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-rw-r--r--libbuild2/context.hxx45
-rw-r--r--libbuild2/dist/operation.cxx192
-rw-r--r--libbuild2/module.cxx14
-rw-r--r--libbuild2/operation.cxx135
-rw-r--r--libbuild2/operation.hxx12
-rw-r--r--libbuild2/scope.hxx10
6 files changed, 286 insertions, 122 deletions
diff --git a/libbuild2/context.hxx b/libbuild2/context.hxx
index 828c41e..db126bc 100644
--- a/libbuild2/context.hxx
+++ b/libbuild2/context.hxx
@@ -351,10 +351,48 @@ namespace build2
(current_mname.empty () && current_oname == mo));
};
+ // Operation callbacks.
+ //
+ // An entity (module, core) can register a function that will be called
+ // when an action is executed on a set of targets. The pre callback is
+ // called before any recipes for the action are matched and the post --
+ // after all have been executed. The post callback is called even if
+ // execution has failed.
+ //
+ // The callback should only be registered during the load phase. Note
+ // that it's registered for the inner action, meaning that it will be
+ // called for any outer action (which is discernible from the first
+ // argument of the callback). Note also that meta-operations other than
+ // perform never actually execute any recipes and it probably only makes
+ // sense to register these callbacks for the perform_* actions.
+ //
+ // Note that the callbacks will also be called when building a build
+ // system module or an ad hoc C++ recipe. See create_module_context() for
+ // details.
+ //
+ // See also scope::operation_callback.
+ //
+ struct operation_callback
+ {
+ using pre_callback =
+ void (context&, action, const action_targets&);
+
+ using post_callback =
+ void (context&, action, const action_targets&, bool failed);
+
+ function<pre_callback> pre;
+ function<post_callback> post;
+ };
+
+ using operation_callback_map = multimap<action_id, operation_callback>;
+
+ operation_callback_map operation_callbacks;
+
// Meta/operation-specific context-global auxiliary data storage.
//
- // Note: cleared by current_[meta_]operation() below. Normally set by
- // meta/operation-specific callbacks from [mate_]operation_info.
+ // Normally set by meta/operation-specific callbacks from
+ // [mata_]operation_info. The operation data is cleared by
+ // current_operation() below.
//
// Note also: watch out for MT-safety in the data itself.
//
@@ -759,6 +797,9 @@ namespace build2
// Set current meta-operation and operation.
//
+ // Note that the context instance is not to be re-used between different
+ // meta-operations.
+ //
void
current_meta_operation (const meta_operation_info&);
diff --git a/libbuild2/dist/operation.cxx b/libbuild2/dist/operation.cxx
index 6dc830b..5b00980 100644
--- a/libbuild2/dist/operation.cxx
+++ b/libbuild2/dist/operation.cxx
@@ -282,120 +282,134 @@ namespace build2
const location loc (pn); // Dummy location.
action_targets ts {tgt};
- auto process_postponed = [&ctx, &mod] ()
{
- if (!mod.postponed.list.empty ())
+ auto mog = make_guard ([&ctx] () {ctx.match_only = nullopt;});
+ ctx.match_only = match_only_level::all;
+
+ auto process_postponed = [&ctx, &mod, &ts] (action a)
{
- // Re-grab the phase lock similar to perform_match().
- //
- phase_lock l (ctx, run_phase::match);
+ if (!mod.postponed.list.empty ())
+ {
+ auto eg (
+ make_exception_guard (
+ [&ctx, a, &ts] ()
+ {
+ perform_post_operation_callbacks (
+ ctx, a, ts, true /* failed */);
+ }));
- // Note that we don't need to bother with the mutex since we do
- // all of this serially. But we can end up with new elements at
- // the end.
- //
- // Strictly speaking, to handle this correctly we would need to do
- // multiple passes over this list and only give up when we cannot
- // make any progress since earlier entries that we cannot resolve
- // could be "fixed" by later entries. But this feels far-fetched
- // and so let's wait for a real example before complicating this.
- //
- for (auto i (mod.postponed.list.begin ());
- i != mod.postponed.list.end ();
- ++i)
- rule::match_postponed (*i);
- }
- };
+ // Re-grab the phase lock similar to perform_match().
+ //
+ phase_lock l (ctx, run_phase::match);
- auto mog = make_guard ([&ctx] () {ctx.match_only = nullopt;});
- ctx.match_only = match_only_level::all;
+ // Note that we don't need to bother with the mutex since we do
+ // all of this serially. But we can end up with new elements at
+ // the end.
+ //
+ // Strictly speaking, to handle this correctly we would need to
+ // do multiple passes over this list and only give up when we
+ // cannot make any progress since earlier entries that we cannot
+ // resolve could be "fixed" by later entries. But this feels
+ // far-fetched and so let's wait for a real example before
+ // complicating this.
+ //
+ for (auto i (mod.postponed.list.begin ());
+ i != mod.postponed.list.end ();
+ ++i)
+ rule::match_postponed (*i);
+ }
+ };
- const operations& ops (rs.root_extra->operations);
- for (operations::size_type id (default_id + 1); // Skip default_id.
- id < ops.size ();
- ++id)
- {
- if (const operation_info* oif = ops[id])
+ const operations& ops (rs.root_extra->operations);
+ for (operations::size_type id (default_id + 1); // Skip default_id.
+ id < ops.size ();
+ ++id)
{
- // Skip aliases (e.g., update-for-install). In fact, one can argue
- // the default update should be sufficient since it is assumed to
- // update all prerequisites and we no longer support ad hoc stuff
- // like test.input. Though here we are using the dist
- // meta-operation, not perform.
- //
- if (oif->id != id)
- continue;
-
- // Use standard (perform) match.
- //
- if (auto pp = oif->pre_operation)
+ if (const operation_info* oif = ops[id])
{
- if (operation_id pid = pp (ctx, {}, dist_id, loc))
+ // Skip aliases (e.g., update-for-install). In fact, one can
+ // argue the default update should be sufficient since it is
+ // assumed to update all prerequisites and we no longer support
+ // ad hoc stuff like test.input. Though here we are using the
+ // dist meta-operation, not perform.
+ //
+ if (oif->id != id)
+ continue;
+
+ // Use standard (perform) match.
+ //
+ if (auto pp = oif->pre_operation)
{
- const operation_info* poif (ops[pid]);
- ctx.current_operation (*poif, oif, false /* diag_noise */);
+ if (operation_id pid = pp (ctx, {}, dist_id, loc))
+ {
+ const operation_info* poif (ops[pid]);
+ ctx.current_operation (*poif, oif, false /* diag_noise */);
- if (oif->operation_pre != nullptr)
- oif->operation_pre (ctx, {}, false /* inner */, loc);
+ if (oif->operation_pre != nullptr)
+ oif->operation_pre (ctx, {}, false /* inner */, loc);
- if (poif->operation_pre != nullptr)
- poif->operation_pre (ctx, {}, true /* inner */, loc);
+ if (poif->operation_pre != nullptr)
+ poif->operation_pre (ctx, {}, true /* inner */, loc);
- action a (dist_id, poif->id, oif->id);
- mod.postponed.list.clear ();
- perform_match ({}, a, ts,
- 1 /* diag (failures only) */,
- false /* progress */);
- process_postponed ();
+ action a (dist_id, poif->id, oif->id);
+ mod.postponed.list.clear ();
+ perform_match ({}, a, ts,
+ 1 /* diag (failures only) */,
+ false /* progress */);
+ process_postponed (a);
+ perform_post_operation_callbacks (ctx, a, ts, false /*failed*/);
- if (poif->operation_post != nullptr)
- poif->operation_post (ctx, {}, true /* inner */);
+ if (poif->operation_post != nullptr)
+ poif->operation_post (ctx, {}, true /* inner */);
- if (oif->operation_post != nullptr)
- oif->operation_post (ctx, {}, false /* inner */);
+ if (oif->operation_post != nullptr)
+ oif->operation_post (ctx, {}, false /* inner */);
+ }
}
- }
- ctx.current_operation (*oif, nullptr, false /* diag_noise */);
+ ctx.current_operation (*oif, nullptr, false /* diag_noise */);
- if (oif->operation_pre != nullptr)
- oif->operation_pre (ctx, {}, true /* inner */, loc);
+ if (oif->operation_pre != nullptr)
+ oif->operation_pre (ctx, {}, true /* inner */, loc);
- action a (dist_id, oif->id);
- mod.postponed.list.clear ();
- perform_match ({}, a, ts,
- 1 /* diag (failures only) */,
- false /* progress */);
- process_postponed ();
+ action a (dist_id, oif->id);
+ mod.postponed.list.clear ();
+ perform_match ({}, a, ts,
+ 1 /* diag (failures only) */,
+ false /* progress */);
+ process_postponed (a);
+ perform_post_operation_callbacks (ctx, a, ts, false /*failed*/);
- if (oif->operation_post != nullptr)
- oif->operation_post (ctx, {}, true /* inner */);
+ if (oif->operation_post != nullptr)
+ oif->operation_post (ctx, {}, true /* inner */);
- if (auto po = oif->post_operation)
- {
- if (operation_id pid = po (ctx, {}, dist_id))
+ if (auto po = oif->post_operation)
{
- const operation_info* poif (ops[pid]);
- ctx.current_operation (*poif, oif, false /* diag_noise */);
+ if (operation_id pid = po (ctx, {}, dist_id))
+ {
+ const operation_info* poif (ops[pid]);
+ ctx.current_operation (*poif, oif, false /* diag_noise */);
- if (oif->operation_pre != nullptr)
- oif->operation_pre (ctx, {}, false /* inner */, loc);
+ if (oif->operation_pre != nullptr)
+ oif->operation_pre (ctx, {}, false /* inner */, loc);
- if (poif->operation_pre != nullptr)
- poif->operation_pre (ctx, {}, true /* inner */, loc);
+ if (poif->operation_pre != nullptr)
+ poif->operation_pre (ctx, {}, true /* inner */, loc);
- action a (dist_id, poif->id, oif->id);
- mod.postponed.list.clear ();
- perform_match ({}, a, ts,
- 1 /* diag (failures only) */,
- false /* progress */);
- process_postponed ();
+ action a (dist_id, poif->id, oif->id);
+ mod.postponed.list.clear ();
+ perform_match ({}, a, ts,
+ 1 /* diag (failures only) */,
+ false /* progress */);
+ process_postponed (a);
+ perform_post_operation_callbacks (ctx, a, ts, false /*failed*/);
- if (poif->operation_post != nullptr)
- poif->operation_post (ctx, {}, true /* inner */);
+ if (poif->operation_post != nullptr)
+ poif->operation_post (ctx, {}, true /* inner */);
- if (oif->operation_post != nullptr)
- oif->operation_post (ctx, {}, false /* inner */);
+ if (oif->operation_post != nullptr)
+ oif->operation_post (ctx, {}, false /* inner */);
+ }
}
}
}
diff --git a/libbuild2/module.cxx b/libbuild2/module.cxx
index 1aaa38d..520b993 100644
--- a/libbuild2/module.cxx
+++ b/libbuild2/module.cxx
@@ -96,18 +96,28 @@ namespace build2
nullopt)); /* module_context */
// We use the same context for building any nested modules that might be
- // required while building modules.
+ // required while building modules. Note: this is also used to detect
+ // module building context. @@ Maybe we should invent special build.mode?
//
context& mctx (*(ctx.module_context = ctx.module_context_storage->get ()));
mctx.module_context = &mctx;
+ // Copy over any operation callbacks. If a callback implementation does
+ // not wish to see module context's calls, it can filter them out based on
+ // the passed context.
+ //
+ // Note also that only the callbacks registered before we need to build
+ // the first module will be in effect. Probably good enough for now.
+ //
+ mctx.operation_callbacks = ctx.operation_callbacks;
+
// Setup the context to perform update. In a sense we have a long-running
// perform meta-operation batch (indefinite, in fact, since we never call
// the meta-operation's *_post() callbacks) in which we periodically
// execute update operations.
//
// Note that we perform each build in a separate update operation. Failed
- // that, if the same target is update twice (which may happen with ad hoc
+ // that, if the same target is updated twice (which may happen with ad hoc
// recipes) we will see the old state.
//
if (mo_perform.meta_operation_pre != nullptr)
diff --git a/libbuild2/operation.cxx b/libbuild2/operation.cxx
index d7b5b92..38e5bb4 100644
--- a/libbuild2/operation.cxx
+++ b/libbuild2/operation.cxx
@@ -335,6 +335,16 @@ namespace build2
});
}
+ // Call the pre operation callbacks.
+ //
+ // See a comment in perform_execute() for why we are doing it here
+ // (short answer: phase switches).
+ //
+ auto cs (ctx.operation_callbacks.equal_range (a));
+ for (auto i (cs.first); i != cs.second; ++i)
+ if (const auto& f = i->second.pre)
+ f (ctx, a, ts);
+
// Start asynchronous matching of prerequisites keeping track of how
// many we have started. Wait with unlocked phase to allow phase
// switching.
@@ -437,7 +447,11 @@ namespace build2
diag_progress.clear ();
}
- // We are now running serially. Re-examine targets that we have matched.
+ // We are now running serially.
+ //
+
+ // Re-examine targets that we have matched and determine whether we have
+ // failed.
//
for (size_t j (0); j != n; ++j)
{
@@ -463,11 +477,8 @@ namespace build2
case target_state::postponed:
{
// We bailed before matching it (leave state in action_target as
- // unknown).
+ // unknown for the structured result printing).
//
- if (verb != 0 && diag >= 1)
- info << "not " << diag_did (a, t);
-
break;
}
case target_state::unknown:
@@ -480,9 +491,6 @@ namespace build2
{
// Things didn't go well for this target.
//
- if (verb != 0 && diag >= 1)
- info << "failed to " << diag_do (a, t);
-
at.state = s;
fail = true;
break;
@@ -492,6 +500,36 @@ namespace build2
}
}
+ // Call the post operation callbacks if perform_execute() won't be
+ // called.
+ //
+ if (fail)
+ perform_post_operation_callbacks (ctx, a, ts, fail);
+
+ // Re-examine targets that we have matched and print diagnostics.
+ //
+ if (verb != 0 && diag >= 1)
+ {
+ for (size_t j (0); j != n; ++j)
+ {
+ action_target& at (ts[j]);
+ const target& t (at.as<target> ());
+
+ if (at.state == target_state::failed)
+ {
+ // Things didn't go well for this target.
+ //
+ info << "failed to " << diag_do (a, t);
+ }
+ else if (j >= i || t.matched_state (a) == target_state::postponed)
+ {
+ // We bailed before matching it.
+ //
+ info << "not " << diag_did (a, t);
+ }
+ }
+ }
+
if (fail)
throw failed ();
@@ -622,8 +660,8 @@ namespace build2
switch (ctx.current_inner_oif->concurrency)
{
case 0: sched_tune = tune_guard (*ctx.sched, 1); break; // Run serially.
- case 1: break; // Run as is.
- default: assert (false); // Not supported.
+ case 1: break; // Run as is.
+ default: assert (false); // Not supported.
}
// Set the dry-run flag.
@@ -675,6 +713,13 @@ namespace build2
}
}
+ // Note that while this would seem like the natural place to call the
+ // pre operation callbacks, it is actually too late since during match
+ // we may switch to the execute phase and execute some recipes (think
+ // building a tool to generate some code). So we have to do this in
+ // perform_match() and then carefully make sure the post callbacks are
+ // called for all the exit paths (match failed, match_only, etc).
+
// In the 'last' execution mode run post hoc first.
//
if (ctx.current_mode == execution_mode::last)
@@ -723,9 +768,44 @@ namespace build2
// We are now running serially.
//
- // Clear the dry-run flag.
+ // Re-examine all the targets and determine whether we have failed.
//
- ctx.dry_run = false;
+ for (action_target& at: ts)
+ {
+ const target& t (at.as<target> ());
+
+ // Similar to match we cannot attribute post hoc failures to specific
+ // targets so it seems the best we can do is just fail them all.
+ //
+ if (!posthoc_fail)
+ {
+ // Note that here we call executed_state() directly instead of
+ // execute_complete() since we know there is no need to wait.
+ //
+ at.state = t.executed_state (a, false /* fail */);
+ }
+ else
+ at.state = /*t.state[a].state =*/ target_state::failed;
+
+ switch (at.state)
+ {
+ case target_state::unknown:
+ case target_state::unchanged:
+ case target_state::changed:
+ break;
+ case target_state::failed:
+ {
+ fail = true;
+ break;
+ }
+ default:
+ assert (false);
+ }
+ }
+
+ // Call the post operation callbacks.
+ //
+ perform_post_operation_callbacks (ctx, a, ts, fail);
// Clear the progress if present.
//
@@ -735,6 +815,10 @@ namespace build2
diag_progress.clear ();
}
+ // Clear the dry-run flag.
+ //
+ ctx.dry_run = false;
+
// Restore original scheduler settings.
}
@@ -759,19 +843,6 @@ namespace build2
{
const target& t (at.as<target> ());
- // Similar to match we cannot attribute post hoc failures to specific
- // targets so it seems the best we can do is just fail them all.
- //
- if (!posthoc_fail)
- {
- // Note that here we call executed_state() directly instead of
- // execute_complete() since we know there is no need to wait.
- //
- at.state = t.executed_state (a, false /* fail */);
- }
- else
- at.state = /*t.state[a].state =*/ target_state::failed;
-
switch (at.state)
{
case target_state::unknown:
@@ -806,7 +877,6 @@ namespace build2
if (verb != 0 && diag >= 1)
info << "failed to " << diag_do (a, t);
- fail = true;
break;
}
default:
@@ -1004,6 +1074,19 @@ namespace build2
#endif
}
+ void
+ perform_post_operation_callbacks (context& ctx,
+ action a,
+ const action_targets& ts,
+ bool failed)
+ {
+ auto cs (ctx.operation_callbacks.equal_range (a));
+
+ for (auto i (cs.first); i != cs.second; ++i)
+ if (const auto& f = i->second.post)
+ f (ctx, a, ts, failed);
+ }
+
const meta_operation_info mo_perform {
perform_id,
"perform",
diff --git a/libbuild2/operation.hxx b/libbuild2/operation.hxx
index e8ff38a..7d11161 100644
--- a/libbuild2/operation.hxx
+++ b/libbuild2/operation.hxx
@@ -177,9 +177,19 @@ namespace build2
// diagnostics (unless quiet).
//
LIBBUILD2_SYMEXPORT void
- perform_execute (const values&, action, const action_targets&,
+ perform_execute (const values&, action, action_targets&,
uint16_t diag, bool prog);
+ // Call the context-wide post operation callbacks. Should be called after
+ // perfrom_match() if perform_execute() will not be called. Note that
+ // perform_match() handles its own failures but not the match_only case.
+ //
+ LIBBUILD2_SYMEXPORT void
+ perform_post_operation_callbacks (context&,
+ action,
+ const action_targets&,
+ bool failed);
+
LIBBUILD2_SYMEXPORT extern const meta_operation_info mo_noop;
LIBBUILD2_SYMEXPORT extern const meta_operation_info mo_perform;
LIBBUILD2_SYMEXPORT extern const meta_operation_info mo_info;
diff --git a/libbuild2/scope.hxx b/libbuild2/scope.hxx
index ece78b7..d792ed2 100644
--- a/libbuild2/scope.hxx
+++ b/libbuild2/scope.hxx
@@ -459,14 +459,20 @@ namespace build2
// when an action is executed on the dir{} target that corresponds to this
// scope. The pre callback is called just before the recipe and the post
// -- immediately after. The callbacks are only called if the recipe
- // (including noop recipe) is executed for the corresponding target. The
- // callbacks should only be registered during the load phase.
+ // (including noop recipe) is executed for the corresponding target.
+ //
+ // The callback should only be registered during the load phase. Note that
+ // it's registered for the inner action, meaning that it will be called
+ // for any outer action (which is discernible from the first argument of
+ // the callback).
//
// It only makes sense for callbacks to return target_state changed or
// unchanged and to throw failed in case of an error. These pre/post
// states will be merged with the recipe state and become the target
// state. See execute_recipe() for details.
//
+ // See also context::operation_callback.
+ //
public:
struct operation_callback
{