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|
// file : mod/mod-build-task.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <mod/mod-build-task.hxx>
#include <map>
#include <regex>
#include <chrono>
#include <random>
#include <odb/database.hxx>
#include <odb/transaction.hxx>
#include <odb/schema-catalog.hxx>
#include <libbutl/ft/lang.hxx> // thread_local
#include <libbutl/regex.hxx>
#include <libbutl/sha256.hxx>
#include <libbutl/openssl.hxx>
#include <libbutl/fdstream.hxx> // nullfd
#include <libbutl/process-io.hxx>
#include <libbutl/path-pattern.hxx>
#include <libbutl/manifest-parser.hxx>
#include <libbutl/manifest-serializer.hxx>
#include <libbbot/manifest.hxx>
#include <web/server/module.hxx>
#include <libbrep/build.hxx>
#include <libbrep/build-odb.hxx>
#include <libbrep/build-package.hxx>
#include <libbrep/build-package-odb.hxx>
#include <mod/build.hxx> // send_notification_email()
#include <mod/module-options.hxx>
#include <mod/build-target-config.hxx>
using namespace std;
using namespace butl;
using namespace bbot;
using namespace brep::cli;
using namespace odb::core;
static thread_local mt19937 rand_gen (random_device {} ());
// The challenge (nonce) is randomly generated for every build task if brep is
// configured to authenticate bbot agents.
//
// Nonce generator must guarantee a probabilistically insignificant chance
// of repeating a previously generated value. The common approach is to use
// counters or random number generators (alone or in combination), that
// produce values of the sufficient length. 64-bit non-repeating and
// 512-bit random numbers are considered to be more than sufficient for
// most practical purposes.
//
// We will produce the challenge as the sha256sum of the 512-bit random
// number and the 64-bit current timestamp combination. The latter is
// not really a non-repeating counter and can't be used alone. However
// adding it is a good and cheap uniqueness improvement.
//
// Note that since generating a challenge is not exactly cheap/fast, we will
// generate it in advance for every task request, out of the database
// transaction, and will cache it if it turns out that it wasn't used (no
// package configuration to (re-)build, etc).
//
static thread_local optional<string> challenge;
// Generate a random number in the specified range (max value is included).
//
static inline size_t
rand (size_t min_val, size_t max_val)
{
// Note that size_t is not whitelisted as a type the
// uniform_int_distribution class template can be instantiated with.
//
return min_val == max_val
? min_val
: static_cast<size_t> (
uniform_int_distribution<unsigned long long> (
static_cast<unsigned long long> (min_val),
static_cast<unsigned long long> (max_val)) (rand_gen));
}
brep::build_task::
build_task (const tenant_service_map& tsm)
: tenant_service_map_ (tsm)
{
}
// While currently the user-defined copy constructor is not required (we don't
// need to deep copy nullptr's), it is a good idea to keep the placeholder
// ready for less trivial cases.
//
brep::build_task::
build_task (const build_task& r, const tenant_service_map& tsm)
: database_module (r),
build_config_module (r),
options_ (r.initialized_ ? r.options_ : nullptr),
tenant_service_map_ (tsm)
{
}
void brep::build_task::
init (scanner& s)
{
HANDLER_DIAG;
options_ = make_shared<options::build_task> (
s, unknown_mode::fail, unknown_mode::fail);
if (options_->build_config_specified ())
{
// Verify that build-alt-*-rebuild-{start,stop} are both either specified
// or not.
//
auto bad_alt = [&fail] (const char* what)
{
fail << "build-alt-" << what << "-rebuild-start and build-alt-" << what
<< "-rebuild-stop configuration options must both be either "
<< "specified or not";
};
if (options_->build_alt_soft_rebuild_start_specified () !=
options_->build_alt_soft_rebuild_stop_specified ())
bad_alt ("soft");
if (options_->build_alt_hard_rebuild_start_specified () !=
options_->build_alt_hard_rebuild_stop_specified ())
bad_alt ("hard");
database_module::init (*options_, options_->build_db_retry ());
// Check that the database 'build' schema matches the current one. It's
// enough to perform the check in just a single module implementation
// (more details in the comment in package_search::init()).
//
const string ds ("build");
if (schema_catalog::current_version (*build_db_, ds) !=
build_db_->schema_version (ds))
fail << "database 'build' schema differs from the current one (module "
<< BREP_VERSION_ID << ")";
build_config_module::init (*options_);
}
if (options_->root ().empty ())
options_->root (dir_path ("/"));
}
// Skip tenants with the freshly queued packages from the consideration (see
// tenant::queued_timestamp for the details on the service notifications race
// prevention).
//
template <typename T>
static inline query<T>
package_query (bool custom_bot,
brep::params::build_task& params,
interactive_mode imode,
uint64_t queued_expiration_ns)
{
using namespace brep;
using query = query<T>;
query q (!query::build_tenant::archived);
if (custom_bot)
{
// Note that we could potentially only query the packages which refer to
// this custom bot key in one of their build configurations. For that we
// would need to additionally join the current query tables with the bot
// fingerprint-containing build_package_bot_keys and
// build_package_config_bot_keys tables and use the SELECT DISTINCT
// clause. The problem is that we also use the ORDER BY clause and in this
// case PostgreSQL requires all the ORDER BY clause expressions to also be
// present in the SELECT DISTINCT clause and fails with the 'for SELECT
// DISTINCT, ORDER BY expressions must appear in select list' error if
// that's not the case. Also note that in the ODB-generated code the
// 'build_package.project::TEXT' expression in the SELECT DISTINCT clause
// (see the CITEXT type mapping for details in libbrep/common.hxx) would
// not match the 'build_package.name' expression in the ORDER BY clause
// and so we will end up with the mentioned error. One (hackish) way to
// fix that would be to add a dummy member of the string type for the
// build_package.name column. This all sounds quite hairy at the moment
// and it also feels that this can potentially pessimize querying the
// packages built with the default bots only. Thus let's keep it simple
// for now and filter packages by the bot fingerprint at the program
// level.
//
q = q && (query::build_package::custom_bot.is_null () ||
query::build_package::custom_bot);
}
else
q = q && (query::build_package::custom_bot.is_null () ||
!query::build_package::custom_bot);
// Filter by repositories canonical names (if requested).
//
const strings& rp (params.repository ());
if (!rp.empty ())
q = q &&
query::build_repository::id.canonical_name.in_range (rp.begin (),
rp.end ());
// Filter by the types of services associated with the tenants, where the
// empty type denotes tenants without associated service.
//
if (params.tenant_service_type_specified ())
{
cstrings ts;
bool et (false);
for (const string& t: params.tenant_service_type ())
{
if (!t.empty ())
ts.push_back (t.c_str ());
else
et = true;
}
if (!ts.empty () && et)
{
q = q &&
(query::build_tenant::service.type.in_range (ts.begin (), ts.end ()) ||
query::build_tenant::service.type.is_null ());
}
else if (!ts.empty ())
{
q = q && query::build_tenant::service.type.in_range (ts.begin (),
ts.end ());
}
else
{
assert (et);
q = q && query::build_tenant::service.type.is_null ();
}
}
// If the interactive mode is false or true, then filter out the respective
// packages.
//
switch (imode)
{
case interactive_mode::false_:
{
q = q && query::build_tenant::interactive.is_null ();
break;
}
case interactive_mode::true_:
{
q = q && query::build_tenant::interactive.is_not_null ();
break;
}
case interactive_mode::both: break;
}
return q &&
(query::build_tenant::queued_timestamp.is_null () ||
query::build_tenant::queued_timestamp < queued_expiration_ns);
}
bool brep::build_task::
handle (request& rq, response& rs)
{
HANDLER_DIAG;
if (build_db_ == nullptr)
throw invalid_request (501, "not implemented");
params::build_task params;
try
{
// Note that we expect the task request manifest to be posted and so
// consider parameters from the URL only.
//
name_value_scanner s (rq.parameters (0 /* limit */, true /* url_only */));
params = params::build_task (s, unknown_mode::fail, unknown_mode::fail);
}
catch (const cli::exception& e)
{
throw invalid_request (400, e.what ());
}
task_request_manifest tqm;
try
{
// We fully cache the request content to be able to retry the request
// handling if odb::recoverable is thrown (see database-module.cxx for
// details).
//
size_t limit (options_->build_task_request_max_size ());
manifest_parser p (rq.content (limit, limit), "task_request_manifest");
tqm = task_request_manifest (p);
}
catch (const manifest_parsing& e)
{
throw invalid_request (400, e.what ());
}
// Obtain the agent's public key fingerprint if requested. If the
// fingerprint is requested but is not present in the request, then respond
// with 401 HTTP code (unauthorized). If a key with the specified
// fingerprint is not present in the build bot agent keys directory, then
// assume that this is a custom build bot.
//
// Note that if the agent authentication is not configured (the agent keys
// directory is not specified), then the bot can never be custom and its
// fingerprint is ignored, if present.
//
optional<string> agent_fp;
bool custom_bot (false);
if (bot_agent_key_map_ != nullptr)
{
if (!tqm.fingerprint)
throw invalid_request (401, "unauthorized");
agent_fp = move (tqm.fingerprint);
custom_bot = (bot_agent_key_map_->find (*agent_fp) ==
bot_agent_key_map_->end ());
}
// The resulting task manifest and the related build, package, and
// configuration objects. Note that the latter 3 are only meaningful if the
// the task manifest is present.
//
task_response_manifest task_response;
shared_ptr<build> task_build;
shared_ptr<build_package> task_package;
const build_package_config* task_config;
auto serialize_task_response_manifest = [&task_response, &rs] ()
{
// @@ Probably it would be a good idea to also send some cache control
// headers to avoid caching by HTTP proxies. That would require
// extension of the web::response interface.
//
manifest_serializer s (rs.content (200, "text/manifest;charset=utf-8"),
"task_response_manifest");
task_response.serialize (s);
};
interactive_mode imode (tqm.effective_interactive_mode ());
// Restict the interactive mode (specified by the task request manifest) if
// the interactive parameter is specified and is other than "both". If
// values specified by the parameter and manifest are incompatible (false vs
// true), then just bail out responding with the manifest with an empty
// session.
//
if (params.interactive () != interactive_mode::both)
{
if (imode != interactive_mode::both)
{
if (params.interactive () != imode)
{
serialize_task_response_manifest ();
return true;
}
}
else
imode = params.interactive (); // Can only change both to true or false.
}
// 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_target_config* config;
machine_header_manifest* machine;
};
using config_machines = map<build_target_config_id, config_machine>;
config_machines conf_machines;
for (const build_target_config& c: *target_conf_)
{
for (machine_header_manifest& m: tqm.machines)
{
if (m.effective_role () == machine_role::build)
try
{
// The same story as in exclude() from build-target-config.cxx.
//
if (path_match (dash_components_to_path (m.name),
dash_components_to_path (c.machine_pattern),
dir_path () /* start */,
path_match_flags::match_absent))
{
conf_machines.emplace (build_target_config_id {c.target, c.name},
config_machine {&c, &m});
break;
}
}
catch (const invalid_path&) {}
}
}
// Collect the auxiliary configurations/machines available for the build.
//
struct auxiliary_config_machine
{
string config;
const machine_header_manifest* machine;
};
vector<auxiliary_config_machine> auxiliary_config_machines;
for (const machine_header_manifest& m: tqm.machines)
{
if (m.effective_role () == machine_role::auxiliary)
{
// Derive the auxiliary configuration name by stripping the first
// (architecture) component from the machine name.
//
size_t p (m.name.find ('-'));
if (p == string::npos || p == 0 || p == m.name.size () - 1)
throw invalid_request (400,
(string ("no ") +
(p == 0 ? "architecture" : "OS") +
" component in machine name '" + m.name + "'"));
auxiliary_config_machines.push_back (
auxiliary_config_machine {string (m.name, p + 1), &m});
}
}
// Acquire the database connection for the subsequent transactions.
//
// Note that we will release it prior to any potentially time-consuming
// operations (such as HTTP requests) and re-acquire it again afterwards,
// if required.
//
connection_ptr conn (build_db_->connection ());
// Perform some housekeeping first.
//
// Notify a tenant-associated third-party service about the unloaded CI
// request, if present.
//
{
const tenant_service_build_unloaded* tsu (nullptr);
transaction tr (conn->begin ());
using query = query<build_tenant>;
// Pick the unloaded tenant with the earliest loaded timestamp, skipping
// those which were already picked recently.
//
shared_ptr<build_tenant> t (
build_db_->query_one<build_tenant> (
(!query::archived &&
query::unloaded_timestamp.is_not_null () &&
(query::unloaded_timestamp +
"<= EXTRACT (EPOCH FROM NOW()) * 1000000000 - " +
query::unloaded_notify_interval)) +
"ORDER BY" + query::unloaded_timestamp +
"LIMIT 1"));
if (t != nullptr && t->service)
{
auto i (tenant_service_map_.find (t->service->type));
if (i != tenant_service_map_.end ())
{
tsu = dynamic_cast<const tenant_service_build_unloaded*> (
i->second.get ());
if (tsu != nullptr)
{
// If we ought to call the
// tenant_service_build_unloaded::build_unloaded() callback, then
// set the package tenant's loaded timestamp to the current time to
// prevent the notifications race.
//
t->unloaded_timestamp = system_clock::now ();
build_db_->update (t);
}
}
}
tr.commit ();
if (tsu != nullptr)
{
// Release the database connection since the build_unloaded()
// notification can potentially be time-consuming (e.g., it may perform
// an HTTP request).
//
conn.reset ();
tenant_service& ts (*t->service);
string type (ts.type);
string id (ts.id);
if (auto f = tsu->build_unloaded (t->id, move (ts), log_writer_))
{
conn = build_db_->connection ();
update_tenant_service_state (conn, type, id, f);
}
}
}
// 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 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 ())
{
vector<shared_ptr<build>> rebuilds;
// Create the task response manifest. Must be called inside the build db
// transaction.
//
auto task = [this] (const build& b,
const build_package& p,
const build_package_config& pc,
small_vector<bpkg::test_dependency, 1>&& tests,
vector<auxiliary_machine>&& ams,
optional<string>&& interactive,
const config_machine& cm) -> task_response_manifest
{
uint64_t ts (
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.target.string () + '/' +
b.target_config_name + '/' +
b.package_config_name + '/' +
b.toolchain_name + '/' +
b.toolchain_version.string () + '/' +
to_string (ts));
string tenant (tenant_dir (options_->root (), b.tenant).string ());
string result_url (options_->host () + tenant + "?build-result");
assert (transaction::has_current ());
assert (p.internal ()); // The package is expected to be buildable.
shared_ptr<build_repository> r (p.internal_repository.load ());
strings fps;
if (r->certificate_fingerprint)
fps.emplace_back (move (*r->certificate_fingerprint));
const package_name& pn (p.id.name);
bool module_pkg (pn.string ().compare (0, 10, "libbuild2-") == 0);
// Note that the auxiliary environment is crafted by the bbot agent
// after the auxiliary machines are booted.
//
task_manifest task (pn,
p.version,
move (r->location),
move (fps),
p.requirements,
move (tests),
b.dependency_checksum,
cm.machine->name,
move (ams),
cm.config->target,
cm.config->environment,
nullopt /* auxiliary_environment */,
cm.config->args,
pc.arguments,
belongs (*cm.config, module_pkg ? "build2" : "host"),
cm.config->warning_regexes,
move (interactive),
b.worker_checksum);
// Collect the build artifacts upload URLs, skipping those which are
// excluded with the upload-*-exclude configuration options.
//
vector<upload_url> upload_urls;
for (const auto& ud: options_->upload_data ())
{
const string& t (ud.first);
auto exclude = [&t] (const multimap<string, string>& mm,
const string& v)
{
auto range (mm.equal_range (t));
for (auto i (range.first); i != range.second; ++i)
{
if (i->second == v)
return true;
}
return false;
};
if (!exclude (options_->upload_toolchain_exclude (),
b.toolchain_name) &&
!exclude (options_->upload_repository_exclude (),
r->canonical_name))
{
upload_urls.emplace_back (options_->host () + tenant + "?upload=" + t,
t);
}
}
return task_response_manifest (move (session),
b.agent_challenge,
move (result_url),
move (upload_urls),
b.agent_checksum,
move (task));
};
// Calculate the build/rebuild (building/built state) and the `queued`
// notifications expiration time for package configurations.
//
timestamp now (system_clock::now ());
auto expiration = [&now] (size_t timeout) -> timestamp
{
return now - chrono::seconds (timeout);
};
auto expiration_ns = [&expiration] (size_t timeout) -> uint64_t
{
return chrono::duration_cast<chrono::nanoseconds> (
expiration (timeout).time_since_epoch ()).count ();
};
uint64_t normal_result_expiration_ns (
expiration_ns (options_->build_result_timeout ()));
uint64_t forced_result_expiration_ns (
expiration_ns (options_->build_forced_rebuild_timeout ()));
timestamp forced_rebuild_expiration (
expiration (options_->build_forced_rebuild_timeout ()));
uint64_t queued_expiration_ns (
expiration_ns (options_->build_queued_timeout ()));
// Calculate the soft/hard rebuild expiration time, based on the
// respective build-{soft,hard}-rebuild-timeout and
// build-alt-{soft,hard}-rebuild-{start,stop,timeout} configuration
// options.
//
// If normal_timeout is zero, then return timestamp_unknown to indicate
// 'never expire'. Note that this value is less than any build timestamp
// value, including timestamp_nonexistent.
//
// NOTE: there is a similar code in monitor/monitor.cxx.
//
auto build_expiration = [&now] (
const optional<pair<duration, duration>>& alt_interval,
optional<size_t> alt_timeout,
size_t normal_timeout)
{
if (normal_timeout == 0)
return timestamp_unknown;
timestamp r;
chrono::seconds nt (normal_timeout);
if (alt_interval)
{
const duration& start (alt_interval->first);
const duration& stop (alt_interval->second);
duration dt (daytime (now));
// Note that if the stop time is less than the start time then the
// interval extends through the midnight.
//
bool use_alt_timeout (start <= stop
? dt >= start && dt < stop
: dt >= start || dt < stop);
// If we out of the alternative rebuild timeout interval, then fall
// back to using the normal rebuild timeout.
//
if (use_alt_timeout)
{
// Calculate the alternative timeout, unless it is specified
// explicitly.
//
duration t;
if (!alt_timeout)
{
t = start <= stop ? (stop - start) : ((24h - start) + stop);
// If the normal rebuild timeout is greater than 24 hours, then
// increase the default alternative timeout by (normal - 24h) (see
// build-alt-soft-rebuild-timeout configuration option for
// details).
//
if (nt > 24h)
t += nt - 24h;
}
else
t = chrono::seconds (*alt_timeout);
r = now - t;
}
}
return r != timestamp_nonexistent ? r : (now - nt);
};
timestamp soft_rebuild_expiration (
build_expiration (
(options_->build_alt_soft_rebuild_start_specified ()
? make_pair (options_->build_alt_soft_rebuild_start (),
options_->build_alt_soft_rebuild_stop ())
: optional<pair<duration, duration>> ()),
(options_->build_alt_soft_rebuild_timeout_specified ()
? options_->build_alt_soft_rebuild_timeout ()
: optional<size_t> ()),
options_->build_soft_rebuild_timeout ()));
timestamp hard_rebuild_expiration (
build_expiration (
(options_->build_alt_hard_rebuild_start_specified ()
? make_pair (options_->build_alt_hard_rebuild_start (),
options_->build_alt_hard_rebuild_stop ())
: optional<pair<duration, duration>> ()),
(options_->build_alt_hard_rebuild_timeout_specified ()
? options_->build_alt_hard_rebuild_timeout ()
: optional<size_t> ()),
options_->build_hard_rebuild_timeout ()));
// Convert butl::standard_version type to brep::version.
//
brep::version toolchain_version (tqm.toolchain_version.string ());
string& toolchain_name (tqm.toolchain_name);
// Prepare the buildable package prepared query.
//
// Note that the number of packages can be large and so, in order not to
// hold locks for too long, we will restrict the number of packages being
// queried in a single transaction. To achieve this we will iterate through
// packages using the OFFSET/LIMIT pair and sort the query result.
//
// Note that this approach can result in missing some packages or
// iterating multiple times over some of them. However there is nothing
// harmful in that: updates are infrequent and missed packages will be
// picked up on the next request.
//
// Also note that we disregard the request tenant and operate on the whole
// set of the packages and builds. In future we may add support for
// building packages for a specific tenant.
//
using pkg_query = query<buildable_package>;
using prep_pkg_query = prepared_query<buildable_package>;
pkg_query pq (package_query<buildable_package> (custom_bot,
params,
imode,
queued_expiration_ns));
// Transform (in-place) the interactive login information into the actual
// login command, if specified in the manifest and the transformation
// regexes are specified in the configuration.
//
if (tqm.interactive_login &&
options_->build_interactive_login_specified ())
{
optional<string> lc;
string l (tqm.agent + ' ' + *tqm.interactive_login);
// Use the first matching regex for the transformation.
//
for (const pair<regex, string>& rf: options_->build_interactive_login ())
{
pair<string, bool> r (regex_replace_match (l, rf.first, rf.second));
if (r.second)
{
lc = move (r.first);
break;
}
}
if (!lc)
throw invalid_request (400, "unable to match login info '" + l + '\'');
tqm.interactive_login = move (lc);
}
// In the random package ordering mode iterate over the packages list by
// starting from the random offset and wrapping around when reaching the
// end.
//
// Note, however, that since there can be some packages which are already
// built for all configurations and are not archived yet, picking an
// unbuilt package this way may not work as desired. Think of the
// following case with 5 packages in 3 non-archived tenants:
//
// 0: A - unbuilt, tenant 1
// 1: B - built, tenant 2
// 2: C - built, tenant 2
// 3: D - built, tenant 2
// 4: E - unbuilt, tenant 3
//
// If we just pick a random starting offset in the [0, 4] range, then we
// will build A package with probability 0.2 and E with probability 0.8.
//
// To fix that we will only try to build a package from a tenant that the
// random starting offset refers to. Failed that, we will randomly pick
// new starting offset and retry. To make sure we don't retry indefinitely
// when there are no more packages to build (and also for the sake of
// optimization; see below), we will track positions of packages which we
// (unsuccessfully) have already tried to build and skip them while
// generating the random starting offsets and while iterating over
// packages.
//
// Also note that since we iterate over packages in chunks, each queried
// in a separate transaction, the number of packages may potentially
// increase or decrease while iterating over them. Thus, to keep things
// consistent, we may need to update our tried positions tracking state
// accordingly (not to cycle, not to refer to an entry out of the list
// boundaries, etc). Generally, regardless whether the number of packages
// has changed or not, the offsets and position statuses may now refer to
// some different packages. The only sensible thing we can do in such
// cases (without trying to detect this situation and restart from
// scratch) is to serve the request and issue some build task, if
// possible.
//
bool random (options_->build_package_order () == build_order::random);
size_t start_offset (0);
// List of "tried to build" package statuses. True entries denote
// positions of packages which we have tried to build. Initially all
// entries are false.
//
vector<bool> tried_positions;
// Number of false entries in the above vector. Used merely as an
// optimization to bail out.
//
size_t untried_positions_count (0);
// Return a random position of a package that we have not yet tried to
// build, if present, and nullopt otherwise.
//
auto rand_position = [&tried_positions,
&untried_positions_count] () -> optional<size_t>
{
assert (untried_positions_count <= tried_positions.size ());
if (untried_positions_count == 0)
return nullopt;
size_t r;
while (tried_positions[r = rand (0, tried_positions.size () - 1)]) ;
return r;
};
// Mark the package at specified position as tried to build. Assume that
// it is not yet been tried to build.
//
auto position_tried = [&tried_positions,
&untried_positions_count] (size_t i)
{
assert (i < tried_positions.size () &&
!tried_positions[i] &&
untried_positions_count != 0);
tried_positions[i] = true;
--untried_positions_count;
};
// Resize the tried positions list and update the untried positions
// counter accordingly if the package number has changed.
//
// For simplicity, assume that packages are added/removed to/from the end
// of the list. Note that misguessing in such a rare cases are possible
// but not harmful (see above for the reasoning).
//
auto resize_tried_positions = [&tried_positions, &untried_positions_count]
(size_t n)
{
if (n > tried_positions.size ()) // Packages added?
{
untried_positions_count += n - tried_positions.size ();
tried_positions.resize (n, false);
}
else if (n < tried_positions.size ()) // Packages removed?
{
for (size_t i (n); i != tried_positions.size (); ++i)
{
if (!tried_positions[i])
{
assert (untried_positions_count != 0);
--untried_positions_count;
}
}
tried_positions.resize (n);
}
else
{
// Not supposed to be called if the number of packages didn't change.
//
assert (false);
}
};
if (random)
{
using query = query<buildable_package_count>;
query q (package_query<buildable_package_count> (custom_bot,
params,
imode,
queued_expiration_ns));
if (conn == nullptr)
conn = build_db_->connection ();
transaction t (conn->begin ());
// If there are any non-archived interactive build tenants, then the
// chosen randomization approach doesn't really work since interactive
// tenants must be preferred over non-interactive ones, which is
// achieved by proper ordering of the package query result (see below).
// Thus, we just disable randomization if there are any interactive
// tenants.
//
// But shouldn't we randomize the order between packages in multiple
// interactive tenants? Given that such a tenant may only contain a
// single package and can only be built in a single configuration that
// is probably not important. However, we may assume that the
// randomization still happens naturally due to the random nature of the
// tenant id, which is used as a primary sorting criteria (see below).
//
size_t interactive_package_count (
build_db_->query_value<buildable_package_count> (
q && query::build_tenant::interactive.is_not_null ()));
if (interactive_package_count == 0)
{
untried_positions_count =
build_db_->query_value<buildable_package_count> (q);
}
else
random = false;
t.commit ();
if (untried_positions_count != 0)
{
tried_positions.resize (untried_positions_count, false);
optional<size_t> so (rand_position ());
assert (so); // Wouldn't be here otherwise.
start_offset = *so;
}
}
if (!random || !tried_positions.empty ())
{
// Specify the portion.
//
size_t offset (start_offset);
size_t limit (50);
pq += "ORDER BY";
// If the interactive mode is both, then order the packages so that ones
// from the interactive build tenants appear first.
//
if (imode == interactive_mode::both)
pq += pkg_query::build_tenant::interactive + "NULLS LAST,";
pq += pkg_query::build_package::id.tenant + "," +
pkg_query::build_package::id.name +
order_by_version (pkg_query::build_package::id.version, false) +
"OFFSET" + pkg_query::_ref (offset) +
"LIMIT" + pkg_query::_ref (limit);
if (conn == nullptr)
conn = build_db_->connection ();
prep_pkg_query pkg_prep_query (
conn->prepare_query<buildable_package> (
"mod-build-task-package-query", pq));
// 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 build
// configurations that have already been acted upon (initially empty).
//
// 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;
bld_query sq (false);
for (const auto& cm: conf_machines)
sq = sq || (bld_query::id.target == cm.first.target &&
bld_query::id.target_config_name == cm.first.config);
bld_query bq (
equal<build> (bld_query::id.package, id) &&
bld_query::id.package_config_name == bld_query::_ref (pkg_config) &&
sq &&
bld_query::id.toolchain_name == toolchain_name &&
compare_version_eq (bld_query::id.toolchain_version,
canonical_version (toolchain_version),
true /* revision */) &&
(bld_query::state == "built" ||
(bld_query::state == "building" &&
((bld_query::force == "forcing" &&
bld_query::timestamp > forced_result_expiration_ns) ||
(bld_query::force != "forcing" && // Unforced or forced.
bld_query::timestamp > normal_result_expiration_ns)))));
prep_bld_query bld_prep_query (
conn->prepare_query<build> ("mod-build-task-build-query", bq));
// Return true if a package needs to be rebuilt.
//
auto needs_rebuild = [&forced_rebuild_expiration,
&soft_rebuild_expiration,
&hard_rebuild_expiration] (const build& b)
{
assert (b.state == build_state::built);
return (b.force == force_state::forced &&
b.timestamp <= forced_rebuild_expiration) ||
b.soft_timestamp <= soft_rebuild_expiration ||
b.hard_timestamp <= hard_rebuild_expiration;
};
// Convert a build to the hard rebuild, resetting the agent checksum.
//
// Note that since the checksums are hierarchical, the agent checksum
// reset will trigger resets of the "subordinate" checksums up to the
// dependency checksum and so the package will be rebuilt.
//
// Also note that we keep the previous build task result and status
// intact since we may still need to revert the build into the built
// state if the task execution is interrupted.
//
auto convert_to_hard = [] (const shared_ptr<build>& b)
{
b->agent_checksum = nullopt;
};
// Return SHA256 checksum of the controller logic and the configuration
// target, environment, arguments, and warning-detecting regular
// expressions.
//
auto controller_checksum = [] (const build_target_config& c)
{
sha256 cs ("1"); // Hash the logic version.
cs.append (c.target.string ());
cs.append (c.environment ? *c.environment : "");
for (const string& a: c.args)
cs.append (a);
for (const string& re: c.warning_regexes)
cs.append (re);
return string (cs.string ());
};
// Return the machine id as a machine checksum.
//
// Note that we don't include auxiliary machine ids into this checksum
// since a different machine will most likely get picked for a pattern.
// And we view all auxiliary machines that match a pattern as equal for
// testing purposes (in other words, pattern is not the way to get
// coverage).
//
auto machine_checksum = [] (const machine_header_manifest& m)
{
return m.id;
};
// Tenant that the start offset refers to.
//
optional<string> start_tenant;
// If the build task is created and the tenant of the being built
// package has a third-party service state associated with it, then
// check if the tenant_service_build_building and/or
// tenant_service_build_queued callbacks are registered for the type of
// the associated service. If they are, then stash the state, the build
// object, and the callback pointers for the subsequent service
// notifications.
//
// Also, if the tenant_service_build_queued callback is registered, then
// create, persist, and stash the queued build objects for all the
// unbuilt by the current toolchain and not yet queued configurations of
// the package the build task is created for and calculate the hints.
// Note that for the task build, we need to make sure that the
// third-party service receives the `queued` notification prior to the
// `building` notification (see mod/tenant-service.hxx for valid
// transitions). The `queued` notification is assumed to be already sent
// for the build if the respective object exists and any of the
// following is true for it:
//
// - It is in the queued state (initial_state is build_state::queued).
//
// - It is a user-forced rebuild of an incomplete build
// (rebuild_forced_build is true).
//
// - It is a rebuild of an interrupted rebuild (rebuild_forced_build is
// true).
//
const tenant_service_build_building* tsb (nullptr);
const tenant_service_build_queued* tsq (nullptr);
optional<pair<tenant_service, shared_ptr<build>>> tss;
vector<build> qbs;
tenant_service_build_queued::build_queued_hints qhs;
optional<build_state> initial_state;
bool rebuild_forced_build (false);
bool rebuild_interrupted_rebuild (false);
// Create, persist, and return the queued build objects for all the
// unbuilt by the current toolchain and not yet queued configurations of
// the specified package.
//
// Note that the build object argument is only used for the toolchain
// information retrieval. Also note that the package constraints section
// is expected to be loaded.
//
auto queue_builds = [this] (const build_package& p, const build& b)
{
assert (p.constraints_section.loaded ());
// Query the existing build ids and stash them into the set.
//
set<build_id> existing_builds;
using query = query<package_build_id>;
query q (query::build::id.package == p.id &&
query::build::id.toolchain_name == b.toolchain_name &&
compare_version_eq (query::build::id.toolchain_version,
b.id.toolchain_version,
true /* revision */));
for (build_id& id: build_db_->query<package_build_id> (q))
existing_builds.emplace (move (id));
// Go through all the potential package builds and queue those which
// are not in the existing builds set.
//
vector<build> r;
for (const build_package_config& pc: p.configs)
{
for (const build_target_config& tc: *target_conf_)
{
if (!exclude (pc, p.builds, p.constraints, tc))
{
build_id id (p.id,
tc.target, tc.name,
pc.name,
b.toolchain_name, b.toolchain_version);
if (existing_builds.find (id) == existing_builds.end ())
{
r.emplace_back (move (id.package.tenant),
move (id.package.name),
p.version,
move (id.target),
move (id.target_config_name),
move (id.package_config_name),
move (id.toolchain_name),
b.toolchain_version);
// @@ TODO Persist the whole vector of builds with a single
// operation if/when bulk operations support is added
// for objects with containers.
//
build_db_->persist (r.back ());
}
}
}
}
return r;
};
auto queue_hints = [this] (const build_package& p)
{
buildable_package_count tpc (
build_db_->query_value<buildable_package_count> (
query<buildable_package_count>::build_tenant::id == p.id.tenant));
return tenant_service_build_queued::build_queued_hints {
tpc == 1, p.configs.size () == 1};
};
// Collect the auxiliary machines required for testing of the specified
// package configuration and the external test packages, if present for
// the specified target configuration (task_auxiliary_machines),
// together with the auxiliary machines information that needs to be
// persisted in the database as a part of the build object
// (build_auxiliary_machines, which is parallel to
// task_auxiliary_machines). While at it collect the involved test
// dependencies. Return nullopt if any auxiliary configuration patterns
// may not be resolved to the auxiliary machines (no matching
// configuration, auxiliary machines RAM limit is exceeded, etc).
//
// Note that if the same auxiliary environment name is used for multiple
// packages (for example, for the main and tests packages or for the
// tests and examples packages, etc), then a shared auxiliary machine is
// used for all these packages. In this case all the respective
// configuration patterns must match the configuration derived from this
// machine name. If they don't, then return nullopt. The thinking here
// is that on the next task request a machine whose derived
// configuration matches all the patterns can potentially be picked.
//
struct collect_auxiliaries_result
{
vector<auxiliary_machine> task_auxiliary_machines;
vector<build_machine> build_auxiliary_machines;
small_vector<bpkg::test_dependency, 1> tests;
};
auto collect_auxiliaries = [&tqm, &auxiliary_config_machines, this]
(const shared_ptr<build_package>& p,
const build_package_config& pc,
const build_target_config& tc)
-> optional<collect_auxiliaries_result>
{
// The list of the picked build auxiliary machines together with the
// environment names they have been picked for.
//
vector<pair<auxiliary_config_machine, string>> picked_machines;
// Try to randomly pick the auxiliary machine that matches the
// specified pattern and which can be supplied with the minimum
// required RAM, if specified. Return false if such a machine is not
// available. If a machine is already picked for the specified
// environment name, then return true if the machine's configuration
// matches the specified pattern and false otherwise.
//
auto pick_machine =
[&tqm,
&picked_machines,
used_ram = uint64_t (0),
available_machines = auxiliary_config_machines]
(const build_auxiliary& ba) mutable -> bool
{
vector<size_t> ams; // Indexes of the available matching machines.
optional<uint64_t> ar (tqm.auxiliary_ram);
// If the machine configuration name pattern (which is legal) or any
// of the machine configuration names (illegal) are invalid paths,
// then we assume we cannot pick the machine.
//
try
{
// The same story as in exclude() from build-target-config.cxx.
//
auto match = [pattern = dash_components_to_path (ba.config)]
(const string& config)
{
return path_match (dash_components_to_path (config),
pattern,
dir_path () /* start */,
path_match_flags::match_absent);
};
// Check if a machine is already picked for the specified
// environment name.
//
for (const auto& m: picked_machines)
{
if (m.second == ba.environment_name)
return match (m.first.config);
}
// Collect the matching machines from the list of the available
// machines and bail out if there are none.
//
for (size_t i (0); i != available_machines.size (); ++i)
{
const auxiliary_config_machine& m (available_machines[i]);
optional<uint64_t> mr (m.machine->ram_minimum);
if (match (m.config) && (!mr || !ar || used_ram + *mr <= *ar))
ams.push_back (i);
}
if (ams.empty ())
return false;
}
catch (const invalid_path&)
{
return false;
}
// Pick the matching machine randomly.
//
size_t i (ams[rand (0, ams.size () - 1)]);
auxiliary_config_machine& cm (available_machines[i]);
// Bump the used RAM.
//
if (optional<uint64_t> r = cm.machine->ram_minimum)
used_ram += *r;
// Move out the picked machine from the available machines list.
//
picked_machines.emplace_back (move (cm), ba.environment_name);
available_machines.erase (available_machines.begin () + i);
return true;
};
// Collect auxiliary machines for the main package build configuration.
//
for (const build_auxiliary& ba:
pc.effective_auxiliaries (p->auxiliaries))
{
if (!pick_machine (ba))
return nullopt; // No matched auxiliary machine.
}
// Collect the test packages and the auxiliary machines for their
// default build configurations. Exclude external test packages which
// exclude the current target configuration.
//
small_vector<bpkg::test_dependency, 1> tests;
if (!p->requirements_tests_section.loaded ())
build_db_->load (*p, p->requirements_tests_section);
for (const build_test_dependency& td: p->tests)
{
// Don't exclude unresolved external tests.
//
// Note that this may result in the build task failure. However,
// silently excluding such tests could end up with missed software
// bugs which feels much worse.
//
if (td.package != nullptr)
{
shared_ptr<build_package> tp (td.package.load ());
// Try to use the test package configuration named the same as the
// current configuration of the main package. If there is no such
// a configuration, then fallback to using the default
// configuration (which must exist). If the selected test package
// configuration excludes the current target configuration, then
// exclude this external test package from the build task.
//
// Note that potentially the selected test package 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* tpc (find (pc.name, tp->configs));
if (tpc == nullptr)
{
tpc = find ("default", tp->configs);
assert (tpc != 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).
//
build_db_->load (*tp, tp->constraints_section);
if (exclude (*tpc,
tp->builds,
tp->constraints,
tc,
nullptr /* reason */,
true /* default_all_ucs */))
continue;
build_db_->load (*tp, tp->auxiliaries_section);
for (const build_auxiliary& ba:
tpc->effective_auxiliaries (tp->auxiliaries))
{
if (!pick_machine (ba))
return nullopt; // No matched auxiliary machine.
}
}
tests.emplace_back (td.name,
td.type,
td.buildtime,
td.constraint,
td.enable,
td.reflect);
}
vector<auxiliary_machine> tms;
vector<build_machine> bms;
if (size_t n = picked_machines.size ())
{
tms.reserve (n);
bms.reserve (n);
for (pair<auxiliary_config_machine, string>& pm: picked_machines)
{
const machine_header_manifest& m (*pm.first.machine);
tms.push_back (auxiliary_machine {m.name, move (pm.second)});
bms.push_back (build_machine {m.name, m.summary});
}
}
return collect_auxiliaries_result {
move (tms), move (bms), move (tests)};
};
if (agent_fp && !challenge)
try
{
auto print_args = [&trace, this] (const char* args[], size_t n)
{
l2 ([&]{trace << process_args {args, n};});
};
openssl os (print_args,
nullfd, path ("-"), 2,
process_env (options_->openssl (),
options_->openssl_envvar ()),
"rand",
options_->openssl_option (), 64);
vector<char> nonce (os.in.read_binary ());
os.in.close ();
if (!os.wait () || nonce.size () != 64)
fail << "unable to generate nonce";
uint64_t t (chrono::duration_cast<chrono::nanoseconds> (
now.time_since_epoch ()).count ());
sha256 cs (nonce.data (), nonce.size ());
cs.append (&t, sizeof (t));
challenge = cs.string ();
}
catch (const system_error& e)
{
fail << "unable to generate nonce: " << e;
}
// While at it, collect the aborted for various reasons builds
// (interactive builds in multiple configurations, builds with too many
// auxiliary machines, etc) to send the notification emails at the end
// of the request handling.
//
struct aborted_build
{
shared_ptr<build> b;
shared_ptr<build_package> p;
const build_package_config* pc;
const char* what;
};
vector<aborted_build> aborted_builds;
// Note: is only used for crafting of the notification email subjects.
//
bool unforced (true);
for (bool done (false); !task_response.task && !done; )
{
transaction tr (conn->begin ());
// We need to be careful in the random package ordering mode not to
// miss the end after having wrapped around.
//
done = (start_offset != 0 &&
offset < start_offset &&
offset + limit >= start_offset);
if (done)
limit = start_offset - offset;
// Query (and cache) buildable packages.
//
auto packages (pkg_prep_query.execute ());
size_t chunk_size (packages.size ());
size_t next_offset (offset + chunk_size);
// If we are in the random package ordering mode, then also check if
// the package number has changed and, if that's the case, resize the
// tried positions list accordingly.
//
if (random &&
(next_offset > tried_positions.size () ||
(next_offset < tried_positions.size () && chunk_size < limit)))
{
resize_tried_positions (next_offset);
}
// Bail out if there is nothing left, unless we need to wrap around in
// the random package ordering mode.
//
if (chunk_size == 0)
{
tr.commit ();
if (start_offset != 0 && offset >= start_offset)
offset = 0;
else
done = true;
continue;
}
size_t position (offset); // Current package position.
offset = next_offset;
// Iterate over packages until we find one that needs building or have
// to bail out in the random package ordering mode for some reason (no
// more untried positions, need to restart, etc).
//
// Note that it is not uncommon for the sequentially examined packages
// to belong to the same tenant (single tenant mode, etc). Thus, we
// will cache the loaded tenant objects.
//
shared_ptr<build_tenant> t;
for (auto& bp: packages)
{
shared_ptr<build_package>& p (bp.package);
id = p->id;
// Reset the tenant cache if the current package belongs to a
// different tenant.
//
if (t != nullptr && t->id != id.tenant)
t = nullptr;
// If we are in the random package ordering mode, then cache the
// tenant the start offset refers to, if not cached yet, and check
// if we are still iterating over packages from this tenant
// otherwise. If the latter is not the case, then restart from a new
// random untried offset, if present, and bail out otherwise.
//
if (random)
{
if (!start_tenant)
{
start_tenant = id.tenant;
}
else if (*start_tenant != id.tenant)
{
if (optional<size_t> so = rand_position ())
{
start_offset = *so;
offset = start_offset;
start_tenant = nullopt;
limit = 50;
done = false;
}
else
done = true;
break;
}
size_t pos (position++);
// Should have been resized, if required.
//
assert (pos < tried_positions.size ());
// Skip the position if it has already been tried.
//
if (tried_positions[pos])
continue;
position_tried (pos);
}
// Note that a request to interactively build a package in multiple
// configurations is most likely a mistake than a deliberate choice.
// Thus, for the interactive tenant let's check if the package can
// be built in multiple configurations. If that's the case then we
// will put all the potential builds into the aborted state and
// continue iterating looking for another package. Otherwise, just
// proceed for this package normally.
//
// It also feels like a good idea to archive an interactive tenant
// after a build object is created for it, regardless if the build
// task is issued or not. This way we make sure that an interactive
// build is never performed multiple times for such a tenant for any
// reason (multiple toolchains, buildtab change, etc). Note that the
// build result will still be accepted for an archived build.
//
if (bp.interactive)
{
// Note that the tenant can be archived via some other package on
// some previous iteration. Skip the package if that's the case.
//
// Also note that if bp.archived is false, then we need to
// (re-)load the tenant object to re-check the archived flag.
//
if (!bp.archived)
{
if (t == nullptr)
t = build_db_->load<build_tenant> (id.tenant);
bp.archived = t->archived;
}
if (bp.archived)
continue;
assert (t != nullptr); // Wouldn't be here otherwise.
// Collect the potential build configurations as all combinations
// of the tenant's packages build configurations and the
// non-excluded (by the packages) build target
// configurations. Note that here we ignore the machines from the
// task request.
//
struct build_config
{
shared_ptr<build_package> p;
const build_package_config* pc;
const build_target_config* tc;
};
small_vector<build_config, 1> build_configs;
// Note that we don't bother creating a prepared query here, since
// its highly unlikely to encounter multiple interactive tenants
// per task request. Given that we archive such tenants
// immediately, as a common case there will be none.
//
pkg_query pq (pkg_query::build_tenant::id == id.tenant);
for (auto& tp: build_db_->query<buildable_package> (pq))
{
shared_ptr<build_package>& p (tp.package);
build_db_->load (*p, p->constraints_section);
for (build_package_config& pc: p->configs)
{
for (const auto& tc: *target_conf_)
{
if (!exclude (pc, p->builds, p->constraints, tc))
build_configs.push_back (build_config {p, &pc, &tc});
}
}
}
// If multiple build configurations are collected, then abort all
// the potential builds and continue iterating over the packages.
//
if (build_configs.size () > 1)
{
// Abort the builds.
//
for (build_config& c: build_configs)
{
shared_ptr<build_package>& p (c.p);
const string& pc (c.pc->name);
const build_target_config& tc (*c.tc);
build_id bid (p->id,
tc.target,
tc.name,
pc,
toolchain_name,
toolchain_version);
// Can there be any existing builds for such a tenant? Doesn't
// seem so, unless due to some manual intervention into the
// database. Anyway, let's just leave such a build alone.
//
shared_ptr<build> b (build_db_->find<build> (bid));
if (b == nullptr)
{
b = make_shared<build> (move (bid.package.tenant),
move (bid.package.name),
p->version,
move (bid.target),
move (bid.target_config_name),
move (bid.package_config_name),
move (bid.toolchain_name),
toolchain_version,
result_status::abort,
operation_results ({
operation_result {
"configure",
result_status::abort,
"error: multiple configurations "
"for interactive build\n"}}),
build_machine {
"brep", "build task module"});
build_db_->persist (b);
// Schedule the build notification email.
//
aborted_builds.push_back (aborted_build {
move (b), move (p), c.pc, "build"});
}
}
// Archive the tenant.
//
t->archived = true;
build_db_->update (t);
continue; // Skip the package.
}
}
// If true, then the package is (being) built for some
// configurations.
//
// Note that since we only query the built and forced rebuild
// objects there can be false negatives.
//
bool package_built (false);
build_db_->load (*p, p->bot_keys_section);
for (const build_package_config& pc: p->configs)
{
// If this is a custom bot, then skip this configuration if it
// doesn't contain this bot's public key in its custom bot keys
// list. Otherwise (this is a default bot), skip this
// configuration if its custom bot keys list is not empty.
//
{
const build_package_bot_keys& bks (
pc.effective_bot_keys (p->bot_keys));
if (custom_bot)
{
assert (agent_fp); // Wouldn't be here otherwise.
if (find_if (
bks.begin (), bks.end (),
[&agent_fp] (const lazy_shared_ptr<build_public_key>& k)
{
return k.object_id ().fingerprint == *agent_fp;
}) == bks.end ())
{
continue;
}
}
else
{
if (!bks.empty ())
continue;
}
}
pkg_config = pc.name;
// 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.
//
// Also save the built configurations for which it's time to be
// rebuilt.
//
config_machines configs (conf_machines); // Make copy for this pkg.
auto pkg_builds (bld_prep_query.execute ());
if (!package_built && !pkg_builds.empty ())
package_built = true;
for (auto i (pkg_builds.begin ()); i != pkg_builds.end (); ++i)
{
auto j (
configs.find (build_target_config_id {
i->id.target, i->id.target_config_name}));
// Outdated configurations are already excluded with the
// database query.
//
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 configuration and for which all the requested
// auxiliary machines can be provided.
//
const config_machine* cm (nullptr);
optional<collect_auxiliaries_result> aux;
if (!p->constraints_section.loaded ())
build_db_->load (*p, p->constraints_section);
for (auto i (configs.begin ()), e (configs.end ()); i != e; ++i)
{
cm = &i->second;
const build_target_config& tc (*cm->config);
if (!exclude (pc, p->builds, p->constraints, tc))
{
if (!p->auxiliaries_section.loaded ())
build_db_->load (*p, p->auxiliaries_section);
if ((aux = collect_auxiliaries (p, pc, tc)))
break;
}
}
if (aux)
{
machine_header_manifest& mh (*cm->machine);
build_id bid (move (id),
cm->config->target,
cm->config->name,
move (pkg_config),
move (toolchain_name),
toolchain_version);
shared_ptr<build> b (build_db_->find<build> (bid));
// Move the interactive build login information into the build
// object, if the package to be built interactively.
//
optional<string> login (bp.interactive
? move (tqm.interactive_login)
: nullopt);
// 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),
p->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 (challenge),
build_machine {
mh.name, move (mh.summary)},
move (aux->build_auxiliary_machines),
controller_checksum (*cm->config),
machine_checksum (*cm->machine));
challenge = nullopt;
build_db_->persist (b);
}
else
{
// The build configuration is in the building or queued
// state.
//
// Note that in both the building and built 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 or to revert it to the
// built state if interrupted. 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::built);
initial_state = b->state;
b->state = build_state::building;
b->interactive = move (login);
unforced = (b->force == force_state::unforced);
// 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;
rebuild_forced_build = true;
}
b->agent_fingerprint = move (agent_fp);
b->agent_challenge = move (challenge);
challenge = nullopt;
b->machine = build_machine {mh.name, move (mh.summary)};
// Mark the section as loaded, so auxiliary_machines are
// updated.
//
b->auxiliary_machines_section.load ();
b->auxiliary_machines =
move (aux->build_auxiliary_machines);
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);
}
if (t == nullptr)
t = build_db_->load<build_tenant> (b->tenant);
// Archive an interactive tenant.
//
if (bp.interactive)
{
t->archived = true;
build_db_->update (t);
}
// Finally, stash the service notification information, if
// present, and prepare the task response manifest.
//
if (t->service)
{
auto i (tenant_service_map_.find (t->service->type));
if (i != tenant_service_map_.end ())
{
const tenant_service_base* s (i->second.get ());
tsb = dynamic_cast<const tenant_service_build_building*> (s);
tsq = dynamic_cast<const tenant_service_build_queued*> (s);
if (tsq != nullptr)
{
qbs = queue_builds (*p, *b);
// If we ought to call the
// tenant_service_build_queued::build_queued() callback,
// then also set the package tenant's queued timestamp
// to the current time to prevent the notifications race
// (see tenant::queued_timestamp for details).
//
if (!qbs.empty () ||
!initial_state ||
(*initial_state != build_state::queued &&
!rebuild_forced_build))
{
qhs = queue_hints (*p);
t->queued_timestamp = system_clock::now ();
build_db_->update (t);
}
}
if (tsb != nullptr || tsq != nullptr)
tss = make_pair (*t->service, b);
}
}
task_response = task (*b,
*p,
pc,
move (aux->tests),
move (aux->task_auxiliary_machines),
move (bp.interactive),
*cm);
task_build = move (b);
task_package = move (p);
task_config = &pc;
package_built = true;
break; // Bail out from the package configurations loop.
}
}
}
// If the task manifest is prepared, then bail out from the package
// loop, commit the transaction and respond. Otherwise, stash the
// build toolchain into the tenant, unless it is already stashed or
// the current package already has some configurations (being)
// built.
//
if (!task_response.task)
{
// Note that since there can be false negatives for the
// package_built flag (see above), there can be redundant tenant
// queries which, however, seems harmless (query uses the primary
// key and the object memory footprint is small).
//
if (!package_built)
{
if (t == nullptr)
t = build_db_->load<build_tenant> (p->id.tenant);
if (!t->toolchain)
{
t->toolchain = build_toolchain {toolchain_name,
toolchain_version};
build_db_->update (t);
}
}
}
else
break;
}
tr.commit ();
}
// If we don't have an unbuilt package, then let's see if we have a
// build configuration to rebuild.
//
if (!task_response.task && !rebuilds.empty ())
{
// Sort the configuration rebuild list with the following sort
// priority:
//
// 1: force state
// 2: overall status
// 3: timestamp (less is preferred)
//
auto cmp = [] (const shared_ptr<build>& x, const shared_ptr<build>& y)
{
if (x->force != y->force)
return x->force > y->force; // Forced goes first.
assert (x->status && y->status); // Both built.
if (x->status != y->status)
return x->status > y->status; // Larger status goes first.
// Older build completion goes first.
//
// Note that a completed build can have the state change timestamp
// (timestamp member) newer than the completion timestamp
// (soft_timestamp member) if the build was interrupted.
//
return x->soft_timestamp < y->soft_timestamp;
};
sort (rebuilds.begin (), rebuilds.end (), cmp);
// 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 were used to collect this data) so we recheck. If
// we find one that matches then put it into the building state,
// refresh the timestamp and update. Note that we don't amend the
// status and the force state to have them available in the result
// request handling (see above).
//
for (auto& b: rebuilds)
{
try
{
transaction t (conn->begin ());
b = build_db_->find<build> (b->id);
if (b != nullptr &&
b->state == build_state::built &&
needs_rebuild (*b))
{
auto i (conf_machines.find (
build_target_config_id {
b->target, b->target_config_name}));
// Only actual package configurations are loaded (see above).
//
assert (i != conf_machines.end ());
const config_machine& cm (i->second);
// Rebuild the package configuration if still present, is
// buildable, doesn't exclude the target configuration, can be
// provided with all the requested auxiliary machines, and
// matches the request's interactive mode.
//
// Note that while change of the latter seems rather far fetched,
// let's check it for good measure.
//
shared_ptr<build_package> p (
build_db_->find<build_package> (b->id.package));
shared_ptr<build_tenant> t (
p != nullptr
? build_db_->load<build_tenant> (p->id.tenant)
: 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_))))
{
const build_target_config& tc (*cm.config);
build_db_->load (*p, p->constraints_section);
if (exclude (*pc, p->builds, p->constraints, tc))
continue;
build_db_->load (*p, p->auxiliaries_section);
if (optional<collect_auxiliaries_result> aux =
collect_auxiliaries (p, *pc, tc))
{
assert (b->status);
initial_state = build_state::built;
rebuild_interrupted_rebuild =
(b->timestamp > b->soft_timestamp);
b->state = build_state::building;
// Save the interactive build login information into the
// build object, if the package to be built interactively.
//
// Can't move from, as may need it on the next iteration.
//
b->interactive = t->interactive
? tqm.interactive_login
: nullopt;
unforced = (b->force == force_state::unforced);
b->agent_fingerprint = move (agent_fp);
b->agent_challenge = move (challenge);
challenge = nullopt;
const machine_header_manifest& mh (*cm.machine);
b->machine = build_machine {mh.name, mh.summary};
// Mark the section as loaded, so auxiliary_machines are
// updated.
//
b->auxiliary_machines_section.load ();
b->auxiliary_machines =
move (aux->build_auxiliary_machines);
// Issue the hard rebuild if the timeout expired, rebuild is
// forced, or the configuration or machine has changed.
//
// Note that we never reset the build status (see above for
// the reasoning).
//
string ccs (controller_checksum (*cm.config));
string mcs (machine_checksum (*cm.machine));
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);
// Stash the service notification information, if present,
// and prepare the task response manifest.
//
if (t->service)
{
auto i (tenant_service_map_.find (t->service->type));
if (i != tenant_service_map_.end ())
{
const tenant_service_base* s (i->second.get ());
tsb = dynamic_cast<const tenant_service_build_building*> (s);
tsq = dynamic_cast<const tenant_service_build_queued*> (s);
if (tsq != nullptr)
{
qbs = queue_builds (*p, *b);
// If we ought to call the
// tenant_service_build_queued::build_queued()
// callback, then also set the package tenant's queued
// timestamp to the current time to prevent the
// notifications race (see tenant::queued_timestamp
// for details).
//
if (!qbs.empty () || !rebuild_interrupted_rebuild)
{
qhs = queue_hints (*p);
t->queued_timestamp = system_clock::now ();
build_db_->update (t);
}
}
if (tsb != nullptr || tsq != nullptr)
tss = make_pair (move (*t->service), b);
}
}
task_response = task (*b,
*p,
*pc,
move (aux->tests),
move (aux->task_auxiliary_machines),
move (t->interactive),
cm);
task_build = move (b);
task_package = move (p);
task_config = pc;
}
}
}
t.commit ();
}
catch (const odb::deadlock&)
{
// Just try with the next rebuild. But first, restore the agent's
// fingerprint and challenge and reset the task manifest and the
// session that we may have prepared.
//
if (task_build != nullptr)
b = move (task_build);
assert (b != nullptr); // Wouldn't be here otherwise.
agent_fp = move (b->agent_fingerprint);
challenge = move (b->agent_challenge);
task_response = task_response_manifest ();
}
// If the task manifest is prepared, then bail out from the package
// configuration rebuilds loop and respond.
//
if (task_response.task)
break;
}
}
// If the tenant-associated third-party service needs to be notified
// about the queued builds, then call the
// tenant_service_build_queued::build_queued() callback function and
// update the service state, if requested.
//
if (tsq != nullptr)
{
assert (tss); // Wouldn't be here otherwise.
tenant_service& ss (tss->first);
// If the task build has no initial state (is just created), then
// temporarily move it into the list of the queued builds until the
// `queued` notification is delivered. Afterwards, restore it so that
// the `building` notification can also be sent.
//
build& b (*tss->second);
bool restore_build (false);
if (!initial_state)
{
qbs.push_back (move (b));
restore_build = true;
}
if (!qbs.empty ())
{
// Release the database connection since the build_queued()
// notification can potentially be time-consuming (e.g., it may
// perform an HTTP request).
//
conn.reset ();
if (auto f = tsq->build_queued (qbs.back ().tenant,
ss,
qbs,
nullopt /* initial_state */,
qhs,
log_writer_))
{
conn = build_db_->connection ();
if (optional<string> data =
update_tenant_service_state (conn, ss.type, ss.id, f))
ss.data = move (data);
}
}
// Send the `queued` notification for the task build, unless it is
// already sent, and update the service state, if requested.
//
if (initial_state &&
*initial_state != build_state::queued &&
!rebuild_interrupted_rebuild &&
!rebuild_forced_build)
{
qbs.clear ();
qbs.push_back (move (b));
restore_build = true;
// Release the database connection since the build_queued()
// notification can potentially be time-consuming (e.g., it may
// perform an HTTP request).
//
conn.reset ();
if (auto f = tsq->build_queued (qbs.back ().tenant,
ss,
qbs,
initial_state,
qhs,
log_writer_))
{
conn = build_db_->connection ();
if (optional<string> data =
update_tenant_service_state (conn, ss.type, ss.id, f))
ss.data = move (data);
}
}
if (restore_build)
b = move (qbs.back ());
}
// If a third-party service needs to be notified about the package
// build, then call the tenant_service_build_built::build_building()
// callback function and, if requested, update the tenant-associated
// service state.
//
if (tsb != nullptr)
{
assert (tss); // Wouldn't be here otherwise.
tenant_service& ss (tss->first);
const build& b (*tss->second);
// Release the database connection since the build_building()
// notification can potentially be time-consuming (e.g., it may
// perform an HTTP request).
//
conn.reset ();
if (auto f = tsb->build_building (b.tenant, ss, b, log_writer_))
{
conn = build_db_->connection ();
if (optional<string> data =
update_tenant_service_state (conn, ss.type, ss.id, f))
ss.data = move (data);
}
}
// If the task manifest is prepared, then check that the number of the
// build auxiliary machines is less than 10. If that's not the case,
// then turn the build into the built state with the abort status.
//
if (task_response.task &&
task_response.task->auxiliary_machines.size () > 9)
{
// Respond with the no-task manifest.
//
task_response = task_response_manifest ();
// If the package tenant has a third-party service state associated
// with it, then check if the tenant_service_build_built callback is
// registered for the type of the associated service. If it is, then
// stash the state, the build object, and the callback pointer for the
// subsequent service `built` notification.
//
const tenant_service_build_built* tsb (nullptr);
optional<pair<tenant_service, shared_ptr<build>>> tss;
{
if (conn == nullptr)
conn = build_db_->connection ();
transaction t (conn->begin ());
shared_ptr<build> b (build_db_->find<build> (task_build->id));
// For good measure, check that the build object is in the building
// state and has not been updated.
//
if (b->state == build_state::building &&
b->timestamp == task_build->timestamp)
{
b->state = build_state::built;
b->status = result_status::abort;
b->force = force_state::unforced;
// Cleanup the interactive build login information.
//
b->interactive = nullopt;
// Cleanup the authentication data.
//
b->agent_fingerprint = nullopt;
b->agent_challenge = nullopt;
b->timestamp = system_clock::now ();
b->soft_timestamp = b->timestamp;
b->hard_timestamp = b->soft_timestamp;
// Mark the section as loaded, so results are updated.
//
b->results_section.load ();
b->results = operation_results ({
operation_result {
"configure",
result_status::abort,
"error: not more than 9 auxiliary machines are allowed"}});
b->agent_checksum = nullopt;
b->worker_checksum = nullopt;
b->dependency_checksum = nullopt;
build_db_->update (b);
// Schedule the `built` notification, if the
// tenant_service_build_built callback is registered for the
// tenant.
//
shared_ptr<build_tenant> t (
build_db_->load<build_tenant> (b->tenant));
if (t->service)
{
auto i (tenant_service_map_.find (t->service->type));
if (i != tenant_service_map_.end ())
{
tsb = dynamic_cast<const tenant_service_build_built*> (
i->second.get ());
// If required, stash the service notification information.
//
if (tsb != nullptr)
tss = make_pair (move (*t->service), b);
}
}
// Schedule the build notification email.
//
aborted_builds.push_back (
aborted_build {move (b),
move (task_package),
task_config,
unforced ? "build" : "rebuild"});
}
t.commit ();
}
// If a third-party service needs to be notified about the built
// package, then call the tenant_service_build_built::build_built()
// callback function and update the service state, if requested.
//
if (tsb != nullptr)
{
assert (tss); // Wouldn't be here otherwise.
tenant_service& ss (tss->first);
const build& b (*tss->second);
// Release the database connection since the build_built()
// notification can potentially be time-consuming (e.g., it may
// perform an HTTP request).
//
conn.reset ();
if (auto f = tsb->build_built (b.tenant, ss, b, log_writer_))
{
conn = build_db_->connection ();
if (optional<string> data =
update_tenant_service_state (conn, ss.type, ss.id, f))
ss.data = move (data);
}
}
}
// Send notification emails for all the aborted builds.
//
for (const aborted_build& ab: aborted_builds)
{
if (conn == nullptr)
conn = build_db_->connection ();
send_notification_email (*options_,
conn,
*ab.b,
*ab.p,
*ab.pc,
ab.what,
error,
verb_ >= 2 ? &trace : nullptr);
}
}
}
// Release the database connection as soon as possible.
//
conn.reset ();
serialize_task_response_manifest ();
return true;
}
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