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|
/*
* Samba Unix/Linux SMB client library
* Registry Editor
* Copyright (C) Christopher Davis 2012
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include "regedit_treeview.h"
#include "regedit_list.h"
#include "lib/registry/registry.h"
#define HEADING_X 3
static int tree_node_free(struct tree_node *node)
{
DEBUG(9, ("tree_node_free('%s', %p)\n", node->name, node));
return 0;
}
struct tree_node *tree_node_new(TALLOC_CTX *ctx, struct tree_node *parent,
const char *name, struct registry_key *key)
{
struct tree_node *node;
node = talloc_zero(ctx, struct tree_node);
if (!node) {
return NULL;
}
talloc_set_destructor(node, tree_node_free);
DEBUG(9, ("tree_node_new('%s', %p)\n", name, node));
node->name = talloc_strdup(node, name);
if (!node->name) {
talloc_free(node);
return NULL;
}
if (key) {
node->key = talloc_steal(node, key);
}
if (parent) {
/* Check if this node is the first descendant of parent. */
if (!parent->child_head) {
parent->child_head = node;
}
node->parent = parent;
}
return node;
}
/* prepare a root node with all available hives as children */
struct tree_node *tree_node_new_root(TALLOC_CTX *ctx,
struct registry_context *regctx)
{
const char *hives[] = {
"HKEY_CLASSES_ROOT",
"HKEY_CURRENT_USER",
"HKEY_LOCAL_MACHINE",
"HKEY_PERFORMANCE_DATA",
"HKEY_USERS",
"HKEY_CURRENT_CONFIG",
"HKEY_DYN_DATA",
"HKEY_PERFORMANCE_TEXT",
"HKEY_PERFORMANCE_NLSTEXT",
NULL
};
struct tree_node *root, *prev, *node;
struct registry_key *key;
WERROR rv;
size_t i;
root = tree_node_new(ctx, NULL, "ROOT", NULL);
if (root == NULL) {
return NULL;
}
prev = NULL;
for (i = 0; hives[i] != NULL; ++i) {
rv = reg_get_predefined_key_by_name(regctx, hives[i], &key);
if (!W_ERROR_IS_OK(rv)) {
continue;
}
node = tree_node_new(root, root, hives[i], key);
if (node == NULL) {
return NULL;
}
if (prev) {
tree_node_append(prev, node);
}
prev = node;
}
return root;
}
void tree_node_append(struct tree_node *left, struct tree_node *right)
{
if (left->next) {
right->next = left->next;
left->next->previous = right;
}
left->next = right;
right->previous = left;
}
void tree_node_append_last(struct tree_node *list, struct tree_node *node)
{
tree_node_append(tree_node_last(list), node);
}
struct tree_node *tree_node_pop(struct tree_node **plist)
{
struct tree_node *node;
node = *plist;
if (node == NULL)
return NULL;
*plist = node->previous;
if (*plist == NULL) {
*plist = node->next;
}
if (node->previous) {
node->previous->next = node->next;
}
if (node->next) {
node->next->previous = node->previous;
}
if (node->parent && node->parent->child_head == node) {
node->parent->child_head = node->next;
}
node->next = NULL;
node->previous = NULL;
return node;
}
struct tree_node *tree_node_first(struct tree_node *list)
{
/* Grab the first node in this list from the parent if available. */
if (list->parent) {
return list->parent->child_head;
}
while (list && list->previous) {
list = list->previous;
}
return list;
}
struct tree_node *tree_node_last(struct tree_node *list)
{
while (list && list->next) {
list = list->next;
}
return list;
}
static uint32_t get_num_subkeys(struct tree_node *node)
{
const char *classname;
uint32_t num_subkeys;
uint32_t num_values;
NTTIME last_change_time;
uint32_t max_subkeynamelen;
uint32_t max_valnamelen;
uint32_t max_valbufsize;
WERROR rv;
rv = reg_key_get_info(node, node->key, &classname, &num_subkeys,
&num_values, &last_change_time,
&max_subkeynamelen, &max_valnamelen,
&max_valbufsize);
if (W_ERROR_IS_OK(rv)) {
return num_subkeys;
}
return 0;
}
WERROR tree_node_reopen_key(struct registry_context *ctx,
struct tree_node *node)
{
SMB_ASSERT(node->parent != NULL);
SMB_ASSERT(node->name != NULL);
TALLOC_FREE(node->key);
if (tree_node_is_top_level(node)) {
WERROR rv;
struct registry_key *key;
rv = reg_get_predefined_key_by_name(ctx, node->name, &key);
if (W_ERROR_IS_OK(rv)) {
node->key = talloc_steal(node, key);
}
return rv;
}
return reg_open_key(node, node->parent->key, node->name, &node->key);
}
bool tree_node_has_children(struct tree_node *node)
{
if (node->child_head) {
return true;
}
return get_num_subkeys(node) > 0;
}
static int node_cmp(struct tree_node **a, struct tree_node **b)
{
return strcmp((*a)->name, (*b)->name);
}
void tree_node_insert_sorted(struct tree_node *list, struct tree_node *node)
{
list = tree_node_first(list);
if (node_cmp(&list, &node) >= 0) {
tree_node_append(node, list);
if (list->parent) {
list->parent->child_head = node;
}
return;
}
while (list->next && node_cmp(&list->next, &node) < 0) {
list = list->next;
}
tree_node_append(list, node);
}
WERROR tree_node_load_children(struct tree_node *node)
{
struct registry_key *key;
const char *reg_key_name, *klass;
NTTIME modified;
uint32_t i, nsubkeys, count;
WERROR rv;
struct tree_node *prev, **array;
/* does this node already have it's children loaded? */
if (node->child_head)
return WERR_OK;
nsubkeys = get_num_subkeys(node);
if (nsubkeys == 0)
return WERR_OK;
array = talloc_zero_array(node, struct tree_node *, nsubkeys);
if (array == NULL) {
return WERR_NOT_ENOUGH_MEMORY;
}
for (count = 0, i = 0; i < nsubkeys; ++i) {
rv = reg_key_get_subkey_by_index(node, node->key, i,
®_key_name, &klass,
&modified);
if (!W_ERROR_IS_OK(rv)) {
goto finish;
}
rv = reg_open_key(node, node->key, reg_key_name, &key);
if (!W_ERROR_IS_OK(rv)) {
continue;
}
array[count] = tree_node_new(array, node, reg_key_name, key);
if (array[count] == NULL) {
rv = WERR_NOT_ENOUGH_MEMORY;
goto finish;
}
++count;
}
if (count) {
TYPESAFE_QSORT(array, count, node_cmp);
for (i = 1, prev = array[0]; i < count; ++i) {
talloc_steal(node, array[i]);
tree_node_append(prev, array[i]);
prev = array[i];
}
node->child_head = talloc_steal(node, array[0]);
rv = WERR_OK;
}
finish:
talloc_free(array);
return rv;
}
static WERROR next_depth_first(struct tree_node **node)
{
WERROR rv = WERR_OK;
SMB_ASSERT(node != NULL && *node != NULL);
if (tree_node_has_children(*node)) {
/* 1. If the node has children, go to the first one. */
rv = tree_node_load_children(*node);
if (W_ERROR_IS_OK(rv)) {
SMB_ASSERT((*node)->child_head != NULL);
*node = (*node)->child_head;
}
} else if ((*node)->next) {
/* 2. If there's a node directly after this one, go there */
*node = (*node)->next;
} else {
/* 3. Otherwise, go up the hierarchy to find the next one */
do {
*node = (*node)->parent;
if (*node && (*node)->next) {
*node = (*node)->next;
break;
}
} while (*node);
}
return rv;
}
static WERROR prev_depth_first(struct tree_node **node)
{
WERROR rv = WERR_OK;
SMB_ASSERT(node != NULL && *node != NULL);
if ((*node)->previous) {
*node = (*node)->previous;
while (tree_node_has_children(*node)) {
rv = tree_node_load_children(*node);
if (W_ERROR_IS_OK(rv)) {
SMB_ASSERT((*node)->child_head != NULL);
*node = tree_node_last((*node)->child_head);
}
}
} else if (!tree_node_is_top_level(*node)) {
*node = (*node)->parent;
} else {
*node = NULL;
}
return rv;
}
bool tree_node_next(struct tree_node **node, bool depth, WERROR *err)
{
*err = WERR_OK;
if (*node == NULL) {
return false;
}
if (depth) {
*err = next_depth_first(node);
} else {
*node = (*node)->next;
}
return *node != NULL && W_ERROR_IS_OK(*err);
}
bool tree_node_prev(struct tree_node **node, bool depth, WERROR *err)
{
*err = WERR_OK;
if (*node == NULL) {
return false;
}
if (depth) {
*err = prev_depth_first(node);
} else {
*node = (*node)->previous;
}
return *node != NULL && W_ERROR_IS_OK(*err);
}
void tree_view_clear(struct tree_view *view)
{
multilist_set_data(view->list, NULL);
}
WERROR tree_view_set_root(struct tree_view *view, struct tree_node *root)
{
multilist_set_data(view->list, NULL);
talloc_free(view->root);
view->root = root;
return tree_view_update(view, root->child_head);
}
WERROR tree_view_set_path(struct tree_view *view, const char **path)
{
struct tree_node *top, *node;
WERROR rv;
top = view->root->child_head;
while (*path) {
for (node = top; node != NULL; node = node->next) {
if (strcmp(*path, node->name) == 0) {
if (path[1] && tree_node_has_children(node)) {
rv = tree_node_load_children(node);
if (!W_ERROR_IS_OK(rv)) {
return rv;
}
SMB_ASSERT(node->child_head);
top = node->child_head;
break;
} else {
tree_view_update(view, top);
tree_view_set_current_node(view, node);
return WERR_OK;
}
}
}
++path;
}
return WERR_OK;
}
WERROR tree_view_update(struct tree_view *view, struct tree_node *list)
{
WERROR rv;
rv = multilist_set_data(view->list, list);
if (W_ERROR_IS_OK(rv)) {
multilist_refresh(view->list);
}
return rv;
}
/* is this node in the current level? */
bool tree_view_is_node_visible(struct tree_view *view, struct tree_node *node)
{
const struct tree_node *first;
first = multilist_get_data(view->list);
return first && first->parent == node->parent;
}
void tree_view_set_current_node(struct tree_view *view, struct tree_node *node)
{
multilist_set_current_row(view->list, node);
}
struct tree_node *tree_view_get_current_node(struct tree_view *view)
{
const void *row = multilist_get_current_row(view->list);
return talloc_get_type_abort(row, struct tree_node);
}
void tree_view_driver(struct tree_view *view, int c)
{
multilist_driver(view->list, c);
}
void tree_view_set_selected(struct tree_view *view, bool reverse)
{
attr_t attr = A_NORMAL;
if (reverse) {
attr = A_REVERSE;
}
mvwchgat(view->window, 0, HEADING_X, 3, attr, 0, NULL);
}
void tree_view_show(struct tree_view *view)
{
multilist_refresh(view->list);
touchwin(view->window);
wnoutrefresh(view->window);
wnoutrefresh(view->sub);
}
static int tree_view_free(struct tree_view *view)
{
if (view->panel) {
del_panel(view->panel);
}
if (view->sub) {
delwin(view->sub);
}
if (view->window) {
delwin(view->window);
}
return 0;
}
static const char *tv_get_column_header(const void *data, unsigned col)
{
SMB_ASSERT(col == 0);
return "Name";
}
static const void *tv_get_first_row(const void *data)
{
if (data == NULL) {
return NULL;
}
return talloc_get_type_abort(data, struct tree_node);
}
static const void *tv_get_next_row(const void *data, const void *row)
{
const struct tree_node *node;
SMB_ASSERT(row != NULL);
node = talloc_get_type_abort(row, struct tree_node);
return node->next;
}
static const void *tv_get_prev_row(const void *data, const void *row)
{
const struct tree_node *node;
SMB_ASSERT(row != NULL);
node = talloc_get_type_abort(row, struct tree_node);
return node->previous;
}
static const char *tv_get_item_prefix(const void *row, unsigned col)
{
struct tree_node *node;
SMB_ASSERT(col == 0);
SMB_ASSERT(row != NULL);
node = talloc_get_type_abort(row, struct tree_node);
if (tree_node_has_children(node)) {
return "+";
}
return " ";
}
static const char *tv_get_item_label(const void *row, unsigned col)
{
const struct tree_node *node;
SMB_ASSERT(col == 0);
SMB_ASSERT(row != NULL);
node = talloc_get_type_abort(row, struct tree_node);
return node->name;
}
static struct multilist_accessors tv_accessors = {
.get_column_header = tv_get_column_header,
.get_first_row = tv_get_first_row,
.get_next_row = tv_get_next_row,
.get_prev_row = tv_get_prev_row,
.get_item_prefix = tv_get_item_prefix,
.get_item_label = tv_get_item_label
};
struct tree_view *tree_view_new(TALLOC_CTX *ctx, struct tree_node *root,
int nlines, int ncols, int begin_y,
int begin_x)
{
struct tree_view *view;
view = talloc_zero(ctx, struct tree_view);
if (view == NULL) {
return NULL;
}
talloc_set_destructor(view, tree_view_free);
view->window = newwin(nlines, ncols, begin_y, begin_x);
if (view->window == NULL) {
goto fail;
}
view->sub = subwin(view->window, nlines - 2, ncols - 2,
begin_y + 1, begin_x + 1);
if (view->sub == NULL) {
goto fail;
}
box(view->window, 0, 0);
mvwprintw(view->window, 0, HEADING_X, "Key");
view->panel = new_panel(view->window);
if (view->panel == NULL) {
goto fail;
}
view->root = root;
view->list = multilist_new(view, view->sub, &tv_accessors, 1);
if (view->list == NULL) {
goto fail;
}
tree_view_update(view, root->child_head);
return view;
fail:
talloc_free(view);
return NULL;
}
void tree_view_resize(struct tree_view *view, int nlines, int ncols,
int begin_y, int begin_x)
{
WINDOW *nwin, *nsub;
nwin = newwin(nlines, ncols, begin_y, begin_x);
if (nwin == NULL) {
return;
}
nsub = subwin(nwin, nlines - 2, ncols - 2, begin_y + 1, begin_x + 1);
if (nsub == NULL) {
delwin(nwin);
return;
}
replace_panel(view->panel, nwin);
delwin(view->sub);
delwin(view->window);
view->window = nwin;
view->sub = nsub;
box(view->window, 0, 0);
mvwprintw(view->window, 0, HEADING_X, "Key");
multilist_set_window(view->list, view->sub);
tree_view_show(view);
}
const char **tree_node_get_path(TALLOC_CTX *ctx, struct tree_node *node)
{
const char **array;
size_t nitems, idx;
struct tree_node *p;
for (nitems = 0, p = node; !tree_node_is_root(p); p = p->parent) {
++nitems;
}
array = talloc_zero_array(ctx, const char *, nitems + 1);
if (array == NULL) {
return NULL;
}
for (idx = nitems - 1, p = node;
!tree_node_is_root(p);
p = p->parent, --idx) {
array[idx] = talloc_strdup(array, p->name);
if (array[idx] == NULL) {
talloc_free(discard_const(array));
return NULL;
}
}
return array;
}
/* print the path of node to label */
size_t tree_node_print_path(WINDOW *label, struct tree_node *node)
{
size_t len = 1;
const char **path;
TALLOC_CTX *frame;
if (node == NULL)
return 0;
werase(label);
wprintw(label, "/");
if (tree_node_is_top_level(node))
return 0;
frame = talloc_stackframe();
path = tree_node_get_path(frame, node->parent);
while (*path) {
len += strlen(*path) + 1;
wprintw(label, "%s/", *path);
++path;
}
talloc_free(frame);
return len;
}
|