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forked from brl/citadel-tools
citadel-tools/citadel-desktopd/src/parser.rs

308 lines
9.9 KiB
Rust
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use std::io::Read;
use std::fs::File;
use std::path::Path;
use std::collections::HashSet;
use crate::desktop::{DesktopFile,Line};
use crate::Result;
lazy_static! {
// These are the keys which are copied into the translated .desktop files
static ref KEY_WHITELIST: HashSet<&'static str> = [
"Type", "Version", "Name", "GenericName", "NoDisplay", "Comment", "Icon", "Hidden",
"OnlyShowIn", "NotShowIn", "Path", "Terminal", "Actions", "MimeType",
"Categories", "Keywords", "StartupNotify", "StartupWMClass", "URL", "DocPath",
"X-GNOME-FullName", "X-GNOME-Provides", "X-Desktop-File-Install-Version", "X-GNOME-UsesNotifications",
"X-GNOME-DocPath", "X-Geoclue-Reason", "X-GNOME-SingleWindow", "X-GNOME-Gettext-Domain",
"X-MultipleArgs",
].iter().cloned().collect();
// These are keys which are recognized but deliberately ignored.
static ref KEY_IGNORELIST: HashSet<&'static str> = [
"DBusActivatable", "Implements", "TryExec", "InitialPreference", "Encoding", "X-KDE-Protocols", "X-GIO-NoFuse", "X-Gnome-Vfs-System",
"X-GNOME-Autostart-Phase", "X-GNOME-Autostart-Notify", "X-GNOME-AutoRestart",
"X-GNOME-Bugzilla-Bugzilla", "X-GNOME-Bugzilla-Product", "X-GNOME-Bugzilla-Component", "X-GNOME-Bugzilla-Version",
"X-GNOME-Bugzilla-ExtraInfoScript", "X-GNOME-Bugzilla-OtherBinaries", "X-GNOME-Autostart-enabled",
"X-AppInstall-Package", "X-KDE-SubstituteUID", "X-Ubuntu-Gettext-Domain", "X-AppInstall-Keywords",
"X-Ayatana-Desktop-Shortcuts", "X-GNOME-Settings-Panel", "X-GNOME-WMSettingsModule", "X-GNOME-WMName",
"X-GnomeWMSettingsLibrary",
].iter().cloned().collect();
}
fn is_whitelisted_key(key: &str) -> bool {
KEY_WHITELIST.contains(key)
}
fn filename_from_path(path: &Path) -> Result<&str> {
let filename = match path.file_name() {
Some(name) => name,
None => return Err(format_err!("Path {:?} has no filename component", path)),
};
match filename.to_str() {
Some(s) => Ok(s),
None => Err(format_err!("Filename has invalid utf8 encoding")),
}
}
pub struct DesktopFileParser {
desktop_file: DesktopFile,
exec_prefix: String,
seen_header: bool,
current_action: Option<String>,
in_ignored_group: bool,
known_actions: HashSet<String>,
}
impl DesktopFileParser {
fn new(filename: &str, exec_prefix: &str) -> DesktopFileParser {
DesktopFileParser {
desktop_file: DesktopFile::new(filename),
exec_prefix: exec_prefix.to_string(),
seen_header: false,
current_action: None,
in_ignored_group: false,
known_actions: HashSet::new(),
}
}
pub fn parse_from_path<P: AsRef<Path>>(path: P, exec_prefix: &str) -> Result<DesktopFile> {
let filename = filename_from_path(path.as_ref())?;
let f = File::open(path.as_ref())?;
DesktopFileParser::parse_from_reader(f, filename, exec_prefix)
}
fn parse_from_reader<T: Read>(mut r: T, filename: &str, exec_prefix: &str) -> Result<DesktopFile> {
let mut buffer = String::new();
r.read_to_string(&mut buffer)?;
DesktopFileParser::parse_from_string(&buffer, filename, exec_prefix)
}
fn parse_from_string(body: &str, filename: &str, exec_prefix: &str) -> Result<DesktopFile> {
let mut parser = DesktopFileParser::new(filename, exec_prefix);
for s in body.lines() {
match LineParser::parse(s) {
Some(line) => parser.process_line(line)?,
None => return Err(format_err!("Failed to parse line: '{}'", s))
}
}
Ok(parser.desktop_file)
}
fn process_initial(&mut self, line: Line) -> Result<()> {
match line {
Line::Comment(_) | Line::Empty => {},
Line::DesktopHeader => self.seen_header = true,
_ => return Err(format_err!("Missing Desktop Entry header"))
}
self.desktop_file.add_line(line);
Ok(())
}
fn process_line(&mut self, mut line: Line) -> Result<()> {
if self.in_ignored_group && !line.is_action_header() {
return Ok(())
}
if !self.seen_header {
return self.process_initial(line)
}
if let Line::KeyValue(ref k, ref value) = line {
if k == "Actions" {
for s in value.split_terminator(";") {
self.known_actions.insert(s.trim().to_string());
}
}
}
match line {
Line::ExecLine(ref mut s) => {
s.insert_str(0,self.exec_prefix.as_str())
},
Line::DesktopHeader => return Err(format_err!("Duplicate Desktop Entry header")),
Line::ActionHeader(ref action) => {
if self.known_actions.contains(action) {
self.current_action = Some(action.to_string());
self.in_ignored_group = false;
} else {
return Err(format_err!("Desktop Action header with undecleared action: {}", action))
}
},
Line::GroupHeader(_) => {
self.in_ignored_group = true;
return Ok(())
},
Line::KeyLocaleValue(ref k,_,_) | Line::KeyValue(ref k,_) => {
if !is_whitelisted_key(k) {
if !KEY_IGNORELIST.contains(k.as_str()) {
info!("Unknown key in {}: {}", self.desktop_file.filename(), k);
}
return Ok(())
}
}
_ => {},
}
if let Some(ref action) = self.current_action {
self.desktop_file.add_action_line(action, line)
} else {
self.desktop_file.add_line(line);
}
Ok(())
}
}
const DESKTOP_ACTION: &'static str = "Desktop Action ";
struct LineParser<'a> {
s: &'a str,
}
impl <'a> LineParser<'a> {
fn new(s: &'a str) -> LineParser<'a> {
LineParser {
s,
}
}
fn parse(s: &'a str) -> Option<Line> {
if let Some(line) = LineParser::new(s)._parse() {
if validate_line(&line) {
return Some(line)
}
}
None
}
fn first(&self) -> Option<char> {
self.s.chars().next()
}
fn last(&self) -> Option<char> {
self.s.chars().next_back()
}
fn _parse(&mut self) -> Option<Line> {
match self.first() {
None => Some(Line::Empty),
Some('#') => Some(Line::Comment(self.s[1..].to_string())),
Some('[') => self.parse_header(),
Some(_) => self.parse_keyval(),
}
}
fn parse_header(&mut self) -> Option<Line> {
if self.last().unwrap() != ']' {
return None
}
let content = &self.s[1..self.s.len() - 1];
if content.starts_with(DESKTOP_ACTION) {
let action = &content[DESKTOP_ACTION.len()..];
return Some(Line::ActionHeader(action.to_string()))
} else if content == "Desktop Entry" {
return Some(Line::DesktopHeader)
}
return Some(Line::GroupHeader(content.to_string()))
}
fn parse_keyval(&self) -> Option<Line> {
let parts: Vec<&str> = self.s.splitn(2, "=").collect();
if parts.len() != 2 {
return None
}
let key = parts[0].trim();
let val = parts[1].trim();
if !key.contains("[") {
if key == "Exec" {
return Some(Line::ExecLine(val.to_string()))
}
return Some(Line::KeyValue(key.to_string(), val.to_string()))
}
self.parse_locale(key).map(|(key,locale)| Line::KeyLocaleValue(key, locale, val.to_string()))
}
fn parse_locale(&self, key: &str) -> Option<(String,String)> {
let idx = key.find("[").unwrap();
let (k,loc) = key.split_at(idx);
let mut chars = loc.chars();
if let Some(']') = chars.next_back() {
chars.next();
if k.trim() == "Exec" {
// Exec key with locale not allowed
return None;
}
return Some((k.trim().to_string(), chars.as_str().to_string()))
}
None
}
}
fn is_alphanum_or_dash(c: char) -> bool {
is_ascii(c) && (c.is_alphanumeric() || c == '-')
}
fn is_ascii(c: char) -> bool {
c as u32 <= 0x7F
}
fn is_first_char_alphabetic(s: &str) -> bool {
if let Some(c) = s.chars().next() {
return is_ascii(c) && c.is_alphabetic()
}
false
}
fn is_valid_key(key: &str) -> bool {
if !is_first_char_alphabetic(key) {
return false
}
key.chars().all(is_alphanum_or_dash)
}
fn is_valid_locale(locale: &str) -> bool {
!locale.is_empty() && locale.chars().all(|c| {
is_alphanum_or_dash(c) || c == '_' || c == '.' || c == '@'
})
}
fn is_valid_value(value: &str) -> bool {
value.chars().all(|c| {
!(c.is_control() || c as u32 == 0 )
})
}
fn is_valid_action(action: &str) -> bool {
is_first_char_alphabetic(action) && action.chars().all(is_alphanum_or_dash)
}
fn is_valid_group(group: &str) -> bool {
is_first_char_alphabetic(group) && group.chars().all(|c| {
is_ascii(c) && !c.is_control()
})
}
fn is_valid_exec(val: &str) -> bool {
val.chars().all(|c| {
is_ascii(c) && !(c.is_control() || c as u32 == 0)
})
}
pub fn validate_line(line: &Line) -> bool {
match *line {
Line::ExecLine(ref s) => is_valid_exec(s),
Line::KeyValue(ref k, ref v) => is_valid_key(k) && is_valid_value(v),
Line::KeyLocaleValue(ref k, ref l, ref v) => is_valid_key(k) && is_valid_locale(l) && is_valid_value(v),
Line::ActionHeader(ref action) => is_valid_action(action),
Line::GroupHeader(ref group) => is_valid_group(group),
_ => true,
}
}
#[test]
fn test_parser() {
let tests = vec!["###", "", "# hello", "[Desktop Entry]", "[Desktop Action foo]", "Foo=Bar", "Foo[hehe]=Lol"];
for t in tests {
println!("{:?}", LineParser::parse(t));
}
}