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/*
* Copyright (c) 2009, 2010, 2011, 2012, 2013, 2014 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef DPIF_PROVIDER_H
#define DPIF_PROVIDER_H 1
/* Provider interface to dpifs, which provide an interface to an Open vSwitch
* datapath. A datapath is a collection of physical or virtual ports that are
* exposed over OpenFlow as a single switch. Datapaths and the collections of
* ports that they contain may be fixed or dynamic. */
#include "openflow/openflow.h"
#include "dpif.h"
#include "util.h"
#ifdef __cplusplus
extern "C" {
#endif
/* Open vSwitch datapath interface.
*
* This structure should be treated as opaque by dpif implementations. */
struct dpif {
const struct dpif_class *dpif_class;
char *base_name;
char *full_name;
uint8_t netflow_engine_type;
uint8_t netflow_engine_id;
};
void dpif_init(struct dpif *, const struct dpif_class *, const char *name,
uint8_t netflow_engine_type, uint8_t netflow_engine_id);
void dpif_uninit(struct dpif *dpif, bool close);
static inline void dpif_assert_class(const struct dpif *dpif,
const struct dpif_class *dpif_class)
{
ovs_assert(dpif->dpif_class == dpif_class);
}
struct dpif_flow_dump {
struct dpif *dpif;
bool terse; /* If true, key/mask/actions may be omitted. */
};
static inline void
dpif_flow_dump_init(struct dpif_flow_dump *dump, const struct dpif *dpif)
{
dump->dpif = CONST_CAST(struct dpif *, dpif);
}
struct dpif_flow_dump_thread {
struct dpif *dpif;
};
static inline void
dpif_flow_dump_thread_init(struct dpif_flow_dump_thread *thread,
struct dpif_flow_dump *dump)
{
thread->dpif = dump->dpif;
}
/* Datapath interface class structure, to be defined by each implementation of
* a datapath interface.
*
* These functions return 0 if successful or a positive errno value on failure,
* except where otherwise noted.
*
* These functions are expected to execute synchronously, that is, to block as
* necessary to obtain a result. Thus, they may not return EAGAIN or
* EWOULDBLOCK or EINPROGRESS. We may relax this requirement in the future if
* and when we encounter performance problems. */
struct dpif_class {
/* Type of dpif in this class, e.g. "system", "netdev", etc.
*
* One of the providers should supply a "system" type, since this is
* the type assumed if no type is specified when opening a dpif. */
const char *type;
/* Enumerates the names of all known created datapaths (of class
* 'dpif_class'), if possible, into 'all_dps'. The caller has already
* initialized 'all_dps' and other dpif classes might already have added
* names to it.
*
* This is used by the vswitch at startup, so that it can delete any
* datapaths that are not configured.
*
* Some kinds of datapaths might not be practically enumerable, in which
* case this function may be a null pointer. */
int (*enumerate)(struct sset *all_dps, const struct dpif_class *dpif_class);
/* Returns the type to pass to netdev_open() when a dpif of class
* 'dpif_class' has a port of type 'type', for a few special cases
* when a netdev type differs from a port type. For example, when
* using the userspace datapath, a port of type "internal" needs to
* be opened as "tap".
*
* Returns either 'type' itself or a string literal, which must not
* be freed. */
const char *(*port_open_type)(const struct dpif_class *dpif_class,
const char *type);
/* Attempts to open an existing dpif called 'name', if 'create' is false,
* or to open an existing dpif or create a new one, if 'create' is true.
*
* 'dpif_class' is the class of dpif to open.
*
* If successful, stores a pointer to the new dpif in '*dpifp', which must
* have class 'dpif_class'. On failure there are no requirements on what
* is stored in '*dpifp'. */
int (*open)(const struct dpif_class *dpif_class,
const char *name, bool create, struct dpif **dpifp);
/* Closes 'dpif' and frees associated memory. */
void (*close)(struct dpif *dpif);
/* Attempts to destroy the dpif underlying 'dpif'.
*
* If successful, 'dpif' will not be used again except as an argument for
* the 'close' member function. */
int (*destroy)(struct dpif *dpif);
/* Performs periodic work needed by 'dpif', if any is necessary.
* Returns true if need to revalidate. */
bool (*run)(struct dpif *dpif);
/* Arranges for poll_block() to wake up if the "run" member function needs
* to be called for 'dpif'. */
void (*wait)(struct dpif *dpif);
/* Retrieves statistics for 'dpif' into 'stats'. */
int (*get_stats)(const struct dpif *dpif, struct dpif_dp_stats *stats);
/* Adds 'netdev' as a new port in 'dpif'. If '*port_no' is not
* UINT32_MAX, attempts to use that as the port's port number.
*
* If port is successfully added, sets '*port_no' to the new port's
* port number. Returns EBUSY if caller attempted to choose a port
* number, and it was in use. */
int (*port_add)(struct dpif *dpif, struct netdev *netdev,
odp_port_t *port_no);
/* Removes port numbered 'port_no' from 'dpif'. */
int (*port_del)(struct dpif *dpif, odp_port_t port_no);
/* Queries 'dpif' for a port with the given 'port_no' or 'devname'.
* If 'port' is not null, stores information about the port into
* '*port' if successful.
*
* If 'port' is not null, the caller takes ownership of data in
* 'port' and must free it with dpif_port_destroy() when it is no
* longer needed. */
int (*port_query_by_number)(const struct dpif *dpif, odp_port_t port_no,
struct dpif_port *port);
int (*port_query_by_name)(const struct dpif *dpif, const char *devname,
struct dpif_port *port);
/* Returns the Netlink PID value to supply in OVS_ACTION_ATTR_USERSPACE
* actions as the OVS_USERSPACE_ATTR_PID attribute's value, for use in
* flows whose packets arrived on port 'port_no'. In the case where the
* provider allocates multiple Netlink PIDs to a single port, it may use
* 'hash' to spread load among them. The caller need not use a particular
* hash function; a 5-tuple hash is suitable.
*
* (The datapath implementation might use some different hash function for
* distributing packets received via flow misses among PIDs. This means
* that packets received via flow misses might be reordered relative to
* packets received via userspace actions. This is not ordinarily a
* problem.)
*
* A 'port_no' of UINT32_MAX should be treated as a special case. The
* implementation should return a reserved PID, not allocated to any port,
* that the client may use for special purposes.
*
* The return value only needs to be meaningful when DPIF_UC_ACTION has
* been enabled in the 'dpif''s listen mask, and it is allowed to change
* when DPIF_UC_ACTION is disabled and then re-enabled.
*
* A dpif provider that doesn't have meaningful Netlink PIDs can use NULL
* for this function. This is equivalent to always returning 0. */
uint32_t (*port_get_pid)(const struct dpif *dpif, odp_port_t port_no,
uint32_t hash);
/* Attempts to begin dumping the ports in a dpif. On success, returns 0
* and initializes '*statep' with any data needed for iteration. On
* failure, returns a positive errno value. */
int (*port_dump_start)(const struct dpif *dpif, void **statep);
/* Attempts to retrieve another port from 'dpif' for 'state', which was
* initialized by a successful call to the 'port_dump_start' function for
* 'dpif'. On success, stores a new dpif_port into 'port' and returns 0.
* Returns EOF if the end of the port table has been reached, or a positive
* errno value on error. This function will not be called again once it
* returns nonzero once for a given iteration (but the 'port_dump_done'
* function will be called afterward).
*
* The dpif provider retains ownership of the data stored in 'port'. It
* must remain valid until at least the next call to 'port_dump_next' or
* 'port_dump_done' for 'state'. */
int (*port_dump_next)(const struct dpif *dpif, void *state,
struct dpif_port *port);
/* Releases resources from 'dpif' for 'state', which was initialized by a
* successful call to the 'port_dump_start' function for 'dpif'. */
int (*port_dump_done)(const struct dpif *dpif, void *state);
/* Polls for changes in the set of ports in 'dpif'. If the set of ports in
* 'dpif' has changed, then this function should do one of the
* following:
*
* - Preferably: store the name of the device that was added to or deleted
* from 'dpif' in '*devnamep' and return 0. The caller is responsible
* for freeing '*devnamep' (with free()) when it no longer needs it.
*
* - Alternatively: return ENOBUFS, without indicating the device that was
* added or deleted.
*
* Occasional 'false positives', in which the function returns 0 while
* indicating a device that was not actually added or deleted or returns
* ENOBUFS without any change, are acceptable.
*
* If the set of ports in 'dpif' has not changed, returns EAGAIN. May also
* return other positive errno values to indicate that something has gone
* wrong. */
int (*port_poll)(const struct dpif *dpif, char **devnamep);
/* Arranges for the poll loop to wake up when 'port_poll' will return a
* value other than EAGAIN. */
void (*port_poll_wait)(const struct dpif *dpif);
/* Deletes all flows from 'dpif' and clears all of its queues of received
* packets. */
int (*flow_flush)(struct dpif *dpif);
/* Flow dumping interface.
*
* This is the back-end for the flow dumping interface described in
* dpif.h. Please read the comments there first, because this code
* closely follows it.
*
* 'flow_dump_create' and 'flow_dump_thread_create' must always return an
* initialized and usable data structure and defer error return until
* flow_dump_destroy(). This hasn't been a problem for the dpifs that
* exist so far.
*
* 'flow_dump_create' and 'flow_dump_thread_create' must initialize the
* structures that they return with dpif_flow_dump_init() and
* dpif_flow_dump_thread_init(), respectively.
*
* If 'terse' is true, then only UID and statistics will
* be returned in the dump. Otherwise, all fields will be returned. */
struct dpif_flow_dump *(*flow_dump_create)(const struct dpif *dpif,
bool terse);
int (*flow_dump_destroy)(struct dpif_flow_dump *dump);
struct dpif_flow_dump_thread *(*flow_dump_thread_create)(
struct dpif_flow_dump *dump);
void (*flow_dump_thread_destroy)(struct dpif_flow_dump_thread *thread);
int (*flow_dump_next)(struct dpif_flow_dump_thread *thread,
struct dpif_flow *flows, int max_flows);
/* Executes each of the 'n_ops' operations in 'ops' on 'dpif', in the order
* in which they are specified, placing each operation's results in the
* "output" members documented in comments and the 'error' member of each
* dpif_op. */
void (*operate)(struct dpif *dpif, struct dpif_op **ops, size_t n_ops);
/* Enables or disables receiving packets with dpif_recv() for 'dpif'.
* Turning packet receive off and then back on is allowed to change Netlink
* PID assignments (see ->port_get_pid()). The client is responsible for
* updating flows as necessary if it does this. */
int (*recv_set)(struct dpif *dpif, bool enable);
/* Refreshes the poll loops and Netlink sockets associated to each port,
* when the number of upcall handlers (upcall receiving thread) is changed
* to 'n_handlers' and receiving packets for 'dpif' is enabled by
* recv_set().
*
* Since multiple upcall handlers can read upcalls simultaneously from
* 'dpif', each port can have multiple Netlink sockets, one per upcall
* handler. So, handlers_set() is responsible for the following tasks:
*
* When receiving upcall is enabled, extends or creates the
* configuration to support:
*
* - 'n_handlers' Netlink sockets for each port.
*
* - 'n_handlers' poll loops, one for each upcall handler.
*
* - registering the Netlink sockets for the same upcall handler to
* the corresponding poll loop.
* */
int (*handlers_set)(struct dpif *dpif, uint32_t n_handlers);
/* If 'dpif' creates its own I/O polling threads, refreshes poll threads
* configuration. 'n_rxqs' configures the number of rx_queues, which
* are distributed among threads. 'cmask' configures the cpu mask
* for setting the polling threads' cpu affinity. */
int (*poll_threads_set)(struct dpif *dpif, unsigned int n_rxqs,
const char *cmask);
/* Translates OpenFlow queue ID 'queue_id' (in host byte order) into a
* priority value used for setting packet priority. */
int (*queue_to_priority)(const struct dpif *dpif, uint32_t queue_id,
uint32_t *priority);
/* Polls for an upcall from 'dpif' for an upcall handler. Since there
* can be multiple poll loops (see ->handlers_set()), 'handler_id' is
* needed as index to identify the corresponding poll loop. If
* successful, stores the upcall into '*upcall', using 'buf' for
* storage. Should only be called if 'recv_set' has been used to enable
* receiving packets from 'dpif'.
*
* The implementation should point 'upcall->key' and 'upcall->userdata'
* (if any) into data in the caller-provided 'buf'. The implementation may
* also use 'buf' for storing the data of 'upcall->packet'. If necessary
* to make room, the implementation may reallocate the data in 'buf'.
*
* The caller owns the data of 'upcall->packet' and may modify it. If
* packet's headroom is exhausted as it is manipulated, 'upcall->packet'
* will be reallocated. This requires the data of 'upcall->packet' to be
* released with ofpbuf_uninit() before 'upcall' is destroyed. However,
* when an error is returned, the 'upcall->packet' may be uninitialized
* and should not be released.
*
* This function must not block. If no upcall is pending when it is
* called, it should return EAGAIN without blocking. */
int (*recv)(struct dpif *dpif, uint32_t handler_id,
struct dpif_upcall *upcall, struct ofpbuf *buf);
/* Arranges for the poll loop for an upcall handler to wake up when 'dpif'
* has a message queued to be received with the recv member functions.
* Since there can be multiple poll loops (see ->handlers_set()),
* 'handler_id' is needed as index to identify the corresponding poll loop.
* */
void (*recv_wait)(struct dpif *dpif, uint32_t handler_id);
/* Throws away any queued upcalls that 'dpif' currently has ready to
* return. */
void (*recv_purge)(struct dpif *dpif);
/* For datapaths that run in userspace (i.e. dpif-netdev), threads polling
* for incoming packets can directly call upcall functions instead of
* offloading packet processing to separate handler threads. Datapaths
* that directly call upcall functions should use the functions below to
* to register an upcall function and enable / disable upcalls.
*
* Registers an upcall callback function with 'dpif'. This is only used if
* if 'dpif' directly executes upcall functions. 'aux' is passed to the
* callback on invocation. */
void (*register_upcall_cb)(struct dpif *, upcall_callback *, void *aux);
/* Enables upcalls if 'dpif' directly executes upcall functions. */
void (*enable_upcall)(struct dpif *);
/* Disables upcalls if 'dpif' directly executes upcall functions. */
void (*disable_upcall)(struct dpif *);
/* Get datapath version. Caller is responsible for freeing the string
* returned. */
char *(*get_datapath_version)(void);
};
extern const struct dpif_class dpif_netlink_class;
extern const struct dpif_class dpif_netdev_class;
#ifdef __cplusplus
}
#endif
#endif /* dpif-provider.h */
|