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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [tools/] [src/] [tools/] [configtool/] [standalone/] [common/] [cdl_exec.cxx] - Rev 321
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//####COPYRIGHTBEGIN#### // // ---------------------------------------------------------------------------- // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // Copyright (C) 2003 John Dallaway // // This program is part of the eCos host tools. // // This program is free software; you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 of the License, or (at your option) // any later version. // // This program is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for // more details. // // You should have received a copy of the GNU General Public License along with // this program; if not, write to the Free Software Foundation, Inc., // 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // ---------------------------------------------------------------------------- // //####COPYRIGHTEND#### //========================================================================== // // cdl_exec.cxx // // The implementation of each ecosconfig command // //========================================================================== //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): jld // Date: 1999-11-08 // //####DESCRIPTIONEND#### //========================================================================== #ifdef _MSC_VER #include <direct.h> /* for getcwd() */ #else #include <unistd.h> /* for getcwd() */ #endif #ifdef __CYGWIN__ #include <windows.h> #include <sys/param.h> /* for MAXPATHLEN */ #include <sys/cygwin.h> /* for cygwin_conv_to_win32_path() */ #endif #include "build.hxx" #include "cdl_exec.hxx" // ---------------------------------------------------------------------------- bool cdl_exec::quiet = false; bool cdl_exec::verbose = false; bool cdl_exec::ignore_errors = false; bool cdl_exec::no_updates = false; bool cdl_exec::debug_level_set = false; int cdl_exec::debug_level = 0; cdl_exec::cdl_exec (const std::string repository_arg, const std::string savefile_arg, const std::string install_arg, bool no_resolve_arg) : repository(repository_arg), savefile(savefile_arg), install_prefix(install_arg), no_resolve(no_resolve_arg), pkgdata (NULL), interp (NULL), config (NULL) { // The inference callback does not actually do anything at present. // In future it may be useful for diagnostic purposes. CdlTransactionBody::set_inference_callback_fn (&inference_callback); // Automatic inference is always disabled. The inference engine // only gets invoked explicitly, after a suitable transaction callback // has been invoked. The problem here is that the transaction callback // has to report changes made by the inference engine but there is // no way of distinguishing between inferred values that come out of // savefiles and inferred values determined by the inference engine. CdlTransactionBody::disable_automatic_inference (); } void cdl_exec::set_quiet_mode(bool new_val) { quiet = new_val; } void cdl_exec::set_verbose_mode(bool new_val) { verbose = new_val; CdlPackagesDatabaseBody::set_verbose(new_val); } void cdl_exec::set_ignore_errors_mode(bool new_val) { ignore_errors = new_val; } void cdl_exec::set_no_updates_mode(bool new_val) { no_updates = new_val; } void cdl_exec::set_debug_level(int new_level) { debug_level_set = true; debug_level = new_level; } // ---------------------------------------------------------------------------- void cdl_exec::init(bool load_config) { pkgdata = CdlPackagesDatabaseBody::make(repository, &diagnostic_handler, &diagnostic_handler); interp = CdlInterpreterBody::make(); if (load_config) { config = CdlConfigurationBody::load (savefile, pkgdata, interp, &diagnostic_handler, &diagnostic_handler); } } // ---------------------------------------------------------------------------- void cdl_exec::delete_cdl_data () { if (0 != config) { delete config; config = 0; } if (0 != interp) { delete interp; interp = 0; } if (0 != pkgdata) { delete pkgdata; pkgdata = 0; } } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_new (const std::string cdl_hardware, const std::string cdl_template /* = "default" */, const std::string cdl_version /* = "" */) { bool status = false; try { init(false); config = CdlConfigurationBody::make ("eCos", pkgdata, interp); // The hardware and template should be loaded in a single transaction. // Validating the target name etc. can be left to libcdl. CdlLocalTransaction transact(config); config->set_hardware(transact.get(), resolve_hardware_alias(cdl_hardware), &diagnostic_handler, &diagnostic_handler); config->set_template(transact.get(), cdl_template, cdl_version, &diagnostic_handler, &diagnostic_handler); transact.body(); transact.destroy(); if (debug_level_set) { this->update_debug_level(); } // Unless inference has been suppressed, make sure that the // inference engine gets invoked and that its results get // reported. if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } // Now report any conflicts which the inference engine could not report. report_conflicts(); // A savefile should be generated/updated even if there are conflicts. // Otherwise the user does not have a chance to edit the savefile // and fix things. if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_target (const std::string cdl_target) { bool status = false; try { init(true); config->set_hardware (resolve_hardware_alias (cdl_target), &diagnostic_handler, &diagnostic_handler); if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_template (const std::string cdl_template, const std::string cdl_version /* = "" */) { bool status = false; try { init(true); config->set_template (cdl_template, cdl_version, &diagnostic_handler, &diagnostic_handler); if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_export (const std::string cdl_savefile) { bool status = false; try { init(true); if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); // Exporting to another file should only happen if the // configuration is conflict-free. This is different from // updating the savefile. if (ignore_errors || (0 == config->get_all_conflicts().size())) { if (!no_updates) { config->save (cdl_savefile, /* minimal = */ true); } status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_import (const std::string cdl_savefile) { bool status = false; try { init(true); config->add(cdl_savefile, &diagnostic_handler, &diagnostic_handler); if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_add (const std::vector<std::string> cdl_packages) { bool status = false; try { init(true); for (unsigned int n = 0; n < cdl_packages.size (); n++) { config->load_package (resolve_package_alias (cdl_packages [n]), "", &diagnostic_handler, &diagnostic_handler); } if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_remove (const std::vector<std::string> cdl_packages) { unsigned int n; bool status = false; try { init(true); for (n = 0; n < cdl_packages.size (); n++) { if (! config->lookup (resolve_package_alias (cdl_packages [n]))) { throw CdlStringException ("Unknown package " + cdl_packages [n]); } } for (n = 0; n < cdl_packages.size (); n++) { config->unload_package (resolve_package_alias (cdl_packages [n])); } if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_version (const std::string cdl_version, const std::vector<std::string> cdl_packages) { bool status = false; try { init(true); for (unsigned int n = 0; n < cdl_packages.size (); n++) { config->change_package_version(resolve_package_alias (cdl_packages [n]), cdl_version, &diagnostic_handler, &diagnostic_handler, true); } if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_tree () { bool status = false; try { init(true); if (debug_level_set) { this->update_debug_level(); } if (!no_resolve) { CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts(); } report_conflicts(); if (!no_updates) { config->save (savefile); } // A build tree should only be generated if there are no conflicts, // and suppressed if -n is given. if (no_updates) { // Do nothing } else if (ignore_errors || (0 == config->get_all_conflicts().size())) { #ifdef _MSC_VER char cwd [_MAX_PATH + 1]; #else char cwd [PATH_MAX + 1]; #endif getcwd (cwd, sizeof cwd); #ifdef __CYGWIN__ char cwd_win32 [MAXPATHLEN + 1]; cygwin_conv_to_win32_path (cwd, cwd_win32); generate_build_tree (config, cwd_win32, install_prefix); #else generate_build_tree (config, cwd, install_prefix); #endif config->generate_config_headers (install_prefix.empty () ? "install/include/pkgconf" : install_prefix + "/include/pkgconf"); status = true; #ifdef __CYGWIN__ char buf[100]; strcpy(buf, "mount.exe -f -t -u x: /ecos-x"); //printf("Cwd_win32: %s\n", cwd_win32); if ( cwd_win32[1] == ':' ) { buf[19] = tolower(cwd_win32[0]); buf[28] = tolower(cwd_win32[0]); system(buf); } //printf("Repository: %s\n", repository.c_str()); if ( repository[1] == ':' ) { buf[19] = tolower(repository[0]); buf[28] = tolower(repository[0]); system(buf); } if ( !install_prefix.empty() ) { //printf("Install prefix: %s\n", install_prefix.c_str()); if ( install_prefix[1] == ':' ) { buf[19] = tolower(install_prefix[0]); buf[28] = tolower(install_prefix[0]); system(buf); } } #endif } else { printf("\nUnable to generate build tree, this configuration still contains conflicts.\n"); printf("Either resolve the conflicts or use --ignore-errors\n"); } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_list () { bool status = false; try { init(false); // list the installed packages std::vector<std::string> packages = pkgdata->get_packages (); std::sort (packages.begin (), packages.end ()); for (unsigned int package = 0; package < packages.size (); package++) { const std::vector<std::string> & aliases = pkgdata->get_package_aliases (packages [package]); printf ("Package %s (%s):\n aliases:", packages [package].c_str (), aliases [0].c_str ()); for (unsigned int alias = 1; alias < aliases.size (); alias++) { printf (" %s", aliases [alias].c_str ()); } const std::vector<std::string> & versions = pkgdata->get_package_versions (packages [package]); printf ("\n versions:"); for (unsigned int version = 0; version < versions.size (); version++) { printf (" %s", versions [version].c_str ()); } printf ("\n"); } // list the available targets std::vector<std::string> targets = pkgdata->get_targets (); std::sort (targets.begin (), targets.end ()); for (unsigned int target = 0; target < targets.size (); target++) { const std::vector<std::string> & aliases = pkgdata->get_target_aliases (targets [target]); printf ("Target %s (%s):\n aliases:", targets [target].c_str (), aliases [0].c_str ()); for (unsigned int alias = 1; alias < aliases.size (); alias++) { printf (" %s", aliases [alias].c_str ()); } printf ("\n"); } // list the available templates std::vector<std::string> templates = pkgdata->get_templates (); std::sort (templates.begin (), templates.end ()); for (unsigned int templ = 0; templ < templates.size (); templ++) { const std::vector<std::string> & versions = pkgdata->get_template_versions (templates [templ]); printf ("Template %s:\n versions:", templates [templ].c_str ()); for (unsigned int version = 0; version < versions.size (); version++) { printf (" %s", versions [version].c_str ()); } printf ("\n"); } status = true; } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_check () { bool status = false; unsigned int n; try { init(true); // check() should never invoke the inference engine. The user // wants to determine the current status, which should not // change. // However, updating the savefile is worthwhile because it // will now contain more accurate information about the state. // Enabling/disabling debugs is allowed for now because that // is unlikely to introduce conflicts. if (debug_level_set) { this->update_debug_level(); } if (!no_updates) { config->save (savefile); } // report current target and template printf ("Target: %s\n", config->get_hardware ().c_str ()); printf ("Template: %s\n", config->get_template ().c_str ()); std::vector<std::string> template_packages = pkgdata->get_template_packages (config->get_template ()); const std::vector<std::string> & hardware_packages = pkgdata->get_target_packages (config->get_hardware ()); for (n = 0; n < hardware_packages.size (); n++) { template_packages.push_back (hardware_packages [n]); } // report loaded packages not in the templates const std::vector<CdlLoadable> & loadables = config->get_loadables (); std::vector<std::string> added_packages; std::vector<CdlLoadable>::const_iterator loadable_i; for (loadable_i = loadables.begin (); loadable_i != loadables.end (); loadable_i++) { const CdlNode & node = dynamic_cast<CdlNode> (* loadable_i); if (template_packages.end () == std::find (template_packages.begin (), template_packages.end (), node->get_name ())) { added_packages.push_back (node->get_name ()); } } if (added_packages.size ()) { printf ("Added:\n"); } for (n = 0; n < added_packages.size (); n++) { printf (" %s\n", added_packages [n].c_str ()); } // report template packages not in the configuration std::vector<std::string> removed_packages; for (n = 0; n < template_packages.size (); n++) { if (! config->lookup (template_packages [n])) { removed_packages.push_back (template_packages [n]); } } if (removed_packages.size ()) { printf ("Removed:\n"); } for (n = 0; n < removed_packages.size (); n++) { printf (" %s\n", removed_packages [n].c_str ()); } // report packages of non-default version std::vector<CdlValuable> version_packages; for (loadable_i = loadables.begin (); loadable_i != loadables.end (); loadable_i++) { const CdlValuable & valuable = dynamic_cast<CdlValuable> (* loadable_i); if (pkgdata->get_package_versions (valuable->get_name ()) [0] != valuable->get_value ()) { version_packages.push_back (valuable); } } if (version_packages.size ()) { printf ("Version(s):\n"); } for (n = 0; n < version_packages.size (); n++) { printf (" %s %s\n", version_packages [n]->get_name ().c_str (), version_packages [n]->get_value ().c_str ()); } // report conflicts const std::list<CdlConflict> & conflicts = config->get_all_conflicts (); if (conflicts.size ()) { printf ("%u conflict(s):\n", conflicts.size ()); } else { printf ("No conflicts\n"); } report_conflicts(); status = true; } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- bool cdl_exec::cmd_resolve () { bool status = false; try { init(true); if (debug_level_set) { this->update_debug_level(); } CdlTransactionBody::set_callback_fn(&transaction_callback); config->resolve_all_conflicts (); report_conflicts(); if (!no_updates) { config->save (savefile); } if (ignore_errors || (0 == config->get_all_conflicts().size())) { status = true; } } catch (CdlStringException exception) { exception_handler (exception); } catch (...) { exception_handler (); } delete_cdl_data (); return status; } // ---------------------------------------------------------------------------- // The inference callback. This could give some useful diagnostics, or it // could do useful things when running in some interactive mode. In batch // mode it should not do anything. CdlInferenceCallbackResult cdl_exec::inference_callback (CdlTransaction transaction) { return CdlInferenceCallbackResult_Continue; } // ---------------------------------------------------------------------------- // Output a message with indentation after newlines. static void dump_string(unsigned int indent, const std::string& str) { bool newline_pending = false; unsigned int i, j; for (i = 0; i < str.size(); i++) { if (newline_pending) { putchar('\n'); if ('\n' != str[i]) { for (j = 0; j < indent; j++) { putchar(' '); } } newline_pending = false; } if ('\n' == str[i]) { newline_pending = true; } else { putchar(str[i]); } } if (newline_pending) { putchar('\n'); // But not the indentation. } } // ---------------------------------------------------------------------------- // The transaction callback. This should report any changes that have been // made to the configuration. The amount of output depends on the verbosity // level selected by the user. // // 1) quiet - no output at all // 2) default - list updates done by the inference engine. // 3) verbose - this does not currently add anything. // // There is no reporting of new or resolved conflicts. Resolved // conflicts are probably of no interest in batch mode. New conflicts // will be handled by report_conflicts(). There is also no information // given about active state changes, although arguably there should be // especially in the case of containers. void cdl_exec::transaction_callback(const CdlTransactionCallback& callback_data) { if (quiet) { return; } unsigned int i; for (i = 0; i < callback_data.value_changes.size(); i++) { CdlValuable valuable = callback_data.value_changes[i]; if (CdlValueSource_Inferred == valuable->get_source()) { CdlEvalContext context(0, valuable, 0); CdlSimpleValue simple_val; CdlSimpleValue::eval_valuable(context, valuable, simple_val); std::string msg = std::string("U ") + valuable->get_name() + ", new inferred value "; std::string value = simple_val.get_value(); if ("" == value) { msg += "\"\""; } else { msg += value; } msg += "\n"; dump_string(4, msg); } } } // ---------------------------------------------------------------------------- // Report the remaining conflicts in the configuration. These indicate // problems that the user should fix before going further with the // configuration, e.g. before generating a build tree. // // Quiet verbosity level has no effect on this, but at the verbose level // it is a good idea to look for a possible solution to the conflict. void cdl_exec::report_conflicts() { const std::list<CdlConflict>& all_conflicts = config->get_all_conflicts(); std::list<CdlConflict>::const_iterator conf_i; for (conf_i = all_conflicts.begin(); conf_i != all_conflicts.end(); conf_i++) { CdlNode node = (*conf_i)->get_node(); std::string msg = std::string("C ") + node->get_name() + ", " + (*conf_i)->get_explanation() + "\n"; dump_string(2, msg); if (verbose && (*conf_i)->resolution_implemented()) { // See if there is a possible solution to this conflict. // This involves creating a transaction, invoking the // inference engine, and cancelling the transaction // (thus making sure that nothing actually changes). // // NOTE: at some stage libcdl may keep track of solutions // globally. However, although it will know when a solution // becomes invalid it will not necessarily try to resolve // all global conflicts after every change, so attempting // to do this in a transaction may still be necessary. CdlTransaction transact = CdlTransactionBody::make(config); transact->resolve(*conf_i); if ((*conf_i)->has_known_solution()) { std::string soln_msg = " Possible solution:\n"; const std::vector<std::pair<CdlValuable, CdlValue> > & soln = (*conf_i)->get_solution(); unsigned int i; for (i = 0; i < soln.size(); i++) { CdlValuable valuable = soln[i].first; soln_msg += valuable->get_name(); soln_msg += " -> "; switch(valuable->get_flavor()) { case CdlValueFlavor_Bool : if (!soln[i].second.is_enabled()) { soln_msg += "0 (disabled)"; } else { soln_msg += "1 (enabled)"; } break; case CdlValueFlavor_Data: soln_msg += soln[i].second.get_value(); break; case CdlValueFlavor_BoolData: if (!soln[i].second.is_enabled()) { soln_msg += "0 " + soln[i].second.get_value(); } else { soln_msg += "1 " + soln[i].second.get_value(); } break; // An option with flavor none cannot be involved // in a solution. default: soln_msg += "<internal error>"; break; } soln_msg += "\n"; } #if 0 // FIXME: currently this member only works for nested sub-transactions. if (transact->user_confirmation_required()) { msg += "This change affects previous user settings.\n"; } #endif dump_string(4, soln_msg); } transact->cancel(); delete transact; } } } // ---------------------------------------------------------------------------- void cdl_exec::diagnostic_handler (std::string message) { printf ("%s\n", message.c_str ()); } void cdl_exec::exception_handler (CdlStringException exception) { printf ("%s\n", exception.get_message ().c_str ()); } void cdl_exec::exception_handler () { printf ("Unknown error\n"); } // ---------------------------------------------------------------------------- std::string cdl_exec::resolve_package_alias (const std::string alias) { std::string package = alias; if (! pkgdata->is_known_package (alias)) { // if the alias is not a package name const std::vector<std::string> & packages = pkgdata->get_packages (); // get packages for (unsigned int n = 0; n < packages.size (); n++) { // for each package const std::vector<std::string> & aliases = pkgdata->get_package_aliases (packages [n]); // get package aliases if (aliases.end () != std::find (aliases.begin (), aliases.end (), alias)) { // if alias is found package = packages [n]; // note the package break; } } } return package; } std::string cdl_exec::resolve_hardware_alias (const std::string alias) { std::string target = alias; if (! pkgdata->is_known_target (alias)) { // if the alias is not a target name const std::vector<std::string> & targets = pkgdata->get_targets (); // get targets for (unsigned int n = 0; n < targets.size (); n++) { // for each target const std::vector<std::string> & aliases = pkgdata->get_target_aliases (targets [n]); // get target aliases if (aliases.end () != std::find (aliases.begin (), aliases.end (), alias)) { // if alias is found target = targets [n]; // note the target break; } } } return target; } // ---------------------------------------------------------------------------- // Enable or disable debugging in a configuration. void cdl_exec::update_debug_level() { CdlNode node = config->lookup("CYGPKG_INFRA_DEBUG"); CdlValuable valuable = 0; if (0 != node) { valuable = dynamic_cast<CdlValuable>(node); } if (0 == valuable) { throw CdlStringException("Cannot enable or disable debugging, the infrastructure package is absent"); } if (debug_level > 0) { valuable->enable(CdlValueSource_User); } else { valuable->disable(CdlValueSource_User); } }
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