Logo Search packages:      
Sourcecode: dahdi-tools version File versions  Download package

menuselect.c

Go to the documentation of this file.
/*
 * Asterisk -- An open source telephony toolkit.
 *
 * Copyright (C) 2005 - 2010, Digium, Inc. 
 *
 * Russell Bryant <russell@digium.com>
 *
 * See http://www.asterisk.org for more information about
 * the Asterisk project. Please do not directly contact
 * any of the maintainers of this project for assistance;
 * the project provides a web site, mailing lists and IRC
 * channels for your use.
 *
 * This program is free software, distributed under the terms of
 * the GNU General Public License Version 2. See the LICENSE file
 * at the top of the source tree.
 */

/*!
 * \file
 *
 * \author Russell Bryant <russell@digium.com>
 * 
 * \brief A menu-driven system for Asterisk module selection
 */

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <stdarg.h>
#include <getopt.h>

#include "autoconfig.h"
#include "mxml/mxml.h"
#include "linkedlists.h"
#include "menuselect.h"

#ifdef MENUSELECT_DEBUG
static FILE *debug;
#endif

/*! The list of categories */
00044 struct categories categories = AST_LIST_HEAD_NOLOCK_INIT_VALUE;

/*!
   We have to maintain a pointer to the root of the trees generated from reading
   the build options XML files so that we can free it when we're done.  We don't
   copy any of the information over from these trees. Our list is just a 
   convenient mapping to the information contained in these lists with one
   additional piece of information - whether the build option is enabled or not.
*/
00053 struct tree {
      /*! the root of the tree */
00055       mxml_node_t *root;
      /*! for linking */
      AST_LIST_ENTRY(tree) list;
};

/*! The list of trees from menuselect-tree files */
static AST_LIST_HEAD_NOLOCK_STATIC(trees, tree);

static const char * const tree_files[] = {
      "menuselect-tree"
};

static char *output_makeopts = OUTPUT_MAKEOPTS_DEFAULT;
static char *output_makedeps = OUTPUT_MAKEDEPS_DEFAULT;

/*! This is set to 1 if menuselect.makeopts pre-existed the execution of this app */
00071 static int existing_config = 0;

/*! This is set when the --check-deps argument is provided. */
00074 static int check_deps = 0;

/*! These are set when the --list-options or --list-groups arguments are provided. */
00077 static int list_options = 0, list_groups = 0;

/*! This variable is non-zero when any changes are made */
00080 int changes_made = 0;

/*! Menu name */
00083 const char *menu_name = "Menuselect";

enum dep_file_state {
      DEP_FILE_UNKNOWN = -2,
      DEP_FILE_DISABLED = -1,
      DEP_FILE_UNMET = 0,
      DEP_FILE_MET = 1,
};

/*! Global list of dependencies that are external to the tree */
00093 struct dep_file {
      char name[32];
      enum dep_file_state met;
      enum dep_file_state previously_met;
      AST_LIST_ENTRY(dep_file) list;
};
AST_LIST_HEAD_NOLOCK_STATIC(deps_file, dep_file);

#if !defined(ast_strdupa) && defined(__GNUC__)
#define ast_strdupa(s)                                                    \
      (__extension__                                                    \
      ({                                                                \
            const char *__old = (s);                                  \
            size_t __len = strlen(__old) + 1;                         \
            char *__new = __builtin_alloca(__len);                    \
            memcpy (__new, __old, __len);                             \
            __new;                                                    \
      }))
#endif

/*! \brief return a pointer to the first non-whitespace character */
00114 static inline char *skip_blanks(char *str)
{
      if (!str)
            return NULL;

      while (*str && *str < 33)
            str++;

      return str;
}

static int open_debug(void)
{
#ifdef MENUSELECT_DEBUG
      if (!(debug = fopen("menuselect_debug.txt", "w"))) {
            fprintf(stderr, "Failed to open menuselect_debug.txt for debug output.\n");
            return -1;
      }
#endif
      return 0;
}

#define print_debug(f, ...) __print_debug(__LINE__, f, ## __VA_ARGS__)
static void __attribute__((format(printf, 2, 3))) __print_debug(int line, const char *format, ...)
{
#ifdef MENUSELECT_DEBUG
      va_list ap;

      fprintf(debug, "%d -", line);

      va_start(ap, format);
      vfprintf(debug, format, ap);
      va_end(ap);

      fflush(debug);
#endif
}

static void close_debug(void)
{
#ifdef MENUSELECT_DEBUG
      if (debug)
            fclose(debug);
#endif
}

/*! \brief Add a category to the category list, ensuring that there are no duplicates */
00161 static struct category *add_category(struct category *cat)
{
      struct category *tmp;

      AST_LIST_TRAVERSE(&categories, tmp, list) {
            if (!strcmp(tmp->name, cat->name)) {
                  return tmp;
            }
      }
      AST_LIST_INSERT_TAIL(&categories, cat, list);

      return cat;
}

/*! \brief Add a member to the member list of a category, ensuring that there are no duplicates */
00176 static int add_member(struct member *mem, struct category *cat)
{
      struct member *tmp;

      AST_LIST_TRAVERSE(&cat->members, tmp, list) {
            if (!strcmp(tmp->name, mem->name)) {
                  fprintf(stderr, "Member '%s' already exists in category '%s', ignoring.\n", mem->name, cat->name);
                  return -1;
            }
      }
      AST_LIST_INSERT_TAIL(&cat->members, mem, list);

      return 0;
}

/*! \brief Free a member structure and all of its members */
00192 static void free_member(struct member *mem)
{
      struct depend *dep;
      struct conflict *cnf;
      struct use *use;

      while ((dep = AST_LIST_REMOVE_HEAD(&mem->deps, list)))
            free(dep);
      while ((cnf = AST_LIST_REMOVE_HEAD(&mem->conflicts, list)))
            free(cnf);
      while ((use = AST_LIST_REMOVE_HEAD(&mem->uses, list)))
            free(use);
      free(mem);
}

/*! \brief Parse an input makeopts file */
00208 static int parse_tree(const char *tree_file)
{
      FILE *f;
      struct tree *tree;
      struct member *mem;
      struct depend *dep;
      struct conflict *cnf;
      struct use *use;
      mxml_node_t *cur;
      mxml_node_t *cur2;
      mxml_node_t *cur3;
      mxml_node_t *menu;
      const char *tmp;

      if (!(f = fopen(tree_file, "r"))) {
            fprintf(stderr, "Unable to open '%s' for reading!\n", tree_file);
            return -1;
      }

      if (!(tree = calloc(1, sizeof(*tree)))) {
            fclose(f);
            return -1;
      }

      if (!(tree->root = mxmlLoadFile(NULL, f, MXML_OPAQUE_CALLBACK))) {
            fclose(f);
            free(tree);
            return -1;
      }

      AST_LIST_INSERT_HEAD(&trees, tree, list);

      menu = mxmlFindElement(tree->root, tree->root, "menu", NULL, NULL, MXML_DESCEND);
      if ((tmp = mxmlElementGetAttr(menu, "name")))
            menu_name = tmp;
      for (cur = mxmlFindElement(menu, menu, "category", NULL, NULL, MXML_DESCEND_FIRST);
           cur;
           cur = mxmlFindElement(cur, menu, "category", NULL, NULL, MXML_NO_DESCEND))
      {
            struct category *cat;
            struct category *newcat;

            if (!(cat = calloc(1, sizeof(*cat))))
                  return -1;

            cat->name = mxmlElementGetAttr(cur, "name");

            newcat = add_category(cat);

            if (newcat != cat) {
                  /* want to append members, and potentially update the category. */
                  free(cat);
                  cat = newcat;
            }

            if ((tmp = mxmlElementGetAttr(cur, "displayname")))
                  cat->displayname = tmp;
            if ((tmp = mxmlElementGetAttr(cur, "positive_output")))
                  cat->positive_output = !strcasecmp(tmp, "yes");
            if ((tmp = mxmlElementGetAttr(cur, "exclusive")))
                  cat->exclusive = !strcasecmp(tmp, "yes");
            if ((tmp = mxmlElementGetAttr(cur, "remove_on_change")))
                  cat->remove_on_change = tmp;
            if ((tmp = mxmlElementGetAttr(cur, "touch_on_change")))
                  cat->touch_on_change = tmp;

            for (cur2 = mxmlFindElement(cur, cur, "member", NULL, NULL, MXML_DESCEND_FIRST);
                 cur2;
                 cur2 = mxmlFindElement(cur2, cur, "member", NULL, NULL, MXML_NO_DESCEND))
            {
                  if (!(mem = calloc(1, sizeof(*mem))))
                        return -1;
                  
                  mem->name = mxmlElementGetAttr(cur2, "name");
                  mem->displayname = mxmlElementGetAttr(cur2, "displayname");
                  mem->touch_on_change = mxmlElementGetAttr(cur2, "touch_on_change");
                  mem->remove_on_change = mxmlElementGetAttr(cur2, "remove_on_change");

                  if ((tmp = mxmlElementGetAttr(cur2, "explicitly_enabled_only"))) {
                        mem->explicitly_enabled_only = !strcasecmp(tmp, "yes");
                  }

                  if (!cat->positive_output) {
                        mem->was_enabled = mem->enabled = 1;
                        print_debug("Enabling %s because the category does not have positive output\n", mem->name);
                  }
                  cur3 = mxmlFindElement(cur2, cur2, "defaultenabled", NULL, NULL, MXML_DESCEND);
                  if (cur3 && cur3->child)
                        mem->defaultenabled = cur3->child->value.opaque;
                  
                  for (cur3 = mxmlFindElement(cur2, cur2, "depend", NULL, NULL, MXML_DESCEND_FIRST);
                       cur3 && cur3->child;
                       cur3 = mxmlFindElement(cur3, cur2, "depend", NULL, NULL, MXML_NO_DESCEND))
                  {
                        if (!(dep = calloc(1, sizeof(*dep)))) {
                              free_member(mem);
                              return -1;
                        }
                        if ((tmp = mxmlElementGetAttr(cur3, "name"))) {
                              if (!strlen_zero(tmp)) {
                                    dep->name = tmp;
                              }
                        }                       
                        if (!strlen_zero(cur3->child->value.opaque)) {
                              dep->displayname = cur3->child->value.opaque;
                              if (!dep->name) {
                                    dep->name = dep->displayname;
                              }
                              AST_LIST_INSERT_TAIL(&mem->deps, dep, list);
                        } else
                              free(dep);
                  }

                  for (cur3 = mxmlFindElement(cur2, cur2, "conflict", NULL, NULL, MXML_DESCEND_FIRST);
                       cur3 && cur3->child;
                       cur3 = mxmlFindElement(cur3, cur2, "conflict", NULL, NULL, MXML_NO_DESCEND))
                  {
                        if (!(cnf = calloc(1, sizeof(*cnf)))) {
                              free_member(mem);
                              return -1;
                        }
                        if ((tmp = mxmlElementGetAttr(cur3, "name"))) {
                              if (!strlen_zero(tmp)) {
                                    cnf->name = tmp;
                              }
                        }
                        if (!strlen_zero(cur3->child->value.opaque)) {
                              cnf->displayname = cur3->child->value.opaque;
                              if (!cnf->name) {
                                    cnf->name = cnf->displayname;
                              }                             
                              AST_LIST_INSERT_TAIL(&mem->conflicts, cnf, list);
                        } else
                              free(cnf);
                  }

                  for (cur3 = mxmlFindElement(cur2, cur2, "use", NULL, NULL, MXML_DESCEND_FIRST);
                       cur3 && cur3->child;
                       cur3 = mxmlFindElement(cur3, cur2, "use", NULL, NULL, MXML_NO_DESCEND))
                  {
#if !defined(HAVE_ATTRIBUTE_weak_import) && !defined(HAVE_ATTRIBUTE_weakref)
                        /* If the compiler won't support the functionality required for "use", then "use" -> "depend" */
                        if (!(dep = calloc(1, sizeof(*dep)))) {
                              free_member(mem);
                              return -1;
                        }
                        if ((tmp = mxmlElementGetAttr(cur3, "name"))) {
                              if (!strlen_zero(tmp)) {
                                    dep->name = tmp;
                              }
                        }
                        if (!strlen_zero(cur3->child->value.opaque)) {
                              dep->displayname = cur3->child->value.opaque;
                              if (!dep->name) {
                                    dep->name = dep->displayname;
                              }
                              AST_LIST_INSERT_TAIL(&mem->deps, dep, list);
                        } else {
                              free(dep);
                        }
#else
                        if (!(use = calloc(1, sizeof(*use)))) {
                              free_member(mem);
                              return -1;
                        }
                        if ((tmp = mxmlElementGetAttr(cur3, "name"))) {
                              if (!strlen_zero(tmp)) {
                                    use->name = tmp;
                              }
                        }
                        if (!strlen_zero(cur3->child->value.opaque)) {
                              use->displayname = cur3->child->value.opaque;
                              if (!use->name) {
                                    use->name = use->displayname;
                              }
                              AST_LIST_INSERT_TAIL(&mem->uses, use, list);
                        } else
                              free(use);
#endif
                  }

                  if (add_member(mem, cat))
                        free_member(mem);
            }
      }

      fclose(f);

      return 0;
}

/*!
 * \arg interactive Set to non-zero if being called while user is making changes
 */
00402 static unsigned int calc_dep_failures(int interactive, int pre_confload)
{
      unsigned int result = 0;
      struct category *cat;
      struct member *mem;
      struct depend *dep;
      struct dep_file *dep_file;
      unsigned int changed, old_failure;

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  old_failure = mem->depsfailed;
                  AST_LIST_TRAVERSE(&mem->deps, dep, list) {
                        if (dep->member)
                              continue;

                        mem->depsfailed = HARD_FAILURE;
                        AST_LIST_TRAVERSE(&deps_file, dep_file, list) {
                              if (!strcasecmp(dep_file->name, dep->name)) {
                                    if (dep_file->met == DEP_FILE_MET) {
                                          mem->depsfailed = NO_FAILURE;
                                    }
                                    break;
                              }
                        }
                        if (mem->depsfailed != NO_FAILURE) {
                              break; /* This dependency is not met, so we can stop now */
                        }
                  }
                  if (old_failure == SOFT_FAILURE && mem->depsfailed != HARD_FAILURE)
                        mem->depsfailed = SOFT_FAILURE;
            }
      }

      if (pre_confload) {
            return 0;
      }

      do {
            changed = 0;

            AST_LIST_TRAVERSE(&categories, cat, list) {
                  AST_LIST_TRAVERSE(&cat->members, mem, list) {
                        old_failure = mem->depsfailed;

                        if (mem->depsfailed == HARD_FAILURE)
                              continue;

                        mem->depsfailed = NO_FAILURE;

                        AST_LIST_TRAVERSE(&mem->deps, dep, list) {
                              if (!dep->member)
                                    continue;
                              if (dep->member->depsfailed == HARD_FAILURE) {
                                    mem->depsfailed = HARD_FAILURE;
                                    break;
                              } else if (dep->member->depsfailed == SOFT_FAILURE) {
                                    mem->depsfailed = SOFT_FAILURE;
                              } else if (!dep->member->enabled) {
                                    mem->depsfailed = SOFT_FAILURE;
                              }
                        }
                        
                        if (mem->depsfailed != old_failure) {
                              if ((mem->depsfailed == NO_FAILURE) && mem->was_defaulted) {
                                    mem->enabled = !strcasecmp(mem->defaultenabled, "yes");
                                    print_debug("Just set %s enabled to %d\n", mem->name, mem->enabled);
                              } else {
                                    mem->enabled = interactive ? 0 : mem->was_enabled;
                                    print_debug("Just set %s enabled to %d\n", mem->name, mem->enabled);
                              }
                              changed = 1;
                              break; /* This dependency is not met, so we can stop now */
                        }
                  }
                  if (changed)
                        break;
            }

            if (changed)
                  result = 1;

      } while (changed);

      return result;
}

static unsigned int calc_conflict_failures(int interactive, int pre_confload)
{
      unsigned int result = 0;
      struct category *cat;
      struct member *mem;
      struct conflict *cnf;
      struct dep_file *dep_file;
      unsigned int changed, old_failure;

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  old_failure = mem->conflictsfailed;
                  AST_LIST_TRAVERSE(&mem->conflicts, cnf, list) {
                        if (cnf->member)
                              continue;

                        mem->conflictsfailed = NO_FAILURE;
                        AST_LIST_TRAVERSE(&deps_file, dep_file, list) {
                              if (!strcasecmp(dep_file->name, cnf->name)) {
                                    if (dep_file->met == DEP_FILE_MET) {
                                          mem->conflictsfailed = HARD_FAILURE;
                                          print_debug("Setting %s conflictsfailed to HARD_FAILURE\n", mem->name);
                                    }
                                    break;
                              }
                        }

                        if (mem->conflictsfailed != NO_FAILURE)
                              break; /* This conflict was found, so we can stop now */
                  }
                  if (old_failure == SOFT_FAILURE && mem->conflictsfailed != HARD_FAILURE) {
                        print_debug("%d - Setting %s conflictsfailed to SOFT_FAILURE\n", __LINE__, mem->name);
                        mem->conflictsfailed = SOFT_FAILURE;
                  }
            }
      }

      if (pre_confload) {
            return 0;
      }

      do {
            changed = 0;

            AST_LIST_TRAVERSE(&categories, cat, list) {
                  AST_LIST_TRAVERSE(&cat->members, mem, list) {
                        old_failure = mem->conflictsfailed;

                        if (mem->conflictsfailed == HARD_FAILURE)
                              continue;

                        mem->conflictsfailed = NO_FAILURE;

                        AST_LIST_TRAVERSE(&mem->conflicts, cnf, list) {
                              if (!cnf->member)
                                    continue;
                                    
                              if (cnf->member->enabled) {
                                    mem->conflictsfailed = SOFT_FAILURE;
                                    print_debug("%d - Setting %s conflictsfailed to SOFT_FAILURE because %s is enabled\n", __LINE__, mem->name, cnf->member->name);
                                    break;
                              }
                        }
                        
                        if (mem->conflictsfailed != old_failure && mem->conflictsfailed != NO_FAILURE) {
                              mem->enabled = 0;
                              print_debug("Just set %s enabled to %d because of conflicts\n", mem->name, mem->enabled);
                              changed = 1;
                              break; /* This conflict has been found, so we can stop now */
                        }
                  }
                  if (changed)
                        break;
            }

            if (changed)
                  result = 1;

      } while (changed);

      return result;
}

/*! \brief Process dependencies against the input dependencies file */
00573 static int process_deps(void)
{
      FILE *f;
      char buf[80];
      int res = 0;
      struct dep_file *dep_file;

      if (!(f = fopen(MENUSELECT_DEPS, "r"))) {
            fprintf(stderr, "Unable to open '%s' for reading!  Did you run ./configure ?\n", MENUSELECT_DEPS);
            return -1;
      }

      /* Build a dependency list from the file generated by configure */      
      while (memset(buf, 0, sizeof(buf)), fgets(buf, sizeof(buf), f)) {
            char *name, *cur, *prev, *p;
            int val;

            /* Strip trailing CR/NL */
            while ((p = strchr(buf, '\r')) || (p = strchr(buf, '\n'))) {
                  *p = '\0';
            }

            p = buf;
            name = strsep(&p, "=");

            if (!p)
                  continue;

            cur = strsep(&p, ":");
            prev = strsep(&p, ":");

            if (!(dep_file = calloc(1, sizeof(*dep_file))))
                  break;

            strncpy(dep_file->name, name, sizeof(dep_file->name) - 1);
            dep_file->met = DEP_FILE_UNKNOWN;
            dep_file->previously_met = DEP_FILE_UNKNOWN;

            if (sscanf(cur, "%d", &val) != 1) {
                  fprintf(stderr, "Unknown value '%s' found in %s for %s\n", cur, MENUSELECT_DEPS, name);
            } else {
                  switch (val) {
                  case DEP_FILE_MET:
                  case DEP_FILE_UNMET:
                  case DEP_FILE_DISABLED:
                        dep_file->met = val;
                        break;
                  default:
                        fprintf(stderr, "Unknown value '%s' found in %s for %s\n", cur, MENUSELECT_DEPS, name);
                        break;
                  }
            }

            if (prev) {
                  if (sscanf(prev, "%d", &val) != 1) {
                        fprintf(stderr, "Unknown value '%s' found in %s for %s\n", prev, MENUSELECT_DEPS, name);
                  } else {
                        switch (val) {
                        case DEP_FILE_MET:
                        case DEP_FILE_UNMET:
                        case DEP_FILE_DISABLED:
                              dep_file->previously_met = val;
                              break;
                        default:
                              fprintf(stderr, "Unknown value '%s' found in %s for %s\n", prev, MENUSELECT_DEPS, name);
                              break;
                        }
                  }
            }

            AST_LIST_INSERT_TAIL(&deps_file, dep_file, list);
      }

      fclose(f);

      return res;
}

static void free_deps_file(void)
{
      struct dep_file *dep_file;

      /* Free the dependency list we built from the file */
      while ((dep_file = AST_LIST_REMOVE_HEAD(&deps_file, list)))
            free(dep_file);
}

static int match_member_relations(void)
{
      struct category *cat, *cat2;
      struct member *mem, *mem2;
      struct depend *dep;
      struct conflict *cnf;
      struct use *use;

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  AST_LIST_TRAVERSE(&mem->deps, dep, list) {
                        AST_LIST_TRAVERSE(&cat->members, mem2, list) {
                              if (strcasecmp(mem2->name, dep->name))
                                    continue;

                              dep->member = mem2;
                              break;
                        }
                        if (dep->member)
                              continue;

                        AST_LIST_TRAVERSE(&categories, cat2, list) {
                              AST_LIST_TRAVERSE(&cat2->members, mem2, list) {
                                    if (strcasecmp(mem2->name, dep->name))
                                          continue;
                                    
                                    dep->member = mem2;
                                    break;
                              }
                              if (dep->member)
                                    break;
                        }
                  }
            }
      }

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  AST_LIST_TRAVERSE(&mem->uses, use, list) {
                        AST_LIST_TRAVERSE(&cat->members, mem2, list) {
                              if (strcasecmp(mem2->name, use->name))
                                    continue;

                              use->member = mem2;
                              break;
                        }
                        if (use->member)
                              continue;

                        AST_LIST_TRAVERSE(&categories, cat2, list) {
                              AST_LIST_TRAVERSE(&cat2->members, mem2, list) {
                                    if (strcasecmp(mem2->name, use->name))
                                          continue;
                                    
                                    use->member = mem2;
                                    break;
                              }
                              if (use->member)
                                    break;
                        }
                  }
            }
      }

      AST_LIST_TRAVERSE(&categories, cat, list) {
            if (!cat->exclusive)
                  continue;

            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  AST_LIST_TRAVERSE(&cat->members, mem2, list) {
                        if (mem2 == mem)
                              continue;

                        if (!(cnf = calloc(1, sizeof(*cnf))))
                              return -1;

                        cnf->name = mem2->name;
                        cnf->member = mem2;
                        AST_LIST_INSERT_TAIL(&mem->conflicts, cnf, list);
                  }
            }
      }

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  AST_LIST_TRAVERSE(&mem->conflicts, cnf, list) {
                        AST_LIST_TRAVERSE(&cat->members, mem2, list) {
                              if (strcasecmp(mem2->name, cnf->name))
                                    continue;

                              cnf->member = mem2;
                              break;
                        }
                        if (cnf->member)
                              continue;

                        AST_LIST_TRAVERSE(&categories, cat2, list) {
                              AST_LIST_TRAVERSE(&cat2->members, mem2, list) {
                                    if (strcasecmp(mem2->name, cnf->name))
                                          continue;
                                    
                                    cnf->member = mem2;
                                    break;
                              }
                              if (cnf->member)
                                    break;
                        }
                  }
            }
      }

      return 0;
}

/*! \brief Iterate through all of the input tree files and call the parse function on them */
00775 static int build_member_list(void)
{
      int i;
      int res = -1;

      for (i = 0; i < (sizeof(tree_files) / sizeof(tree_files[0])); i++) {
            if ((res = parse_tree(tree_files[i]))) {
                  fprintf(stderr, "Error parsing '%s'!\n", tree_files[i]);
                  break;
            }
      }

      if (!res)
            res = match_member_relations();

      return res;
}

/*! \brief Given the string representation of a member and category, mark it as present in a given input file */
00794 static void mark_as_present(const char *member, const char *category)
{
      struct category *cat;
      struct member *mem;
      char negate = 0;

      if (*member == '-') {
            member++;
            negate = 1;
      }

      print_debug("Marking %s of %s as present\n", member, category);

      AST_LIST_TRAVERSE(&categories, cat, list) {
            if (strcmp(category, cat->name))
                  continue;
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if (!strcmp(member, mem->name)) {
                        mem->was_enabled = mem->enabled = (negate ? !cat->positive_output : cat->positive_output);
                        print_debug("Just set %s enabled to %d\n", mem->name, mem->enabled);
                        break;
                  }
            }
            if (!mem)
                  fprintf(stderr, "member '%s' in category '%s' not found, ignoring.\n", member, category);
            break;
      }

      if (!cat)
            fprintf(stderr, "category '%s' not found! Can't mark '%s' as disabled.\n", category, member);
}

unsigned int enable_member(struct member *mem)
{
      struct depend *dep;
      unsigned int can_enable = 1;

      AST_LIST_TRAVERSE(&mem->deps, dep, list) {
            if (!dep->member)
                  continue;

            if (!dep->member->enabled) {
                  if (dep->member->conflictsfailed != NO_FAILURE) {
                        can_enable = 0;
                        break;
                  }

                  if (dep->member->depsfailed == HARD_FAILURE) {
                        can_enable = 0;
                        break;
                  }

                  if (dep->member->explicitly_enabled_only) {
                        can_enable = 0;
                        break;
                  }

                  if (!(can_enable = enable_member(dep->member)))
                        break;
            }
      }

      if ((mem->enabled = can_enable)) {
            print_debug("Just set %s enabled to %d\n", mem->name, mem->enabled);
            while (calc_dep_failures(1, 0) || calc_conflict_failures(1, 0));
      }

      return can_enable;
}

void toggle_enabled(struct member *mem)
{
      if ((mem->depsfailed == HARD_FAILURE) || (mem->conflictsfailed == HARD_FAILURE))
            return;

      if (!mem->enabled)
            enable_member(mem);
      else
            mem->enabled = 0;

      print_debug("3- changed %s to %d\n", mem->name, mem->enabled);
      mem->was_defaulted = 0;
      changes_made++;

      while (calc_dep_failures(1, 0) || calc_conflict_failures(1, 0));
}

/*! \brief Toggle a member of a category at the specified index to enabled/disabled */
00882 void toggle_enabled_index(struct category *cat, int index)
{
      struct member *mem;
      int i = 0;

      AST_LIST_TRAVERSE(&cat->members, mem, list) {
            if (i++ == index)
                  break;
      }

      if (!mem)
            return;

      toggle_enabled(mem);
}

static void set_member_enabled(struct member *mem)
{
      if ((mem->depsfailed == HARD_FAILURE) || (mem->conflictsfailed == HARD_FAILURE))
            return;

      if (mem->enabled)
            return;

      enable_member(mem);
      mem->was_defaulted = 0;
      changes_made++;

      while (calc_dep_failures(1, 0) || calc_conflict_failures(1, 0));
}

00913 void set_enabled(struct category *cat, int index)
{
      struct member *mem;
      int i = 0;

      AST_LIST_TRAVERSE(&cat->members, mem, list) {
            if (i++ == index)
                  break;
      }

      if (!mem)
            return;

      set_member_enabled(mem);
}

static void clear_member_enabled(struct member *mem)
{
      if (!mem->enabled)
            return;

      mem->enabled = 0;
      mem->was_defaulted = 0;
      changes_made++;

      while (calc_dep_failures(1, 0) || calc_conflict_failures(1, 0));
}

00941 void clear_enabled(struct category *cat, int index)
{
      struct member *mem;
      int i = 0;

      AST_LIST_TRAVERSE(&cat->members, mem, list) {
            if (i++ == index)
                  break;
      }

      if (!mem)
            return;

      clear_member_enabled(mem);
}

/*! \brief Process a previously failed dependency
 *
 * If a module was previously disabled because of a failed dependency
 * or a conflict, and not because the user selected it to be that way,
 * then it needs to be re-enabled by default if the problem is no longer present.
 */
00963 static void process_prev_failed_deps(char *buf)
{
      const char *cat_name, *mem_name;
      struct category *cat;
      struct member *mem;

      cat_name = strsep(&buf, "=");
      mem_name = strsep(&buf, "\n");

      if (!cat_name || !mem_name)
            return;

      AST_LIST_TRAVERSE(&categories, cat, list) {
            if (strcasecmp(cat->name, cat_name))
                  continue;
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if (strcasecmp(mem->name, mem_name))
                        continue;

                  if (!mem->depsfailed && !mem->conflictsfailed) {
                        mem->enabled = 1;             
                        print_debug("Just set %s enabled to %d in processing of previously failed deps\n", mem->name, mem->enabled);
                        mem->was_defaulted = 0;
                  }
      
                  break;
            }
            break;      
      }

      if (!cat || !mem)
            fprintf(stderr, "Unable to find '%s' in category '%s'\n", mem_name, cat_name);
}

/*! \brief Parse an existing output makeopts file and enable members previously selected */
00998 static int parse_existing_config(const char *infile)
{
      FILE *f;
      char buf[2048];
      char *category, *parse, *member;
      int lineno = 0;

      if (!(f = fopen(infile, "r"))) {
            /* This isn't really an error, so only print the message in debug mode */
            print_debug("Unable to open '%s' for reading existing config.\n", infile);
            return -1;
      }

      while (fgets(buf, sizeof(buf), f)) {
            lineno++;

            if (strlen_zero(buf))
                  continue;

            /* skip lines that are not for this tool */
            if (strncasecmp(buf, "MENUSELECT_", strlen("MENUSELECT_")))
                  continue;

            if (!strncasecmp(buf, "MENUSELECT_DEPENDS_", strlen("MENUSELECT_DEPENDS_")))
                  continue;

            if (!strncasecmp(buf, "MENUSELECT_BUILD_DEPS", strlen("MENUSELECT_BUILD_DEPS")))
                  continue;

            parse = buf;
            parse = skip_blanks(parse);
            if (strlen_zero(parse))
                  continue;

            /* Grab the category name */  
            category = strsep(&parse, "=");
            if (!parse) {
                  fprintf(stderr, "Invalid string in '%s' at line '%d'!\n", output_makeopts, lineno);
                  continue;
            }
            
            parse = skip_blanks(parse);
      
            if (!strcasecmp(category, "MENUSELECT_DEPSFAILED")) {
                  process_prev_failed_deps(parse);
                  continue;
            }
      
            while ((member = strsep(&parse, " \n"))) {
                  member = skip_blanks(member);
                  if (strlen_zero(member))
                        continue;
                  mark_as_present(member, category);
            }
      }

      fclose(f);

      return 0;
}

/*! \brief Create the output dependencies file */
01060 static int generate_makedeps_file(void)
{
      FILE *f;
      struct category *cat;
      struct member *mem;
      struct depend *dep;
      struct use *use;
      struct dep_file *dep_file;

      if (!(f = fopen(output_makedeps, "w"))) {
            fprintf(stderr, "Unable to open dependencies file (%s) for writing!\n", output_makedeps);
            return -1;
      }

      /* Traverse all categories and members and mark which used packages were found,
       * skipping other members
       */
      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  AST_LIST_TRAVERSE(&mem->uses, use, list) {
                        if (use->member) {
                              use->met = 0;
                              continue;
                        }
                        AST_LIST_TRAVERSE(&deps_file, dep_file, list) {
                              if ((use->met = !strcasecmp(use->name, dep_file->name))) {
                                    break;
                              }
                        }
                  }
            }
      }

      /* Traverse all categories and members and output dependencies for each member */
      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  unsigned char header_printed = 0;

                  if (AST_LIST_EMPTY(&mem->deps) && AST_LIST_EMPTY(&mem->uses))
                        continue;

                  AST_LIST_TRAVERSE(&mem->deps, dep, list) {
                        const char *c;

                        if (dep->member) {
                              continue;
                        }

                        if (!header_printed) {
                              fprintf(f, "MENUSELECT_DEPENDS_%s=", mem->name);
                              header_printed = 1;
                        }

                        for (c = dep->name; *c; c++)
                              fputc(toupper(*c), f);
                        fputc(' ', f);
                  }
                  AST_LIST_TRAVERSE(&mem->uses, use, list) {
                        const char *c;

                        if (!use->met) {
                              continue;
                        }

                        if (!header_printed) {
                              fprintf(f, "MENUSELECT_DEPENDS_%s=", mem->name);
                              header_printed = 1;
                        }

                        for (c = use->name; *c; c++)
                              fputc(toupper(*c), f);
                        fputc(' ', f);
                  }

                  if (header_printed) {
                        fprintf(f, "\n");
                  }
            }
      }

      fclose(f);

      return 0;
}

/*! \brief Create the output makeopts file that results from the user's selections */
01146 static int generate_makeopts_file(void)
{
      FILE *f;
      struct category *cat;
      struct member *mem;
      struct depend *dep;
      struct use *use;

      if (!(f = fopen(output_makeopts, "w"))) {
            fprintf(stderr, "Unable to open build configuration file (%s) for writing!\n", output_makeopts);
            return -1;
      }

      /* Traverse all categories and members and output them as var/val pairs */
      AST_LIST_TRAVERSE(&categories, cat, list) {
            fprintf(f, "%s=", cat->name);
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if ((!cat->positive_output && (!mem->enabled || mem->depsfailed || mem->conflictsfailed)) ||
                      (cat->positive_output && mem->enabled && !mem->depsfailed && !mem->conflictsfailed))
                        fprintf(f, "%s ", mem->name);
            }
            fprintf(f, "\n");
      }

      /* Traverse all categories and members, and for every member that is not disabled,
         if it has internal dependencies (other members), list those members one time only
         in a special variable */
      fprintf(f, "MENUSELECT_BUILD_DEPS=");
      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if ((!cat->positive_output && (!mem->enabled || mem->depsfailed || mem->conflictsfailed)) ||
                      (cat->positive_output && mem->enabled && !mem->depsfailed && !mem->conflictsfailed))
                        continue;

                  AST_LIST_TRAVERSE(&mem->deps, dep, list) {
                        /* we only care about dependencies between members (internal, not external) */
                        if (!dep->member)
                              continue;
                        /* if this has already been output, continue */
                        if (dep->member->build_deps_output)
                              continue;
                        fprintf(f, "%s ", dep->member->name);
                        dep->member->build_deps_output = 1;
                  }
                  AST_LIST_TRAVERSE(&mem->uses, use, list) {
                        /* we only care about dependencies between members (internal, not external) */
                        if (!use->member)
                              continue;
                        /* if the dependency module is not going to be built, don't list it */
                        if (!use->member->enabled)
                              continue;
                        /* if this has already been output, continue */
                        if (use->member->build_deps_output)
                              continue;
                        fprintf(f, "%s ", use->member->name);
                        use->member->build_deps_output = 1;
                  }
            }
      }
      fprintf(f, "\n");

      /* Output which members were disabled because of failed dependencies or conflicts */
      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if (mem->depsfailed != HARD_FAILURE && mem->conflictsfailed != HARD_FAILURE)
                        continue;

                  if (!mem->defaultenabled || !strcasecmp(mem->defaultenabled, "yes"))
                        fprintf(f, "MENUSELECT_DEPSFAILED=%s=%s\n", cat->name, mem->name);
            }
      }

      fclose(f);

      /* there is no need to process remove_on_change rules if we did not have
         configuration information to start from
      */
      if (!existing_config)
            return 0;

      /* Traverse all categories and members and remove any files that are supposed
         to be removed when an item has been changed */
      AST_LIST_TRAVERSE(&categories, cat, list) {
            unsigned int had_changes = 0;
            char rmcommand[256] = "rm -rf ";
            char touchcommand[256] = "touch -c ";
            char *file, *buf;

            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if ((mem->enabled == mem->was_enabled) && !mem->was_defaulted)
                        continue;

                  had_changes = 1;

                  if (mem->touch_on_change) {
                        for (buf = ast_strdupa(mem->touch_on_change), file = strsep(&buf, " ");
                             file;
                             file = strsep(&buf, " ")) {
                              strcpy(&touchcommand[9], file);
                              system(touchcommand);
                        }
                  }

                  if (mem->remove_on_change) {
                        for (buf = ast_strdupa(mem->remove_on_change), file = strsep(&buf, " ");
                             file;
                             file = strsep(&buf, " ")) {
                              strcpy(&rmcommand[7], file);
                              system(rmcommand);
                        }
                  }
            }

            if (cat->touch_on_change && had_changes) {
                  for (buf = ast_strdupa(cat->touch_on_change), file = strsep(&buf, " ");
                       file;
                       file = strsep(&buf, " ")) {
                        strcpy(&touchcommand[9], file);
                        system(touchcommand);
                  }
            }

            if (cat->remove_on_change && had_changes) {
                  for (buf = ast_strdupa(cat->remove_on_change), file = strsep(&buf, " ");
                       file;
                       file = strsep(&buf, " ")) {
                        strcpy(&rmcommand[7], file);
                        system(rmcommand);
                  }
            }
      }

      return 0;
}

/*! \brief Print out all of the information contained in our tree */
01282 static void dump_member_list(void)
{
#ifdef MENUSELECT_DEBUG
      struct category *cat;
      struct member *mem;
      struct depend *dep;
      struct conflict *cnf;

      AST_LIST_TRAVERSE(&categories, cat, list) {
            fprintf(stderr, "Category: '%s'\n", cat->name);
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  fprintf(stderr, "   ==>> Member: '%s'  (%s)", mem->name, mem->enabled ? "Enabled" : "Disabled");
                  fprintf(stderr, "        Was %s\n", mem->was_enabled ? "Enabled" : "Disabled");
                  if (mem->defaultenabled)
                        fprintf(stderr, "        Defaults to %s\n", !strcasecmp(mem->defaultenabled, "yes") ? "Enabled" : "Disabled");
                  AST_LIST_TRAVERSE(&mem->deps, dep, list)
                        fprintf(stderr, "      --> Depends on: '%s'\n", dep->name);
                  if (!AST_LIST_EMPTY(&mem->deps))
                        fprintf(stderr, "      --> Dependencies Met: %s\n", mem->depsfailed ? "No" : "Yes");      
                  AST_LIST_TRAVERSE(&mem->conflicts, cnf, list)
                        fprintf(stderr, "      --> Conflicts with: '%s'\n", cnf->name);
                  if (!AST_LIST_EMPTY(&mem->conflicts))
                        fprintf(stderr, "      --> Conflicts Found: %s\n", mem->conflictsfailed ? "Yes" : "No");
            }
      }
#endif
}

/*! \brief Free all categories and their members */
01311 static void free_member_list(void)
{
      struct category *cat;
      struct member *mem;
      struct depend *dep;
      struct conflict *cnf;
      struct use *use;

      while ((cat = AST_LIST_REMOVE_HEAD(&categories, list))) {
            while ((mem = AST_LIST_REMOVE_HEAD(&cat->members, list))) {
                  while ((dep = AST_LIST_REMOVE_HEAD(&mem->deps, list)))
                        free(dep);
                  while ((cnf = AST_LIST_REMOVE_HEAD(&mem->conflicts, list)))
                        free(cnf);
                  while ((use = AST_LIST_REMOVE_HEAD(&mem->uses, list)))
                        free(use);              
                  free(mem);
            }
            free(cat);
      }
}

/*! \brief Free all of the XML trees */
01334 static void free_trees(void)
{
      struct tree *tree;

      while ((tree = AST_LIST_REMOVE_HEAD(&trees, list))) {
            mxmlDelete(tree->root);
            free(tree);
      }
}

/*! \brief Enable/Disable all members of a category as long as dependencies have been met and no conflicts are found */
01345 void set_all(struct category *cat, int val)
{
      struct member *mem;

      AST_LIST_TRAVERSE(&cat->members, mem, list) {
            if (mem->enabled == val)
                  continue;

            if ((mem->depsfailed == HARD_FAILURE) || (mem->conflictsfailed == HARD_FAILURE))
                  continue;

            if (val) {
                  enable_member(mem);
            } else {
                  mem->enabled = 0;
            }

            mem->was_defaulted = 0;
            changes_made++;
      }

      while (calc_dep_failures(1, 0) || calc_conflict_failures(1, 0));
}

int count_categories(void)
{
      struct category *cat;
      int count = 0;

      AST_LIST_TRAVERSE(&categories, cat, list)
            count++;

      return count;           
}

int count_members(struct category *cat)
{
      struct member *mem;
      int count = 0;

      AST_LIST_TRAVERSE(&cat->members, mem, list)
            count++;

      return count;           
}

static void print_sanity_dep_header(struct dep_file *dep_file, unsigned int *flag)
{
      fprintf(stderr, "\n"
            "***********************************************************\n"
            "  The '%s' dependency was previously satisfied but         \n"
            "  is now unsatisfied.                                      \n",
            dep_file->name);
      *flag = 1;
}

/*! \brief Make sure an existing menuselect.makeopts disabled everything it should have */
01402 static int sanity_check(void)
{
      unsigned int insane = 0;
      struct category *cat;
      struct member *mem;
      struct depend *dep;
      struct use *use;
      struct dep_file *dep_file;
      unsigned int dep_header_printed;
      unsigned int group_header_printed;

      AST_LIST_TRAVERSE(&deps_file, dep_file, list) {
            if (!((dep_file->previously_met == DEP_FILE_MET) &&
                  (dep_file->met == DEP_FILE_UNMET))) {
                  continue;
            }

            /* this dependency was previously met, but now is not, so
               warn the user about members that could be affected by it
            */

            dep_header_printed = 0;

            group_header_printed = 0;
            AST_LIST_TRAVERSE(&categories, cat, list) {
                  AST_LIST_TRAVERSE(&cat->members, mem, list) {
                        if (!mem->enabled) {
                              continue;
                        }
                        AST_LIST_TRAVERSE(&mem->deps, dep, list) {
                              if (strcasecmp(dep->name, dep_file->name)) {
                                    continue;
                              }
                              if (!group_header_printed) {
                                    if (!dep_header_printed) {
                                          print_sanity_dep_header(dep_file, &dep_header_printed);
                                    }
                                    fprintf(stderr, "\n"
                                          "  The following modules will no longer be available:\n");
                                    group_header_printed = 1;
                              }
                              fprintf(stderr, "          %s\n", mem->name);
                              insane = 1;
                        }
                  }
            }

            group_header_printed = 0;
            AST_LIST_TRAVERSE(&categories, cat, list) {
                  AST_LIST_TRAVERSE(&cat->members, mem, list) {
                        if (!mem->enabled) {
                              continue;
                        }
                        AST_LIST_TRAVERSE(&mem->uses, use, list) {
                              if (strcasecmp(use->name, dep_file->name)) {
                                    continue;
                              }
                              if (!group_header_printed) {
                                    if (!dep_header_printed) {
                                          print_sanity_dep_header(dep_file, &dep_header_printed);
                                    }
                                    fprintf(stderr, "\n"
                                          "  The functionality of the following modules will\n"
                                          "  be affected:\n");
                                    group_header_printed = 1;
                              }
                              fprintf(stderr, "          %s\n", mem->name);
                              insane = 1;
                        }
                  }
            }

            if (dep_header_printed) {
                  fprintf(stderr,
                        "***********************************************************\n");
            }
      }

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if ((mem->depsfailed || mem->conflictsfailed) && mem->enabled) {
                        fprintf(stderr, "\n"
                              "***********************************************************\n"
                              "  The existing menuselect.makeopts file did not specify    \n"
                              "  that '%s' should not be included.  However, either some  \n"
                              "  dependencies for this module were not found or a         \n"
                              "  conflict exists.                                         \n"
                              "                                                           \n"
                              "  Either run 'make menuselect' or remove the existing      \n"
                              "  menuselect.makeopts file to resolve this issue.          \n"
                              "***********************************************************\n"
                              "\n", mem->name);
                        insane = 1;
                  }
            }
      }

      return insane ? -1 : 0;
}

/* \brief Set the forced default values if they exist */
static void process_defaults(void)
{
      struct category *cat;
      struct member *mem;

      print_debug("Processing default values since config was not present\n");

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if (!mem->defaultenabled)
                        continue;

                  if (mem->depsfailed == HARD_FAILURE)
                        continue;

                  if (mem->conflictsfailed == HARD_FAILURE)
                        continue;
                  
                  if (!strcasecmp(mem->defaultenabled, "yes")) {
                        mem->enabled = 1;
                        mem->was_defaulted = 1;
                  } else if (!strcasecmp(mem->defaultenabled, "no")) {
                        mem->enabled = 0;
                        mem->was_defaulted = 1;
                  } else
                        fprintf(stderr, "Invalid defaultenabled value for '%s' in category '%s'\n", mem->name, cat->name);    
            }
      }

}

struct member *find_member(const char *name)
{
      struct category *cat;
      struct member *mem;

      AST_LIST_TRAVERSE(&categories, cat, list) {
            AST_LIST_TRAVERSE(&cat->members, mem, list) {
                  if (!strcasecmp(name, mem->name)) {
                        return mem;
                  }
            }
      }

      return NULL;
}

struct category *find_category(const char *name)
{
      struct category *cat;

      AST_LIST_TRAVERSE(&categories, cat, list) {
            if (!strcasecmp(name, cat->name)) {
                  return cat;
            }
      }

      return NULL;
}

static int usage(const char *argv0)
{
      fprintf(stderr, "Usage: %s [--enable <option>] [--disable <option>]\n", argv0);
      fprintf(stderr, "   [--enable-category <category>] [--enable-all]\n");
      fprintf(stderr, "   [--disable-category <category>] [--disable-all] [...]\n");
      fprintf(stderr, "   [<config-file> [...]]\n");
      fprintf(stderr, "Usage: %s { --check-deps | --list-options\n", argv0);
      fprintf(stderr, "   | --list-category <category> | --category-list | --help }\n");
      fprintf(stderr, "   [<config-file> [...]]\n");
      return 0;
}

int main(int argc, char *argv[])
{
      int res = 0;
      const char *list_group = NULL;
      unsigned int x;
      static struct option long_options[] = {
            /* 
             * The --check-deps option is used to ask this application to check to
             * see if that an existing menuselect.makeopts file contains all of the
             * modules that have dependencies that have not been met.  If this
             * is not the case, an informative message will be printed to the
             * user and the build will fail.
             */
            { "check-deps",       no_argument,       &check_deps,   1  },
            { "enable",           required_argument, 0,            'e' },
            { "enable-category",  required_argument, 0,            'E' },
            { "enable-all",       no_argument,       0,            'a' },
            { "disable",          required_argument, 0,            'd' },
            { "disable-category", required_argument, 0,            'D' },
            { "disable-all",      no_argument,       0,            'A' },
            { "list-options",     no_argument,       &list_options, 1  },
            { "list-category",    required_argument, 0,            'L' },
            { "category-list",    no_argument,       &list_groups,  1  },
            { "help",             no_argument,       0,            'h' },

            { 0, 0, 0, 0 },
      };
      int do_menu = 1, do_settings = 1;
      int c, option_index = 0;

      if (open_debug()) {
            exit(1);
      }

      /* Parse the input XML files to build the list of available options */
      if ((res = build_member_list()))
            exit(res);

      /* Load module dependencies */
      if ((res = process_deps()))
            exit(res);

      while (calc_dep_failures(0, 1) || calc_conflict_failures(0, 1));

      while ((c = getopt_long(argc, argv, "", long_options, &option_index)) != -1) {
            switch (c) {
            case 'L':
                  list_group = optarg;
                  do_settings = 0;
                  /* Fall-through */
            case 'a':
            case 'A':
            case 'e':
            case 'E':
            case 'd':
            case 'D':
                  do_menu = 0;
                  break;
            case 'h':
                  return usage(argv[0]);
                  break;
            default:
                  break;
            }
      }

      if (check_deps || list_options || list_groups) {
            do_menu = 0;
            do_settings = 0;
      }

      if (optind < argc) {
            for (x = optind; x < argc; x++) {
                  res = parse_existing_config(argv[x]);
                  if (!res && !strcasecmp(argv[x], OUTPUT_MAKEOPTS_DEFAULT))
                        existing_config = 1;
                  res = 0;
            }
      }

      /* Dump the list produced by parsing the various input files */
      dump_member_list();

      while (calc_dep_failures(0, 0) || calc_conflict_failures(0, 0));

      if (!existing_config)
            process_defaults();
      else if (check_deps)
            res = sanity_check();

      while (calc_dep_failures(0, 0) || calc_conflict_failures(0, 0));

      print_debug("do_menu=%d, do_settings=%d\n", do_menu, do_settings);

      if (do_menu && !res) {
            res = run_menu();
      } else if (!do_settings) {
            if (list_groups) {
                  struct category *cat;
                  AST_LIST_TRAVERSE(&categories, cat, list) {
                        fprintf(stdout, "%s\n", cat->name);
                  }
            } else if (list_options) {
                  struct category *cat;
                  struct member *mem;
                  AST_LIST_TRAVERSE(&categories, cat, list) {
                        AST_LIST_TRAVERSE(&cat->members, mem, list) {
                              fprintf(stdout, "%c %-30.30s %s\n", mem->enabled ? '+' : '-', mem->name, cat->name);
                        }
                  }
            } else if (!strlen_zero(list_group)) {
                  struct category *cat;
                  struct member *mem;
                  if ((cat = find_category(list_group))) {
                        AST_LIST_TRAVERSE(&cat->members, mem, list) {
                              fprintf(stdout, "%c %s\n", mem->enabled ? '+' : '-', mem->name);
                        }
                  }
            }
      } else if (!do_menu && do_settings) {
            struct member *mem;
            struct category *cat;

            print_debug("Doing settings with argc=%d\n", argc);

            /* Reset options processing */
            option_index = 0;
            optind = 1;

            while ((c = getopt_long(argc, argv, "", long_options, &option_index)) != -1) {
                  print_debug("Got option %c\n", c);
                  switch (c) {
                  case 'e':
                        if (!strlen_zero(optarg)) {
                              if ((mem = find_member(optarg))) {
                                    set_member_enabled(mem);
                              } else {
                                    fprintf(stderr, "'%s' not found\n", optarg);
                              }
                        }
                        break;
                  case 'E':
                        if (!strlen_zero(optarg)) {
                              if ((cat = find_category(optarg))) {
                                    set_all(cat, 1);
                              } else {
                                    fprintf(stderr, "'%s' not found\n", optarg);
                              }
                        }
                        break;
                  case 'a': /* enable-all */
                        AST_LIST_TRAVERSE(&categories, cat, list) {
                              set_all(cat, 1);
                        }
                        break;
                  case 'd':
                        if (!strlen_zero(optarg)) {
                              if ((mem = find_member(optarg))) {
                                    clear_member_enabled(mem);
                              } else {
                                    fprintf(stderr, "'%s' not found\n", optarg);
                              }
                        }
                        break;
                  case 'D':
                        if (!strlen_zero(optarg)) {
                              if ((cat = find_category(optarg))) {
                                    set_all(cat, 0);
                              } else {
                                    fprintf(stderr, "'%s' not found\n", optarg);
                              }
                        }
                        break;
                  case 'A': /* disable-all */
                        AST_LIST_TRAVERSE(&categories, cat, list) {
                              set_all(cat, 0);
                        }
                        break;
                  case '?':
                        break;
                  default:
                        break;
                  }
            }
            res = 0;
      }

      if (!res) {
            res = generate_makeopts_file();
      }

      /* Always generate the dependencies file */
      if (!res) {
            generate_makedeps_file();
      }

      /* free everything we allocated */
      free_deps_file();
      free_trees();
      free_member_list();

      close_debug();

      exit(res);
}

Generated by  Doxygen 1.6.0   Back to index