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/*
* Copyright (c) 2018 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this
* 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 SRC_VCL_VCL_PRIVATE_H_
#define SRC_VCL_VCL_PRIVATE_H_
#include <vnet/session/application_interface.h>
#include <vcl/vppcom.h>
#include <vcl/vcl_debug.h>
#if (CLIB_DEBUG > 0)
/* Set VPPCOM_DEBUG_INIT 2 for connection debug,
* 3 for read/write debug output
* or
* export VCL_DEBUG=<#> to set dynamically.
*/
#define VPPCOM_DEBUG_INIT 1
#else
#define VPPCOM_DEBUG_INIT 0
#endif
#define VPPCOM_DEBUG vcm->debug
extern __thread uword __vcl_worker_index;
static inline void
vcl_set_worker_index (uword wrk_index)
{
__vcl_worker_index = wrk_index;
}
static inline uword
vcl_get_worker_index (void)
{
return __vcl_worker_index;
}
/*
* VPPCOM Private definitions and functions.
*/
typedef enum
{
STATE_APP_START,
STATE_APP_CONN_VPP,
STATE_APP_ENABLED,
STATE_APP_ATTACHED,
STATE_APP_ADDING_WORKER,
STATE_APP_FAILED,
STATE_APP_READY
} app_state_t;
typedef enum
{
STATE_START = 0x01,
STATE_CONNECT = 0x02,
STATE_LISTEN = 0x04,
STATE_ACCEPT = 0x08,
STATE_CLOSE_ON_EMPTY = 0x10,
STATE_DISCONNECT = 0x20,
STATE_FAILED = 0x40
} session_state_t;
#define SERVER_STATE_OPEN (STATE_ACCEPT|STATE_CLOSE_ON_EMPTY)
#define CLIENT_STATE_OPEN (STATE_CONNECT|STATE_CLOSE_ON_EMPTY)
#define STATE_OPEN (SERVER_STATE_OPEN | CLIENT_STATE_OPEN)
typedef struct epoll_event vppcom_epoll_event_t;
typedef struct
{
u32 next_sh;
u32 prev_sh;
u32 vep_sh;
vppcom_epoll_event_t ev;
#define VEP_DEFAULT_ET_MASK (EPOLLIN|EPOLLOUT)
#define VEP_UNSUPPORTED_EVENTS (EPOLLONESHOT|EPOLLEXCLUSIVE)
u32 et_mask;
} vppcom_epoll_t;
typedef struct
{
u8 is_ip4;
ip46_address_t ip46;
} vppcom_ip46_t;
typedef struct vcl_session_msg
{
u32 next;
union
{
session_accepted_msg_t accepted_msg;
};
} vcl_session_msg_t;
enum
{
VCL_SESS_ATTR_SERVER,
VCL_SESS_ATTR_CUT_THRU,
VCL_SESS_ATTR_VEP,
VCL_SESS_ATTR_VEP_SESSION,
VCL_SESS_ATTR_LISTEN, // SOL_SOCKET,SO_ACCEPTCONN
VCL_SESS_ATTR_NONBLOCK, // fcntl,O_NONBLOCK
VCL_SESS_ATTR_REUSEADDR, // SOL_SOCKET,SO_REUSEADDR
VCL_SESS_ATTR_REUSEPORT, // SOL_SOCKET,SO_REUSEPORT
VCL_SESS_ATTR_BROADCAST, // SOL_SOCKET,SO_BROADCAST
VCL_SESS_ATTR_V6ONLY, // SOL_TCP,IPV6_V6ONLY
VCL_SESS_ATTR_KEEPALIVE, // SOL_SOCKET,SO_KEEPALIVE
VCL_SESS_ATTR_TCP_NODELAY, // SOL_TCP,TCP_NODELAY
VCL_SESS_ATTR_TCP_KEEPIDLE, // SOL_TCP,TCP_KEEPIDLE
VCL_SESS_ATTR_TCP_KEEPINTVL, // SOL_TCP,TCP_KEEPINTVL
VCL_SESS_ATTR_MAX
} vppcom_session_attr_t;
#define VCL_SESS_ATTR_SET(ATTR, VAL) \
do { \
(ATTR) |= 1 << (VAL); \
} while (0)
#define VCL_SESS_ATTR_CLR(ATTR, VAL) \
do { \
(ATTR) &= ~(1 << (VAL)); \
} while (0)
#define VCL_SESS_ATTR_TEST(ATTR, VAL) \
((ATTR) & (1 << (VAL)) ? 1 : 0)
typedef struct vcl_shared_session_
{
u32 ss_index;
u32 *workers;
} vcl_shared_session_t;
typedef struct
{
CLIB_CACHE_LINE_ALIGN_MARK (cacheline0);
#define _(type, name) type name;
foreach_app_session_field
#undef _
u32 sndbuf_size; // VPP-TBD: Hack until support setsockopt(SO_SNDBUF)
u32 rcvbuf_size; // VPP-TBD: Hack until support setsockopt(SO_RCVBUF)
u32 user_mss; // VPP-TBD: Hack until support setsockopt(TCP_MAXSEG)
u8 *segment_name;
u32 sm_seg_index;
u32 client_context;
u64 vpp_handle;
/* Socket configuration state */
u8 is_vep;
u8 is_vep_session;
u8 has_rx_evt;
u32 attr;
u32 wait_cont_idx;
vppcom_epoll_t vep;
int libc_epfd;
svm_msg_q_t *our_evt_q;
u64 options[16];
vcl_session_msg_t *accept_evts_fifo;
u32 shared_index;
#if VCL_ELOG
elog_track_t elog_track;
#endif
} vcl_session_t;
typedef struct vppcom_cfg_t_
{
u64 heapsize;
u32 max_workers;
u32 vpp_api_q_length;
u64 segment_baseva;
u32 segment_size;
u32 add_segment_size;
u32 preallocated_fifo_pairs;
u32 rx_fifo_size;
u32 tx_fifo_size;
u32 event_queue_size;
u32 listen_queue_size;
u8 app_proxy_transport_tcp;
u8 app_proxy_transport_udp;
u8 app_scope_local;
u8 app_scope_global;
u8 *namespace_id;
u64 namespace_secret;
u8 use_mq_eventfd;
f64 app_timeout;
f64 session_timeout;
f64 accept_timeout;
u32 event_ring_size;
char *event_log_path;
u8 *vpp_api_filename;
u8 *vpp_api_socket_name;
} vppcom_cfg_t;
void vppcom_cfg (vppcom_cfg_t * vcl_cfg);
typedef struct vcl_cut_through_registration_
{
svm_msg_q_t *mq;
svm_msg_q_t *peer_mq;
u32 sid;
u32 epoll_evt_conn_index; /*< mq evt connection index part of
the mqs evtfd epoll (if used) */
} vcl_cut_through_registration_t;
typedef struct vcl_mq_evt_conn_
{
svm_msg_q_t *mq;
int mq_fd;
} vcl_mq_evt_conn_t;
typedef struct vcl_worker_
{
CLIB_CACHE_LINE_ALIGN_MARK (cacheline0);
/* Session pool */
vcl_session_t *sessions;
/** Worker/thread index in current process */
u32 wrk_index;
/** Worker index in vpp*/
u32 vpp_wrk_index;
/** API client handle */
u32 my_client_index;
/** State of the connection, shared between msg RX thread and main thread */
volatile app_state_t wrk_state;
/** VPP binary api input queue */
svm_queue_t *vl_input_queue;
/** Message queues epoll fd. Initialized only if using mqs with eventfds */
int mqs_epfd;
/** Pool of event message queue event connections */
vcl_mq_evt_conn_t *mq_evt_conns;
/** Per worker buffer for receiving mq epoll events */
struct epoll_event *mq_events;
/** Hash table for disconnect processing */
uword *session_index_by_vpp_handles;
/** Select bitmaps */
clib_bitmap_t *rd_bitmap;
clib_bitmap_t *wr_bitmap;
clib_bitmap_t *ex_bitmap;
/** Our event message queue */
svm_msg_q_t *app_event_queue;
/** VPP workers event message queues */
svm_msg_q_t **vpp_event_queues;
/** For deadman timers */
clib_time_t clib_time;
/** Pool of cut through registrations */
vcl_cut_through_registration_t *cut_through_registrations;
/** Lock for accessing ct registration pool */
clib_spinlock_t ct_registration_lock;
/** Cut-through registration by mq address hash table */
uword *ct_registration_by_mq;
/** Vector acting as buffer for mq messages */
svm_msg_q_msg_t *mq_msg_vector;
/** Vector of unhandled events */
session_event_t *unhandled_evts_vector;
/** Used also as a thread stop key buffer */
pthread_t thread_id;
/** Current pid, may be different from main_pid if forked child */
pid_t current_pid;
u32 forked_child;
} vcl_worker_t;
typedef struct vppcom_main_t_
{
u8 is_init;
u32 debug;
pthread_t main_cpu;
/** Main process pid */
pid_t main_pid;
/** App's index in vpp. It's used by vpp to identify the app */
u32 app_index;
/** State of the connection, shared between msg RX thread and main thread */
volatile app_state_t app_state;
u8 *app_name;
/** VCL configuration */
vppcom_cfg_t cfg;
volatile u32 forking;
/** Workers */
vcl_worker_t *workers;
/** Lock to protect worker registrations */
clib_spinlock_t workers_lock;
/** Pool of shared sessions */
vcl_shared_session_t *shared_sessions;
/** Lock to protect segment hash table */
clib_rwlock_t segment_table_lock;
/** Mapped segments table */
uword *segment_table;
svm_fifo_segment_main_t segment_main;
#ifdef VCL_ELOG
/* VPP Event-logger */
elog_main_t elog_main;
elog_track_t elog_track;
#endif
/* VNET_API_ERROR_FOO -> "Foo" hash table */
uword *error_string_by_error_number;
} vppcom_main_t;
extern vppcom_main_t *vcm;
#define VCL_INVALID_SESSION_INDEX ((u32)~0)
#define VCL_INVALID_SEGMENT_INDEX ((u32)~0)
#define VCL_INVALID_SEGMENT_HANDLE ((u64)~0)
static inline vcl_session_t *
vcl_session_alloc (vcl_worker_t * wrk)
{
vcl_session_t *s;
pool_get (wrk->sessions, s);
memset (s, 0, sizeof (*s));
s->session_index = s - wrk->sessions;
s->shared_index = ~0;
return s;
}
static inline void
vcl_session_free (vcl_worker_t * wrk, vcl_session_t * s)
{
pool_put (wrk->sessions, s);
}
static inline vcl_session_t *
vcl_session_get (vcl_worker_t * wrk, u32 session_index)
{
if (pool_is_free_index (wrk->sessions, session_index))
return 0;
return pool_elt_at_index (wrk->sessions, session_index);
}
static inline int
vcl_session_handle (vcl_session_t * s)
{
ASSERT (s->session_index < 2 << 24);
return (vcl_get_worker_index () << 24 | s->session_index);
}
static inline void
vcl_session_handle_parse (u32 handle, u32 * wrk_index, u32 * session_index)
{
*wrk_index = handle >> 24;
*session_index = handle & 0xFFFFFF;
}
static inline vcl_session_t *
vcl_session_get_w_handle (vcl_worker_t * wrk, u32 session_handle)
{
u32 session_index, wrk_index;
vcl_session_handle_parse (session_handle, &wrk_index, &session_index);
ASSERT (wrk_index == wrk->wrk_index);
return vcl_session_get (wrk, session_index);
}
static inline vcl_session_t *
vcl_session_get_w_vpp_handle (vcl_worker_t * wrk, u64 vpp_handle)
{
uword *p;
if ((p = hash_get (wrk->session_index_by_vpp_handles, vpp_handle)))
return vcl_session_get (wrk, (u32) p[0]);
return 0;
}
static inline u32
vcl_session_index_from_vpp_handle (vcl_worker_t * wrk, u64 vpp_handle)
{
uword *p;
if ((p = hash_get (wrk->session_index_by_vpp_handles, vpp_handle)))
return p[0];
return VCL_INVALID_SESSION_INDEX;
}
static inline void
vcl_session_table_add_vpp_handle (vcl_worker_t * wrk, u64 handle, u32 value)
{
hash_set (wrk->session_index_by_vpp_handles, handle, value);
}
static inline void
vcl_session_table_del_vpp_handle (vcl_worker_t * wrk, u64 vpp_handle)
{
hash_unset (wrk->session_index_by_vpp_handles, vpp_handle);
}
static inline uword *
vcl_session_table_lookup_vpp_handle (vcl_worker_t * wrk, u64 handle)
{
return hash_get (wrk->session_index_by_vpp_handles, handle);
}
static inline void
vcl_session_table_add_listener (vcl_worker_t * wrk, u64 listener_handle,
u32 value)
{
/* Session and listener handles have different formats. The latter has
* the thread index in the upper 32 bits while the former has the session
* type. Knowing that, for listeners we just flip the MSB to 1 */
listener_handle |= 1ULL << 63;
hash_set (wrk->session_index_by_vpp_handles, listener_handle, value);
}
static inline void
vcl_session_table_del_listener (vcl_worker_t * wrk, u64 listener_handle)
{
listener_handle |= 1ULL << 63;
hash_unset (wrk->session_index_by_vpp_handles, listener_handle);
}
static inline vcl_session_t *
vcl_session_table_lookup_listener (vcl_worker_t * wrk, u64 listener_handle)
{
uword *p;
u64 handle = listener_handle | (1ULL << 63);
vcl_session_t *session;
p = hash_get (wrk->session_index_by_vpp_handles, handle);
if (!p)
{
clib_warning ("VCL<%d>: couldn't find listen session: unknown vpp "
"listener handle %llx", getpid (), listener_handle);
return 0;
}
if (pool_is_free_index (wrk->sessions, p[0]))
{
VDBG (1, "VCL<%d>: invalid listen session, sid (%u)", getpid (), p[0]);
return 0;
}
session = pool_elt_at_index (wrk->sessions, p[0]);
ASSERT (session->session_state & STATE_LISTEN);
return session;
}
const char *vppcom_session_state_str (session_state_t state);
static inline u8
vcl_session_is_ct (vcl_session_t * s)
{
return (s->our_evt_q != 0);
}
/*
* Helpers
*/
int vcl_wait_for_app_state_change (app_state_t app_state);
vcl_cut_through_registration_t
* vcl_ct_registration_lock_and_alloc (vcl_worker_t * wrk);
void vcl_ct_registration_del (vcl_worker_t * wrk,
vcl_cut_through_registration_t * ctr);
u32 vcl_ct_registration_index (vcl_worker_t * wrk,
vcl_cut_through_registration_t * ctr);
void vcl_ct_registration_lock (vcl_worker_t * wrk);
void vcl_ct_registration_unlock (vcl_worker_t * wrk);
vcl_cut_through_registration_t
* vcl_ct_registration_lock_and_lookup (vcl_worker_t * wrk, uword mq_addr);
void vcl_ct_registration_lookup_add (vcl_worker_t * wrk, uword mq_addr,
u32 ctr_index);
void vcl_ct_registration_lookup_del (vcl_worker_t * wrk, uword mq_addr);
vcl_mq_evt_conn_t *vcl_mq_evt_conn_alloc (vcl_worker_t * wrk);
u32 vcl_mq_evt_conn_index (vcl_worker_t * wrk, vcl_mq_evt_conn_t * mqc);
vcl_mq_evt_conn_t *vcl_mq_evt_conn_get (vcl_worker_t * wrk, u32 mq_conn_idx);
int vcl_mq_epoll_add_evfd (vcl_worker_t * wrk, svm_msg_q_t * mq);
int vcl_mq_epoll_del_evfd (vcl_worker_t * wrk, u32 mqc_index);
vcl_worker_t *vcl_worker_alloc_and_init (void);
void vcl_worker_cleanup (vcl_worker_t * wrk, u8 notify_vpp);
int vcl_worker_register_with_vpp (void);
int vcl_worker_set_bapi (void);
void vcl_worker_share_sessions (vcl_worker_t * parent_wrk);
int vcl_worker_unshare_session (vcl_worker_t * wrk, vcl_session_t * s);
int vcl_session_get_refcnt (vcl_session_t * s);
void vcl_segment_table_add (u64 segment_handle, u32 svm_segment_index);
u32 vcl_segment_table_lookup (u64 segment_handle);
void vcl_segment_table_del (u64 segment_handle);
static inline vcl_worker_t *
vcl_worker_get (u32 wrk_index)
{
return pool_elt_at_index (vcm->workers, wrk_index);
}
static inline vcl_worker_t *
vcl_worker_get_if_valid (u32 wrk_index)
{
if (pool_is_free_index (vcm->workers, wrk_index))
return 0;
return pool_elt_at_index (vcm->workers, wrk_index);
}
static inline vcl_worker_t *
vcl_worker_get_current (void)
{
return vcl_worker_get (vcl_get_worker_index ());
}
/*
* VCL Binary API
*/
int vppcom_connect_to_vpp (char *app_name);
void vppcom_init_error_string_table (void);
void vppcom_send_session_enable_disable (u8 is_enable);
void vppcom_app_send_attach (void);
void vppcom_app_send_detach (void);
void vppcom_send_connect_sock (vcl_session_t * session);
void vppcom_send_disconnect_session (u64 vpp_handle);
void vppcom_send_bind_sock (vcl_session_t * session);
void vppcom_send_unbind_sock (u64 vpp_handle);
void vppcom_api_hookup (void);
void vppcom_send_accept_session_reply (u64 vpp_handle, u32 context, int rv);
void vcl_send_app_worker_add_del (u8 is_add);
void vcl_send_child_worker_del (vcl_worker_t * wrk);
u32 vcl_max_nsid_len (void);
u8 *format_api_error (u8 * s, va_list * args);
#endif /* SRC_VCL_VCL_PRIVATE_H_ */
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/