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-rw-r--r--libbuild2/bin/init.cxx963
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diff --git a/libbuild2/bin/init.cxx b/libbuild2/bin/init.cxx
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+// file : build2/bin/init.cxx -*- C++ -*-
+// copyright : Copyright (c) 2014-2019 Code Synthesis Ltd
+// license : MIT; see accompanying LICENSE file
+
+#include <libbuild2/bin/init.hxx>
+
+#include <map>
+
+#include <libbuild2/scope.hxx>
+#include <libbuild2/variable.hxx>
+#include <libbuild2/diagnostics.hxx>
+
+#include <libbuild2/config/utility.hxx>
+
+#include <libbuild2/test/module.hxx>
+
+#include <libbuild2/install/rule.hxx>
+#include <libbuild2/install/utility.hxx>
+
+#include <libbuild2/bin/rule.hxx>
+#include <libbuild2/bin/guess.hxx>
+#include <libbuild2/bin/target.hxx>
+
+using namespace std;
+using namespace butl;
+
+namespace build2
+{
+ namespace bin
+ {
+ static const fail_rule fail_;
+ static const lib_rule lib_;
+
+ // Default config.bin.*.lib values.
+ //
+ static const strings exe_lib {"shared", "static"};
+ static const strings liba_lib {"static", "shared"};
+ static const strings libs_lib {"shared", "static"};
+
+ bool
+ vars_init (scope& rs,
+ scope&,
+ const location&,
+ unique_ptr<module_base>&,
+ bool first,
+ bool,
+ const variable_map&)
+ {
+ tracer trace ("bin::vars_init");
+ l5 ([&]{trace << "for " << rs;});
+
+ assert (first);
+
+ // Enter variables. Note: some overridable, some not.
+ //
+ // Target is a string and not target_triplet because it can be
+ // specified by the user.
+ //
+ auto& vp (rs.ctx.var_pool.rw (rs));
+
+ vp.insert<string> ("config.bin.target", true);
+ vp.insert<string> ("config.bin.pattern", true);
+
+ // Library types to build.
+ //
+ vp.insert<string> ("config.bin.lib", true);
+
+ // Library types to use (in priority order).
+ //
+ vp.insert<strings> ("config.bin.exe.lib", true);
+ vp.insert<strings> ("config.bin.liba.lib", true);
+ vp.insert<strings> ("config.bin.libs.lib", true);
+
+ // The rpath[_link].auto flag controls automatic rpath behavior, for
+ // example, addition of rpaths for prerequisite libraries (see the cc
+ // module for an example). Default is true.
+ //
+ vp.insert<dir_paths> ("config.bin.rpath", true);
+ vp.insert<bool> ("config.bin.rpath.auto", true);
+
+ vp.insert<dir_paths> ("config.bin.rpath_link", true);
+ vp.insert<bool> ("config.bin.rpath_link.auto", true);
+
+ vp.insert<string> ("config.bin.prefix", true);
+ vp.insert<string> ("config.bin.suffix", true);
+ vp.insert<string> ("config.bin.lib.prefix", true);
+ vp.insert<string> ("config.bin.lib.suffix", true);
+ vp.insert<string> ("config.bin.exe.prefix", true);
+ vp.insert<string> ("config.bin.exe.suffix", true);
+
+ vp.insert<string> ("bin.lib");
+
+ vp.insert<strings> ("bin.exe.lib");
+ vp.insert<strings> ("bin.liba.lib");
+ vp.insert<strings> ("bin.libs.lib");
+
+ vp.insert<dir_paths> ("bin.rpath");
+ vp.insert<bool> ("bin.rpath.auto");
+
+ vp.insert<dir_paths> ("bin.rpath_link");
+ vp.insert<bool> ("bin.rpath_link.auto");
+
+ // Link whole archive. Note: non-overridable with target visibility.
+ //
+ // The lookup semantics is as follows: we first look for a prerequisite-
+ // specific value, then for a target-specific value in the library being
+ // linked, and then for target type/pattern-specific value starting from
+ // the scope of the target being linked-to. In that final lookup we do
+ // not look in the target being linked-to itself since that is used to
+ // indicate how this target should be linked to other targets. For
+ // example:
+ //
+ // exe{test}: liba{foo}
+ // liba{foo}: libua{foo1 foo2}
+ // liba{foo}: bin.whole = false # Affects test but not foo1 and foo2.
+ //
+ // If unspecified, defaults to false for liba{} and to true for libu*{}.
+ //
+ vp.insert<bool> ("bin.whole", false, variable_visibility::target);
+
+ vp.insert<string> ("bin.exe.prefix");
+ vp.insert<string> ("bin.exe.suffix");
+ vp.insert<string> ("bin.lib.prefix");
+ vp.insert<string> ("bin.lib.suffix");
+
+ vp.insert<string> ("bin.lib.load_suffix",
+ variable_visibility::project);
+
+ vp.insert<map<string, string>> ("bin.lib.version",
+ variable_visibility::project);
+
+ return true;
+ }
+
+ bool
+ config_init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool first,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::config_init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // We only support root loading (which means there can only be one).
+ //
+ if (&rs != &bs)
+ fail (loc) << "bin.config module must be loaded in project root";
+
+ // Load bin.vars.
+ //
+ if (!cast_false<bool> (rs["bin.vars.loaded"]))
+ load_module (rs, rs, "bin.vars", loc);
+
+ // Configure.
+ //
+ using config::required;
+ using config::optional;
+ using config::omitted;
+
+ // Adjust module priority (binutils).
+ //
+ config::save_module (rs, "bin", 350);
+
+ // The idea here is as follows: if we already have one of
+ // the bin.* variables set, then we assume this is static
+ // project configuration and don't bother setting the
+ // corresponding config.bin.* variable.
+ //
+ //@@ Need to validate the values. Would be more efficient
+ // to do it once on assignment than every time on query.
+ // Custom var type?
+ //
+
+ // config.bin.lib
+ //
+ {
+ value& v (rs.assign ("bin.lib"));
+ if (!v)
+ v = *required (rs, "config.bin.lib", "both").first;
+ }
+
+ // config.bin.exe.lib
+ //
+ {
+ value& v (rs.assign ("bin.exe.lib"));
+ if (!v)
+ v = *required (rs, "config.bin.exe.lib", exe_lib).first;
+ }
+
+ // config.bin.liba.lib
+ //
+ {
+ value& v (rs.assign ("bin.liba.lib"));
+ if (!v)
+ v = *required (rs, "config.bin.liba.lib", liba_lib).first;
+ }
+
+ // config.bin.libs.lib
+ //
+ {
+ value& v (rs.assign ("bin.libs.lib"));
+ if (!v)
+ v = *required (rs, "config.bin.libs.lib", libs_lib).first;
+ }
+
+ // config.bin.rpath[_link]
+ //
+ // These ones are optional and we merge them into bin.rpath[_link], if
+ // any.
+ //
+ rs.assign ("bin.rpath") += cast_null<dir_paths> (
+ optional (rs, "config.bin.rpath"));
+
+ rs.assign ("bin.rpath_link") += cast_null<dir_paths> (
+ optional (rs, "config.bin.rpath_link"));
+
+ // config.bin.rpath[_link].auto
+ //
+ {
+ lookup l;
+
+ rs.assign ("bin.rpath.auto") =
+ (l = omitted (rs, "config.bin.rpath.auto").first)
+ ? cast<bool> (l)
+ : true;
+
+ rs.assign ("bin.rpath_link.auto") =
+ (l = omitted (rs, "config.bin.rpath_link.auto").first)
+ ? cast<bool> (l)
+ : true;
+ }
+
+ // config.bin.{lib,exe}.{prefix,suffix}
+ //
+ // These ones are not used very often so we will omit them from the
+ // config.build if not specified. We also override any existing value
+ // that might have been specified before loading the module.
+ //
+ {
+ lookup p (omitted (rs, "config.bin.prefix").first);
+ lookup s (omitted (rs, "config.bin.suffix").first);
+
+ auto set = [&rs] (const char* bv, const char* cv, lookup l)
+ {
+ if (lookup o = omitted (rs, cv).first)
+ l = o;
+
+ if (l)
+ rs.assign (bv) = *l;
+ };
+
+ set ("bin.lib.prefix", "config.bin.lib.prefix", p);
+ set ("bin.lib.suffix", "config.bin.lib.suffix", s);
+
+ set ("bin.exe.prefix", "config.bin.exe.prefix", p);
+ set ("bin.exe.suffix", "config.bin.exe.suffix", s);
+ }
+
+ if (first)
+ {
+ bool new_val (false); // Set any new values?
+
+ // config.bin.target
+ //
+ {
+ const variable& var (rs.ctx.var_pool["config.bin.target"]);
+
+ // We first see if the value was specified via the configuration
+ // mechanism.
+ //
+ auto p (omitted (rs, var));
+ lookup l (p.first);
+
+ // Then see if there is a config hint (e.g., from the cc module).
+ //
+ bool hint (false);
+ if (!l)
+ {
+ if (auto hl = hints[var])
+ {
+ l = hl;
+ hint = true;
+ }
+ }
+
+ if (!l)
+ fail (loc) << "unable to determine binutils target" <<
+ info << "consider specifying it with " << var <<
+ info << "or first load a module that can provide it as a hint, "
+ << "such as c or cxx";
+
+ // Split/canonicalize the target.
+ //
+ string s (cast<string> (l));
+
+ // Did the user ask us to use config.sub? If this is a hinted value,
+ // then we assume it has already been passed through config.sub.
+ //
+ if (!hint && config_sub)
+ {
+ s = run<string> (3,
+ *config_sub,
+ s.c_str (),
+ [] (string& l, bool) {return move (l);});
+ l5 ([&]{trace << "config.sub target: '" << s << "'";});
+ }
+
+ try
+ {
+ target_triplet t (s);
+
+ l5 ([&]{trace << "canonical target: '" << t.string () << "'; "
+ << "class: " << t.class_;});
+
+ assert (!hint || s == t.string ());
+
+ // Also enter as bin.target.{cpu,vendor,system,version,class}
+ // for convenience of access.
+ //
+ rs.assign<string> ("bin.target.cpu") = t.cpu;
+ rs.assign<string> ("bin.target.vendor") = t.vendor;
+ rs.assign<string> ("bin.target.system") = t.system;
+ rs.assign<string> ("bin.target.version") = t.version;
+ rs.assign<string> ("bin.target.class") = t.class_;
+
+ rs.assign<target_triplet> ("bin.target") = move (t);
+ }
+ catch (const invalid_argument& e)
+ {
+ // This is where we suggest that the user specifies --config-sub
+ // to help us out.
+ //
+ fail << "unable to parse binutils target '" << s << "': " << e <<
+ info << "consider using the --config-sub option";
+ }
+
+ new_val = new_val || p.second; // False for a hinted value.
+ }
+
+ // config.bin.pattern
+ //
+ {
+ const variable& var (rs.ctx.var_pool["config.bin.pattern"]);
+
+ // We first see if the value was specified via the configuration
+ // mechanism.
+ //
+ auto p (omitted (rs, var));
+ lookup l (p.first);
+
+ // Then see if there is a config hint (e.g., from the C++ module).
+ //
+ if (!l)
+ {
+ if (auto hl = hints[var])
+ l = hl;
+ }
+
+ // For ease of use enter it as bin.pattern (since it can come from
+ // different places).
+ //
+ if (l)
+ {
+ const string& s (cast<string> (l));
+
+ if (s.empty () ||
+ (!path::traits_type::is_separator (s.back ()) &&
+ s.find ('*') == string::npos))
+ {
+ fail << "missing '*' in binutils pattern '" << s << "'";
+ }
+
+ rs.assign<string> ("bin.pattern") = s;
+ new_val = new_val || p.second; // False for a hinted value.
+ }
+ }
+
+ // If we set any new values (e.g., we are configuring), then print the
+ // report at verbosity level 2 and up (-v).
+ //
+ if (verb >= (new_val ? 2 : 3))
+ {
+ diag_record dr (text);
+
+ dr << "bin " << project (rs) << '@' << rs << '\n'
+ << " target " << cast<target_triplet> (rs["bin.target"]);
+
+ if (auto l = rs["bin.pattern"])
+ dr << '\n'
+ << " pattern " << cast<string> (l);
+ }
+ }
+
+ return true;
+ }
+
+ bool
+ init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool first,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // Load bin.config.
+ //
+ if (!cast_false<bool> (rs["bin.config.loaded"]))
+ load_module (rs, rs, "bin.config", loc, false, hints);
+
+ // Cache some config values we will be needing below.
+ //
+ const string& tclass (cast<string> (rs["bin.target.class"]));
+
+ // Register target types and configure their default "installability".
+ //
+ bool install_loaded (cast_false<bool> (rs["install.loaded"]));
+ {
+ using namespace install;
+
+ if (first)
+ {
+ rs.insert_target_type<obj> ();
+ rs.insert_target_type<obje> ();
+ rs.insert_target_type<obja> ();
+ rs.insert_target_type<objs> ();
+
+ rs.insert_target_type<bmi> ();
+ rs.insert_target_type<bmie> ();
+ rs.insert_target_type<bmia> ();
+ rs.insert_target_type<bmis> ();
+
+ rs.insert_target_type<hbmi> ();
+ rs.insert_target_type<hbmie> ();
+ rs.insert_target_type<hbmia> ();
+ rs.insert_target_type<hbmis> ();
+
+ rs.insert_target_type<libul> ();
+ rs.insert_target_type<libue> ();
+ rs.insert_target_type<libua> ();
+ rs.insert_target_type<libus> ();
+
+ rs.insert_target_type<lib> ();
+ rs.insert_target_type<liba> ();
+ rs.insert_target_type<libs> ();
+
+ // Register the def{} target type. Note that we do it here since it
+ // is input and can be specified unconditionally (i.e., not only
+ // when building for Windows).
+ //
+ rs.insert_target_type<def> ();
+ }
+
+ // Note: libu*{} members are not installable.
+ //
+ if (install_loaded)
+ {
+ install_path<liba> (bs, dir_path ("lib")); // Install in install.lib.
+ install_mode<liba> (bs, "644");
+ }
+
+ // Should shared libraries have the executable bit? That depends on
+ // who you ask. In Debian, for example, it should not unless, it
+ // really is executable (i.e., has main()). On the other hand, on
+ // some systems, this may be required in order for the dynamic
+ // linker to be able to load the library. So, by default, we will
+ // keep it executable, especially seeing that this is also the
+ // behavior of autotools. At the same time, it is easy to override
+ // this, for example:
+ //
+ // config.install.lib.mode=644
+ //
+ // And a library that wants to override any such overrides (e.g.,
+ // because it does have main()) can do:
+ //
+ // libs{foo}: install.mode=755
+ //
+ // Everyone is happy then? On Windows libs{} is the DLL and goes to
+ // bin/, not lib/.
+ //
+ if (install_loaded)
+ install_path<libs> (bs,
+ dir_path (tclass == "windows" ? "bin" : "lib"));
+
+ // Create additional target types for certain targets.
+ //
+ if (tclass == "windows")
+ {
+ // Import library.
+ //
+ if (first)
+ rs.insert_target_type<libi> ();
+
+ if (install_loaded)
+ {
+ install_path<libi> (bs, dir_path ("lib"));
+ install_mode<libi> (bs, "644");
+ }
+ }
+ }
+
+ // Register rules.
+ //
+ {
+ auto& r (bs.rules);
+
+ r.insert<obj> (perform_update_id, "bin.obj", fail_);
+ r.insert<obj> (perform_clean_id, "bin.obj", fail_);
+
+ r.insert<bmi> (perform_update_id, "bin.bmi", fail_);
+ r.insert<bmi> (perform_clean_id, "bin.bmi", fail_);
+
+ r.insert<hbmi> (perform_update_id, "bin.hbmi", fail_);
+ r.insert<hbmi> (perform_clean_id, "bin.hbmi", fail_);
+
+ r.insert<libul> (perform_update_id, "bin.libul", fail_);
+ r.insert<libul> (perform_clean_id, "bin.libul", fail_);
+
+ // Similar to alias.
+ //
+
+ //@@ outer
+ r.insert<lib> (perform_id, 0, "bin.lib", lib_);
+ r.insert<lib> (configure_id, 0, "bin.lib", lib_);
+
+ // Treat as a see through group for install and test.
+ //
+ if (install_loaded)
+ {
+ auto& gr (install::group_rule::instance);
+
+ r.insert<lib> (perform_install_id, "bin.lib", gr);
+ r.insert<lib> (perform_uninstall_id, "bin.lib", gr);
+ }
+
+ if (const test::module* m = rs.lookup_module<test::module> ("test"))
+ {
+ r.insert<lib> (perform_test_id, "bin.lib", m->group_rule ());
+ }
+ }
+
+ return true;
+ }
+
+ bool
+ ar_config_init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool first,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::ar_config_init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // Make sure bin.config is loaded.
+ //
+ if (!cast_false<bool> (rs["bin.config.loaded"]))
+ load_module (rs, bs, "bin.config", loc, false, hints);
+
+ // Enter configuration variables.
+ //
+ if (first)
+ {
+ auto& v (rs.ctx.var_pool.rw (rs));
+
+ v.insert<process_path> ("bin.ar.path");
+ v.insert<process_path> ("bin.ranlib.path");
+
+ v.insert<path> ("config.bin.ar", true);
+ v.insert<path> ("config.bin.ranlib", true);
+ }
+
+ // Configure.
+ //
+ if (first)
+ {
+ // config.bin.ar
+ // config.bin.ranlib
+ //
+ // For config.bin.ar we have the default (plus the pattern) while
+ // ranlib should be explicitly specified by the user in order for us
+ // to use it (all targets that we currently care to support have the
+ // ar -s option but if that changes we can always force the use of
+ // ranlib for certain targets).
+ //
+ // Another idea is to refuse to use default 'ar' (without the pattern)
+ // if the host/build targets don't match. On the other hand, a cross-
+ // toolchain can be target-unprefixed. Also, without canonicalization,
+ // comparing targets will be unreliable.
+ //
+
+ // Use the target to decide on the default binutils program names.
+ //
+ const string& tsys (cast<string> (rs["bin.target.system"]));
+ const char* ar_d (tsys == "win32-msvc" ? "lib" : "ar");
+
+ // This can be either a pattern or a fallback search directory.
+ //
+ const string* pat (cast_null<string> (rs["bin.pattern"]));
+
+ bool fb (pat != nullptr &&
+ path::traits_type::is_separator (pat->back ()));
+
+ // Don't save the default value to config.build so that if the user
+ // changes, say, the C++ compiler (which hinted the pattern), then
+ // ar will automatically change as well.
+ //
+ auto ap (
+ config::required (
+ rs,
+ "config.bin.ar",
+ path (apply_pattern (ar_d, fb ? nullptr : pat)),
+ false,
+ config::save_commented));
+
+ auto rp (
+ config::required (
+ rs,
+ "config.bin.ranlib",
+ nullptr,
+ false,
+ config::save_commented));
+
+ const path& ar (cast<path> (ap.first));
+ const path* ranlib (cast_null<path> (rp.first));
+
+ ar_info ari (
+ guess_ar (ar, ranlib, fb ? dir_path (*pat) : dir_path ()));
+
+ // If this is a new value (e.g., we are configuring), then print the
+ // report at verbosity level 2 and up (-v).
+ //
+ if (verb >= (ap.second || rp.second ? 2 : 3))
+ {
+ diag_record dr (text);
+
+ {
+ dr << "bin.ar " << project (rs) << '@' << rs << '\n'
+ << " ar " << ari.ar_path << '\n'
+ << " id " << ari.ar_id << '\n'
+ << " version " << ari.ar_version.string () << '\n'
+ << " major " << ari.ar_version.major << '\n'
+ << " minor " << ari.ar_version.minor << '\n'
+ << " patch " << ari.ar_version.patch << '\n';
+ }
+
+ if (!ari.ar_version.build.empty ())
+ {
+ dr << " build " << ari.ar_version.build << '\n';
+ }
+
+ {
+ dr << " signature " << ari.ar_signature << '\n'
+ << " checksum " << ari.ar_checksum;
+ }
+
+ if (ranlib != nullptr)
+ {
+ dr << '\n'
+ << " ranlib " << ari.ranlib_path << '\n'
+ << " id " << ari.ranlib_id << '\n'
+ << " signature " << ari.ranlib_signature << '\n'
+ << " checksum " << ari.ranlib_checksum;
+ }
+ }
+
+ rs.assign<process_path> ("bin.ar.path") = move (ari.ar_path);
+ rs.assign<string> ("bin.ar.id") = move (ari.ar_id);
+ rs.assign<string> ("bin.ar.signature") = move (ari.ar_signature);
+ rs.assign<string> ("bin.ar.checksum") = move (ari.ar_checksum);
+
+ {
+ semantic_version& v (ari.ar_version);
+
+ rs.assign<string> ("bin.ar.version") = v.string ();
+ rs.assign<uint64_t> ("bin.ar.version.major") = v.major;
+ rs.assign<uint64_t> ("bin.ar.version.minor") = v.minor;
+ rs.assign<uint64_t> ("bin.ar.version.patch") = v.patch;
+ rs.assign<string> ("bin.ar.version.build") = move (v.build);
+ }
+
+ if (ranlib != nullptr)
+ {
+ rs.assign<process_path> ("bin.ranlib.path") = move (ari.ranlib_path);
+ rs.assign<string> ("bin.ranlib.id") = move (ari.ranlib_id);
+ rs.assign<string> ("bin.ranlib.signature") =
+ move (ari.ranlib_signature);
+ rs.assign<string> ("bin.ranlib.checksum") =
+ move (ari.ranlib_checksum);
+ }
+ }
+
+ return true;
+ }
+
+ bool
+ ar_init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::ar_init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // Make sure the bin core and ar.config are loaded.
+ //
+ if (!cast_false<bool> (bs["bin.loaded"]))
+ load_module (rs, bs, "bin", loc, false, hints);
+
+ if (!cast_false<bool> (bs["bin.ar.config.loaded"]))
+ load_module (rs, bs, "bin.ar.config", loc, false, hints);
+
+ return true;
+ }
+
+ bool
+ ld_config_init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool first,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::ld_config_init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // Make sure bin.config is loaded.
+ //
+ if (!cast_false<bool> (rs["bin.config.loaded"]))
+ load_module (rs, rs, "bin.config", loc, false, hints);
+
+ // Enter configuration variables.
+ //
+ if (first)
+ {
+ auto& v (rs.ctx.var_pool.rw (rs));
+
+ v.insert<process_path> ("bin.ld.path");
+ v.insert<path> ("config.bin.ld", true);
+ }
+
+ // Configure.
+ //
+ if (first)
+ {
+ // config.bin.ld
+ //
+ // Use the target to decide on the default ld name.
+ //
+ const string& tsys (cast<string> (rs["bin.target.system"]));
+ const char* ld_d (tsys == "win32-msvc" ? "link" : "ld");
+
+ // This can be either a pattern or a fallback search directory.
+ //
+ const string* pat (cast_null<string> (rs["bin.pattern"]));
+
+ bool fb (pat != nullptr &&
+ path::traits_type::is_separator (pat->back ()));
+
+ auto p (
+ config::required (
+ rs,
+ "config.bin.ld",
+ path (apply_pattern (ld_d, fb ? nullptr : pat)),
+ false,
+ config::save_commented));
+
+ const path& ld (cast<path> (p.first));
+ ld_info ldi (guess_ld (ld, fb ? dir_path (*pat) : dir_path ()));
+
+ // If this is a new value (e.g., we are configuring), then print the
+ // report at verbosity level 2 and up (-v).
+ //
+ if (verb >= (p.second ? 2 : 3))
+ {
+ text << "bin.ld " << project (rs) << '@' << rs << '\n'
+ << " ld " << ldi.path << '\n'
+ << " id " << ldi.id << '\n'
+ << " signature " << ldi.signature << '\n'
+ << " checksum " << ldi.checksum;
+ }
+
+ rs.assign<process_path> ("bin.ld.path") = move (ldi.path);
+ rs.assign<string> ("bin.ld.id") = move (ldi.id);
+ rs.assign<string> ("bin.ld.signature") = move (ldi.signature);
+ rs.assign<string> ("bin.ld.checksum") = move (ldi.checksum);
+ }
+
+ return true;
+ }
+
+ bool
+ ld_init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::ld_init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // Make sure the bin core and ld.config are loaded.
+ //
+ if (!cast_false<bool> (bs["bin.loaded"]))
+ load_module (rs, bs, "bin", loc, false, hints);
+
+ if (!cast_false<bool> (bs["bin.ld.config.loaded"]))
+ load_module (rs, bs, "bin.ld.config", loc, false, hints);
+
+ const string& lid (cast<string> (rs["bin.ld.id"]));
+
+ // Register the pdb{} target if using the VC toolchain.
+ //
+ using namespace install;
+
+ if (lid == "msvc")
+ {
+ const target_type& pdb (bs.derive_target_type<file> ("pdb").first);
+ install_path (bs, pdb, dir_path ("bin")); // Goes to install.bin
+ install_mode (bs, pdb, "644"); // But not executable.
+ }
+
+ return true;
+ }
+
+ bool
+ rc_config_init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool first,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::rc_config_init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // Make sure bin.config is loaded.
+ //
+ if (!cast_false<bool> (bs["bin.config.loaded"]))
+ load_module (rs, bs, "bin.config", loc, false, hints);
+
+ // Enter configuration variables.
+ //
+ if (first)
+ {
+ auto& v (rs.ctx.var_pool.rw (rs));
+
+ v.insert<process_path> ("bin.rc.path");
+ v.insert<path> ("config.bin.rc", true);
+ }
+
+ // Configure.
+ //
+ if (first)
+ {
+ // config.bin.rc
+ //
+ // Use the target to decide on the default rc name.
+ //
+ const string& tsys (cast<string> (rs["bin.target.system"]));
+ const char* rc_d (tsys == "win32-msvc" ? "rc" : "windres");
+
+ // This can be either a pattern or a fallback search directory.
+ //
+ const string* pat (cast_null<string> (rs["bin.pattern"]));
+
+ bool fb (pat != nullptr &&
+ path::traits_type::is_separator (pat->back ()));
+
+ auto p (
+ config::required (
+ rs,
+ "config.bin.rc",
+ path (apply_pattern (rc_d, fb ? nullptr : pat)),
+ false,
+ config::save_commented));
+
+ const path& rc (cast<path> (p.first));
+ rc_info rci (guess_rc (rc, fb ? dir_path (*pat) : dir_path ()));
+
+ // If this is a new value (e.g., we are configuring), then print the
+ // report at verbosity level 2 and up (-v).
+ //
+ if (verb >= (p.second ? 2 : 3))
+ {
+ text << "bin.rc " << project (rs) << '@' << rs << '\n'
+ << " rc " << rci.path << '\n'
+ << " id " << rci.id << '\n'
+ << " signature " << rci.signature << '\n'
+ << " checksum " << rci.checksum;
+ }
+
+ rs.assign<process_path> ("bin.rc.path") = move (rci.path);
+ rs.assign<string> ("bin.rc.id") = move (rci.id);
+ rs.assign<string> ("bin.rc.signature") = move (rci.signature);
+ rs.assign<string> ("bin.rc.checksum") = move (rci.checksum);
+ }
+
+ return true;
+ }
+
+ bool
+ rc_init (scope& rs,
+ scope& bs,
+ const location& loc,
+ unique_ptr<module_base>&,
+ bool,
+ bool,
+ const variable_map& hints)
+ {
+ tracer trace ("bin::rc_init");
+ l5 ([&]{trace << "for " << bs;});
+
+ // Make sure the bin core and rc.config are loaded.
+ //
+ if (!cast_false<bool> (bs["bin.loaded"]))
+ load_module (rs, bs, "bin", loc, false, hints);
+
+ if (!cast_false<bool> (bs["bin.rc.config.loaded"]))
+ load_module (rs, bs, "bin.rc.config", loc, false, hints);
+
+ return true;
+ }
+
+ static const module_functions mod_functions[] =
+ {
+ // NOTE: don't forget to also update the documentation in init.hxx if
+ // changing anything here.
+
+ {"bin.vars", nullptr, vars_init},
+ {"bin.config", nullptr, config_init},
+ {"bin", nullptr, init},
+ {"bin.ar.config", nullptr, ar_config_init},
+ {"bin.ar", nullptr, ar_init},
+ {"bin.ld.config", nullptr, ld_config_init},
+ {"bin.ld", nullptr, ld_init},
+ {"bin.rc.config", nullptr, rc_config_init},
+ {"bin.rc", nullptr, rc_init},
+ {nullptr, nullptr, nullptr}
+ };
+
+ const module_functions*
+ build2_bin_load ()
+ {
+ return mod_functions;
+ }
+ }
+}