// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Types/fns concerning Internet Protocol (IP), versions 4 & 6 #[allow(missing_doc)]; use core::prelude::*; use core::libc; use core::comm::{stream, SharedChan}; use core::ptr; use core::result; use core::str; use iotask = uv::iotask::IoTask; use interact = uv::iotask::interact; use sockaddr_in = super::uv_ll::sockaddr_in; use sockaddr_in6 = super::uv_ll::sockaddr_in6; use addrinfo = super::uv_ll::addrinfo; use uv_getaddrinfo_t = super::uv_ll::uv_getaddrinfo_t; use uv_ip4_name = super::uv_ll::ip4_name; use uv_ip4_port = super::uv_ll::ip4_port; use uv_ip6_name = super::uv_ll::ip6_name; use uv_ip6_port = super::uv_ll::ip6_port; use uv_getaddrinfo = super::uv_ll::getaddrinfo; use uv_freeaddrinfo = super::uv_ll::freeaddrinfo; use create_uv_getaddrinfo_t = super::uv_ll::getaddrinfo_t; use set_data_for_req = super::uv_ll::set_data_for_req; use get_data_for_req = super::uv_ll::get_data_for_req; use ll = super::uv_ll; /// An IP address pub enum IpAddr { /// An IPv4 address Ipv4(sockaddr_in), Ipv6(sockaddr_in6) } /// Human-friendly feedback on why a parse_addr attempt failed pub struct ParseAddrErr { err_msg: ~str, } /** * Convert a `IpAddr` to a str * * # Arguments * * * ip - a `std::net::ip::IpAddr` */ pub fn format_addr(ip: &IpAddr) -> ~str { match *ip { Ipv4(ref addr) => unsafe { let result = uv_ip4_name(addr); if result == ~"" { fail!("failed to convert inner sockaddr_in address to str") } result }, Ipv6(ref addr) => unsafe { let result = uv_ip6_name(addr); if result == ~"" { fail!("failed to convert inner sockaddr_in address to str") } result } } } /** * Get the associated port * * # Arguments * * ip - a `std::net::ip::IpAddr` */ pub fn get_port(ip: &IpAddr) -> uint { match *ip { Ipv4(ref addr) => unsafe { uv_ip4_port(addr) }, Ipv6(ref addr) => unsafe { uv_ip6_port(addr) } } } /// Represents errors returned from `net::ip::get_addr()` enum IpGetAddrErr { GetAddrUnknownError } /** * Attempts name resolution on the provided `node` string * * # Arguments * * * `node` - a string representing some host address * * `iotask` - a `uv::iotask` used to interact with the underlying event loop * * # Returns * * A `result<~[ip_addr], ip_get_addr_err>` instance that will contain * a vector of `ip_addr` results, in the case of success, or an error * object in the case of failure */ pub fn get_addr(node: &str, iotask: &iotask) -> result::Result<~[IpAddr], IpGetAddrErr> { let (output_po, output_ch) = stream(); let mut output_ch = Some(SharedChan::new(output_ch)); do str::as_buf(node) |node_ptr, len| { let output_ch = output_ch.swap_unwrap(); debug!("slice len %?", len); let handle = create_uv_getaddrinfo_t(); let handle_ptr: *uv_getaddrinfo_t = &handle; let handle_data = GetAddrData { output_ch: output_ch.clone() }; let handle_data_ptr: *GetAddrData = &handle_data; do interact(iotask) |loop_ptr| { unsafe { let result = uv_getaddrinfo( loop_ptr, handle_ptr, get_addr_cb, node_ptr, ptr::null(), ptr::null()); match result { 0i32 => { set_data_for_req(handle_ptr, handle_data_ptr); } _ => { output_ch.send(result::Err(GetAddrUnknownError)); } } } }; output_po.recv() } } pub mod v4 { use core::prelude::*; use net::ip::{IpAddr, Ipv4, ParseAddrErr}; use uv::ll; use uv_ip4_addr = uv::ll::ip4_addr; use uv_ip4_name = uv::ll::ip4_name; use core::cast::transmute; use core::result; use core::str; use core::uint; use core::vec; /** * Convert a str to `ip_addr` * * # Failure * * Fails if the string is not a valid IPv4 address * * # Arguments * * * ip - a string of the format `x.x.x.x` * * # Returns * * * an `ip_addr` of the `ipv4` variant */ pub fn parse_addr(ip: &str) -> IpAddr { match try_parse_addr(ip) { result::Ok(addr) => addr, result::Err(ref err_data) => fail!(copy err_data.err_msg) } } // the simple, old style numberic representation of // ipv4 pub struct Ipv4Rep { a: u8, b: u8, c: u8, d: u8 } pub trait AsUnsafeU32 { unsafe fn as_u32(&self) -> u32; } impl AsUnsafeU32 for Ipv4Rep { // this is pretty dastardly, i know unsafe fn as_u32(&self) -> u32 { let this: &mut u32 = transmute(self); *this } } pub fn parse_to_ipv4_rep(ip: &str) -> result::Result { let mut parts = ~[]; for str::each_split_char(ip, '.') |s| { parts.push(s.to_owned()) } let parts = vec::map(parts, |s| { match uint::from_str(*s) { Some(n) if n <= 255 => n, _ => 256 } }); if parts.len() != 4 { Err(fmt!("'%s' doesn't have 4 parts", ip)) } else if parts.contains(&256) { Err(fmt!("invalid octal in addr '%s'", ip)) } else { Ok(Ipv4Rep { a: parts[0] as u8, b: parts[1] as u8, c: parts[2] as u8, d: parts[3] as u8, }) } } pub fn try_parse_addr(ip: &str) -> result::Result { unsafe { let INADDR_NONE = ll::get_INADDR_NONE(); let ip_rep_result = parse_to_ipv4_rep(ip); if result::is_err(&ip_rep_result) { let err_str = result::get_err(&ip_rep_result); return result::Err(ParseAddrErr { err_msg: err_str }) } // ipv4_rep.as_u32 is unsafe :/ let input_is_inaddr_none = result::get(&ip_rep_result).as_u32() == INADDR_NONE; let new_addr = uv_ip4_addr(ip, 22); let reformatted_name = uv_ip4_name(&new_addr); debug!("try_parse_addr: input ip: %s reparsed ip: %s", ip, reformatted_name); let ref_ip_rep_result = parse_to_ipv4_rep(reformatted_name); if result::is_err(&ref_ip_rep_result) { let err_str = result::get_err(&ref_ip_rep_result); return Err(ParseAddrErr { err_msg: err_str }) } if result::get(&ref_ip_rep_result).as_u32() == INADDR_NONE && !input_is_inaddr_none { Err(ParseAddrErr { err_msg: ~"uv_ip4_name produced invalid result.", }) } else { Ok(Ipv4(copy(new_addr))) } } } } pub mod v6 { use core::prelude::*; use net::ip::{IpAddr, Ipv6, ParseAddrErr}; use uv_ip6_addr = uv::ll::ip6_addr; use uv_ip6_name = uv::ll::ip6_name; use core::result; /** * Convert a str to `ip_addr` * * # Failure * * Fails if the string is not a valid IPv6 address * * # Arguments * * * ip - an ipv6 string. See RFC2460 for spec. * * # Returns * * * an `ip_addr` of the `ipv6` variant */ pub fn parse_addr(ip: &str) -> IpAddr { match try_parse_addr(ip) { result::Ok(addr) => addr, result::Err(copy err_data) => fail!(copy err_data.err_msg) } } pub fn try_parse_addr(ip: &str) -> result::Result { unsafe { // need to figure out how to establish a parse failure.. let new_addr = uv_ip6_addr(ip, 22); let reparsed_name = uv_ip6_name(&new_addr); debug!("v6::try_parse_addr ip: '%s' reparsed '%s'", ip, reparsed_name); // '::' appears to be uv_ip6_name() returns for bogus // parses.. if ip != &"::" && reparsed_name == ~"::" { Err(ParseAddrErr { err_msg:fmt!("failed to parse '%s'", ip) }) } else { Ok(Ipv6(new_addr)) } } } } struct GetAddrData { output_ch: SharedChan> } extern fn get_addr_cb(handle: *uv_getaddrinfo_t, status: libc::c_int, res: *addrinfo) { unsafe { debug!("in get_addr_cb"); let handle_data = get_data_for_req(handle) as *GetAddrData; let output_ch = (*handle_data).output_ch.clone(); if status == 0i32 { if res != (ptr::null::()) { let mut out_vec = ~[]; debug!("initial addrinfo: %?", res); let mut curr_addr = res; loop { let new_ip_addr = if ll::is_ipv4_addrinfo(curr_addr) { Ipv4(copy(( *ll::addrinfo_as_sockaddr_in(curr_addr)))) } else if ll::is_ipv6_addrinfo(curr_addr) { Ipv6(copy(( *ll::addrinfo_as_sockaddr_in6(curr_addr)))) } else { debug!("curr_addr is not of family AF_INET or \ AF_INET6. Error."); output_ch.send( result::Err(GetAddrUnknownError)); break; }; out_vec.push(new_ip_addr); let next_addr = ll::get_next_addrinfo(curr_addr); if next_addr == ptr::null::() as *addrinfo { debug!("null next_addr encountered. no mas"); break; } else { curr_addr = next_addr; debug!("next_addr addrinfo: %?", curr_addr); } } debug!("successful process addrinfo result, len: %?", out_vec.len()); output_ch.send(result::Ok(out_vec)); } else { debug!("addrinfo pointer is NULL"); output_ch.send( result::Err(GetAddrUnknownError)); } } else { debug!("status != 0 error in get_addr_cb"); output_ch.send( result::Err(GetAddrUnknownError)); } if res != (ptr::null::()) { uv_freeaddrinfo(res); } debug!("leaving get_addr_cb"); } } #[cfg(test)] mod test { use net_ip::*; use net_ip::v4; use net_ip::v6; use uv; use core::result; #[test] fn test_ip_ipv4_parse_and_format_ip() { let localhost_str = ~"127.0.0.1"; assert!(format_addr(&v4::parse_addr(localhost_str)) == localhost_str) } #[test] fn test_ip_ipv6_parse_and_format_ip() { let localhost_str = ~"::1"; let format_result = format_addr(&v6::parse_addr(localhost_str)); debug!("results: expected: '%s' actual: '%s'", localhost_str, format_result); assert_eq!(format_result, localhost_str); } #[test] fn test_ip_ipv4_bad_parse() { match v4::try_parse_addr("b4df00d") { result::Err(ref err_info) => { debug!("got error as expected %?", err_info); assert!(true); } result::Ok(ref addr) => { fail!("Expected failure, but got addr %?", addr); } } } #[test] #[ignore(target_os="win32")] fn test_ip_ipv6_bad_parse() { match v6::try_parse_addr("::,~2234k;") { result::Err(ref err_info) => { debug!("got error as expected %?", err_info); assert!(true); } result::Ok(ref addr) => { fail!("Expected failure, but got addr %?", addr); } } } #[test] #[ignore(reason = "valgrind says it's leaky")] fn test_ip_get_addr() { let localhost_name = ~"localhost"; let iotask = &uv::global_loop::get(); let ga_result = get_addr(localhost_name, iotask); if result::is_err(&ga_result) { fail!("got err result from net::ip::get_addr();") } // note really sure how to reliably test/assert // this.. mostly just wanting to see it work, atm. let results = result::unwrap(ga_result); debug!("test_get_addr: Number of results for %s: %?", localhost_name, results.len()); for results.each |r| { let ipv_prefix = match *r { Ipv4(_) => ~"IPv4", Ipv6(_) => ~"IPv6" }; debug!("test_get_addr: result %s: '%s'", ipv_prefix, format_addr(r)); } // at least one result.. this is going to vary from system // to system, based on stuff like the contents of /etc/hosts assert!(!results.is_empty()); } #[test] #[ignore(reason = "valgrind says it's leaky")] fn test_ip_get_addr_bad_input() { let localhost_name = ~"sjkl234m,./sdf"; let iotask = &uv::global_loop::get(); let ga_result = get_addr(localhost_name, iotask); assert!(result::is_err(&ga_result)); } }