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// file : mod/mod-build-force.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <mod/mod-build-force.hxx>
#include <odb/database.hxx>
#include <odb/transaction.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/module-options.hxx>
#include <mod/tenant-service.hxx>
using namespace std;
using namespace brep::cli;
using namespace odb::core;
brep::build_force::
build_force (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_force::
build_force (const build_force& 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_force::
init (scanner& s)
{
options_ = make_shared<options::build_force> (
s, unknown_mode::fail, unknown_mode::fail);
if (options_->build_config_specified ())
{
database_module::init (*options_, options_->build_db_retry ());
build_config_module::init (*options_);
}
}
bool brep::build_force::
handle (request& rq, response& rs)
{
using brep::version; // Not to confuse with module::version.
HANDLER_DIAG;
if (build_db_ == nullptr)
throw invalid_request (501, "not implemented");
params::build_force params;
try
{
name_value_scanner s (rq.parameters (8 * 1024));
params = params::build_force (s, unknown_mode::fail, unknown_mode::fail);
}
catch (const cli::exception& e)
{
throw invalid_request (400, e.what ());
}
const string& reason (params.reason ());
if (reason.empty ())
throw invalid_request (400, "missing rebuild reason");
build_id id;
try
{
package_name p;
try
{
p = package_name (move (params.package ()));
}
catch (const invalid_argument& e)
{
throw invalid_argument (string ("invalid package name: ") + e.what ());
}
// We accept the non-url-encoded version representation. Note that the
// parameter is already url-decoded by the web server, so we just restore
// the space character (that is otherwise forbidden in version
// representation) to the plus character.
//
// @@ Move to types-parsers.hxx?
//
auto parse_version = [] (string& v, const char* what) -> version
{
replace (v.begin (), v.end (), ' ', '+');
// Intercept exception handling to add the parsing error attribution.
//
try
{
return brep::version (v);
}
catch (const invalid_argument& e)
{
throw invalid_argument (string ("invalid ") + what + ": " + e.what ());
}
};
version package_version (parse_version (params.version (),
"package version"));
target_triplet target;
try
{
target = target_triplet (params.target ());
}
catch (const invalid_argument& e)
{
throw invalid_argument (string ("invalid target: ") + e.what ());
}
string& target_config (params.target_config ());
if (target_config.empty ())
throw invalid_argument ("no target configuration name");
string& package_config (params.package_config ());
if (package_config.empty ())
throw invalid_argument ("no package configuration name");
string& toolchain_name (params.toolchain_name ());
if (toolchain_name.empty ())
throw invalid_argument ("no toolchain name");
version toolchain_version (parse_version (params.toolchain_version (),
"toolchain version"));
id = build_id (package_id (move (tenant), move (p), package_version),
move (target),
move (target_config),
move (package_config),
move (toolchain_name),
toolchain_version);
}
catch (const invalid_argument& e)
{
throw invalid_request (400, e.what ());
}
// If the package build configuration expired (no such configuration,
// package, etc), then we respond with the 404 HTTP code (not found but may
// be available in the future).
//
auto config_expired = [] (const string& d)
{
throw invalid_request (404, "package build configuration expired: " + d);
};
// Make sure the build configuration still exists.
//
if (target_conf_map_->find (
build_target_config_id {id.target,
id.target_config_name}) ==
target_conf_map_->end ())
config_expired ("no target configuration");
// Load the package build configuration (if present), set the force flag and
// update the object's persistent state.
//
// If the incomplete package build is being forced to rebuild 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_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: don't forget to update ci_start::rebuild() if changing anything
// here.
//
{
transaction t (conn->begin ());
package_build pb;
shared_ptr<build> b;
if (!build_db_->query_one<package_build> (
query<package_build>::build::id == id, pb) ||
pb.archived ||
(b = move (pb.build))->state == build_state::queued)
{
config_expired ("no package build");
}
force_state force (b->state == build_state::built
? force_state::forced
: force_state::forcing);
if (b->force != force)
{
// Log the force rebuild with the warning severity, truncating the
// reason if too long.
//
diag_record dr (warn);
dr << "force rebuild for ";
if (!b->tenant.empty ())
dr << b->tenant << ' ';
dr << b->package_name << '/' << b->package_version << ' '
<< b->target_config_name << '/' << b->target << ' '
<< b->package_config_name << ' '
<< b->toolchain_name << '-' << b->toolchain_version
<< " (state: " << to_string (b->state) << ' ' << to_string (b->force)
<< "): ";
if (reason.size () < 50)
dr << reason;
else
dr << string (reason, 0, 50) << "...";
b->force = force;
build_db_->update (b);
if (force == force_state::forcing)
{
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 ())
{
tsq = dynamic_cast<const tenant_service_build_queued*> (
i->second.get ());
// 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)
{
// 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);
tss = make_pair (move (*t->service), move (b));
}
}
}
}
}
t.commit ();
}
// If the incomplete package build is being forced to rebuild 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);
build& b (*tss->second);
vector<build> qbs;
qbs.push_back (move (b));
// 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 (ss,
qbs,
build_state::building,
qhs,
log_writer_))
{
conn = build_db_->connection ();
update_tenant_service_state (conn, qbs.back ().tenant, f);
}
}
// Release the database connection prior to writing into the unbuffered
// response stream.
//
conn.reset ();
// We have all the data, so don't buffer the response content.
//
ostream& os (rs.content (200, "text/plain;charset=utf-8", false));
os << "Rebuilding in " << options_->build_forced_rebuild_timeout ()
<< " seconds.";
return true;
}
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