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// file : mod/mod-build-result.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <mod/mod-build-result.hxx>
#include <odb/database.hxx>
#include <odb/transaction.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/tenant-service.hxx>
using namespace std;
using namespace butl;
using namespace bbot;
using namespace brep::cli;
using namespace odb::core;
brep::build_result::
build_result (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_result::
build_result (const build_result& r, const tenant_service_map& tsm)
: build_result_module (r),
options_ (r.initialized_ ? r.options_ : nullptr),
tenant_service_map_ (tsm)
{
}
void brep::build_result::
init (scanner& s)
{
options_ = make_shared<options::build_result> (
s, unknown_mode::fail, unknown_mode::fail);
if (options_->build_config_specified ())
build_result_module::init (*options_, *options_);
if (options_->root ().empty ())
options_->root (dir_path ("/"));
}
bool brep::build_result::
handle (request& rq, response&)
{
using brep::version; // Not to confuse with module::version.
HANDLER_DIAG;
if (build_db_ == nullptr)
throw invalid_request (501, "not implemented");
// Make sure no parameters passed.
//
try
{
// Note that we expect the result 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::build_result (s, unknown_mode::fail, unknown_mode::fail);
}
catch (const cli::exception& e)
{
throw invalid_request (400, e.what ());
}
result_request_manifest rqm;
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_result_request_max_size ());
manifest_parser p (rq.content (limit, limit), "result_request_manifest");
rqm = result_request_manifest (p);
}
catch (const manifest_parsing& e)
{
throw invalid_request (400, e.what ());
}
// Parse the task response session and make sure the session matches tenant
// and the result manifest's package name, and version.
//
parse_session_result session;
const build_id& id (session.id);
try
{
// Note: also verifies that the tenant matches the session.
//
session = parse_session (rqm.session);
if (rqm.result.name != id.package.name)
throw invalid_argument ("package name mismatch");
if (rqm.result.version != session.package_version)
throw invalid_argument ("package version mismatch");
}
catch (const invalid_argument& e)
{
throw invalid_request (400, string ("invalid session: ") + e.what ());
}
// If the session expired (no such configuration, package, etc), then we log
// this case with the warning severity and respond with the 200 HTTP code as
// if the session is valid. The thinking is that this is a problem with the
// controller's setup (expires too fast), not with the agent's.
//
// Note, though, that there can be quite a common situation when a build
// machine is suspended by the bbot agent due to the build timeout. In this
// case the task result request may arrive anytime later (after the issue is
// investigated, etc) with the abort or abnormal status. By that arrival
// time a new build task may already be issued/completed for this package
// build configuration or this configuration may even be gone (brep has been
// reconfigured, package has gone, etc). We will log no warning in this
// case, assuming that such an expiration is not a problem with the
// controller's setup.
//
shared_ptr<build> b;
result_status rs (rqm.result.status);
auto warn_expired = [&rqm, &warn, &b, &session, rs] (const string& d)
{
if (!((b == nullptr || b->timestamp > session.timestamp) &&
(rs == result_status::abort || rs == result_status::abnormal)))
warn << "session '" << rqm.session << "' expired: " << d;
};
// Make sure the build configuration still exists.
//
const build_target_config* tc;
{
auto i (target_conf_map_->find (
build_target_config_id {id.target, id.target_config_name}));
if (i == target_conf_map_->end ())
{
warn_expired ("no build configuration");
return true;
}
tc = i->second;
}
// Load and update the package build configuration (if present).
//
// NULL if the package build doesn't exist or is not updated for any reason
// (authentication failed, etc) or the configuration is excluded by the
// package.
//
shared_ptr<build> bld;
// The built package configuration.
//
// Not NULL if bld is not NULL.
//
shared_ptr<build_package> pkg;
build_package_config* cfg (nullptr);
// Don't send email to the build-email address for the success-to-success
// status change, unless the build was forced.
//
bool build_notify (false);
bool unforced (true);
// If the package is built (result status differs from interrupt, etc) and
// 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. Note that we send this notification for the skip result as
// well, since it is semantically equivalent to the previous build result
// with the actual build process being optimized out.
//
// If the package build is interrupted and the tenant_service_build_queued
// callback is associated with the package tenant, then stash the state, the
// build object, and the callback pointer and calculate the hints for the
// subsequent service `queued` notification.
//
const tenant_service_build_built* tsb (nullptr);
const tenant_service_build_queued* tsq (nullptr);
optional<pair<tenant_service, shared_ptr<build>>> tss;
tenant_service_build_queued::build_queued_hints qhs;
// 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 ());
// Note that if the session authentication fails (probably due to the
// authentication settings change), then we log this case with the warning
// severity and respond with the 200 HTTP code as if the challenge is
// valid. The thinking is that we shouldn't alarm a law-abaiding agent and
// shouldn't provide any information to a malicious one.
//
{
transaction t (conn->begin ());
package_build pb;
auto build_timestamp = [&b] ()
{
return to_string (
chrono::duration_cast<std::chrono::nanoseconds> (
b->timestamp.time_since_epoch ()).count ());
};
if (!build_db_->query_one<package_build> (
query<package_build>::build::id == id, pb))
{
warn_expired ("no package build");
}
else if ((b = move (pb.build))->state != build_state::building)
{
warn_expired ("package configuration state is " + to_string (b->state) +
", force state " + to_string (b->force) +
", timestamp " + build_timestamp ());
}
else if (b->timestamp != session.timestamp)
{
warn_expired ("non-matching timestamp " + build_timestamp ());
}
else if (authenticate_session (*options_, rqm.challenge, *b, rqm.session))
{
// If the build is not in the `forcing` state, then retrieve the tenant
// service callback, if present, for subsequent notification (`queued`
// for the interrupted build and `built` otherwise; see below). Note
// that for the `forcing` state the service already assumes the `queued`
// state (see build_force::handle() and ci_start::rebuild() for
// details).
//
const tenant_service_base* ts (nullptr);
shared_ptr<build_tenant> t;
if (b->force != force_state::forcing)
{
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 ())
ts = i->second.get ();
}
}
// If the build is interrupted, then revert it to the original built
// state if this is a rebuild. Otherwise (initial build), turn the build
// into the queued state if the tenant_service_build_queued callback is
// registered for the package tenant and delete it from the database
// otherwise.
//
// Note that if the tenant_service_build_queued callback is registered,
// we always send the `queued` notification for the interrupted build,
// even when we reverse it to the original built state. We could also
// turn the build into the queued state in this case, but it feels that
// there is no harm in keeping the previous build information available
// for the user.
//
if (rs == result_status::interrupt)
{
// Schedule the `queued` notification, if the
// tenant_service_build_queued callback is registered for the tenant.
//
tsq = dynamic_cast<const tenant_service_build_queued*> (ts);
if (b->status) // Is this a rebuild?
{
b->state = build_state::built;
// Keep the force rebuild indication. Note that the forcing state is
// only valid for the building state.
//
if (b->force == force_state::forcing)
b->force = force_state::forced;
// Cleanup the interactive build login information.
//
b->interactive = nullopt;
// Cleanup the authentication data.
//
b->agent_fingerprint = nullopt;
b->agent_challenge = nullopt;
// Note that we are unable to restore the pre-rebuild timestamp
// since it has been overwritten when the build task was issued.
// That, however, feels ok and we just keep it unchanged.
//
// Moreover, we actually use the fact that the build's timestamp is
// greater then its soft_timestamp as an indication that the build
// object represents the interrupted rebuild (see the build_task
// handler for details).
//
// @@ Actually, we also unable to restore the pre-rebuild machine
// and auxiliary machines, which are also displayed in the build
// log and may potentially be confusing. Should we drop them from
// the log in this case or replace with the "machine: unknown"
// record?
build_db_->update (b);
}
else // Initial build.
{
if (tsq != nullptr)
{
// Since this is not a rebuild, there are no operation results and
// thus we don't need to load the results section to erase results
// from the database.
//
assert (b->results.empty ());
*b = build (move (b->tenant),
move (b->package_name),
move (b->package_version),
move (b->target),
move (b->target_config_name),
move (b->package_config_name),
move (b->toolchain_name),
move (b->toolchain_version));
build_db_->update (b);
}
else
build_db_->erase (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 (tsq != nullptr)
{
assert (t != nullptr);
// Calculate the tenant service hints.
//
buildable_package_count tpc (
build_db_->query_value<buildable_package_count> (
query<buildable_package_count>::build_tenant::id == t->id));
shared_ptr<build_package> p (
build_db_->load<build_package> (b->id.package));
qhs = tenant_service_build_queued::build_queued_hints {
tpc == 1, p->configs.size () == 1};
// Set the package tenant's queued timestamp.
//
t->queued_timestamp = system_clock::now ();
build_db_->update (t);
}
}
else // Regular or skip build result.
{
// Schedule the `built` notification, if the
// tenant_service_build_built callback is registered for the tenant.
//
tsb = dynamic_cast<const tenant_service_build_built*> (ts);
// Verify the result status/checksums.
//
// Specifically, if the result status is skip, then it can only be in
// response to the soft rebuild task (all checksums are present in the
// build object) and the result checksums must match the build object
// checksums. On verification failure respond with the bad request
// HTTP code (400).
//
if (rs == result_status::skip)
{
if (!b->agent_checksum ||
!b->worker_checksum ||
!b->dependency_checksum)
throw invalid_request (400, "unexpected skip result status");
// Can only be absent for initial build, in which case the
// checksums are also absent and we would end up with the above
// 400 response.
//
assert (b->status);
// Verify that the result checksum matches the build checksum and
// throw invalid_request(400) if that's not the case.
//
auto verify = [] (const string& build_checksum,
const optional<string>& result_checksum,
const char* what)
{
if (!result_checksum)
throw invalid_request (
400,
string (what) + " checksum is expected for skip result status");
if (*result_checksum != build_checksum)
throw invalid_request (
400,
string (what) + " checksum '" + build_checksum +
"' is expected instead of '" + *result_checksum +
"' for skip result status");
};
verify (*b->agent_checksum, rqm.agent_checksum, "agent");
verify (*b->worker_checksum,
rqm.result.worker_checksum,
"worker");
verify (*b->dependency_checksum,
rqm.result.dependency_checksum,
"dependency");
}
unforced = (b->force == force_state::unforced);
build_notify = !(rs == result_status::success &&
b->status &&
*b->status == rs &&
unforced);
b->state = build_state::built;
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;
// If the result status is other than skip, then save the status,
// results, and checksums and update the hard timestamp. Also stash
// the service notification information, if present.
//
if (rs != result_status::skip)
{
b->status = rs;
b->hard_timestamp = b->soft_timestamp;
// Mark the section as loaded, so results are updated.
//
b->results_section.load ();
b->results = move (rqm.result.results);
// Save the checksums.
//
b->agent_checksum = move (rqm.agent_checksum);
b->worker_checksum = move (rqm.result.worker_checksum);
b->dependency_checksum = move (rqm.result.dependency_checksum);
}
build_db_->update (b);
pkg = build_db_->load<build_package> (b->id.package);
cfg = find (b->package_config_name, pkg->configs);
// The package configuration should be present (see mod-builds.cxx for
// details) but if it is not, let's log the warning.
//
if (cfg != nullptr)
{
// Don't send the build notification email if the task result is
// `skip`, the configuration is hidden, or is now excluded by the
// package.
//
if (rs != result_status::skip && !belongs (*tc, "hidden"))
{
build_db_->load (*pkg, pkg->constraints_section);
if (!exclude (*cfg, pkg->builds, pkg->constraints, *tc))
bld = b;
}
}
else
warn << "cannot find configuration '" << b->package_config_name
<< "' for package " << pkg->id.name << '/' << pkg->version;
}
// If required, stash the service notification information.
//
if (tsb != nullptr || tsq != nullptr)
{
assert (t != nullptr);
tss = make_pair (move (*t->service), move (b));
}
}
t.commit ();
}
// We either notify about the queued build or notify about the built package
// or don't notify at all.
//
assert (tsb == nullptr || tsq == nullptr);
// If the package build is interrupted and 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.
const tenant_service& ss (tss->first);
vector<build> qbs;
qbs.push_back (move (*tss->second));
// Release the database connection since build_queued() notification can
// potentially be time-consuming (e.g., it may perform an HTTP request).
//
conn.reset ();
if (auto f = tsq->build_queued (ss,
qbs,
build_state::building,
qhs,
log_writer_))
{
conn = build_db_->connection ();
update_tenant_service_state (conn, qbs.back ().tenant, f);
}
}
// 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.
const tenant_service& ss (tss->first);
const build& b (*tss->second);
// Release the database connection since build_built() notification can
// potentially be time-consuming (e.g., it may perform an HTTP request).
//
conn.reset ();
if (auto f = tsb->build_built (ss, b, log_writer_))
{
conn = build_db_->connection ();
update_tenant_service_state (conn, b.tenant, f);
}
}
if (bld != nullptr)
{
// Don't sent the notification email for success-to-success status change,
// etc.
//
if (!build_notify)
(cfg->email ? cfg->email : pkg->build_email) = email ();
if (conn == nullptr)
conn = build_db_->connection ();
send_notification_email (*options_,
conn,
*bld,
*pkg,
*cfg,
unforced ? "build" : "rebuild",
error,
verb_ >= 2 ? &trace : nullptr);
}
return true;
}
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