main.yml

name: Flow-IPC pipeline

# Discussion on the philosophy behind the workflow (pipeline) below.  The steps themselves should be easy enough to
# follow, but what's the bigger picture?  Answer: The pipeline below is an algorithm, as coded below, invoked
# by GitHub on many runners (machines); and the inputs to this algorithm are:
#   - a branch (`main`, or a feature/PR branch) or tag (usually release tag v<version>);
#     - hence the current contents of that branch/tag;
#   - some trigger event that causes the workflow (pipeline) to run in the first place:
#     push to the branch/tag; pull request (PR) creation; or manual click by human (as of this writing usually
#     for testing or debugging only).
# So given those inputs, what are the outputs or side effects?  To answer, consider what jobs are actually run
# (as parallel as possible).  There's `setup` and `set-vars` as of this writing, but these are
# purely tactical prerequisites and not worth discussing here; once they complete then the "real" jobs will run:
# build-and-test and doc-and-release.  Here are their goals, meaning outputs/side effects given the above
# inputs:
#   - build-and-test:
#     - Summary: Test building and running the product; and bullet-proof it further via run-time sanitizers.
#     - Build the code, including demo/test code, at the given branch/tag in wide variety of compiler/build-type
#       combinations.  The ability to build (including linking into test binaries) successfully is, of course,
#       a test in and of itself.
#     - Test that code by running the available unit test and integration test/demo binaries built in previous bullet.
#       If something fails, help (within reason) make it clear what failed and why.
#       - Output: Make any logs available, whether on success or failure.  If console output is sufficient,
#         great: it'll be visible via GitHub Actions UI.  If not, save the non-console log output in a log tarball
#         available as workflow artifact for download via GitHub Actions UI.
#     - All of the above but with certain run-time sanitizers (as of this writing ASAN/LSAN, UBSAN, TSAN,
#       and possibly clang-MSAN) enabled at build time as well.  (RelWithDebInfo is a sufficient base build type
#       for a sanitizer-enabled build; a subset of compilers -- as opposed to all of them -- is also sufficient
#       for pragamtic reasons.)
#  - doc-and-release:
#    - Summary: 1, generate documentation from the source code (using Doxygen et al) and make it conveniently
#      available.  2, update GitHub Release and GitHub Pages web site with automatically with any relevant info, namely
#      with the generated docs and source code tarball/zip.
#    - Generate the documentation using Doxygen et al.  The goal here is the *canonical generated documentation*, not
#      *testing the ability to generate it*.  It's a subtle difference, but it's important to note it, because
#      if we wanted to test the ins and outs of doc generation in various environments then we could have a much more
#      complex and longer pipeline -- and perhaps we should... but that's not the goal *here*.
#      - Output: Make it available as workflow artfiact for download via GitHub Actions UI.
#        Hence human can simply download it, whether it's for the `main` tip or a specific release version.
#      - Side effect: (On pushes/merges to `main` branch *only*) Check-in the *generated docs* back into `main`
#        itself, so that (1) they're available for local perusal by any person cloning/pulling `main` and (2) ditto
#        for any downstream releases (which are mere tags of `main`).
#        - Side effect: Having done so, signal GitHub Pages web site for the org, so that the new `main` docs
#          are reflected at this web site.  (It'll automatically clone `main`, copy the generated docs to web site
#          replacing the existing `main` docs if any, and stage this to the web.)
#    - (If the branch/tag input is, in fact, tag v* -- a release tag) The mere fact that a push to a release tag X
#      is being observed means we want:
#      - Side effect: Ensure that the GitHub Release X has the full source code available for human download
#        as a package (tarball/zip).  I.e., upload it there as needed.
#      - Side effect: Ensure that the GitHub Pages web site actually lists this Release and its associated
#        generated documentation.  I.e., signal Pages that there's a Release X now: it'll then do the right
#        thing (namely checkout the docs at the tag and copy them over; and add a link to the release and docs
#        in the appropriate web page).
#
# So, roughly speaking,
#   - build-and-test is about building and testing the product, including bullet-proofing it with sanitizers.
#   - doc-and-release is about official documentation-based-on-source being available in various customary ways;
#     with a side of official releases being accessible and comprehensively presented in customary ways.
#     - TODO: It *could* be argued that those 2 goals are related but separate, and perhaps they should be 2 separate
#       jobs.  However, at least as of this writing, there's definite overlap between them, and combining the 2
#       makes pragamtic sense.  It's worth revisiting periodically perhaps.

on:
  # Want to merge to development tip?  Should probably pass these builds/tests and doc generation first (the latter
  # in case the source change adds a Doxygen error or bad-looking docs).  Note this runs on PR creation *and* update.
  pull_request:
    branches:
      - main
  push:
    # Was able to merge PR to `main` tip?  Should ensure these builds/tests/doc generation still pass after the fact
    # (post-merge `main` does not always equal the PR-branch state); plus:
    # auto-check-in generated docs into `main` branch tip (and signal web site to update accordingly).
    branches:
      - main
    # Created release tag?  Just in case, should ensure these builds/tests pass (just in case, but it's redundant
    # against the branch=main trigger above); generate docs and make them available as artifact (nice: docs for
    # a particular product version available online); plus:
    # signal web sites to update accordingly (there's probably a new release to present, with full source code attached;
    # and there are docs for; nice: docs a particular product version available online).
    tags:
      - v*
  # To create the button that runs a workflow manually: testing, debugging, demoing.
  workflow_dispatch:

jobs:
  # Impetus behind this is to set up at least one magic string used in 2+ places.
  # Unfortunately simply using `env:` does not work, as jobs.<id>.if refuses to access the workflow-global `env.<id>`.
  # Ridiculous.  TODO: Revisit.
  #
  # Folding this into `setup` would have been fine, but as of this writing `setup` needs at least one constant
  # from here, and getting the order of operations correct within that one job is non-trivial at best.
  set-vars:
    runs-on: ubuntu-latest
    steps:
      - name: Set variables/constants for subsequent use
        run: |
          # Set variables/constants for subsequent use.
    outputs:
      doc-commit-message: (Commit by workflow script) Update generated documentation.

  # Impetus behind this is to gate whether the real jobs below actually need to run.  Can of course also compute
  # other things as needed.
  setup:
    needs: set-vars
    runs-on: ubuntu-latest
    steps:
      - name: Checkout VERSION file and tag history
        uses: actions/checkout@v4
        with:
          sparse-checkout: VERSION
          fetch-depth: 0 # Get all history regarding tags.  We'll need that for VERSION checking below.
      - name: Grab repository version from `VERSION` file
        id: repo_version
        run: |
          # Grab repository version from `VERSION` file.
          if [ ! -e VERSION ]; then
            echo '::error ::No VERSION file in repository root.  One must exist.'
            exit 1
          fi
          VERSION=`cat VERSION`
          echo "Determined version: [$VERSION]."
          echo "version=$VERSION" >> $GITHUB_OUTPUT
      - name: (On release creation only) Check repository version against release tag name
        if: success() && (!cancelled()) && startsWith(github.ref, 'refs/tags/v')
        run: |
          # Check repository version against release tag name.
          VERSION=${{ steps.repo_version.outputs.version }}
          TAG_VERSION=${GITHUB_REF#refs/tags/v}
          if [ "$VERSION" = "$TAG_VERSION" ]; then
            echo ":notice ::Tag name and repo version are an exact match.  Looks good."
          elif [[ "$TAG_VERSION" == "$VERSION-"* ]]; then
            echo "::notice ::Tag name [v$TAG_VERSION] starts with repo version (pre-release).  Allowed."
          else
            echo "::error ::VERSION file version v[$VERSION] must = release tag name [v$TAG_VERSION]."
            echo "::error ::Suggest deleting release and tag, fixing VERSION if needed, and re-creating release/tag."
            exit 1
          fi
          # TODO: Would be nice to also grab release name and ensure it equals tag name v<...>.
          # Could be a separate step or just execute here if the above succeeded so far.  Requires API fetch, so it's
          # a few lines.
      - name: (Except on release creation) Check repository version against already-existing release tag names
        if: success() && (!cancelled()) && (!startsWith(github.ref, 'refs/tags/v'))
        run: |
          # Check repo version against release tag name.
          # Do not fail on account of VERSION in this path however... just warn or gently inform.
          VERSION=${{ steps.repo_version.outputs.version }}
          if git rev-parse "v$VERSION" >/dev/null 2>&1; then
              echo "::warning ::Tag [v$VERSION] already exists.  The repo/VERSION file will require "\
          "a bump, before the next release.  However this should be done *just* ahead of release creation and must "\
          "follow semantic versioning conventions, especially regarding when to bump major/minor/patch components.  "\
          "When ready to do this consult [https://semver.org/] as needed."
          elif git tag | grep -q "^v$VERSION-"; then
              echo "::notice ::Since pre-release tag(s) [v$VERSION-*] already exist(s), but no tag "\
          "[v$VERSION] exists, this repo state is likely intended for a later pre-release or official release.  "\
          "Cool!  However, reminder: "\
          "The repo/VERSION version should be decided/finalized *just* ahead of release creation and must "\
          "follow semantic versioning conventions, especially regarding when to bump major/minor/patch components.  "\
          "When ready to do this consult [https://semver.org/] as needed."
          else
              echo "::notice ::Since no tag [v$VERSION] or [v$VERSION-*] exists, this repo state "\
          "is likely intended for a future release.  Cool!  However, reminder: "\
          "The repo/VERSION version should be decided/finalized *just* ahead of release creation and must "\
          "follow semantic versioning conventions, especially regarding when to bump major/minor/patch components.  "\
          "When ready to do this consult [https://semver.org/] as needed."
          fi
      - id: compute_proceed_else_not
        name: Compute whether for main jobs to proceed or not
        # For checking whether github.event.head_commit.message starts with needs.set-vars.outputs.doc-commit-message
        # it is tempting to just use:
        #   '${{ github.event.head_commit.message }}' != '${{ needs.set-vars.outputs.doc-commit-message }}'*
        # This works usually but is unsafe: If the head commit message contains, for example, a single-quote,
        # then the shell syntax breaks down.  One approach would be to use pipeline startsWith() before `run`,
        # but apparently it cannot be done directly inside `run`; so it is a pain.  Staying with shell scripting
        # then we can just use here-doc syntax and a temp file, so if the commit message does not have the
        # here-doc terminator token, then we're fine.
        run: |
          # Compute whether for main jobs to proceed or not.
          TMP_MSG=/tmp/flow-ipc-pipeline-head-cmt-msg.txt
          cat <<'FLOW_IPC_PIPELINE_HEAD_CMD_MSG_EOF' > $TMP_MSG
          ${{ github.event.head_commit.message }}
          FLOW_IPC_PIPELINE_HEAD_CMD_MSG_EOF
          if [ '${{ github.ref }}' != 'refs/heads/main' ] || \
             [ '${{ github.event_name }}' != 'push' ] || \
             ! { head --lines=1 $TMP_MSG | fgrep -xq '${{ needs.set-vars.outputs.doc-commit-message }}'; }; then
            echo 'proceed-else-not=true' >> $GITHUB_OUTPUT
          else
            echo 'proceed-else-not=false' >> $GITHUB_OUTPUT
            echo 'The real jobs will not run: earlier `doc-and-release` job checked-in generated docs to `main`.'
            echo 'That is not a source change and requires no actual pipeline to execute.'
          fi
    outputs:
      proceed-else-not: ${{ steps.compute_proceed_else_not.outputs.proceed-else-not }}

  build-and-test:
    needs: [setup, set-vars]
    if: |
      needs.setup.outputs.proceed-else-not == 'true'

    strategy:
      fail-fast: false
      matrix:
        compiler:
          - id: gcc-9
            name: gcc
            version: 9
            c-path: /usr/bin/gcc-9
            cpp-path: /usr/bin/g++-9
          - id: gcc-10
            name: gcc
            version: 10
            c-path: /usr/bin/gcc-10
            cpp-path: /usr/bin/g++-10
          - id: gcc-11
            name: gcc
            version: 11
            c-path: /usr/bin/gcc-11
            cpp-path: /usr/bin/g++-11
          - id: gcc-13
            name: gcc
            version: 13
            c-path: /usr/bin/gcc-13
            cpp-path: /usr/bin/g++-13
          - id: clang-13
            name: clang
            version: 13
            c-path: /usr/bin/clang-13
            cpp-path: /usr/bin/clang++-13
          - id: clang-15
            name: clang
            version: 15
            c-path: /usr/bin/clang-15
            cpp-path: /usr/bin/clang++-15
          - id: clang-16
            name: clang
            version: 16
            c-path: /usr/bin/clang-16
            cpp-path: /usr/bin/clang++-16
            install: True
          - id: clang-17
            name: clang
            version: 17
            c-path: /usr/bin/clang-17
            cpp-path: /usr/bin/clang++-17
            install: True
        build-test-cfg:
          - id: debug
            conan-profile-build-type: Debug
            conan-profile-jemalloc-build-type: Debug
            # In any case Debug, at the CMake script (in meta-project ./, and in flow/, ipc_*/) level,
            # means LTO will be ignored (only *Rel* build-types enable LTO, if so instructed).
            # Still keeping this here to make that clear to the reader/maintainer.  Could remove it though.
            no-lto: True
          - id: release
            conan-profile-build-type: Release
            conan-profile-jemalloc-build-type: Release
            # Leaving no-lto at default (false); full-on-optimized-no-debug is the quentessential LTO use case.
          - id: relwithdebinfo
            conan-profile-build-type: RelWithDebInfo
            conan-profile-jemalloc-build-type: Release
            # As of this writing RelWithDebInfo (in CMake, and Conan in our case at least doesn't override it)
            # defaults to -O2 (not -O3), which isn't a super-effective way of deploying LTO.  Plus
            # we can use a test of non-LTO building.
            # TODO: Perhaps this should be a separate matrix dimension (LTO on, LTO off).  Number of configs will
            # jump up, but it is more methodical and nice.
            no-lto: True
          - id: minsizerel
            conan-profile-build-type: MinSizeRel
            conan-profile-jemalloc-build-type: Release
            # Leaving no-lto at default (false); -Os (size-optimizing) with LTO on is pretty realistic.
          - id: relwithdebinfo-asan
            conan-profile-build-type: RelWithDebInfo
            conan-profile-jemalloc-build-type: Release
            conan-profile-custom-conf: |
              # no-omit-frame-pointer recommended in (A|UB|M)SAN docs for nice stack traces.
              tools.build:cflags = ["-fsanitize=address", "-fno-omit-frame-pointer"]
              tools.build:cxxflags = ["-fsanitize=address", "-fno-omit-frame-pointer"]
              tools.build:sharedlinkflags = ["-fsanitize=address"]
              tools.build:exelinkflags = ["-fsanitize=address"]
            # jemalloc recipe needs this as of this writing (even though it dupes the stuff just-above conceptually).
            conan-profile-custom-buildenv: |
              CXXFLAGS = -fsanitize=address -fno-omit-frame-pointer
              CFLAGS = -fsanitize=address -fno-omit-frame-pointer
              LDFLAGS = -fsanitize=address
            conan-profile-custom-settings: |
              compiler.sanitizer = address
            conan-custom-settings-defs: | # Could we not copy/paste these 4x?
              data['compiler']['gcc']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
              data['compiler']['clang']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
            sanitizer-name: asan # Used as internal enum of sorts + name of sanitizer-related dirs.
            # At least ASAN with clang + LTO => cryptic link error.
            # Regardless regular RelWithDebInfo already has no-lto=true; so we would follow suit.  Just be aware
            # that changing it to false for whatever reason => ASAN probably breaks.
            no-lto: True
          - id: relwithdebinfo-ubsan
            conan-profile-build-type: RelWithDebInfo
            conan-profile-jemalloc-build-type: Release
            conan-profile-custom-conf: |
              tools.build:cflags = ["-fsanitize=undefined", "-fno-omit-frame-pointer"]
              tools.build:cxxflags = ["-fsanitize=undefined", "-fno-omit-frame-pointer"]
              tools.build:sharedlinkflags = ["-fsanitize=undefined"]
              tools.build:exelinkflags = ["-fsanitize=undefined"]
            conan-profile-custom-buildenv: |
              CXXFLAGS = -fsanitize=undefined -fno-omit-frame-pointer
              CFLAGS = -fsanitize=undefined -fno-omit-frame-pointer
              LDFLAGS = -fsanitize=undefined
            conan-profile-custom-settings: |
              compiler.sanitizer = undefined
            conan-custom-settings-defs: |
              data['compiler']['gcc']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
              data['compiler']['clang']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
            sanitizer-name: ubsan
            # While UBSAN might work with LTO, I do not want the aggravation/entropy.  Turn it off.
            # Plus inheriting from regular RelWithDebInfo anyway.
            no-lto: True
          - id: relwithdebinfo-tsan
            conan-profile-build-type: RelWithDebInfo
            conan-profile-jemalloc-build-type: Release
            conan-profile-custom-conf: |
              # no-omit-frame-pointer recommended in (A|UB|M)SAN docs for nice stack traces; TSAN docs do not
              # mention it.  Given the various symbolizer problems mentioned elsewhere in comments in this file,
              # it seemed prudent to keep this consistent with those other *SAN.
              tools.build:cflags = ["-fsanitize=thread", "-fno-omit-frame-pointer"]
              tools.build:cxxflags = ["-fsanitize=thread", "-fno-omit-frame-pointer"]
              tools.build:sharedlinkflags = ["-fsanitize=thread", "-fno-omit-frame-pointer"]
              tools.build:exelinkflags = ["-fsanitize=thread", "-fno-omit-frame-pointer"]
            conan-profile-custom-buildenv: |
              CXXFLAGS = -fsanitize=thread -fno-omit-frame-pointer
              CFLAGS = -fsanitize=thread -fno-omit-frame-pointer
              LDFLAGS = -fsanitize=thread -fno-omit-frame-pointer
            conan-profile-custom-settings: |
              compiler.sanitizer = thread
            conan-custom-settings-defs: |
              data['compiler']['gcc']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
              data['compiler']['clang']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
            sanitizer-name: tsan
            # While TSAN might work with LTO, I do not want the aggravation/entropy.  Turn it off.
            # Also, for some clangs, there are TSAN WARNINGs at times about too-small symbolizer buffer or something;
            # throwing LTO into the mix seems like unnecessary entropy.
            # Plus inheriting from regular RelWithDebInfo anyway.
            no-lto: True
          - id: relwithdebinfo-msan
            conan-profile-build-type: RelWithDebInfo
            conan-profile-jemalloc-build-type: Release
            conan-profile-custom-conf: |
              tools.build:cflags = ["-fsanitize=memory", "-fno-omit-frame-pointer", "-fsanitize-ignorelist=/tmp/msan_ignore_list.cfg"]
              tools.build:cxxflags = ["-fsanitize=memory", "-fno-omit-frame-pointer", "-fsanitize-ignorelist=/tmp/msan_ignore_list.cfg"]
              tools.build:sharedlinkflags = ["-fsanitize=memory"]
              tools.build:exelinkflags = ["-fsanitize=memory"]
            conan-profile-custom-buildenv: |
              CXXFLAGS = -fsanitize=memory -fno-omit-frame-pointer -fsanitize-ignorelist=/tmp/msan_ignore_list.cfg
              CFLAGS = -fsanitize=memory -fno-omit-frame-pointer -fsanitize-ignorelist=/tmp/msan_ignore_list.cfg
              LDFLAGS = -fsanitize=memory
            conan-profile-custom-settings: |
              compiler.sanitizer = memory
            conan-custom-settings-defs: |
              data['compiler']['gcc']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
              data['compiler']['clang']['sanitizer'] = ['None', 'address', 'thread', 'memory', 'undefined']
            sanitizer-name: msan
            # While MSAN might work with LTO, I do not want the aggravation/entropy.  Turn it off.
            # Plus inheriting from regular RelWithDebInfo anyway.
            no-lto: True

        # We concentrate on clang sanitizers; they are newer/nicer; also MSAN is clang-only.  So gcc ones excluded.
        # Attention!  Excluding some sanitizer job(s) (with these reasons):
        #   - MSAN: MSAN protects against reads of ununitialized memory; it is clang-only (not gcc), unlike the other
        #     *SAN.  Its mission overlaps at least partially with UBSAN's; for example for sure there were a couple of
        #     uninitialized reads in test code which UBSAN caught.  Its current state -- if not excluded -- is as
        #     follows: 1, due to (as of this writing) building dependencies, including the capnp compiler binary used
        #     during our build process, with the same compiler build config as the real code, ignore-list entires had
        #     to be added to get past these problems.  2, before main() in *all* our demos/tests Boost was doing some
        #     global init which MSAN did not like and hence aborted before main(); these are now ignored as well.
        #     3, this got us into main() at least, but immediately cryptic aborts started, seemingly again originating
        #     in Boost (but requires detailed investigation to really understand).  At this point I (ygoldfel)
        #     disabled MSAN and filed a ticket.  The overall status: MSAN is said to be useful, even with UBSAN active,
        #     but all resources including official docs indicate that it is a high-maintenance tool:
        #     *All* linked code, including libc and libstdc++/libc++ (the former in our case as of this writing),
        #     must be instrumented to avoid cryptic false positives.  The good news is we do build other things
        #     instrumented (Boost libs, jemalloc, capnp/kj, gtest); but not libstdc++ (which official docs recommend);
        #     this can be done but requires more work (I would suggest switching to libc++ in that case from the
        #     start, as the clang people made it and themselves build it instrumented for their testing).
        #     So the bottom line: MSAN is a tough cookie and requires more work before enabling.  In the meantime we
        #     have many layers of protection, including ASAN and UBSAN and lots of unit and integration tests.
        #     So this status quo is pretty good.  TODO: Do the work/get MSAN functional/useful; un-exclude it then.
        #   - *SAN with gcc: We concentrate on clang sanitizers; they are newer/nicer; having to worry about differences
        #     between them is an excessive burden.  So excluding gcc ASAN/UBSAN/TSAN.
        #     - TODO: Consider reducing to the newest or most stable clang.  Generally they just keep improving; the
        #       chances of something being uncaught (incorrectly) with a later version are slim.  Not impossible though.
        #       Look into it.  Update: As of this writing transport_test exercise mode/SHM-jemalloc sub-mode is
        #       disabled for TSAN clang-17 due to instability of TSAN itself.  So clearly when it comes to TSAN
        #       (which is officially in beta as of clang-17), higher version does not mean everything is better.
        #       Hence perhaps this to-do is more of a longer-term thing, when all the sanitizers stabilize, or when
        #       we find a single very-stable config.  Just remember we aren't testing the sanitizer or our code's
        #       ability to be sanitized; we just want to detect any problems in the code -- however we get there.
        #   - *SAN with clang-13 (but not 15+): As of this writing clang-13 produces some additional warnings,
        #     at least in TSAN, which appear to be related to nearby non-race messages like
        #     `==75454==WARNING: Symbolizer buffer too small`.  As a result, we either have to eliminate the
        #     latter problem (TODO: look into it) or suppress false-positive race warnings that might only look
        #     like added problems due to the incomplete stack traces.  In general scanning through clang-13-produced
        #     TSAN output, there is a chaotic feel to it, when it comes to stack output.  Meanwhile so far
        #     there has been zero evidence that a lower-version clang has actual added problems versus the other
        #     compiler-versions, due to generating code differently.  Since we have at least 3 other compiler-versions
        #     running all the *SAN, I (ygoldfel) decided to exclude clang-13 *SAN, until the chaotic *SAN messages can
        #     be at least reduced.  In the meantime our *SAN coverage is still quite good.
        exclude:
          - build-test-cfg: { id: relwithdebinfo-msan }
          - compiler:  { id: gcc-9 }
            build-test-cfg: { id: relwithdebinfo-asan }
          - compiler:  { id: gcc-10 }
            build-test-cfg: { id: relwithdebinfo-asan }
          - compiler:  { id: gcc-11 }
            build-test-cfg: { id: relwithdebinfo-asan }
          - compiler:  { id: gcc-13 }
            build-test-cfg: { id: relwithdebinfo-asan }
          - compiler:  { id: clang-13 }
            build-test-cfg: { id: relwithdebinfo-asan }
          - compiler:  { id: gcc-9 }
            build-test-cfg: { id: relwithdebinfo-ubsan }
          - compiler:  { id: gcc-10 }
            build-test-cfg: { id: relwithdebinfo-ubsan }
          - compiler:  { id: gcc-11 }
            build-test-cfg: { id: relwithdebinfo-ubsan }
          - compiler:  { id: gcc-13 }
            build-test-cfg: { id: relwithdebinfo-ubsan }
          - compiler:  { id: clang-13 }
            build-test-cfg: { id: relwithdebinfo-ubsan }
          - compiler:  { id: gcc-9 }
            build-test-cfg: { id: relwithdebinfo-tsan }
          - compiler:  { id: gcc-10 }
            build-test-cfg: { id: relwithdebinfo-tsan }
          - compiler:  { id: gcc-11 }
            build-test-cfg: { id: relwithdebinfo-tsan }
          - compiler:  { id: gcc-13 }
            build-test-cfg: { id: relwithdebinfo-tsan }
          - compiler:  { id: clang-13 }
            build-test-cfg: { id: relwithdebinfo-tsan }

    # Not using ubuntu-latest, so as to avoid surprises with OS upgrades and such.
    runs-on: ubuntu-22.04

    name: ${{ matrix.compiler.id }}-${{ matrix.build-test-cfg.id }}

    env:
      build-dir: ${{ github.workspace }}/build/${{ matrix.build-test-cfg.conan-profile-build-type }}
      install-root-dir: ${{ github.workspace }}/install/${{ matrix.build-test-cfg.conan-profile-build-type }}
      # (Unfortunately cannot refer to earlier-assigned `env.` entries within subsequent ones.)
      install-dir: ${{ github.workspace }}/install/${{ matrix.build-test-cfg.conan-profile-build-type }}/usr/local
      # Target file, as read by sanitized executable being invoked.
      san-suppress-cfg-file: ${{ github.workspace }}/install/${{ matrix.build-test-cfg.conan-profile-build-type }}/usr/local/bin/san_suppressions.cfg
      # Relative path (including file name) to suppressions file in a given context (which is given as dir name off
      # which this path works).  Possible contexts as of this writing: ${{ github.workspace }}/<module>/src
      # (suppressions endemic to lib<module>); ${{ github.workspace }}/.../<test's source code dir>
      # (suppressions endemic to that test specifically).  This suppressions file holds the compiler-version-independent
      # entries.  (Malformed and ignored if matrix.build-test-cfg is not `*san`, meaning not sanitizer-enabled.)
      san-suppress-cfg-in-file1: sanitize/${{ matrix.build-test-cfg.sanitizer-name }}/suppressions_${{ matrix.compiler.name }}.cfg
      # Same but contains compiler version-specific entries (on top of those in san-suppress-cfg-file).
      san-suppress-cfg-in-file2: sanitize/${{ matrix.build-test-cfg.sanitizer-name }}/suppressions_${{ matrix.compiler.name }}_${{ matrix.compiler.version }}.cfg
      # Run-time controls for various sanitizers.  Invoke before running test but *after* assembling suppressions
      # file ${{ env.san-suppress-cfg-file}} if any (clear it if needed, as it might be left-over from a previous
      # test).  The proper technique is: 1, which of the suppression contexts (see above) are relevant?
      # (Safest is to specify all contexts; as you'll see just below, it's fine if there are no files in a given
      # context.  However it would make code tedious to specify that way everywhere; so it's fine to skip contexts where
      # we know that these days there are no suppresisons.)  Let the contexts' dirs be $DIR_A, $DIR_B, ....  Then:
      # 2, `{ cat $DIR_A/${{ env.san-suppress-cfg-in-file1 }} $DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
      #           $DIR_B/${{ env.san-suppress-cfg-in-file1 }} $DIR_B/${{ env.san-suppress-cfg-in-file2 }} \
      #           ... \
      #           > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true`
      # 3, {{ env.setup-tests-env }}.
      #
      # Notes about items in *SAN_OPTIONS:
      #
      # Unclear if we need disable_coredump=0; it might be a gcc thing due to historic
      # issues with core size with ASAN; it is not documented in the clang *SAN docs for any
      # sanitizers; but it is accepted for ASAN and TSAN, seemingly, and maybe is at worst
      # harmless with out compiler versions.  TODO: Maybe revisit.
      #
      # print_stacktrace=1 for UBSAN is recommended by documentation for nice stack traces
      # (also that is why we apply sanitizers to RelWithDebInfo; DebInfo part for the nice
      # stack traces/etc.; Rel part to reduce the considerable slowdown from some of the
      # sanitizers).
      #
      # second_deadlock_stack=1 for TSAN: TODO: Explain.  Don't see it in clang TSAN docs.
      #
      # Caution!  Setting multiple *SAN_OPTIONS (while invoking only 1 sanitizer, as we do)
      # seems like it would be harmless and avoid the `if/elif`s... but is actually a
      # nightmare; there is some interaction in clang (at least 13-17) which causes the
      # wrong sanitizer reading suppressions from another one => suppression parse error =>
      # none of the demos/tests get anywhere at all.  So set just the right one!
      setup-tests-env: |
        if [ '${{ matrix.build-test-cfg.sanitizer-name }}' = asan ]; then
          export ASAN_OPTIONS='disable_coredump=0'
          echo "ASAN_OPTIONS = [$ASAN_OPTIONS]."
        elif [ '${{ matrix.build-test-cfg.sanitizer-name }}' = ubsan ]; then
          export SAN_SUPP=1
          export SAN_SUPP_CFG=${{ github.workspace }}/install/${{ matrix.build-test-cfg.conan-profile-build-type }}/usr/local/bin/san_suppressions.cfg
          export UBSAN_OPTIONS="disable_coredump=0 print_stacktrace=1 suppressions=$SAN_SUPP_CFG"
          echo "UBSAN_OPTIONS = [$UBSAN_OPTIONS]."
        elif [ '${{ matrix.build-test-cfg.sanitizer-name }}' = tsan ]; then
          export SAN_SUPP=1
          export SAN_SUPP_CFG=${{ github.workspace }}/install/${{ matrix.build-test-cfg.conan-profile-build-type }}/usr/local/bin/san_suppressions.cfg
          export TSAN_OPTIONS="disable_coredump=0 second_deadlock_stack=1 suppressions=$SAN_SUPP_CFG"
          echo "TSAN_OPTIONS = [$TSAN_OPTIONS]."
        fi
        if [ "$SAN_SUPP" != '' ]; then
          echo 'Sanitizer [${{ matrix.build-test-cfg.sanitizer-name }}] suppressions cfg contents:'
          echo '[[[ file--'
          cat $SAN_SUPP_CFG
          echo '--file ]]]'
        fi
      # TODO: Ideally would go, like other things, under github.workspace somewhere (maybe build/),
      # but that var isn't available in `strategy` up above, where we specify the compiler option
      # pointing to this file.  Surely we could cook something up; but meanwhile /tmp works fine.
      msan-ignore-list-cfg-file: /tmp/msan_ignore_list.cfg

    steps:
    - name: Update available software list for apt-get
      run: |
        # Update available software list for apt-get.
        lsb_release -a
        sudo apt-get update

    - name: Install clang compiler
      if: |
        matrix.compiler.install && (matrix.compiler.name == 'clang')
      run: |
        # Install clang compiler.
        wget https://apt.llvm.org/llvm.sh
        chmod u+x llvm.sh
        sudo ./llvm.sh ${{ matrix.compiler.version }}

    - name: Install gcc compiler
      if: |
        matrix.compiler.install && (matrix.compiler.name == 'gcc')
      run: |
        # Install gcc compiler.
        sudo apt-get install -y software-properties-common
        sudo add-apt-repository ppa:ubuntu-toolchain-r/test -y
        sudo apt-get update
        sudo apt-get install -y gcc-${{ matrix.compiler.version }} g++-${{ matrix.compiler.version }}

    # We get highest 1.x, instead of 2+, because there are certain dependency recipe issues (namely for jemalloc)
    # with 2+.  TODO: 1, expound more clearly here or elsewhere what those issues are; 2, solve those issues and
    # thus move to Conan 2+; Conan 1.x is officially on "deprecation path."  This will also help resolve some other
    # to-dos more easily (targeting different build settings at built product source versus tools used to build it
    # = prime example).
    - name: Install the latest version of Conan which is less than 2
      run: pip install 'conan<2'

    - name: Checkout `ipc` repository and submodules (`flow`, `ipc_*`)
      uses: actions/checkout@v4
      with:
        submodules: true

    - name: Add custom settings for Conan packages
      if: |
        matrix.build-test-cfg.conan-custom-settings-defs
      run: |
        # Add custom settings for Conan packages.
        conan config init
        pip install PyYAML
        CONAN_SETTINGS_PATH=$(conan config home)/settings.yml
        python -c "

        import yaml

        with open('$CONAN_SETTINGS_PATH', 'r') as file:
          data = yaml.safe_load(file)

        ${{ matrix.build-test-cfg.conan-custom-settings-defs }}

        with open('$CONAN_SETTINGS_PATH', 'w') as file:
          yaml.dump(data, file)
        "

    # Important info/somewhat important TODO: The C[XX]FLAGS and linker-flags are supplied via
    # ${{ matrix.build-test-cfg.conan-profile-custom-conf }} and
    # ${{ matrix.build-test-cfg.conan-profile-custom-buildenv }}.  These affect not just our objects/libs/executables;
    # but also at least: 3rd party libs (jemalloc, capnp/kj, boost, gtest), 3rd party executables
    # (capnp compiler binary; temp binaries created by auto-tools configure scripts to test features).
    # In the case of the libs that's usually good; in particular things like
    # -fsanitize=address (ASAN) (for build-type relwithdebinfo-asan) ideally are applied to all built code
    # uniformly.  (There are other libs being built, one can see: at least openssl and zlib; they're not really
    # involved in our actual product, at least not in a core way, so for those it arguably matters less either way.)
    # In the case of the binaries it is usually bad; we want the fastest, most normal tools possible, not ones
    # built weirdly with whatever settings we're trying to test with our own software.  For one it makes those
    # tools slower -- perhaps not the hugest deal in practice here -- but it also generally increases entropy; and
    # it has also resulted in various pain:
    #   - Cannot use -fno-sanitize-recover with UBSAN (abort program on warning) if we wanted to: it causes some
    #     hidden configure-script-generated binary abort => capnp binary build fails.
    #   - capnp binary fails MSAN at startup; hence capnp-compilation of our .capnp schemas fails.
    # We have worked around all these, so the thing altogether works.  It's just somewhat odd and entropy-ridden;
    # and might cause maintanability problems over time, as it has already in the past.
    # The TODO is to be more judicious about it
    # and only apply these things to the libs/executables we want it applied.  It is probably not so simple;
    # but worst-case it should be possible to use something like build-type-cflags-override to target our code;
    # and per-recipe (Boost, jemalloc, gtest...) techniques to target others; and not use the aggressive
    # conan-profile-custom-conf and conan-profile-custom-buildenv.  That said, there will be interesting subtleties
    # like: libcapnp/kj are linked into capnp compiler binary; *and* to our code.  So we should instrument it with
    # sanitizer (when applicable); now some of the capnp-compiler-binary is instrumented; some isn't.  Would that
    # work, or would it be better to build capnp twice then (once for the binary, once for the linked libraries)?
    - name: Create Conan profile
      run: |
        # Create Conan profile.
        cat <<'EOF' > conan_profile
        [settings]
        compiler = ${{ matrix.compiler.name }}
        compiler.version = ${{ matrix.compiler.version }}
        compiler.cppstd = 17
        # TODO: Consider testing with LLVM-libc++ also (with clang anyway).
        compiler.libcxx = libstdc++11
        arch = x86_64
        os = Linux
        jemalloc:build_type = ${{ matrix.build-test-cfg.conan-profile-jemalloc-build-type }}
        build_type = ${{ matrix.build-test-cfg.conan-profile-build-type }}
        ${{ matrix.build-test-cfg.conan-profile-custom-settings }}

        [conf]
        tools.env.virtualenv:auto_use = True
        tools.build:compiler_executables = {"c": "${{ matrix.compiler.c-path }}", "cpp": "${{ matrix.compiler.cpp-path }}"}
        ${{ matrix.build-test-cfg.conan-profile-custom-conf }}

        [buildenv]
        CC = ${{ matrix.compiler.c-path }}
        CXX = ${{ matrix.compiler.cpp-path }}
        ${{ matrix.build-test-cfg.conan-profile-custom-buildenv }}

        [options]
        flow:doc = False
        flow:build = True
        ipc:doc = False
        ipc:build = True
        EOF
        # (Oddly enough `no-lto: True` and `...: False` do still evaluate as `true` and `false` respectively.
        # Hence why this compares against `false` and not `False`....)
        if [ '${{ matrix.build-test-cfg.no-lto }}' != '' ] && [ '${{ matrix.build-test-cfg.no-lto }}' != 'false' ]; then
          echo 'ipc:build_no_lto = True' >> conan_profile
        fi
        if [ '${{ matrix.build-test-cfg.build-type-cflags-override }}' != '' ]; then
          echo 'ipc:build_type_cflags_override = ${{ matrix.build-test-cfg.build-type-cflags-override }}' >> conan_profile
        fi

    # We need to prepare a sanitizer ignore-list in MSAN mode.  Background for this is subtle and annoying:
    # As it stands, whatever matrix compiler/build-type is chosen applies not just to our code (correct)
    # and 3rd party libraries we link like lib{boost_*|capnp|kj|jemalloc} (semi-optional but good) but also
    # unfortunately any items built from source during "Install Flow-IPC dependencies" step that we then
    # use during during the build step for our own code subsequently.  At a minimum this will slow down
    # such programs.  (For the time being we accept this as not-so-bad; to target this config at some things
    # but not others is hard/a ticket.)  In particular, though, the capnp compiler binary is built this way;
    # and our "Build targets" step uses it to build key things (namely convert .capnp schemas into .c++
    # and .h sources which are then themselves compiled/used in compilation).  In the case of MSAN, this
    # version of capnp compiler happens to trigger several MSAN failures (presumably they are not a true
    # problem, and it's not our job really to sanitize capnp -- though we can file tickets for them and/or
    # issue PRs; but I digress).  So in MSAN mode our build step fails, when capnp compiler itself aborts
    # with MSAN failures.  One approach is to not apply MSAN to capnp compiler (no-go for now; it's a ticket
    # as mentioned); another is to uses Conan to patch capnp package for them (not a bad idea; ticket filed);
    # and lastly we can put the specific failures on the ignore-list for MSAN.  For now we do that; while
    # unpleasant it does get the job done.  TODO: Revisit/resolve tickets/improve (see above).
    - name: Prepare MSAN sanitizer compile-time config file(s)
      if: |
        (!cancelled()) && (matrix.build-test-cfg.sanitizer-name == 'msan')
      run: |
        # Prepare MSAN sanitizer compile-time config file(s).
        cat <<'EOF' > $${ env.msan-ignore-list-cfg-file }}
        [memory]
        # Warning: In clang-18 there are breaking changes in how globs/regexes are interpreted.  See docs.
        # Currently assuming clang-17 or lower.
        #
        # capnp compiler MSAN failures suppressed:
        src:*/kj/filesystem-disk-unix.*
        src:*/bits/stl_tree.h
        EOF
        # Append to that the suppressed items from the source tree.  These apply to the real code being
        # built below, so just stylistically it is nicer to keep them there along with other
        # sanitizers' suppressions.  (Note, though, that MSAN does not have a run-time suppression
        # system; only these ignore-lists.  The others do also have ignore-lists though.
        # The format is totally different between the 2 types of suppression.)
        # Our MSAN support is budding compared to UBSAN/ASAN/TSAN; so just specify the one ingore-list file
        # we have now.  TODO: If/when MSAN support gets filled out like the others', then use a context system
        # a-la env.setup-tests-env.
        cat ${{ github.workspace }}/flow/src/sanitize/msan/ignore_list_${{ matrix.compiler.name }}.cfg \
          >> $${ env.msan-ignore-list-cfg-file }}
        echo 'The combined MSAN ignore-list config file follows:'
        cat $${ env.msan-ignore-list-cfg-file }}

    - name: Install Flow-IPC dependencies with Conan using the profile
      run: |
        # Install Flow-IPC dependencies with Conan using the profile.
        conan editable add flow flow/1.0
        conan install . \
          --profile:build conan_profile --profile:host conan_profile --build missing

    - name: Build libraries and demos/tests with Conan
      run: conan build .

    - name: Install built targets with Makefile
      run: |
        make install \
          --directory ${{ env.build-dir }} DESTDIR=${{ env.install-root-dir }}
        # Save runner space: blow away build dir after install.
        rm -rf ${{ env.build-dir }}

    # From now on use !cancelled() to try to run any test/demo that exists regardless
    # of preceding failures if any.  Same-ish (always()) with the log-upload at the end.
    # Worst-case they'll all fail in super-basic ways and immediately; no extra harm done.

    # From now on save logs in install-dir/bin/logs.  They will be tarred up and uploaded
    # as artifacts at the end.  For those tests below that produce separate logs as files
    # to begin-with, this is a no-brainer.  For those (as of this writing the main one
    # is unit_test; but also the link tests produce short logs too) who use stdout/stderr
    # the reason to do this is 2-fold.
    #   - UBSAN in particular produces non-fatal error output about problems it detects.
    #     We need to analyze them after the fact and fail a step below in that case to
    #     alert developers who would then fix such new problems.
    #     - One can also build UBSAN-mode things with -fno-sanitize-recover which would
    #       cause abnormal program exit on *first* error.  We do not do this for these
    #       reasons:
    #       - It is more convenient to let it continue and thus show all problems in one
    #         shot.
    #       - There is a side problem: At this time compile settings, including
    #         in UBSAN case `-fsanitize=undefined -fno-sanitize-recover`, are applied not
    #         just to our code or 3rd party libraries but also any other stuff built
    #         (due to setting C[XX]FLAGS in Conan profile).  Targeting just the exact
    #         stuff we want with those is hard and a separate project/ticket.
    #         In the meantime -fno-sanitize-recover causes completely unrealted program
    #         halts during the very-early step, when building dependencies including
    #         capnp; some autotools configure.sh fails crazily, and nothing can work
    #         from that point on due to dependencies-install step failing.  So at this
    #         time -fno-sanitize-recover is a no-go; it affects too much unrelated stuff.
    #   - It is more consistent/convenient to get all the bulky logs in one place as an
    #     artifact, rather than some in the pipeline output, others in the artifacts.
    #     (This preference is subjective, yes.)

    # Here, as in all other tests below, we assemble a suppressions file in case this is a sanitized
    # run; and we follow the procedure explained near setup-tests-env definition.  To reiterate: to avoid
    # tedium, but at the cost of mantainability of this file (meaning if a suppressions context is added then
    # a few lines would need to be added here), we only list those contexts where *any* sanitizer has
    # *any* suppression; otherwise we skip it for brevity.  `find . -name 'suppressions*.cfg` is pretty useful
    # to determine their presence in addition to whether the test itself has its specific suppressions of any kind.
    - name: Run link test [`ipc_core` - Flow-IPC Core]
      if: |
        !cancelled()
      run: |
        # Run link test [`ipc_core` - Flow-IPC Core].
        cd ${{ env.install-dir }}/bin
        OUT_DIR=logs/ipc_core_link_test
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ./ipc_core_link_test.exec $OUT_DIR/log.log > $OUT_DIR/console.log 2>&1

    - name: Run link test [`ipc_transport_structured` - Flow-IPC Structured Transport]
      if: |
        !cancelled()
      run: |
        # Run link test [`ipc_transport_structured` - Flow-IPC Structured Transport].
        cd ${{ env.install-dir }}/bin
        OUT_DIR=logs/ipc_transport_structured_link_test
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ./ipc_transport_structured_link_test.exec $OUT_DIR/log.log > $OUT_DIR/console.log 2>&1

    - name: Run link test [`ipc_session` - Flow-IPC Sessions]
      if: |
        !cancelled()
      run: |
        # Run link test [`ipc_session` - Flow-IPC Sessions].
        cd ${{ env.install-dir }}/bin
        OUT_DIR=logs/ipc_session_link_test
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        SUPP_DIR_B=${{ github.workspace }}/ipc_session/src
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ./ipc_session_link_test_srv.exec $OUT_DIR/srv.log > $OUT_DIR/srv.console.log 2>&1 &
        SRV_PID=$!
        sleep 1
        ./ipc_session_link_test_cli.exec $OUT_DIR/cli.log > $OUT_DIR/cli.console.log 2>&1
        if wait $SRV_PID; then SRV_EC=0; else SRV_EC=$?; fi
        [ $SRV_EC -eq 0 ]

    - name: Run link test [`ipc_shm` - Flow-IPC Shared Memory]
      if: |
        !cancelled()
      run: |
        # Run link test [`ipc_shm` - Flow-IPC Shared Memory].
        cd ${{ env.install-dir }}/bin
        OUT_DIR=logs/ipc_shm_link_test
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        SUPP_DIR_B=${{ github.workspace }}/ipc_session/src
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ./ipc_shm_link_test_srv.exec $OUT_DIR/srv.log > $OUT_DIR/srv.console.log 2>&1 &
        SRV_PID=$!
        sleep 1
        ./ipc_shm_link_test_cli.exec $OUT_DIR/cli.log > $OUT_DIR/cli.console.log 2>&1
        if wait $SRV_PID; then SRV_EC=0; else SRV_EC=$?; fi
        [ $SRV_EC -eq 0 ]

    - name: Run link test [`ipc_shm_arena_lend` - Flow-IPC SHM-jemalloc]
      if: |
        !cancelled()
      run: |
        # Run link test [`ipc_shm_arena_lend` - Flow-IPC SHM-jemalloc].
        cd ${{ env.install-dir }}/bin
        OUT_DIR=logs/ipc_shm_arena_lend_link_test
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        SUPP_DIR_B=${{ github.workspace }}/ipc_session/src
        SUPP_DIR_C=${{ github.workspace }}/ipc_shm_arena_lend/src
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ./ipc_shm_arena_lend_link_test_srv.exec $OUT_DIR/srv.log > $OUT_DIR/srv.console.log 2>&1 &
        SRV_PID=$!
        sleep 1
        ./ipc_shm_arena_lend_link_test_cli.exec $OUT_DIR/cli.log > $OUT_DIR/cli.console.log 2>&1
        if wait $SRV_PID; then SRV_EC=0; else SRV_EC=$?; fi
        [ $SRV_EC -eq 0 ]

    - name: Run unit tests
      if: |
        !cancelled()
      run: |
        # Run unit tests.
        cd ${{ env.install-dir }}/bin
        # Some newline issues with the possible additional args; so need to make a wrapper script
        # and then redirect, as desired, its output.
        cat <<'EOF' > ${{ env.install-dir }}/bin/run_unit_test.sh
        ./libipc_unit_test.exec "$@"
        EOF
        RUN_IT='/usr/bin/bash -e ${{ env.install-dir }}/bin/run_unit_test.sh'
        OUT_DIR=logs/libipc_unit_test
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        SUPP_DIR_B=${{ github.workspace }}/ipc_session/src
        SUPP_DIR_C=${{ github.workspace }}/ipc_shm_arena_lend/src
        # As of this writing there are TSAN suppressions for this test specifically.  TODO: Revisit them; and then this.
        SUPP_DIR_OWN=${{ github.workspace }}/test/suite/unit_test
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_OWN/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_OWN/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        if [ '${{ matrix.build-test-cfg.sanitizer-name }}' != tsan ]; then
          # This is what we want to do normally.
          $RUN_IT > $OUT_DIR/console.log 2>&1
        else # if sanitizer-name is tsan:
          # With TSAN -- which is officially in beta as of even clang-18 (as of this writing we are on 17 at best) --
          # our tests hit some kind of limitation (possibly bug).  What happens is the console prints a-la
          #   ThreadSanitizer: CHECK failed: sanitizer_deadlock_detector.h:67
          #     "((n_all_locks_)) < (((sizeof(all_locks_with_contexts_)/sizeof((all_locks_with_contexts_)[0]))))"
          #     (0x40, 0x40) (tid=4111122)
          # and the program hangs indefinitely.  This seems to be saying the # of locks reached 64, so TSAN gave up.
          # A ticket has been filed to look into this; but in the meantime we work around it.  Namely, we have
          # observed that:
          #   - A particular test, even if run by itself, always triggers it.  So we are forced to skip that one.
          #     - In clang-17 yet another test results in a different problem:
          #         LLVM ERROR: Sections with relocations should have an address of 0
          #         ...
          #       That one is also observed for transport_test exercise mode SHM-jemalloc sub-mode, which as of this
          #       writing is skipped for that compiler+TSAN for that reason.  We do something similar here in skipping
          #       that particular test too in that situation.  TODO: It's a test that starts tons of threads.
          #       Consider other approaches; maybe reduce number of threads or...?  Ticket filed in any case.
          #     As for the other tests -- the vast majority -- outside of those 1-2:
          #   - A particular small subset of tests, if involved, triggers it.  However if run separately from the
          #     the others -- even as a group -- then it is OK.  So we run all but that group; then just that
          #     group.
          LOCK_FATAL_TESTS=Jemalloc_shm_pool_collection_test.Multiprocess
          if [ '${{ matrix.compiler.id }}' = 'clang-17' ]; then
            LOCK_FATAL_TESTS=$LOCK_FATAL_TESTS:Jemalloc_shm_pool_collection_test.Multithread_load
          fi
          LOCK_HEAVY_TESTS='Shm_session_test.External_process_array:\
                            Shm_session_test.External_process_vector_offset_ptr:\
                            Shm_session_test.External_process_string_offset_ptr:\
                            Shm_session_test.External_process_list_offset_ptr:\
                            Shm_session_test.Multisession_external_process:\
                            Shm_session_test.Disconnected_external_process:\
                            Borrower_shm_pool_collection_test.Multiprocess:\
                            Shm_pool_collection_test.Multiprocess'
          # Get rid of newlines/backslashes....
          LOCK_HEAVY_TESTS="$(echo "$LOCK_HEAVY_TESTS" | tr -d '[:space:]\\')"
          if $RUN_IT --gtest_filter=-$LOCK_HEAVY_TESTS:$LOCK_FATAL_TESTS > $OUT_DIR/console.minus-lock-heavy.log 2>&1; \
            then EC_ALL=0; else EC_ALL=$?; fi
          if $RUN_IT --gtest_filter=$LOCK_HEAVY_TESTS > $OUT_DIR/console.lock-heavy.log 2>&1; \
            then EC_LH=0; else EC_LH=$?; fi
          echo "Exit codes: all-minus-lock-heavy = $EC_ALL; lock-heavy = $EC_LH."
          [ $EC_ALL -eq 0 ] && [ $EC_LH -eq 0 ]
        fi

    - name: Prepare run script for [perf_demo] variations below
      if: |
        !cancelled()
      run: |
        # Prepare run script for [perf_demo] variations below.
        cat <<'EOF' > ${{ env.install-dir }}/bin/run_perf_demo.sh
        # Script created by pipeline during job.
        echo "Zero-copy backing type: [$1]."
        cd ${{ env.install-dir }}/bin
        OUT_DIR=logs/perf_demo/$1
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        SUPP_DIR_B=${{ github.workspace }}/ipc_session/src
        SUPP_DIR_C=${{ github.workspace }}/ipc_shm_arena_lend/src
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ./perf_demo_srv_$1.exec 1000 $OUT_DIR/srv.log > $OUT_DIR/srv.console.log 2>&1 &
        SRV_PID=$!
        sleep 20 # It fills up a large structure before listening, so give it some time (mostly for slow build types).
        ./perf_demo_cli_$1.exec $OUT_DIR/cli.log > $OUT_DIR/cli.console.log 2>&1
        if wait $SRV_PID; then SRV_EC=0; else SRV_EC=$?; fi
        [ $SRV_EC -eq 0 ]
        EOF

    - name: Run integration test [perf_demo - SHM-classic mode]
      if: |
        !cancelled()
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_perf_demo.sh shm_classic

    - name: Run integration test [perf_demo - SHM-jemalloc mode]
      if: |
        !cancelled()
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_perf_demo.sh shm_jemalloc

    # For tests below where on failure it can be very helpful to look at higher-verbosity logs,
    # any failing step is repeated with logging hiked up.  Note that formally (and practically)
    # higher-than-INFO verbosity is allowed to affect performance and thus is *not* right for
    # the main integration test run.  However on failure all bets are off, and we just want the
    # info we can get.  (Also higher-verbosity runs can take significantly longer; no one wants that.)
    #
    # As of this writing unit_test already runs with high verbosity, so we do not re-run on failure
    # like these.  The `link_test`s above are very basic tests, essentially there to ensure all built okay
    # and run a sanity-check of a core feature of each of ours libs; so no re-run on failure there either.
    # Lastly perf_demo is about performance and as of this writing happen to lack that knob; so
    # perhaps TODO: Add the verbosity knob and the re-run-on-failure step for that one.  It's about perf though,
    # so does not seem like a high priority.

    # This follows the instructions in bin/transport_test/README.txt.
    - name: Prepare run script for [transport_test - Scripted mode] variations below
      if: |
        !cancelled()
      run: |
        # Prepare run script for [transport_test - Scripted mode] variations below.
        cat <<'EOF' > ${{ env.install-dir }}/bin/run_transport_test_sc.sh
        echo "Log level: [$1]."
        cd ${{ env.install-dir }}/bin/transport_test
        OUT_DIR_NAME=log_level_$1
        OUT_DIR=../logs/transport_test/scripted/$OUT_DIR_NAME
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        # In scripted mode ipc_session, while linked, is not invoked in any way; so skip its suppressions.
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ./transport_test.exec scripted $OUT_DIR/srv.log info $1 \
          < srv-script.txt > $OUT_DIR/srv.console.log 2>&1 &
        SRV_PID=$!
        sleep 1
        ./transport_test.exec scripted $OUT_DIR/cli.log info $1 \
          < cli-script.txt > $OUT_DIR/cli.console.log 2>&1 &
        CLI_PID=$!
        if wait $SRV_PID; then SRV_EC=0; else SRV_EC=$?; fi
        echo "Server finished with code [$SRV_EC]."
        if wait $CLI_PID; then CLI_EC=0; else CLI_EC=$?; fi
        echo "Client finished with code [$CLI_EC]."
        [ $SRV_EC -eq 0 ] && [ $CLI_EC -eq 0 ]
        EOF

    - name: Run integration test [transport_test - Scripted mode]
      id: transport_test_scripted
      if: |
        !cancelled()
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_sc.sh info

    - name: Re-run with increased logging, on failure only
      if: |
        (!cancelled()) && (steps.transport_test_scripted.outcome == 'failure')
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_sc.sh data

    # The following [Exercise mode] tests follow the instructions in bin/transport_test/README.txt.
    # Note that the creation of ~/bin/ex_..._run and placement of executables there, plus
    # /tmp/var/run for run-time files (PID files and similar), is a necessary consequence of
    # the ipc::session safety model for estabshing IPC conversations (sessions).

    - name: Prepare IPC-session safety-friendly run-time environment for [transport_test - Exercise mode]
      if: |
        !cancelled()
      run: |
        # Prepare IPC-session safety-friendly run-time environment for [transport_test - Exercise mode].
        mkdir -p ~/bin/ex_srv_run ~/bin/ex_cli_run
        mkdir -p /tmp/var/run
        cp -v ${{ env.install-dir }}/bin/transport_test/transport_test.exec \
          ~/bin/ex_srv.exec
        cp -v ~/bin/ex_srv.exec ~/bin/ex_cli.exec

    - name: Prepare run script for [transport_test - Exercise mode] variations below
      if: |
        !cancelled()
      run: |
        # Prepare run script for [transport_test - Exercise mode] variations below.
        cat <<'EOF' > ${{ env.install-dir }}/bin/run_transport_test_ex.sh
        # Script created by pipeline during job.
        echo "Log level: [$1]."
        echo "Exercise sub-mode: [$2]."
        echo "Sub-mode snippet (none or '-shm-?'): [$3]."
        OUT_DIR=${{ env.install-dir }}/bin/logs/transport_test/exercise/$2
        mkdir -p $OUT_DIR
        SUPP_DIR_A=${{ github.workspace }}/flow/src
        if [ "$3" == '-shm-j' ]; then
          # SHM-jemalloc mode => jemalloc is in fact exercised => suppress libjemalloc stuff.
          # But, nicely, no transport_test-specific suppressions needed as of this writing.
          SUPP_DIR_B=${{ github.workspace }}/ipc_shm_arena_lend/src
        elif [ "$3" == '-shm-c' ]; then
          SUPP_DIR_B=${{ github.workspace }}/test/suite/transport_test/shm-c
        else # if [ "$3" == '' ]; then
          SUPP_DIR_B=${{ github.workspace }}/test/suite/transport_test/heap
        fi
        SUPP_DIR_C=${{ github.workspace }}/ipc_session/src # Session stuff invoked regardless of sub-mode.
        { cat $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_A/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_B/${{ env.san-suppress-cfg-in-file2 }} \
              $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file1 }} $SUPP_DIR_C/${{ env.san-suppress-cfg-in-file2 }} \
            > ${{ env.san-suppress-cfg-file }} 2> /dev/null; } || true
        ${{ env.setup-tests-env }}
        ~/bin/ex_srv.exec exercise-srv$3 $OUT_DIR/srv.log info $1 \
          > $OUT_DIR/srv.console.log 2>&1 &
        SRV_PID=$!
        sleep 5
        ~/bin/ex_cli.exec exercise-cli$3 $OUT_DIR/cli.log info $1 \
          > $OUT_DIR/cli.console.log 2>&1 &
        CLI_PID=$!
        if wait $SRV_PID; then SRV_EC=0; else SRV_EC=$?; fi
        echo "Server finished with code [$SRV_EC]."
        if wait $CLI_PID; then CLI_EC=0; else CLI_EC=$?; fi
        echo "Client finished with code [$CLI_EC]."
        [ $SRV_EC -eq 0 ] && [ $CLI_EC -eq 0 ]
        EOF

    - name: Run integration test [transport_test - Exercise mode - Heap sub-mode]
      id: transport_test_ex_heap
      if: |
        !cancelled()
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_ex.sh info heap

    - name: Re-run with increased logging, on failure only
      if: |
        (!cancelled()) && (steps.transport_test_ex_heap.outcome == 'failure')
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_ex.sh data heap_log_level_data

    - name: Run integration test [transport_test - Exercise mode - SHM-classic sub-mode]
      id: transport_test_ex_shm_c
      if: |
        !cancelled()
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_ex.sh info shm_classic -shm-c

    - name: Re-run with increased logging, on failure only
      if: |
        (!cancelled()) && (steps.transport_test_ex_shm_c.outcome == 'failure')
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_ex.sh data shm_classic_log_level_data -shm-c

    # Disabling this particular test run for the specific case of clang-17 in TSAN (thread sanitizer) config
    # (in particular at least 2 other clangs+TSAN are exercised, so the TSAN coverage is still good).
    # First the reason in detail: This run semi-reliably (50%+) fails at this point in the server binary:
    #   2023-12-20 11:36:11.322479842 +0000 [info]: Tguy: ex_srv.hpp:send_req_b(1428): App_session [0x7b3800008180]:
    #     Chan B[0]: Filling/send()ing payload (description = [reuse out-message + SHM-handle to modified (unless
    #     SHM-jemalloc) existing STL data]; alt-payload? = [0]; reusing msg? = [1]; reusing SHM payload? = [1]).
    #   LLVM ERROR: Sections with relocations should have an address of 0
    #   PLEASE submit a bug report to https://github.com/llvm/llvm-project/issues/ and include the crash backtrace.
    #   Stack dump:
    #   0.  Program arguments: /usr/bin/llvm-symbolizer-17 --demangle --inlines --default-arch=x86_64
    #   Stack dump without symbol names (ensure you have llvm-symbolizer in your PATH or set the environment var `LLVM_SYMBOLIZER_PATH` to point to it):
    #   ...
    #   ==77990==WARNING: Can't read from symbolizer at fd 599
    #   2023-12-20 11:36:31.592293322 +0000 [info]: Tguy: ex_srv.hpp:send_req_b(1547): App_session [0x7b3800008180]: Chan B[0]: Filling done.  Now to send.
    # Sometimes the exact point is different, depending on timing; but in any case it is always the above
    # TSAN/LLVM error, at which point the thread gets stuck for a long time (10+ seconds); but eventually gets
    # unstuck; however transport_test happens to be testing a feature in a certain way so that a giant blocking
    # operation in this thread delays certain processing, causes an internal timeout, and the test exits/fails.
    # Sure, we could make some changes to the test for that to not happen, but that's beside the point: TSAN
    # at run-time is trying to do something and fails terribly; I have no wish to try to work around that situation;
    # literally it says "PLEASE submit a bug report [to clang devs]."
    #
    # TODO: Revisit; figure out how to not trigger this; re-enable.  For the record, I (ygoldfel) cannot reproduce
    # in a local clang-17, albeit with libc++ (LLVM STL) instead of libstdc++ (GNU STL).  I've also tried to
    # reduce optimization to -O1, as well as with and without LTO, and with and without -fno-omit-frame-pointer;
    # same result.
    - name: Run integration test [transport_test - Exercise mode - SHM-jemalloc sub-mode]
      id: transport_test_ex_shm_j
      if: |
        (!cancelled()) && ((matrix.compiler.id != 'clang-17') || (matrix.build-test-cfg.sanitizer-name != 'tsan'))
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_ex.sh info shm_jemalloc -shm-j

    - name: Re-run with increased logging, on failure only
      if: |
        (!cancelled()) && (steps.transport_test_ex_shm_j.outcome == 'failure')
      run: /usr/bin/bash -e ${{ env.install-dir }}/bin/run_transport_test_ex.sh data shm_jemalloc_log_level_data -shm-j

    # See earlier comment block about why we saved all the logs including for console-output-only tests/demos.
    - name: Check test/demo logs for non-fatal sanitizer error(s)
      if: |
        (!cancelled()) && (matrix.build-test-cfg.sanitizer-name == 'ubsan')
      run: |
        cd ${{ env.install-dir }}/bin/logs
        # grep returns 0 if 1+ found, 1 if none found, 2+ on error.  So check results explicitly instead of -e.
        # Namely, for us, the only OK result is an empty stdout and empty stderr.
        # Otherwise either grep failed (unlikely) or found 1+ problems; either way redirection target will
        # be not-empty, and we will force failure.
        { grep 'SUMMARY: UndefinedBehaviorSanitizer:' `find . -type f` > san_failure_summaries.txt 2>&1; } || true
        if [ -s san_failure_summaries.txt ]; then
          echo 'Error(s) found.  Pipeline will fail.  Failures summarized below.'
          echo 'Please peruse uploaded log artifacts, resolve the issues, and run pipeline again.'
          echo '[[[ file--'
          cat san_failure_summaries.txt
          echo '--file ]]]'
          false
        fi
        echo 'No errors found in logs.'

    - name: Package test/demo logs tarball
      if: |
        always()
      run: |
        # Package test/demo logs tarball.
        cd ${{ env.install-dir }}/bin
        tar cvzf logs.tgz logs
        rm -rf logs # Save runner space.

    - name: Upload test/demo logs (please inspect if failure(s) seen above)
      if: |
        always()
      uses: actions/upload-artifact@v4
      with:
        name: ipc-test-logs-${{ matrix.compiler.id }}-${{ matrix.build-test-cfg.id }}
        path: ${{ env.install-dir }}/bin/logs.tgz

# TODO: Look into the topic of debuggability in case of a crash.  Is a core generated?  Is it saved?
# Do we need to manually save it as an artifact?  For that matter we would then need the binary and
# ideally the source.  For now we save any logs that are not printed to console, and where possible
# our tests/demos keep it the console exclusively (but in some cases, such as transport_test, it
# is not practical due to parallel execution and other aspects).  In general it is always better that
# logs are sufficient; but look into situations where they are not.
#
# Don't forget situation where program exits due to a sanitizer reporting problem (ASAN, etc.); is
# there a core?  Do we need one?  Etc.
#
# Possibly this is all handled beautifully automatically; then this should be deleted.

  doc-and-release:
    needs: [setup, set-vars]
    if: |
      needs.setup.outputs.proceed-else-not == 'true'

    strategy:
      fail-fast: false
      matrix:
        compiler:
          # Pick a reasonably modern but pre-installed compiler for building Doxygen/etc.
          - id: clang-15
            name: clang
            version: 15
            c-path: /usr/bin/clang-15
            cpp-path: /usr/bin/clang++-15
        build-cfg:
          - id: release
            conan-profile-build-type: Release
            conan-preset: release

    runs-on: ubuntu-22.04

    name: doc-${{ matrix.compiler.id }}-${{ matrix.build-cfg.id }}

    steps:
    - name: Update available software list for apt-get
      run: sudo apt-get update

    - name: Install Flow-IPC dependencies (like Graphviz) with apt-get
      run: sudo apt-get install -y graphviz

    - name: Install the latest version of Conan which is less than 2
      run: pip install 'conan<2'

    - name: Checkout `ipc` repository and submodules (like `flow`)
      uses: actions/checkout@v4
      with:
        submodules: true

    # In our process (and this is typical, though it is also possible to create tag without release) we
    # hit Publish on a new Release in GitHub; and this creates both the Release and tag, by convention both named
    # v<something>, at ~the same time (certainly within seconds of each other, empirically speaking).
    # We want a source tarball and/or zip to be attached to the Release.  Delightfully, GitHub does this
    # automatically.  Less delightfully, we have submodules -- where most of the code is in fact -- which GitHub
    # will not include (they'll just be empty dirs instead).  So we create and upload a tarball, etc., manually.
    # (It is not, from what we can tell, possible to then delete the auto-attached "Source code" archives; they
    # are not listable/deletable/uploadable assets in the same way but a built-in GitHub thing.  Hopefully there
    # will be no issue.)
    #
    # Regarding the actual upload request (x2): We do it via curl, following the documented GitHub API.
    # Some resources recommend doing this (x2) instead:
    #   uses: actions/upload-release-asset@v1.0.2
    #   env:
    #     GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
    #   with:
    #     upload_url: ${{ steps.prep_release_pkgs.outputs.upload-url }}
    #     asset_path: ${{ github.workspace }}/../${{ steps.prep_release_pkgs.outputs.tgz-name }}
    #     asset_name: ${{ steps.prep_release_pkgs.outputs.tgz-name }}
    #     asset_content_type: application/gzip
    # For me (ygoldfel), despite a few hours of trying this and that and attempting to get debug output, it kept
    # yielding `Invalid name for request` error with no added info.  Reasons might be: some silly error on my part
    # (but it is very vanilla, and I reduced it down to the bare essentials with no success, while also eliminating
    # possibilities like it being unable to find the local file to upload and other stupidities); a change in API
    # or some other behavior that was not handled by the upload-release-asset action package; possibly a break
    # in a dependency of upload-release-asset (octokat?).  upload-release-asset was last updated in 2020 and is
    # officially now unmaintained.  So I fought valiantly but eventually moved onto just using curl which worked
    # almost immediately.  Since the resulting code isn't even longer, and we are using a documented public API and
    # standard tool (curl) which we also use elsewhere, it seemed a reasonable approach.  TODO: Revisit perhaps.
    - name: (On release creation only) Attach full source package(s) to Release
      if: success() && (!cancelled()) && startsWith(github.ref, 'refs/tags/v')
      run: |
        # Attach full source package(s) to Release.
        REPO=ipc
        VERSION=`echo ${{ github.ref }} | cut -c 12-` # E.g., refs/tags/v1.2.3-rc1 => 1.2.3-rc1.
        ARCHIVE_NAME=$REPO-${VERSION}_full
        TGZ_NAME=$ARCHIVE_NAME.tar.gz
        ZIP_NAME=$ARCHIVE_NAME.zip
        cd ..
        pwd
        mv -v $REPO $ARCHIVE_NAME
        # When making archives exclude .git directories and files.  (.gitignore and .gitmodules, among others,
        # must stay.)  tar --exclude-vcs sounds delightful, but it'll exclude .gitignore and .gitmodules at least;
        # but they are legit code.)
        tar cvzf $TGZ_NAME --exclude=.git $ARCHIVE_NAME
        zip -r $ZIP_NAME $ARCHIVE_NAME --exclude '*/.git/*' '*/.git'
        mv -v $ARCHIVE_NAME $REPO
        # Soon we will need the upload URL, but unfortunately github.event.release.upload_url is only auto-populated
        # on `release` trigger; whereas we want to be triggerable manually on `push` to tag v* (so a superset
        # of `release` trigger).  So we must figure it out via API call.  Also, if workflow is invoked a 2nd (etc.)
        # time after succeeding once, then asset might already be attached to Release; then that upload will fail.
        # There is still utility in invoking us manually to, say, signal the web site to re-update; so we do not
        # want to overall-fail in that case.  So detect that situation with another API call.
        RELEASE_DATA=`curl -H 'Authorization: token ${{ secrets.GITHUB_TOKEN }}' \
                           -H 'Accept: application/vnd.github.v3+json' \
                           https://api.github.com/repos/Flow-IPC/$REPO/releases/tags/v$VERSION`
        echo "For release [v$VERSION]: release-data API request yielded: [$RELEASE_DATA]."
        UPLOAD_URL=`echo $RELEASE_DATA | jq -r .upload_url | sed 's/{.*}$//'`
        echo "For release [v$VERSION]: upload-URL was computed to be: [$UPLOAD_URL]."
        ASSETS_URL=`echo $RELEASE_DATA | jq -r .assets_url`
        echo "For release [v$VERSION]: assets-URL was computed to be: [$ASSETS_URL]."
        ASSET_NAMES=`curl -H 'Authorization: token ${{ secrets.GITHUB_TOKEN }}' \
                          -H 'Accept: application/vnd.github.v3+json' \
                          $ASSETS_URL \
                     | jq -r '.[].name'`
        if echo "$ASSET_NAMES" | fgrep -xq $TGZ_NAME; then
          echo "Asset named [$TGZ_NAME] is already attached to Release; upload would fail; skipping."
        else
          curl --fail-with-body -X POST \
               -H 'Authorization: token ${{ secrets.GITHUB_TOKEN }}' \
               -H 'Content-Type: application/gzip' -H "Content-Length: $(wc -c < $TGZ_NAME)" \
               --data-binary @$TGZ_NAME "$UPLOAD_URL?name=$TGZ_NAME"
          echo
          echo "Uploaded [$TGZ_NAME] to Release."
        fi
        if echo "$ASSET_NAMES" | fgrep -xq $ZIP_NAME; then
          echo "Asset named [$ZIP_NAME] is already attached to Release; upload would fail; skipping."
        else
          curl --fail-with-body -X POST \
               -H 'Authorization: token ${{ secrets.GITHUB_TOKEN }}' \
               -H 'Content-Type: application/zip' -H "Content-Length: $(wc -c < $ZIP_NAME)" \
               --data-binary @$ZIP_NAME "$UPLOAD_URL?name=$ZIP_NAME"
          echo
          echo "Uploaded [$ZIP_NAME] to Release."
        fi

    - name: (On release creation only) Signal Pages about release (web site should update)
      if: success() && (!cancelled()) && startsWith(github.ref, 'refs/tags/v')
      # This is pretty similar (not identical) to the main-branch signaling step below.  TODO: Code reuse?
      run: |
        # Signal Pages about release (web site should update).
        curl --fail-with-body -X POST \
         -H 'Accept: application/vnd.github.v3+json' \
         -H 'Authorization: token ${{ secrets.GIT_BOT_PAT }}' \
         'https://api.github.com/repos/Flow-IPC/flow-ipc.github.io/dispatches' \
         -d '{"event_type": "flow-ipc-sync-doc-event", "client_payload": {"version": "${{ github.ref_name }}"}}'

    - name: Create Conan profile
      run: |
        # Create Conan profile.
        cat <<'EOF' > conan_profile
        [settings]
        compiler = ${{ matrix.compiler.name }}
        compiler.version = ${{ matrix.compiler.version }}
        compiler.cppstd = 17
        compiler.libcxx = libstdc++11
        arch = x86_64
        os = Linux
        build_type = ${{ matrix.build-cfg.conan-profile-build-type }}

        [conf]
        tools.build:compiler_executables = {"c": "${{ matrix.compiler.c-path }}", "cpp": "${{ matrix.compiler.cpp-path }}"}

        [buildenv]
        CC = ${{ matrix.compiler.c-path }}
        CXX = ${{ matrix.compiler.cpp-path }}

        [options]
        ipc:doc = True
        ipc:build = False
        EOF

    - name: Install Flow-IPC dependencies (like Doxygen) with Conan using the profile
      run: conan install . --profile:build conan_profile --profile:host conan_profile --build missing

    - name: Generate code documentation using Conan and Doxygen
      run: conan build .

    - name: Create documentation tarball (full docs, API-only docs, landing page)
      run: |
        # Create documentation tarball (full docs, API-only docs, landing page).
        cd ${{ github.workspace }}/doc/ipc_doc
        ${{ github.workspace }}/tools/doc/stage_generated_docs.sh \
          ${{ github.workspace }}/build/${{ matrix.build-cfg.conan-profile-build-type }}

    - name: Upload documentation tarball
      uses: actions/upload-artifact@v4
      with:
        name: ipc-doc
        path: ${{ github.workspace }}/doc/ipc_doc.tgz

    - name: (`main` branch only) Check-in generated documentation directly into source control
      id: doc_check_in
      if: success() && (!cancelled()) && (github.ref == 'refs/heads/main')
      run: |
        # Check-in generated documentation directly into source control.
        echo 'generated/ docs have been added or replaced locally; mirroring this into checked-in tree.'
        # These values informally recommended in:
        #   https://github.com/actions/checkout#push-a-commit-using-the-built-in-token
        git config user.name github-actions
        git config user.email github-actions@github.com
        # We are forced to use a Personal Access Token attached to a special bot user such that in repo Settings
        # we've configured that "guy" as allowed to bypass the requirement to merge via PR.  As of this writing
        # there's no way to configure the default token to be able to do this.
        # TODO: Keep an eye on that in case they provide for a better way:
        #   https://github.com/orgs/community/discussions/25305
        git config --local http.https://github.com/.extraheader \
          "AUTHORIZATION: basic $(echo -n x-access-token:${{ secrets.GIT_BOT_PAT }} | base64)"
        cd ${{ github.workspace }}/doc/ipc_doc
        git rm -r --cached generated || echo 'No generated/ currently checked in; no problem.'
        git add generated
        git commit -m '${{ needs.set-vars.outputs.doc-commit-message }}'
        git push origin main

    - name: (`main` branch only) Signal Pages that we have updated the generated docs (web site should update)
      if: success() && (!cancelled()) && (steps.doc_check_in.outcome != 'skipped')
      run: |
        # Signal Pages that we have updated the generated docs (web site should update).
        curl --fail-with-body -X POST \
         -H 'Accept: application/vnd.github.v3+json' \
         -H 'Authorization: token ${{ secrets.GIT_BOT_PAT }}' \
         'https://api.github.com/repos/Flow-IPC/flow-ipc.github.io/dispatches' \
         -d '{"event_type": "flow-ipc-sync-doc-event"}'