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Diffstat (limited to 'libbuild2/cc/pkgconfig-libpkgconf.cxx')
| -rw-r--r-- | libbuild2/cc/pkgconfig-libpkgconf.cxx | 355 |
1 files changed, 355 insertions, 0 deletions
diff --git a/libbuild2/cc/pkgconfig-libpkgconf.cxx b/libbuild2/cc/pkgconfig-libpkgconf.cxx new file mode 100644 index 0000000..f3754d3 --- /dev/null +++ b/libbuild2/cc/pkgconfig-libpkgconf.cxx @@ -0,0 +1,355 @@ +// file : libbuild2/cc/pkgconfig-libpkgconf.cxx -*- C++ -*- +// license : MIT; see accompanying LICENSE file + +#ifndef BUILD2_BOOTSTRAP + +#include <libbuild2/cc/pkgconfig.hxx> + +#include <libbuild2/diagnostics.hxx> + +// Note that the libpkgconf library did not used to provide the version macro +// that we could use to compile the code conditionally against different API +// versions. Thus, we need to sense the pkgconf_client_new() function +// signature ourselves to call it properly. +// +namespace details +{ + void* + pkgconf_cross_personality_default (); // Never called. +} + +using namespace details; + +template <typename H> +static inline pkgconf_client_t* +call_pkgconf_client_new (pkgconf_client_t* (*f) (H, void*), + H error_handler, + void* error_handler_data) +{ + return f (error_handler, error_handler_data); +} + +template <typename H, typename P> +static inline pkgconf_client_t* +call_pkgconf_client_new (pkgconf_client_t* (*f) (H, void*, P), + H error_handler, + void* error_handler_data) +{ + return f (error_handler, + error_handler_data, + ::pkgconf_cross_personality_default ()); +} + +namespace build2 +{ + namespace cc + { + // The libpkgconf library is not thread-safe, even on the pkgconf_client_t + // level (see issue #128 for details). While it seems that the obvious + // thread-safety issues are fixed, the default personality initialization, + // which is still not thread-safe. So let's keep the mutex for now not to + // introduce potential issues. + // + static mutex pkgconf_mutex; + + // The package dependency traversal depth limit. + // + static const int pkgconf_max_depth = 100; + + // Normally the error_handler() callback can be called multiple times to + // report a single error (once per message line), to produce a multi-line + // message like this: + // + // Package foo was not found in the pkg-config search path.\n + // Perhaps you should add the directory containing `foo.pc'\n + // to the PKG_CONFIG_PATH environment variable\n + // Package 'foo', required by 'bar', not found\n + // + // For the above example callback will be called 4 times. To suppress all + // the junk we will use PKGCONF_PKG_PKGF_SIMPLIFY_ERRORS to get just: + // + // Package 'foo', required by 'bar', not found\n + // + // Also disable merging options like -framework into a single fragment, if + // possible. + // + static const int pkgconf_flags = + PKGCONF_PKG_PKGF_SIMPLIFY_ERRORS + | PKGCONF_PKG_PKGF_SKIP_PROVIDES +#ifdef PKGCONF_PKG_PKGF_DONT_MERGE_SPECIAL_FRAGMENTS + | PKGCONF_PKG_PKGF_DONT_MERGE_SPECIAL_FRAGMENTS +#endif + ; + +#if defined(LIBPKGCONF_VERSION) && LIBPKGCONF_VERSION >= 10900 + static bool + pkgconf_error_handler (const char* msg, + const pkgconf_client_t*, + void*) +#else + static bool + pkgconf_error_handler (const char* msg, + const pkgconf_client_t*, + const void*) +#endif + { + error << runtime_error (msg); // Sanitize the message (trailing dot). + return true; + } + + // Deleters. Note that they are thread-safe. + // + struct fragments_deleter + { + void operator() (pkgconf_list_t* f) const {pkgconf_fragment_free (f);} + }; + + // Convert fragments to strings. Skip the -I/-L options that refer to system + // directories. + // + static strings + to_strings (const pkgconf_list_t& frags, + char type, + const pkgconf_list_t& sysdirs) + { + assert (type == 'I' || type == 'L'); + + strings r; + + auto add = [&r] (const pkgconf_fragment_t* frag) + { + string s; + if (frag->type != '\0') + { + s += '-'; + s += frag->type; + } + + s += frag->data; + r.push_back (move (s)); + }; + + // Option that is separated from its value, for example: + // + // -I /usr/lib + // + const pkgconf_fragment_t* opt (nullptr); + + pkgconf_node_t *node; + PKGCONF_FOREACH_LIST_ENTRY(frags.head, node) + { + auto frag (static_cast<const pkgconf_fragment_t*> (node->data)); + + // Add the separated option and directory, unless the latest is a + // system one. + // + if (opt != nullptr) + { + // Note that we should restore the directory path that was + // (mis)interpreted as an option, for example: + // + // -I -Ifoo + // + // In the above example option '-I' is followed by directory + // '-Ifoo', which is represented by libpkgconf library as fragment + // 'foo' with type 'I'. + // + if (!pkgconf_path_match_list ( + frag->type == '\0' + ? frag->data + : (string ({'-', frag->type}) + frag->data).c_str (), + &sysdirs)) + { + add (opt); + add (frag); + } + + opt = nullptr; + continue; + } + + // Skip the -I/-L option if it refers to a system directory. + // + if (frag->type == type) + { + // The option is separated from a value, that will (presumably) + // follow. + // + if (*frag->data == '\0') + { + opt = frag; + continue; + } + + if (pkgconf_path_match_list (frag->data, &sysdirs)) + continue; + } + + add (frag); + } + + if (opt != nullptr) // Add the dangling option. + add (opt); + + return r; + } + + // Note that some libpkgconf functions can potentially return NULL, + // failing to allocate the required memory block. However, we will not + // check the returned value for NULL as the library doesn't do so, prior + // to filling the allocated structures. So such a code complication on our + // side would be useless. Also, for some functions the NULL result has a + // special semantics, for example "not found". + // + pkgconfig:: + pkgconfig (path_type p, + const dir_paths& pc_dirs, + const dir_paths& sys_lib_dirs, + const dir_paths& sys_hdr_dirs) + : path (move (p)) + { + auto add_dirs = [] (pkgconf_list_t& dir_list, + const dir_paths& dirs, + bool suppress_dups, + bool cleanup = false) + { + if (cleanup) + { + pkgconf_path_free (&dir_list); + dir_list = PKGCONF_LIST_INITIALIZER; + } + + for (const auto& d: dirs) + pkgconf_path_add (d.string ().c_str (), &dir_list, suppress_dups); + }; + + mlock l (pkgconf_mutex); + + // Initialize the client handle. + // + unique_ptr<pkgconf_client_t, void (*) (pkgconf_client_t*)> c ( + call_pkgconf_client_new (&pkgconf_client_new, + pkgconf_error_handler, + nullptr /* handler_data */), + [] (pkgconf_client_t* c) {pkgconf_client_free (c);}); + + pkgconf_client_set_flags (c.get (), pkgconf_flags); + + // Note that the system header and library directory lists are + // automatically pre-filled by the pkgconf_client_new() call (see + // above). We will re-create these lists from scratch. + // + add_dirs (c->filter_libdirs, + sys_lib_dirs, + false /* suppress_dups */, + true /* cleanup */); + + add_dirs (c->filter_includedirs, + sys_hdr_dirs, + false /* suppress_dups */, + true /* cleanup */); + + // Note that the loaded file directory is added to the (yet empty) + // search list. Also note that loading of the prerequisite packages is + // delayed until flags retrieval, and their file directories are not + // added to the search list. + // + pkg_ = pkgconf_pkg_find (c.get (), path.string ().c_str ()); + + if (pkg_ == nullptr) + fail << "package '" << path << "' not found or invalid"; + + // Add the .pc file search directories. + // + assert (c->dir_list.length == 1); // Package file directory (see above). + add_dirs (c->dir_list, pc_dirs, true /* suppress_dups */); + + client_ = c.release (); + } + + void pkgconfig:: + free () + { + assert (pkg_ != nullptr); + + mlock l (pkgconf_mutex); + pkgconf_pkg_unref (client_, pkg_); + pkgconf_client_free (client_); + } + + strings pkgconfig:: + cflags (bool stat) const + { + assert (client_ != nullptr); // Must not be empty. + + mlock l (pkgconf_mutex); + + pkgconf_client_set_flags ( + client_, + pkgconf_flags | + + // Walk through the private package dependencies (Requires.private) + // besides the public ones while collecting the flags. Note that we do + // this for both static and shared linking. + // + PKGCONF_PKG_PKGF_SEARCH_PRIVATE | + + // Collect flags from Cflags.private besides those from Cflags for the + // static linking. + // + (stat + ? PKGCONF_PKG_PKGF_MERGE_PRIVATE_FRAGMENTS + : 0)); + + pkgconf_list_t f = PKGCONF_LIST_INITIALIZER; // Aggregate initialization. + int e (pkgconf_pkg_cflags (client_, pkg_, &f, pkgconf_max_depth)); + + if (e != PKGCONF_PKG_ERRF_OK) + throw failed (); // Assume the diagnostics is issued. + + unique_ptr<pkgconf_list_t, fragments_deleter> fd (&f); // Auto-deleter. + return to_strings (f, 'I', client_->filter_includedirs); + } + + strings pkgconfig:: + libs (bool stat) const + { + assert (client_ != nullptr); // Must not be empty. + + mlock l (pkgconf_mutex); + + pkgconf_client_set_flags ( + client_, + pkgconf_flags | + + // Additionally collect flags from the private dependency packages + // (see above) and from the Libs.private value for the static linking. + // + (stat + ? PKGCONF_PKG_PKGF_SEARCH_PRIVATE | + PKGCONF_PKG_PKGF_MERGE_PRIVATE_FRAGMENTS + : 0)); + + pkgconf_list_t f = PKGCONF_LIST_INITIALIZER; // Aggregate initialization. + int e (pkgconf_pkg_libs (client_, pkg_, &f, pkgconf_max_depth)); + + if (e != PKGCONF_PKG_ERRF_OK) + throw failed (); // Assume the diagnostics is issued. + + unique_ptr<pkgconf_list_t, fragments_deleter> fd (&f); // Auto-deleter. + return to_strings (f, 'L', client_->filter_libdirs); + } + + optional<string> pkgconfig:: + variable (const char* name) const + { + assert (client_ != nullptr); // Must not be empty. + + mlock l (pkgconf_mutex); + const char* r (pkgconf_tuple_find (client_, &pkg_->vars, name)); + return r != nullptr ? optional<string> (r) : nullopt; + } + } +} + +#endif // BUILD2_BOOTSTRAP |