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/*
* Copyright (c) 2021, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "TreeMapWidget.h"
#include <AK/LexicalPath.h>
#include <AK/Queue.h>
#include <AK/QuickSort.h>
#include <AK/URL.h>
#include <Applications/SpaceAnalyzer/SpaceAnalyzerGML.h>
#include <LibCore/DirIterator.h>
#include <LibCore/File.h>
#include <LibDesktop/Launcher.h>
#include <LibGUI/Application.h>
#include <LibGUI/BoxLayout.h>
#include <LibGUI/Breadcrumbbar.h>
#include <LibGUI/Clipboard.h>
#include <LibGUI/FileIconProvider.h>
#include <LibGUI/Icon.h>
#include <LibGUI/Label.h>
#include <LibGUI/Menu.h>
#include <LibGUI/Menubar.h>
#include <LibGUI/MessageBox.h>
#include <LibGUI/Statusbar.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <unistd.h>
static const char* APP_NAME = "Space Analyzer";
static constexpr size_t FILES_ENCOUNTERED_UPDATE_STEP_SIZE = 25;
struct TreeNode : public SpaceAnalyzer::TreeMapNode {
TreeNode(String name)
: m_name(move(name)) {};
virtual String name() const { return m_name; }
virtual i64 area() const { return m_area; }
virtual size_t num_children() const
{
if (m_children) {
return m_children->size();
}
return 0;
}
virtual const TreeNode& child_at(size_t i) const { return m_children->at(i); }
virtual void sort_children_by_area() const
{
if (m_children) {
Vector<TreeNode>* children = const_cast<Vector<TreeNode>*>(m_children.ptr());
quick_sort(*children, [](auto& a, auto& b) { return b.m_area < a.m_area; });
}
}
String m_name;
i64 m_area { 0 };
OwnPtr<Vector<TreeNode>> m_children;
};
struct Tree : public SpaceAnalyzer::TreeMap {
Tree(String root_name)
: m_root(move(root_name)) {};
virtual ~Tree() {};
TreeNode m_root;
virtual const SpaceAnalyzer::TreeMapNode& root() const override
{
return m_root;
};
};
struct MountInfo {
String mount_point;
String source;
};
static void fill_mounts(Vector<MountInfo>& output)
{
// Output info about currently mounted filesystems.
auto file = Core::File::construct("/proc/df");
if (!file->open(Core::OpenMode::ReadOnly)) {
warnln("Failed to open {}: {}", file->name(), file->error_string());
return;
}
auto content = file->read_all();
auto json = JsonValue::from_string(content).release_value_but_fixme_should_propagate_errors();
json.as_array().for_each([&output](auto& value) {
auto& filesystem_object = value.as_object();
MountInfo mount_info;
mount_info.mount_point = filesystem_object.get("mount_point").to_string();
mount_info.source = filesystem_object.get("source").as_string_or("none");
output.append(mount_info);
});
}
static MountInfo* find_mount_for_path(String path, Vector<MountInfo>& mounts)
{
MountInfo* result = nullptr;
size_t length = 0;
for (auto& mount_info : mounts) {
String& mount_point = mount_info.mount_point;
if (path.starts_with(mount_point)) {
if (!result || mount_point.length() > length) {
result = &mount_info;
length = mount_point.length();
}
}
}
return result;
}
static long long int update_totals(TreeNode& node)
{
long long int result = 0;
if (node.m_children) {
for (auto& child : *node.m_children) {
result += update_totals(child);
}
node.m_area = result;
} else {
result = node.m_area;
}
return result;
}
static NonnullRefPtr<GUI::Window> create_progress_window()
{
auto window = GUI::Window::construct();
window->set_title(APP_NAME);
window->set_resizable(false);
window->set_closeable(false);
window->resize(240, 50);
window->center_on_screen();
auto& main_widget = window->set_main_widget<GUI::Widget>();
main_widget.set_fill_with_background_color(true);
main_widget.set_layout<GUI::VerticalBoxLayout>();
auto& label = main_widget.add<GUI::Label>("Analyzing storage space...");
label.set_fixed_height(22);
auto& progresslabel = main_widget.add<GUI::Label>();
progresslabel.set_name("progresslabel");
progresslabel.set_fixed_height(22);
return window;
}
static void update_progress_label(GUI::Label& progresslabel, size_t files_encountered_count)
{
auto text = String::formatted("{} files...", files_encountered_count);
progresslabel.set_text(text);
Core::EventLoop::current().pump(Core::EventLoop::WaitMode::PollForEvents);
}
struct QueueEntry {
QueueEntry(String path, TreeNode* node)
: path(move(path))
, node(node) {};
String path;
TreeNode* node { nullptr };
};
static void populate_filesize_tree(TreeNode& root, Vector<MountInfo>& mounts, HashMap<int, int>& error_accumulator, GUI::Label& progresslabel)
{
VERIFY(!root.m_name.ends_with("/"));
Queue<QueueEntry> queue;
queue.enqueue(QueueEntry(root.m_name, &root));
size_t files_encountered_count = 0;
StringBuilder builder = StringBuilder();
builder.append(root.m_name);
builder.append("/");
MountInfo* root_mount_info = find_mount_for_path(builder.to_string(), mounts);
if (!root_mount_info) {
return;
}
while (!queue.is_empty()) {
QueueEntry queue_entry = queue.dequeue();
builder.clear();
builder.append(queue_entry.path);
builder.append("/");
MountInfo* mount_info = find_mount_for_path(builder.to_string(), mounts);
if (!mount_info || (mount_info != root_mount_info && mount_info->source != root_mount_info->source)) {
continue;
}
Core::DirIterator dir_iterator(builder.to_string(), Core::DirIterator::SkipParentAndBaseDir);
if (dir_iterator.has_error()) {
int error_sum = error_accumulator.get(dir_iterator.error()).value_or(0);
error_accumulator.set(dir_iterator.error(), error_sum + 1);
} else {
queue_entry.node->m_children = make<Vector<TreeNode>>();
while (dir_iterator.has_next()) {
queue_entry.node->m_children->append(TreeNode(dir_iterator.next_path()));
}
for (auto& child : *queue_entry.node->m_children) {
files_encountered_count += 1;
if (!(files_encountered_count % FILES_ENCOUNTERED_UPDATE_STEP_SIZE))
update_progress_label(progresslabel, files_encountered_count);
String& name = child.m_name;
int name_len = name.length();
builder.append(name);
struct stat st;
int stat_result = fstatat(dir_iterator.fd(), name.characters(), &st, AT_SYMLINK_NOFOLLOW);
if (stat_result < 0) {
int error_sum = error_accumulator.get(errno).value_or(0);
error_accumulator.set(errno, error_sum + 1);
} else {
if (S_ISDIR(st.st_mode)) {
queue.enqueue(QueueEntry(builder.to_string(), &child));
} else {
child.m_area = st.st_size;
}
}
builder.trim(name_len);
}
}
}
update_totals(root);
}
static void analyze(RefPtr<Tree> tree, SpaceAnalyzer::TreeMapWidget& treemapwidget, GUI::Statusbar& statusbar)
{
statusbar.set_text("");
auto progress_window = create_progress_window();
progress_window->show();
auto& progresslabel = *progress_window->main_widget()->find_descendant_of_type_named<GUI::Label>("progresslabel");
update_progress_label(progresslabel, 0);
// Build an in-memory tree mirroring the filesystem and for each node
// calculate the sum of the file size for all its descendants.
TreeNode* root = &tree->m_root;
Vector<MountInfo> mounts;
fill_mounts(mounts);
HashMap<int, int> error_accumulator;
populate_filesize_tree(*root, mounts, error_accumulator, progresslabel);
progress_window->close();
// Display an error summary in the statusbar.
if (!error_accumulator.is_empty()) {
StringBuilder builder;
bool first = true;
builder.append("Some directories were not analyzed: ");
for (auto& key : error_accumulator.keys()) {
if (!first) {
builder.append(", ");
}
builder.append(strerror(key));
builder.append(" (");
int value = error_accumulator.get(key).value();
builder.append(String::number(value));
if (value == 1) {
builder.append(" time");
} else {
builder.append(" times");
}
builder.append(")");
first = false;
}
statusbar.set_text(builder.to_string());
} else {
statusbar.set_text("No errors");
}
treemapwidget.set_tree(tree);
}
static bool is_removable(const String& absolute_path)
{
VERIFY(!absolute_path.is_empty());
int access_result = access(LexicalPath::dirname(absolute_path).characters(), W_OK);
if (access_result != 0 && errno != EACCES)
perror("access");
return access_result == 0;
}
static String get_absolute_path_to_selected_node(const SpaceAnalyzer::TreeMapWidget& treemapwidget, bool include_last_node = true)
{
StringBuilder path_builder;
for (size_t k = 0; k < treemapwidget.path_size() - (include_last_node ? 0 : 1); k++) {
if (k != 0) {
path_builder.append('/');
}
const SpaceAnalyzer::TreeMapNode* node = treemapwidget.path_node(k);
path_builder.append(node->name());
}
return path_builder.build();
}
int main(int argc, char* argv[])
{
auto app = GUI::Application::construct(argc, argv);
RefPtr<Tree> tree = adopt_ref(*new Tree(""));
// Configure application window.
auto app_icon = GUI::Icon::default_icon("app-space-analyzer");
auto window = GUI::Window::construct();
window->set_title(APP_NAME);
window->resize(640, 480);
window->set_icon(app_icon.bitmap_for_size(16));
// Load widgets.
auto& mainwidget = window->set_main_widget<GUI::Widget>();
mainwidget.load_from_gml(space_analyzer_gml);
auto& breadcrumbbar = *mainwidget.find_descendant_of_type_named<GUI::Breadcrumbbar>("breadcrumbbar");
auto& treemapwidget = *mainwidget.find_descendant_of_type_named<SpaceAnalyzer::TreeMapWidget>("tree_map");
auto& statusbar = *mainwidget.find_descendant_of_type_named<GUI::Statusbar>("statusbar");
auto& file_menu = window->add_menu("&File");
file_menu.add_action(GUI::Action::create("&Analyze", [&](auto&) {
analyze(tree, treemapwidget, statusbar);
}));
file_menu.add_separator();
file_menu.add_action(GUI::CommonActions::make_quit_action([&](auto&) {
app->quit();
}));
auto& help_menu = window->add_menu("&Help");
help_menu.add_action(GUI::CommonActions::make_about_action(APP_NAME, app_icon, window));
// Configure the nodes context menu.
auto open_folder_action = GUI::Action::create("Open Folder", { Mod_Ctrl, Key_O }, Gfx::Bitmap::try_load_from_file("/res/icons/16x16/open.png").release_value_but_fixme_should_propagate_errors(), [&](auto&) {
Desktop::Launcher::open(URL::create_with_file_protocol(get_absolute_path_to_selected_node(treemapwidget)));
});
auto open_containing_folder_action = GUI::Action::create("Open Containing Folder", { Mod_Ctrl, Key_O }, Gfx::Bitmap::try_load_from_file("/res/icons/16x16/open.png").release_value_but_fixme_should_propagate_errors(), [&](auto&) {
LexicalPath path { get_absolute_path_to_selected_node(treemapwidget) };
Desktop::Launcher::open(URL::create_with_file_protocol(path.dirname(), path.basename()));
});
auto copy_path_action = GUI::Action::create("Copy Path to Clipboard", { Mod_Ctrl, Key_C }, Gfx::Bitmap::try_load_from_file("/res/icons/16x16/edit-copy.png").release_value_but_fixme_should_propagate_errors(), [&](auto&) {
GUI::Clipboard::the().set_plain_text(get_absolute_path_to_selected_node(treemapwidget));
});
auto delete_action = GUI::CommonActions::make_delete_action([&](auto&) {
String selected_node_path = get_absolute_path_to_selected_node(treemapwidget);
bool try_again = true;
while (try_again) {
try_again = false;
auto deletion_result = Core::File::remove(selected_node_path, Core::File::RecursionMode::Allowed, true);
if (deletion_result.is_error()) {
auto retry_message_result = GUI::MessageBox::show(window,
String::formatted("Failed to delete \"{}\": {}. Retry?",
deletion_result.error().file,
static_cast<Error const&>(deletion_result.error())),
"Deletion failed",
GUI::MessageBox::Type::Error,
GUI::MessageBox::InputType::YesNo);
if (retry_message_result == GUI::MessageBox::ExecYes) {
try_again = true;
}
} else {
GUI::MessageBox::show(window,
String::formatted("Successfully deleted \"{}\".", selected_node_path),
"Deletion completed",
GUI::MessageBox::Type::Information,
GUI::MessageBox::InputType::OK);
}
}
// TODO: Refreshing data always causes resetting the viewport back to "/".
// It would be great if we found a way to preserve viewport across refreshes.
analyze(tree, treemapwidget, statusbar);
});
// TODO: Both these menus could've been implemented as one, but it's impossible to change action text after it's shown once.
auto folder_node_context_menu = GUI::Menu::construct();
folder_node_context_menu->add_action(*open_folder_action);
folder_node_context_menu->add_action(*copy_path_action);
folder_node_context_menu->add_action(*delete_action);
auto file_node_context_menu = GUI::Menu::construct();
file_node_context_menu->add_action(*open_containing_folder_action);
file_node_context_menu->add_action(*copy_path_action);
file_node_context_menu->add_action(*delete_action);
// Configure event handlers.
breadcrumbbar.on_segment_click = [&](size_t index) {
VERIFY(index < treemapwidget.path_size());
treemapwidget.set_viewpoint(index);
};
treemapwidget.on_path_change = [&]() {
StringBuilder builder;
breadcrumbbar.clear_segments();
for (size_t k = 0; k < treemapwidget.path_size(); k++) {
if (k == 0) {
breadcrumbbar.append_segment("/", GUI::FileIconProvider::icon_for_path("/").bitmap_for_size(16), "/", "/");
continue;
}
const SpaceAnalyzer::TreeMapNode* node = treemapwidget.path_node(k);
builder.append("/");
builder.append(node->name());
breadcrumbbar.append_segment(node->name(), GUI::FileIconProvider::icon_for_path(builder.string_view()).bitmap_for_size(16), builder.string_view(), builder.string_view());
}
breadcrumbbar.set_selected_segment(treemapwidget.viewpoint());
};
treemapwidget.on_context_menu_request = [&](const GUI::ContextMenuEvent& event) {
String selected_node_path = get_absolute_path_to_selected_node(treemapwidget);
if (selected_node_path.is_empty())
return;
delete_action->set_enabled(is_removable(selected_node_path));
if (Core::File::is_directory(selected_node_path)) {
folder_node_context_menu->popup(event.screen_position());
} else {
file_node_context_menu->popup(event.screen_position());
}
};
// At startup automatically do an analysis of root.
analyze(tree, treemapwidget, statusbar);
window->show();
return app->exec();
}
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