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/*
* Copyright (c) 2011-2016 Cisco and/or its affiliates.
* 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.
*/
/**
* @file
* @brief BFD global declarations
*/
#ifndef __included_bfd_main_h__
#define __included_bfd_main_h__
#include <vppinfra/timing_wheel.h>
#include <vnet/vnet.h>
#include <vnet/bfd/bfd_protocol.h>
#include <vnet/bfd/bfd_udp.h>
#include <vlib/log.h>
#include <vppinfra/os.h>
#define foreach_bfd_mode(F) \
F (asynchronous) \
F (demand)
typedef enum
{
#define F(x) BFD_MODE_##x,
foreach_bfd_mode (F)
#undef F
} bfd_mode_e;
typedef struct
{
/** global configuration key ID */
u32 conf_key_id;
/** keeps track of how many sessions reference this key */
u32 use_count;
/**
* key data directly usable for bfd purposes - already padded with zeroes
* (so we don't need the actual length)
*/
u8 key[20];
/** authentication type for this key */
bfd_auth_type_e auth_type;
} bfd_auth_key_t;
#define foreach_bfd_poll_state(F) \
F (NOT_NEEDED) \
F (NEEDED) \
F (IN_PROGRESS) \
F (IN_PROGRESS_AND_QUEUED)
typedef enum
{
#define F(x) BFD_POLL_##x,
foreach_bfd_poll_state (F)
#undef F
} bfd_poll_state_e;
/**
* hop types
*/
#define foreach_bfd_hop(F) \
F (SINGLE, "single") \
F (MULTI, "multi") \
typedef enum
{
#define F(sym, str) BFD_HOP_TYPE_##sym,
foreach_bfd_hop (F)
#undef F
} bfd_hop_type_e;
typedef struct bfd_session_s
{
/** index in bfd_main.sessions pool */
u32 bs_idx;
/** session state */
bfd_state_e local_state;
/** remote session state */
bfd_state_e remote_state;
/** BFD hop type */
bfd_hop_type_e hop_type;
/** local diagnostics */
bfd_diag_code_e local_diag;
/** remote diagnostics */
bfd_diag_code_e remote_diag;
/** local discriminator */
u32 local_discr;
/** remote discriminator */
u32 remote_discr;
/** configured desired min tx interval (microseconds) */
u32 config_desired_min_tx_usec;
/** configured desired min tx interval (clocks) */
u64 config_desired_min_tx_clocks;
/** effective desired min tx interval (clocks) */
u64 effective_desired_min_tx_clocks;
/** configured required min rx interval (microseconds) */
u32 config_required_min_rx_usec;
/** configured required min rx interval (clocks) */
u64 config_required_min_rx_clocks;
/** effective required min rx interval (clocks) */
u64 effective_required_min_rx_clocks;
/** remote min rx interval (microseconds) */
u64 remote_min_rx_usec;
/** remote min rx interval (clocks) */
u64 remote_min_rx_clocks;
/** remote min echo rx interval (microseconds) */
u64 remote_min_echo_rx_usec;
/** remote min echo rx interval (clocks) */
u64 remote_min_echo_rx_clocks;
/** remote desired min tx interval (clocks) */
u64 remote_desired_min_tx_clocks;
/** configured detect multiplier */
u8 local_detect_mult;
/** 1 if remote system sets demand mode, 0 otherwise */
u8 remote_demand;
/** remote detect multiplier */
u8 remote_detect_mult;
/** 1 is echo function is active, 0 otherwise */
u8 echo;
/** set to value of timer in timing wheel, 0 if never set */
u64 wheel_time_clocks;
/** transmit interval */
u64 transmit_interval_clocks;
/** next time at which to transmit a packet */
u64 tx_timeout_clocks;
/** timestamp of last packet transmitted */
u64 last_tx_clocks;
/** timestamp of last packet received */
u64 last_rx_clocks;
/** transmit interval for echo packets */
u64 echo_transmit_interval_clocks;
/** next time at which to transmit echo packet */
u64 echo_tx_timeout_clocks;
/** timestamp of last echo packet transmitted */
u64 echo_last_tx_clocks;
/** timestamp of last echo packet received */
u64 echo_last_rx_clocks;
/** secret used for calculating/checking checksum of echo packets */
u32 echo_secret;
/** detection time */
u64 detection_time_clocks;
/** state info regarding poll sequence */
bfd_poll_state_e poll_state;
/**
* helper for delayed poll sequence - marks either start of running poll
* sequence or timeout, after which we can start the next poll sequnce
*/
u64 poll_state_start_or_timeout_clocks;
/** authentication information */
struct
{
/** current key in use */
bfd_auth_key_t *curr_key;
/**
* set to next key to use if delayed switch is enabled - in that case
* the key is switched when first incoming packet is signed with next_key
*/
bfd_auth_key_t *next_key;
/** sequence number incremented occasionally or always (if meticulous) */
u32 local_seq_number;
/** remote sequence number */
u32 remote_seq_number;
/** set to 1 if remote sequence number is known */
u8 remote_seq_number_known;
/** current key ID sent out in bfd packet */
u8 curr_bfd_key_id;
/** key ID to use when switched to next_key */
u8 next_bfd_key_id;
/**
* set to 1 if delayed action is pending, which might be activation
* of authentication, change of key or deactivation
*/
u8 is_delayed;
} auth;
/** transport type for this session */
bfd_transport_e transport;
/** union of transport-specific data */
union
{
bfd_udp_session_t udp;
};
} bfd_session_t;
/**
* listener events
*/
#define foreach_bfd_listen_event(F) \
F (CREATE, "sesion-created") \
F (UPDATE, "session-updated") \
F (DELETE, "session-deleted")
typedef enum
{
#define F(sym, str) BFD_LISTEN_EVENT_##sym,
foreach_bfd_listen_event (F)
#undef F
} bfd_listen_event_e;
/**
* session nitification call back function type
*/
typedef void (*bfd_notify_fn_t) (bfd_listen_event_e, const bfd_session_t *);
typedef struct
{
/** lock to protect data structures */
clib_spinlock_t lock;
int lock_recursion_count;
uword owner_thread_index;
/** Number of event wakeup RPCs in flight. Should be 0 or 1 */
int bfd_process_wakeup_events_in_flight;
/** The timestamp of last wakeup event being sent */
u64 bfd_process_wakeup_event_start_clocks;
/** The time it took the last wakeup event to make it to handling */
u64 bfd_process_wakeup_event_delay_clocks;
/** When the bfd process is supposed to wake up next */
u64 bfd_process_next_wakeup_clocks;
/** pool of bfd sessions context data */
bfd_session_t *sessions;
/** timing wheel for scheduling timeouts */
timing_wheel_t wheel;
/** timing wheel inaccuracy, in clocks */
u64 wheel_inaccuracy;
/** hashmap - bfd session by discriminator */
u32 *session_by_disc;
/** background process node index */
u32 bfd_process_node_index;
/** convenience variables */
vlib_main_t *vlib_main;
vnet_main_t *vnet_main;
/** cpu clocks per second */
f64 cpu_cps;
/** default desired min tx in clocks */
u64 default_desired_min_tx_clocks;
/** minimum required min rx while echo function is active - clocks */
u64 min_required_min_rx_while_echo_clocks;
/** for generating random numbers */
u32 random_seed;
/** pool of authentication keys */
bfd_auth_key_t *auth_keys;
/** hashmap - index in pool auth_keys by conf_key_id */
u32 *auth_key_by_conf_key_id;
/** vector of callback notification functions */
bfd_notify_fn_t *listeners;
/** log class */
vlib_log_class_t log_class;
} bfd_main_t;
extern bfd_main_t bfd_main;
/** Packet counters */
#define foreach_bfd_error(F) \
F (NONE, "good bfd packets (processed)") \
F (BAD, "invalid bfd packets") \
F (DISABLED, "bfd packets received on disabled interfaces")
typedef enum
{
#define F(sym, str) BFD_ERROR_##sym,
foreach_bfd_error (F)
#undef F
BFD_N_ERROR,
} bfd_error_t;
/** bfd packet trace capture */
typedef struct
{
u32 len;
u8 data[400];
} bfd_input_trace_t;
typedef enum
{
BFD_EVENT_RESCHEDULE = 1,
BFD_EVENT_NEW_SESSION,
BFD_EVENT_CONFIG_CHANGED,
} bfd_process_event_e;
/* *INDENT-OFF* */
/** echo packet structure */
typedef CLIB_PACKED (struct {
/** local discriminator */
u32 discriminator;
/** expire time of this packet - clocks */
u64 expire_time_clocks;
/** checksum - based on discriminator, local secret and expire time */
u64 checksum;
}) bfd_echo_pkt_t;
/* *INDENT-ON* */
static inline void
bfd_lock (bfd_main_t * bm)
{
uword my_thread_index = __os_thread_index;
if (bm->owner_thread_index == my_thread_index
&& bm->lock_recursion_count > 0)
{
bm->lock_recursion_count++;
return;
}
clib_spinlock_lock_if_init (&bm->lock);
bm->lock_recursion_count = 1;
bm->owner_thread_index = my_thread_index;
}
static inline void
bfd_unlock (bfd_main_t * bm)
{
uword my_thread_index = __os_thread_index;
ASSERT (bm->owner_thread_index == my_thread_index);
if (bm->lock_recursion_count > 1)
{
bm->lock_recursion_count--;
return;
}
bm->lock_recursion_count = 0;
bm->owner_thread_index = ~0;
clib_spinlock_unlock_if_init (&bm->lock);
}
static inline void
bfd_lock_check (bfd_main_t * bm)
{
if (PREDICT_FALSE (bm->lock_recursion_count < 1))
clib_warning ("lock check failure");
}
u8 *bfd_input_format_trace (u8 * s, va_list * args);
bfd_session_t *bfd_get_session (bfd_main_t * bm, bfd_transport_e t);
void bfd_put_session (bfd_main_t * bm, bfd_session_t * bs);
bfd_session_t *bfd_find_session_by_idx (bfd_main_t * bm, uword bs_idx);
bfd_session_t *bfd_find_session_by_disc (bfd_main_t * bm, u32 disc);
void bfd_session_start (bfd_main_t * bm, bfd_session_t * bs);
void bfd_consume_pkt (bfd_main_t * bm, const bfd_pkt_t * bfd, u32 bs_idx);
int bfd_consume_echo_pkt (bfd_main_t * bm, vlib_buffer_t * b);
int bfd_verify_pkt_common (const bfd_pkt_t * pkt);
int bfd_verify_pkt_auth (const bfd_pkt_t * pkt, u16 pkt_size,
bfd_session_t * bs);
void bfd_event (bfd_main_t * bm, bfd_session_t * bs);
void bfd_init_final_control_frame (vlib_main_t * vm, vlib_buffer_t * b,
bfd_main_t * bm, bfd_session_t * bs,
int is_local);
u8 *format_bfd_session (u8 * s, va_list * args);
u8 *format_bfd_session_brief (u8 * s, va_list * args);
u8 *format_bfd_auth_key (u8 * s, va_list * args);
void bfd_session_set_flags (bfd_session_t * bs, u8 admin_up_down);
unsigned bfd_auth_type_supported (bfd_auth_type_e auth_type);
vnet_api_error_t bfd_auth_activate (bfd_session_t * bs, u32 conf_key_id,
u8 bfd_key_id, u8 is_delayed);
vnet_api_error_t bfd_auth_deactivate (bfd_session_t * bs, u8 is_delayed);
vnet_api_error_t bfd_session_set_params (bfd_main_t * bm, bfd_session_t * bs,
u32 desired_min_tx_usec,
u32 required_min_rx_usec,
u8 detect_mult);
u32 bfd_clocks_to_usec (const bfd_main_t * bm, u64 clocks);
const char *bfd_poll_state_string (bfd_poll_state_e state);
#define USEC_PER_MS 1000LL
#define USEC_PER_SECOND (1000 * USEC_PER_MS)
/** default, slow transmission interval for BFD packets, per spec at least 1s */
#define BFD_DEFAULT_DESIRED_MIN_TX_USEC USEC_PER_SECOND
/**
* minimum required min rx set locally when echo function is used, per spec
* should be set to at least 1s
*/
#define BFD_REQUIRED_MIN_RX_USEC_WHILE_ECHO USEC_PER_SECOND
/**
* Register a callback function to receive session notifications.
*/
void bfd_register_listener (bfd_notify_fn_t fn);
#endif /* __included_bfd_main_h__ */
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/