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// file : bpkg/package-query.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <bpkg/package-query.hxx>
#include <bpkg/package.hxx>
#include <bpkg/package-odb.hxx>
#include <bpkg/database.hxx>
#include <bpkg/rep-mask.hxx>
using namespace std;
namespace bpkg
{
vector<shared_ptr<available_package>> imaginary_stubs;
shared_ptr<available_package>
find_imaginary_stub (const package_name& name)
{
auto i (find_if (imaginary_stubs.begin (), imaginary_stubs.end (),
[&name] (const shared_ptr<available_package>& p)
{
return p->id.name == name;
}));
return i != imaginary_stubs.end () ? *i : nullptr;
}
linked_databases repo_configs;
linked_databases
dependent_repo_configs (database& db)
{
linked_databases r;
for (database& ddb: db.dependent_configs ())
{
if (find (repo_configs.begin (), repo_configs.end (), ddb) !=
repo_configs.end ())
r.push_back (ddb);
}
return r;
}
odb::result<available_package>
query_available (database& db,
const package_name& name,
const optional<version_constraint>& c,
bool order,
bool revision)
{
using query = query<available_package>;
query q (query::id.name == name);
const auto& vm (query::id.version);
// If there is a constraint, then translate it to the query. Otherwise,
// get the latest version or stub versions if present.
//
if (c)
{
assert (c->complete ());
query qs (compare_version_eq (vm,
canonical_version (wildcard_version),
false /* revision */,
false /* iteration */));
if (c->min_version &&
c->max_version &&
*c->min_version == *c->max_version)
{
const version& v (*c->min_version);
q = q &&
(compare_version_eq (vm,
canonical_version (v),
revision || v.revision.has_value (),
revision /* iteration */) ||
qs);
}
else
{
query qr (true);
if (c->min_version)
{
const version& v (*c->min_version);
canonical_version cv (v);
bool rv (revision || v.revision);
if (c->min_open)
qr = compare_version_gt (vm, cv, rv, revision /* iteration */);
else
qr = compare_version_ge (vm, cv, rv, revision /* iteration */);
}
if (c->max_version)
{
const version& v (*c->max_version);
canonical_version cv (v);
bool rv (revision || v.revision);
if (c->max_open)
qr = qr && compare_version_lt (vm, cv, rv, revision);
else
qr = qr && compare_version_le (vm, cv, rv, revision);
}
q = q && (qr || qs);
}
}
if (order)
q += order_by_version_desc (vm);
return db.query<available_package> (q);
}
// Check if the package is available from the specified repository fragment,
// its prerequisite repositories, or one of their complements, recursively.
// Return the first repository fragment that contains the package or NULL if
// none are.
//
// Note that we can end up with a repository dependency cycle since the
// root repository can be the default complement for dir and git
// repositories (see rep_fetch() implementation for details). Thus we need
// to make sure that the repository fragment is not in the dependency chain
// yet.
//
using repository_fragments =
vector<reference_wrapper<const shared_ptr<repository_fragment>>>;
static shared_ptr<repository_fragment>
find (const shared_ptr<repository_fragment>& rf,
const shared_ptr<available_package>& ap,
repository_fragments& chain,
bool prereq)
{
// Prerequisites are not searched through recursively.
//
assert (!prereq || chain.empty ());
if (find_if (chain.begin (), chain.end (),
[&rf] (const shared_ptr<repository_fragment>& i) -> bool
{
return i == rf;
}) != chain.end ())
return nullptr;
chain.emplace_back (rf);
unique_ptr<repository_fragments, void (*)(repository_fragments*)> deleter (
&chain, [] (repository_fragments* rf) {rf->pop_back ();});
const auto& cs (rf->complements);
const auto& ps (rf->prerequisites);
for (const package_location& pl: ap->locations)
{
const lazy_shared_ptr<repository_fragment>& lrf (pl.repository_fragment);
if (rep_masked_fragment (lrf))
continue;
// First check the repository itself.
//
if (lrf.object_id () == rf->name)
return rf;
// Then check all the complements and prerequisites repository fragments
// without loading them. Though, we still need to load complement and
// prerequisite repositories.
//
auto pr = [&lrf] (const repository::fragment_type& i)
{
return i.fragment == lrf;
};
for (const lazy_weak_ptr<repository>& r: cs)
{
if (!rep_masked (r))
{
const auto& frs (r.load ()->fragments);
if (find_if (frs.begin (), frs.end (), pr) != frs.end ())
return lrf.load ();
}
}
if (prereq)
{
for (const lazy_weak_ptr<repository>& r: ps)
{
if (!rep_masked (r))
{
const auto& frs (r.load ()->fragments);
if (find_if (frs.begin (), frs.end (), pr) != frs.end ())
return lrf.load ();
}
}
}
}
// Finally, load the complements and prerequisites and check them
// recursively.
//
for (const lazy_weak_ptr<repository>& cr: cs)
{
if (!rep_masked (cr))
{
for (const auto& fr: cr.load ()->fragments)
{
// Should we consider prerequisites of our complements as our
// prerequisites? I'd say not.
//
if (shared_ptr<repository_fragment> r =
find (fr.fragment.load (), ap, chain, false))
return r;
}
}
}
if (prereq)
{
for (const lazy_weak_ptr<repository>& pr: ps)
{
if (!rep_masked (pr))
{
for (const auto& fr: pr.load ()->fragments)
{
if (shared_ptr<repository_fragment> r =
find (fr.fragment.load (), ap, chain, false))
return r;
}
}
}
}
return nullptr;
}
shared_ptr<repository_fragment>
filter (const shared_ptr<repository_fragment>& r,
const shared_ptr<available_package>& ap,
bool prereq)
{
repository_fragments chain;
return find (r, ap, chain, prereq);
}
vector<shared_ptr<available_package>>
filter (const shared_ptr<repository_fragment>& r,
result<available_package>&& apr,
bool prereq)
{
vector<shared_ptr<available_package>> aps;
for (shared_ptr<available_package> ap: pointer_result (apr))
{
if (filter (r, ap, prereq) != nullptr)
aps.push_back (move (ap));
}
return aps;
}
pair<shared_ptr<available_package>, shared_ptr<repository_fragment>>
filter_one (const shared_ptr<repository_fragment>& r,
result<available_package>&& apr,
bool prereq)
{
using result = pair<shared_ptr<available_package>,
shared_ptr<repository_fragment>>;
for (shared_ptr<available_package> ap: pointer_result (apr))
{
if (shared_ptr<repository_fragment> pr = filter (r, ap, prereq))
return result (move (ap), move (pr));
}
return result ();
}
vector<pair<shared_ptr<available_package>, shared_ptr<repository_fragment>>>
filter (const vector<shared_ptr<repository_fragment>>& rps,
odb::result<available_package>&& apr,
bool prereq)
{
vector<pair<shared_ptr<available_package>,
shared_ptr<repository_fragment>>> aps;
for (shared_ptr<available_package> ap: pointer_result (apr))
{
for (const shared_ptr<repository_fragment>& r: rps)
{
if (shared_ptr<repository_fragment> rf = filter (r, ap, prereq))
{
aps.emplace_back (move (ap), move (rf));
break;
}
}
}
return aps;
}
pair<shared_ptr<available_package>, shared_ptr<repository_fragment>>
filter_one (const vector<shared_ptr<repository_fragment>>& rps,
odb::result<available_package>&& apr,
bool prereq)
{
using result = pair<shared_ptr<available_package>,
shared_ptr<repository_fragment>>;
for (shared_ptr<available_package> ap: pointer_result (apr))
{
for (const shared_ptr<repository_fragment>& r: rps)
{
if (shared_ptr<repository_fragment> rf = filter (r, ap, prereq))
return result (move (ap), move (rf));
}
}
return result ();
}
// Sort the available package fragments in the package version descending
// order and suppress duplicate packages and, optionally, older package
// revisions.
//
static void
sort_dedup (available_packages& pfs, bool suppress_older_revisions = false)
{
sort (pfs.begin (), pfs.end (),
[] (const auto& x, const auto& y)
{
return x.first->version > y.first->version;
});
pfs.erase (
unique (pfs.begin(), pfs.end(),
[suppress_older_revisions] (const auto& x, const auto& y)
{
return x.first->version.compare (y.first->version,
suppress_older_revisions) == 0;
}),
pfs.end ());
}
available_packages
find_available (const linked_databases& dbs,
const package_name& name,
const optional<version_constraint>& c)
{
available_packages r;
for (database& db: dbs)
{
for (shared_ptr<available_package> ap:
pointer_result (query_available (db, name, c)))
{
// All repository fragments the package comes from are equally good,
// so we pick the first unmasked one.
//
for (const auto& pl: ap->locations)
{
const lazy_shared_ptr<repository_fragment>& lrf (
pl.repository_fragment);
if (!rep_masked_fragment (lrf))
{
r.emplace_back (move (ap), lrf);
break;
}
}
}
}
// If there are multiple databases specified, then sort the result in the
// package version descending order and suppress duplicates.
//
if (dbs.size () > 1)
sort_dedup (r);
// Adding a stub from the imaginary system repository to the non-empty
// results isn't necessary but may end up with a duplicate. That's why we
// only add it if nothing else is found.
//
if (r.empty ())
{
if (shared_ptr<available_package> ap = find_imaginary_stub (name))
r.emplace_back (move (ap), nullptr);
}
return r;
}
available_packages
find_available (const package_name& name,
const optional<version_constraint>& c,
const config_repo_fragments& rfs,
bool prereq)
{
available_packages r;
for (const auto& dfs: rfs)
{
database& db (dfs.first);
for (auto& af: filter (dfs.second,
query_available (db, name, c),
prereq))
{
r.emplace_back (
move (af.first),
lazy_shared_ptr<repository_fragment> (db, move (af.second)));
}
}
if (rfs.size () > 1)
sort_dedup (r);
if (r.empty ())
{
if (shared_ptr<available_package> ap = find_imaginary_stub (name))
r.emplace_back (move (ap), nullptr);
}
return r;
}
vector<shared_ptr<available_package>>
find_available (const package_name& name,
const optional<version_constraint>& c,
const lazy_shared_ptr<repository_fragment>& rf,
bool prereq)
{
assert (!rep_masked_fragment (rf));
vector<shared_ptr<available_package>> r;
database& db (rf.database ());
for (auto& ap: filter (rf.load (), query_available (db, name, c), prereq))
r.emplace_back (move (ap));
if (r.empty ())
{
if (shared_ptr<available_package> ap = find_imaginary_stub (name))
r.emplace_back (move (ap));
}
return r;
}
pair<shared_ptr<available_package>,
lazy_shared_ptr<repository_fragment>>
find_available_one (const package_name& name,
const optional<version_constraint>& c,
const lazy_shared_ptr<repository_fragment>& rf,
bool prereq,
bool revision)
{
assert (!rep_masked_fragment (rf));
// Filter the result based on the repository fragment to which each
// version belongs.
//
database& db (rf.database ());
auto r (
filter_one (rf.load (),
query_available (db, name, c, true /* order */, revision),
prereq));
if (r.first == nullptr)
r.first = find_imaginary_stub (name);
return make_pair (r.first,
(r.second != nullptr
? lazy_shared_ptr<repository_fragment> (db,
move (r.second))
: nullptr));
}
pair<shared_ptr<available_package>, shared_ptr<repository_fragment>>
find_available_one (database& db,
const package_name& name,
const optional<version_constraint>& c,
const vector<shared_ptr<repository_fragment>>& rfs,
bool prereq,
bool revision)
{
// Filter the result based on the repository fragments to which each
// version belongs.
//
auto r (
filter_one (rfs,
query_available (db, name, c, true /* order */, revision),
prereq));
if (r.first == nullptr)
r.first = find_imaginary_stub (name);
return r;
}
pair<shared_ptr<available_package>,
lazy_shared_ptr<repository_fragment>>
find_available_one (const linked_databases& dbs,
const package_name& name,
const optional<version_constraint>& c,
bool prereq,
bool revision)
{
for (database& db: dbs)
{
auto r (
filter_one (db.load<repository_fragment> (""),
query_available (db, name, c, true /* order */, revision),
prereq));
if (r.first != nullptr)
return make_pair (
move (r.first),
lazy_shared_ptr<repository_fragment> (db, move (r.second)));
}
return make_pair (find_imaginary_stub (name), nullptr);
}
shared_ptr<available_package>
find_available (const common_options& options,
database& db,
const shared_ptr<selected_package>& sp)
{
available_package_id pid (sp->name, sp->version);
for (database& ddb: dependent_repo_configs (db))
{
shared_ptr<available_package> ap (ddb.find<available_package> (pid));
if (ap != nullptr && !ap->stub ())
return ap;
}
return make_available (options, db, sp);
}
pair<shared_ptr<available_package>,
lazy_shared_ptr<repository_fragment>>
find_available_fragment (const common_options& options,
database& db,
const shared_ptr<selected_package>& sp)
{
available_package_id pid (sp->name, sp->version);
const string& cn (sp->repository_fragment.canonical_name ());
for (database& ddb: dependent_repo_configs (db))
{
shared_ptr<available_package> ap (ddb.find<available_package> (pid));
if (ap != nullptr && !ap->stub ())
{
if (shared_ptr<repository_fragment> f =
ddb.find<repository_fragment> (cn))
{
if (!rep_masked_fragment (ddb, f))
return make_pair (ap,
lazy_shared_ptr<repository_fragment> (ddb,
move (f)));
}
}
}
return make_pair (find_available (options, db, sp), nullptr);
}
available_packages
find_available_all (const linked_databases& dbs,
const package_name& name,
bool suppress_older_revisions)
{
// Collect all the databases linked explicitly and implicitly to the
// specified databases, recursively.
//
// Note that this is a superset of the database cluster, since we descend
// into the database links regardless of their types (see
// cluster_configs() for details).
//
linked_databases all_dbs;
all_dbs.reserve (dbs.size ());
auto add = [&all_dbs] (database& db, const auto& add)
{
if (find (all_dbs.begin (), all_dbs.end (), db) != all_dbs.end ())
return;
all_dbs.push_back (db);
{
const linked_configs& cs (db.explicit_links ());
for (auto i (cs.begin_linked ()); i != cs.end (); ++i)
add (i->db, add);
}
{
const linked_databases& cs (db.implicit_links ());
for (auto i (cs.begin_linked ()); i != cs.end (); ++i)
add (*i, add);
}
};
for (database& db: dbs)
add (db, add);
// Collect all the available packages from all the collected databases.
//
available_packages r;
for (database& db: all_dbs)
{
for (shared_ptr<available_package> ap:
pointer_result (
query_available (db, name, nullopt /* version_constraint */)))
{
// All repository fragments the package comes from are equally good,
// so we pick the first unmasked one.
//
for (const auto& pl: ap->locations)
{
const lazy_shared_ptr<repository_fragment>& lrf (
pl.repository_fragment);
if (!rep_masked_fragment (lrf))
{
r.emplace_back (move (ap), lrf);
break;
}
}
}
}
// Sort the result in the package version descending order and suppress
// duplicates and, if requested, older package revisions.
//
sort_dedup (r, suppress_older_revisions);
return r;
}
pair<shared_ptr<available_package>,
lazy_shared_ptr<repository_fragment>>
make_available_fragment (const common_options& options,
database& db,
const shared_ptr<selected_package>& sp)
{
shared_ptr<available_package> ap (make_available (options, db, sp));
if (sp->system ())
return make_pair (move (ap), nullptr);
// First see if we can find its repository fragment.
//
// Note that this is package's "old" repository fragment and there is no
// guarantee that its dependencies are still resolvable from it. But this
// is our best chance (we could go nuclear and point all orphans to the
// root repository fragment but that feels a bit too drastic at the
// moment).
//
// Also note that the repository information for this selected package can
// potentially be in one of the ultimate dependent configurations as
// determined at the time of the run when the package was configured. This
// configurations set may differ from the current one, but let's try
// anyway.
//
lazy_shared_ptr<repository_fragment> rf;
const string& cn (sp->repository_fragment.canonical_name ());
for (database& ddb: dependent_repo_configs (db))
{
if (shared_ptr<repository_fragment> f =
ddb.find<repository_fragment> (cn))
{
if (!rep_masked_fragment (ddb, f))
{
rf = lazy_shared_ptr<repository_fragment> (ddb, move (f));
break;
}
}
}
return make_pair (move (ap), move (rf));
}
}
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