-| `io.katacontainers.config.pre_attestation.enabled"` | `bool` |
-determines if SEV/-ES attestation is enabled |
-| `io.katacontainers.config.pre_attestation.uri"` | `string` |
-specify the location of the attestation server |
-| `io.katacontainers.config.sev.policy"` | `uint32` |
-specify the SEV guest policy |

 ## Container Options
 | Key | Value Type | Comments |
@@ -184,7 +172,7 @@ kind: Pod
 metadata:
  name: pod2
  annotations:
-    io.katacontainers.config.runtime.disable_guest_seccomp: "false"
+    io.katacontainers.config.runtime.disable_guest_seccomp: false
 spec:
  runtimeClassName: kata
  containers:
--- a/docs/how-to/how-to-setup-swap-devices-in-guest-kernel.md
+++ b/docs/how-to/how-to-setup-swap-devices-in-guest-kernel.md
@@ -17,9 +17,9 @@ Enable setup swap device in guest kernel as follows:
 $ sudo sed -i -e 's/^#enable_guest_swap.*$/enable_guest_swap = true/g' /etc/kata-containers/configuration.toml
 ```

-## Run a Kata Containers utilizing swap device
+## Run a Kata Container utilizing swap device

-Use following command to start a Kata Containers with swappiness 60 and 1GB swap device (swap_in_bytes - memory_limit_in_bytes).
+Use following command to start a Kata Container with swappiness 60 and 1GB swap device (swap_in_bytes - memory_limit_in_bytes).
 ```
 $ pod_yaml=pod.yaml
 $ container_yaml=container.yaml
@@ -27,8 +27,6 @@ $ image="quay.io/prometheus/busybox:latest"
 $ cat << EOF > "${pod_yaml}"
 metadata:
  name: busybox-sandbox1
-  uid: $(uuidgen)
-  namespace: default
 EOF
 $ cat << EOF > "${container_yaml}"
 metadata:
@@ -45,12 +43,12 @@ command:
 - top
 EOF
 $ sudo crictl pull $image
-$ podid=$(sudo crictl runp --runtime kata $pod_yaml)
+$ podid=$(sudo crictl runp $pod_yaml)
 $ cid=$(sudo crictl create $podid $container_yaml $pod_yaml)
 $ sudo crictl start $cid
 ```

-Kata Containers setups swap device for this container only when `io.katacontainers.container.resource.swappiness` is set.
+Kata Container setups swap device for this container only when `io.katacontainers.container.resource.swappiness` is set.

 The following table shows the swap size how to decide if `io.katacontainers.container.resource.swappiness` is set.
 |`io.katacontainers.container.resource.swap_in_bytes`|`memory_limit_in_bytes`|swap size|
--- a/docs/how-to/how-to-use-erofs-build-rootfs.md
+++ b/docs/how-to/how-to-use-erofs-build-rootfs.md
@@ -1,90 +0,0 @@
-# Configure Kata Containers to use EROFS build rootfs
-
-## Introduction
-For kata containers, rootfs is used in the read-only way. EROFS can noticeably decrease metadata overhead.
-
-`mkfs.erofs` can generate compressed and uncompressed EROFS images.
-
-For uncompressed images, no files are compressed. However, it is optional to inline the data blocks at the end of the file with the metadata.
-
-For compressed images, each file will be compressed using the lz4 or lz4hc algorithm, and it will be confirmed whether it can save space. Use No compression of the file if compression does not save space.
-
-## Performance comparison
-|                 | EROFS | EXT4 | XFS |
-|-----------------|-------| --- | --- |
-| Image Size [MB] | 106(uncompressed) | 256 | 126 |
-
-
-## Guidance
-### Install the `erofs-utils`
-#### `apt/dnf` install
-On newer `Ubuntu/Debian` systems, it can be installed directly using the `apt` command, and on `Fedora` it can be installed directly using the `dnf` command.
-
-```shell
-# Debian/Ubuntu
-$ apt install erofs-utils
-# Fedora
-$ dnf install erofs-utils
-```
-
-#### Source install
-[https://git.kernel.org/pub/scm/linux/kernel/git/xiang/erofs-utils.git](https://git.kernel.org/pub/scm/linux/kernel/git/xiang/erofs-utils.git)
-
-##### Compile dependencies
-If you need to enable the `Lz4` compression feature, `Lz4 1.8.0+` is required, and `Lz4 1.9.3+` is strongly recommended.
-
-##### Compilation process
-For some old lz4 versions (lz4-1.8.0~1.8.3), if lz4-static is not installed, the lz4hc algorithm will not be supported. lz4-static can be installed with apt install lz4-static.x86_64. However, these versions have some bugs in compression, and it is not recommended to use these versions directly.
-If you use `lz4 1.9.0+`, you can directly use the following command to compile.
-
-```shell
-$ ./autogen.sh
-$ ./configure
-$ make
-```
-
-The compiled `mkfs.erofs` program will be saved in the `mkfs` directory. Afterwards, the generated tools can be installed to a system directory using make install (requires root privileges).
-
-### Create a local rootfs
-```shell
-$ export distro="ubuntu"
-$ export FS_TYPE="erofs"
-$ export ROOTFS_DIR="realpath kata-containers/tools/osbuilder/rootfs-builder/rootfs"
-$ sudo rm -rf "${ROOTFS_DIR}"
-$ pushd kata-containers/tools/osbuilder/rootfs-builder
-$ script -fec 'sudo -E SECCOMP=no ./rootfs.sh "${distro}"'
-$ popd
-```
-
-### Add a custom agent to the image - OPTIONAL
-> Note:
-> - You should only do this step if you are testing with the latest version of the agent.
-```shell
-$ sudo install -o root -g root -m 0550 -t "${ROOTFS_DIR}/usr/bin" "${ROOTFS_DIR}/../../../../src/agent/target/x86_64-unknown-linux-musl/release/kata-agent"
-$ sudo install -o root -g root -m 0440 "${ROOTFS_DIR}/../../../../src/agent/kata-agent.service" "${ROOTFS_DIR}/usr/lib/systemd/system/"
-$ sudo install -o root -g root -m 0440 "${ROOTFS_DIR}/../../../../src/agent/kata-containers.target" "${ROOTFS_DIR}/usr/lib/systemd/system/"
-```
-
-### Build a root image
-```shell
-$ pushd  kata-containers/tools/osbuilder/image-builder
-$ script -fec 'sudo -E ./image_builder.sh "${ROOTFS_DIR}"'
-$ popd
-```
-
-### Install the rootfs image
-```shell
-$ pushd kata-containers/tools/osbuilder/image-builder
-$ commit="$(git log --format=%h -1 HEAD)"
-$ date="$(date +%Y-%m-%d-%T.%N%z)"
-$ rootfs="erofs"
-$ image="kata-containers-${rootfs}-${date}-${commit}"
-$ sudo install -o root -g root -m 0640 -D kata-containers.img "/usr/share/kata-containers/${image}"
-$ (cd /usr/share/kata-containers && sudo ln -sf "$image" kata-containers.img)
-$ popd
-```
-
-### Use `EROFS` in the runtime
-```shell
-$ sudo sed -i -e 's/^# *\(rootfs_type\).*=.*$/\1 = erofs/g' /etc/kata-containers/configuration.toml
-```
--- a/docs/how-to/how-to-use-k8s-with-cri-containerd-and-kata.md
+++ b/docs/how-to/how-to-use-k8s-with-cri-containerd-and-kata.md
@@ -1,15 +1,15 @@
-# How to use Kata Containers and containerd with Kubernetes
+# How to use Kata Containers and CRI (containerd plugin) with Kubernetes

 This document describes how to set up a single-machine Kubernetes (k8s) cluster.

 The Kubernetes cluster will use the
-[containerd](https://github.com/containerd/containerd/) and
-[Kata Containers](https://katacontainers.io) to launch workloads.
+[CRI containerd](https://github.com/containerd/containerd/) and
+[Kata Containers](https://katacontainers.io) to launch untrusted workloads.

 ## Requirements

 - Kubernetes, Kubelet, `kubeadm`
- containerd
+- containerd with `cri` plug-in
 - Kata Containers

 > **Note:** For information about the supported versions of these components,
@@ -149,7 +149,7 @@ $ sudo -E kubectl taint nodes --all node-role.kubernetes.io/master-

 ## Create runtime class for Kata Containers

-By default, all pods are created with the default runtime configured in containerd.
+By default, all pods are created with the default runtime configured in CRI containerd plugin.
 From Kubernetes v1.12, users can use [`RuntimeClass`](https://kubernetes.io/docs/concepts/containers/runtime-class/#runtime-class) to specify a different runtime for Pods.

 ```bash
@@ -166,7 +166,7 @@ $ sudo -E kubectl apply -f runtime.yaml

 ## Run pod in Kata Containers

-If a pod has the `runtimeClassName` set to `kata`, the CRI runs the pod with the
+If a pod has the `runtimeClassName` set to `kata`, the CRI plugin runs the pod with the
 [Kata Containers runtime](../../src/runtime/README.md).

 - Create an pod configuration that using Kata Containers runtime
--- a/docs/how-to/how-to-use-kata-containers-with-acrn.md
+++ b/docs/how-to/how-to-use-kata-containers-with-acrn.md
@@ -101,7 +101,7 @@ Start an ACRN based Kata Container,
 $ sudo docker run -ti --runtime=kata-runtime busybox sh
 ```

-You will see ACRN(`acrn-dm`) is now running on your system, as well as a `kata-shim`. You should obtain an interactive shell prompt. Verify that all the Kata processes terminate once you exit the container.
+You will see ACRN(`acrn-dm`) is now running on your system, as well as a `kata-shim`, `kata-proxy`. You should obtain an interactive shell prompt. Verify that all the Kata processes terminate once you exit the container.

 ```bash
 $ ps -ef | grep -E "kata|acrn"
--- a/docs/how-to/how-to-use-kata-containers-with-firecracker.md
+++ b/docs/how-to/how-to-use-kata-containers-with-firecracker.md
@@ -1,254 +0,0 @@
-# Configure Kata Containers to use Firecracker
-
-This document provides an overview on how to run Kata Containers with the AWS Firecracker hypervisor.
-
-## Introduction
-
-AWS Firecracker is an open source virtualization technology that is purpose-built for creating and managing secure, multi-tenant container and function-based services that provide serverless operational models. AWS Firecracker runs workloads in lightweight virtual machines, called `microVMs`, which combine the security and isolation properties provided by hardware virtualization technology with the speed and flexibility of Containers.
-
-Please refer to AWS Firecracker [documentation](https://github.com/firecracker-microvm/firecracker/blob/main/docs/getting-started.md) for more details.
-
-## Pre-requisites
-
-This document requires the presence of Kata Containers on your system. Install using the instructions available through the following links:
-
- Kata Containers [automated installation](../install/README.md)
-
- Kata Containers manual installation: Automated installation does not seem to be supported for Clear Linux, so please use [manual installation](../Developer-Guide.md) steps.
-> **Note:** Create rootfs image and not initrd image.
-
-## Install AWS Firecracker
-
-Kata Containers only support AWS Firecracker v0.23.4 ([yet](https://github.com/kata-containers/kata-containers/pull/1519)).
-To install Firecracker we need to get the `firecracker` and `jailer` binaries:
-
-```bash
-$ release_url="https://github.com/firecracker-microvm/firecracker/releases"
-$ version="v0.23.1"
-$ arch=`uname -m`
-$ curl ${release_url}/download/${version}/firecracker-${version}-${arch} -o firecracker
-$ curl ${release_url}/download/${version}/jailer-${version}-${arch} -o jailer
-$ chmod +x jailer firecracker
-```
-
-To make the binaries available from the default system `PATH` it is recommended to move them to `/usr/local/bin` or add a symbolic link:
-
-```bash
-$ sudo ln -s $(pwd)/firecracker /usr/local/bin
-$ sudo ln -s $(pwd)/jailer /usr/local/bin
-```
-
-More details can be found in [AWS Firecracker docs](https://github.com/firecracker-microvm/firecracker/blob/main/docs/getting-started.md)
-
-In order to run Kata with AWS Firecracker a block device as the backing store for a VM is required. To interact with `containerd` and Kata we use the `devmapper` `snapshotter`.
-
-## Configure `devmapper`
-
-To check support for your `containerd` installation, you can run:
-
-```
-$ ctr plugins ls |grep devmapper
-```
-
-if the output of the above command is:
-
-```
-io.containerd.snapshotter.v1    devmapper                linux/amd64    ok
-```
-then you can skip this section and move on to `Configure Kata Containers with AWS Firecracker`
-
-If the output of the above command is:
-
-```
-io.containerd.snapshotter.v1    devmapper                linux/amd64    error
-```
-
-then we need to setup `devmapper` `snapshotter`. Based on a [very useful
-guide](https://docs.docker.com/storage/storagedriver/device-mapper-driver/)
-from docker, we can set it up using the following scripts:
-
-> **Note:** The following scripts assume a 100G sparse file for storing container images, a 10G sparse file for the thin-provisioning pool and 10G base image files for any sandboxed container created. This means that we will need at least 10GB free space.
-
-```
-#!/bin/bash
-set -ex
-
-DATA_DIR=/var/lib/containerd/devmapper
-POOL_NAME=devpool
-
-mkdir -p ${DATA_DIR}
-
-# Create data file
-sudo touch "${DATA_DIR}/data"
-sudo truncate -s 100G "${DATA_DIR}/data"
-
-# Create metadata file
-sudo touch "${DATA_DIR}/meta"
-sudo truncate -s 10G "${DATA_DIR}/meta"
-
-# Allocate loop devices
-DATA_DEV=$(sudo losetup --find --show "${DATA_DIR}/data")
-META_DEV=$(sudo losetup --find --show "${DATA_DIR}/meta")
-
-# Define thin-pool parameters.
-# See https://www.kernel.org/doc/Documentation/device-mapper/thin-provisioning.txt for details.
-SECTOR_SIZE=512
-DATA_SIZE="$(sudo blockdev --getsize64 -q ${DATA_DEV})"
-LENGTH_IN_SECTORS=$(bc <<< "${DATA_SIZE}/${SECTOR_SIZE}")
-DATA_BLOCK_SIZE=128
-LOW_WATER_MARK=32768
-
-# Create a thin-pool device
-sudo dmsetup create "${POOL_NAME}" \
-    --table "0 ${LENGTH_IN_SECTORS} thin-pool ${META_DEV} ${DATA_DEV} ${DATA_BLOCK_SIZE} ${LOW_WATER_MARK}"
-
-cat << EOF
-#
-# Add this to your config.toml configuration file and restart containerd daemon
-#
-[plugins]
-  [plugins.devmapper]
-    pool_name = "${POOL_NAME}"
-    root_path = "${DATA_DIR}"
-    base_image_size = "10GB"
-    discard_blocks = true
-EOF
-```
-
-Make it executable and run it:
-
-```bash
-$ sudo chmod +x ~/scripts/devmapper/create.sh
-$ cd ~/scripts/devmapper/
-$ sudo ./create.sh
-```
-
-Now, we can add the `devmapper` configuration provided from the script to `/etc/containerd/config.toml`.
-> **Note:** If you are using the default `containerd` configuration (`containerd config default >> /etc/containerd/config.toml`), you may need to edit the existing `[plugins."io.containerd.snapshotter.v1.devmapper"]`configuration.
-Save and restart `containerd`:
-
-
-```bash
-$ sudo systemctl restart containerd
-```
-
-We can use `dmsetup` to verify that the thin-pool was created successfully.
-
-```bash
-$ sudo dmsetup ls
-```
-
- We should also check that `devmapper` is registered and running:
-
-```bash
-$ sudo ctr plugins ls | grep devmapper
-```
-
-This script needs to be run only once, while setting up the `devmapper` `snapshotter` for `containerd`. Afterwards, make sure that on each reboot, the thin-pool is initialized from the same data directory. Otherwise, all the fetched containers (or the ones that you have created) will be re-initialized. A simple script that re-creates the thin-pool from the same data directory is shown below:
-
-```
-#!/bin/bash
-set -ex
-
-DATA_DIR=/var/lib/containerd/devmapper
-POOL_NAME=devpool
-
-# Allocate loop devices
-DATA_DEV=$(sudo losetup --find --show "${DATA_DIR}/data")
-META_DEV=$(sudo losetup --find --show "${DATA_DIR}/meta")
-
-# Define thin-pool parameters.
-# See https://www.kernel.org/doc/Documentation/device-mapper/thin-provisioning.txt for details.
-SECTOR_SIZE=512
-DATA_SIZE="$(sudo blockdev --getsize64 -q ${DATA_DEV})"
-LENGTH_IN_SECTORS=$(bc <<< "${DATA_SIZE}/${SECTOR_SIZE}")
-DATA_BLOCK_SIZE=128
-LOW_WATER_MARK=32768
-
-# Create a thin-pool device
-sudo dmsetup create "${POOL_NAME}" \
-    --table "0 ${LENGTH_IN_SECTORS} thin-pool ${META_DEV} ${DATA_DEV} ${DATA_BLOCK_SIZE} ${LOW_WATER_MARK}"
-```
-
-We can create a systemd service to run the above script on each reboot:
-
-```bash
-$ sudo nano /lib/systemd/system/devmapper_reload.service
-```
-
-The service file:
-
-```
-[Unit]
-Description=Devmapper reload script
-
-[Service]
-ExecStart=/path/to/script/reload.sh
-
-[Install]
-WantedBy=multi-user.target
-```
-
-Enable the newly created service:
-
-```bash
-$ sudo systemctl daemon-reload
-$ sudo systemctl enable devmapper_reload.service
-$ sudo systemctl start devmapper_reload.service
-```
-
-## Configure Kata Containers with AWS Firecracker
-
-To configure Kata Containers with AWS Firecracker, copy the generated `configuration-fc.toml` file when building the `kata-runtime` to either `/etc/kata-containers/configuration-fc.toml` or `/usr/share/defaults/kata-containers/configuration-fc.toml`.
-
-The following command shows full paths to the `configuration.toml` files that the runtime loads. It will use the first path that exists. (Please make sure the kernel and image paths are set correctly in the `configuration.toml` file)
-
-```bash
-$ sudo kata-runtime --show-default-config-paths
-```
-
-## Configure `containerd`
-Next, we need to configure containerd. Add a file in your path (e.g. `/usr/local/bin/containerd-shim-kata-fc-v2`) with the following contents:
-
-```
-#!/bin/bash
-KATA_CONF_FILE=/etc/kata-containers/configuration-fc.toml /usr/local/bin/containerd-shim-kata-v2 $@
-```
-> **Note:** You may need to edit the paths of the configuration file and the `containerd-shim-kata-v2` to correspond to your setup.
-
-Make it executable:
-
-```bash
-$ sudo chmod +x /usr/local/bin/containerd-shim-kata-fc-v2
-```
-
-Add the relevant section in `containerd`’s `config.toml` file (`/etc/containerd/config.toml`):
-
-```
-[plugins.cri.containerd.runtimes]
-  [plugins.cri.containerd.runtimes.kata-fc]
-    runtime_type = "io.containerd.kata-fc.v2"
-```
-
-> **Note:** If you are using the default `containerd` configuration (`containerd config default >> /etc/containerd/config.toml`),
-> the configuration should change to :
-```
-[plugins."io.containerd.grpc.v1.cri".containerd.runtimes]
-  [plugins."io.containerd.grpc.v1.cri".containerd.runtimes.kata-fc]
-    runtime_type = "io.containerd.kata-fc.v2"
-```
-
-Restart `containerd`:
-
-```bash
-$ sudo systemctl restart containerd
-```
-
-## Verify the installation
-
-We are now ready to launch a container using Kata with Firecracker to verify that everything worked:
-
-```bash
-$ sudo ctr images pull --snapshotter devmapper docker.io/library/ubuntu:latest
-$ sudo ctr run --snapshotter devmapper --runtime io.containerd.run.kata-fc.v2 -t --rm docker.io/library/ubuntu
-```
--- a/docs/how-to/how-to-use-virtio-fs-nydus-with-kata.md
+++ b/docs/how-to/how-to-use-virtio-fs-nydus-with-kata.md
@@ -32,7 +32,6 @@ The `nydus-sandbox.yaml` looks like below:
 metadata:
  attempt: 1
  name: nydus-sandbox
-  uid: nydus-uid
  namespace: default
 log_directory: /tmp
 linux:
--- a/docs/how-to/how-to-use-virtio-mem-with-kata.md
+++ b/docs/how-to/how-to-use-virtio-mem-with-kata.md
@@ -42,8 +42,6 @@ $ image="quay.io/prometheus/busybox:latest"
 $ cat << EOF > "${pod_yaml}"
 metadata:
  name: busybox-sandbox1
-  uid: $(uuidgen)
-  namespace: default
 EOF
 $ cat << EOF > "${container_yaml}"
 metadata:
--- a/docs/how-to/images/SNP-stack.svg
+++ b/docs/how-to/images/SNP-stack.svg
--- a/docs/how-to/privileged.md
+++ b/docs/how-to/privileged.md
@@ -31,7 +31,7 @@ See below example config:
  [plugins.cri]
    [plugins.cri.containerd]
       [plugins.cri.containerd.runtimes.runc]
-         runtime_type = "io.containerd.runc.v2"
+         runtime_type = "io.containerd.runc.v1"
         privileged_without_host_devices = false
       [plugins.cri.containerd.runtimes.kata]
         runtime_type = "io.containerd.kata.v2"
@@ -40,7 +40,7 @@ See below example config:
           ConfigPath = "/opt/kata/share/defaults/kata-containers/configuration.toml"
 ```

- - [How to use Kata Containers and containerd with Kubernetes](how-to-use-k8s-with-containerd-and-kata.md)
+ - [Kata Containers with Containerd and CRI documentation](how-to-use-k8s-with-cri-containerd-and-kata.md)
 - [Containerd CRI config documentation](https://github.com/containerd/containerd/blob/main/docs/cri/config.md)

 #### CRI-O
--- a/docs/how-to/run-kata-with-k8s.md
+++ b/docs/how-to/run-kata-with-k8s.md
@@ -15,7 +15,7 @@ After choosing one CRI implementation, you must make the appropriate configurati
 to ensure it integrates with Kata Containers.

 Kata Containers 1.5 introduced the `shimv2` for containerd 1.2.0, reducing the components
-required to spawn pods and containers, and this is the preferred way to run Kata Containers with Kubernetes ([as documented here](../how-to/how-to-use-k8s-with-containerd-and-kata.md#configure-containerd-to-use-kata-containers)).
+required to spawn pods and containers, and this is the preferred way to run Kata Containers with Kubernetes ([as documented here](../how-to/how-to-use-k8s-with-cri-containerd-and-kata.md#configure-containerd-to-use-kata-containers)).

 An equivalent shim implementation for CRI-O is planned.

@@ -57,7 +57,7 @@ content shown below:

 To customize containerd to select Kata Containers runtime, follow our
 "Configure containerd to use Kata Containers" internal documentation
-[here](../how-to/how-to-use-k8s-with-containerd-and-kata.md#configure-containerd-to-use-kata-containers).
+[here](../how-to/how-to-use-k8s-with-cri-containerd-and-kata.md#configure-containerd-to-use-kata-containers).

 ## Install Kubernetes

@@ -85,7 +85,7 @@ Environment="KUBELET_EXTRA_ARGS=--container-runtime=remote --runtime-request-tim
 Environment="KUBELET_EXTRA_ARGS=--container-runtime=remote --runtime-request-timeout=15m --container-runtime-endpoint=unix:///run/containerd/containerd.sock"
 ```
 For more information about containerd see the "Configure Kubelet to use containerd"
-documentation [here](../how-to/how-to-use-k8s-with-containerd-and-kata.md#configure-kubelet-to-use-containerd).
+documentation [here](../how-to/how-to-use-k8s-with-cri-containerd-and-kata.md#configure-kubelet-to-use-containerd).

 ## Run a Kubernetes pod with Kata Containers

@@ -99,18 +99,7 @@ $ sudo systemctl restart kubelet
 $ sudo kubeadm init --ignore-preflight-errors=all --cri-socket /var/run/crio/crio.sock --pod-network-cidr=10.244.0.0/16

 # If using containerd
-$ cat <<EOF | tee kubeadm-config.yaml
-apiVersion: kubeadm.k8s.io/v1beta3
-kind: InitConfiguration
-nodeRegistration:
-  criSocket: "/run/containerd/containerd.sock"
---
-kind: KubeletConfiguration
-apiVersion: kubelet.config.k8s.io/v1beta1
-cgroupDriver: cgroupfs
-podCIDR: "10.244.0.0/16"
-EOF
-$ sudo kubeadm init --ignore-preflight-errors=all --config kubeadm-config.yaml
+$ sudo kubeadm init --ignore-preflight-errors=all --cri-socket /run/containerd/containerd.sock --pod-network-cidr=10.244.0.0/16

 $ export KUBECONFIG=/etc/kubernetes/admin.conf
 ```
--- a/docs/hypervisors.md
+++ b/docs/hypervisors.md
@@ -33,7 +33,6 @@ are available, their default values and how each setting can be used.
 [Cloud Hypervisor] | rust | `aarch64`, `x86_64` | Type 2 ([KVM]) | `configuration-clh.toml` |
 [Firecracker] | rust | `aarch64`, `x86_64` | Type 2 ([KVM]) | `configuration-fc.toml` |
 [QEMU] | C | all | Type 2 ([KVM]) | `configuration-qemu.toml` |
-[`Dragonball`] | rust | `aarch64`, `x86_64` | Type 2 ([KVM]) | `configuration-dragonball.toml` |

 ## Determine currently configured hypervisor

@@ -53,7 +52,6 @@ the hypervisors:
 [Cloud Hypervisor] | Low latency, small memory footprint, small attack surface | Minimal | | excellent | excellent | High performance modern cloud workloads | |
 [Firecracker] | Very slimline | Extremely minimal | Doesn't support all device types | excellent | excellent | Serverless / FaaS | |
 [QEMU] | Lots of features | Lots | | good | good | Good option for most users | | All users |
-[`Dragonball`] | Built-in VMM,  low CPU and memory overhead| Minimal | | excellent | excellent | Optimized for most container workloads | `out-of-the-box` Kata Containers experience |

 For further details, see the [Virtualization in Kata Containers](design/virtualization.md) document and the official documentation for each hypervisor.

@@ -62,4 +60,3 @@ For further details, see the [Virtualization in Kata Containers](design/virtuali
 [Firecracker]: https://github.com/firecracker-microvm/firecracker
 [KVM]: https://en.wikipedia.org/wiki/Kernel-based_Virtual_Machine
 [QEMU]: http://www.qemu-project.org
-[`Dragonball`]: https://github.com/openanolis/dragonball-sandbox
--- a/Show More
+++ b/Show More