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|
// file : libbuild2/adhoc-rule-buildscript.cxx -*- C++ -*-
// license : MIT; see accompanying LICENSE file
#include <libbuild2/adhoc-rule-buildscript.hxx>
#include <sstream>
#include <libbuild2/depdb.hxx>
#include <libbuild2/scope.hxx>
#include <libbuild2/target.hxx>
#include <libbuild2/dyndep.hxx>
#include <libbuild2/context.hxx>
#include <libbuild2/algorithm.hxx>
#include <libbuild2/filesystem.hxx> // path_perms(), auto_rmfile
#include <libbuild2/diagnostics.hxx>
#include <libbuild2/make-parser.hxx>
#include <libbuild2/parser.hxx> // attributes
#include <libbuild2/build/script/parser.hxx>
#include <libbuild2/build/script/runner.hxx>
using namespace std;
namespace build2
{
static inline void
hash_script_vars (sha256& cs,
const build::script::script& s,
const target& t,
names& storage)
{
context& ctx (t.ctx);
for (const string& n: s.vars)
{
cs.append (n);
lookup l;
if (const variable* var = ctx.var_pool.find (n))
l = t[var];
cs.append (!l.defined () ? '\x1' : l->null ? '\x2' : '\x3');
if (l)
{
storage.clear ();
names_view ns (reverse (*l, storage));
for (const name& n: ns)
to_checksum (cs, n);
}
}
}
// How should we hash target and prerequisite sets ($> and $<)? We could
// hash them as target names (i.e., the same as the $>/< content) or as
// paths (only for path-based targets). While names feel more general, they
// are also more expensive to compute. And for path-based targets, path is
// generally a good proxy for the target name. Since the bulk of the ad hoc
// recipes will presumably be operating exclusively on path-based targets,
// let's do it both ways.
//
static inline void
hash_target (sha256& cs, const target& t, names& storage)
{
if (const path_target* pt = t.is_a<path_target> ())
cs.append (pt->path ().string ());
else
{
storage.clear ();
t.as_name (storage);
for (const name& n: storage)
to_checksum (cs, n);
}
};
// The script can reference a program in one of four ways:
//
// 1. As an (imported) target (e.g., $cli)
//
// 2. As a process_path_ex (e.g., $cxx.path).
//
// 3. As a builtin (e.g., sed)
//
// 4. As a program path/name.
//
// When it comes to change tracking, there is nothing we can do for (4) (the
// user can track its environment manually with depdb-env) and there is
// nothing to do for (3) (assuming builtin semantics is stable/backwards-
// compatible). The (2) case is handled automatically by hashing all the
// variable values referenced by the script (see below), which in case of
// process_path_ex includes the checksums (both executable and environment),
// if available.
//
// This leaves the (1) case, which itself splits into two sub-cases: the
// target comes with the dependency information (e.g., imported from a
// project via an export stub) or it does not (e.g., imported as installed).
// We don't need to do anything extra for the first sub-case since the
// target's state/mtime can be relied upon like any other prerequisite.
// Which cannot be said about the second sub-case, where we reply on
// checksum that may be included as part of the target metadata.
//
// So what we are going to do is hash checksum metadata of every executable
// prerequisite target that has it (we do it here in order to include ad hoc
// prerequisites, which feels like the right thing to do; the user may mark
// tools as ad hoc in order to omit them from $<).
//
static inline void
hash_prerequisite_target (sha256& cs, sha256& exe_cs, sha256& env_cs,
const target& pt,
names& storage)
{
hash_target (cs, pt, storage);
if (const exe* et = pt.is_a<exe> ())
{
if (const string* c = et->lookup_metadata<string> ("checksum"))
{
exe_cs.append (*c);
}
if (const strings* e = et->lookup_metadata<strings> ("environment"))
{
hash_environment (env_cs, *e);
}
}
}
bool adhoc_buildscript_rule::
recipe_text (const scope& s,
const target_type& tt,
string&& t,
attributes& as)
{
// Handle and erase recipe-specific attributes.
//
optional<string> diag;
for (auto i (as.begin ()); i != as.end (); )
{
attribute& a (*i);
const string& n (a.name);
if (n == "diag")
try
{
diag = convert<string> (move (a.value));
}
catch (const invalid_argument& e)
{
fail (as.loc) << "invalid " << n << " attribute value: " << e;
}
else
{
++i;
continue;
}
i = as.erase (i);
}
checksum = sha256 (t).string ();
ttype = &tt;
istringstream is (move (t));
build::script::parser p (s.ctx);
script = p.pre_parse (s, tt, actions,
is, loc.file, loc.line + 1,
move (diag), as.loc);
return false;
}
void adhoc_buildscript_rule::
dump_attributes (ostream& os) const
{
// For now we dump it as an attribute whether it was specified or derived
// from the script. Maybe that's ok (we use this in tests)?
//
if (script.diag_name)
{
os << " [";
os << "diag=";
to_stream (os, name (*script.diag_name), true /* quote */, '@');
os << ']';
}
}
void adhoc_buildscript_rule::
dump_text (ostream& os, string& ind) const
{
os << ind << string (braces, '{') << endl;
ind += " ";
if (script.depdb_clear)
os << ind << "depdb clear" << endl;
script::dump (os, ind, script.depdb_preamble);
if (script.diag_line)
{
os << ind; script::dump (os, *script.diag_line, true /* newline */);
}
script::dump (os, ind, script.body);
ind.resize (ind.size () - 2);
os << ind << string (braces, '}');
}
bool adhoc_buildscript_rule::
reverse_fallback (action a, const target_type& tt) const
{
// We can provide clean for a file target if we are providing update.
//
return a == perform_clean_id && tt.is_a<file> () &&
find (actions.begin (), actions.end (),
perform_update_id) != actions.end ();
}
struct adhoc_buildscript_rule::match_data
{
match_data (action a, const target& t, bool temp_dir)
: env (a, t, temp_dir) {}
build::script::environment env;
build::script::default_runner run;
path dd;
const scope* bs;
timestamp mt;
bool deferred_failure;
};
struct adhoc_buildscript_rule::match_data_byproduct
{
match_data_byproduct (action a, const target& t, bool temp_dir)
: env (a, t, temp_dir) {}
build::script::environment env;
build::script::default_runner run;
build::script::parser::dyndep_byproduct byp;
depdb::reopen_state dd;
size_t skip_count = 0;
size_t pts_n; // Number of static prerequisites in prerequisite_targets.
const scope* bs;
timestamp mt;
};
bool adhoc_buildscript_rule::
match (action a, target& t, const string& h, match_extra& me) const
{
// We pre-parsed the script with the assumption it will be used on a
// non/file-based target. Note that this should not be possible with
// patterns.
//
if (pattern == nullptr)
{
if ((t.is_a<file> () != nullptr) != ttype->is_a<file> ())
{
fail (loc) << "incompatible target types used with shared recipe" <<
info << "all targets must be file-based or non-file-based";
}
}
return adhoc_rule::match (a, t, h, me);
}
recipe adhoc_buildscript_rule::
apply (action a, target& t, match_extra& me) const
{
return apply (a, t, me, nullopt);
}
recipe adhoc_buildscript_rule::
apply (action a,
target& xt,
match_extra& me,
const optional<timestamp>& d) const
{
tracer trace ("adhoc_buildscript_rule::apply");
// We don't support deadlines for any of these cases (see below).
//
if (d && (a.outer () ||
me.fallback ||
(a == perform_update_id && xt.is_a<file> ())))
return empty_recipe;
// If this is an outer operation (e.g., update-for-test), then delegate to
// the inner.
//
if (a.outer ())
{
match_inner (a, xt);
return execute_inner;
}
// Inject pattern's ad hoc group members, if any.
//
if (pattern != nullptr)
pattern->apply_adhoc_members (a, xt, me);
// Derive file names for the target and its ad hoc group members, if any.
//
if (a == perform_update_id || a == perform_clean_id)
{
for (target* m (&xt); m != nullptr; m = m->adhoc_member)
{
if (auto* p = m->is_a<path_target> ())
p->derive_path ();
}
}
// Inject dependency on the output directory.
//
// We do it always instead of only if one of the targets is path-based in
// case the recipe creates temporary files or some such.
//
const fsdir* dir (inject_fsdir (a, xt));
// Match prerequisites.
//
match_prerequisite_members (a, xt);
// Inject pattern's prerequisites, if any.
//
if (pattern != nullptr)
pattern->apply_prerequisites (a, xt, me);
// See if we are providing the standard clean as a fallback.
//
if (me.fallback)
return &perform_clean_depdb;
// See if this is not update or not on a file-based target.
//
if (a != perform_update_id || !xt.is_a<file> ())
{
return [d, this] (action a, const target& t)
{
return default_action (a, t, d);
};
}
// See if this is the simple case with only static dependencies.
//
if (!script.depdb_dyndep)
{
return [this] (action a, const target& t)
{
return perform_update_file (a, t);
};
}
// This is a perform update on a file target with extraction of dynamic
// dependency information either in the depdb preamble (depdb-dyndep
// without --byproduct) or as a byproduct of the recipe body execution
// (depdb-dyndep with --byproduct).
//
// For the former case, we may need to add additional prerequisites (or
// even target group members). We also have to save any such additional
// prerequisites in depdb so that we can check if any of them have changed
// on subsequent updates. So all this means that we have to take care of
// depdb here in apply() instead of perform_*() like we normally do. We
// also do things in slightly different order due to the restrictions
// impose by the match phase.
//
// The latter case (depdb-dyndep --byproduct) is sort of a combination
// of the normal dyndep and the static case: we check the depdb during
// match but save after executing the recipe.
//
// Note that the C/C++ header dependency extraction is the canonical
// example and all this logic is based on the prior work in the cc module
// where you can often find more detailed rationale for some of the steps
// performed (like the fsdir update below).
//
context& ctx (xt.ctx);
file& t (xt.as<file> ());
const path& tp (t.path ());
const scope& bs (t.base_scope ());
if (dir != nullptr)
fsdir_rule::perform_update_direct (a, t);
// Because the depdb preamble can access $<, we have to blank out all the
// ad hoc prerequisites. Since we will still need them later, we "move"
// them to the auxiliary data member in prerequisite_target (which also
// means we cannot use the standard execute_prerequisites()).
//
auto& pts (t.prerequisite_targets[a]);
for (prerequisite_target& p: pts)
{
// Note that fsdir{} injected above is adhoc.
//
if (p.target != nullptr && p.adhoc)
{
p.data = reinterpret_cast<uintptr_t> (p.target);
p.target = nullptr;
}
}
depdb dd (tp + ".d");
// NOTE: see the "static dependencies" version (with comments) below.
//
if (dd.expect ("<ad hoc buildscript recipe> 1") != nullptr)
l4 ([&]{trace << "rule mismatch forcing update of " << t;});
if (dd.expect (checksum) != nullptr)
l4 ([&]{trace << "recipe text change forcing update of " << t;});
if (!script.depdb_clear)
{
names storage;
sha256 prq_cs, exe_cs, env_cs;
for (const prerequisite_target& p: pts)
{
if (const target* pt =
(p.target != nullptr ? p.target :
p.data != 0 ? reinterpret_cast<target*> (p.data) :
nullptr))
{
hash_prerequisite_target (prq_cs, exe_cs, env_cs, *pt, storage);
}
}
{
sha256 cs;
hash_script_vars (cs, script, t, storage);
if (dd.expect (cs.string ()) != nullptr)
l4 ([&]{trace << "recipe variable change forcing update of " << t;});
}
{
sha256 tcs;
for (const target* m (&t); m != nullptr; m = m->adhoc_member)
hash_target (tcs, *m, storage);
if (dd.expect (tcs.string ()) != nullptr)
l4 ([&]{trace << "target set change forcing update of " << t;});
if (dd.expect (prq_cs.string ()) != nullptr)
l4 ([&]{trace << "prerequisite set change forcing update of " << t;});
}
{
if (dd.expect (exe_cs.string ()) != nullptr)
l4 ([&]{trace << "program checksum change forcing update of " << t;});
if (dd.expect (env_cs.string ()) != nullptr)
l4 ([&]{trace << "environment change forcing update of " << t;});
}
}
unique_ptr<match_data> md;
unique_ptr<match_data_byproduct> mdb;
if (script.depdb_dyndep_byproduct)
{
mdb.reset (new match_data_byproduct (
a, t, script.depdb_preamble_temp_dir));
}
else
md.reset (new match_data (a, t, script.depdb_preamble_temp_dir));
build::script::environment& env (mdb != nullptr ? mdb->env : md->env);
build::script::default_runner& run (mdb != nullptr ? mdb->run : md->run);
run.enter (env, script.start_loc);
// Run the first half of the preamble (before depdb-dyndep).
//
{
build::script::parser p (ctx);
p.execute_depdb_preamble (a, bs, t, env, script, run, dd);
}
// Determine if we need to do an update based on the above checks.
//
bool update;
timestamp mt;
if (dd.writing ())
update = true;
else
{
if ((mt = t.mtime ()) == timestamp_unknown)
t.mtime (mt = mtime (tp)); // Cache.
update = dd.mtime > mt;
}
if (update)
mt = timestamp_nonexistent;
// Update our prerequisite targets. While strictly speaking we only need
// to update those that are referenced by depdb-dyndep, communicating
// this is both tedious and error-prone. So we update them all.
//
for (const prerequisite_target& p: pts)
{
if (const target* pt =
(p.target != nullptr ? p.target :
p.data != 0 ? reinterpret_cast<target*> (p.data) : nullptr))
{
update = dyndep_rule::update (
trace, a, *pt, update ? timestamp_unknown : mt) || update;
}
}
if (script.depdb_dyndep_byproduct)
{
// If we have the dynamic dependency information as byproduct of the
// recipe body, then do the first part: verify the entries in depdb
// unless we are already updating. Essentially, this is the `if(cache)`
// equivalent of the restart loop in exec_depdb_dyndep().
//
// Do we really need to update our prerequisite targets in this case (as
// we do above)? While it may seem like we should be able to avoid it by
// triggering update on encountering any non-existent files in depbd, we
// may actually incorrectly "validate" some number of depdb entires
// while having an out-of-date main source file. We could probably avoid
// the update if we are already updating.
using dyndep = dyndep_rule;
// Extract the depdb-dyndep command's information (we may also execute
// some variable assignments).
//
{
build::script::parser p (ctx);
mdb->byp = p.execute_depdb_preamble_dyndep_byproduct (
a, bs, t,
env, script, run,
dd);
}
mdb->pts_n = pts.size ();
if (!update)
{
const auto& byp (mdb->byp);
const char* what (byp.what.c_str ());
const location& ll (byp.location);
function<dyndep::map_extension_func> map_ext (
[] (const scope& bs, const string& n, const string& e)
{
// NOTE: another version in exec_depdb_dyndep().
return dyndep::map_extension (bs, n, e, nullptr);
});
// Similar to exec_depdb_dyndep()::add() but only for cache=true and
// without support for generated files.
//
// Note that we have to update each file for the same reason as the
// main source file -- if any of them changed, then we must assume the
// subsequent entries are invalid.
//
size_t& skip_count (mdb->skip_count);
auto add = [&trace, what,
a, &bs, &t,
&byp, &map_ext,
&skip_count, mt] (path fp) -> optional<bool>
{
if (const build2::file* ft = dyndep::enter_file (
trace, what,
a, bs, t,
fp, true /* cache */, true /* normalized */,
map_ext, *byp.default_type).first)
{
if (optional<bool> u = dyndep::inject_existing_file (
trace, what,
a, t,
*ft, mt, false /* fail */))
{
skip_count++;
return *u;
}
}
return nullopt;
};
auto df = make_diag_frame (
[&ll, &t] (const diag_record& dr)
{
if (verb != 0)
dr << info (ll) << "while extracting dynamic dependencies for "
<< t;
});
while (!update)
{
// We should always end with a blank line.
//
string* l (dd.read ());
// If the line is invalid, run the compiler.
//
if (l == nullptr)
{
update = true;
break;
}
if (l->empty ()) // Done, nothing changed.
break;
if (optional<bool> r = add (path (move (*l))))
{
if (*r)
update = true;
}
else
{
// Invalidate this line and trigger update.
//
dd.write ();
update = true;
}
if (update)
l6 ([&]{trace << "restarting (cache)";});
}
}
// Note that in case of dry run we will have an incomplete (but valid)
// database which will be updated on the next non-dry run.
//
if (!update || ctx.dry_run)
dd.close (false /* mtime_check */);
else
mdb->dd = dd.close_to_reopen ();
// Pass on base scope and update/mtime.
//
mdb->bs = &bs;
mdb->mt = update ? timestamp_nonexistent : mt;
// @@ TMP: re-enable once recipe becomes move_only_function.
//
#if 0
return [this, md = move (mdb)] (action a, const target& t) mutable
{
auto r (perform_update_file_dyndep_byproduct (a, t, *md));
md.reset (); // @@ TMP: is this really necessary (+mutable)?
return r;
};
#else
t.data (move (mdb));
return recipe ([this] (action a, const target& t) mutable
{
auto md (move (t.data<unique_ptr<match_data_byproduct>> ()));
return perform_update_file_dyndep_byproduct (a, t, *md);
});
#endif
}
else
{
// Run the second half of the preamble (depdb-dyndep commands) to
// extract dynamic dependencies.
//
// Note that this should be the last update to depdb (the invalidation
// order semantics).
//
bool deferred_failure (false);
{
build::script::parser p (ctx);
p.execute_depdb_preamble_dyndep (a, bs, t,
env, script, run,
dd,
update,
deferred_failure,
mt);
}
if (update && dd.reading () && !ctx.dry_run)
dd.touch = timestamp_unknown;
dd.close (false /* mtime_check */);
md->dd = move (dd.path);
// Pass on base scope and update/mtime.
//
md->bs = &bs;
md->mt = update ? timestamp_nonexistent : mt;
md->deferred_failure = deferred_failure;
// @@ TMP: re-enable once recipe becomes move_only_function.
//
#if 0
return [this, md = move (md)] (action a, const target& t) mutable
{
auto r (perform_update_file_dyndep (a, t, *md));
md.reset (); // @@ TMP: is this really necessary (+mutable)?
return r;
};
#else
t.data (move (md));
return recipe ([this] (action a, const target& t) mutable
{
auto md (move (t.data<unique_ptr<match_data>> ()));
return perform_update_file_dyndep (a, t, *md);
});
#endif
}
}
target_state adhoc_buildscript_rule::
perform_update_file_dyndep_byproduct (action a,
const target& xt,
match_data_byproduct& md) const
{
// Note: using shared function name among the three variants.
//
tracer trace ("adhoc_buildscript_rule::perform_update_file");
context& ctx (xt.ctx);
const file& t (xt.as<file> ());
// While we've updated all our prerequisites in apply(), we still need to
// execute them here to keep the dependency counts straight.
//
const auto& pts (t.prerequisite_targets[a]);
for (const prerequisite_target& p: pts)
{
if (const target* pt =
(p.target != nullptr ? p.target :
p.data != 0 ? reinterpret_cast<target*> (p.data) : nullptr))
{
target_state ts (execute_wait (a, *pt));
assert (ts == target_state::unchanged || ts == target_state::changed);
}
}
build::script::environment& env (md.env);
build::script::default_runner& run (md.run);
if (md.mt != timestamp_nonexistent)
{
run.leave (env, script.end_loc);
return target_state::unchanged;
}
const scope& bs (*md.bs);
// Sequence start time for mtime checks below.
//
timestamp start (!ctx.dry_run && depdb::mtime_check ()
? system_clock::now ()
: timestamp_unknown);
if (!ctx.dry_run || verb != 0)
{
execute_update_file (bs, a, t, env, run);
}
// Extract the dynamic dependency information as byproduct of the recipe
// body. Essentially, this is the `if(!cache)` equivalent of the restart
// loop in exec_depdb_dyndep().
//
if (!ctx.dry_run)
{
using dyndep = dyndep_rule;
using dyndep_format = build::script::parser::dyndep_format;
depdb dd (move (md.dd));
const auto& byp (md.byp);
const location& ll (byp.location);
const char* what (byp.what.c_str ());
const path& file (byp.file);
env.clean ({build2::script::cleanup_type::always, file},
true /* implicit */);
function<dyndep::map_extension_func> map_ext (
[] (const scope& bs, const string& n, const string& e)
{
// NOTE: another version in exec_depdb_dyndep() and above.
return dyndep::map_extension (bs, n, e, nullptr);
});
// Analogous to exec_depdb_dyndep()::add() but only for cache=false.
// The semantics is quite different, however: instead of updating the
// dynamic prerequisites we verify they are not generated.
//
// Note that fp is expected to be absolute.
//
size_t skip (md.skip_count);
auto add = [&trace, what,
a, &bs, &t, &pts, pts_n = md.pts_n,
&byp, &map_ext, &dd, &skip] (path fp)
{
normalize_external (fp, what);
if (const build2::file* ft = dyndep::find_file (
trace, what,
a, bs, t,
fp, false /* cache */, true /* normalized */,
map_ext, *byp.default_type).first)
{
// Skip if this is one of the static prerequisites.
//
for (size_t i (0); i != pts_n; ++i)
{
const prerequisite_target& p (pts[i]);
if (const target* pt =
(p.target != nullptr ? p.target :
p.data != 0 ? reinterpret_cast<target*> (p.data) :
nullptr))
{
if (ft == pt)
return;
}
}
// Skip if this is one of the targets.
//
if (byp.drop_cycles)
{
for (const target* m (&t); m != nullptr; m = m->adhoc_member)
{
if (ft == m)
return;
}
}
// Skip until where we left off.
//
if (skip != 0)
{
--skip;
return;
}
// Verify it has noop recipe.
//
dyndep::verify_existing_file (trace, what, a, t, *ft);
}
dd.write (fp);
};
auto df = make_diag_frame (
[&ll, &t] (const diag_record& dr)
{
if (verb != 0)
dr << info (ll) << "while extracting dynamic dependencies for "
<< t;
});
ifdstream is (ifdstream::badbit);
try
{
is.open (file);
}
catch (const io_error& e)
{
fail (ll) << "unable to open file " << file << ": " << e;
}
location il (file, 1);
// The way we parse things is format-specific.
//
// Note: similar code in exec_depdb_dyndep(). Except here we just add
// the paths to depdb without entering them as targets.
//
switch (md.byp.format)
{
case dyndep_format::make:
{
using make_state = make_parser;
using make_type = make_parser::type;
make_parser make;
for (string l;; ++il.line) // Reuse the buffer.
{
if (eof (getline (is, l)))
{
if (make.state != make_state::end)
fail (il) << "incomplete make dependency declaration";
break;
}
size_t pos (0);
do
{
// Note that we don't really need a diag frame that prints the
// line being parsed since we are always parsing the file.
//
pair<make_type, string> r (
make.next (l, pos, il, false /* strict */));
if (r.second.empty ())
continue;
// @@ TODO: what should we do about targets?
//
if (r.first == make_type::target)
continue;
path f (move (r.second));
if (f.relative ())
{
if (!byp.cwd)
fail (il) << "relative path " << f << " in make dependency "
<< "declaration" <<
info << "consider using --cwd to specify relative path "
<< "base";
f = *byp.cwd / f;
}
add (move (f));
}
while (pos != l.size ());
if (make.state == make_state::end)
break;
}
break;
}
}
// Add the terminating blank line.
//
dd.expect ("");
dd.close ();
md.dd.path = move (dd.path); // For mtime check below.
}
run.leave (env, script.end_loc);
timestamp now (system_clock::now ());
if (!ctx.dry_run)
depdb::check_mtime (start, md.dd.path, t.path (), now);
t.mtime (now);
return target_state::changed;
}
target_state adhoc_buildscript_rule::
perform_update_file_dyndep (action a, const target& xt, match_data& md) const
{
tracer trace ("adhoc_buildscript_rule::perform_update_file");
context& ctx (xt.ctx);
const file& t (xt.as<file> ());
// While we've updated all our prerequisites in apply(), we still need to
// execute them here to keep the dependency counts straight.
//
for (const prerequisite_target& p: t.prerequisite_targets[a])
{
if (const target* pt =
(p.target != nullptr ? p.target :
p.data != 0 ? reinterpret_cast<target*> (p.data) : nullptr))
{
target_state ts (execute_wait (a, *pt));
assert (ts == target_state::unchanged || ts == target_state::changed);
}
}
build::script::environment& env (md.env);
build::script::default_runner& run (md.run);
// Force update in case of a deferred failure even if nothing changed.
//
if (md.mt != timestamp_nonexistent && !md.deferred_failure)
{
run.leave (env, script.end_loc);
return target_state::unchanged;
}
// Sequence start time for mtime checks below.
//
timestamp start (!ctx.dry_run && depdb::mtime_check ()
? system_clock::now ()
: timestamp_unknown);
if (!ctx.dry_run || verb != 0)
{
execute_update_file (*md.bs, a, t, env, run, md.deferred_failure);
}
run.leave (env, script.end_loc);
timestamp now (system_clock::now ());
if (!ctx.dry_run)
depdb::check_mtime (start, md.dd, t.path (), now);
t.mtime (now);
return target_state::changed;
}
target_state adhoc_buildscript_rule::
perform_update_file (action a, const target& xt) const
{
tracer trace ("adhoc_buildscript_rule::perform_update_file");
context& ctx (xt.ctx);
const file& t (xt.as<file> ());
const path& tp (t.path ());
// Update prerequisites and determine if any of them render this target
// out-of-date.
//
timestamp mt (t.load_mtime ());
optional<target_state> ps;
names storage;
sha256 prq_cs, exe_cs, env_cs;
{
// This is essentially ps=execute_prerequisites(a, t, mt) which we
// cannot use because we need to see ad hoc prerequisites.
//
size_t busy (ctx.count_busy ());
size_t exec (ctx.count_executed ());
target_state rs (target_state::unchanged);
wait_guard wg (ctx, busy, t[a].task_count);
auto& pts (t.prerequisite_targets[a]);
for (const target*& pt: pts)
{
if (pt == nullptr) // Skipped.
continue;
target_state s (execute_async (a, *pt, busy, t[a].task_count));
if (s == target_state::postponed)
{
rs |= s;
pt = nullptr;
}
}
wg.wait ();
bool e (mt == timestamp_nonexistent);
for (prerequisite_target& p: pts)
{
if (p == nullptr)
continue;
const target& pt (*p.target);
ctx.sched.wait (exec, pt[a].task_count, scheduler::work_none);
target_state s (pt.executed_state (a));
rs |= s;
// Compare our timestamp to this prerequisite's.
//
if (!e)
{
// If this is an mtime-based target, then compare timestamps.
//
if (const mtime_target* mpt = pt.is_a<mtime_target> ())
{
if (mpt->newer (mt, s))
e = true;
}
else
{
// Otherwise we assume the prerequisite is newer if it was
// changed.
//
if (s == target_state::changed)
e = true;
}
}
if (p.adhoc)
p.target = nullptr; // Blank out.
// As part of this loop calculate checksums that need to include ad
// hoc prerequisites (unless the script tracks changes itself).
//
if (!script.depdb_clear)
hash_prerequisite_target (prq_cs, exe_cs, env_cs, pt, storage);
}
if (!e)
ps = rs;
}
bool update (!ps);
// We use depdb to track changes to the script itself, input/output file
// names, tools, etc.
//
// NOTE: see the "dynamic dependencies" version above.
//
depdb dd (tp + ".d");
// First should come the rule name/version.
//
if (dd.expect ("<ad hoc buildscript recipe> 1") != nullptr)
l4 ([&]{trace << "rule mismatch forcing update of " << t;});
// Then the script checksum.
//
// Ideally, to detect changes to the script semantics, we would hash the
// text with all the variables expanded but without executing any
// commands. In practice, this is easier said than done (think the set
// builtin that receives output of a command that modifies the
// filesystem).
//
// So as the next best thing we are going to hash the unexpanded text as
// well as values of all the variables expanded in it (which we get as a
// side effect of pre-parsing the script). This approach has a number of
// drawbacks:
//
// - We can't handle computed variable names (e.g., $($x ? X : Y)).
//
// - We may "overhash" by including variables that are actually
// script-local.
//
// - There are functions like $install.resolve() with result based on
// external (to the script) information.
//
if (dd.expect (checksum) != nullptr)
l4 ([&]{trace << "recipe text change forcing update of " << t;});
// Track the variables, targets, and prerequisites changes, unless the
// script tracks the dependency changes itself.
//
if (!script.depdb_clear)
{
// For each variable hash its name, undefined/null/non-null indicator,
// and the value if non-null.
//
// Note that this excludes the special $< and $> variables which we
// handle below.
//
// @@ TODO: maybe detect and decompose process_path_ex in order to
// properly attribute checksum and environment changes?
//
{
sha256 cs;
hash_script_vars (cs, script, t, storage);
if (dd.expect (cs.string ()) != nullptr)
l4 ([&]{trace << "recipe variable change forcing update of " << t;});
}
// Target and prerequisite sets ($> and $<).
//
{
sha256 tcs;
for (const target* m (&t); m != nullptr; m = m->adhoc_member)
hash_target (tcs, *m, storage);
if (dd.expect (tcs.string ()) != nullptr)
l4 ([&]{trace << "target set change forcing update of " << t;});
if (dd.expect (prq_cs.string ()) != nullptr)
l4 ([&]{trace << "prerequisite set change forcing update of " << t;});
}
// Finally the programs and environment checksums.
//
{
if (dd.expect (exe_cs.string ()) != nullptr)
l4 ([&]{trace << "program checksum change forcing update of " << t;});
if (dd.expect (env_cs.string ()) != nullptr)
l4 ([&]{trace << "environment change forcing update of " << t;});
}
}
const scope* bs (nullptr);
// Execute the custom dependency change tracking commands, if present.
//
// Note that we share the environment between the execute_depdb_preamble()
// and execute_body() calls, which is not merely an optimization since
// variables set in the preamble must be available in the body.
//
// Creating the environment instance is not cheap so optimize for the
// common case where we don't have the depdb preamble and nothing to
// update.
//
bool depdb_preamble (!script.depdb_preamble.empty ());
if (!depdb_preamble)
{
if (dd.writing () || dd.mtime > mt)
update = true;
if (!update)
{
dd.close ();
return *ps;
}
}
build::script::environment env (a, t, false /* temp_dir */);
build::script::default_runner run;
if (depdb_preamble)
{
bs = &t.base_scope ();
if (script.depdb_preamble_temp_dir)
env.set_temp_dir_variable ();
build::script::parser p (ctx);
run.enter (env, script.start_loc);
p.execute_depdb_preamble (a, *bs, t, env, script, run, dd);
}
// Update if depdb mismatch.
//
if (dd.writing () || dd.mtime > mt)
update = true;
dd.close ();
// If nothing changed, then we are done.
//
if (!update)
{
// Note that if we execute the depdb preamble but not the script body,
// we need to call the runner's leave() function explicitly (here and
// below).
//
if (depdb_preamble)
run.leave (env, script.end_loc);
return *ps;
}
bool r (false);
if (!ctx.dry_run || verb != 0)
{
// Prepare to execute the script diag line and/or body.
//
if (bs == nullptr)
bs = &t.base_scope ();
if ((r = execute_update_file (*bs, a, t, env, run)))
{
if (!ctx.dry_run)
dd.check_mtime (tp);
}
}
if (r || depdb_preamble)
run.leave (env, script.end_loc);
t.mtime (system_clock::now ());
return target_state::changed;
}
// Return true if execute_body() was called and thus the caller should call
// run.leave().
//
bool adhoc_buildscript_rule::
execute_update_file (const scope& bs,
action, const file& t,
build::script::environment& env,
build::script::default_runner& run,
bool deferred_failure) const
{
context& ctx (t.ctx);
const scope& rs (*bs.root_scope ());
// Note that it doesn't make much sense to use the temporary directory
// variable ($~) in the 'diag' builtin call, so we postpone setting it
// until the script body execution, that can potentially be omitted.
//
build::script::parser p (ctx);
if (verb == 1)
{
if (script.diag_line)
{
text << p.execute_special (rs, bs, env, *script.diag_line);
}
else
{
// @@ TODO (and in default_action() below):
//
// - we are printing target, not source (like in most other places)
//
// - printing of ad hoc target group (the {hxx cxx}{foo} idea)
//
// - if we are printing prerequisites, should we print all of them
// (including tools)?
//
text << *script.diag_name << ' ' << t;
}
}
if (!ctx.dry_run || verb >= 2)
{
// On failure remove the target files that may potentially exist but
// be invalid.
//
small_vector<auto_rmfile, 8> rms;
if (!ctx.dry_run)
{
for (const target* m (&t); m != nullptr; m = m->adhoc_member)
{
if (auto* f = m->is_a<file> ())
rms.emplace_back (f->path ());
}
}
if (script.body_temp_dir && !script.depdb_preamble_temp_dir)
env.set_temp_dir_variable ();
p.execute_body (rs, bs,
env, script, run,
script.depdb_preamble.empty () /* enter */,
false /* leave */);
if (!ctx.dry_run)
{
if (deferred_failure)
fail << "expected error exit status from recipe body";
// If this is an executable, let's be helpful to the user and set
// the executable bit on POSIX.
//
#ifndef _WIN32
auto chmod = [] (const path& p)
{
path_perms (p,
(path_perms (p) |
permissions::xu |
permissions::xg |
permissions::xo));
};
for (const target* m (&t); m != nullptr; m = m->adhoc_member)
{
if (auto* p = m->is_a<exe> ())
chmod (p->path ());
}
#endif
for (auto& rm: rms)
rm.cancel ();
}
return true;
}
else
return false;
}
target_state adhoc_buildscript_rule::
default_action (action a,
const target& t,
const optional<timestamp>& deadline) const
{
tracer trace ("adhoc_buildscript_rule::default_action");
context& ctx (t.ctx);
execute_prerequisites (a, t);
if (!ctx.dry_run || verb != 0)
{
const scope& bs (t.base_scope ());
const scope& rs (*bs.root_scope ());
build::script::environment e (a, t, script.body_temp_dir, deadline);
build::script::parser p (ctx);
if (verb == 1)
{
if (script.diag_line)
{
text << p.execute_special (rs, bs, e, *script.diag_line);
}
else
{
// @@ TODO: as above (execute_update_file()).
//
text << *script.diag_name << ' ' << t;
}
}
if (!ctx.dry_run || verb >= 2)
{
build::script::default_runner r;
p.execute_body (rs, bs, e, script, r);
}
}
return target_state::changed;
}
}
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