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// file      : mod/mod-ci-github.cxx -*- C++ -*-
// license   : MIT; see accompanying LICENSE file

#include <mod/mod-ci-github.hxx>

#include <libbutl/json/parser.hxx>

#include <web/xhtml/serialization.hxx>
#include <web/server/mime-url-encoding.hxx> // mime_url_encode()

#include <mod/jwt.hxx>
#include <mod/hmac.hxx>
#include <mod/build.hxx> // build_log_url()
#include <mod/module-options.hxx>

#include <mod/mod-ci-github-gq.hxx>
#include <mod/mod-ci-github-post.hxx>
#include <mod/mod-ci-github-service-data.hxx>

#include <stdexcept>

// @@ Remaining TODOs
//
//    - Rerequested checks
//
//      - check_suite (action: rerequested): received when user re-runs all
//        checks.
//
//      - check_run (action: rerequested): received when user re-runs a
//        specific check or all failed checks.
//
//        @@ TMP I have confirmed that the above is accurate.
//
//      Will need to extract a few more fields from check_runs, but the layout
//      is very similar to that of check_suite.
//
//    - Choose strong webhook secret (when deploying).
//
//    - Check that delivery UUID has not been received before (replay attack).
//

// Resources:
//
//    Creating an App:
//    https://docs.github.com/en/apps/creating-github-apps/about-creating-github-apps/best-practices-for-creating-a-github-app
//
//    Webhooks:
//    https://docs.github.com/en/webhooks/using-webhooks/best-practices-for-using-webhooks
//    https://docs.github.com/en/webhooks/using-webhooks/validating-webhook-deliveries
//
//    REST API:
//    All docs:       https://docs.github.com/en/rest#all-docs
//    Best practices: https://docs.github.com/en/rest/using-the-rest-api/best-practices-for-using-the-rest-api
//
//    GraphQL API:
//    Reference: https://docs.github.com/en/graphql/reference
//

using namespace std;
using namespace butl;
using namespace web;
using namespace brep::cli;

namespace brep
{
  ci_github::
  ci_github (tenant_service_map& tsm)
      : tenant_service_map_ (tsm)
  {
  }

  ci_github::
  ci_github (const ci_github& r, tenant_service_map& tsm)
      : database_module (r),
        ci_start (r),
        options_ (r.initialized_ ? r.options_ : nullptr),
        tenant_service_map_ (tsm)
  {
  }

  void ci_github::
  init (scanner& s)
  {
    {
      shared_ptr<tenant_service_base> ts (
        dynamic_pointer_cast<tenant_service_base> (shared_from_this ()));

      assert (ts != nullptr); // By definition.

      tenant_service_map_["ci-github"] = move (ts);
    }

    options_ = make_shared<options::ci_github> (
      s, unknown_mode::fail, unknown_mode::fail);

    // Prepare for the CI requests handling, if configured.
    //
    if (options_->build_config_specified () &&
        options_->ci_github_app_webhook_secret_specified ())
    {
      ci_start::init (make_shared<options::ci_start> (*options_));

      database_module::init (*options_, options_->build_db_retry ());
    }
  }

  bool ci_github::
  handle (request& rq, response&)
  {
    using namespace bpkg;

    HANDLER_DIAG;

    if (build_db_ == nullptr)
      throw invalid_request (501, "GitHub CI submission not implemented");

    // Process headers.
    //
    string event; // Webhook event.
    string hmac;  // Received HMAC.
    try
    {
      bool content_type (false);

      for (const name_value& h: rq.headers ())
      {
        // HMAC authenticating this request. Note that it won't be present
        // unless a webhook secret has been set in the GitHub app's settings.
        //
        if (icasecmp (h.name, "x-hub-signature-256") == 0)
        {
          if (!h.value)
            throw invalid_request (400, "missing x-hub-signature-256 value");

          // Parse the x-hub-signature-256 header value. For example:
          //
          // sha256=5e82258...
          //
          // Check for the presence of the "sha256=" prefix and then strip it
          // to leave only the HMAC value.
          //
          if (h.value->find ("sha256=", 0, 7) == string::npos)
            throw invalid_request (400, "invalid x-hub-signature-256 value");

          hmac = h.value->substr (7);
        }
        // This event's UUID.
        //
        else if (icasecmp (h.name, "x-github-delivery") == 0)
        {
          // @@ TODO Check that delivery UUID has not been received before
          //         (replay attack).
        }
        else if (icasecmp (h.name, "content-type") == 0)
        {
          if (!h.value)
            throw invalid_request (400, "missing content-type value");

          if (icasecmp (*h.value, "application/json") != 0)
          {
            throw invalid_request (400,
                                   "invalid content-type value: '" + *h.value +
                                   '\'');
          }

          content_type = true;
        }
        // The webhook event.
        //
        else if (icasecmp (h.name, "x-github-event") == 0)
        {
          if (!h.value)
            throw invalid_request (400, "missing x-github-event value");

          event = *h.value;
        }
      }

      if (!content_type)
        throw invalid_request (400, "missing content-type header");

      if (event.empty ())
        throw invalid_request (400, "missing x-github-event header");

      if (hmac.empty ())
        throw invalid_request (400, "missing x-hub-signature-256 header");
    }
    catch (const invalid_request& e)
    {
      error << "request header error: " << e.content;
      throw;
    }

    // Read the entire request body into a buffer because we need to compute
    // an HMAC over it and then parse it as JSON. The alternative of reading
    // from the stream twice works out to be more complicated (see also a TODO
    // item in web/server/module.hxx).
    //
    string body;
    {
      // Note that even though we may not need caching right now, we may later
      // (e.g., to support cancel) so let's just enable it right away.
      //
      size_t limit (128 * 1024);

      istream& is (rq.content (limit, limit));

      try
      {
        getline (is, body, '\0');
      }
      catch (const io_error& e)
      {
        fail << "unable to read request body: " << e;
      }
    }

    // Verify the received HMAC.
    //
    // Compute the HMAC value over the request body using the configured
    // webhook secret as key and compare it to the received HMAC.
    //
    try
    {
      string h (
        compute_hmac (*options_,
                      body.data (), body.size (),
                      options_->ci_github_app_webhook_secret ().c_str ()));

      if (!icasecmp (h, hmac))
      {
        string m ("computed HMAC does not match received HMAC");

        error << m;

        throw invalid_request (400, move (m));
      }
    }
    catch (const system_error& e)
    {
      fail << "unable to compute request HMAC: " << e;
    }

    // Process the `warning` webhook request query parameter.
    //
    bool warning_success;
    {
      const name_values& rps (rq.parameters (1024, true /* url_only */));

      auto i (find_if (rps.begin (), rps.end (),
                       [] (auto&& rp) {return rp.name == "warning";}));

      if (i == rps.end ())
        throw invalid_request (400,
                               "missing 'warning' webhook query parameter");

      if (!i->value)
        throw invalid_request (
          400, "missing 'warning' webhook query parameter value");

      const string& v (*i->value);

      if      (v == "success") warning_success = true;
      else if (v == "failure") warning_success = false;
      else
      {
        throw invalid_request (
            400,
            "invalid 'warning' webhook query parameter value: '" + v + '\'');
      }
    }

    // There is a webhook event (specified in the x-github-event header) and
    // each event contains a bunch of actions (specified in the JSON request
    // body).
    //
    // Note: "GitHub continues to add new event types and new actions to
    // existing event types." As a result we ignore known actions that we are
    // not interested in and log and ignore unknown actions. The thinking here
    // is that we want be "notified" of new actions at which point we can
    // decide whether to ignore them or to handle.
    //
    // @@ There is also check_run even (re-requested by user, either
    //    individual check run or all the failed check runs).
    //
    if (event == "check_suite")
    {
      gh_check_suite_event cs;
      try
      {
        json::parser p (body.data (), body.size (), "check_suite event");

        cs = gh_check_suite_event (p);
      }
      catch (const json::invalid_json_input& e)
      {
        string m ("malformed JSON in " + e.name + " request body");

        error << m << ", line: " << e.line << ", column: " << e.column
              << ", byte offset: " << e.position << ", error: " << e;

        throw invalid_request (400, move (m));
      }

      if (cs.action == "requested")
      {
        return handle_check_suite_request (move (cs), warning_success);
      }
      else if (cs.action == "rerequested")
      {
        // Someone manually requested to re-run all the check runs in this
        // check suite. Treat as a new request.
        //
        return handle_check_suite_request (move (cs), warning_success);
      }
      else if (cs.action == "completed")
      {
        // GitHub thinks that "all the check runs in this check suite have
        // completed and a conclusion is available". Looks like this one we
        // ignore?
        //
        // What if our bookkeeping says otherwise? But then we can't even
        // access the service data easily here. @@ TODO: maybe/later.
        //
        return true;
      }
      else
      {
        // Ignore unknown actions by sending a 200 response with empty body
        // but also log as an error since we want to notice new actions.
        //
        error << "unknown action '" << cs.action << "' in check_suite event";

        return true;
      }
    }
    else if (event == "check_run")
    {
      gh_check_run_event cr;
      try
      {
        json::parser p (body.data (), body.size (), "check_run event");

        cr = gh_check_run_event (p);
      }
      catch (const json::invalid_json_input& e)
      {
        string m ("malformed JSON in " + e.name + " request body");

        error << m << ", line: " << e.line << ", column: " << e.column
              << ", byte offset: " << e.position << ", error: " << e;

        throw invalid_request (400, move (m));
      }

      if (cr.action == "rerequested")
      {
        // Someone manually requested to re-run a specific check run.
        //
        return handle_check_run_rerequest (move (cr), warning_success);
      }
#if 0
      // It looks like we shouldn't be receiving these since we are not
      // subscribed to them.
      //
      else if (cr.action == "created"   ||
               cr.action == "completed" ||
               cr.action == "requested_action")
      {
      }
#endif
      else
      {
        // Ignore unknown actions by sending a 200 response with empty body
        // but also log as an error since we want to notice new actions.
        //
        error << "unknown action '" << cr.action << "' in check_run event";

        return true;
      }
    }
    else if (event == "pull_request")
    {
      gh_pull_request_event pr;
      try
      {
        json::parser p (body.data (), body.size (), "pull_request event");

        pr = gh_pull_request_event (p);
      }
      catch (const json::invalid_json_input& e)
      {
        string m ("malformed JSON in " + e.name + " request body");

        error << m << ", line: " << e.line << ", column: " << e.column
              << ", byte offset: " << e.position << ", error: " << e;

        throw invalid_request (400, move (m));
      }

      if (pr.action == "opened" ||
          pr.action == "synchronize")
      {
        // opened
        //   A pull request was opened.
        //
        // synchronize
        //   A pull request's head branch was updated from the base branch or
        //   new commits were pushed to the head branch. (Note that there is
        //   no equivalent event for the base branch.)
        //
        // Note that both cases are handled similarly: we start a new CI
        // request which will be reported on the new commit id.
        //
        return handle_pull_request (move (pr), warning_success);
      }
      else if (pr.action == "edited")
      {
        // PR base branch changed (to a different branch) besides other
        // irrelevant changes (title, body, etc).
        //
        // This is in a sense a special case of the base branch moving. In
        // that case we don't do anything (due to the head sharing problem)
        // relying instead on the branch protection rule. So it makes sense
        // to do the same here.
        //
        return true;
      }
      else if (pr.action == "closed")
      {
        // PR has been closed (as merged or not; see merged member). Also
        // apparently received if base branch is deleted (and the same
        // for head branch). See also the reopened event below.
        //
        // While it may seem natural to cancel the CI for the closed PR, it
        // might actually be useful to have a completed CI record. GitHub
        // doesn't prevent us from publishing CI results for the closed PR
        // (even if both base and head branches were deleted). And if such a
        // PR is reopened, the CI results remain.
        //
        return true;
      }
      else if (pr.action == "reopened")
      {
        // Previously closed PR has been reopened.
        //
        // Since we don't cancel the CI for a closed PR, there is nothing
        // to do if it is reopened.
        //
        return true;
      }
      else if (pr.action == "assigned"               ||
               pr.action == "auto_merge_disabled"    ||
               pr.action == "auto_merge_enabled"     ||
               pr.action == "converted_to_draft"     ||
               pr.action == "demilestoned"           ||
               pr.action == "dequeued"               ||
               pr.action == "enqueued"               ||
               pr.action == "labeled"                ||
               pr.action == "locked"                 ||
               pr.action == "milestoned"             ||
               pr.action == "ready_for_review"       ||
               pr.action == "review_request_removed" ||
               pr.action == "review_requested"       ||
               pr.action == "unassigned"             ||
               pr.action == "unlabeled"              ||
               pr.action == "unlocked")
      {
        // These have no relation to CI.
        //
        return true;
      }
      else
      {
        // Ignore unknown actions by sending a 200 response with empty body
        // but also log as an error since we want to notice new actions.
        //
        error << "unknown action '" << pr.action << "' in pull_request event";

        return true;
      }
    }
    else
    {
      // Log to investigate.
      //
      error << "unexpected event '" << event << "'";

      throw invalid_request (400, "unexpected event: '" + event + "'");
    }
  }

  // Let's capitalize the synthetic conclusion check run name to make it
  // easier to distinguish from the regular ones.
  //
  static string conclusion_check_run_name ("CONCLUSION");

  // Return the colored circle corresponding to a result_status.
  //
  static string
  circle (result_status rs)
  {
    switch (rs)
    {
    case result_status::success:  return "\U0001F7E2"; // Green circle.
    case result_status::warning:  return "\U0001F7E0"; // Orange circle.
    case result_status::error:
    case result_status::abort:
    case result_status::abnormal: return "\U0001F534"; // Red circle.

      // Valid values we should never encounter.
      //
    case result_status::skip:
    case result_status::interrupt:
      throw invalid_argument ("unexpected result_status value: " +
                              to_string (rs));
    }

    return ""; // Should never reach.
  }

  // Make a check run summary from a CI start_result.
  //
  static string
  to_check_run_summary (const optional<ci_start::start_result>& r)
  {
    string s;

    s = "```\n";
    if (r) s += r->message;
    else s += "Internal service error";
    s += "\n```";

    return s;
  }

  bool ci_github::
  handle_check_suite_request (gh_check_suite_event cs, bool warning_success)
  {
    HANDLER_DIAG;

    l3 ([&]{trace << "check_suite event { " << cs << " }";});

    // While we don't need the installation access token in this request,
    // let's obtain it to flush out any permission issues early. Also, it is
    // valid for an hour so we will most likely make use of it.
    //
    optional<string> jwt (generate_jwt (trace, error));
    if (!jwt)
      throw server_error ();

    optional<gh_installation_access_token> iat (
        obtain_installation_access_token (cs.installation.id,
                                          move (*jwt),
                                          error));
    if (!iat)
      throw server_error ();

    l3 ([&]{trace << "installation_access_token { " << *iat << " }";});

    // @@ What happens if we call this functions with an already existing
    //    node_id (e.g., replay attack). See the UUID header above.
    //

    // While it would have been nice to cancel CIs of PRs with this branch as
    // base not to waste resources, there are complications: Firstly, we can
    // only do this for remote PRs (since local PRs will most likely share the
    // result with branch push). Secondly, we try to do our best even if the
    // branch protection rule for head behind is not enabled. In this case, it
    // would be good to complete the CI. So maybe/later. See also the head
    // case in handle_pull_request(), where we do cancel remote PRs that are
    // not shared.

    // Service id that uniquely identifies the CI tenant.
    //
    string sid (cs.repository.node_id + ':' + cs.check_suite.head_sha);

    // If the user requests a rebuild of the (entire) PR, then this manifests
    // as the check_suite rather than pull_request event. Specifically:
    //
    // - For a local PR, this event is shared with the branch push and all we
    //   need to do is restart the CI for the head commit.
    //
    // - For a remote PR, this event will have no gh_check_suite::head_branch.
    //   In this case we need to load the existing service data for this head
    //   commit, extract the test merge commit, and restart the CI for that.
    //
    //   Note that it's possible the base branch has moved in the meantime and
    //   ideally we would want to re-request the test merge commit, etc.
    //   However, this will only be necessary if the user does not follow our
    //   recommendation of enabling the head-behind-base protection. And it
    //   seems all this extra complexity would not be warranted.
    //
    string check_sha;
    service_data::kind_type kind;

    bool re_requested (cs.action == "rerequested");
    if (re_requested && !cs.check_suite.head_branch)
    {
      kind = service_data::remote;

      if (optional<pair<tenant_service, bool>> p =
            find (*build_db_, "ci-github", sid))
      {
        tenant_service& ts (p->first);

        try
        {
          service_data sd (*ts.data);
          check_sha = move (sd.check_sha); // Test merge commit.
        }
        catch (const invalid_argument& e)
        {
          fail << "failed to parse service data: " << e;
        }
      }
      else
      {
        error << "check suite " << cs.check_suite.node_id
              << " for remote pull request:"
              << " re-requested but tenant_service with id " << sid
              << " did not exist";
        return true;
      }
    }
    else
    {
      // Branch push or local PR rebuild.
      //
      kind = service_data::local;
      check_sha = cs.check_suite.head_sha;
    }

    service_data sd (warning_success,
                     iat->token,
                     iat->expires_at,
                     cs.installation.id,
                     move (cs.repository.node_id),
                     move (cs.repository.clone_url),
                     kind, false /* pre_check */, re_requested,
                     move (check_sha),
                     move (cs.check_suite.head_sha) /* report_sha */);

    // If this check suite is being re-run, replace the existing CI tenant if
    // it exists; otherwise create a new one, doing nothing if a tenant
    // already exists (which could've been created by handle_pull_request()).
    //
    // Note that GitHub UI does not allow re-running the entire check suite
    // until all the check runs are completed.
    //
    duplicate_tenant_mode dtm (re_requested
                               ? duplicate_tenant_mode::replace
                               : duplicate_tenant_mode::ignore);

    // Create an unloaded CI tenant.
    //
    // Note: use no delay since we need to (re)create the synthetic conclusion
    // check run as soon as possible.
    //
    // Note that we use the create() API instead of start() since duplicate
    // management is not available in start().
    //
    // After this call we will start getting the build_unloaded()
    // notifications until (1) we load the tenant, (2) we cancel it, or (3)
    // it gets archived after some timeout.
    //
    auto pr (create (error,
                     warn,
                     verb_ ? &trace : nullptr,
                     *build_db_, retry_,
                     tenant_service (sid, "ci-github", sd.json ()),
                     chrono::seconds (30) /* interval */,
                     chrono::seconds (0) /* delay */,
                     dtm));

    if (!pr)
    {
      fail << "check suite " << cs.check_suite.node_id
           << ": unable to create unloaded CI tenant";
    }

    if (dtm == duplicate_tenant_mode::replace &&
        pr->second == duplicate_tenant_result::created)
    {
      error << "check suite " << cs.check_suite.node_id
            << ": re-requested but tenant_service with id " << sid
            << " did not exist";
      return true;
    }

    return true;
  }

  // Create a gq_built_result.
  //
  static gq_built_result
  make_built_result (result_status rs, bool warning_success, string message)
  {
    return {gh_to_conclusion (rs, warning_success),
            circle (rs) + ' ' + ucase (to_string (rs)),
            move (message)};
  }

  // Parse a check run details URL into a build_id.
  //
  // Return nullopt if the URL is invalid.
  //
  static optional<build_id>
  parse_details_url (const string& details_url);

  // Note that GitHub always posts a message to their GUI saying "You have
  // successfully requested <check_run_name> be rerun", regardless of what
  // HTTP status code we respond with. However we do return error status codes
  // when there is no better option (like failing the conclusion) in case they
  // start handling them someday.
  //
  bool ci_github::
  handle_check_run_rerequest (const gh_check_run_event& cr,
                              bool warning_success)
  {
    HANDLER_DIAG;

    l3 ([&]{trace << "check_run event { " << cr << " }";});

    // The overall plan is as follows:
    //
    // 1. Load service data.
    //
    // 2. If the tenant is archived, then fail (re-create) both the check run
    //    and the conclusion with appropriate diagnostics.
    //
    // 3. If the check run is in the queued state, then do nothing.
    //
    // 4. Re-create the check run in the queued state and the conclusion in
    //    the building state. Note: do in a single request to make sure we
    //    either "win" or "loose" the potential race for both (important
    //    for #7).
    //
    // 5. Call the rebuild() function to attempt to schedule a rebuild. Pass
    //    the update function that does the following (if called):
    //
    //    a. Save new node ids.
    //
    //    b. Update the check run state (may also not exist).
    //
    //    c. Clear the completed flag if true.
    //
    // 6. If the result of rebuild() indicates the tenant is archived, then
    //    fail (update) both the check run and conclusion with appropriate
    //    diagnostics.
    //
    // 7. If original state is queued (no rebuild was scheduled), then fail
    //    (update) both the check run and the conclusion.
    //
    // Note that while conceptually we are updating existing check runs, in
    // practice we have to re-create as new check runs in order to replace the
    // existing ones because GitHub does not allow transitioning out of the
    // built state.

    // Get a new installation access token.
    //
    auto get_iat = [this, &trace, &error, &cr] ()
      -> optional<gh_installation_access_token>
    {
      optional<string> jwt (generate_jwt (trace, error));
      if (!jwt)
        return nullopt;

      optional<gh_installation_access_token> iat (
        obtain_installation_access_token (cr.installation.id,
                                          move (*jwt),
                                          error));

      if (iat)
        l3 ([&]{trace << "installation_access_token { " << *iat << " }";});

      return iat;
    };

    const string& repo_node_id (cr.repository.node_id);
    const string& head_sha (cr.check_run.check_suite.head_sha);

    // Prepare the build and conclusion check runs. They are sent to GitHub in
    // a single request (unless something goes wrong) so store them together
    // from the outset.
    //
    vector<check_run> check_runs (2);
    check_run& bcr (check_runs[0]); // Build check run
    check_run& ccr (check_runs[1]); // Conclusion check run

    ccr.name = conclusion_check_run_name;

    // Load the service data, failing the check runs if the tenant has been
    // archived.
    //
    service_data sd;
    {
      // Service id that uniquely identifies the CI tenant.
      //
      string sid (repo_node_id + ':' + head_sha);

      if (optional<pair<tenant_service, bool>> p =
            find (*build_db_, "ci-github", sid))
      {
        if (p->second) // Tenant is archived
        {
          // Fail (re-create) the check runs.
          //
          optional<gh_installation_access_token> iat (get_iat ());
          if (!iat)
            throw server_error ();

          gq_built_result br (
            make_built_result (
              result_status::error, warning_success,
              "Unable to rebuild individual configuration: build has "
              "been archived"));

          // Try to update the conclusion check run even if the first update
          // fails.
          //
          bool f (false); // Failed.

          if (gq_create_check_run (error, bcr, iat->token,
                                   repo_node_id, head_sha,
                                   cr.check_run.details_url,
                                   build_state::built, br))
          {
            l3 ([&]{trace << "created check_run { " << bcr << " }";});
          }
          else
          {
            error << "check_run " << cr.check_run.node_id
                  << ": unable to re-create check run";
            f = true;
          }

          if (gq_create_check_run (error, ccr, iat->token,
                                   repo_node_id, head_sha,
                                   nullopt /* details_url */,
                                   build_state::built, move (br)))
          {
            l3 ([&]{trace << "created conclusion check_run { " << ccr << " }";});
          }
          else
          {
            error << "check_run " << cr.check_run.node_id
                  << ": unable to re-create conclusion check run";
            f = true;
          }

          // Fail the handler if either of the check runs could not be
          // updated.
          //
          if (f)
            throw server_error ();

          return true;
        }

        tenant_service& ts (p->first);

        try
        {
          sd = service_data (*ts.data);
        }
        catch (const invalid_argument& e)
        {
          fail << "failed to parse service data: " << e;
        }
      }
      else
      {
        // No such tenant.
        //
        fail << "check run " << cr.check_run.node_id
             << " re-requested but tenant_service with id " << sid
             << " does not exist";
      }
    }

    // Get a new IAT if the one from the service data has expired.
    //
    const gh_installation_access_token* iat (nullptr);
    optional<gh_installation_access_token> new_iat;

    if (system_clock::now () > sd.installation_access.expires_at)
    {
      if ((new_iat = get_iat ()))
        iat = &*new_iat;
      else
        throw server_error ();
    }
    else
      iat = &sd.installation_access;

    // Fail if it's the conclusion check run that is being re-requested.
    //
    if (cr.check_run.name == conclusion_check_run_name)
    {
      l3 ([&]{trace << "re-requested conclusion check_run";});

      if (!sd.conclusion_node_id)
        fail << "no conclusion node id for check run " << cr.check_run.node_id;

      gq_built_result br (
        make_built_result (result_status::error, warning_success,
                           "Conclusion check run cannot be rebuilt"));

      // Fail (update) the conclusion check run.
      //
      if (gq_update_check_run (error, ccr, iat->token,
                               repo_node_id, *sd.conclusion_node_id,
                               nullopt /* details_url */,
                               build_state::built, move (br)))
      {
        l3 ([&]{trace << "updated conclusion check_run { " << ccr << " }";});
      }
      else
      {
        fail << "check run " << cr.check_run.node_id
             << ": unable to update conclusion check run "
             << *sd.conclusion_node_id;
      }

      return true;
    }

    // Parse the check_run's details_url to extract build id.
    //
    // While this is a bit hackish, there doesn't seem to be a better way
    // (like associating custom data with a check run). Note that the GitHub
    // UI only allows rebuilding completed check runs, so the details URL
    // should be there.
    //
    optional<build_id> bid (parse_details_url (cr.check_run.details_url));
    if (!bid)
    {
      fail << "check run " << cr.check_run.node_id
           << ": failed to extract build id from details_url";
    }

    // Initialize the check run (`bcr`) with state from the service data.
    //
    {
      // Search for the check run in the service data.
      //
      // Note that we look by name in case node id got replaced by a racing
      // re-request (in which case we ignore this request).
      //
      auto i (find_if (sd.check_runs.begin (), sd.check_runs.end (),
                       [&cr] (const check_run& scr)
                       {
                         return scr.name == cr.check_run.name;
                       }));

      if (i == sd.check_runs.end ())
        fail << "check_run " << cr.check_run.node_id
             << " (" << cr.check_run.name << "): "
             << "re-requested but does not exist in service data";

      // Do nothing if node ids don't match.
      //
      if (i->node_id && *i->node_id != cr.check_run.node_id)
      {
        l3 ([&]{trace << "check_run " << cr.check_run.node_id
                      << " (" << cr.check_run.name << "): "
                      << "node id has changed in service data";});
        return true;
      }

      // Do nothing if the build is already queued.
      //
      if (i->state == build_state::queued)
      {
        l3 ([&]{trace << "ignoring already-queued check run";});
        return true;
      }

      bcr.name = i->name;
      bcr.build_id = i->build_id;
      bcr.state = i->state;
    }

    // Transition the build and conclusion check runs out of the built state
    // (or any other state) by re-creating them.
    //
    bcr.state = build_state::queued;
    bcr.state_synced = false;
    bcr.details_url = cr.check_run.details_url;

    ccr.state = build_state::building;
    ccr.state_synced = false;

    if (gq_create_check_runs (error, check_runs, iat->token,
                              repo_node_id, head_sha))
    {
      assert (bcr.state == build_state::queued);
      assert (ccr.state == build_state::building);

      l3 ([&]{trace << "created check_run { " << bcr << " }";});
      l3 ([&]{trace << "created conclusion check_run { " << ccr << " }";});
    }
    else
    {
      fail << "check run " << cr.check_run.node_id
           << ": unable to re-create build and conclusion check runs";
    }

    // Request the rebuild and update service data.
    //
    bool race (false);

    // Callback function called by rebuild() to update the service data (but
    // only if the build is actually restarted).
    //
    auto update_sd = [&error, &new_iat, &race,
                      &cr, &bcr, &ccr] (const tenant_service& ts,
                                        build_state) -> optional<string>
    {
      // NOTE: this lambda may be called repeatedly (e.g., due to transaction
      // being aborted) and so should not move out of its captures.

      race = false; // Reset.

      service_data sd;
      try
      {
        sd = service_data (*ts.data);
      }
      catch (const invalid_argument& e)
      {
        error << "failed to parse service data: " << e;
        return nullopt;
      }

      // Note that we again look by name in case node id got replaced by a
      // racing re-request. In this case, however, it's impossible to decide
      // who won that race, so let's fail the check suite to be on the safe
      // side (in a sense, similar to the rebuild() returning queued below).
      //
      auto i (find_if (
                sd.check_runs.begin (), sd.check_runs.end (),
                [&cr] (const check_run& scr)
                {
                  return scr.name == cr.check_run.name;
                }));

      if (i == sd.check_runs.end ())
      {
        error << "check_run " << cr.check_run.node_id
              << " (" << cr.check_run.name << "): "
              << "re-requested but does not exist in service data";
        return nullopt;
      }

      if (i->node_id && *i->node_id != cr.check_run.node_id)
      {
        // Keep the old conclusion node id to make sure any further state
        // transitions are ignored. A bit of a hack.
        //
        race = true;
        return nullopt;
      }

      *i = bcr; // Update with new node_id, state, state_synced.

      sd.conclusion_node_id = ccr.node_id;
      sd.completed = false;

      // Save the IAT if we created a new one.
      //
      if (new_iat)
        sd.installation_access = *new_iat;

      return sd.json ();
    };

    optional<build_state> bs (rebuild (*build_db_, retry_, *bid, update_sd));

    // If the build has been archived or re-enqueued since we loaded the
    // service data, fail (by updating) both the build check run and the
    // conclusion check run. Otherwise the build has been successfully
    // re-enqueued so do nothing further.
    //
    if (!race && bs && *bs != build_state::queued)
      return true;

    gq_built_result br; // Built result for both check runs.

    if (race || bs) // Race or re-enqueued.
    {
      // The re-enqueued case: this build has been re-enqueued since we first
      // loaded the service data. This could happen if the user clicked
      // "re-run" multiple times and another handler won the rebuild() race.
      //
      // However the winner of the check runs race cannot be determined.
      //
      // Best case the other handler won the check runs race as well and
      // thus everything will proceed normally. Our check runs will be
      // invisible and disregarded.
      //
      // Worst case we won the check runs race and the other handler's check
      // runs -- the ones that will be updated by the build_*() notifications
      // -- are no longer visible, leaving things quite broken.
      //
      // Either way, we fail our check runs. In the best case scenario it
      // will have no effect; in the worst case scenario it lets the user
      // know something has gone wrong.
      //
      br = make_built_result (result_status::error, warning_success,
                              "Unable to rebuild, try again");
    }
    else // Archived.
    {
      // The build has expired since we loaded the service data. Most likely
      // the tenant has been archived.
      //
      br = make_built_result (
        result_status::error, warning_success,
        "Unable to rebuild individual configuration: build has been archived");
    }

    // Try to update the conclusion check run even if the first update fails.
    //
    bool f (false); // Failed.

    // Fail the build check run.
    //
    if (gq_update_check_run (error, bcr, iat->token,
                             repo_node_id, *bcr.node_id,
                             nullopt /* details_url */,
                             build_state::built, br))
    {
      l3 ([&]{trace << "updated check_run { " << bcr << " }";});
    }
    else
    {
      error << "check run " << cr.check_run.node_id
            << ": unable to update (replacement) check run "
            << *bcr.node_id;
      f = true;
    }

    // Fail the conclusion check run.
    //
    if (gq_update_check_run (error, ccr, iat->token,
                             repo_node_id, *ccr.node_id,
                             nullopt /* details_url */,
                             build_state::built, move (br)))
    {
      l3 ([&]{trace << "updated conclusion check_run { " << ccr << " }";});
    }
    else
    {
      error << "check run " << cr.check_run.node_id
            << ": unable to update conclusion check run " << *ccr.node_id;
      f = true;
    }

    // Fail the handler if either of the check runs could not be updated.
    //
    if (f)
      throw server_error ();

    return true;
  }

  // Miscellaneous pull request facts
  //
  // - Although some of the GitHub documentation makes it sound like they
  //   expect check runs to be added to both the PR head commit and the merge
  //   commit, the PR UI does not react to the merge commit's check runs
  //   consistently. It actually seems to be quite broken. The only thing it
  //   does seem to do reliably is blocking the PR merge if the merge commit's
  //   check runs are not successful (i.e, overriding the PR head commit's
  //   check runs). But the UI looks quite messed up generally in this state.
  //
  // - When new commits are added to a PR base branch, pull_request.base.sha
  //   does not change, but the test merge commit will be updated to include
  //   the new commits to the base branch.
  //
  // - When new commits are added to a PR head branch, pull_request.head.sha
  //   gets updated with the head commit's SHA and check_suite.pull_requests[]
  //   will contain all PRs with this branch as head.
  //
  bool ci_github::
  handle_pull_request (gh_pull_request_event pr, bool warning_success)
  {
    HANDLER_DIAG;

    l3 ([&]{trace << "pull_request event { " << pr << " }";});

    // While we don't need the installation access token in this request,
    // let's obtain it to flush out any permission issues early. Also, it is
    // valid for an hour so we will most likely make use of it.
    //
    optional<string> jwt (generate_jwt (trace, error));
    if (!jwt)
      throw server_error ();

    optional<gh_installation_access_token> iat (
      obtain_installation_access_token (pr.installation.id,
                                        move (*jwt),
                                        error));
    if (!iat)
      throw server_error ();

    l3 ([&]{trace << "installation_access_token { " << *iat << " }";});

    // Distinguish between local and remote PRs by comparing the head and base
    // repositories' paths.
    //
    service_data::kind_type kind (
      pr.pull_request.head_path == pr.pull_request.base_path
      ? service_data::local
      : service_data::remote);

    // Note that similar to the branch push case above, while it would have
    // been nice to cancel the previous CI job once the PR head moves (the
    // "synchronize" event), due to the head sharing problem the previous CI
    // job might actually still be relevant (in both local and remote PR
    // cases). So we only do it for the remote PRs and only if the head is not
    // shared (via tenant reference counting).
    //
    if (kind == service_data::remote && pr.action == "synchronize")
    {
      if (pr.before)
      {
        // Service id that will uniquely identify the CI tenant.
        //
        string sid (pr.repository.node_id + ':' + *pr.before);

        if (optional<tenant_service> ts = cancel (error, warn,
                                                  verb_ ? &trace : nullptr,
                                                  *build_db_, retry_,
                                                  "ci-github", sid,
                                                  true /* ref_count */))
        {
          l3 ([&]{trace << "pull request " << pr.pull_request.node_id
                        << ": attempted to cancel CI of previous head commit"
                        << " (ref_count: " << ts->ref_count << ')';});
        }
        else
        {
          // It's possible that there was no CI for the previous commit for
          // various reasons (e.g., CI was not enabled).
          //
          l3 ([&]{trace << "pull request " << pr.pull_request.node_id
                        << ": failed to cancel CI of previous head commit "
                        << "with tenant_service id " << sid;});
        }
      }
      else
      {
        error << "pull request " << pr.pull_request.node_id
              << ": before commit is missing in synchronize event";
      }
    }

    // Note: for remote PRs the check_sha will be set later, in
    // build_unloaded_pre_check(), to test merge commit id.
    //
    string check_sha (kind == service_data::local
                      ? pr.pull_request.head_sha
                      : "");

    // Note that PR rebuilds (re-requested) are handled by check_suite().
    //
    // Note that, in the case of a remote PR, GitHub will copy the PR head
    // commit from the head (forked) repository into the base repository. So
    // the check runs must always be added to the base repository, whether the
    // PR is local or remote. The head commit refs are located at
    // refs/pull/<PR-number>/head.
    //
    service_data sd (warning_success,
                     move (iat->token),
                     iat->expires_at,
                     pr.installation.id,
                     move (pr.repository.node_id),
                     move (pr.repository.clone_url),
                     kind, true /* pre_check */, false /* re_request */,
                     move (check_sha),
                     move (pr.pull_request.head_sha) /* report_sha */,
                     pr.pull_request.node_id,
                     pr.pull_request.number);

    // Create an unloaded CI tenant for the pre-check phase (during which we
    // wait for the PR's merge commit and behindness to become available).
    //
    // Create with an empty service id so that the generated tenant id is used
    // instead during the pre-check phase (so as not to clash with a proper
    // service id for this head commit, potentially created in
    // handle_check_suite() or as another PR).
    //
    tenant_service ts ("", "ci-github", sd.json ());

    // Note: use no delay since we need to start the actual CI (which in turn
    // (re)creates the synthetic conclusion check run) as soon as possible.
    //
    // After this call we will start getting the build_unloaded()
    // notifications -- which will be routed to build_unloaded_pre_check() --
    // until we cancel the tenant or it gets archived after some timeout.
    // (Note that we never actually load this request, we always cancel it;
    // see build_unloaded_pre_check() for details.)
    //
    if (!create (error,
                 warn,
                 verb_ ? &trace : nullptr,
                 *build_db_, retry_,
                 move (ts),
                 chrono::seconds (30) /* interval */,
                 chrono::seconds (0) /* delay */))
    {
      fail << "pull request " << pr.pull_request.node_id
           << ": unable to create unloaded pre-check tenant";
    }

    return true;
  }

  function<optional<string> (const tenant_service&)> ci_github::
  build_unloaded (tenant_service&& ts,
                  const diag_epilogue& log_writer) const noexcept
  {
    // NOTE: this function is noexcept and should not throw.

    NOTIFICATION_DIAG (log_writer);

    service_data sd;
    try
    {
      sd = service_data (*ts.data);
    }
    catch (const invalid_argument& e)
    {
      error << "failed to parse service data: " << e;
      return nullptr;
    }

    return sd.pre_check
             ? build_unloaded_pre_check (move (ts), move (sd), log_writer)
             : build_unloaded_load (move (ts), move (sd), log_writer);
  }

  function<optional<string> (const tenant_service&)> ci_github::
  build_unloaded_pre_check (tenant_service&& ts,
                            service_data&& sd,
                            const diag_epilogue& log_writer) const noexcept
  try
  {
    // NOTE: this function is noexcept and should not throw.
    //
    //       In a few places where invalid_argument is highly unlikely to be
    //       thrown and/or would indicate that things are seriously broken we
    //       let it propagate to the function catch block where the pre-check
    //       tenant will be canceled otherwise we could end up in an infinite
    //       loop (because the problematic arguments won't be changing).
    //

    NOTIFICATION_DIAG (log_writer);

    // We get here for PRs only (but both local and remote). The overall
    // plan is as follows:
    //
    // 1. Ask for the mergeability/behind status/test merge commit.
    //
    // 2. If not ready, get called again.
    //
    // 3. If not mergeable, behind, or different head (head changed while
    //    waiting for merge commit and thus differs from what's in the
    //    service_data), cancel the pre-check tenant and do nothing.
    //
    // 4. Otherwise, create an unloaded CI tenant and cancel ourselves. Note
    //    that all re-requested cases are handled elsewhere.
    //
    // Note that in case of a mixed local/remote case, whether we CI the head
    // commit or test merge commit will be racy and there is nothing we can do
    // about (the purely local case can get "upgraded" to mixed after we have
    // started the CI job).
    //

    // Request PR pre-check info (triggering the generation of the test merge
    // commit on the GitHub's side).
    //
    // Let unlikely invalid_argument propagate (see above).
    //
    optional<gq_pr_pre_check_info> pc (
      gq_fetch_pull_request_pre_check_info (error,
                                            sd.installation_access.token,
                                            *sd.pr_node_id));

    if (!pc)
    {
      // Test merge commit not available yet: get called again to retry.
      //
      return nullptr;
    }

    // Create the CI tenant if nothing is wrong, otherwise issue diagnostics.
    //
    if (pc->behind)
    {
      l3 ([&]{trace << "ignoring pull request " << *sd.pr_node_id
                    << ": head is behind base";});
    }
    else if (!pc->merge_commit_sha)
    {
      l3 ([&]{trace << "ignoring pull request " << *sd.pr_node_id
                    << ": not auto-mergeable";});
    }
    else if (pc->head_sha != sd.report_sha)
    {
      l3 ([&]{trace << "ignoring pull request " << *sd.pr_node_id
                    << ": head commit has changed";});
    }
    else
    {
      // Create the CI tenant by reusing the pre-check service data.
      //
      sd.pre_check = false;

      // Set the service data's check_sha if this is a remote PR. The test
      // merge commit refs are located at refs/pull/<PR-number>/merge.
      //
      if (sd.kind == service_data::remote)
        sd.check_sha = *pc->merge_commit_sha;

      // Service id that will uniquely identify the CI tenant.
      //
      string sid (sd.repository_node_id + ':' + sd.report_sha);

      // Create an unloaded CI tenant, doing nothing if one already exists
      // (which could've been created by a head branch push or another PR
      // sharing the same head commit).
      //
      // Note: use no delay since we need to (re)create the synthetic
      // conclusion check run as soon as possible.
      //
      // Note that we use the create() API instead of start() since duplicate
      // management is not available in start().
      //
      // After this call we will start getting the build_unloaded()
      // notifications until (1) we load the tenant, (2) we cancel it, or (3)
      // it gets archived after some timeout.
      //
      try
      {
        if (auto pr = create (error, warn, verb_ ? &trace : nullptr,
                              *build_db_, retry_,
                              tenant_service (sid, "ci-github", sd.json ()),
                              chrono::seconds (30) /* interval */,
                              chrono::seconds (0) /* delay */,
                              duplicate_tenant_mode::ignore))
        {
          if (pr->second == duplicate_tenant_result::ignored)
          {
            // This PR is sharing a head commit with something else.
            //
            // If this is a local PR then it's probably the branch push, which
            // is expected, so do nothing.
            //
            // If this is a remote PR then it could be anything (branch push,
            // local PR, or another remote PR) which in turn means the CI
            // result may end up being for head, not merge commit. There is
            // nothing we can do about it on our side (the user can enable the
            // head-behind- base protection on their side).
            //
            if (sd.kind == service_data::remote)
            {
              l3 ([&]{trace << "remote pull request " << *sd.pr_node_id
                            << ": CI tenant already exists for " << sid;});
            }
          }
        }
        else
        {
          error << "pull request " << *sd.pr_node_id
                << ": failed to create unloaded CI tenant "
                << "with tenant_service id " << sid;

          // Fall through to cancel.
        }
      }
      catch (const runtime_error& e) // Database retries exhausted.
      {
        error << "pull request " << *sd.pr_node_id
              << ": failed to create unloaded CI tenant "
              << "with tenant_service id " << sid
              << ": " << e.what ();

        // Fall through to cancel.
      }
    }

    // Cancel the pre-check tenant.
    //
    try
    {
      if (!cancel (error, warn, verb_ ? &trace : nullptr,
                   *build_db_, retry_,
                   ts.type,
                   ts.id))
      {
        // Should never happen (no such tenant).
        //
        error << "pull request " << *sd.pr_node_id
              << ": failed to cancel pre-check tenant with tenant_service id "
              << ts.id;
      }
    }
    catch (const runtime_error& e) // Database retries exhausted.
    {
      error << "pull request " << *sd.pr_node_id
            << ": failed to cancel pre-check tenant with tenant_service id "
            << ts.id << ": " << e.what ();
    }

    return nullptr;
  }
  catch (const std::exception& e)
  {
    NOTIFICATION_DIAG (log_writer);
    error << "pull request " << *sd.pr_node_id
          << ": unhandled exception: " << e.what ();

    // Cancel the pre-check tenant otherwise we could end up in an infinite
    // loop (see top of function).
    //
    try
    {
      if (cancel (error, warn, verb_ ? &trace : nullptr,
                   *build_db_, retry_, ts.type, ts.id))
        l3 ([&]{trace << "canceled pre-check tenant " << ts.id;});
    }
    catch (const runtime_error& e) // Database retries exhausted.
    {
      l3 ([&]{trace << "failed to cancel pre-check tenant " << ts.id << ": "
                    << e.what ();});
    }

    return nullptr;
  }
  catch (...)
  {
    NOTIFICATION_DIAG (log_writer);
    error << "pull request " << *sd.pr_node_id << ": unhandled exception";

    try
    {
      if (cancel (error, warn, verb_ ? &trace : nullptr,
                  *build_db_, retry_, ts.type, ts.id))
        l3 ([&]{trace << "canceled pre-check tenant " << ts.id;});
    }
    catch (const runtime_error& e) // Database retries exhausted.
    {
      l3 ([&]{trace << "failed to cancel pre-check tenant " << ts.id << ": "
                    << e.what ();});
    }

    return nullptr;
  }

  function<optional<string> (const tenant_service&)> ci_github::
  build_unloaded_load (tenant_service&& ts,
                       service_data&& sd,
                       const diag_epilogue& log_writer) const noexcept
  try
  {
    // NOTE: this function is noexcept and should not throw.
    //
    //       In a few places where invalid_argument is highly unlikely to be
    //       thrown and/or would indicate that things are seriously broken we
    //       let it propagate to the function catch block where the tenant
    //       will be canceled otherwise we could end up in an infinite loop
    //       (because the problematic arguments won't be changing).
    //

    NOTIFICATION_DIAG (log_writer);

    // Load the tenant, which is essentially the same for both branch push and
    // PR. The overall plan is as follows:
    //
    // - Create synthetic conclusion check run with the in-progress state. If
    //   unable to, get called again to re-try.
    //
    // - Load the tenant. If unable to, fail the conclusion check run.
    //
    // - Update service data.
    //

    // Get a new installation access token if the current one has expired.
    //
    const gh_installation_access_token* iat (nullptr);
    optional<gh_installation_access_token> new_iat;

    if (system_clock::now () > sd.installation_access.expires_at)
    {
      if (optional<string> jwt = generate_jwt (trace, error))
      {
        new_iat = obtain_installation_access_token (sd.installation_id,
                                                    move (*jwt),
                                                    error);
        if (new_iat)
          iat = &*new_iat;
      }
    }
    else
      iat = &sd.installation_access;

    if (iat == nullptr)
      return nullptr; // Try again on the next call.

    // Create a synthetic check run with an in-progress state. Return the
    // check run on success or nullopt on failure.
    //
    auto create_synthetic_cr = [iat,
                                &sd,
                                &error] (string name) -> optional<check_run>
    {
      check_run cr;
      cr.name = move (name);

      // Let unlikely invalid_argument propagate (see above).
      //
      if (gq_create_check_run (error,
                               cr,
                               iat->token,
                               sd.repository_node_id,
                               sd.report_sha,
                               nullopt /* details_url */,
                               build_state::building))
      {
        return cr;
      }
      else
        return nullopt;
    };

    // Update a synthetic check run with success or failure. Return the check
    // run on success or nullopt on failure.
    //
    auto update_synthetic_cr = [iat,
                                &sd,
                                &error] (const string& node_id,
                                         const string& name,
                                         result_status rs,
                                         string summary) -> optional<check_run>
    {
      assert (!node_id.empty ());

      // Let unlikely invalid_argument propagate (see above).
      //
      gq_built_result br (
        make_built_result (rs, sd.warning_success, move (summary)));

      check_run cr;
      cr.name = name; // For display purposes only.

      // Let unlikely invalid_argument propagate (see above).
      //
      if (gq_update_check_run (error,
                               cr,
                               iat->token,
                               sd.repository_node_id,
                               node_id,
                               nullopt /* details_url */,
                               build_state::built,
                               move (br)))
      {
        assert (cr.state == build_state::built);
        return cr;
      }
      else
        return nullopt;
    };

    // Note that there is a window between receipt of a check_suite or
    // pull_request event and the first bot/worker asking for a task, which
    // could be substantial. We could probably (also) try to (re)create the
    // conclusion checkrun in the webhook handler. @@ Maybe/later.

    // (Re)create the synthetic conclusion check run first in order to convert
    // a potentially completed check suite to building as early as possible.
    //
    string conclusion_node_id; // Conclusion check run node ID.

    if (auto cr = create_synthetic_cr (conclusion_check_run_name))
    {
      l3 ([&]{trace << "created check_run { " << *cr << " }";});

      conclusion_node_id = move (*cr->node_id);
    }

    // Load the CI tenant if the conclusion check run was created.
    //
    if (!conclusion_node_id.empty ())
    {
      string ru; // Repository URL.

      // CI the test merge commit for remote PRs and the head commit for
      // everything else (branch push or local PRs).
      //
      if (sd.kind == service_data::remote)
      {
        // E.g. #pull/28/merge@1b6c9a361086ed93e6f1e67189e82d52de91c49b
        //
        ru = sd.repository_clone_url + "#pull/" + to_string (*sd.pr_number) +
             "/merge@" + sd.check_sha;
      }
      else
        ru = sd.repository_clone_url + '#' + sd.check_sha;

      // Let unlikely invalid_argument propagate (see above).
      //
      repository_location rl (move (ru), repository_type::git);

      try
      {
        optional<start_result> r (load (error, warn, verb_ ? &trace : nullptr,
                                        *build_db_, retry_,
                                        move (ts),
                                        move (rl)));

        if (!r || r->status != 200)
        {
          // Let unlikely invalid_argument propagate (see above).
          //
          if (auto cr = update_synthetic_cr (conclusion_node_id,
                                             conclusion_check_run_name,
                                             result_status::error,
                                             to_check_run_summary (r)))
          {
            l3 ([&]{trace << "updated check_run { " << *cr << " }";});
          }
          else
          {
            // Nothing really we can do in this case since we will not receive
            // any further notifications. Log the error as a last resort.

            error << "failed to load CI tenant " << ts.id
                  << " and unable to update conclusion";
          }

          return nullptr; // No need to update service data in this case.
        }
      }
      catch (const runtime_error& e) // Database retries exhausted.
      {
        error << "failed to load CI tenant " << ts.id << ": " << e.what ();
      }
    }
    else if (!new_iat)
      return nullptr; // Nothing to save (but retry on next call).

    return [&error,
            iat = move (new_iat),
            cni = move (conclusion_node_id)]
      (const tenant_service& ts) -> optional<string>
    {
      // NOTE: this lambda may be called repeatedly (e.g., due to
      // transaction being aborted) and so should not move out of its
      // captures.

      service_data sd;
      try
      {
        sd = service_data (*ts.data);
      }
      catch (const invalid_argument& e)
      {
        error << "failed to parse service data: " << e;
        return nullopt;
      }

      if (iat)
        sd.installation_access = *iat;

      if (!cni.empty ())
        sd.conclusion_node_id = cni;

      return sd.json ();
    };
  }
  catch (const std::exception& e)
  {
    NOTIFICATION_DIAG (log_writer);
    error << "CI tenant " << ts.id << ": unhandled exception: " << e.what ();

    // Cancel the tenant otherwise we could end up in an infinite loop (see
    // top of function).
    //
    try
    {
      if (cancel (error, warn, verb_ ? &trace : nullptr,
                  *build_db_, retry_, ts.type, ts.id))
        l3 ([&]{trace << "canceled CI tenant " << ts.id;});
    }
    catch (const runtime_error& e) // Database retries exhausted.
    {
      l3 ([&]{trace << "failed to cancel CI tenant " << ts.id
                    << ": " << e.what ();});
    }

    return nullptr;
  }
  catch (...)
  {
    NOTIFICATION_DIAG (log_writer);
    error << "CI tenant " << ts.id << ": unhandled exception";

    try
    {
      if (cancel (error, warn, verb_ ? &trace : nullptr,
                  *build_db_, retry_, ts.type, ts.id))
        l3 ([&]{trace << "canceled CI tenant " << ts.id;});
    }
    catch (const runtime_error& e) // Database retries exhausted.
    {
      l3 ([&]{trace << "failed to cancel CI tenant " << ts.id << ": "
                    << e.what ();});
    }

    return nullptr;
  }

  // Build state change notifications (see tenant-services.hxx for
  // background). Mapping our state transitions to GitHub pose multiple
  // problems:
  //
  // 1. In our model we have the building->queued (interrupted) and
  //    built->queued (rebuild) transitions. We are going to ignore both of
  //    them when notifying GitHub. The first is not important (we expect the
  //    state to go back to building shortly). The second should normally not
  //    happen and would mean that a completed check suite may go back on its
  //    conclusion (which would be pretty confusing for the user). @@@ This
  //    can/will happen on check run rebuild. Distinguish between internal
  //    and external rebuilds?
  //
  //    So, for GitHub notifications, we only have the following linear
  //    transition sequence:
  //
  //    -> queued -> building -> built
  //
  //    Note, however, that because we ignore certain transitions, we can now
  //    observe "degenerate" state changes that we need to ignore:
  //
  //    building -> [queued] -> building
  //    built -> [queued] -> ...
  //
  // 2. As mentioned in tenant-services.hxx, we may observe the notifications
  //    as arriving in the wrong order. Unfortunately, GitHub provides no
  //    mechanisms to help with that. In fact, GitHub does not even prevent
  //    the creation of multiple check runs with the same name (it will always
  //    use the last created instance, regardless of the status, timestamps,
  //    etc). As a result, we cannot, for example, rely on the failure to
  //    create a new check run in response to the queued notification as an
  //    indication of a subsequent notification (e.g., building) having
  //    already occurred.
  //
  //    The only aid in this area that GitHub provides is that it prevents
  //    updating a check run in the built state to a former state (queued or
  //    building). But one can still create a new check run with the same name
  //    and a former state.
  //
  //    (Note that we should also be careful if trying to take advantage of
  //    this "check run override" semantics: each created check run gets a new
  //    URL and while the GitHub UI will always point to the last created when
  //    showing the list of check runs, if the user is already on the previous
  //    check run's URL, nothing will automatically cause them to be
  //    redirected to the new URL. And so the user may sit on the abandoned
  //    check run waiting forever for it to be completed.)
  //
  //    As a result, we will deal with the out of order problem differently
  //    depending on the notification:
  //
  //    queued    Skip if there is already a check run in service data,
  //              otherwise create new.
  //
  //    building  Skip if there is no check run in service data or it's
  //              not in the queued state, otherwise update.
  //
  //    built     Update if there is check run in service data unless its
  //              state is built, otherwise create new.
  //
  //    The rationale for this semantics is as follows: the building
  //    notification is a "nice to have" and can be skipped if things are not
  //    going normally. In contrast, the built notification cannot be skipped
  //    and we must either update the existing check run or create a new one
  //    (hopefully overriding the one created previously, if any). Note that
  //    the likelihood of the built notification being performed at the same
  //    time as queued/building is quite low (unlike queued and building).
  //
  //    Note also that with this semantics it's unlikely but possible that we
  //    attempt to update the service data in the wrong order. Specifically, it
  //    feels like this should not be possible in the ->building transition
  //    since we skip the building notification unless the check run in the
  //    service data is already in the queued state. But it is theoretically
  //    possible in the ->built transition. For example, we may be updating
  //    the service data for the queued notification after it has already been
  //    updated by the built notification. In such cases we should not be
  //    overriding the latter state (built) with the former (queued).
  //
  // 3. We may not be able to "conclusively" notify GitHub, for example, due
  //    to a transient network error. The "conclusively" part means that the
  //    notification may or may not have gone through (though it feels the
  //    common case will be the inability to send the request rather than
  //    receive the reply).
  //
  //    In such cases, we record in the service data that the notification was
  //    not synchronized and in subsequent notifications we do the best we can:
  //    if we have node_id, then we update, otherwise, we create (potentially
  //    overriding the check run created previously).
  //
  function<optional<string> (const tenant_service&)> ci_github::
  build_queued (const tenant_service& ts,
                const vector<build>& builds,
                optional<build_state> istate,
                const build_queued_hints& hs,
                const diag_epilogue& log_writer) const noexcept
  try
  {
    // NOTE: this function is noexcept and should not throw.

    NOTIFICATION_DIAG (log_writer);

    service_data sd;
    try
    {
      sd = service_data (*ts.data);
    }
    catch (const invalid_argument& e)
    {
      error << "failed to parse service data: " << e;
      return nullptr;
    }

    // Ignore attempts to add new builds to a completed check suite. This can
    // happen, for example, if a new build configuration is added before
    // the tenant is archived.
    //
    if (sd.completed)
      return nullptr;

    // The builds for which we will be creating check runs.
    //
    vector<reference_wrapper<const build>> bs;
    vector<check_run> crs; // Parallel to bs.

    // Exclude the builds for which we won't be creating check runs.
    //
    for (const build& b: builds)
    {
      string bid (gh_check_run_name (b)); // Full build id.

      if (const check_run* scr = sd.find_check_run (bid))
      {
        // Another notification has already stored this check run.
        //
        if (!istate)
        {
          // Out of order queued notification.
          //
          warn << "check run " << bid << ": out of order queued "
               << "notification; existing state: " << scr->state_string ();
        }
        else if (*istate == build_state::built)
        {
          // Unexpected built->queued transition (rebuild).
          //
          warn << "check run " << bid << ": unexpected rebuild";
        }
        else
        {
          // Ignore interrupted.
          //
          assert (*istate == build_state::building);
        }
      }
      else
      {
        // No stored check run for this build so prepare to create one.
        //
        bs.push_back (b);

        crs.emplace_back (move (bid),
                          gh_check_run_name (b, &hs),
                          nullopt, /* node_id */
                          build_state::queued,
                          false /* state_synced */);
      }
    }

    if (bs.empty ()) // Nothing to do.
      return nullptr;

    // Get a new installation access token if the current one has expired.
    //
    const gh_installation_access_token* iat (nullptr);
    optional<gh_installation_access_token> new_iat;

    if (system_clock::now () > sd.installation_access.expires_at)
    {
      if (optional<string> jwt = generate_jwt (trace, error))
      {
        new_iat = obtain_installation_access_token (sd.installation_id,
                                                    move (*jwt),
                                                    error);
        if (new_iat)
          iat = &*new_iat;
      }
    }
    else
      iat = &sd.installation_access;

    // Note: we treat the failure to obtain the installation access token the
    // same as the failure to notify GitHub (state is updated by not marked
    // synced).
    //
    if (iat != nullptr)
    {
      // Create a check_run for each build as a single request.
      //
      // Let unlikely invalid_argument propagate.
      //
      if (gq_create_check_runs (error,
                                crs,
                                iat->token,
                                sd.repository_node_id, sd.report_sha))
      {
        for (const check_run& cr: crs)
        {
          // We can only create a check run in the queued state.
          //
          assert (cr.state == build_state::queued);
          l3 ([&]{trace << "created check_run { " << cr << " }";});
        }
      }
    }

    return [bs = move (bs),
            iat = move (new_iat),
            crs = move (crs),
            error = move (error),
            warn = move (warn)] (const tenant_service& ts) -> optional<string>
    {
      // NOTE: this lambda may be called repeatedly (e.g., due to transaction
      // being aborted) and so should not move out of its captures.

      service_data sd;
      try
      {
        sd = service_data (*ts.data);
      }
      catch (const invalid_argument& e)
      {
        error << "failed to parse service data: " << e;
        return nullopt;
      }

      if (iat)
        sd.installation_access = *iat;

      for (size_t i (0); i != bs.size (); ++i)
      {
        const check_run& cr (crs[i]);

        // Note that this service data may not be the same as what we observed
        // in the build_queued() function above. For example, some check runs
        // that we have queued may have already transitioned to built. So we
        // skip any check runs that are already present.
        //
        if (const check_run* scr = sd.find_check_run (cr.build_id))
        {
          // Doesn't looks like printing new/existing check run node_id will
          // be of any help.
          //
          warn << "check run " << cr.build_id << ": out of order queued "
               << "notification service data update; existing state: "
               << scr->state_string ();
        }
        else
          sd.check_runs.push_back (cr);
      }

      return sd.json ();
    };
  }
  catch (const std::exception& e)
  {
    NOTIFICATION_DIAG (log_writer);

    error << "CI tenant " << ts.id << ": unhandled exception: " << e.what ();

    return nullptr;
  }

  function<optional<string> (const tenant_service&)> ci_github::
  build_building (const tenant_service& ts,
                  const build& b,
                  const diag_epilogue& log_writer) const noexcept
  try
  {
    // NOTE: this function is noexcept and should not throw.

    NOTIFICATION_DIAG (log_writer);

    service_data sd;
    try
    {
      sd = service_data (*ts.data);
    }
    catch (const invalid_argument& e)
    {
      error << "failed to parse service data: " << e;
      return nullptr;
    }

    // Similar to build_queued(), ignore attempts to add new builds to a
    // completed check suite.
    //
    if (sd.completed)
      return nullptr;

    optional<check_run> cr; // Updated check run.
    string bid (gh_check_run_name (b)); // Full build id.

    if (check_run* scr = sd.find_check_run (bid)) // Stored check run.
    {
      // Update the check run if it exists on GitHub and the queued
      // notification updated the service data, otherwise do nothing.
      //
      if (scr->state == build_state::queued)
      {
        if (scr->node_id)
        {
          cr = move (*scr);
          cr->state_synced = false;
        }
        else
        {
          // Network error during queued notification, ignore.
        }
      }
      else
        warn << "check run " << bid << ": out of order building "
             << "notification; existing state: " << scr->state_string ();
    }
    else
      warn << "check run " << bid << ": out of order building "
           << "notification; no check run state in service data";

    if (!cr)
      return nullptr;

    // Get a new installation access token if the current one has expired.
    //
    const gh_installation_access_token* iat (nullptr);
    optional<gh_installation_access_token> new_iat;

    if (system_clock::now () > sd.installation_access.expires_at)
    {
      if (optional<string> jwt = generate_jwt (trace, error))
      {
        new_iat = obtain_installation_access_token (sd.installation_id,
                                                    move (*jwt),
                                                    error);
        if (new_iat)
          iat = &*new_iat;
      }
    }
    else
      iat = &sd.installation_access;

    // Note: we treat the failure to obtain the installation access token the
    // same as the failure to notify GitHub (state is updated but not marked
    // synced).
    //
    if (iat != nullptr)
    {
      // Let unlikely invalid_argument propagate.
      //
      if (gq_update_check_run (error,
                               *cr,
                               iat->token,
                               sd.repository_node_id,
                               *cr->node_id,
                               details_url (b),
                               build_state::building))
      {
        // Do nothing further if the state was already built on GitHub (note
        // that this is based on the above-mentioned special GitHub semantics
        // of preventing changes to the built status).
        //
        if (cr->state == build_state::built)
        {
          warn << "check run " << bid << ": already in built state on GitHub";
          return nullptr;
        }

        assert (cr->state == build_state::building);
        l3 ([&]{trace << "updated check_run { " << *cr << " }";});
      }
    }

    return [iat = move (new_iat),
            cr = move (*cr),
            error = move (error),
            warn = move (warn)] (const tenant_service& ts) -> optional<string>
    {
      // NOTE: this lambda may be called repeatedly (e.g., due to transaction
      // being aborted) and so should not move out of its captures.

      service_data sd;
      try
      {
        sd = service_data (*ts.data);
      }
      catch (const invalid_argument& e)
      {
        error << "failed to parse service data: " << e;
        return nullopt;
      }

      if (iat)
        sd.installation_access = *iat;

      // Update the check run only if it is in the queued state.
      //
      if (check_run* scr = sd.find_check_run (cr.build_id))
      {
        if (scr->state == build_state::queued)
          *scr = cr;
        else
        {
          warn << "check run " << cr.build_id << ": out of order building "
               << "notification service data update; existing state: "
               << scr->state_string ();
        }
      }
      else
        warn << "check run " << cr.build_id << ": service data state has "
             << "disappeared";

      return sd.json ();
    };
  }
  catch (const std::exception& e)
  {
    NOTIFICATION_DIAG (log_writer);

    string bid (gh_check_run_name (b)); // Full build id.

    error << "check run " << bid << ": unhandled exception: " << e.what();

    return nullptr;
  }

  function<optional<string> (const tenant_service&)> ci_github::
  build_built (const tenant_service& ts,
               const build& b,
               const diag_epilogue& log_writer) const noexcept
  {
    // NOTE: this function is noexcept and should not throw.

    NOTIFICATION_DIAG (log_writer);

    // @@ TODO Include service_data::event_node_id and perhaps ts.id in
    //    diagnostics? E.g. when failing to update check runs we print the
    //    build ID only.

    service_data sd;
    try
    {
      sd = service_data (*ts.data);
    }
    catch (const invalid_argument& e)
    {
      error << "failed to parse service data: " << e;
      return nullptr;
    }

    // Similar to build_queued(), ignore attempts to add new builds to a
    // completed check suite.
    //
    if (sd.completed)
      return nullptr;

    // Here we need to update the state of this check run and, if there are no
    // more unbuilt ones, update the synthetic conclusion check run and mark
    // the check suite as completed.
    //
    // Absent means we still have unbuilt check runs.
    //
    optional<result_status> conclusion (*b.status);

    check_run cr; // Updated check run.
    {
      string bid (gh_check_run_name (b)); // Full build id.

      optional<check_run> scr;
      for (check_run& cr: sd.check_runs)
      {
        if (cr.build_id == bid)
        {
          assert (!scr);
          scr = move (cr);
        }
        else
        {
          if (cr.state == build_state::built)
          {
            assert (cr.status);

            if (conclusion)
              *conclusion |= *cr.status;
          }
          else
            conclusion = nullopt;
        }

        if (scr && !conclusion.has_value ())
          break;
      }

      if (scr)
      {
        if (scr->state != build_state::building)
        {
          warn << "check run " << bid << ": out of order built notification; "
               << "existing state: " << scr->state_string ();
        }

        // Do nothing if already built (e.g., rebuild).
        //
        if (scr->state == build_state::built)
          return nullptr;

        cr = move (*scr);
      }
      else
      {
        warn << "check run " << bid << ": out of order built notification; "
             << "no check run state in service data";

        // Note that we have no hints here and so have to use the full build
        // id for name.
        //
        cr.build_id = move (bid);
        cr.name = cr.build_id;
      }

      cr.state_synced = false;
    }

    // Get a new installation access token if the current one has expired.
    //
    const gh_installation_access_token* iat (nullptr);
    optional<gh_installation_access_token> new_iat;

    if (system_clock::now () > sd.installation_access.expires_at)
    {
      if (optional<string> jwt = generate_jwt (trace, error))
      {
        new_iat = obtain_installation_access_token (sd.installation_id,
                                                    move (*jwt),
                                                    error);
        if (new_iat)
          iat = &*new_iat;
      }
    }
    else
      iat = &sd.installation_access;

    bool completed (false);

    // Note: we treat the failure to obtain the installation access token the
    // same as the failure to notify GitHub (state is updated but not marked
    // synced).
    //
    if (iat != nullptr)
    {
      // Prepare the check run's summary field (the build information in an
      // XHTML table).
      //
      string sm; // Summary.
      {
        using namespace web::xhtml;

        ostringstream os;
        xml::serializer s (os, "check_run_summary");

        // This hack is required to disable XML element name prefixes (which
        // GitHub does not like). Note that this adds an xmlns declaration for
        // the XHTML namespace which for now GitHub appears to ignore. If that
        // ever becomes a problem, then we should redo this with raw XML
        // serializer calls.
        //
        struct table: element
        {
          table (): element ("table") {}

          void
          start (xml::serializer& s) const override
          {
            s.start_element (xmlns, name);
            s.namespace_decl (xmlns, "");
          }
        } TABLE;

        // Serialize a result row (colored circle, result text, log URL) for
        // an operation and result_status.
        //
        auto tr_result = [this, &b] (xml::serializer& s,
                                     const string& op,
                                     result_status rs)
        {
          // The log URL.
          //
          string lu (build_log_url (options_->host (),
                                    options_->root (),
                                    b,
                                    op != "result" ? &op : nullptr));

          s << TR
            <<   TD << EM << op << ~EM << ~TD
            <<   TD
            <<     circle (rs) << ' '
            <<     CODE << to_string (rs) << ~CODE
            <<     " (" << A << HREF << lu << ~HREF << "log" << ~A << ')'
            <<   ~TD
            << ~TR;
        };

        // Serialize the summary to an XHTML table.
        //
        s << TABLE
          <<   TBODY;

        tr_result (s, "result", *b.status);

        s <<     TR
          <<       TD << EM   << "package"      << ~EM   << ~TD
          <<       TD << CODE << b.package_name << ~CODE << ~TD
          <<     ~TR
          <<     TR
          <<       TD << EM   << "version"         << ~EM   << ~TD
          <<       TD << CODE << b.package_version << ~CODE << ~TD
          <<     ~TR
          <<     TR
          <<       TD << EM << "toolchain" << ~EM << ~TD
          <<       TD
          <<         CODE
          <<           b.toolchain_name << '-' << b.toolchain_version.string ()
          <<         ~CODE
          <<       ~TD
          <<     ~TR
          <<     TR
          <<       TD << EM   << "target"           << ~EM   << ~TD
          <<       TD << CODE << b.target.string () << ~CODE << ~TD
          <<     ~TR
          <<     TR
          <<       TD << EM   << "target config"      << ~EM   << ~TD
          <<       TD << CODE << b.target_config_name << ~CODE << ~TD
          <<     ~TR
          <<     TR
          <<       TD << EM   << "package config"      << ~EM   << ~TD
          <<       TD << CODE << b.package_config_name << ~CODE << ~TD
          <<     ~TR;

        for (const operation_result& r: b.results)
          tr_result (s, r.operation, r.status);

        s <<   ~TBODY
          << ~TABLE;

        sm = os.str ();
      }

      gq_built_result br (
        make_built_result (*b.status, sd.warning_success, move (sm)));

      if (cr.node_id)
      {
        // Update existing check run to built.
        //
        if (gq_update_check_run (error,
                                 cr,
                                 iat->token,
                                 sd.repository_node_id,
                                 *cr.node_id,
                                 details_url (b),
                                 build_state::built,
                                 move (br)))
        {
          assert (cr.state == build_state::built);
          l3 ([&]{trace << "updated check_run { " << cr << " }";});
        }
      }
      else
      {
        // Create new check run.
        //
        // Note that we don't have build hints so will be creating this check
        // run with the full build id as name. In the unlikely event that an
        // out of order build_queued() were to run before we've saved this
        // check run to the service data it will create another check run with
        // the shortened name which will never get to the built state.
        //
        if (gq_create_check_run (error,
                                 cr,
                                 iat->token,
                                 sd.repository_node_id,
                                 sd.report_sha,
                                 details_url (b),
                                 build_state::built,
                                 move (br)))
        {
          assert (cr.state == build_state::built);
          l3 ([&]{trace << "created check_run { " << cr << " }";});
        }
      }

      if (cr.state_synced)
      {
        // Check run was created/updated successfully to built (with
        // status we specified).
        //
        cr.status = b.status;

        // Update the conclusion check run if all check runs are now built.
        //
        if (conclusion)
        {
          assert (sd.conclusion_node_id);

          result_status rs (*conclusion);

          gq_built_result br (
            make_built_result (rs, sd.warning_success,
                               "All configurations are built"));

          check_run cr;

          // Set some fields for display purposes.
          //
          cr.node_id = *sd.conclusion_node_id;
          cr.name = conclusion_check_run_name;

          if (gq_update_check_run (error,
                                   cr,
                                   iat->token,
                                   sd.repository_node_id,
                                   *sd.conclusion_node_id,
                                   nullopt /* details_url */,
                                   build_state::built,
                                   move (br)))
          {
            assert (cr.state == build_state::built);
            l3 ([&]{trace << "updated conclusion check_run { " << cr << " }";});
          }
          else
          {
            // Nothing we can do here except log the error.
            //
            error << "tenant_service id " << ts.id
                  << ": unable to update conclusion check run "
                  << *sd.conclusion_node_id;
          }

          completed = true;
        }
      }
    }

    return [iat = move (new_iat),
            cr = move (cr),
            completed = completed,
            error = move (error),
            warn = move (warn)] (const tenant_service& ts) -> optional<string>
    {
      // NOTE: this lambda may be called repeatedly (e.g., due to transaction
      // being aborted) and so should not move out of its captures.

      service_data sd;
      try
      {
        sd = service_data (*ts.data);
      }
      catch (const invalid_argument& e)
      {
        error << "failed to parse service data: " << e;
        return nullopt;
      }

      if (iat)
        sd.installation_access = *iat;

      // Only update the check_run state in service data if it matches the
      // state (specifically, status) on GitHub.
      //
      if (cr.state_synced)
      {
        if (check_run* scr = sd.find_check_run (cr.build_id))
        {
          // This will most commonly generate a duplicate warning (see above).
          // We could save the old state and only warn if it differs but let's
          // not complicate things for now.
          //
#if 0
          if (scr->state != build_state::building)
          {
            warn << "check run " << cr.build_id << ": out of order built "
                 << "notification service data update; existing state: "
                 << scr->state_string ();
          }
#endif
          *scr = cr; // Note: also updates node id if created.
        }
        else
          sd.check_runs.push_back (cr);

        if (bool c = completed)
        {
          // Note that this can be racy: while we calculated the completed
          // value based on the snapshot of the service data, it could have
          // been changed (e.g., by handle_check_run_rerequest()). So we
          // re-calculate it based on the check run states and only update if
          // it matches. Otherwise, we log an error.
          //
          for (const check_run& scr: sd.check_runs)
          {
            if (scr.state != build_state::built)
            {
              string sid (sd.repository_node_id + ':' + sd.report_sha);

              error << "tenant_service id " << sid
                    << ": out of order built notification service data update; "
                    << "check suite is no longer complete";

              c = false;
              break;
            }
          }

          if (c)
            sd.completed = true;
        }
      }

      return sd.json ();
    };
  }

  string ci_github::
  details_url (const build& b) const
  {
    // This code is based on build_force_url() in mod/build.cxx.
    //
    return options_->host ()                                          +
      "/@" + b.tenant                                                 +
      "?builds=" + mime_url_encode (b.package_name.string ())         +
      "&pv=" + b.package_version.string ()                            +
      "&tg=" + mime_url_encode (b.target.string ())                   +
      "&tc=" + mime_url_encode (b.target_config_name)                 +
      "&pc=" + mime_url_encode (b.package_config_name)                +
      "&th=" + mime_url_encode (b.toolchain_name)                     + '-' +
                                b.toolchain_version.string ();
  }

  static optional<build_id>
  parse_details_url (const string& details_url)
  try
  {
    // See details_url() above for an idea of what the URL looks like.

    url u (details_url);

    build_id r;

    // Extract the tenant from the URL path.
    //
    // Example path: @d2586f57-21dc-40b7-beb2-6517ad7917dd
    //
    if (!u.path || u.path->size () != 37 || (*u.path)[0] != '@')
      return nullopt;

    r.package.tenant = u.path->substr (1);

    // Extract the rest of the build_id members from the URL query.
    //
    if (!u.query)
      return nullopt;

    bool pn (false), pv (false), tg (false), tc (false), pc (false),
      th (false);

    // This URL query parsing code is based on
    // web::apache::request::parse_url_parameters().
    //
    for (const char* qp (u.query->c_str ()); qp != nullptr; )
    {
      const char* vp (strchr (qp, '='));
      const char* ep (strchr (qp, '&'));

      if (vp == nullptr || (ep != nullptr && ep < vp))
        return nullopt; // Missing value.

      string n (mime_url_decode (qp, vp)); // Name.

      ++vp; // Skip '='

      const char* ve (ep != nullptr ? ep : vp + strlen (vp)); // Value end.

      // Get the value as-is or URL-decode it.
      //
      auto rawval = [vp, ve] () { return string (vp, ve); };
      auto decval = [vp, ve] () { return mime_url_decode (vp, ve); };

      auto make_version = [] (string&& v)
      {
        return canonical_version (brep::version (move (v)));
      };

      auto c = [&n] (bool& b, const char* s)
      {
        return n == s ? (b = true) : false;
      };

      if (c (pn, "builds"))  r.package.name        = package_name (decval ());
      else if (c (pv, "pv")) r.package.version     = make_version (rawval ());
      else if (c (tg, "tg")) r.target              = target_triplet (decval ());
      else if (c (tc, "tc")) r.target_config_name  = decval ();
      else if (c (pc, "pc")) r.package_config_name = decval ();
      else if (c (th, "th"))
      {
        // Toolchain name and version. E.g. "public-0.17.0"

        string v (rawval ());

        // Note: parsing code based on mod/mod-builds.cxx.
        //
        size_t p (v.find_first_of ('-'));
        if (p >= v.size () - 1)
          return nullopt; // Invalid format.

        r.toolchain_name    = v.substr (0, p);
        r.toolchain_version = make_version (v.substr (p + 1));
      }

      qp = ep != nullptr ? ep + 1 : nullptr;
    }

    if (!pn || !pv || !tg || !tc || !pc || !th)
      return nullopt; // Fail if any query parameters are absent.

    return r;
  }
  catch (const invalid_argument&) // Invalid url, brep::version, etc.
  {
    return nullopt;
  }

  optional<string> ci_github::
  generate_jwt (const basic_mark& trace,
                const basic_mark& error) const
  {
    string jwt;
    try
    {
      // Set token's "issued at" time 60 seconds in the past to combat clock
      // drift (as recommended by GitHub).
      //
      jwt = brep::generate_jwt (
          *options_,
          options_->ci_github_app_private_key (),
          to_string (options_->ci_github_app_id ()),
          chrono::seconds (options_->ci_github_jwt_validity_period ()),
          chrono::seconds (60));

      l3 ([&]{trace << "JWT: " << jwt;});
    }
    catch (const system_error& e)
    {
      error << "unable to generate JWT (errno=" << e.code () << "): " << e;
      return nullopt;
    }

    return jwt;
  }

  // There are three types of GitHub API authentication:
  //
  //   1) Authenticating as an app. Used to access parts of the API concerning
  //      the app itself such as getting the list of installations. (Need to
  //      authenticate as an app as part of authenticating as an app
  //      installation.)
  //
  //   2) Authenticating as an app installation (on a user or organisation
  //      account). Used to access resources belonging to the user/repository
  //      or organisation the app is installed in.
  //
  //   3) Authenticating as a user. Used to perform actions as the user.
  //
  // We need to authenticate as an app installation (2).
  //
  // How to authenticate as an app installation
  //
  // Reference:
  // https://docs.github.com/en/apps/creating-github-apps/authenticating-with-a-github-app/authenticating-as-a-github-app-installation
  //
  // The final authentication token we need is an installation access token
  // (IAT), valid for one hour, which we will pass in the `Authentication`
  // header of our Github API requests:
  //
  //   Authorization: Bearer <INSTALLATION_ACCESS_TOKEN>
  //
  // To generate an IAT:
  //
  // - Generate a JSON Web Token (JWT)
  //
  // - Get the installation ID. This will be included in the webhook request
  //   in our case
  //
  // - Send a POST to /app/installations/<INSTALLATION_ID>/access_tokens which
  //   includes the JWT (`Authorization: Bearer <JWT>`). The response will
  //   include the IAT. Can pass the name of the repository included in the
  //   webhook request to restrict access, otherwise we get access to all
  //   repos covered by the installation if installed on an organisation for
  //   example.
  //
  optional<gh_installation_access_token> ci_github::
  obtain_installation_access_token (uint64_t iid,
                                    string jwt,
                                    const basic_mark& error) const
  {
    gh_installation_access_token iat;
    try
    {
      // API endpoint.
      //
      string ep ("app/installations/" + to_string (iid) + "/access_tokens");

      uint16_t sc (
          github_post (iat, ep, strings {"Authorization: Bearer " + jwt}));

      // Possible response status codes from the access_tokens endpoint:
      //
      // 201 Created
      // 401 Requires authentication
      // 403 Forbidden
      // 404 Resource not found
      // 422 Validation failed, or the endpoint has been spammed.
      //
      // Note that the payloads of non-201 status codes are undocumented.
      //
      if (sc != 201)
      {
        error << "unable to get installation access token: error HTTP "
              << "response status " << sc;
        return nullopt;
      }

      // Create a clock drift safety window.
      //
      iat.expires_at -= chrono::minutes (5);
    }
    // gh_installation_access_token (via github_post())
    //
    catch (const json::invalid_json_input& e)
    {
      // Note: e.name is the GitHub API endpoint.
      //
      error << "malformed JSON in response from " << e.name << ", line: "
            << e.line << ", column: " << e.column << ", byte offset: "
            << e.position << ", error: " << e;
      return nullopt;
    }
    catch (const invalid_argument& e) // github_post()
    {
      error << "malformed header(s) in response: " << e;
      return nullopt;
    }
    catch (const system_error& e) // github_post()
    {
      error << "unable to get installation access token (errno=" << e.code ()
            << "): " << e.what ();
      return nullopt;
    }

    return iat;
  }
}