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use std::io::BufRead;
pub type Macro = (String, String);
pub type Host = (String, Machine);
#[derive(Debug, Default)]
pub struct Machine {
pub login: String,
pub password: Option<String>,
pub account: Option<String>,
pub port: Option<u16>,
}
#[derive(Debug, Default)]
pub struct Netrc {
pub hosts: Vec<Host>,
pub default: Option<Machine>,
pub macros: Vec<Macro>,
}
#[derive(Debug)]
pub enum Error {
Io(std::io::Error),
Parse(String, usize),
}
pub type Result<A> = std::result::Result<A, Error>;
impl Netrc {
pub fn parse<A: BufRead>(buf: A) -> Result<Netrc> {
let mut netrc: Netrc = Default::default();
let mut lexer = Lexer::new(buf);
let mut current_machine = MachineRef::Nothing;
loop {
match lexer.next_word() {
None => break,
Some(Err(e)) => return Err(e),
Some(Ok(w)) => current_machine = try! {
netrc.parse_entry(&mut lexer, &w, current_machine)
},
}
}
Ok(netrc)
}
fn parse_entry<A: BufRead>(&mut self,
lexer: &mut Lexer<A>,
item: &str,
current_machine: MachineRef) -> Result<MachineRef> {
macro_rules! with_current_machine {
($entry: expr, $machine: ident, $body: block) => {
match self.find_machine(¤t_machine) {
Some($machine) => {
$body;
Ok(current_machine)
}
None =>
Err(Error::Parse(format!("No machine defined for {}",
$entry),
lexer.lnum)),
}
}
}
match item {
"machine" => {
let host_name = try!(lexer.next_word_or_err());
self.hosts.push((host_name, Default::default()));
Ok(MachineRef::Host(self.hosts.len() - 1))
}
"default" => {
self.default = Some(Default::default());
Ok(MachineRef::Default)
}
"login" => with_current_machine!("login", m, {
m.login = try!(lexer.next_word_or_err());
}),
"password" => with_current_machine!("password", m, {
m.password = Some(try!(lexer.next_word_or_err()));
}),
"account" => with_current_machine!("account", m, {
m.account = Some(try!(lexer.next_word_or_err()));
}),
"port" => with_current_machine!("port", m, {
let port = try!(lexer.next_word_or_err());
match port.parse() {
Ok(port) => m.port = Some(port),
Err(_) => {
let msg = format!("Unable to parse port number `{}'",
port);
return Err(Error::Parse(msg, lexer.lnum));
}
}
}),
"macdef" => {
let name = try!(lexer.next_word_or_err());
let cmds = try!(lexer.next_subcommands());
self.macros.push((name, cmds));
Ok(MachineRef::Nothing)
}
_ => Err(Error::Parse(format!("Unknown entry `{}'", item),
lexer.lnum)),
}
}
fn find_machine(&mut self,
reference: &MachineRef) -> Option<&mut Machine> {
match *reference {
MachineRef::Nothing => None,
MachineRef::Default => self.default.as_mut(),
MachineRef::Host(n) => Some(&mut self.hosts[n].1),
}
}
}
enum MachineRef {
Nothing,
Default,
Host(usize),
}
struct Tokens {
buf: String,
cur: usize,
}
impl Tokens {
fn new(buf: String) -> Tokens {
Tokens { buf: buf, cur: 0 }
}
fn empty() -> Tokens {
Tokens::new("".to_string())
}
fn remaining(&self) -> &str {
&self.buf[self.cur..]
}
fn next(&mut self) -> Option<String> {
let mut cur = self.cur;
for _ in self.remaining().chars().take_while(|c| c.is_whitespace()) {
cur += 1;
}
self.cur = cur;
if cur < self.buf.len() {
let mut s = String::new();
for c in self.remaining().chars().take_while(|c| !c.is_whitespace()) {
cur += 1;
s.push(c);
}
self.cur = cur;
Some(s)
} else {
None
}
}
}
struct Lexer<A> {
buf: A,
line: Tokens,
lnum: usize,
}
impl<A: BufRead> Lexer<A> {
fn new(buf: A) -> Lexer<A> {
Lexer { buf: buf, line: Tokens::empty(), lnum: 0 }
}
fn read_line(&mut self, buf: &mut String) -> Result<usize> {
let r = self.buf.read_line(buf).map_err(Error::Io);
for &n in r.iter() {
if n > 0 { self.lnum += 1 };
}
r
}
fn refill(&mut self) -> Result<usize> {
let mut line = String::new();
let n = try!(self.read_line(&mut line));
self.line = Tokens::new(line);
Ok(n)
}
fn next_word(&mut self) -> Option<Result<String>> {
loop {
match self.line.next() {
Some(w) => return Some(Ok(w)),
None => match self.refill() {
Ok(0) => return None,
Ok(_) => (),
Err(e) => return Some(Err(e)),
},
}
}
}
fn next_word_or_err(&mut self) -> Result<String> {
match self.next_word() {
Some(w) => w,
None => Err(Error::Parse("Unexpected end of file".to_string(),
self.lnum)),
}
}
fn next_subcommands(&mut self) -> Result<String> {
let mut cmds = self.line.remaining().to_string();
self.line = Tokens::empty();
loop {
match self.read_line(&mut cmds) {
Ok(0...1) => return Ok(cmds),
Ok(_) => (),
Err(e) => return Err(e),
}
}
}
}
#[cfg(test)]
mod test {
use super::*;
use std::io::BufReader;
#[test]
fn parse_simple() {
let input = "machine example.com
login test
password p@ssw0rd
port 42";
let input = BufReader::new(input.as_bytes());
let netrc = Netrc::parse(input).unwrap();
assert_eq!(netrc.hosts.len(), 1);
assert!(netrc.macros.is_empty());
let (ref name, ref mach) = netrc.hosts[0];
assert_eq!(name, "example.com");
assert_eq!(mach.login, "test");
assert_eq!(mach.password.as_ref().unwrap(), "p@ssw0rd");
assert_eq!(mach.port, Some(42));
assert_eq!(mach.account, None);
}
#[test]
fn parse_macdef() {
let input = "machine host1.com login login1
macdef uploadtest
cd /pub/tests
bin
put filename.tar.gz
quit
machine host2.com login login2";
let input = BufReader::new(input.as_bytes());
let netrc = Netrc::parse(input).unwrap();
assert_eq!(netrc.hosts.len(), 2);
for host in netrc.hosts.iter().enumerate() {
let (i, &(ref name, ref mach)) = host;
let i = i + 1;
assert_eq!(name, &format!("host{}.com", i));
assert_eq!(mach.login, format!("login{}", i));
}
assert_eq!(netrc.macros.len(), 1);
let (ref name, ref cmds) = netrc.macros[0];
assert_eq!(name, "uploadtest");
assert_eq!(cmds.trim(), "cd /pub/tests
bin
put filename.tar.gz
quit");
}
#[test]
fn parse_default() {
let input = "machine example.com login test
default login def";
let input = BufReader::new(input.as_bytes());
let netrc = Netrc::parse(input).unwrap();
assert_eq!(netrc.hosts.len(), 1);
let (ref name, ref mach) = netrc.hosts[0];
assert_eq!(name, "example.com");
assert_eq!(mach.login, "test");
let def_mach = netrc.default.unwrap();
assert_eq!(def_mach.login, "def");
}
#[test]
fn parse_error_unknown_entry() {
let input = "machine foobar.com
foo";
let input = BufReader::new(input.as_bytes());
match Netrc::parse(input).unwrap_err() {
Error::Parse(msg, lnum) => {
assert_eq!(msg, "Unknown entry `foo'");
assert_eq!(lnum, 2);
}
e => panic!("Wrong Error type: {:?}", e),
}
}
#[test]
fn parse_error_unexpected_eof() {
let input = "machine foobar.com
password quux
login";
let input = BufReader::new(input.as_bytes());
match Netrc::parse(input).unwrap_err() {
Error::Parse(msg, lnum) => {
assert_eq!(msg, "Unexpected end of file");
assert_eq!(lnum, 3);
}
e => panic!("Wrong Error type: {:?}", e),
}
}
#[test]
fn parse_error_no_machine() {
let input = "password quux login foo";
let input = BufReader::new(input.as_bytes());
match Netrc::parse(input).unwrap_err() {
Error::Parse(msg, lnum) => {
assert_eq!(msg, "No machine defined for password");
assert_eq!(lnum, 1);
}
e => panic!("Wrong Error type: {:?}", e),
}
}
#[test]
fn parse_error_port() {
let input = "machine foo.com login bar port quux";
let input = BufReader::new(input.as_bytes());
match Netrc::parse(input).unwrap_err() {
Error::Parse(msg, lnum) => {
assert_eq!(msg, "Unable to parse port number `quux'");
assert_eq!(lnum, 1);
}
e => panic!("Wrong Error type: {:?}", e),
}
}
}