/* GIO - GLib Input, Output and Streaming Library * * Copyright 2015 Collabora Ltd. * * SPDX-License-Identifier: LGPL-2.1-or-later * * 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 2.1 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General * Public License along with this library; if not, see . * * Authors: Philip Withnall */ #include "config.h" #include "gdatagrambased.h" #include "gcancellable.h" #include "gioenumtypes.h" #include "gioerror.h" #include "gnetworkingprivate.h" #include "gsocketaddress.h" #include "glibintl.h" /** * GDatagramBased: * * Interface for socket-like objects with datagram semantics. * * A `GDatagramBased` is a networking interface for representing datagram-based * communications. It is a more or less direct mapping of the core parts of the * BSD socket API in a portable GObject interface. It is implemented by * [struct@Gio.Socket], which wraps the UNIX socket API on UNIX and winsock2 on Windows. * * `GDatagramBased` is entirely platform independent, and is intended to be used * alongside higher-level networking APIs such as [struct@Gio.IOStream]. * * It uses vectored scatter/gather I/O by default, allowing for many messages * to be sent or received in a single call. Where possible, implementations of * the interface should take advantage of vectored I/O to minimise processing * or system calls. For example, `GSocket` uses `recvmmsg()` and `sendmmsg()` * where possible. Callers should take advantage of scatter/gather I/O (the use of * multiple buffers per message) to avoid unnecessary copying of data to * assemble or disassemble a message. * * Each `GDatagramBased` operation has a timeout parameter which may be negative * for blocking behaviour, zero for non-blocking behaviour, or positive for * timeout behaviour. A blocking operation blocks until finished or there is an * error. A non-blocking operation will return immediately with a * `G_IO_ERROR_WOULD_BLOCK` error if it cannot make progress. A timeout operation * will block until the operation is complete or the timeout expires; if the * timeout expires it will return what progress it made, or * `G_IO_ERROR_TIMED_OUT` if no progress was made. To know when a call would * successfully run you can call [method@Gio.DatagramBased.condition_check] or * [method@Gio.DatagramBased.condition_wait]. You can also use * [method@Gio.DatagramBased.create_source] and attach it to a [struct@Glib.MainContext] * to get callbacks when I/O is possible. * * When running a non-blocking operation applications should always be able to * handle getting a `G_IO_ERROR_WOULD_BLOCK` error even when some other function * said that I/O was possible. This can easily happen in case of a race * condition in the application, but it can also happen for other reasons. For * instance, on Windows a socket is always seen as writable until a write * returns `G_IO_ERROR_WOULD_BLOCK`. * * As with `GSocket`, `GDatagramBased`s can be either connection oriented (for * example, SCTP) or connectionless (for example, UDP). `GDatagramBased`s must be * datagram-based, not stream-based. The interface does not cover connection * establishment — use methods on the underlying type to establish a connection * before sending and receiving data through the `GDatagramBased` API. For * connectionless socket types the target/source address is specified or * received in each I/O operation. * * Like most other APIs in GLib, `GDatagramBased` is not inherently thread safe. * To use a `GDatagramBased` concurrently from multiple threads, you must * implement your own locking. * * Since: 2.48 */ G_DEFINE_INTERFACE (GDatagramBased, g_datagram_based, G_TYPE_OBJECT) static void g_datagram_based_default_init (GDatagramBasedInterface *iface) { /* Nothing here. */ } /** * g_datagram_based_receive_messages: * @datagram_based: a #GDatagramBased * @messages: (array length=num_messages): an array of #GInputMessage structs * @num_messages: the number of elements in @messages * @flags: an int containing #GSocketMsgFlags flags for the overall operation * @timeout: the maximum time (in microseconds) to wait, 0 to not block, or -1 * to block indefinitely * @cancellable: (nullable): a %GCancellable * @error: return location for a #GError * * Receive one or more data messages from @datagram_based in one go. * * @messages must point to an array of #GInputMessage structs and * @num_messages must be the length of this array. Each #GInputMessage * contains a pointer to an array of #GInputVector structs describing the * buffers that the data received in each message will be written to. * * @flags modify how all messages are received. The commonly available * arguments for this are available in the #GSocketMsgFlags enum, but the * values there are the same as the system values, and the flags * are passed in as-is, so you can pass in system-specific flags too. These * flags affect the overall receive operation. Flags affecting individual * messages are returned in #GInputMessage.flags. * * The other members of #GInputMessage are treated as described in its * documentation. * * If @timeout is negative the call will block until @num_messages have been * received, the connection is closed remotely (EOS), @cancellable is cancelled, * or an error occurs. * * If @timeout is 0 the call will return up to @num_messages without blocking, * or %G_IO_ERROR_WOULD_BLOCK if no messages are queued in the operating system * to be received. * * If @timeout is positive the call will block on the same conditions as if * @timeout were negative. If the timeout is reached * before any messages are received, %G_IO_ERROR_TIMED_OUT is returned, * otherwise it will return the number of messages received before timing out. * (Note: This is effectively the behaviour of `MSG_WAITFORONE` with * recvmmsg().) * * To be notified when messages are available, wait for the %G_IO_IN condition. * Note though that you may still receive %G_IO_ERROR_WOULD_BLOCK from * g_datagram_based_receive_messages() even if you were previously notified of a * %G_IO_IN condition. * * If the remote peer closes the connection, any messages queued in the * underlying receive buffer will be returned, and subsequent calls to * g_datagram_based_receive_messages() will return 0 (with no error set). * * If the connection is shut down or closed (by calling g_socket_close() or * g_socket_shutdown() with @shutdown_read set, if it’s a #GSocket, for * example), all calls to this function will return %G_IO_ERROR_CLOSED. * * On error -1 is returned and @error is set accordingly. An error will only * be returned if zero messages could be received; otherwise the number of * messages successfully received before the error will be returned. If * @cancellable is cancelled, %G_IO_ERROR_CANCELLED is returned as with any * other error. * * Returns: number of messages received, or -1 on error. Note that the number * of messages received may be smaller than @num_messages if @timeout is * zero or positive, if the peer closed the connection, or if @num_messages * was larger than `UIO_MAXIOV` (1024), in which case the caller may re-try * to receive the remaining messages. * * Since: 2.48 */ gint g_datagram_based_receive_messages (GDatagramBased *datagram_based, GInputMessage *messages, guint num_messages, gint flags, gint64 timeout, GCancellable *cancellable, GError **error) { GDatagramBasedInterface *iface; gint retval; GError *child_error = NULL; g_return_val_if_fail (G_IS_DATAGRAM_BASED (datagram_based), -1); g_return_val_if_fail (num_messages == 0 || messages != NULL, -1); g_return_val_if_fail (cancellable == NULL || G_IS_CANCELLABLE (cancellable), -1); g_return_val_if_fail (error == NULL || *error == NULL, -1); iface = G_DATAGRAM_BASED_GET_IFACE (datagram_based); g_assert (iface->receive_messages != NULL); retval = iface->receive_messages (datagram_based, messages, num_messages, flags, timeout, cancellable, &child_error); /* Postconditions. */ g_return_val_if_fail ((retval < 0) == (child_error != NULL), -1); g_return_val_if_fail (timeout == 0 || !g_error_matches (child_error, G_IO_ERROR, G_IO_ERROR_WOULD_BLOCK), -1); g_return_val_if_fail (timeout > 0 || !g_error_matches (child_error, G_IO_ERROR, G_IO_ERROR_TIMED_OUT), -1); g_return_val_if_fail (retval < 0 || (guint) retval <= num_messages, -1); if (child_error != NULL) g_propagate_error (error, child_error); return retval; } /** * g_datagram_based_send_messages: * @datagram_based: a #GDatagramBased * @messages: (array length=num_messages): an array of #GOutputMessage structs * @num_messages: the number of elements in @messages * @flags: an int containing #GSocketMsgFlags flags * @timeout: the maximum time (in microseconds) to wait, 0 to not block, or -1 * to block indefinitely * @cancellable: (nullable): a %GCancellable * @error: return location for a #GError * * Send one or more data messages from @datagram_based in one go. * * @messages must point to an array of #GOutputMessage structs and * @num_messages must be the length of this array. Each #GOutputMessage * contains an address to send the data to, and a pointer to an array of * #GOutputVector structs to describe the buffers that the data to be sent * for each message will be gathered from. * * @flags modify how the message is sent. The commonly available arguments * for this are available in the #GSocketMsgFlags enum, but the * values there are the same as the system values, and the flags * are passed in as-is, so you can pass in system-specific flags too. * * The other members of #GOutputMessage are treated as described in its * documentation. * * If @timeout is negative the call will block until @num_messages have been * sent, @cancellable is cancelled, or an error occurs. * * If @timeout is 0 the call will send up to @num_messages without blocking, * or will return %G_IO_ERROR_WOULD_BLOCK if there is no space to send messages. * * If @timeout is positive the call will block on the same conditions as if * @timeout were negative. If the timeout is reached before any messages are * sent, %G_IO_ERROR_TIMED_OUT is returned, otherwise it will return the number * of messages sent before timing out. * * To be notified when messages can be sent, wait for the %G_IO_OUT condition. * Note though that you may still receive %G_IO_ERROR_WOULD_BLOCK from * g_datagram_based_send_messages() even if you were previously notified of a * %G_IO_OUT condition. (On Windows in particular, this is very common due to * the way the underlying APIs work.) * * If the connection is shut down or closed (by calling g_socket_close() or * g_socket_shutdown() with @shutdown_write set, if it’s a #GSocket, for * example), all calls to this function will return %G_IO_ERROR_CLOSED. * * On error -1 is returned and @error is set accordingly. An error will only * be returned if zero messages could be sent; otherwise the number of messages * successfully sent before the error will be returned. If @cancellable is * cancelled, %G_IO_ERROR_CANCELLED is returned as with any other error. * * Returns: number of messages sent, or -1 on error. Note that the number of * messages sent may be smaller than @num_messages if @timeout is zero * or positive, or if @num_messages was larger than `UIO_MAXIOV` (1024), in * which case the caller may re-try to send the remaining messages. * * Since: 2.48 */ gint g_datagram_based_send_messages (GDatagramBased *datagram_based, GOutputMessage *messages, guint num_messages, gint flags, gint64 timeout, GCancellable *cancellable, GError **error) { GDatagramBasedInterface *iface; gint retval; GError *child_error = NULL; g_return_val_if_fail (G_IS_DATAGRAM_BASED (datagram_based), -1); g_return_val_if_fail (num_messages == 0 || messages != NULL, -1); g_return_val_if_fail (cancellable == NULL || G_IS_CANCELLABLE (cancellable), -1); g_return_val_if_fail (error == NULL || *error == NULL, -1); iface = G_DATAGRAM_BASED_GET_IFACE (datagram_based); g_assert (iface->send_messages != NULL); retval = iface->send_messages (datagram_based, messages, num_messages, flags, timeout, cancellable, &child_error); /* Postconditions. */ g_return_val_if_fail ((retval < 0) == (child_error != NULL), -1); g_return_val_if_fail (timeout == 0 || !g_error_matches (child_error, G_IO_ERROR, G_IO_ERROR_WOULD_BLOCK), -1); g_return_val_if_fail (timeout > 0 || !g_error_matches (child_error, G_IO_ERROR, G_IO_ERROR_TIMED_OUT), -1); g_return_val_if_fail (retval < 0 || (guint) retval <= num_messages, -1); g_return_val_if_fail (!(timeout < 0 && num_messages > 0) || retval != 0, -1); if (child_error != NULL) g_propagate_error (error, child_error); return retval; } /** * g_datagram_based_create_source: * @datagram_based: a #GDatagramBased * @condition: a #GIOCondition mask to monitor * @cancellable: (nullable): a #GCancellable * * Creates a #GSource that can be attached to a #GMainContext to monitor for * the availability of the specified @condition on the #GDatagramBased. The * #GSource keeps a reference to the @datagram_based. * * The callback on the source is of the #GDatagramBasedSourceFunc type. * * It is meaningless to specify %G_IO_ERR or %G_IO_HUP in @condition; these * conditions will always be reported in the callback if they are true. * * If non-%NULL, @cancellable can be used to cancel the source, which will * cause the source to trigger, reporting the current condition (which is * likely 0 unless cancellation happened at the same time as a condition * change). You can check for this in the callback using * g_cancellable_is_cancelled(). * * Returns: (transfer full): a newly allocated #GSource * * Since: 2.48 */ GSource * g_datagram_based_create_source (GDatagramBased *datagram_based, GIOCondition condition, GCancellable *cancellable) { GDatagramBasedInterface *iface; g_return_val_if_fail (G_IS_DATAGRAM_BASED (datagram_based), NULL); g_return_val_if_fail (cancellable == NULL || G_IS_CANCELLABLE (cancellable), NULL); iface = G_DATAGRAM_BASED_GET_IFACE (datagram_based); g_assert (iface->create_source != NULL); return iface->create_source (datagram_based, condition, cancellable); } /** * g_datagram_based_condition_check: * @datagram_based: a #GDatagramBased * @condition: a #GIOCondition mask to check * * Checks on the readiness of @datagram_based to perform operations. The * operations specified in @condition are checked for and masked against the * currently-satisfied conditions on @datagram_based. The result is returned. * * %G_IO_IN will be set in the return value if data is available to read with * g_datagram_based_receive_messages(), or if the connection is closed remotely * (EOS); and if the datagram_based has not been closed locally using some * implementation-specific method (such as g_socket_close() or * g_socket_shutdown() with @shutdown_read set, if it’s a #GSocket). * * If the connection is shut down or closed (by calling g_socket_close() or * g_socket_shutdown() with @shutdown_read set, if it’s a #GSocket, for * example), all calls to this function will return %G_IO_ERROR_CLOSED. * * %G_IO_OUT will be set if it is expected that at least one byte can be sent * using g_datagram_based_send_messages() without blocking. It will not be set * if the datagram_based has been closed locally. * * %G_IO_HUP will be set if the connection has been closed locally. * * %G_IO_ERR will be set if there was an asynchronous error in transmitting data * previously enqueued using g_datagram_based_send_messages(). * * Note that on Windows, it is possible for an operation to return * %G_IO_ERROR_WOULD_BLOCK even immediately after * g_datagram_based_condition_check() has claimed that the #GDatagramBased is * ready for writing. Rather than calling g_datagram_based_condition_check() and * then writing to the #GDatagramBased if it succeeds, it is generally better to * simply try writing right away, and try again later if the initial attempt * returns %G_IO_ERROR_WOULD_BLOCK. * * It is meaningless to specify %G_IO_ERR or %G_IO_HUP in @condition; these * conditions will always be set in the output if they are true. Apart from * these flags, the output is guaranteed to be masked by @condition. * * This call never blocks. * * Returns: the #GIOCondition mask of the current state * * Since: 2.48 */ GIOCondition g_datagram_based_condition_check (GDatagramBased *datagram_based, GIOCondition condition) { GDatagramBasedInterface *iface; GIOCondition out; g_return_val_if_fail (G_IS_DATAGRAM_BASED (datagram_based), 0); iface = G_DATAGRAM_BASED_GET_IFACE (datagram_based); g_assert (iface->condition_check != NULL); out = iface->condition_check (datagram_based, condition); /* Postconditions. G_IO_OUT and G_IO_HUP are mutually exclusive. G_IO_IN and * G_IO_HUP are mutually exclusive. The return value must be a subset of * (condition | G_IO_ERR | G_IO_HUP). */ g_return_val_if_fail ((out & (G_IO_OUT | G_IO_HUP)) != (G_IO_OUT | G_IO_HUP), out & ~G_IO_OUT); g_return_val_if_fail ((out & (G_IO_IN | G_IO_HUP)) != (G_IO_IN | G_IO_HUP), out & ~G_IO_IN); g_return_val_if_fail ((out & ~(condition | G_IO_ERR | G_IO_HUP)) == 0, out & (condition | G_IO_ERR | G_IO_HUP)); return out; } /** * g_datagram_based_condition_wait: * @datagram_based: a #GDatagramBased * @condition: a #GIOCondition mask to wait for * @timeout: the maximum time (in microseconds) to wait, 0 to not block, or -1 * to block indefinitely * @cancellable: (nullable): a #GCancellable * @error: return location for a #GError * * Waits for up to @timeout microseconds for condition to become true on * @datagram_based. If the condition is met, %TRUE is returned. * * If @cancellable is cancelled before the condition is met, or if @timeout is * reached before the condition is met, then %FALSE is returned and @error is * set appropriately (%G_IO_ERROR_CANCELLED or %G_IO_ERROR_TIMED_OUT). * * Returns: %TRUE if the condition was met, %FALSE otherwise * * Since: 2.48 */ gboolean g_datagram_based_condition_wait (GDatagramBased *datagram_based, GIOCondition condition, gint64 timeout, GCancellable *cancellable, GError **error) { GDatagramBasedInterface *iface; gboolean out; GError *child_error = NULL; g_return_val_if_fail (G_IS_DATAGRAM_BASED (datagram_based), FALSE); g_return_val_if_fail (cancellable == NULL || G_IS_CANCELLABLE (cancellable), FALSE); g_return_val_if_fail (error == NULL || *error == NULL, FALSE); iface = G_DATAGRAM_BASED_GET_IFACE (datagram_based); g_assert (iface->condition_wait != NULL); out = iface->condition_wait (datagram_based, condition, timeout, cancellable, &child_error); /* Postconditions. */ g_return_val_if_fail (out == (child_error == NULL), FALSE); if (child_error != NULL) g_propagate_error (error, child_error); return out; }