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authorBoris Kolpackov <boris@codesynthesis.com>2022-06-28 10:51:17 +0200
committerBoris Kolpackov <boris@codesynthesis.com>2022-06-28 11:11:55 +0200
commitba8ddd80a4323eb85ee5a569295eb4e80986003f (patch)
tree09722bdb653de49dd2d732c4034f5ec1f5b93047 /libbuild2/cc/common.cxx
parent17af650e17fafd4d3fa2bf0e06253e15f4e5b9c3 (diff)
Complete support for saving/loading library metadata to/from pkg-config files
Diffstat (limited to 'libbuild2/cc/common.cxx')
-rw-r--r--libbuild2/cc/common.cxx236
1 files changed, 155 insertions, 81 deletions
diff --git a/libbuild2/cc/common.cxx b/libbuild2/cc/common.cxx
index a320626..3b49d58 100644
--- a/libbuild2/cc/common.cxx
+++ b/libbuild2/cc/common.cxx
@@ -877,12 +877,13 @@ namespace build2
return pair<const mtime_target&, const target*> {t, g};
}
- // Note that pk's scope should not be NULL (even if dir is absolute).
+ // Action should be absent if called during the load phase. Note that pk's
+ // scope should not be NULL (even if dir is absolute).
//
// Note: see similar logic in find_system_library().
//
target* common::
- search_library (action act,
+ search_library (optional<action> act,
const dir_paths& sysd,
optional<dir_paths>& usrd,
const prerequisite_key& p,
@@ -890,7 +891,7 @@ namespace build2
{
tracer trace (x, "search_library");
- assert (p.scope != nullptr);
+ assert (p.scope != nullptr && (!exist || act));
context& ctx (p.scope->ctx);
const scope& rs (*p.scope->root_scope ());
@@ -1232,20 +1233,87 @@ namespace build2
if (exist)
return r;
- // If we cannot acquire the lock then this mean the target has already
- // been matched and we assume all of this has already been done.
+ // Try to extract library information from pkg-config. We only add the
+ // default macro if we could not extract more precise information. The
+ // idea is that in .pc files that we generate, we copy those macros (or
+ // custom ones) from *.export.poptions.
//
- auto lock = [act] (const target* t) -> target_lock
+ // @@ Should we add .pc files as ad hoc members so pkconfig_save() can
+ // use their names when deriving -l-names (this would be especially
+ // helpful for binless libraries to get hold of prefix/suffix, etc).
+ //
+ auto load_pc = [this, &trace,
+ act, &p, &name,
+ &sysd, &usrd,
+ pd, &pc, lt, a, s] (pair<bool, bool> metaonly)
{
- auto l (t != nullptr ? build2::lock (act, *t, true) : target_lock ());
+ l5 ([&]{trace << "loading pkg-config information during "
+ << (act ? "match" : "load") << " for "
+ << (a != nullptr ? "static " : "")
+ << (s != nullptr ? "shared " : "")
+ << "member(s) of " << *lt << "; metadata only: "
+ << metaonly.first << " " << metaonly.second;});
+
+ // Add the "using static/shared library" macro (used, for example, to
+ // handle DLL export). The absence of either of these macros would
+ // mean some other build system that cannot distinguish between the
+ // two (and no pkg-config information).
+ //
+ auto add_macro = [this] (target& t, const char* suffix)
+ {
+ // If there is already a value (either in cc.export or x.export),
+ // don't add anything: we don't want to be accumulating defines nor
+ // messing with custom values. And if we are adding, then use the
+ // generic cc.export.
+ //
+ // The only way we could already have this value is if this same
+ // library was also imported as a project (as opposed to installed).
+ // Unlikely but possible. In this case the values were set by the
+ // export stub and we shouldn't touch them.
+ //
+ if (!t.vars[x_export_poptions])
+ {
+ auto p (t.vars.insert (c_export_poptions));
- if (l && l.offset == target::offset_matched)
+ if (p.second)
+ {
+ // The "standard" macro name will be LIB<NAME>_{STATIC,SHARED},
+ // where <name> is the target name. Here we want to strike a
+ // balance between being unique and not too noisy.
+ //
+ string d ("-DLIB");
+
+ d += sanitize_identifier (
+ ucase (const_cast<const string&> (t.name)));
+
+ d += '_';
+ d += suffix;
+
+ strings o;
+ o.push_back (move (d));
+ p.first = move (o);
+ }
+ }
+ };
+
+ if (pc.first.empty () && pc.second.empty ())
{
- assert ((*t)[act].rule == &file_rule::rule_match);
- l.unlock ();
+ if (!pkgconfig_load (act, *p.scope,
+ *lt, a, s,
+ p.proj, name,
+ *pd, sysd, *usrd,
+ metaonly))
+ {
+ if (a != nullptr && !metaonly.first) add_macro (*a, "STATIC");
+ if (s != nullptr && !metaonly.second) add_macro (*s, "SHARED");
+ }
}
-
- return l;
+ else
+ pkgconfig_load (act, *p.scope,
+ *lt, a, s,
+ pc,
+ *pd, sysd, *usrd,
+ metaonly);
};
// Mark as a "cc" library (unless already marked) and set the system
@@ -1266,6 +1334,75 @@ namespace build2
return p.second;
};
+ // Deal with the load phase case. The rest is already hairy enough so
+ // let's not try to weave this logic into that.
+ //
+ if (!act)
+ {
+ assert (ctx.phase == run_phase::load);
+
+ // The overall idea here is to set everything up so that the default
+ // file_rule matches the returned targets, the same way as it would if
+ // multiple operations were executed for the normal case (see below).
+ //
+ timestamp mt (timestamp_nonexistent);
+ if (a != nullptr) {lt->a = a; a->group = lt; mt = a->mtime ();}
+ if (s != nullptr) {lt->s = s; s->group = lt; mt = s->mtime ();}
+
+ // @@ TODO: we currently always reload pkgconfig for lt (and below).
+ //
+ mark_cc (*lt);
+ lt->mtime (mt);
+
+ // We can only load metadata from here since we can only do this
+ // during the load phase. But it's also possible that a racing match
+ // phase already found and loaded this library without metadata. So
+ // looks like the only way is to load the metadata incrementally. We
+ // can base this decision on the presense/absense of cc.type and
+ // export.metadata.
+ //
+ pair<bool, bool> metaonly {false, false};
+
+ if (a != nullptr && !mark_cc (*a))
+ {
+ if (a->vars[ctx.var_export_metadata])
+ a = nullptr;
+ else
+ metaonly.first = true;
+ }
+
+ if (s != nullptr && !mark_cc (*s))
+ {
+ if (s->vars[ctx.var_export_metadata])
+ s = nullptr;
+ else
+ metaonly.second = true;
+ }
+
+ // Try to extract library information from pkg-config.
+ //
+ if (a != nullptr || s != nullptr)
+ load_pc (metaonly);
+
+ return r;
+ }
+
+ // If we cannot acquire the lock then this mean the target has already
+ // been matched and we assume all of this has already been done.
+ //
+ auto lock = [a = *act] (const target* t) -> target_lock
+ {
+ auto l (t != nullptr ? build2::lock (a, *t, true) : target_lock ());
+
+ if (l && l.offset == target::offset_matched)
+ {
+ assert ((*t)[a].rule == &file_rule::rule_match);
+ l.unlock ();
+ }
+
+ return l;
+ };
+
target_lock ll (lock (lt));
// Set lib{} group members to indicate what's available. Note that we
@@ -1275,12 +1412,15 @@ namespace build2
timestamp mt (timestamp_nonexistent);
if (ll)
{
- if (s != nullptr) {lt->s = s; mt = s->mtime ();}
if (a != nullptr) {lt->a = a; mt = a->mtime ();}
+ if (s != nullptr) {lt->s = s; mt = s->mtime ();}
// Mark the group since sometimes we use it itself instead of one of
// the liba/libs{} members (see process_libraries_impl() for details).
//
+ // @@ TODO: we currently always reload pkgconfig for lt (and above).
+ // Maybe pass NULL lt to pkgconfig_load() in this case?
+ //
mark_cc (*lt);
}
@@ -1299,77 +1439,11 @@ namespace build2
if (a != nullptr && !mark_cc (*a)) a = nullptr;
if (s != nullptr && !mark_cc (*s)) s = nullptr;
- // Add the "using static/shared library" macro (used, for example, to
- // handle DLL export). The absence of either of these macros would
- // mean some other build system that cannot distinguish between the
- // two (and no pkg-config information).
- //
- auto add_macro = [this] (target& t, const char* suffix)
- {
- // If there is already a value (either in cc.export or x.export),
- // don't add anything: we don't want to be accumulating defines nor
- // messing with custom values. And if we are adding, then use the
- // generic cc.export.
- //
- // The only way we could already have this value is if this same
- // library was also imported as a project (as opposed to installed).
- // Unlikely but possible. In this case the values were set by the
- // export stub and we shouldn't touch them.
- //
- if (!t.vars[x_export_poptions])
- {
- auto p (t.vars.insert (c_export_poptions));
-
- if (p.second)
- {
- // The "standard" macro name will be LIB<NAME>_{STATIC,SHARED},
- // where <name> is the target name. Here we want to strike a
- // balance between being unique and not too noisy.
- //
- string d ("-DLIB");
-
- d += sanitize_identifier (
- ucase (const_cast<const string&> (t.name)));
-
- d += '_';
- d += suffix;
-
- strings o;
- o.push_back (move (d));
- p.first = move (o);
- }
- }
- };
-
if (ll && (a != nullptr || s != nullptr))
{
- // Try to extract library information from pkg-config. We only add the
- // default macro if we could not extract more precise information. The
- // idea is that in .pc files that we generate, we copy those macros
- // (or custom ones) from *.export.poptions.
+ // Try to extract library information from pkg-config.
//
- // @@ Should we add .pc files as ad hoc members so pkconfig_save() can
- // use their names when deriving -l-names (this would be especially
- // helpful for binless libraries to get hold of prefix/suffix, etc).
- //
- if (pc.first.empty () && pc.second.empty ())
- {
- if (!pkgconfig_load (act, *p.scope,
- *lt, a, s,
- p.proj, name,
- *pd, sysd, *usrd,
- false /* metadata */))
- {
- if (a != nullptr) add_macro (*a, "STATIC");
- if (s != nullptr) add_macro (*s, "SHARED");
- }
- }
- else
- pkgconfig_load (act, *p.scope,
- *lt, a, s,
- pc,
- *pd, sysd, *usrd,
- false /* metadata */);
+ load_pc ({false, false} /* metaonly */);
}
// If we have the lock (meaning this is the first time), set the matched