// -*- C++ -*- // // This file was generated by CLI, a command line interface // compiler for C++. // // Begin prologue. // #include // // End prologue. #include #include #include #include #include #include #include #include #include namespace bpkg { namespace cli { template struct parser { static void parse (X& x, bool& xs, scanner& s) { using namespace std; const char* o (s.next ()); if (s.more ()) { string v (s.next ()); istringstream is (v); if (!(is >> x && is.peek () == istringstream::traits_type::eof ())) throw invalid_value (o, v); } else throw missing_value (o); xs = true; } static void merge (X& b, const X& a) { b = a; } }; template <> struct parser { static void parse (bool& x, bool& xs, scanner& s) { const char* o (s.next ()); if (s.more ()) { const char* v (s.next ()); if (std::strcmp (v, "1") == 0 || std::strcmp (v, "true") == 0 || std::strcmp (v, "TRUE") == 0 || std::strcmp (v, "True") == 0) x = true; else if (std::strcmp (v, "0") == 0 || std::strcmp (v, "false") == 0 || std::strcmp (v, "FALSE") == 0 || std::strcmp (v, "False") == 0) x = false; else throw invalid_value (o, v); } else throw missing_value (o); xs = true; } static void merge (bool& b, const bool&) { b = true; } }; template <> struct parser { static void parse (std::string& x, bool& xs, scanner& s) { const char* o (s.next ()); if (s.more ()) x = s.next (); else throw missing_value (o); xs = true; } static void merge (std::string& b, const std::string& a) { b = a; } }; template struct parser > { static void parse (std::pair& x, bool& xs, scanner& s) { x.second = s.position (); parser::parse (x.first, xs, s); } static void merge (std::pair& b, const std::pair& a) { b = a; } }; template struct parser > { static void parse (std::vector& c, bool& xs, scanner& s) { X x; bool dummy; parser::parse (x, dummy, s); c.push_back (x); xs = true; } static void merge (std::vector& b, const std::vector& a) { b.insert (b.end (), a.begin (), a.end ()); } }; template struct parser > { static void parse (std::set& c, bool& xs, scanner& s) { X x; bool dummy; parser::parse (x, dummy, s); c.insert (x); xs = true; } static void merge (std::set& b, const std::set& a) { b.insert (a.begin (), a.end ()); } }; template struct parser > { static void parse (std::map& m, bool& xs, scanner& s) { const char* o (s.next ()); if (s.more ()) { std::size_t pos (s.position ()); std::string ov (s.next ()); std::string::size_type p = ov.find ('='); K k = K (); V v = V (); std::string kstr (ov, 0, p); std::string vstr (ov, (p != std::string::npos ? p + 1 : ov.size ())); int ac (2); char* av[] = { const_cast (o), 0 }; bool dummy; if (!kstr.empty ()) { av[1] = const_cast (kstr.c_str ()); argv_scanner s (0, ac, av, false, pos); parser::parse (k, dummy, s); } if (!vstr.empty ()) { av[1] = const_cast (vstr.c_str ()); argv_scanner s (0, ac, av, false, pos); parser::parse (v, dummy, s); } m[k] = v; } else throw missing_value (o); xs = true; } static void merge (std::map& b, const std::map& a) { for (typename std::map::const_iterator i (a.begin ()); i != a.end (); ++i) b[i->first] = i->second; } }; template struct parser > { static void parse (std::multimap& m, bool& xs, scanner& s) { const char* o (s.next ()); if (s.more ()) { std::size_t pos (s.position ()); std::string ov (s.next ()); std::string::size_type p = ov.find ('='); K k = K (); V v = V (); std::string kstr (ov, 0, p); std::string vstr (ov, (p != std::string::npos ? p + 1 : ov.size ())); int ac (2); char* av[] = { const_cast (o), 0 }; bool dummy; if (!kstr.empty ()) { av[1] = const_cast (kstr.c_str ()); argv_scanner s (0, ac, av, false, pos); parser::parse (k, dummy, s); } if (!vstr.empty ()) { av[1] = const_cast (vstr.c_str ()); argv_scanner s (0, ac, av, false, pos); parser::parse (v, dummy, s); } m.insert (typename std::multimap::value_type (k, v)); } else throw missing_value (o); xs = true; } static void merge (std::multimap& b, const std::multimap& a) { for (typename std::multimap::const_iterator i (a.begin ()); i != a.end (); ++i) b.insert (typename std::multimap::value_type (i->first, i->second)); } }; template void thunk (X& x, scanner& s) { parser::parse (x.*M, s); } template void thunk (X& x, scanner& s) { s.next (); x.*M = true; } template void thunk (X& x, scanner& s) { parser::parse (x.*M, x.*S, s); } } } #include namespace bpkg { // pkg_verify_options // pkg_verify_options:: pkg_verify_options () : silent_ (), deep_ (), ignore_unknown_ (), manifest_ () { } bool pkg_verify_options:: parse (int& argc, char** argv, bool erase, ::bpkg::cli::unknown_mode opt, ::bpkg::cli::unknown_mode arg) { ::bpkg::cli::argv_scanner s (argc, argv, erase); bool r = _parse (s, opt, arg); return r; } bool pkg_verify_options:: parse (int start, int& argc, char** argv, bool erase, ::bpkg::cli::unknown_mode opt, ::bpkg::cli::unknown_mode arg) { ::bpkg::cli::argv_scanner s (start, argc, argv, erase); bool r = _parse (s, opt, arg); return r; } bool pkg_verify_options:: parse (int& argc, char** argv, int& end, bool erase, ::bpkg::cli::unknown_mode opt, ::bpkg::cli::unknown_mode arg) { ::bpkg::cli::argv_scanner s (argc, argv, erase); bool r = _parse (s, opt, arg); end = s.end (); return r; } bool pkg_verify_options:: parse (int start, int& argc, char** argv, int& end, bool erase, ::bpkg::cli::unknown_mode opt, ::bpkg::cli::unknown_mode arg) { ::bpkg::cli::argv_scanner s (start, argc, argv, erase); bool r = _parse (s, opt, arg); end = s.end (); return r; } bool pkg_verify_options:: parse (::bpkg::cli::scanner& s, ::bpkg::cli::unknown_mode opt, ::bpkg::cli::unknown_mode arg) { bool r = _parse (s, opt, arg); return r; } void pkg_verify_options:: merge (const pkg_verify_options& a) { CLI_POTENTIALLY_UNUSED (a); // common_options base // ::bpkg::common_options::merge (a); if (a.silent_) { ::bpkg::cli::parser< bool>::merge ( this->silent_, a.silent_); } if (a.deep_) { ::bpkg::cli::parser< bool>::merge ( this->deep_, a.deep_); } if (a.ignore_unknown_) { ::bpkg::cli::parser< bool>::merge ( this->ignore_unknown_, a.ignore_unknown_); } if (a.manifest_) { ::bpkg::cli::parser< bool>::merge ( this->manifest_, a.manifest_); } } ::bpkg::cli::usage_para pkg_verify_options:: print_usage (::std::ostream& os, ::bpkg::cli::usage_para p) { CLI_POTENTIALLY_UNUSED (os); if (p != ::bpkg::cli::usage_para::none) os << ::std::endl; os << "\033[1mPKG-VERIFY OPTIONS\033[0m" << ::std::endl; os << std::endl << "\033[1m--silent\033[0m Suppress the error messages about the reason why the" << ::std::endl << " package is invalid. Just return the error status." << ::std::endl; os << std::endl << "\033[1m--deep\033[0m Verify the presence of the required *-build\033[0m" << ::std::endl << " values/files and the validity of files referenced by" << ::std::endl << " the \033[1m*-file\033[0m manifest values." << ::std::endl; os << std::endl << "\033[1m--ignore-unknown\033[0m Ignore unknown manifest entries. By default, \033[1mbpkg\033[0m" << ::std::endl << " will refuse to declare such a package valid since it" << ::std::endl << " cannot be sure the unknown entries are valid. Note" << ::std::endl << " that this option also ignores the version constraints" << ::std::endl << " in the special toolchain build-time dependencies." << ::std::endl; os << std::endl << "\033[1m--manifest\033[0m Instead of printing the successful verification" << ::std::endl << " result in the human-readable form, dump the package" << ::std::endl << " manifest to \033[1mstdout\033[0m. If the \033[1m--deep\033[0m option is" << ::std::endl << " specified, then in the resulting manifest the \033[1m*-file\033[0m" << ::std::endl << " values are replaced with the contents of the" << ::std::endl << " referenced files, the *-build\033[0m values are" << ::std::endl << " automatically added (unless the corresponding files" << ::std::endl << " are absent), and the package dependency constraints" << ::std::endl << " are completed." << ::std::endl; p = ::bpkg::cli::usage_para::option; // common_options base // p = ::bpkg::common_options::print_usage (os, p); return p; } typedef std::map _cli_pkg_verify_options_map; static _cli_pkg_verify_options_map _cli_pkg_verify_options_map_; struct _cli_pkg_verify_options_map_init { _cli_pkg_verify_options_map_init () { _cli_pkg_verify_options_map_["--silent"] = &::bpkg::cli::thunk< pkg_verify_options, &pkg_verify_options::silent_ >; _cli_pkg_verify_options_map_["--deep"] = &::bpkg::cli::thunk< pkg_verify_options, &pkg_verify_options::deep_ >; _cli_pkg_verify_options_map_["--ignore-unknown"] = &::bpkg::cli::thunk< pkg_verify_options, &pkg_verify_options::ignore_unknown_ >; _cli_pkg_verify_options_map_["--manifest"] = &::bpkg::cli::thunk< pkg_verify_options, &pkg_verify_options::manifest_ >; } }; static _cli_pkg_verify_options_map_init _cli_pkg_verify_options_map_init_; bool pkg_verify_options:: _parse (const char* o, ::bpkg::cli::scanner& s) { _cli_pkg_verify_options_map::const_iterator i (_cli_pkg_verify_options_map_.find (o)); if (i != _cli_pkg_verify_options_map_.end ()) { (*(i->second)) (*this, s); return true; } // common_options base // if (::bpkg::common_options::_parse (o, s)) return true; return false; } bool pkg_verify_options:: _parse (::bpkg::cli::scanner& s, ::bpkg::cli::unknown_mode opt_mode, ::bpkg::cli::unknown_mode arg_mode) { // Can't skip combined flags (--no-combined-flags). // assert (opt_mode != ::bpkg::cli::unknown_mode::skip); bool r = false; bool opt = true; while (s.more ()) { const char* o = s.peek (); if (std::strcmp (o, "--") == 0) { opt = false; } if (opt) { if (_parse (o, s)) { r = true; continue; } if (std::strncmp (o, "-", 1) == 0 && o[1] != '\0') { // Handle combined option values. // std::string co; if (const char* v = std::strchr (o, '=')) { co.assign (o, 0, v - o); ++v; int ac (2); char* av[] = { const_cast (co.c_str ()), const_cast (v) }; ::bpkg::cli::argv_scanner ns (0, ac, av); if (_parse (co.c_str (), ns)) { // Parsed the option but not its value? // if (ns.end () != 2) throw ::bpkg::cli::invalid_value (co, v); s.next (); r = true; continue; } else { // Set the unknown option and fall through. // o = co.c_str (); } } // Handle combined flags. // char cf[3]; { const char* p = o + 1; for (; *p != '\0'; ++p) { if (!((*p >= 'a' && *p <= 'z') || (*p >= 'A' && *p <= 'Z') || (*p >= '0' && *p <= '9'))) break; } if (*p == '\0') { for (p = o + 1; *p != '\0'; ++p) { std::strcpy (cf, "-"); cf[1] = *p; cf[2] = '\0'; int ac (1); char* av[] = { cf }; ::bpkg::cli::argv_scanner ns (0, ac, av); if (!_parse (cf, ns)) break; } if (*p == '\0') { // All handled. // s.next (); r = true; continue; } else { // Set the unknown option and fall through. // o = cf; } } } switch (opt_mode) { case ::bpkg::cli::unknown_mode::skip: { s.skip (); r = true; continue; } case ::bpkg::cli::unknown_mode::stop: { break; } case ::bpkg::cli::unknown_mode::fail: { throw ::bpkg::cli::unknown_option (o); } } break; } } switch (arg_mode) { case ::bpkg::cli::unknown_mode::skip: { s.skip (); r = true; continue; } case ::bpkg::cli::unknown_mode::stop: { break; } case ::bpkg::cli::unknown_mode::fail: { throw ::bpkg::cli::unknown_argument (o); } } break; } return r; } } namespace bpkg { ::bpkg::cli::usage_para print_bpkg_pkg_verify_usage (::std::ostream& os, ::bpkg::cli::usage_para p) { CLI_POTENTIALLY_UNUSED (os); if (p != ::bpkg::cli::usage_para::none) os << ::std::endl; os << "\033[1mSYNOPSIS\033[0m" << ::std::endl << ::std::endl << "\033[1mbpkg pkg-verify\033[0m [\033[4moptions\033[0m] \033[4mfile\033[0m\033[0m" << ::std::endl << ::std::endl << "\033[1mDESCRIPTION\033[0m" << ::std::endl << ::std::endl << "The \033[1mpkg-verify\033[0m command verifies that the specified archive file is a valid" << ::std::endl << "\033[1mbpkg\033[0m package. Specifically, it checks that the file's name and the top-level" << ::std::endl << "directory inside the archive match the canonical \033[4mname\033[0m\033[1m-\033[0m\033[4mversion\033[0m\033[0m form and that" << ::std::endl << "there is a valid manifest file in that top-level directory. Additionally, if" << ::std::endl << "the \033[1m--deep\033[0m option is specified, it also checks that the required *-build\033[0m" << ::std::endl << "values/files are present in the manifest/archive and the files referenced by" << ::std::endl << "the \033[1m*-file\033[0m manifest values are present in the archive and are not empty." << ::std::endl; p = ::bpkg::pkg_verify_options::print_usage (os, ::bpkg::cli::usage_para::text); if (p != ::bpkg::cli::usage_para::none) os << ::std::endl; os << "\033[1mDEFAULT OPTIONS FILES\033[0m" << ::std::endl << ::std::endl << "See \033[1mbpkg-default-options-files(1)\033[0m for an overview of the default options files." << ::std::endl << "For the \033[1mpkg-verify\033[0m command the following options files are searched for in the" << ::std::endl << "predefined directories (system, etc) and, if found, loaded in the order listed:" << ::std::endl << ::std::endl << "bpkg.options" << ::std::endl << "bpkg-pkg-verify.options" << ::std::endl; p = ::bpkg::cli::usage_para::text; return p; } } // Begin epilogue. // // // End epilogue.