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-rw-r--r--libbuild2/cc/link-rule.cxx384
1 files changed, 350 insertions, 34 deletions
diff --git a/libbuild2/cc/link-rule.cxx b/libbuild2/cc/link-rule.cxx
index 8c68b64..db82507 100644
--- a/libbuild2/cc/link-rule.cxx
+++ b/libbuild2/cc/link-rule.cxx
@@ -503,8 +503,8 @@ namespace build2
return false;
}
- // We will only chain a C source if there is also an X source or we were
- // explicitly told to.
+ // We will only synthesize a dependency for a C source if there is also
+ // an X source or we were explicitly told to.
//
if (r.seen_c && !r.seen_x && hint.empty ())
{
@@ -915,8 +915,8 @@ namespace build2
const fsdir* dir (inject_fsdir (a, t));
// Process prerequisites, pass 1: search and match prerequisite
- // libraries, search obj/bmi{} targets, and search targets we do rule
- // chaining for.
+ // libraries, search obj/bmi{} targets, and search targets we do
+ // dependency synthesis for.
//
// Also clear the binless flag if we see any source or object files.
// Note that if we don't see any this still doesn't mean the library is
@@ -928,7 +928,7 @@ namespace build2
// compile::apply() to unmatch them and therefore not to hinder
// parallelism (or mess up for-install'ness).
//
- // We also create obj/bmi{} chain targets because we need to add
+ // We also synthesize obj/bmi{} dependencies because we need to add
// (similar to lib{}) all the bmi{} as prerequisites to all the other
// obj/bmi{} that we are creating. Note that this doesn't mean that the
// compile rule will actually treat them all as prerequisite targets.
@@ -955,6 +955,20 @@ namespace build2
auto& pts (t.prerequisite_targets[a]);
size_t start (pts.size ());
+ // Compile rule options specified on lib/exe{} to propagate to obj/bmi{}
+ // during dependency synthesis (see below).
+ //
+ struct cr_options
+ {
+ const strings* c_p; // cc.poptions
+ const strings* x_p; // x.poptions
+ const strings* c_c; // cc.coptions
+ const strings* x_c; // x.coptions
+
+ bool member; // Any value came from member as opposed to group.
+ };
+ optional<cr_options> cr_ops; // Lookup lazily.
+
for (prerequisite_member p: group_prerequisite_members (a, t))
{
// Note that we have to recognize update=match for *(update), not just
@@ -1025,7 +1039,14 @@ namespace build2
continue;
}
- const target*& pt (pto);
+ const target*& pt (pto.target);
+
+ // Auxiliary data in prerequisite_target:
+ //
+ // - for libraries it stores link flags (lflag_whole)
+ // - for synthesized obj/bmi{} it strores the group flag
+ //
+ uintptr_t& pd (pto.data);
// Mark (2 bits):
//
@@ -1045,7 +1066,7 @@ namespace build2
{
binless = binless && (mod ? user_binless : false);
- // Rule chaining, part 1.
+ // Dependency synthesis, part 1.
//
// Which scope shall we use to resolve the root? Unlikely, but
// possible, the prerequisite is from a different project
@@ -1058,6 +1079,62 @@ namespace build2
//
bool group (!p.prerequisite.belongs (t)); // Group's prerequisite.
+ // Lookup all the relevant binary-specific compile option values if
+ // this hasn't already been done.
+ //
+ if (!cr_ops)
+ {
+ bool m (false);
+
+ auto lookup = [&bs, &t, &m] (const variable& var) -> const strings*
+ {
+ // We don't want to pick anything beyond target-specific
+ // values (but including target type/pattern-specific) since
+ // they will also be in effect for obj/bmi{} and setting them
+ // to the same values is a waste (and, in fact, it could be
+ // that when this feature is not used, different obj/bmi{} are
+ // compiled with different options).
+ //
+ // Note that we need to take into account target type/pattern-
+ // specific append/prepend since it could modify the scope
+ // value but only be applicable to lib/exe{}. Something like
+ // this:
+ //
+ // cc.poptions += -DFOO
+ // lib{*}: cc.poptions += -DBAR
+ //
+ // Then there is this nuance: if any value came from the member
+ // and not from the group, then we need to override the above
+ // group semantics. In particular, this allows us to do:
+ //
+ // liba{hello}: cxx.poptions += -DLIBHELLO_STATIC_BUILD
+ // libs{hello}: cxx.poptions += -DLIBHELLO_SHARED_BUILD
+ //
+ // Note also that the variables we are dealing with are not
+ // overridable.
+ //
+ pair<build2::lookup, size_t> p (
+ t.lookup_original (var,
+ lookup_limit::target_type,
+ &bs));
+
+ const strings* r (cast_null<strings> (p.first));
+
+ if (r != nullptr)
+ m = m || p.second == 1; // Found in the target itself.
+
+ return r;
+ };
+
+ cr_ops = cr_options {lookup (c_poptions), lookup (x_poptions),
+ lookup (c_coptions), lookup (x_coptions),
+ false};
+ cr_ops->member = m;
+ }
+
+ if (group && cr_ops->member)
+ group = false;
+
const target_type& rtt (mod
? (group ? bmi::static_type : tts.bmi)
: (group ? obj::static_type : tts.obj));
@@ -1091,44 +1168,278 @@ namespace build2
// obj/bmi{} is always in the out tree. Note that currently it could
// be the group -- we will pick a member in part 2 below.
//
+ // Note: d is used below.
+ //
pair<target&, ulock> r (
search_new_locked (
ctx, rtt, d, dir_path (), *cp.tk.name, nullptr, cp.scope));
- // If we shouldn't clean obj{}, then it is fair to assume we
- // shouldn't clean the source either (generated source will be in
- // the same directory as obj{} and if not, well, go find yourself
- // another build system ;-)).
- //
- if (skip (r.first))
- {
- pt = nullptr;
- continue;
- }
+ const target& cpt (r.first);
+ bool locked (r.second.owns_lock ());
- // Either set of verify the bin.binless value on this bmi*{} target
+ // Either set or verify the bin.binless value on this bmi*{} target
// (see config_data::b_binless for semantics).
//
if (mod)
{
- if (r.second.owns_lock ())
+ if (locked)
{
if (user_binless)
r.first.assign (b_binless) = true;
}
else
{
- lookup l (r.first[b_binless]);
+ lookup l (cpt[b_binless]);
if (user_binless ? !cast_false<bool> (l) : l.defined ())
fail << "synthesized dependency for prerequisite " << p
<< " would be incompatible with existing target "
- << r.first <<
+ << cpt <<
info << "incompatible bin.binless value";
}
}
- pt = &r.first;
+ // Binary-specific compile options.
+ //
+ // Propagate compile rule options (*.poptions and *.coptions)
+ // specified on the binary to the obj/bmi{} targets that we
+ // synthesize.
+ //
+ // The semantics we are aiming for is as-if they were set on the
+ // obj/bmi{} target at the end of the buildfile (to be precise, at
+ // the end of loading all buildfiles for the scope).
+ //
+ // While ideally we would like to prevent sharing such obj/bmi{}
+ // between multiple binaries or for the user to specify any compile
+ // options explicitly, this is not easy to do (since once the
+ // options are set, we don't know who set them: same binary on the
+ // previous operation batch, another binary, or user). Instead, we
+ // are going to approximate this by making sure the options (or
+ // their absence) match.
+ //
+ // Note also that we don't touch user-specified obj/bmi{}
+ // prerequisites (neither set nor verify). In particular, this
+ // allows customizing compile options for specific translation
+ // units.
+ //
+ // NOTE: keep last since unlocks the lock.
+ //
+ {
+ // If we have any value, then either set them (locked) or make
+ // sure they all match (unlocked).
+ //
+ // Note that the case where one lib/exe{} specifies a value while
+ // the other doesn't specify any (and they share a synthesized
+ // dependency) will be racy to verify. Getting rid of this race
+ // will be difficult because in the verify case we can't say who
+ // set the value on obj/bmi{}. We could set some sort of a marker
+ // variable but then it means we would need to look it up for
+ // every lib/exe{} (whether they use this feature or not, and most
+ // won't). However, we can handle the common case based on the
+ // target being newly created (as opposed to being mentioned in
+ // the buildfile; see target_decl).
+ //
+ auto check = [&bs, &p, &d] (const variable& var,
+ const target& et,
+ const strings* e,
+ const target& st)
+ {
+ // If the expected value is NULL, then just make sure this
+ // variable is not set on the target. Otherwise, compare the
+ // result of the normal lookup and if it matches, then we assume
+ // it's good regardless of where it comes from (this covers all
+ // the corner cases which we cannot verify precisely; see above
+ // for details).
+ //
+ const strings* v;
+ size_t vd (0);
+
+ if (e == nullptr)
+ {
+ v = cast_null<strings> (st.vars[var]);
+
+ if (v == nullptr)
+ return;
+ }
+ else
+ {
+ // Optimize the lookup for the common case.
+ //
+ pair<lookup, size_t> p (
+ st.lookup_original (
+ var,
+ d.empty () ? &bs : nullptr));
+
+ v = cast_null<strings> (p.first);
+
+ if (v != nullptr && *v == *e)
+ return;
+
+ vd = p.second;
+ }
+
+ diag_record dr (fail);
+
+ dr << "synthesized dependency for prerequisite " << p
+ << " would be incompatible with existing target " << st <<
+ info << "variable " << var << " value mismatch";
+
+ if (e == nullptr) // Expected to be absent.
+ {
+ dr << info << st << " value: "; to_stream_quoted (dr.os, *v);
+ dr << info << et << " value is absent";
+ }
+ else if (v == nullptr) // Expected to be present.
+ {
+ dr << info << st << " value is absent";
+ dr << info << et << " value: "; to_stream_quoted (dr.os, *e);
+ }
+ else // Expected to match.
+ {
+ dr << info << st << " value: "; to_stream_quoted (dr.os, *v);
+ dr << info << et << " value: "; to_stream_quoted (dr.os, *e);
+
+ if (vd > 1)
+ {
+ if (const target* g = st.group)
+ dr << info << st << " value came from group " << *g;
+ }
+ }
+ };
+
+ auto set = [&r] (const variable& var, const strings& v)
+ {
+ // One nuance here is that target type/pattern-specific
+ // append/prepend/assign specified for obj/bmi{} will not be
+ // in effect for options specified on lib/exe{}. For example:
+ //
+ // obj{*}: cc.poptions = -DFOO
+ // lib{bar}: cc.poptions += -DBAR
+ //
+ // It doesn't seem there is anything sensible we can do about
+ // it automatically other than documenting this nuance and
+ // suggesting the user adds lib/exe{} to such a pattern.
+ //
+ r.first.assign (var) = v;
+ };
+
+ bool absent (false);
+ if (cr_ops->c_p != nullptr || cr_ops->x_p != nullptr ||
+ cr_ops->c_c != nullptr || cr_ops->x_c != nullptr ||
+ (absent = !operator>= (cpt.decl, target_decl::implied))) // VC14
+ {
+ if (locked)
+ {
+ if (!absent)
+ {
+ if (cr_ops->c_p != nullptr) set (c_poptions, *cr_ops->c_p);
+ if (cr_ops->x_p != nullptr) set (x_poptions, *cr_ops->x_p);
+ if (cr_ops->c_c != nullptr) set (c_coptions, *cr_ops->c_c);
+ if (cr_ops->x_c != nullptr) set (x_coptions, *cr_ops->x_c);
+ }
+
+ // @@ PERF: maybe pass the lock to search_new_locked() below?
+ //
+ r.second.unlock ();
+ locked = false;
+ }
+ else
+ {
+ if (absent && cpt.vars.empty ())
+ ; // Optimize for the common case.
+ else
+ {
+ // If the values came from the group, then use the group in
+ // diagnostics.
+ //
+ const target& et (group ? *t.group : t);
+
+ check (c_poptions, et, cr_ops->c_p, cpt);
+ check (x_poptions, et, cr_ops->x_p, cpt);
+ check (c_coptions, et, cr_ops->c_c, cpt);
+ check (x_coptions, et, cr_ops->x_c, cpt);
+ }
+ }
+
+ // Verify member/group consistency.
+ //
+ // The check above doesn't quite work for libraries where the
+ // one that specified any options will likely end up
+ // synthesizing obja/objs{} targets (see the group logic above)
+ // while the one that didn't -- obj{}. So we also need to check
+ // obj{} vs obj[as]{} consistency if both are synthesized.
+ //
+ // (This is actually even hairier than that: sometimes, the
+ // obj{} library will race ahead in its matching and manage to
+ // create the obja/objs{} prerequisite. In which case we will
+ // end up failing the above check, which will be quite confusing
+ // and which is the reason we have added the "value came from
+ // group" info above).
+ //
+ // Implementing this verification in this racing environment is
+ // challanging, to put it mildly. So what we are going to do is,
+ // in case of a group, also enter the member (which we will be
+ // doing anyway shortly). If we were the ones who created it,
+ // then we have "staked out" our view of its variables and any
+ // subsequent attempts to enter it will trigger the above
+ // check. If, however, this target was already there, then we
+ // verify that it's consistent with the values we expect.
+ //
+ if (group)
+ {
+ const target_type& tt (mod ? tts.bmi : tts.obj);
+
+ // @@ PERF: maybe we should stash the member in pd and avoid
+ // another search when we pick the member? (Though obj{}
+ // might also not be synthesized.)
+
+ pair<target&, ulock> r (
+ search_new_locked (
+ ctx, tt, d, dir_path (), *cp.tk.name, nullptr, cp.scope));
+
+ if (r.second.owns_lock ())
+ r.second.unlock ();
+ else
+ {
+ const target& cmt (r.first);
+
+ if (!absent ||
+ !operator>= (cmt.decl, target_decl::implied)) // VC14
+ {
+ if (absent && cmt.vars.empty ())
+ ; // Optimize for the common case.
+ else
+ {
+ check (c_poptions, cpt, cr_ops->c_p, cmt);
+ check (x_poptions, cpt, cr_ops->x_p, cmt);
+ check (c_coptions, cpt, cr_ops->c_c, cmt);
+ check (x_coptions, cpt, cr_ops->x_c, cmt);
+ }
+ }
+ }
+ }
+ }
+ }
+
+ if (locked)
+ r.second.unlock ();
+
+ // If we shouldn't clean obj{}, then it is fair to assume we
+ // shouldn't clean the source either (generated source will be in
+ // the same directory as obj{} and if not, well, go find yourself
+ // another build system ;-)).
+ //
+ // Note: should be done after setting/verifying variables since can
+ // be an operation batch.
+ //
+ if (skip (cpt))
+ {
+ pt = nullptr;
+ continue;
+ }
+
+ pt = &cpt;
+ pd = group ? 1 : 0;
mk = mod ? 2 : 1;
}
else if (p.is_a<libx> () ||
@@ -1729,9 +2040,9 @@ namespace build2
}
}
- // Process prerequisites, pass 2: finish rule chaining but don't start
- // matching anything yet since that may trigger recursive matching of
- // bmi{} targets we haven't completed yet. Hairy, I know.
+ // Process prerequisites, pass 2: finish dependency synthesis but don't
+ // start matching anything yet since that may trigger recursive matching
+ // of bmi{} targets we haven't completed yet. Hairy, I know.
//
// Parallel prerequisites/prerequisite_targets loop.
@@ -1759,14 +2070,14 @@ namespace build2
// Note that if this is a library not to be cleaned, we keep it
// marked for completion (see the next phase).
}
- else if (mk == 1 || mk == 2) // Source/module chain.
+ else if (mk == 1 || mk == 2) // Synthesized source/module dependency.
{
bool mod (mk == 2); // p is_a x_mod
mk = 1;
const target& rt (*pt);
- bool group (!p.prerequisite.belongs (t)); // Group's prerequisite.
+ bool group (pd != 0); // Group's prerequisite (see pass 1).
// If we have created a obj/bmi{} target group, pick one of its
// members; the rest would be primarily concerned with it.
@@ -1812,7 +2123,7 @@ namespace build2
}
// Add our lib*{} (see the export.* machinery for details) and
- // bmi*{} (both original and chained; see module search logic)
+ // bmi*{} (both original and synthesized; see module search logic)
// prerequisites.
//
// Note that we don't resolve lib{} to liba{}/libs{} here
@@ -1833,7 +2144,8 @@ namespace build2
size_t j (start);
for (prerequisite_member p: group_prerequisite_members (a, t))
{
- const target* pt (pts[j++]);
+ const target* pt (pts[j].target);
+ uintptr_t& pd (pts[j++].data);
if (pt == nullptr) // Note: ad hoc is taken care of.
continue;
@@ -1847,7 +2159,8 @@ namespace build2
{
ps.push_back (p.as_prerequisite ());
}
- else if (x_mod != nullptr && p.is_a (*x_mod)) // Chained module.
+ else if (x_mod != nullptr && p.is_a (*x_mod)) // Synthesized
+ // module dependency.
{
// Searched during pass 1 but can be NULL or marked.
//
@@ -1857,7 +2170,7 @@ namespace build2
// was a group, then we would have picked up a member. So
// here we may have to "unpick" it.
//
- bool group (j < i && !p.prerequisite.belongs (t));
+ bool group (j < i && pd != 0);
unmark (pt);
ps.push_back (prerequisite (group ? *pt->group : *pt));
@@ -1997,7 +2310,8 @@ namespace build2
mark (pt, mk);
}
- // Process prerequisites, pass 3: match everything and verify chains.
+ // Process prerequisites, pass 3: match everything and verify synthesized
+ // dependencies.
//
// Wait with unlocked phase to allow phase switching.
@@ -2051,7 +2365,9 @@ namespace build2
i = start;
for (prerequisite_member p: group_prerequisite_members (a, t))
{
- const target*& pt (pts[i++]);
+ const target*& pt (pts[i].target);
+ uintptr_t& pd (pts[i++].data);
+
// Skipped or not marked for completion.
//
@@ -2088,7 +2404,7 @@ namespace build2
if (&tp != &tp1)
{
- bool group (!p.prerequisite.belongs (t));
+ bool group (pd != 0); // See pass 1.
const target_type& rtt (mod
? (group ? bmi::static_type : tts.bmi)