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|
// Copyright 2013 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use prelude::*;
use ptr::null;
use libc::c_void;
use rt::uv::{Request, NativeHandle, Loop, FsCallback, Buf,
status_to_maybe_uv_error, UvError};
use rt::uv::uvll;
use rt::uv::uvll::*;
use super::super::io::support::PathLike;
use cast::transmute;
use libc;
use libc::{c_int};
use option::{None, Some, Option};
pub struct FsRequest(*uvll::uv_fs_t);
impl Request for FsRequest {}
pub struct RequestData {
complete_cb: Option<FsCallback>
}
impl FsRequest {
pub fn new() -> FsRequest {
let fs_req = unsafe { malloc_req(UV_FS) };
assert!(fs_req.is_not_null());
let fs_req: FsRequest = NativeHandle::from_native_handle(fs_req);
fs_req
}
pub fn open<P: PathLike>(self, loop_: &Loop, path: &P, flags: int, mode: int,
cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_open(loop_.native_handle(),
self.native_handle(), p, flags, mode, complete_cb_ptr)
})
});
}
pub fn open_sync<P: PathLike>(self, loop_: &Loop, path: &P,
flags: int, mode: int) -> Result<c_int, UvError> {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(None)
};
let result = path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_open(loop_.native_handle(),
self.native_handle(), p, flags, mode, complete_cb_ptr)
})
});
self.sync_cleanup(result)
}
pub fn unlink<P: PathLike>(self, loop_: &Loop, path: &P, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_unlink(loop_.native_handle(),
self.native_handle(), p, complete_cb_ptr)
})
});
}
pub fn unlink_sync<P: PathLike>(self, loop_: &Loop, path: &P)
-> Result<c_int, UvError> {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(None)
};
let result = path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_unlink(loop_.native_handle(),
self.native_handle(), p, complete_cb_ptr)
})
});
self.sync_cleanup(result)
}
pub fn stat<P: PathLike>(self, loop_: &Loop, path: &P, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_stat(loop_.native_handle(),
self.native_handle(), p, complete_cb_ptr)
})
});
}
pub fn write(self, loop_: &Loop, fd: c_int, buf: Buf, offset: i64, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
let base_ptr = buf.base as *c_void;
let len = buf.len as uint;
unsafe {
uvll::fs_write(loop_.native_handle(), self.native_handle(),
fd, base_ptr,
len, offset, complete_cb_ptr)
};
}
pub fn write_sync(self, loop_: &Loop, fd: c_int, buf: Buf, offset: i64)
-> Result<c_int, UvError> {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(None)
};
let base_ptr = buf.base as *c_void;
let len = buf.len as uint;
let result = unsafe {
uvll::fs_write(loop_.native_handle(), self.native_handle(),
fd, base_ptr,
len, offset, complete_cb_ptr)
};
self.sync_cleanup(result)
}
pub fn read(self, loop_: &Loop, fd: c_int, buf: Buf, offset: i64, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
let buf_ptr = buf.base as *c_void;
let len = buf.len as uint;
unsafe {
uvll::fs_read(loop_.native_handle(), self.native_handle(),
fd, buf_ptr,
len, offset, complete_cb_ptr)
};
}
pub fn read_sync(self, loop_: &Loop, fd: c_int, buf: Buf, offset: i64)
-> Result<c_int, UvError> {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(None)
};
let buf_ptr = buf.base as *c_void;
let len = buf.len as uint;
let result = unsafe {
uvll::fs_read(loop_.native_handle(), self.native_handle(),
fd, buf_ptr,
len, offset, complete_cb_ptr)
};
self.sync_cleanup(result)
}
pub fn close(self, loop_: &Loop, fd: c_int, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
unsafe {
uvll::fs_close(loop_.native_handle(), self.native_handle(),
fd, complete_cb_ptr)
};
}
pub fn close_sync(self, loop_: &Loop, fd: c_int) -> Result<c_int, UvError> {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(None)
};
let result = unsafe {
uvll::fs_close(loop_.native_handle(), self.native_handle(),
fd, complete_cb_ptr)
};
self.sync_cleanup(result)
}
pub fn mkdir<P: PathLike>(self, loop_: &Loop, path: &P, mode: int, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_mkdir(loop_.native_handle(),
self.native_handle(), p, mode, complete_cb_ptr)
})
});
}
pub fn rmdir<P: PathLike>(self, loop_: &Loop, path: &P, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_rmdir(loop_.native_handle(),
self.native_handle(), p, complete_cb_ptr)
})
});
}
pub fn readdir<P: PathLike>(self, loop_: &Loop, path: &P,
flags: c_int, cb: FsCallback) {
let complete_cb_ptr = {
let mut me = self;
me.req_boilerplate(Some(cb))
};
path.path_as_str(|p| {
p.to_c_str().with_ref(|p| unsafe {
uvll::fs_readdir(loop_.native_handle(),
self.native_handle(), p, flags, complete_cb_ptr)
})
});
}
// accessors/utility funcs
fn sync_cleanup(self, result: c_int)
-> Result<c_int, UvError> {
self.cleanup_and_delete();
match status_to_maybe_uv_error(result as i32) {
Some(err) => Err(err),
None => Ok(result)
}
}
fn req_boilerplate(&mut self, cb: Option<FsCallback>) -> *u8 {
let result = match cb {
Some(_) => {
compl_cb as *u8
},
None => 0 as *u8
};
self.install_req_data(cb);
result
}
pub fn install_req_data(&mut self, cb: Option<FsCallback>) {
let fs_req = (self.native_handle()) as *uvll::uv_write_t;
let data = ~RequestData {
complete_cb: cb
};
unsafe {
let data = transmute::<~RequestData, *c_void>(data);
uvll::set_data_for_req(fs_req, data);
}
}
fn get_req_data<'r>(&'r mut self) -> &'r mut RequestData {
unsafe {
let data = uvll::get_data_for_req((self.native_handle()));
let data = transmute::<&*c_void, &mut ~RequestData>(&data);
&mut **data
}
}
pub fn get_result(&mut self) -> c_int {
unsafe {
uvll::get_result_from_fs_req(self.native_handle())
}
}
pub fn get_loop(&self) -> Loop {
unsafe { Loop{handle:uvll::get_loop_from_fs_req(self.native_handle())} }
}
pub fn get_stat(&self) -> uv_stat_t {
let stat = uv_stat_t::new();
unsafe { uvll::populate_stat(self.native_handle(), &stat); }
stat
}
pub fn get_ptr(&self) -> *libc::c_void {
unsafe {
uvll::get_ptr_from_fs_req(self.native_handle())
}
}
pub fn get_paths(&mut self) -> ~[~str] {
use str;
let ptr = self.get_ptr();
match self.get_result() {
n if (n <= 0) => {
~[]
},
n => {
let n_len = n as uint;
// we pass in the len that uv tells us is there
// for the entries and we don't continue past that..
// it appears that sometimes the multistring isn't
// correctly delimited and we stray into garbage memory?
// in any case, passing Some(n_len) fixes it and ensures
// good results
let raw_path_strs = unsafe {
str::raw::from_c_multistring(ptr as *libc::c_char, Some(n_len)) };
let raw_len = raw_path_strs.len();
assert_eq!(raw_len, n_len);
raw_path_strs
}
}
}
fn cleanup_and_delete(self) {
unsafe {
let data = uvll::get_data_for_req(self.native_handle());
let _data = transmute::<*c_void, ~RequestData>(data);
uvll::set_data_for_req(self.native_handle(), null::<()>());
uvll::fs_req_cleanup(self.native_handle());
free_req(self.native_handle() as *c_void)
}
}
}
impl NativeHandle<*uvll::uv_fs_t> for FsRequest {
fn from_native_handle(handle: *uvll:: uv_fs_t) -> FsRequest {
FsRequest(handle)
}
fn native_handle(&self) -> *uvll::uv_fs_t {
match self { &FsRequest(ptr) => ptr }
}
}
fn sync_cleanup(result: int)
-> Result<int, UvError> {
match status_to_maybe_uv_error(result as i32) {
Some(err) => Err(err),
None => Ok(result)
}
}
extern fn compl_cb(req: *uv_fs_t) {
let mut req: FsRequest = NativeHandle::from_native_handle(req);
// pull the user cb out of the req data
let cb = {
let data = req.get_req_data();
assert!(data.complete_cb.is_some());
// option dance, option dance. oooooh yeah.
data.complete_cb.take_unwrap()
};
// in uv_fs_open calls, the result will be the fd in the
// case of success, otherwise it's -1 indicating an error
let result = req.get_result();
let status = status_to_maybe_uv_error(result);
// we have a req and status, call the user cb..
// only giving the user a ref to the FsRequest, as we
// have to clean it up, afterwards (and they aren't really
// reusable, anyways
cb(&mut req, status);
// clean up the req (and its data!) after calling the user cb
req.cleanup_and_delete();
}
#[cfg(test)]
mod test {
use super::*;
//use rt::test::*;
use libc::{STDOUT_FILENO};
use vec;
use str;
use unstable::run_in_bare_thread;
use path::Path;
use rt::uv::{Loop, Buf, slice_to_uv_buf};
use libc::{c_int, O_CREAT, O_RDWR, O_RDONLY,
S_IWUSR, S_IRUSR};
#[test]
fn file_test_full_simple() {
do run_in_bare_thread {
let mut loop_ = Loop::new();
let create_flags = O_RDWR | O_CREAT;
let read_flags = O_RDONLY;
// 0644 BZZT! WRONG! 0600! See below.
let mode = S_IWUSR |S_IRUSR;
// these aren't defined in std::libc :(
//map_mode(S_IRGRP) |
//map_mode(S_IROTH);
let path_str = "./tmp/file_full_simple.txt";
let write_val = "hello".as_bytes().to_owned();
let write_buf = slice_to_uv_buf(write_val);
let write_buf_ptr: *Buf = &write_buf;
let read_buf_len = 1028;
let read_mem = vec::from_elem(read_buf_len, 0u8);
let read_buf = slice_to_uv_buf(read_mem);
let read_buf_ptr: *Buf = &read_buf;
let p = Path(path_str);
let open_req = FsRequest::new();
do open_req.open(&loop_, &p, create_flags as int, mode as int)
|req, uverr| {
assert!(uverr.is_none());
let fd = req.get_result();
let buf = unsafe { *write_buf_ptr };
let write_req = FsRequest::new();
do write_req.write(&req.get_loop(), fd, buf, -1) |req, uverr| {
let close_req = FsRequest::new();
do close_req.close(&req.get_loop(), fd) |req, _| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let open_req = FsRequest::new();
do open_req.open(&loop_, &Path(path_str), read_flags as int,0)
|req, uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let fd = req.get_result();
let read_buf = unsafe { *read_buf_ptr };
let read_req = FsRequest::new();
do read_req.read(&loop_, fd, read_buf, 0) |req, uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
// we know nread >=0 because uverr is none..
let nread = req.get_result() as uint;
// nread == 0 would be EOF
if nread > 0 {
let read_str = unsafe {
let read_buf = *read_buf_ptr;
str::from_utf8(
vec::from_buf(
read_buf.base, nread))
};
assert!(read_str == ~"hello");
let close_req = FsRequest::new();
do close_req.close(&loop_, fd) |req,uverr| {
assert!(uverr.is_none());
let loop_ = &req.get_loop();
let unlink_req = FsRequest::new();
do unlink_req.unlink(loop_, &Path(path_str))
|_,uverr| {
assert!(uverr.is_none());
};
};
};
};
};
};
};
};
loop_.run();
loop_.close();
}
}
#[test]
fn file_test_full_simple_sync() {
do run_in_bare_thread {
// setup
let mut loop_ = Loop::new();
let create_flags = O_RDWR |
O_CREAT;
let read_flags = O_RDONLY;
// 0644
let mode = S_IWUSR |
S_IRUSR;
//S_IRGRP |
//S_IROTH;
let path_str = "./tmp/file_full_simple_sync.txt";
let write_val = "hello".as_bytes().to_owned();
let write_buf = slice_to_uv_buf(write_val);
// open/create
let open_req = FsRequest::new();
let result = open_req.open_sync(&loop_, &Path(path_str),
create_flags as int, mode as int);
assert!(result.is_ok());
let fd = result.unwrap();
// write
let write_req = FsRequest::new();
let result = write_req.write_sync(&loop_, fd, write_buf, -1);
assert!(result.is_ok());
// close
let close_req = FsRequest::new();
let result = close_req.close_sync(&loop_, fd);
assert!(result.is_ok());
// re-open
let open_req = FsRequest::new();
let result = open_req.open_sync(&loop_, &Path(path_str),
read_flags as int,0);
assert!(result.is_ok());
let len = 1028;
let fd = result.unwrap();
// read
let read_mem: ~[u8] = vec::from_elem(len, 0u8);
let buf = slice_to_uv_buf(read_mem);
let read_req = FsRequest::new();
let result = read_req.read_sync(&loop_, fd, buf, 0);
assert!(result.is_ok());
let nread = result.unwrap();
// nread == 0 would be EOF.. we know it's >= zero because otherwise
// the above assert would fail
if nread > 0 {
let read_str = str::from_utf8(
read_mem.slice(0, nread as uint));
assert!(read_str == ~"hello");
// close
let close_req = FsRequest::new();
let result = close_req.close_sync(&loop_, fd);
assert!(result.is_ok());
// unlink
let unlink_req = FsRequest::new();
let result = unlink_req.unlink_sync(&loop_, &Path(path_str));
assert!(result.is_ok());
} else { fail!("nread was 0.. wudn't expectin' that."); }
loop_.close();
}
}
fn naive_print(loop_: &Loop, input: &str) {
let write_val = input.as_bytes();
let write_buf = slice_to_uv_buf(write_val);
let write_req = FsRequest::new();
write_req.write_sync(loop_, STDOUT_FILENO, write_buf, -1);
}
#[test]
fn file_test_write_to_stdout() {
do run_in_bare_thread {
let mut loop_ = Loop::new();
naive_print(&loop_, "zanzibar!\n");
loop_.run();
loop_.close();
};
}
#[test]
fn file_test_stat_simple() {
do run_in_bare_thread {
let mut loop_ = Loop::new();
let path = "./tmp/file_test_stat_simple.txt";
let create_flags = O_RDWR |
O_CREAT;
let mode = S_IWUSR |
S_IRUSR;
let write_val = "hello".as_bytes().to_owned();
let write_buf = slice_to_uv_buf(write_val);
let write_buf_ptr: *Buf = &write_buf;
let open_req = FsRequest::new();
do open_req.open(&loop_, &path, create_flags as int, mode as int)
|req, uverr| {
assert!(uverr.is_none());
let fd = req.get_result();
let buf = unsafe { *write_buf_ptr };
let write_req = FsRequest::new();
do write_req.write(&req.get_loop(), fd, buf, 0) |req, uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let stat_req = FsRequest::new();
do stat_req.stat(&loop_, &path) |req, uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let stat = req.get_stat();
let sz: uint = stat.st_size as uint;
assert!(sz > 0);
let close_req = FsRequest::new();
do close_req.close(&loop_, fd) |req, uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let unlink_req = FsRequest::new();
do unlink_req.unlink(&loop_, &path) |req,uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let stat_req = FsRequest::new();
do stat_req.stat(&loop_, &path) |_, uverr| {
// should cause an error because the
// file doesn't exist anymore
assert!(uverr.is_some());
};
};
};
};
};
};
loop_.run();
loop_.close();
}
}
#[test]
fn file_test_mk_rm_dir() {
do run_in_bare_thread {
let mut loop_ = Loop::new();
let path = "./tmp/mk_rm_dir";
let mode = S_IWUSR |
S_IRUSR;
let mkdir_req = FsRequest::new();
do mkdir_req.mkdir(&loop_, &path, mode as int) |req,uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let stat_req = FsRequest::new();
do stat_req.stat(&loop_, &path) |req, uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let stat = req.get_stat();
naive_print(&loop_, fmt!("%?", stat));
assert!(stat.is_dir());
let rmdir_req = FsRequest::new();
do rmdir_req.rmdir(&loop_, &path) |req,uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let stat_req = FsRequest::new();
do stat_req.stat(&loop_, &path) |req, uverr| {
assert!(uverr.is_some());
}
}
}
}
loop_.run();
loop_.close();
}
}
#[test]
fn file_test_mkdir_chokes_on_double_create() {
do run_in_bare_thread {
let mut loop_ = Loop::new();
let path = "./tmp/double_create_dir";
let mode = S_IWUSR |
S_IRUSR;
let mkdir_req = FsRequest::new();
do mkdir_req.mkdir(&loop_, &path, mode as int) |req,uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
let mkdir_req = FsRequest::new();
do mkdir_req.mkdir(&loop_, &path, mode as int) |req,uverr| {
assert!(uverr.is_some());
let loop_ = req.get_loop();
let stat = req.get_stat();
let rmdir_req = FsRequest::new();
do rmdir_req.rmdir(&loop_, &path) |req,uverr| {
assert!(uverr.is_none());
let loop_ = req.get_loop();
}
}
}
loop_.run();
loop_.close();
}
}
#[test]
fn file_test_rmdir_chokes_on_nonexistant_path() {
do run_in_bare_thread {
let mut loop_ = Loop::new();
let path = "./tmp/never_existed_dir";
let rmdir_req = FsRequest::new();
do rmdir_req.rmdir(&loop_, &path) |req,uverr| {
assert!(uverr.is_some());
}
loop_.run();
loop_.close();
}
}
}
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