diff options
| author | Karen Arutyunov <karen@codesynthesis.com> | 2022-10-28 23:21:29 +0300 |
|---|---|---|
| committer | Karen Arutyunov <karen@codesynthesis.com> | 2022-11-23 19:20:35 +0300 |
| commit | 03c931e54e618221b69cfcd3dfb462e50ecad780 (patch) | |
| tree | e9fa949151f518f0fdfb05db473fc538f20310ff /mod/mod-build-task.cxx | |
| parent | 5bf2dd09110f257acc730eab71301e1dede1c710 (diff) | |
Add support for package build configurations
Diffstat (limited to 'mod/mod-build-task.cxx')
| -rw-r--r-- | mod/mod-build-task.cxx | 356 |
1 files changed, 194 insertions, 162 deletions
diff --git a/mod/mod-build-task.cxx b/mod/mod-build-task.cxx index 5ba6d06..a15ff90 100644 --- a/mod/mod-build-task.cxx +++ b/mod/mod-build-task.cxx @@ -21,7 +21,6 @@ #include <libbutl/manifest-serializer.hxx> #include <libbbot/manifest.hxx> -#include <libbbot/build-config.hxx> #include <web/server/module.hxx> @@ -30,6 +29,8 @@ #include <libbrep/build-package.hxx> #include <libbrep/build-package-odb.hxx> +#include <mod/build-target-config.hxx> + #include <mod/module-options.hxx> using namespace std; @@ -155,20 +156,20 @@ handle (request& rq, response& rs) task_response_manifest tsm; - // Map build configurations to machines that are capable of building them. - // The first matching machine is selected for each configuration. + // Map build target configurations to machines that are capable of building + // them. The first matching machine is selected for each configuration. // struct config_machine { - const build_config* config; + const build_target_config* config; machine_header_manifest* machine; }; - using config_machines = map<build_config_id, config_machine>; + using config_machines = map<build_target_config_id, config_machine>; config_machines conf_machines; - for (const auto& c: *build_conf_) + for (const auto& c: *target_conf_) { for (auto& m: tqm.machines) { @@ -180,24 +181,25 @@ handle (request& rq, response& rs) dash_components_to_path (c.machine_pattern), dir_path () /* start */, path_match_flags::match_absent)) - conf_machines.emplace (build_config_id {c.name, c.target}, + conf_machines.emplace (build_target_config_id {c.target, c.name}, config_machine {&c, &m}); } catch (const invalid_path&) {} } } - // Go through packages until we find one that has no build configuration - // present in the database, or is in the building state but expired - // (collectively called unbuilt). If such a package configuration is found - // then put it into the building state, set the current timestamp and respond - // with the task for building this package configuration. + // Go through package build configurations until we find one that has no + // build target configuration present in the database, or is in the building + // state but expired (collectively called unbuilt). If such a target + // configuration is found then put it into the building state, set the + // current timestamp and respond with the task for building this package + // configuration. // // While trying to find a non-built package configuration we will also - // collect the list of the built package configurations which it's time to - // rebuild. So if no unbuilt package is found, we will pickup one to - // rebuild. The rebuild preference is given in the following order: the - // greater force state, the greater overall status, the lower timestamp. + // collect the list of the built configurations which it's time to + // rebuild. So if no unbuilt package configuration is found, we will pickup + // one to rebuild. The rebuild preference is given in the following order: + // the greater force state, the greater overall status, the lower timestamp. // if (!conf_machines.empty ()) { @@ -208,6 +210,7 @@ handle (request& rq, response& rs) // auto task = [this] (shared_ptr<build>&& b, shared_ptr<build_package>&& p, + build_package_config&& pc, shared_ptr<build_tenant>&& t, const config_machine& cm) -> task_response_manifest { @@ -215,12 +218,13 @@ handle (request& rq, response& rs) chrono::duration_cast<std::chrono::nanoseconds> ( b->timestamp.time_since_epoch ()).count ()); - string session (b->tenant + '/' + - b->package_name.string () + '/' + - b->package_version.string () + '/' + - b->configuration + '/' + - b->target.string () + '/' + - b->toolchain_name + '/' + + string session (b->tenant + '/' + + b->package_name.string () + '/' + + b->package_version.string () + '/' + + b->target.string () + '/' + + b->target_config_name + '/' + + b->package_config_name + '/' + + b->toolchain_name + '/' + b->toolchain_version.string () + '/' + to_string (ts)); @@ -255,13 +259,24 @@ handle (request& rq, response& rs) { shared_ptr<build_package> p (td.package.load ()); + // Use the default test package configuration. + // + // Note that potentially the test package default configuration may + // contain some (bpkg) arguments associated, but we currently don't + // provide build bot worker with such information. This, however, is + // probably too far fetched so let's keep it simple for now. + // + const build_package_config* pc (find ("default", p->configs)); + assert (pc != nullptr); // Must always be present. + // Use the `all` class as a least restrictive default underlying // build class set. Note that we should only apply the explicit // build restrictions to the external test packages (think about // the `builds: all` and `builds: -windows` manifest values for // the primary and external test packages, respectively). // - if (exclude (p->builds, + if (exclude (*pc, + p->builds, p->constraints, *cm.config, nullptr /* reason */, @@ -290,6 +305,7 @@ handle (request& rq, response& rs) cm.config->target, cm.config->environment, cm.config->args, + move (pc.arguments), belongs (*cm.config, module_pkg ? "build2" : "host"), cm.config->warning_regexes, move (t->interactive), @@ -583,23 +599,26 @@ handle (request& rq, response& rs) // Prepare the build prepared query. // // Note that we can not query the database for configurations that a - // package was not built with, as the database contains only those package + // package was not built with, as the database contains only those build // configurations that have already been acted upon (initially empty). // - // This is why we query the database for package configurations that - // should not be built (in the built state, or in the building state and - // not expired). Having such a list we will select the first build + // This is why we query the database for configurations that should not be + // built (in the built state, or in the building state and not + // expired). Having such a list we will select the first build // configuration that is not in the list (if available) for the response. // using bld_query = query<build>; using prep_bld_query = prepared_query<build>; package_id id; + string pkg_config_name; bld_query sq (false); for (const auto& cm: conf_machines) - sq = sq || (bld_query::id.configuration == cm.first.name && - bld_query::id.target == cm.first.target); + sq = sq || (bld_query::id.target == cm.first.target && + bld_query::id.target_config_name == cm.first.config && + bld_query::id.package_config_name == + bld_query::_ref (pkg_config_name)); bld_query bq ( equal<build> (bld_query::id.package, id) && @@ -658,7 +677,7 @@ handle (request& rq, response& rs) // target, environment, arguments, and warning-detecting regular // expressions. // - auto controller_checksum = [] (const build_config& c) + auto controller_checksum = [] (const build_target_config& c) { sha256 cs ("1"); // Hash the logic version. @@ -705,149 +724,157 @@ handle (request& rq, response& rs) { id = move (bp.id); - // Iterate through the package configurations and erase those that - // don't need building from the build configuration map. All those - // configurations that remained can be built. We will take the first - // one, if present. - // - // Also save the built package configurations for which it's time to - // be rebuilt. - // - config_machines configs (conf_machines); // Make a copy for this pkg. - auto pkg_builds (bld_prep_query.execute ()); + shared_ptr<build_package> p (build_db_->load<build_package> (id)); - for (auto i (pkg_builds.begin ()); i != pkg_builds.end (); ++i) + for (build_package_config& pc: p->configs) { - auto j (configs.find (build_config_id {i->id.configuration, - i->id.target})); + pkg_config_name = pc.name; - // Outdated configurations are already excluded with the database - // query. + // Iterate through the built configurations and erase them from the + // build configuration map. All those configurations that remained + // can be built. We will take the first one, if present. // - assert (j != configs.end ()); - configs.erase (j); - - if (i->state == build_state::built) - { - assert (i->force != force_state::forcing); - - if (needs_rebuild (*i)) - rebuilds.emplace_back (i.load ()); - } - } - - if (!configs.empty ()) - { - // Find the first build configuration that is not excluded by the - // package. + // Also save the built configurations for which it's time to be + // rebuilt. // - shared_ptr<build_package> p (build_db_->load<build_package> (id)); + config_machines configs (conf_machines); // Make a copy for this pkg. + auto pkg_builds (bld_prep_query.execute ()); - auto i (configs.begin ()); - auto e (configs.end ()); - - for (; - i != e && - exclude (p->builds, p->constraints, *i->second.config); - ++i) ; - - if (i != e) + for (auto i (pkg_builds.begin ()); i != pkg_builds.end (); ++i) { - config_machine& cm (i->second); - machine_header_manifest& mh (*cm.machine); - - build_id bid (move (id), - cm.config->name, - cm.config->target, - move (tqm.toolchain_name), - toolchain_version); - - shared_ptr<build> b (build_db_->find<build> (bid)); - optional<string> cl (challenge ()); - - shared_ptr<build_tenant> t ( - build_db_->load<build_tenant> (bid.package.tenant)); + auto j ( + configs.find (build_target_config_id {i->id.target, + i->id.target_config_name})); - // Move the interactive build login information into the build - // object, if the package to be built interactively. + // Outdated configurations are already excluded with the database + // query. // - optional<string> login (t->interactive - ? move (tqm.interactive_login) - : nullopt); + assert (j != configs.end ()); + configs.erase (j); - // If build configuration doesn't exist then create the new one - // and persist. Otherwise put it into the building state, refresh - // the timestamp and update. - // - if (b == nullptr) + if (i->state == build_state::built) { - b = make_shared<build> (move (bid.package.tenant), - move (bid.package.name), - move (bp.version), - move (bid.configuration), - move (bid.target), - move (bid.toolchain_name), - move (toolchain_version), - move (login), - move (agent_fp), - move (cl), - mh.name, - move (mh.summary), - controller_checksum (*cm.config), - machine_checksum (*cm.machine)); - - build_db_->persist (b); + assert (i->force != force_state::forcing); + + if (needs_rebuild (*i)) + rebuilds.emplace_back (i.load ()); } - else - { - // The package configuration is in the building state. - // - // Note that in both cases we keep the status intact to be able - // to compare it with the final one in the result request - // handling in order to decide if to send the notification - // email. The same is true for the forced flag (in the sense - // that we don't set the force state to unforced). - // - assert (b->state == build_state::building); + } - b->state = build_state::building; - b->interactive = move (login); + if (!configs.empty ()) + { + // Find the first build configuration that is not excluded by the + // package configuration. + // + auto i (configs.begin ()); + auto e (configs.end ()); - // Switch the force state not to reissue the task after the - // forced rebuild timeout. Note that the result handler will - // still recognize that the rebuild was forced. - // - if (b->force == force_state::forcing) - b->force = force_state::forced; + for (; + i != e && + exclude (pc, p->builds, p->constraints, *i->second.config); + ++i) ; - b->agent_fingerprint = move (agent_fp); - b->agent_challenge = move (cl); - b->machine = mh.name; - b->machine_summary = move (mh.summary); + if (i != e) + { + config_machine& cm (i->second); + machine_header_manifest& mh (*cm.machine); - string ccs (controller_checksum (*cm.config)); - string mcs (machine_checksum (*cm.machine)); + build_id bid (move (id), + cm.config->target, + cm.config->name, + move (pkg_config_name), + move (tqm.toolchain_name), + toolchain_version); - // Issue the hard rebuild if it is forced or the configuration - // or machine has changed. - // - if (b->hard_timestamp <= hard_rebuild_expiration || - b->force == force_state::forced || - b->controller_checksum != ccs || - b->machine_checksum != mcs) - convert_to_hard (b); + shared_ptr<build> b (build_db_->find<build> (bid)); + optional<string> cl (challenge ()); - b->controller_checksum = move (ccs); - b->machine_checksum = move (mcs); + shared_ptr<build_tenant> t ( + build_db_->load<build_tenant> (bid.package.tenant)); - b->timestamp = system_clock::now (); + // Move the interactive build login information into the build + // object, if the package to be built interactively. + // + optional<string> login (t->interactive + ? move (tqm.interactive_login) + : nullopt); - build_db_->update (b); + // If build configuration doesn't exist then create the new one + // and persist. Otherwise put it into the building state, refresh + // the timestamp and update. + // + if (b == nullptr) + { + b = make_shared<build> (move (bid.package.tenant), + move (bid.package.name), + move (bp.version), + move (bid.target), + move (bid.target_config_name), + move (bid.package_config_name), + move (bid.toolchain_name), + move (toolchain_version), + move (login), + move (agent_fp), + move (cl), + mh.name, + move (mh.summary), + controller_checksum (*cm.config), + machine_checksum (*cm.machine)); + + build_db_->persist (b); + } + else + { + // The build configuration is in the building state. + // + // Note that in both cases we keep the status intact to be + // able to compare it with the final one in the result request + // handling in order to decide if to send the notification + // email. The same is true for the forced flag (in the sense + // that we don't set the force state to unforced). + // + assert (b->state == build_state::building); + + b->state = build_state::building; + b->interactive = move (login); + + // Switch the force state not to reissue the task after the + // forced rebuild timeout. Note that the result handler will + // still recognize that the rebuild was forced. + // + if (b->force == force_state::forcing) + b->force = force_state::forced; + + b->agent_fingerprint = move (agent_fp); + b->agent_challenge = move (cl); + b->machine = mh.name; + b->machine_summary = move (mh.summary); + + string ccs (controller_checksum (*cm.config)); + string mcs (machine_checksum (*cm.machine)); + + // Issue the hard rebuild if it is forced or the configuration + // or machine has changed. + // + if (b->hard_timestamp <= hard_rebuild_expiration || + b->force == force_state::forced || + b->controller_checksum != ccs || + b->machine_checksum != mcs) + convert_to_hard (b); + + b->controller_checksum = move (ccs); + b->machine_checksum = move (mcs); + + b->timestamp = system_clock::now (); + + build_db_->update (b); + } + + // Finally, prepare the task response manifest. + // + tsm = task (move (b), move (p), move (pc), move (t), cm); + break; // Bail out from the package configurations loop. } - - // Finally, prepare the task response manifest. - // - tsm = task (move (b), move (p), move (t), cm); } } @@ -861,13 +888,12 @@ handle (request& rq, response& rs) t.commit (); } - // If we don't have an unbuilt package, then let's see if we have a - // package to rebuild. + // If we don't have an unbuilt package, then let's see if we have a build + // configuration to rebuild. // if (tsm.session.empty () && !rebuilds.empty ()) { - // Sort the package configuration rebuild list with the following sort - // priority: + // Sort the configuration rebuild list with the following sort priority: // // 1: force state // 2: overall status @@ -890,7 +916,7 @@ handle (request& rq, response& rs) optional<string> cl (challenge ()); - // Pick the first package configuration from the ordered list. + // Pick the first build configuration from the ordered list. // // Note that the configurations and packages may not match the required // criteria anymore (as we have committed the database transactions that @@ -911,8 +937,9 @@ handle (request& rq, response& rs) b->state == build_state::built && needs_rebuild (*b)) { - auto i (conf_machines.find (build_config_id {b->configuration, - b->target})); + auto i (conf_machines.find ( + build_target_config_id {b->target, + b->target_config_name})); // Only actual package configurations are loaded (see above). // @@ -934,12 +961,17 @@ handle (request& rq, response& rs) ? build_db_->load<build_tenant> (p->id.tenant) : nullptr); - if (p != nullptr && + build_package_config* pc (p != nullptr + ? find (b->package_config_name, + p->configs) + : nullptr); + + if (pc != nullptr && p->buildable && (imode == interactive_mode::both || (t->interactive.has_value () == (imode == interactive_mode::true_))) && - !exclude (p->builds, p->constraints, *cm.config)) + !exclude (*pc, p->builds, p->constraints, *cm.config)) { assert (b->status); @@ -985,7 +1017,7 @@ handle (request& rq, response& rs) build_db_->update (b); - tsm = task (move (b), move (p), move (t), cm); + tsm = task (move (b), move (p), move (*pc), move (t), cm); } } |