/* Unix SMB/CIFS implementation. async socket syscalls Copyright (C) Volker Lendecke 2008 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "includes.h" /** * Discriminator for async_syscall_state */ enum async_syscall_type { ASYNC_SYSCALL_SEND, ASYNC_SYSCALL_SENDALL, ASYNC_SYSCALL_RECV, ASYNC_SYSCALL_RECVALL, ASYNC_SYSCALL_CONNECT }; /** * Holder for syscall arguments and the result */ struct async_syscall_state { enum async_syscall_type syscall_type; struct fd_event *fde; union { struct param_send { int fd; const void *buffer; size_t length; int flags; } param_send; struct param_sendall { int fd; const void *buffer; size_t length; int flags; size_t sent; } param_sendall; struct param_recv { int fd; void *buffer; size_t length; int flags; } param_recv; struct param_recvall { int fd; void *buffer; size_t length; int flags; size_t received; } param_recvall; struct param_connect { /** * connect needs to be done on a nonblocking * socket. Keep the old flags around */ long old_sockflags; int fd; const struct sockaddr *address; socklen_t address_len; } param_connect; } param; union { ssize_t result_ssize_t; size_t result_size_t; int result_int; } result; int sys_errno; }; /** * @brief Create a new async syscall req * @param[in] mem_ctx The memory context to hang the result off * @param[in] ev The event context to work from * @param[in] type Which syscall will this be * @param[in] pstate Where to put the newly created private_data state * @retval The new request * * This is a helper function to prepare a new struct async_req with an * associated struct async_syscall_state. The async_syscall_state will be put * into the async_req as private_data. */ static struct async_req *async_syscall_new(TALLOC_CTX *mem_ctx, struct event_context *ev, enum async_syscall_type type, struct async_syscall_state **pstate) { struct async_req *result; struct async_syscall_state *state; if (!async_req_setup(mem_ctx, &result, &state, struct async_syscall_state)) { return NULL; } state->syscall_type = type; result->private_data = state; *pstate = state; return result; } /** * @brief Create a new async syscall req based on a fd * @param[in] mem_ctx The memory context to hang the result off * @param[in] ev The event context to work from * @param[in] type Which syscall will this be * @param[in] fd The file descriptor we work on * @param[in] fde_flags EVENT_FD_READ/WRITE -- what are we interested in? * @param[in] fde_cb The callback function for the file descriptor event * @param[in] pstate Where to put the newly created private_data state * @retval The new request * * This is a helper function to prepare a new struct async_req with an * associated struct async_syscall_state and an associated file descriptor * event. */ static struct async_req *async_fde_syscall_new( TALLOC_CTX *mem_ctx, struct event_context *ev, enum async_syscall_type type, int fd, uint16_t fde_flags, void (*fde_cb)(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *priv), struct async_syscall_state **pstate) { struct async_req *result; struct async_syscall_state *state; result = async_syscall_new(mem_ctx, ev, type, &state); if (result == NULL) { return NULL; } state->fde = event_add_fd(ev, state, fd, fde_flags, fde_cb, result); if (state->fde == NULL) { TALLOC_FREE(result); return NULL; } *pstate = state; return result; } /** * Retrieve a ssize_t typed result from an async syscall * @param[in] req The syscall that has just finished * @param[out] perrno Where to put the syscall's errno * @retval The return value from the asynchronously called syscall */ ssize_t async_syscall_result_ssize_t(struct async_req *req, int *perrno) { struct async_syscall_state *state = talloc_get_type_abort( req->private_data, struct async_syscall_state); *perrno = state->sys_errno; return state->result.result_ssize_t; } /** * Retrieve a size_t typed result from an async syscall * @param[in] req The syscall that has just finished * @param[out] perrno Where to put the syscall's errno * @retval The return value from the asynchronously called syscall */ size_t async_syscall_result_size_t(struct async_req *req, int *perrno) { struct async_syscall_state *state = talloc_get_type_abort( req->private_data, struct async_syscall_state); *perrno = state->sys_errno; return state->result.result_size_t; } /** * Retrieve a int typed result from an async syscall * @param[in] req The syscall that has just finished * @param[out] perrno Where to put the syscall's errno * @retval The return value from the asynchronously called syscall */ int async_syscall_result_int(struct async_req *req, int *perrno) { struct async_syscall_state *state = talloc_get_type_abort( req->private_data, struct async_syscall_state); *perrno = state->sys_errno; return state->result.result_int; } /** * fde event handler for the "send" syscall * @param[in] ev The event context that sent us here * @param[in] fde The file descriptor event associated with the send * @param[in] flags Can only be EVENT_FD_WRITE here * @param[in] priv private data, "struct async_req *" in this case */ static void async_send_callback(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *priv) { struct async_req *req = talloc_get_type_abort( priv, struct async_req); struct async_syscall_state *state = talloc_get_type_abort( req->private_data, struct async_syscall_state); struct param_send *p = &state->param.param_send; if (state->syscall_type != ASYNC_SYSCALL_SEND) { async_req_error(req, NT_STATUS_INTERNAL_ERROR); return; } state->result.result_ssize_t = send(p->fd, p->buffer, p->length, p->flags); state->sys_errno = errno; TALLOC_FREE(state->fde); async_req_done(req); } /** * Async version of send(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 send to * @param[in] buffer The buffer to send * @param[in] length How many bytes to send * @param[in] flags flags passed to send(2) * * This function is a direct counterpart of send(2) */ struct async_req *async_send(TALLOC_CTX *mem_ctx, struct event_context *ev, int fd, const void *buffer, size_t length, int flags) { struct async_req *result; struct async_syscall_state *state; result = async_fde_syscall_new( mem_ctx, ev, ASYNC_SYSCALL_SEND, fd, EVENT_FD_WRITE, async_send_callback, &state); if (result == NULL) { return NULL; } state->param.param_send.fd = fd; state->param.param_send.buffer = buffer; state->param.param_send.length = length; state->param.param_send.flags = flags; return result; } /** * fde event handler for the "sendall" syscall group * @param[in] ev The event context that sent us here * @param[in] fde The file descriptor event associated with the send * @param[in] flags Can only be EVENT_FD_WRITE here * @param[in] priv private data, "struct async_req *" in this case */ static void async_sendall_callback(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *priv) { struct async_req *req = talloc_get_type_abort( priv, struct async_req); struct async_syscall_state *state = talloc_get_type_abort( req->private_data, struct async_syscall_state); struct param_sendall *p = &state->param.param_sendall; if (state->syscall_type != ASYNC_SYSCALL_SENDALL) { async_req_error(req, NT_STATUS_INTERNAL_ERROR); return; } state->result.result_ssize_t = send(p->fd, (char *)p->buffer + p->sent, p->length - p->sent, p->flags); state->sys_errno = errno; if (state->result.result_ssize_t == -1) { async_req_error(req, map_nt_error_from_unix(state->sys_errno)); return; } if (state->result.result_ssize_t == 0) { async_req_error(req, NT_STATUS_END_OF_FILE); return; } p->sent += state->result.result_ssize_t; if (p->sent > p->length) { async_req_error(req, NT_STATUS_INTERNAL_ERROR); return; } if (p->sent == p->length) { TALLOC_FREE(state->fde); async_req_done(req); } } /** * @brief Send all bytes to a socket * @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 send to * @param[in] buffer The buffer to send * @param[in] length How many bytes to send * @param[in] flags flags passed to send(2) * * async_sendall calls send(2) as long as it is necessary to send all of the * "length" bytes */ struct async_req *sendall_send(TALLOC_CTX *mem_ctx, struct event_context *ev, int fd, const void *buffer, size_t length, int flags) { struct async_req *result; struct async_syscall_state *state; result = async_fde_syscall_new( mem_ctx, ev, ASYNC_SYSCALL_SENDALL, fd, EVENT_FD_WRITE, async_sendall_callback, &state); if (result == NULL) { return NULL; } state->param.param_sendall.fd = fd; state->param.param_sendall.buffer = buffer; state->param.param_sendall.length = length; state->param.param_sendall.flags = flags; state->param.param_sendall.sent = 0; return result; } NTSTATUS sendall_recv(struct async_req *req) { return async_req_simple_recv(req); } /** * fde event handler for the "recv" syscall * @param[in] ev The event context that sent us here * @param[in] fde The file descriptor event associated with the recv * @param[in] flags Can only be EVENT_FD_READ here * @param[in] priv private data, "struct async_req *" in this case */ static void async_recv_callback(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *priv) { struct async_req *req = talloc_get_type_abort( priv, struct async_req); struct async_syscall_state *state = talloc_get_type_abort( req->private_data, struct async_syscall_state); struct param_recv *p = &state->param.param_recv; if (state->syscall_type != ASYNC_SYSCALL_RECV) { async_req_error(req, NT_STATUS_INTERNAL_ERROR); return; } state->result.result_ssize_t = recv(p->fd, p->buffer, p->length, p->flags); state->sys_errno = errno; TALLOC_FREE(state->fde); async_req_done(req); } /** * Async version of recv(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] buffer The buffer to recv into * @param[in] length How many bytes to recv * @param[in] flags flags passed to recv(2) * * This function is a direct counterpart of recv(2) */ struct async_req *async_recv(TALLOC_CTX *mem_ctx, struct event_context *ev, int fd, void *buffer, size_t length, int flags) { struct async_req *result; struct async_syscall_state *state; result = async_fde_syscall_new( mem_ctx, ev, ASYNC_SYSCALL_RECV, fd, EVENT_FD_READ, async_recv_callback, &state); if (result == NULL) { return NULL; } state->param.param_recv.fd = fd; state->param.param_recv.buffer = buffer; state->param.param_recv.length = length; state->param.param_recv.flags = flags; return result; } /** * fde event handler for the "recvall" syscall group * @param[in] ev The event context that sent us here * @param[in] fde The file descriptor event associated with the recv * @param[in] flags Can only be EVENT_FD_READ here * @param[in] priv private data, "struct async_req *" in this case */ static void async_recvall_callback(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *priv) { struct async_req *req = talloc_get_type_abort( priv, struct async_req); struct async_syscall_state *state = talloc_get_type_abort( req->private_data, struct async_syscall_state); struct param_recvall *p = &state->param.param_recvall; if (state->syscall_type != ASYNC_SYSCALL_RECVALL) { async_req_error(req, NT_STATUS_INTERNAL_ERROR); return; } state->result.result_ssize_t = recv(p->fd, (char *)p->buffer + p->received, p->length - p->received, p->flags); state->sys_errno = errno; if (state->result.result_ssize_t == -1) { async_req_error(req, map_nt_error_from_unix(state->sys_errno)); return; } if (state->result.result_ssize_t == 0) { async_req_error(req, NT_STATUS_END_OF_FILE); return; } p->received += state->result.result_ssize_t; if (p->received > p->length) { async_req_error(req, NT_STATUS_INTERNAL_ERROR); return; } if (p->received == p->length) { TALLOC_FREE(state->fde); async_req_done(req); } } /** * Receive a specified number of bytes from a socket * @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] buffer The buffer to recv into * @param[in] length How many bytes to recv * @param[in] flags flags passed to recv(2) * * async_recvall will call recv(2) until "length" bytes are received */ struct async_req *recvall_send(TALLOC_CTX *mem_ctx, struct event_context *ev, int fd, void *buffer, size_t length, int flags) { struct async_req *result; struct async_syscall_state *state; result = async_fde_syscall_new( mem_ctx, ev, ASYNC_SYSCALL_RECVALL, fd, EVENT_FD_READ, async_recvall_callback, &state); if (result == NULL) { return NULL; } state->param.param_recvall.fd = fd; state->param.param_recvall.buffer = buffer; state->param.param_recvall.length = length; state->param.param_recvall.flags = flags; state->param.param_recvall.received = 0; return result; } NTSTATUS recvall_recv(struct async_req *req) { return async_req_simple_recv(req); } struct async_connect_state { int fd; int result; int sys_errno; long old_sockflags; }; static void async_connect_connected(struct event_context *ev, struct fd_event *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 async_req *async_connect_send(TALLOC_CTX *mem_ctx, struct event_context *ev, int fd, const struct sockaddr *address, socklen_t address_len) { struct async_req *result; struct async_connect_state *state; struct fd_event *fde; NTSTATUS status; if (!async_req_setup(mem_ctx, &result, &state, struct async_connect_state)) { 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 = sys_fcntl_long(fd, F_GETFL, 0); if (state->old_sockflags == -1) { goto post_errno; } set_blocking(fd, false); state->result = connect(fd, address, address_len); if (state->result == 0) { state->sys_errno = 0; status = NT_STATUS_OK; goto post_status; } /** * 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)) { goto post_errno; } fde = event_add_fd(ev, state, fd, EVENT_FD_READ | EVENT_FD_WRITE, async_connect_connected, result); if (fde == NULL) { status = NT_STATUS_NO_MEMORY; goto post_status; } return result; post_errno: state->sys_errno = errno; status = map_nt_error_from_unix(state->sys_errno); post_status: sys_fcntl_long(fd, F_SETFL, state->old_sockflags); if (!async_post_status(result, ev, status)) { goto fail; } return result; fail: TALLOC_FREE(result); return NULL; } /** * 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 event_context *ev, struct fd_event *fde, uint16_t flags, void *priv) { struct async_req *req = talloc_get_type_abort( priv, struct async_req); struct async_connect_state *state = talloc_get_type_abort( req->private_data, struct async_connect_state); TALLOC_FREE(fde); /* * 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 & (EVENT_FD_READ|EVENT_FD_WRITE)) == (EVENT_FD_READ|EVENT_FD_WRITE)) { int sockerr; socklen_t err_len = sizeof(sockerr); if (getsockopt(state->fd, SOL_SOCKET, SO_ERROR, (void *)&sockerr, &err_len) == 0) { errno = sockerr; } state->sys_errno = errno; DEBUG(10, ("connect returned %s\n", strerror(errno))); sys_fcntl_long(state->fd, F_SETFL, state->old_sockflags); async_req_error(req, map_nt_error_from_unix(state->sys_errno)); return; } state->sys_errno = 0; async_req_done(req); } NTSTATUS async_connect_recv(struct async_req *req, int *perrno) { struct async_connect_state *state = talloc_get_type_abort( req->private_data, struct async_connect_state); NTSTATUS status; sys_fcntl_long(state->fd, F_SETFL, state->old_sockflags); *perrno = state->sys_errno; if (async_req_is_error(req, &status)) { return status; } if (state->sys_errno == 0) { return NT_STATUS_OK; } return map_nt_error_from_unix(state->sys_errno); }