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gerrit.nordix.org / fdio / vpp / 35dfedc55fe40c781278ca04789b5ecc4c56e9c2 / . / extras / libmemif / src / main.c
blob: 6048e4ef80e074807d233ac5c260f63fbb7b1f88 [file] [log] [blame]
/*
*------------------------------------------------------------------
* Copyright (c) 2017 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.
*------------------------------------------------------------------
*/
#include <stdint.h>
#include <net/if.h>
#include <sys/types.h>
#include <fcntl.h>
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/uio.h>
#include <sys/mman.h>
#include <sys/prctl.h>
#include <inttypes.h>
#include <string.h>
#include <stdio.h>
#include <netdb.h>
#include <linux/ip.h>
#include <linux/icmp.h>
#include <arpa/inet.h>
#include <stdlib.h>
#include <netinet/if_ether.h>
#include <net/if_arp.h>
#include <asm/byteorder.h>
#include <byteswap.h>
#include <string.h>
#include <errno.h>
#include <sys/stat.h>
#include <sys/eventfd.h>
#include <sys/timerfd.h>
#include <sys/epoll.h>
#include <signal.h>
#include <linux/memfd.h>
/* memif protocol msg, ring and descriptor definitions */
#include <memif.h>
/* memif api */
#include <libmemif.h>
/* socket messaging functions */
#include <socket.h>
/* private structs and functions */
#include <memif_private.h>
#define ERRLIST_LEN 39
#define MAX_ERRBUF_LEN 256
#if __x86_x64__
#define MEMIF_MEMORY_BARRIER() __builtin_ia32_sfence ()
#else
#define MEMIF_MEMORY_BARRIER() __sync_synchronize ()
#endif /* __x86_x64__ */
libmemif_main_t libmemif_main;
int memif_epfd;
int poll_cancel_fd = -1;
static char memif_buf[MAX_ERRBUF_LEN];
const char *memif_errlist[ERRLIST_LEN] = { /* MEMIF_ERR_SUCCESS */
"Success.",
/* MEMIF_ERR_SYSCALL */
"Unspecified syscall error (build with -DMEMIF_DBG or make debug).",
/* MEMIF_ERR_ACCES */
"Permission to resoure denied.",
/* MEMIF_ERR_NO_FILE */
"Socket file does not exist",
/* MEMIF_ERR_FILE_LIMIT */
"System limit on total numer of open files reached.",
/* MEMIF_ERR_PROC_FILE_LIMIT */
"Per-process limit on total number of open files reached.",
/* MEMIF_ERR_ALREADY */
"Connection already requested.",
/* MEMIF_ERR_AGAIN */
"File descriptor refers to file other than socket, or operation would block.",
/* MEMIF_ERR_BAD_FD */
"Bad file descriptor.",
/* MEMIF_ERR_NOMEM */
"Out of memory.",
/* MEMIF_ERR_INVAL_ARG */
"Invalid argument.",
/* MEMIF_ERR_NOCONN */
"Memif connection handle does not point to existing conenction",
/* MEMIF_ERR_CONN */
"Memif connection handle points to existing connection",
/* MEMIF_ERR_CB_FDUPDATE */
"Callback memif_control_fd_update_t returned error",
/* MEMIF_ERR_FILE_NOT_SOCK */
"File specified by socket filename exists and is not socket.",
/* MEMIF_ERR_NO_SHMFD */
"Missing shared memory file descriptor. (internal error)",
/* MEMIF_ERR_COOKIE */
"Invalid cookie on ring. (internal error)",
/* MEMIF_ERR_NOBUF_RING */
"Ring buffer full.",
/* MEMIF_ERR_NOBUF */
"Not enough memif buffers. There are unreceived data in shared memory.",
/* MEMIF_ERR_NOBUF_DET */
"Not enough space for memif details in suplied buffer. String data might be malformed.",
/* MEMIF_ERR_INT_WRITE */
"Send interrupt error.",
/* MEMIF_ERR_MFMSG */
"Malformed message received on control channel.",
/* MEMIF_ERR_QID */
"Invalid queue id",
/* MEMIF_ERR_PROTO */
"Incompatible memory interface protocol version.",
/* MEMIF_ERR_ID */
"Unmatched interface id.",
/* MEMIF_ERR_ACCSLAVE */
"Slave cannot accept connection reqest.",
/* MEMIF_ERR_ALRCONN */
"Interface is already connected.",
/* MEMIF_ERR_MODE */
"Mode mismatch.",
/* MEMIF_ERR_SECRET */
"Secret mismatch.",
/* MEMIF_ERR_NOSECRET */
"Secret required.",
/* MEMIF_ERR_MAXREG */
"Limit on total number of regions reached.",
/* MEMIF_ERR_MAXRING */
"Limit on total number of ring reached.",
/* MEMIF_ERR_NO_INTFD */
"Missing interrupt file descriptor. (internal error)",
/* MEMIF_ERR_DISCONNECT */
"Interface received disconnect request.",
/* MEMIF_ERR_DISCONNECTED */
"Interface is disconnected.",
/* MEMIF_ERR_UNKNOWN_MSG */
"Unknown message type received on control channel. (internal error)",
/* MEMIF_ERR_POLL_CANCEL */
"Memif event polling was canceled.",
/* MEMIF_ERR_MAX_RING */
"Maximum log2 ring size is 15",
/* MEMIF_ERR_PRIVHDR */
"Private headers not supported."
};
#define MEMIF_ERR_UNDEFINED "undefined error"
char *
memif_strerror (int err_code)
{
if (err_code >= ERRLIST_LEN)
{
strncpy (memif_buf, MEMIF_ERR_UNDEFINED, strlen (MEMIF_ERR_UNDEFINED));
memif_buf[strlen (MEMIF_ERR_UNDEFINED)] = '\0';
}
else
{
strncpy (memif_buf, memif_errlist[err_code],
strlen (memif_errlist[err_code]));
memif_buf[strlen (memif_errlist[err_code])] = '\0';
}
return memif_buf;
}
uint16_t
memif_get_version ()
{
return MEMIF_VERSION;
}
#define DBG_TX_BUF (0)
#define DBG_RX_BUF (1)
#ifdef MEMIF_DBG_SHM
static void
print_bytes (void *data, uint16_t len, uint8_t q)
{
if (q == DBG_TX_BUF)
printf ("\nTX:\n\t");
else
printf ("\nRX:\n\t");
int i;
for (i = 0; i < len; i++)
{
if (i % 8 == 0)
printf ("\n%d:\t", i);
printf ("%02X ", ((uint8_t *) (data))[i]);
}
printf ("\n\n");
}
#endif /* MEMIF_DBG_SHM */
int
memif_syscall_error_handler (int err_code)
{
DBG ("%s", strerror (err_code));
if (err_code == 0)
return MEMIF_ERR_SUCCESS;
if (err_code == EACCES)
return MEMIF_ERR_ACCES;
if (err_code == ENFILE)
return MEMIF_ERR_FILE_LIMIT;
if (err_code == EMFILE)
return MEMIF_ERR_PROC_FILE_LIMIT;
if (err_code == ENOMEM)
return MEMIF_ERR_NOMEM;
/* connection refused if master does not exist
this error would spam the user until master was created */
if (err_code == ECONNREFUSED)
return MEMIF_ERR_SUCCESS;
if (err_code == EALREADY)
return MEMIF_ERR_ALREADY;
if (err_code == EAGAIN)
return MEMIF_ERR_AGAIN;
if (err_code == EBADF)
return MEMIF_ERR_BAD_FD;
if (err_code == ENOENT)
return MEMIF_ERR_NO_FILE;
/* other syscall errors */
return MEMIF_ERR_SYSCALL;
}
static int
memif_add_epoll_fd (int fd, uint32_t events)
{
if (fd < 0)
{
DBG ("invalid fd %d", fd);
return -1;
}
struct epoll_event evt;
memset (&evt, 0, sizeof (evt));
evt.events = events;
evt.data.fd = fd;
if (epoll_ctl (memif_epfd, EPOLL_CTL_ADD, fd, &evt) < 0)
{
DBG ("epoll_ctl: %s fd %d", strerror (errno), fd);
return -1;
}
DBG ("fd %d added to epoll", fd);
return 0;
}
static int
memif_mod_epoll_fd (int fd, uint32_t events)
{
if (fd < 0)
{
DBG ("invalid fd %d", fd);
return -1;
}
struct epoll_event evt;
memset (&evt, 0, sizeof (evt));
evt.events = events;
evt.data.fd = fd;
if (epoll_ctl (memif_epfd, EPOLL_CTL_MOD, fd, &evt) < 0)
{
DBG ("epoll_ctl: %s fd %d", strerror (errno), fd);
return -1;
}
DBG ("fd %d moddified on epoll", fd);
return 0;
}
static int
memif_del_epoll_fd (int fd)
{
if (fd < 0)
{
DBG ("invalid fd %d", fd);
return -1;
}
struct epoll_event evt;
memset (&evt, 0, sizeof (evt));
if (epoll_ctl (memif_epfd, EPOLL_CTL_DEL, fd, &evt) < 0)
{
DBG ("epoll_ctl: %s fd %d", strerror (errno), fd);
return -1;
}
DBG ("fd %d removed from epoll", fd);
return 0;
}
int
memif_control_fd_update (int fd, uint8_t events)
{
if (events & MEMIF_FD_EVENT_DEL)
return memif_del_epoll_fd (fd);
uint32_t evt = 0;
if (events & MEMIF_FD_EVENT_READ)
evt |= EPOLLIN;
if (events & MEMIF_FD_EVENT_WRITE)
evt |= EPOLLOUT;
if (events & MEMIF_FD_EVENT_MOD)
return memif_mod_epoll_fd (fd, evt);
return memif_add_epoll_fd (fd, evt);
}
int
add_list_elt (memif_list_elt_t * e, memif_list_elt_t ** list, uint16_t * len)
{
libmemif_main_t *lm = &libmemif_main;
int i;
for (i = 0; i < *len; i++)
{
if ((*list)[i].data_struct == NULL)
{
(*list)[i].key = e->key;
(*list)[i].data_struct = e->data_struct;
return i;
}
}
memif_list_elt_t *tmp;
tmp = realloc (*list, sizeof (memif_list_elt_t) * *len * 2);
if (tmp == NULL)
return -1;
for (i = *len; i < *len * 2; i++)
{
tmp[i].key = -1;
tmp[i].data_struct = NULL;
}
tmp[*len].key = e->key;
tmp[*len].data_struct = e->data_struct;
i = *len;
*len = *len * 2;
*list = tmp;
return i;
}
int
get_list_elt (memif_list_elt_t ** e, memif_list_elt_t * list, uint16_t len,
int key)
{
if (key == -1)
{
*e = NULL;
return -1;
}
int i;
for (i = 0; i < len; i++)
{
if (list[i].key == key)
{
*e = &list[i];
return 0;
}
}
*e = NULL;
return -1;
}
/* does not free memory, only marks element as free */
int
free_list_elt (memif_list_elt_t * list, uint16_t len, int key)
{
int i;
for (i = 0; i < len; i++)
{
if (list[i].key == key)
{
list[i].key = -1;
list[i].data_struct = NULL;
return 0;
}
}
return -1;
}
int
free_list_elt_ctx (memif_list_elt_t * list, uint16_t len,
memif_connection_t * ctx)
{
int i;
for (i = 0; i < len; i++)
{
if (list[i].key == -1)
{
if (list[i].data_struct == ctx)
{
list[i].data_struct = NULL;
return 0;
}
}
}
return -1;
}
static void
memif_control_fd_update_register (memif_control_fd_update_t * cb)
{
libmemif_main_t *lm = &libmemif_main;
lm->control_fd_update = cb;
}
static void
memif_alloc_register (memif_alloc_t * ma)
{
libmemif_main_t *lm = &libmemif_main;
lm->alloc = ma;
}
static void
memif_free_register (memif_free_t * mf)
{
libmemif_main_t *lm = &libmemif_main;
lm->free = mf;
}
int
memif_init (memif_control_fd_update_t * on_control_fd_update, char *app_name,
memif_alloc_t * memif_alloc, memif_free_t * memif_free)
{
int err = MEMIF_ERR_SUCCESS; /* 0 */
libmemif_main_t *lm = &libmemif_main;
memset (lm, 0, sizeof (libmemif_main_t));
if (memif_alloc != NULL)
{
memif_alloc_register (memif_alloc);
}
else
memif_alloc_register (malloc);
if (memif_free != NULL)
memif_free_register (memif_free);
else
memif_free_register (free);
if (app_name != NULL)
{
uint8_t len = (strlen (app_name) > MEMIF_NAME_LEN)
? strlen (app_name) : MEMIF_NAME_LEN;
strncpy ((char *) lm->app_name, app_name, len);
}
else
{
strncpy ((char *) lm->app_name, MEMIF_DEFAULT_APP_NAME,
strlen (MEMIF_DEFAULT_APP_NAME));
}
/* register control fd update callback */
if (on_control_fd_update != NULL)
memif_control_fd_update_register (on_control_fd_update);
else
{
memif_epfd = epoll_create (1);
memif_control_fd_update_register (memif_control_fd_update);
if ((poll_cancel_fd = eventfd (0, EFD_NONBLOCK)) < 0)
{
err = errno;
DBG ("eventfd: %s", strerror (err));
return memif_syscall_error_handler (err);
}
lm->control_fd_update (poll_cancel_fd, MEMIF_FD_EVENT_READ);
DBG ("libmemif event polling initialized");
}
lm->control_list_len = 2;
lm->interrupt_list_len = 2;
lm->listener_list_len = 1;
lm->pending_list_len = 1;
lm->control_list =
lm->alloc (sizeof (memif_list_elt_t) * lm->control_list_len);
if (lm->control_list == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
lm->interrupt_list =
lm->alloc (sizeof (memif_list_elt_t) * lm->interrupt_list_len);
if (lm->interrupt_list == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
lm->listener_list =
lm->alloc (sizeof (memif_list_elt_t) * lm->listener_list_len);
if (lm->listener_list == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
lm->pending_list =
lm->alloc (sizeof (memif_list_elt_t) * lm->pending_list_len);
if (lm->pending_list == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
int i;
for (i = 0; i < lm->control_list_len; i++)
{
lm->control_list[i].key = -1;
lm->control_list[i].data_struct = NULL;
}
for (i = 0; i < lm->interrupt_list_len; i++)
{
lm->interrupt_list[i].key = -1;
lm->interrupt_list[i].data_struct = NULL;
}
for (i = 0; i < lm->listener_list_len; i++)
{
lm->listener_list[i].key = -1;
lm->listener_list[i].data_struct = NULL;
}
for (i = 0; i < lm->pending_list_len; i++)
{
lm->pending_list[i].key = -1;
lm->pending_list[i].data_struct = NULL;
}
lm->disconn_slaves = 0;
lm->timerfd = timerfd_create (CLOCK_REALTIME, TFD_NONBLOCK);
if (lm->timerfd < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
lm->arm.it_value.tv_sec = 2;
lm->arm.it_value.tv_nsec = 0;
lm->arm.it_interval.tv_sec = 2;
lm->arm.it_interval.tv_nsec = 0;
if (lm->control_fd_update (lm->timerfd, MEMIF_FD_EVENT_READ) < 0)
{
DBG ("callback type memif_control_fd_update_t error!");
err = MEMIF_ERR_CB_FDUPDATE;
goto error;
}
return err;
error:
memif_cleanup ();
return err;
}
static inline memif_ring_t *
memif_get_ring (memif_connection_t * conn, memif_ring_type_t type,
uint16_t ring_num)
{
if (&conn->regions[0] == NULL)
return NULL;
void *p = conn->regions[0].shm;
int ring_size =
sizeof (memif_ring_t) +
sizeof (memif_desc_t) * (1 << conn->run_args.log2_ring_size);
p += (ring_num + type * conn->run_args.num_s2m_rings) * ring_size;
return (memif_ring_t *) p;
}
int
memif_set_rx_mode (memif_conn_handle_t c, memif_rx_mode_t rx_mode,
uint16_t qid)
{
memif_connection_t *conn = (memif_connection_t *) c;
if (conn == NULL)
return MEMIF_ERR_NOCONN;
uint8_t num =
(conn->args.is_master) ? conn->run_args.num_s2m_rings : conn->run_args.
num_m2s_rings;
if (qid >= num)
return MEMIF_ERR_QID;
conn->rx_queues[qid].ring->flags = rx_mode;
DBG ("rx_mode flag: %u", conn->rx_queues[qid].ring->flags);
return MEMIF_ERR_SUCCESS;
}
int
memif_create (memif_conn_handle_t * c, memif_conn_args_t * args,
memif_connection_update_t * on_connect,
memif_connection_update_t * on_disconnect,
memif_interrupt_t * on_interrupt, void *private_ctx)
{
libmemif_main_t *lm = &libmemif_main;
int err, i, index, sockfd = -1;
memif_list_elt_t list_elt;
memif_connection_t *conn = (memif_connection_t *) * c;
if (conn != NULL)
{
DBG ("This handle already points to existing memif.");
return MEMIF_ERR_CONN;
}
conn = (memif_connection_t *) lm->alloc (sizeof (memif_connection_t));
if (conn == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
memset (conn, 0, sizeof (memif_connection_t));
conn->args.interface_id = args->interface_id;
if (args->log2_ring_size == 0)
args->log2_ring_size = MEMIF_DEFAULT_LOG2_RING_SIZE;
else if (args->log2_ring_size > MEMIF_MAX_LOG2_RING_SIZE)
{
err = MEMIF_ERR_MAX_RING;
goto error;
}
if (args->buffer_size == 0)
args->buffer_size = MEMIF_DEFAULT_BUFFER_SIZE;
if (args->num_s2m_rings == 0)
args->num_s2m_rings = MEMIF_DEFAULT_TX_QUEUES;
if (args->num_m2s_rings == 0)
args->num_m2s_rings = MEMIF_DEFAULT_RX_QUEUES;
conn->args.num_s2m_rings = args->num_s2m_rings;
conn->args.num_m2s_rings = args->num_m2s_rings;
conn->args.buffer_size = args->buffer_size;
conn->args.log2_ring_size = args->log2_ring_size;
conn->args.is_master = args->is_master;
conn->args.mode = args->mode;
conn->msg_queue = NULL;
conn->regions = NULL;
conn->tx_queues = NULL;
conn->rx_queues = NULL;
conn->fd = -1;
conn->on_connect = on_connect;
conn->on_disconnect = on_disconnect;
conn->on_interrupt = on_interrupt;
conn->private_ctx = private_ctx;
memset (&conn->run_args, 0, sizeof (memif_conn_run_args_t));
uint8_t l = strlen ((char *) args->interface_name);
strncpy ((char *) conn->args.interface_name, (char *) args->interface_name,
l);
/* allocate and initialize socket_filename so it can be copyed to sun_path
without memory leaks */
conn->args.socket_filename = lm->alloc (sizeof (char *) * 108);
if (conn->args.socket_filename == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
memset (conn->args.socket_filename, 0, 108 * sizeof (char *));
if (args->socket_filename)
{
if (conn->args.socket_filename == NULL)
{
err = memif_syscall_error_handler (errno);
goto error;
}
strncpy ((char *) conn->args.socket_filename,
(char *) args->socket_filename,
strlen ((char *) args->socket_filename));
}
else
{
uint16_t sdl = strlen (MEMIF_DEFAULT_SOCKET_DIR);
uint16_t sfl = strlen (MEMIF_DEFAULT_SOCKET_FILENAME);
if (conn->args.socket_filename == NULL)
{
err = memif_syscall_error_handler (errno);
goto error;
}
strncpy ((char *) conn->args.socket_filename,
MEMIF_DEFAULT_SOCKET_DIR, sdl);
conn->args.socket_filename[sdl] = '/';
strncpy ((char *) (conn->args.socket_filename + 1 + sdl),
MEMIF_DEFAULT_SOCKET_FILENAME, sfl);
}
if ((l = strlen ((char *) args->secret)) > 0)
{
strncpy ((char *) conn->args.secret, (char *) args->secret, l);
}
if (conn->args.is_master)
{
conn->run_args.buffer_size = conn->args.buffer_size;
memif_socket_t *ms;
memif_list_elt_t elt;
for (i = 0; i < lm->listener_list_len; i++)
{
if ((ms =
(memif_socket_t *) lm->listener_list[i].data_struct) != NULL)
{
if (strncmp
((char *) ms->filename, (char *) conn->args.socket_filename,
strlen ((char *) ms->filename)) == 0)
{
/* add interface to listener socket */
elt.key = conn->args.interface_id;
*c = elt.data_struct = conn;
add_list_elt (&elt, &ms->interface_list,
&ms->interface_list_len);
ms->use_count++;
conn->listener_fd = ms->fd;
break;
}
}
else
{
struct stat file_stat;
if (stat ((char *) conn->args.socket_filename, &file_stat) == 0)
{
if (S_ISSOCK (file_stat.st_mode))
unlink ((char *) conn->args.socket_filename);
else
return memif_syscall_error_handler (errno);
}
DBG ("creating socket file");
ms = lm->alloc (sizeof (memif_socket_t));
if (ms == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
ms->filename =
lm->alloc (strlen ((char *) conn->args.socket_filename) +
sizeof (char));
if (ms->filename == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
memset (ms->filename, 0,
strlen ((char *) conn->args.socket_filename) +
sizeof (char));
strncpy ((char *) ms->filename,
(char *) conn->args.socket_filename,
strlen ((char *) conn->args.socket_filename));
ms->interface_list_len = 1;
ms->interface_list =
lm->alloc (sizeof (memif_list_elt_t) *
ms->interface_list_len);
if (ms->interface_list == NULL)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
ms->interface_list[0].key = -1;
ms->interface_list[0].data_struct = NULL;
struct sockaddr_un un = { 0 };
int on = 1;
ms->fd = socket (AF_UNIX, SOCK_SEQPACKET, 0);
if (ms->fd < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
DBG ("socket %d created", ms->fd);
un.sun_family = AF_UNIX;
strncpy ((char *) un.sun_path, (char *) ms->filename,
sizeof (un.sun_path) - 1);
DBG ("sockopt");
if (setsockopt
(ms->fd, SOL_SOCKET, SO_PASSCRED, &on, sizeof (on)) < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
DBG ("bind");
if (bind (ms->fd, (struct sockaddr *) &un, sizeof (un)) < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
DBG ("listen");
if (listen (ms->fd, 1) < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
DBG ("stat");
if (stat ((char *) ms->filename, &file_stat) < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
/* add interface to listener socket */
elt.key = conn->args.interface_id;
*c = elt.data_struct = conn;
add_list_elt (&elt, &ms->interface_list,
&ms->interface_list_len);
ms->use_count = 1;
conn->listener_fd = ms->fd;
/* add listener socket to libmemif main */
elt.key = ms->fd;
elt.data_struct = ms;
add_list_elt (&elt, &lm->listener_list, &lm->listener_list_len);
lm->control_fd_update (ms->fd, MEMIF_FD_EVENT_READ);
break;
}
}
}
else
{
if (lm->disconn_slaves == 0)
{
if (timerfd_settime (lm->timerfd, 0, &lm->arm, NULL) < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
}
lm->disconn_slaves++;
list_elt.key = -1;
*c = list_elt.data_struct = conn;
if ((index =
add_list_elt (&list_elt, &lm->control_list,
&lm->control_list_len)) < 0)
{
err = MEMIF_ERR_NOMEM;
goto error;
}
}
conn->index = index;
return 0;
error:
if (sockfd > 0)
close (sockfd);
sockfd = -1;
if (conn->args.socket_filename)
lm->free (conn->args.socket_filename);
if (conn != NULL)
lm->free (conn);
*c = conn = NULL;
return err;
}
int
memif_control_fd_handler (int fd, uint8_t events)
{
int i, rv, sockfd = -1, err = MEMIF_ERR_SUCCESS; /* 0 */
uint16_t num;
memif_list_elt_t *e = NULL;
memif_connection_t *conn;
libmemif_main_t *lm = &libmemif_main;
if (fd == lm->timerfd)
{
uint64_t b;
ssize_t size;
size = read (fd, &b, sizeof (b));
for (i = 0; i < lm->control_list_len; i++)
{
if ((lm->control_list[i].key < 0)
&& (lm->control_list[i].data_struct != NULL))
{
conn = lm->control_list[i].data_struct;
if (conn->args.is_master)
continue;
struct sockaddr_un sun;
sockfd = socket (AF_UNIX, SOCK_SEQPACKET, 0);
if (sockfd < 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
sun.sun_family = AF_UNIX;
strncpy (sun.sun_path, (char*) conn->args.socket_filename,
sizeof (sun.sun_path) - 1);
if (connect (sockfd, (struct sockaddr *) &sun,
sizeof (struct sockaddr_un)) == 0)
{
conn->fd = sockfd;
conn->read_fn = memif_conn_fd_read_ready;
conn->write_fn = memif_conn_fd_write_ready;
conn->error_fn = memif_conn_fd_error;
lm->control_list[conn->index].key = conn->fd;
lm->control_fd_update (sockfd,
MEMIF_FD_EVENT_READ |
MEMIF_FD_EVENT_WRITE);
lm->disconn_slaves--;
if (lm->disconn_slaves == 0)
{
if (timerfd_settime (lm->timerfd, 0, &lm->disarm, NULL)
< 0)
{
err = memif_syscall_error_handler (errno);
goto error;
}
}
}
else
{
err = memif_syscall_error_handler (errno);
goto error;
}
}
}
}
else
{
get_list_elt (&e, lm->interrupt_list, lm->interrupt_list_len, fd);
if (e != NULL)
{
if (((memif_connection_t *) e->data_struct)->on_interrupt != NULL)
{
num =
(((memif_connection_t *) e->data_struct)->args.
is_master) ? ((memif_connection_t *) e->data_struct)->
run_args.num_s2m_rings : ((memif_connection_t *) e->
data_struct)->run_args.
num_m2s_rings;
for (i = 0; i < num; i++)
{
if (((memif_connection_t *) e->data_struct)->rx_queues[i].
int_fd == fd)
{
((memif_connection_t *) e->
data_struct)->on_interrupt ((void *) e->data_struct,
((memif_connection_t *)
e->data_struct)->
private_ctx, i);
return MEMIF_ERR_SUCCESS;
}
}
}
return MEMIF_ERR_SUCCESS;
}
get_list_elt (&e, lm->listener_list, lm->listener_list_len, fd);
if (e != NULL)
{
memif_conn_fd_accept_ready ((memif_socket_t *) e->data_struct);
return MEMIF_ERR_SUCCESS;
}
get_list_elt (&e, lm->pending_list, lm->pending_list_len, fd);
if (e != NULL)
{
memif_read_ready (fd);
return MEMIF_ERR_SUCCESS;
}
get_list_elt (&e, lm->control_list, lm->control_list_len, fd);
if (e != NULL)
{
if (events & MEMIF_FD_EVENT_READ)
{
err =
((memif_connection_t *) e->data_struct)->read_fn (e->
data_struct);
if (err != MEMIF_ERR_SUCCESS)
return err;
}
if (events & MEMIF_FD_EVENT_WRITE)
{
err =
((memif_connection_t *) e->data_struct)->write_fn (e->
data_struct);
if (err != MEMIF_ERR_SUCCESS)
return err;
}
if (events & MEMIF_FD_EVENT_ERROR)
{
err =
((memif_connection_t *) e->data_struct)->error_fn (e->
data_struct);
if (err != MEMIF_ERR_SUCCESS)
return err;
}
}
}
return MEMIF_ERR_SUCCESS; /* 0 */
error:
if (sockfd > 0)
close (sockfd);
sockfd = -1;
return err;
}
int
memif_poll_event (int timeout)
{
libmemif_main_t *lm = &libmemif_main;
memif_list_elt_t *elt;
struct epoll_event evt, *e;
int en = 0, err = MEMIF_ERR_SUCCESS, i = 0; /* 0 */
uint16_t num;
uint32_t events = 0;
uint64_t counter = 0;
ssize_t r = 0;
memset (&evt, 0, sizeof (evt));
evt.events = EPOLLIN | EPOLLOUT;
sigset_t sigset;
sigemptyset (&sigset);
en = epoll_pwait (memif_epfd, &evt, 1, timeout, &sigset);
if (en < 0)
{
err = errno;
DBG ("epoll_pwait: %s", strerror (err));
return memif_syscall_error_handler (err);
}
if (en > 0)
{
if (evt.data.fd == poll_cancel_fd)
{
r = read (evt.data.fd, &counter, sizeof (counter));
return MEMIF_ERR_POLL_CANCEL;
}
if (evt.events & EPOLLIN)
events |= MEMIF_FD_EVENT_READ;
if (evt.events & EPOLLOUT)
events |= MEMIF_FD_EVENT_WRITE;
if (evt.events & EPOLLERR)
events |= MEMIF_FD_EVENT_ERROR;
err = memif_control_fd_handler (evt.data.fd, events);
return err;
}
return 0;
}
int
memif_cancel_poll_event ()
{
uint64_t counter = 1;
ssize_t w = 0;
if (poll_cancel_fd == -1)
return 0;
w = write (poll_cancel_fd, &counter, sizeof (counter));
if (w < sizeof (counter))
return MEMIF_ERR_INT_WRITE;
return 0;
}
static void
memif_msg_queue_free (libmemif_main_t * lm, memif_msg_queue_elt_t ** e)
{
if (*e == NULL)
return;
memif_msg_queue_free (lm, &(*e)->next);
lm->free (*e);
*e = NULL;
return;
}
/* send disconnect msg and close interface */
int
memif_disconnect_internal (memif_connection_t * c)
{
if (c == NULL)
{
DBG ("no connection");
return MEMIF_ERR_NOCONN;
}
uint16_t num;
int err = MEMIF_ERR_SUCCESS, i; /* 0 */
memif_queue_t *mq;
libmemif_main_t *lm = &libmemif_main;
memif_list_elt_t *e;
c->on_disconnect ((void *) c, c->private_ctx);
if (c->fd > 0)
{
memif_msg_send_disconnect (c->fd, (uint8_t *) "interface deleted", 0);
lm->control_fd_update (c->fd, MEMIF_FD_EVENT_DEL);
close (c->fd);
}
get_list_elt (&e, lm->control_list, lm->control_list_len, c->fd);
if (e != NULL)
{
if (c->args.is_master)
free_list_elt (lm->control_list, lm->control_list_len, c->fd);
e->key = c->fd = -1;
}
if (c->tx_queues != NULL)
{
num =
(c->args.is_master) ? c->run_args.num_m2s_rings : c->run_args.
num_s2m_rings;
for (i = 0; i < num; i++)
{
mq = &c->tx_queues[i];
if (mq != NULL)
{
if (mq->int_fd > 0)
close (mq->int_fd);
free_list_elt (lm->interrupt_list, lm->interrupt_list_len,
mq->int_fd);
mq->int_fd = -1;
}
}
lm->free (c->tx_queues);
c->tx_queues = NULL;
}
if (c->rx_queues != NULL)
{
num =
(c->args.is_master) ? c->run_args.num_s2m_rings : c->run_args.
num_m2s_rings;
for (i = 0; i < num; i++)
{
mq = &c->rx_queues[i];
if (mq != NULL)
{
if (mq->int_fd > 0)
{
if (c->on_interrupt != NULL)
lm->control_fd_update (mq->int_fd, MEMIF_FD_EVENT_DEL);
close (mq->int_fd);
}
free_list_elt (lm->interrupt_list, lm->interrupt_list_len,
mq->int_fd);
mq->int_fd = -1;
}
}
lm->free (c->rx_queues);
c->rx_queues = NULL;
}
if (c->regions != NULL)
{
if (munmap (c->regions[0].shm, c->regions[0].region_size) < 0)
return memif_syscall_error_handler (errno);
if (c->regions[0].fd > 0)
close (c->regions[0].fd);
c->regions[0].fd = -1;
lm->free (c->regions);
c->regions = NULL;
}
memset (&c->run_args, 0, sizeof (memif_conn_run_args_t));
memif_msg_queue_free (lm, &c->msg_queue);
if (!(c->args.is_master))
{
if (lm->disconn_slaves == 0)
{
if (timerfd_settime (lm->timerfd, 0, &lm->arm, NULL) < 0)
{
err = memif_syscall_error_handler (errno);
DBG ("timerfd_settime: arm");
}
}
lm->disconn_slaves++;
}
return err;
}
int
memif_delete (memif_conn_handle_t * conn)
{
memif_connection_t *c = (memif_connection_t *) * conn;
if (c == NULL)
{
DBG ("no connection");
return MEMIF_ERR_NOCONN;
}
libmemif_main_t *lm = &libmemif_main;
memif_list_elt_t *e = NULL;
memif_socket_t *ms = NULL;
int err = MEMIF_ERR_SUCCESS;
if (c->fd > 0)
{
DBG ("DISCONNECTING");
err = memif_disconnect_internal (c);
if (err == MEMIF_ERR_NOCONN)
return err;
}
free_list_elt_ctx (lm->control_list, lm->control_list_len, c);
if (c->args.is_master)
{
get_list_elt (&e, lm->listener_list, lm->listener_list_len,
c->listener_fd);
if (e != NULL)
{
ms = (memif_socket_t *) e->data_struct;
ms->use_count--;
free_list_elt (ms->interface_list, ms->interface_list_len,
c->args.interface_id);
if (ms->use_count <= 0)
{
lm->control_fd_update (c->listener_fd, MEMIF_FD_EVENT_DEL);
free_list_elt (lm->listener_list, lm->listener_list_len,
c->listener_fd);
close (c->listener_fd);
c->listener_fd = ms->fd = -1;
lm->free (ms->interface_list);
ms->interface_list = NULL;
lm->free (ms->filename);
ms->filename = NULL;
lm->free (ms);
ms = NULL;
}
}
}
else
{
lm->disconn_slaves--;
if (lm->disconn_slaves <= 0)
{
if (timerfd_settime (lm->timerfd, 0, &lm->disarm, NULL) < 0)
{
err = memif_syscall_error_handler (errno);
DBG ("timerfd_settime: disarm");
}
}
}
if (c->args.socket_filename)
lm->free (c->args.socket_filename);
c->args.socket_filename = NULL;
lm->free (c);
c = NULL;
*conn = c;
return err;
}
int
memif_connect1 (memif_connection_t * c)
{
libmemif_main_t *lm = &libmemif_main;
memif_region_t *mr = c->regions;
memif_queue_t *mq;
int i;
uint16_t num;
if (mr != NULL)
{
if (!mr->shm)
{
if (mr->fd < 0)
return MEMIF_ERR_NO_SHMFD;
if ((mr->shm = mmap (NULL, mr->region_size, PROT_READ | PROT_WRITE,
MAP_SHARED, mr->fd, 0)) == MAP_FAILED)
{
return memif_syscall_error_handler (errno);
}
}
}
num =
(c->args.is_master) ? c->run_args.num_m2s_rings : c->run_args.
num_s2m_rings;
for (i = 0; i < num; i++)
{
mq = &c->tx_queues[i];
if (mq != NULL)
{
mq->ring = c->regions[mq->region].shm + mq->offset;
if (mq->ring->cookie != MEMIF_COOKIE)
{
DBG ("wrong cookie on tx ring %u", i);
return MEMIF_ERR_COOKIE;
}
mq->ring->head = mq->ring->tail = mq->last_head = mq->alloc_bufs =
0;
}
}
num =
(c->args.is_master) ? c->run_args.num_s2m_rings : c->run_args.
num_m2s_rings;
for (i = 0; i < num; i++)
{
mq = &c->rx_queues[i];
if (mq != NULL)
{
mq->ring = c->regions[mq->region].shm + mq->offset;
if (mq->ring->cookie != MEMIF_COOKIE)
{
DBG ("wrong cookie on rx ring %u", i);
return MEMIF_ERR_COOKIE;
}
mq->ring->head = mq->ring->tail = mq->last_head = mq->alloc_bufs =
0;
}
}
lm->control_fd_update (c->fd, MEMIF_FD_EVENT_READ | MEMIF_FD_EVENT_MOD);
return 0;
}
int
memif_init_regions_and_queues (memif_connection_t * conn)
{
memif_ring_t *ring = NULL;
memif_region_t *r;
int i, j;
libmemif_main_t *lm = &libmemif_main;
memif_list_elt_t e;
conn->regions = (memif_region_t *) lm->alloc (sizeof (memif_region_t));
if (conn->regions == NULL)
return MEMIF_ERR_NOMEM;
r = conn->regions;
r->buffer_offset =
(conn->run_args.num_s2m_rings +
conn->run_args.num_m2s_rings) * (sizeof (memif_ring_t) +
sizeof (memif_desc_t) *
(1 << conn->run_args.log2_ring_size));
r->region_size = r->buffer_offset +
conn->run_args.buffer_size * (1 << conn->run_args.log2_ring_size) *
(conn->run_args.num_s2m_rings + conn->run_args.num_m2s_rings);
if ((r->fd =
memfd_create ("memif region 0", MFD_ALLOW_SEALING)) == -1)
if ((r->fd = memfd_create ("memif region 0", MFD_ALLOW_SEALING)) == -1)
return memif_syscall_error_handler (errno);
if ((fcntl (r->fd, F_ADD_SEALS, F_SEAL_SHRINK)) == -1)
return memif_syscall_error_handler (errno);
if ((ftruncate (r->fd, r->region_size)) == -1)
return memif_syscall_error_handler (errno);
if ((r->shm = mmap (NULL, r->region_size, PROT_READ | PROT_WRITE,
MAP_SHARED, r->fd, 0)) == MAP_FAILED)
return memif_syscall_error_handler (errno);
for (i = 0; i < conn->run_args.num_s2m_rings; i++)
{
ring = memif_get_ring (conn, MEMIF_RING_S2M, i);
DBG ("RING: %p I: %d", ring, i);
ring->head = ring->tail = 0;
ring->cookie = MEMIF_COOKIE;
ring->flags = 0;
for (j = 0; j < (1 << conn->run_args.log2_ring_size); j++)
{
uint16_t slot = i * (1 << conn->run_args.log2_ring_size) + j;
ring->desc[j].region = 0;
ring->desc[j].offset = r->buffer_offset +
(uint32_t) (slot * conn->run_args.buffer_size);
ring->desc[j].length = conn->run_args.buffer_size;
}
}
for (i = 0; i < conn->run_args.num_m2s_rings; i++)
{
ring = memif_get_ring (conn, MEMIF_RING_M2S, i);
DBG ("RING: %p I: %d", ring, i);
ring->head = ring->tail = 0;
ring->cookie = MEMIF_COOKIE;
ring->flags = 0;
for (j = 0; j < (1 << conn->run_args.log2_ring_size); j++)
{
uint16_t slot =
(i +
conn->run_args.num_s2m_rings) *
(1 << conn->run_args.log2_ring_size) + j;
ring->desc[j].region = 0;
ring->desc[j].offset = r->buffer_offset +
(uint32_t) (slot * conn->run_args.buffer_size);
ring->desc[j].length = conn->run_args.buffer_size;
}
}
memif_queue_t *mq;
mq =
(memif_queue_t *) lm->alloc (sizeof (memif_queue_t) *
conn->run_args.num_s2m_rings);
if (mq == NULL)
return MEMIF_ERR_NOMEM;
int x;
for (x = 0; x < conn->run_args.num_s2m_rings; x++)
{
if ((mq[x].int_fd = eventfd (0, EFD_NONBLOCK)) < 0)
return memif_syscall_error_handler (errno);
/* add int fd to interrupt fd list */
e.key = mq[x].int_fd;
e.data_struct = conn;
add_list_elt (&e, &lm->interrupt_list, &lm->interrupt_list_len);
mq[x].ring = memif_get_ring (conn, MEMIF_RING_S2M, x);
DBG ("RING: %p I: %d", mq[x].ring, x);
mq[x].log2_ring_size = conn->run_args.log2_ring_size;
mq[x].region = 0;
mq[x].offset =
(void *) mq[x].ring - (void *) conn->regions[mq->region].shm;
mq[x].last_head = 0;
mq[x].alloc_bufs = 0;
}
conn->tx_queues = mq;
mq =
(memif_queue_t *) lm->alloc (sizeof (memif_queue_t) *
conn->run_args.num_m2s_rings);
if (mq == NULL)
return MEMIF_ERR_NOMEM;
for (x = 0; x < conn->run_args.num_m2s_rings; x++)
{
if ((mq[x].int_fd = eventfd (0, EFD_NONBLOCK)) < 0)
return memif_syscall_error_handler (errno);
/* add int fd to interrupt fd list */
e.key = mq[x].int_fd;
e.data_struct = conn;
add_list_elt (&e, &lm->interrupt_list, &lm->interrupt_list_len);
mq[x].ring = memif_get_ring (conn, MEMIF_RING_M2S, x);
DBG ("RING: %p I: %d", mq[x].ring, x);
mq[x].log2_ring_size = conn->run_args.log2_ring_size;
mq[x].region = 0;
mq[x].offset =
(void *) mq[x].ring - (void *) conn->regions[mq->region].shm;
mq[x].last_head = 0;
mq[x].alloc_bufs = 0;
}
conn->rx_queues = mq;
return 0;
}
int
memif_buffer_enq_tx (memif_conn_handle_t conn, uint16_t qid,
memif_buffer_t * bufs, uint16_t count,
uint16_t * count_out)
{
memif_connection_t *c = (memif_connection_t *) conn;
if (EXPECT_FALSE (c == NULL))
return MEMIF_ERR_NOCONN;
if (EXPECT_FALSE (c->fd < 0))
return MEMIF_ERR_DISCONNECTED;
uint8_t num =
(c->args.is_master) ? c->run_args.num_m2s_rings : c->run_args.
num_s2m_rings;
if (EXPECT_FALSE (qid >= num))
return MEMIF_ERR_QID;
if (EXPECT_FALSE (!count_out))
return MEMIF_ERR_INVAL_ARG;
if (EXPECT_FALSE (c->args.is_master))
return MEMIF_ERR_INVAL_ARG;
memif_queue_t *mq = &c->tx_queues[qid];
memif_ring_t *ring = mq->ring;
memif_buffer_t *b0;
uint16_t mask = (1 << mq->log2_ring_size) - 1;
uint16_t ring_size;
uint16_t slot, ns;
int i, err = MEMIF_ERR_SUCCESS; /* 0 */
*count_out = 0;
ring_size = (1 << mq->log2_ring_size);
ns = ring->tail - mq->last_tail;
mq->last_tail += ns;
slot = (c->args.is_master) ? ring->tail : ring->head;
slot += mq->alloc_bufs;
/* can only be called by slave */
ns = ring_size - ring->head + mq->alloc_bufs + mq->last_tail;
b0 = bufs;
while (count && ns)
{
if (EXPECT_FALSE ((b0->flags & MEMIF_BUFFER_FLAG_RX) == 0))
{
/* not a valid buffer */
count--;
continue;
}
b0->flags &= ~MEMIF_BUFFER_FLAG_RX;
((memif_ring_t *) b0->ring)->desc[b0->desc_index & mask].offset = ring->desc[slot & mask].offset; /* put free buffer on rx ring */
ring->desc[slot & mask].offset =
(uint32_t) (b0->data - c->regions->shm);
ring->desc[slot & mask].flags |=
(b0->flags & MEMIF_BUFFER_FLAG_NEXT) ? MEMIF_DESC_FLAG_NEXT : 0;
b0->desc_index = slot;
mq->alloc_bufs++;
slot++;
count--;
ns--;
b0++;
*count_out += 1;
}
DBG ("allocated: %u/%u bufs. Total %u allocated bufs", *count_out, count,
mq->alloc_bufs);
if (count)
{
DBG ("ring buffer full! qid: %u", qid);
err = MEMIF_ERR_NOBUF_RING;
}
error:
return err;
}
int
memif_buffer_alloc (memif_conn_handle_t conn, uint16_t qid,
memif_buffer_t * bufs, uint16_t count,
uint16_t * count_out, uint16_t size)
{
memif_connection_t *c = (memif_connection_t *) conn;
if (EXPECT_FALSE (c == NULL))
return MEMIF_ERR_NOCONN;
if (EXPECT_FALSE (c->fd < 0))
return MEMIF_ERR_DISCONNECTED;
uint8_t num =
(c->args.is_master) ? c->run_args.num_m2s_rings : c->run_args.
num_s2m_rings;
if (EXPECT_FALSE (qid >= num))
return MEMIF_ERR_QID;
if (EXPECT_FALSE (!count_out))
return MEMIF_ERR_INVAL_ARG;
memif_queue_t *mq = &c->tx_queues[qid];
memif_ring_t *ring = mq->ring;
memif_buffer_t *b0, *b1;
uint16_t mask = (1 << mq->log2_ring_size) - 1;
uint16_t ring_size;
uint16_t slot, ns;
int i, err = MEMIF_ERR_SUCCESS; /* 0 */
uint16_t dst_left, src_left;
uint16_t saved_count;
memif_buffer_t *saved_b;
*count_out = 0;
ring_size = (1 << mq->log2_ring_size);
ns = ring->tail - mq->last_tail;
mq->last_tail += ns;
slot = (c->args.is_master) ? ring->tail : ring->head;
slot += mq->alloc_bufs;
if (c->args.is_master)
ns = ring->head + mq->alloc_bufs - ring->tail;
else
ns = ring_size - ring->head + mq->alloc_bufs + mq->last_tail;
while (count && ns)
{
b0 = (bufs + *count_out);
saved_b = b0;
saved_count = count;
b0->desc_index = slot;
ring->desc[slot & mask].flags = 0;
/* slave can produce buffer with original length */
dst_left = (c->args.is_master) ? ring->desc[slot & mask].length :
c->run_args.buffer_size;
src_left = size;
while (src_left)
{
if (EXPECT_FALSE (dst_left == 0))
{
if (count && ns)
{
slot++;
*count_out += 1;
mq->alloc_bufs++;
ns--;
count--;
ring->desc[b0->desc_index & mask].flags |=
MEMIF_DESC_FLAG_NEXT;
b0->flags |= MEMIF_BUFFER_FLAG_NEXT;
b0 = (bufs + *count_out);
b0->desc_index = slot;
dst_left =
(c->args.is_master) ? ring->desc[slot & mask].length : c->
run_args.buffer_size;
ring->desc[slot & mask].flags = 0;
}
else
{
/* rollback allocated chain buffers */
memset (saved_b, 0, sizeof (memif_buffer_t)
* (saved_count - count + 1));
*count_out -= saved_count - count;
mq->alloc_bufs = saved_count - count;
goto no_ns;
}
}
b0->len = memif_min (dst_left, src_left);
/* slave resets buffer offset */
if (c->args.is_master == 0)
{
uint16_t x =
(ring->desc[slot & mask].offset -
c->regions->buffer_offset) / c->run_args.buffer_size;
ring->desc[slot & mask].offset =
c->regions->buffer_offset + (x * c->run_args.buffer_size);
}
b0->data = c->regions->shm + ring->desc[slot & mask].offset;
src_left -= b0->len;
dst_left -= b0->len;
}
slot++;
*count_out += 1;
mq->alloc_bufs++;
ns--;
count--;
}
no_ns:
DBG ("allocated: %u/%u bufs. Total %u allocated bufs", *count_out, count,
mq->alloc_bufs);
if (count)
{
DBG ("ring buffer full! qid: %u", qid);
err = MEMIF_ERR_NOBUF_RING;
}
error:
return err;
}
int
memif_refill_queue (memif_conn_handle_t conn, uint16_t qid, uint16_t count,
uint16_t headroom)
{
memif_connection_t *c = (memif_connection_t *) conn;
if (EXPECT_FALSE (c == NULL))
return MEMIF_ERR_NOCONN;
if (EXPECT_FALSE (c->fd < 0))
return MEMIF_ERR_DISCONNECTED;
uint8_t num =
(c->args.is_master) ? c->run_args.num_s2m_rings : c->run_args.
num_m2s_rings;
if (EXPECT_FALSE (qid >= num))
return MEMIF_ERR_QID;
libmemif_main_t *lm = &libmemif_main;
memif_queue_t *mq = &c->rx_queues[qid];
memif_ring_t *ring = mq->ring;
uint16_t mask = (1 << mq->log2_ring_size) - 1;
uint16_t slot;
if (c->args.is_master)
{
MEMIF_MEMORY_BARRIER ();
ring->tail =
(ring->tail + count <=
mq->last_head) ? ring->tail + count : mq->last_head;
return MEMIF_ERR_SUCCESS;
}
uint16_t head = ring->head;
uint16_t ns = (1 << mq->log2_ring_size) - head + mq->last_tail;
head += (count < ns) ? count : ns;
if (headroom)
{
slot = (c->args.is_master) ? ring->head : ring->tail;
while (slot < head)
{
uint16_t x =
(ring->desc[slot & mask].offset -
c->regions->buffer_offset) / c->run_args.buffer_size;
ring->desc[slot & mask].offset =
c->regions->buffer_offset + (x * c->run_args.buffer_size) +
headroom;
slot++;
}
}
MEMIF_MEMORY_BARRIER ();
ring->head = head;
return MEMIF_ERR_SUCCESS; /* 0 */
}
int
memif_tx_burst (memif_conn_handle_t conn, uint16_t qid,
memif_buffer_t * bufs, uint16_t count, uint16_t * tx)
{
memif_connection_t *c = (memif_connection_t *) conn;
if (EXPECT_FALSE (c == NULL))
return MEMIF_ERR_NOCONN;
if (EXPECT_FALSE (c->fd < 0))
return MEMIF_ERR_DISCONNECTED;
uint8_t num =
(c->args.is_master) ? c->run_args.num_m2s_rings : c->run_args.
num_s2m_rings;
if (EXPECT_FALSE (qid >= num))
return MEMIF_ERR_QID;
if (EXPECT_FALSE (!tx))
return MEMIF_ERR_INVAL_ARG;
memif_queue_t *mq = &c->tx_queues[qid];
memif_ring_t *ring = mq->ring;
uint16_t mask = (1 << mq->log2_ring_size) - 1;
memif_buffer_t *b0;
*tx = 0;
if (count > mq->alloc_bufs)
count = mq->alloc_bufs;
if (EXPECT_FALSE (count == 0))
return MEMIF_ERR_SUCCESS;
while (count)
{
b0 = (bufs + *tx);
ring->desc[b0->desc_index & mask].length = b0->len;
#ifdef MEMIF_DBG_SHM
printf ("offset: %-6d\n", ring->desc[b0->desc_index & mask].offset);
printf ("data: %p\n",
memif_get_buffer (c, ring, b0->desc_index & mask));
printf ("index: %u\n", b0->desc_index);
print_bytes (memif_get_buffer (c, ring, b0->desc_index & mask),
ring->desc[b0->desc_index & mask].length, DBG_TX_BUF);
#endif /* MEMIF_DBG_SHM */
*tx += 1;
count--;
}
MEMIF_MEMORY_BARRIER ();
if (c->args.is_master)
ring->tail = b0->desc_index + 1;
else
ring->head = b0->desc_index + 1;
mq->alloc_bufs -= *tx;
if ((ring->flags & MEMIF_RING_FLAG_MASK_INT) == 0)
{
uint64_t a = 1;
int r = write (mq->int_fd, &a, sizeof (a));
if (r < 0)
return MEMIF_ERR_INT_WRITE;
}
return MEMIF_ERR_SUCCESS; /* 0 */
}
int
memif_rx_burst (memif_conn_handle_t conn, uint16_t qid,
memif_buffer_t * bufs, uint16_t count, uint16_t * rx)
{
memif_connection_t *c = (memif_connection_t *) conn;
if (EXPECT_FALSE (c == NULL))
return MEMIF_ERR_NOCONN;
if (EXPECT_FALSE (c->fd < 0))
return MEMIF_ERR_DISCONNECTED;
uint8_t num =
(c->args.is_master) ? c->run_args.num_s2m_rings : c->run_args.
num_m2s_rings;
if (EXPECT_FALSE (qid >= num))
return MEMIF_ERR_QID;
if (EXPECT_FALSE (!rx))
return MEMIF_ERR_INVAL_ARG;
memif_queue_t *mq = &c->rx_queues[qid];
memif_ring_t *ring = mq->ring;
uint16_t cur_slot, last_slot;
uint16_t ns;
uint16_t mask = (1 << mq->log2_ring_size) - 1;
memif_buffer_t *b0, *b1;
*rx = 0;
uint64_t b;
ssize_t r = read (mq->int_fd, &b, sizeof (b));
if (EXPECT_FALSE ((r == -1) && (errno != EAGAIN)))
return memif_syscall_error_handler (errno);
cur_slot = (c->args.is_master) ? mq->last_head : mq->last_tail;
last_slot = (c->args.is_master) ? ring->head : ring->tail;
if (cur_slot == last_slot)
return MEMIF_ERR_SUCCESS;
ns = last_slot - cur_slot;
while (ns && count)
{
b0 = (bufs + *rx);
b0->desc_index = cur_slot;
b0->data = memif_get_buffer (c, ring, cur_slot & mask);
b0->len = ring->desc[cur_slot & mask].length;
/* slave resets buffer length */
if (c->args.is_master == 0)
{
ring->desc[cur_slot & mask].length = c->run_args.buffer_size;
}
b0->flags = MEMIF_BUFFER_FLAG_RX;
if (ring->desc[cur_slot & mask].flags & MEMIF_DESC_FLAG_NEXT)
{
b0->flags |= MEMIF_BUFFER_FLAG_NEXT;
ring->desc[cur_slot & mask].flags &= ~MEMIF_DESC_FLAG_NEXT;
}
/* b0->offset = ring->desc[cur_slot & mask].offset;*/
b0->ring = ring;
#ifdef MEMIF_DBG_SHM
printf ("data: %p\n", b0->data);
printf ("index: %u\n", b0->desc_index);
printf ("ring: %p\n", b0->ring);
print_bytes (b0->data, b0->len, DBG_RX_BUF);
#endif /* MEMIF_DBG_SHM */
ns--;
*rx += 1;
count--;
cur_slot++;
}
if (c->args.is_master)
mq->last_head = cur_slot;
else
mq->last_tail = cur_slot;
if (ns)
{
DBG ("not enough buffers!");
return MEMIF_ERR_NOBUF;
}
return MEMIF_ERR_SUCCESS; /* 0 */
}
int
memif_get_details (memif_conn_handle_t conn, memif_details_t * md,
char *buf, ssize_t buflen)
{
libmemif_main_t *lm = &libmemif_main;
memif_connection_t *c = (memif_connection_t *) conn;
if (c == NULL)
return MEMIF_ERR_NOCONN;
int err = MEMIF_ERR_SUCCESS, i;
ssize_t l0, l1, total_l;
l0 = 0;
l1 = strlen ((char *) c->args.interface_name);
if (l0 + l1 < buflen)
{
md->if_name = (uint8_t *) strcpy (buf + l0, (char *) c->args.interface_name);
l0 += l1 + 1;
}
else
err = MEMIF_ERR_NOBUF_DET;
l1 = strlen ((char *) lm->app_name);
if (l0 + l1 < buflen)
{
md->inst_name = (uint8_t *) strcpy (buf + l0, (char *) lm->app_name);
l0 += l1 + 1;
}
else
err = MEMIF_ERR_NOBUF_DET;
l1 = strlen ((char *) c->remote_if_name);
if (l0 + l1 < buflen)
{
md->remote_if_name = (uint8_t *) strcpy (buf + l0, (char *) c->remote_if_name);
l0 += l1 + 1;
}
else
err = MEMIF_ERR_NOBUF_DET;
l1 = strlen ((char *) c->remote_name);
if (l0 + l1 < buflen)
{
md->remote_inst_name = (uint8_t *) strcpy (buf + l0, (char *) c->remote_name);
l0 += l1 + 1;
}
else
err = MEMIF_ERR_NOBUF_DET;
md->id = c->args.interface_id;
if (strlen((char *) c->args.secret) > 0)
{
l1 = strlen ((char *) c->args.secret);
if (l0 + l1 < buflen)
{
md->secret = (uint8_t *) strcpy (buf + l0, (char *) c->args.secret);
l0 += l1 + 1;
}
else
err = MEMIF_ERR_NOBUF_DET;
}
md->role = (c->args.is_master) ? 0 : 1;
md->mode = c->args.mode;
l1 = strlen ((char *) c->args.socket_filename);
if (l0 + l1 < buflen)
{
md->socket_filename =
(uint8_t *) strcpy (buf + l0, (char *) c->args.socket_filename);
l0 += l1 + 1;
}
else
err = MEMIF_ERR_NOBUF_DET;
md->rx_queues_num =
(c->args.is_master) ? c->run_args.num_s2m_rings : c->run_args.
num_m2s_rings;
l1 = sizeof (memif_queue_details_t) * md->rx_queues_num;
if (l0 + l1 <= buflen)
{
md->rx_queues = (memif_queue_details_t *) buf + l0;
l0 += l1;
}
else
err = MEMIF_ERR_NOBUF_DET;
for (i = 0; i < md->rx_queues_num; i++)
{
md->rx_queues[i].qid = i;
md->rx_queues[i].ring_size = (1 << c->rx_queues[i].log2_ring_size);
md->rx_queues[i].flags = c->rx_queues[i].ring->flags;
md->rx_queues[i].head = c->rx_queues[i].ring->head;
md->rx_queues[i].tail = c->rx_queues[i].ring->tail;
md->rx_queues[i].buffer_size = c->run_args.buffer_size;
}
md->tx_queues_num =
(c->args.is_master) ? c->run_args.num_m2s_rings : c->run_args.
num_s2m_rings;
l1 = sizeof (memif_queue_details_t) * md->tx_queues_num;
if (l0 + l1 <= buflen)
{
md->tx_queues = (memif_queue_details_t *) buf + l0;
l0 += l1;
}
else
err = MEMIF_ERR_NOBUF_DET;
for (i = 0; i < md->tx_queues_num; i++)
{
md->tx_queues[i].qid = i;
md->tx_queues[i].ring_size = (1 << c->tx_queues[i].log2_ring_size);
md->tx_queues[i].flags = c->tx_queues[i].ring->flags;
md->tx_queues[i].head = c->tx_queues[i].ring->head;
md->tx_queues[i].tail = c->tx_queues[i].ring->tail;
md->tx_queues[i].buffer_size = c->run_args.buffer_size;
}
md->link_up_down = (c->fd > 0) ? 1 : 0;
return err; /* 0 */
}
int
memif_get_queue_efd (memif_conn_handle_t conn, uint16_t qid, int *efd)
{
memif_connection_t *c = (memif_connection_t *) conn;
*efd = -1;
if (c == NULL)
return MEMIF_ERR_NOCONN;
if (c->fd < 0)
return MEMIF_ERR_DISCONNECTED;
uint8_t num =
(c->args.is_master) ? c->run_args.num_s2m_rings : c->run_args.
num_m2s_rings;
if (qid >= num)
return MEMIF_ERR_QID;
*efd = c->rx_queues[qid].int_fd;
return MEMIF_ERR_SUCCESS;
}
int
memif_cleanup ()
{
libmemif_main_t *lm = &libmemif_main;
if (lm->control_list)
lm->free (lm->control_list);
lm->control_list = NULL;
if (lm->interrupt_list)
lm->free (lm->interrupt_list);
lm->interrupt_list = NULL;
if (lm->listener_list)
lm->free (lm->listener_list);
lm->listener_list = NULL;
if (lm->pending_list)
lm->free (lm->pending_list);
lm->pending_list = NULL;
if (poll_cancel_fd != -1)
close (poll_cancel_fd);
return MEMIF_ERR_SUCCESS; /* 0 */
}