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|
/*
Unix SMB/CIFS implementation.
async socket syscalls
Copyright (C) Volker Lendecke 2008
** NOTE! The following LGPL license applies to the async_sock
** library. This does NOT imply that all of Samba is released
** under the LGPL
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "replace.h"
#include "system/network.h"
#include "system/filesys.h"
#include <talloc.h>
#include <tevent.h>
#include "lib/async_req/async_sock.h"
/* Note: lib/util/ is currently GPL */
#include "lib/util/tevent_unix.h"
#include "lib/util/util.h"
#ifndef TALLOC_FREE
#define TALLOC_FREE(ctx) do { talloc_free(ctx); ctx=NULL; } while(0)
#endif
struct async_send_state {
int fd;
const void *buf;
size_t len;
int flags;
ssize_t sent;
};
static void async_send_handler(struct tevent_context *ev,
struct tevent_fd *fde,
uint16_t flags, void *private_data);
struct tevent_req *async_send_send(TALLOC_CTX *mem_ctx,
struct tevent_context *ev,
int fd, const void *buf, size_t len,
int flags)
{
struct tevent_req *result;
struct async_send_state *state;
struct tevent_fd *fde;
result = tevent_req_create(mem_ctx, &state, struct async_send_state);
if (result == NULL) {
return result;
}
state->fd = fd;
state->buf = buf;
state->len = len;
state->flags = flags;
fde = tevent_add_fd(ev, state, fd, TEVENT_FD_WRITE, async_send_handler,
result);
if (fde == NULL) {
TALLOC_FREE(result);
return NULL;
}
return result;
}
static void async_send_handler(struct tevent_context *ev,
struct tevent_fd *fde,
uint16_t flags, void *private_data)
{
struct tevent_req *req = talloc_get_type_abort(
private_data, struct tevent_req);
struct async_send_state *state =
tevent_req_data(req, struct async_send_state);
state->sent = send(state->fd, state->buf, state->len, state->flags);
if ((state->sent == -1) && (errno == EINTR)) {
/* retry */
return;
}
if (state->sent == -1) {
tevent_req_error(req, errno);
return;
}
tevent_req_done(req);
}
ssize_t async_send_recv(struct tevent_req *req, int *perrno)
{
struct async_send_state *state =
tevent_req_data(req, struct async_send_state);
if (tevent_req_is_unix_error(req, perrno)) {
return -1;
}
return state->sent;
}
struct async_recv_state {
int fd;
void *buf;
size_t len;
int flags;
ssize_t received;
};
static void async_recv_handler(struct tevent_context *ev,
struct tevent_fd *fde,
uint16_t flags, void *private_data);
struct tevent_req *async_recv_send(TALLOC_CTX *mem_ctx,
struct tevent_context *ev,
int fd, void *buf, size_t len, int flags)
{
struct tevent_req *result;
struct async_recv_state *state;
struct tevent_fd *fde;
result = tevent_req_create(mem_ctx, &state, struct async_recv_state);
if (result == NULL) {
return result;
}
state->fd = fd;
state->buf = buf;
state->len = len;
state->flags = flags;
fde = tevent_add_fd(ev, state, fd, TEVENT_FD_READ, async_recv_handler,
result);
if (fde == NULL) {
TALLOC_FREE(result);
return NULL;
}
return result;
}
static void async_recv_handler(struct tevent_context *ev,
struct tevent_fd *fde,
uint16_t flags, void *private_data)
{
struct tevent_req *req = talloc_get_type_abort(
private_data, struct tevent_req);
struct async_recv_state *state =
tevent_req_data(req, struct async_recv_state);
state->received = recv(state->fd, state->buf, state->len,
state->flags);
if ((state->received == -1) && (errno == EINTR)) {
/* retry */
return;
}
if (state->received == -1) {
tevent_req_error(req, errno);
return;
}
tevent_req_done(req);
}
ssize_t async_recv_recv(struct tevent_req *req, int *perrno)
{
struct async_recv_state *state =
tevent_req_data(req, struct async_recv_state);
if (tevent_req_is_unix_error(req, perrno)) {
return -1;
}
return state->received;
}
struct async_connect_state {
int fd;
int result;
int sys_errno;
long old_sockflags;
socklen_t address_len;
struct sockaddr_storage address;
};
static void async_connect_connected(struct tevent_context *ev,
struct tevent_fd *fde, uint16_t flags,
void *priv);
/**
* @brief async version of connect(2)
* @param[in] mem_ctx The memory context to hang the result off
* @param[in] ev The event context to work from
* @param[in] fd The socket to recv from
* @param[in] address Where to connect?
* @param[in] address_len Length of *address
* @retval The async request
*
* This function sets the socket into non-blocking state to be able to call
* connect in an async state. This will be reset when the request is finished.
*/
struct tevent_req *async_connect_send(TALLOC_CTX *mem_ctx,
struct tevent_context *ev,
int fd, const struct sockaddr *address,
socklen_t address_len)
{
struct tevent_req *result;
struct async_connect_state *state;
struct tevent_fd *fde;
result = tevent_req_create(
mem_ctx, &state, struct async_connect_state);
if (result == NULL) {
return NULL;
}
/**
* We have to set the socket to nonblocking for async connect(2). Keep
* the old sockflags around.
*/
state->fd = fd;
state->sys_errno = 0;
state->old_sockflags = fcntl(fd, F_GETFL, 0);
if (state->old_sockflags == -1) {
goto post_errno;
}
state->address_len = address_len;
if (address_len > sizeof(state->address)) {
errno = EINVAL;
goto post_errno;
}
memcpy(&state->address, address, address_len);
set_blocking(fd, false);
state->result = connect(fd, address, address_len);
if (state->result == 0) {
tevent_req_done(result);
goto done;
}
/**
* A number of error messages show that something good is progressing
* and that we have to wait for readability.
*
* If none of them are present, bail out.
*/
if (!(errno == EINPROGRESS || errno == EALREADY ||
#ifdef EISCONN
errno == EISCONN ||
#endif
errno == EAGAIN || errno == EINTR)) {
state->sys_errno = errno;
goto post_errno;
}
fde = tevent_add_fd(ev, state, fd, TEVENT_FD_READ | TEVENT_FD_WRITE,
async_connect_connected, result);
if (fde == NULL) {
state->sys_errno = ENOMEM;
goto post_errno;
}
return result;
post_errno:
tevent_req_error(result, state->sys_errno);
done:
fcntl(fd, F_SETFL, state->old_sockflags);
return tevent_req_post(result, ev);
}
/**
* fde event handler for connect(2)
* @param[in] ev The event context that sent us here
* @param[in] fde The file descriptor event associated with the connect
* @param[in] flags Indicate read/writeability of the socket
* @param[in] priv private data, "struct async_req *" in this case
*/
static void async_connect_connected(struct tevent_context *ev,
struct tevent_fd *fde, uint16_t flags,
void *priv)
{
struct tevent_req *req = talloc_get_type_abort(
priv, struct tevent_req);
struct async_connect_state *state =
tevent_req_data(req, struct async_connect_state);
/*
* Stevens, Network Programming says that if there's a
* successful connect, the socket is only writable. Upon an
* error, it's both readable and writable.
*/
if ((flags & (TEVENT_FD_READ|TEVENT_FD_WRITE))
== (TEVENT_FD_READ|TEVENT_FD_WRITE)) {
int ret;
ret = connect(state->fd,
(struct sockaddr *)(void *)&state->address,
state->address_len);
if (ret == 0) {
TALLOC_FREE(fde);
tevent_req_done(req);
return;
}
if (errno == EINPROGRESS) {
/* Try again later, leave the fde around */
return;
}
TALLOC_FREE(fde);
tevent_req_error(req, errno);
return;
}
state->sys_errno = 0;
tevent_req_done(req);
}
int async_connect_recv(struct tevent_req *req, int *perrno)
{
struct async_connect_state *state =
tevent_req_data(req, struct async_connect_state);
int err;
fcntl(state->fd, F_SETFL, state->old_sockflags);
if (tevent_req_is_unix_error(req, &err)) {
*perrno = err;
return -1;
}
if (state->sys_errno == 0) {
return 0;
}
*perrno = state->sys_errno;
return -1;
}
struct writev_state {
struct tevent_context *ev;
int fd;
struct iovec *iov;
int count;
size_t total_size;
uint16_t flags;
};
static void writev_trigger(struct tevent_req *req, void *private_data);
static void writev_handler(struct tevent_context *ev, struct tevent_fd *fde,
uint16_t flags, void *private_data);
struct tevent_req *writev_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev,
struct tevent_queue *queue, int fd,
bool err_on_readability,
struct iovec *iov, int count)
{
struct tevent_req *req;
struct writev_state *state;
req = tevent_req_create(mem_ctx, &state, struct writev_state);
if (req == NULL) {
return NULL;
}
state->ev = ev;
state->fd = fd;
state->total_size = 0;
state->count = count;
state->iov = (struct iovec *)talloc_memdup(
state, iov, sizeof(struct iovec) * count);
if (state->iov == NULL) {
goto fail;
}
state->flags = TEVENT_FD_WRITE;
if (err_on_readability) {
state->flags |= TEVENT_FD_READ;
}
if (queue == NULL) {
struct tevent_fd *fde;
fde = tevent_add_fd(state->ev, state, state->fd,
state->flags, writev_handler, req);
if (tevent_req_nomem(fde, req)) {
return tevent_req_post(req, ev);
}
return req;
}
if (!tevent_queue_add(queue, ev, req, writev_trigger, NULL)) {
goto fail;
}
return req;
fail:
TALLOC_FREE(req);
return NULL;
}
static void writev_trigger(struct tevent_req *req, void *private_data)
{
struct writev_state *state = tevent_req_data(req, struct writev_state);
struct tevent_fd *fde;
fde = tevent_add_fd(state->ev, state, state->fd, state->flags,
writev_handler, req);
if (fde == NULL) {
tevent_req_error(req, ENOMEM);
}
}
static void writev_handler(struct tevent_context *ev, struct tevent_fd *fde,
uint16_t flags, void *private_data)
{
struct tevent_req *req = talloc_get_type_abort(
private_data, struct tevent_req);
struct writev_state *state =
tevent_req_data(req, struct writev_state);
size_t to_write, written;
int i;
to_write = 0;
if ((state->flags & TEVENT_FD_READ) && (flags & TEVENT_FD_READ)) {
tevent_req_error(req, EPIPE);
return;
}
for (i=0; i<state->count; i++) {
to_write += state->iov[i].iov_len;
}
written = writev(state->fd, state->iov, state->count);
if ((written == -1) && (errno = EINTR)) {
/* retry */
return;
}
if (written == -1) {
tevent_req_error(req, errno);
return;
}
if (written == 0) {
tevent_req_error(req, EPIPE);
return;
}
state->total_size += written;
if (written == to_write) {
tevent_req_done(req);
return;
}
/*
* We've written less than we were asked to, drop stuff from
* state->iov.
*/
while (written > 0) {
if (written < state->iov[0].iov_len) {
state->iov[0].iov_base =
(char *)state->iov[0].iov_base + written;
state->iov[0].iov_len -= written;
break;
}
written -= state->iov[0].iov_len;
state->iov += 1;
state->count -= 1;
}
}
ssize_t writev_recv(struct tevent_req *req, int *perrno)
{
struct writev_state *state =
tevent_req_data(req, struct writev_state);
if (tevent_req_is_unix_error(req, perrno)) {
return -1;
}
return state->total_size;
}
struct read_packet_state {
int fd;
uint8_t *buf;
size_t nread;
ssize_t (*more)(uint8_t *buf, size_t buflen, void *private_data);
void *private_data;
};
static void read_packet_handler(struct tevent_context *ev,
struct tevent_fd *fde,
uint16_t flags, void *private_data);
struct tevent_req *read_packet_send(TALLOC_CTX *mem_ctx,
struct tevent_context *ev,
int fd, size_t initial,
ssize_t (*more)(uint8_t *buf,
size_t buflen,
void *private_data),
void *private_data)
{
struct tevent_req *result;
struct read_packet_state *state;
struct tevent_fd *fde;
result = tevent_req_create(mem_ctx, &state, struct read_packet_state);
if (result == NULL) {
return NULL;
}
state->fd = fd;
state->nread = 0;
state->more = more;
state->private_data = private_data;
state->buf = talloc_array(state, uint8_t, initial);
if (state->buf == NULL) {
goto fail;
}
fde = tevent_add_fd(ev, state, fd, TEVENT_FD_READ, read_packet_handler,
result);
if (fde == NULL) {
goto fail;
}
return result;
fail:
TALLOC_FREE(result);
return NULL;
}
static void read_packet_handler(struct tevent_context *ev,
struct tevent_fd *fde,
uint16_t flags, void *private_data)
{
struct tevent_req *req = talloc_get_type_abort(
private_data, struct tevent_req);
struct read_packet_state *state =
tevent_req_data(req, struct read_packet_state);
size_t total = talloc_get_size(state->buf);
ssize_t nread, more;
uint8_t *tmp;
nread = recv(state->fd, state->buf+state->nread, total-state->nread,
0);
if ((nread == -1) && (errno == EINTR)) {
/* retry */
return;
}
if (nread == -1) {
tevent_req_error(req, errno);
return;
}
if (nread == 0) {
tevent_req_error(req, EPIPE);
return;
}
state->nread += nread;
if (state->nread < total) {
/* Come back later */
return;
}
/*
* We got what was initially requested. See if "more" asks for -- more.
*/
if (state->more == NULL) {
/* Nobody to ask, this is a async read_data */
tevent_req_done(req);
return;
}
more = state->more(state->buf, total, state->private_data);
if (more == -1) {
/* We got an invalid packet, tell the caller */
tevent_req_error(req, EIO);
return;
}
if (more == 0) {
/* We're done, full packet received */
tevent_req_done(req);
return;
}
tmp = talloc_realloc(state, state->buf, uint8_t, total+more);
if (tevent_req_nomem(tmp, req)) {
return;
}
state->buf = tmp;
}
ssize_t read_packet_recv(struct tevent_req *req, TALLOC_CTX *mem_ctx,
uint8_t **pbuf, int *perrno)
{
struct read_packet_state *state =
tevent_req_data(req, struct read_packet_state);
if (tevent_req_is_unix_error(req, perrno)) {
return -1;
}
*pbuf = talloc_move(mem_ctx, &state->buf);
return talloc_get_size(*pbuf);
}
|