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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* March 6 2023, Christian Hopps <chopps@labn.net>
*
* Copyright (C) 2021 Vmware, Inc.
* Pushpasis Sarkar <spushpasis@vmware.com>
* Copyright (c) 2023, LabN Consulting, L.L.C.
*/
#include <zebra.h>
#include "debug.h"
#include "network.h"
#include "sockopt.h"
#include "stream.h"
#include "frrevent.h"
#include "mgmt_msg.h"
#define MGMT_MSG_DBG(dbgtag, fmt, ...) \
do { \
if (dbgtag) \
zlog_debug("%s: %s: " fmt, dbgtag, __func__, \
##__VA_ARGS__); \
} while (0)
#define MGMT_MSG_ERR(ms, fmt, ...) \
zlog_err("%s: %s: " fmt, (ms)->idtag, __func__, ##__VA_ARGS__)
DEFINE_MTYPE(LIB, MSG_CONN, "msg connection state");
/**
* Read data from a socket into streams containing 1 or more full msgs headed by
* mgmt_msg_hdr which contain API messages (currently protobuf).
*
* Args:
* ms: mgmt_msg_state for this process.
* fd: socket/file to read data from.
* debug: true to enable debug logging.
*
* Returns:
* MPP_DISCONNECT - socket should be closed and connect retried.
* MSV_SCHED_STREAM - this call should be rescheduled to run.
* MPP_SCHED_BOTH - this call and the procmsg buf should be scheduled to
*run.
*/
enum mgmt_msg_rsched mgmt_msg_read(struct mgmt_msg_state *ms, int fd,
bool debug)
{
const char *dbgtag = debug ? ms->idtag : NULL;
size_t avail = STREAM_WRITEABLE(ms->ins);
struct mgmt_msg_hdr *mhdr = NULL;
size_t total = 0;
size_t mcount = 0;
ssize_t n, left;
assert(ms && fd != -1);
/*
* Read as much as we can into the stream.
*/
while (avail > sizeof(struct mgmt_msg_hdr)) {
n = stream_read_try(ms->ins, fd, avail);
MGMT_MSG_DBG(dbgtag, "got %zd bytes", n);
/* -2 is normal nothing read, and to retry */
if (n == -2)
break;
if (n <= 0) {
if (n == 0)
MGMT_MSG_ERR(ms, "got EOF/disconnect");
else
MGMT_MSG_ERR(ms,
"got error while reading: '%s'",
safe_strerror(errno));
return MSR_DISCONNECT;
}
ms->nrxb += n;
avail -= n;
}
/*
* Check if we have read a complete messages or not.
*/
assert(stream_get_getp(ms->ins) == 0);
left = stream_get_endp(ms->ins);
while (left > (long)sizeof(struct mgmt_msg_hdr)) {
mhdr = (struct mgmt_msg_hdr *)(STREAM_DATA(ms->ins) + total);
if (!MGMT_MSG_IS_MARKER(mhdr->marker)) {
MGMT_MSG_DBG(dbgtag, "recv corrupt buffer, disconnect");
return MSR_DISCONNECT;
}
if ((ssize_t)mhdr->len > left)
break;
MGMT_MSG_DBG(dbgtag, "read full message len %u", mhdr->len);
total += mhdr->len;
left -= mhdr->len;
mcount++;
}
if (!mcount)
return MSR_SCHED_STREAM;
/*
* We have read at least one message into the stream, queue it up.
*/
mhdr = (struct mgmt_msg_hdr *)(STREAM_DATA(ms->ins) + total);
stream_set_endp(ms->ins, total);
stream_fifo_push(&ms->inq, ms->ins);
ms->ins = stream_new(ms->max_msg_sz);
if (left) {
stream_put(ms->ins, mhdr, left);
stream_set_endp(ms->ins, left);
}
return MSR_SCHED_BOTH;
}
/**
* Process streams containing whole messages that have been pushed onto the
* FIFO. This should be called from an event/timer handler and should be
* reschedulable.
*
* Args:
* ms: mgmt_msg_state for this process.
* handle_mgs: function to call for each received message.
* user: opaque value passed through to handle_msg.
* debug: true to enable debug logging.
*
* Returns:
* true if more to process (so reschedule) else false
*/
bool mgmt_msg_procbufs(struct mgmt_msg_state *ms,
void (*handle_msg)(uint8_t version, uint8_t *msg,
size_t msglen, void *user),
void *user, bool debug)
{
const char *dbgtag = debug ? ms->idtag : NULL;
struct mgmt_msg_hdr *mhdr;
struct stream *work;
uint8_t *data;
size_t left, nproc;
MGMT_MSG_DBG(dbgtag, "Have %zu streams to process", ms->inq.count);
nproc = 0;
while (nproc < ms->max_read_buf) {
work = stream_fifo_pop(&ms->inq);
if (!work)
break;
data = STREAM_DATA(work);
left = stream_get_endp(work);
MGMT_MSG_DBG(dbgtag, "Processing stream of len %zu", left);
for (; left > sizeof(struct mgmt_msg_hdr);
left -= mhdr->len, data += mhdr->len) {
mhdr = (struct mgmt_msg_hdr *)data;
assert(MGMT_MSG_IS_MARKER(mhdr->marker));
assert(left >= mhdr->len);
handle_msg(MGMT_MSG_MARKER_VERSION(mhdr->marker),
(uint8_t *)(mhdr + 1),
mhdr->len - sizeof(struct mgmt_msg_hdr),
user);
ms->nrxm++;
nproc++;
}
if (work != ms->ins)
stream_free(work); /* Free it up */
else
stream_reset(work); /* Reset stream for next read */
}
/* return true if should reschedule b/c more to process. */
return stream_fifo_head(&ms->inq) != NULL;
}
/**
* Write data from a onto the socket, using streams that have been queued for
* sending by mgmt_msg_send_msg. This function should be reschedulable.
*
* Args:
* ms: mgmt_msg_state for this process.
* fd: socket/file to read data from.
* debug: true to enable debug logging.
*
* Returns:
* MSW_SCHED_NONE - do not reschedule anything.
* MSW_SCHED_STREAM - this call should be rescheduled to run again.
* MSW_SCHED_WRITES_OFF - writes should be disabled with a timer to
* re-enable them a short time later
* MSW_DISCONNECT - socket should be closed and reconnect retried.
*run.
*/
enum mgmt_msg_wsched mgmt_msg_write(struct mgmt_msg_state *ms, int fd,
bool debug)
{
const char *dbgtag = debug ? ms->idtag : NULL;
struct stream *s;
size_t nproc = 0;
ssize_t left;
ssize_t n;
if (ms->outs) {
MGMT_MSG_DBG(dbgtag,
"found unqueued stream with %zu bytes, queueing",
stream_get_endp(ms->outs));
stream_fifo_push(&ms->outq, ms->outs);
ms->outs = NULL;
}
for (s = stream_fifo_head(&ms->outq); s && nproc < ms->max_write_buf;
s = stream_fifo_head(&ms->outq)) {
left = STREAM_READABLE(s);
assert(left);
n = stream_flush(s, fd);
if (n <= 0) {
if (n == 0)
MGMT_MSG_ERR(ms,
"connection closed while writing");
else if (ERRNO_IO_RETRY(errno)) {
MGMT_MSG_DBG(
dbgtag,
"retry error while writing %zd bytes: %s (%d)",
left, safe_strerror(errno), errno);
return MSW_SCHED_STREAM;
} else
MGMT_MSG_ERR(
ms,
"error while writing %zd bytes: %s (%d)",
left, safe_strerror(errno), errno);
n = mgmt_msg_reset_writes(ms);
MGMT_MSG_DBG(dbgtag, "drop and freed %zd streams", n);
return MSW_DISCONNECT;
}
ms->ntxb += n;
if (n != left) {
MGMT_MSG_DBG(dbgtag, "short stream write %zd of %zd", n,
left);
stream_forward_getp(s, n);
return MSW_SCHED_STREAM;
}
stream_free(stream_fifo_pop(&ms->outq));
MGMT_MSG_DBG(dbgtag, "wrote stream of %zd bytes", n);
nproc++;
}
if (s) {
MGMT_MSG_DBG(
dbgtag,
"reached %zu buffer writes, pausing with %zu streams left",
ms->max_write_buf, ms->outq.count);
return MSW_SCHED_STREAM;
}
MGMT_MSG_DBG(dbgtag, "flushed all streams from output q");
return MSW_SCHED_NONE;
}
/**
* Send a message by enqueueing it to be written over the socket by
* mgmt_msg_write.
*
* Args:
* ms: mgmt_msg_state for this process.
* version: version of this message, will be given to receiving side.
* msg: the message to be sent.
* len: the length of the message.
* packf: a function to pack the message.
* debug: true to enable debug logging.
*
* Returns:
* 0 on success, otherwise -1 on failure. The only failure mode is if a
* the message exceeds the maximum message size configured on init.
*/
int mgmt_msg_send_msg(struct mgmt_msg_state *ms, uint8_t version, void *msg,
size_t len, size_t (*packf)(void *msg, void *buf),
bool debug)
{
const char *dbgtag = debug ? ms->idtag : NULL;
struct mgmt_msg_hdr *mhdr;
struct stream *s;
uint8_t *dstbuf;
size_t endp, n;
size_t mlen = len + sizeof(*mhdr);
if (mlen > ms->max_msg_sz) {
MGMT_MSG_ERR(ms, "Message %zu > max size %zu, dropping", mlen,
ms->max_msg_sz);
return -1;
}
if (!ms->outs) {
MGMT_MSG_DBG(dbgtag, "creating new stream for msg len %zu",
len);
ms->outs = stream_new(ms->max_msg_sz);
} else if (STREAM_WRITEABLE(ms->outs) < mlen) {
MGMT_MSG_DBG(
dbgtag,
"enq existing stream len %zu and creating new stream for msg len %zu",
STREAM_WRITEABLE(ms->outs), mlen);
stream_fifo_push(&ms->outq, ms->outs);
ms->outs = stream_new(ms->max_msg_sz);
} else {
MGMT_MSG_DBG(
dbgtag,
"using existing stream with avail %zu for msg len %zu",
STREAM_WRITEABLE(ms->outs), mlen);
}
s = ms->outs;
/* We have a stream with space, pack the message into it. */
mhdr = (struct mgmt_msg_hdr *)(STREAM_DATA(s) + s->endp);
mhdr->marker = MGMT_MSG_MARKER(version);
mhdr->len = mlen;
stream_forward_endp(s, sizeof(*mhdr));
endp = stream_get_endp(s);
dstbuf = STREAM_DATA(s) + endp;
if (packf)
n = packf(msg, dstbuf);
else {
memcpy(dstbuf, msg, len);
n = len;
}
stream_set_endp(s, endp + n);
ms->ntxm++;
return 0;
}
/**
* Create and open a unix domain stream socket on the given path
* setting non-blocking and send and receive buffer sizes.
*
* Args:
* path: path of unix domain socket to connect to.
* sendbuf: size of socket send buffer.
* recvbuf: size of socket receive buffer.
* dbgtag: if non-NULL enable log debug, and use this tag.
*
* Returns:
* socket fd or -1 on error.
*/
int mgmt_msg_connect(const char *path, size_t sendbuf, size_t recvbuf,
const char *dbgtag)
{
int ret, sock, len;
struct sockaddr_un addr;
MGMT_MSG_DBG(dbgtag, "connecting to server on %s", path);
sock = socket(AF_UNIX, SOCK_STREAM, 0);
if (sock < 0) {
MGMT_MSG_DBG(dbgtag, "socket failed: %s", safe_strerror(errno));
return -1;
}
memset(&addr, 0, sizeof(struct sockaddr_un));
addr.sun_family = AF_UNIX;
strlcpy(addr.sun_path, path, sizeof(addr.sun_path));
#ifdef HAVE_STRUCT_SOCKADDR_UN_SUN_LEN
len = addr.sun_len = SUN_LEN(&addr);
#else
len = sizeof(addr.sun_family) + strlen(addr.sun_path);
#endif /* HAVE_STRUCT_SOCKADDR_UN_SUN_LEN */
ret = connect(sock, (struct sockaddr *)&addr, len);
if (ret < 0) {
MGMT_MSG_DBG(dbgtag, "failed to connect on %s: %s", path,
safe_strerror(errno));
close(sock);
return -1;
}
MGMT_MSG_DBG(dbgtag, "connected to server on %s", path);
set_nonblocking(sock);
setsockopt_so_sendbuf(sock, sendbuf);
setsockopt_so_recvbuf(sock, recvbuf);
return sock;
}
/**
* Reset the sending queue, by dequeueing all streams and freeing them. Return
* the number of streams freed.
*
* Args:
* ms: mgmt_msg_state for this process.
*
* Returns:
* Number of streams that were freed.
*
*/
size_t mgmt_msg_reset_writes(struct mgmt_msg_state *ms)
{
struct stream *s;
size_t nproc = 0;
for (s = stream_fifo_pop(&ms->outq); s;
s = stream_fifo_pop(&ms->outq), nproc++)
stream_free(s);
return nproc;
}
void mgmt_msg_init(struct mgmt_msg_state *ms, size_t max_read_buf,
size_t max_write_buf, size_t max_msg_sz, const char *idtag)
{
memset(ms, 0, sizeof(*ms));
ms->ins = stream_new(max_msg_sz);
stream_fifo_init(&ms->inq);
stream_fifo_init(&ms->outq);
ms->max_read_buf = max_write_buf;
ms->max_write_buf = max_read_buf;
ms->max_msg_sz = max_msg_sz;
ms->idtag = strdup(idtag);
}
void mgmt_msg_destroy(struct mgmt_msg_state *ms)
{
mgmt_msg_reset_writes(ms);
if (ms->ins)
stream_free(ms->ins);
free(ms->idtag);
}
/*
* Connections
*/
#define MSG_CONN_DEFAULT_CONN_RETRY_MSEC 250
#define MSG_CONN_SEND_BUF_SIZE (1u << 16)
#define MSG_CONN_RECV_BUF_SIZE (1u << 16)
static void msg_client_sched_connect(struct msg_client *client,
unsigned long msec);
static void msg_conn_sched_proc_msgs(struct msg_conn *conn);
static void msg_conn_sched_read(struct msg_conn *conn);
static void msg_conn_sched_write(struct msg_conn *conn);
static void msg_conn_write(struct event *thread)
{
struct msg_conn *conn = EVENT_ARG(thread);
enum mgmt_msg_wsched rv;
rv = mgmt_msg_write(&conn->mstate, conn->fd, conn->debug);
if (rv == MSW_SCHED_STREAM)
msg_conn_sched_write(conn);
else if (rv == MSW_DISCONNECT)
msg_conn_disconnect(conn, conn->is_client);
else
assert(rv == MSW_SCHED_NONE);
}
static void msg_conn_read(struct event *thread)
{
struct msg_conn *conn = EVENT_ARG(thread);
enum mgmt_msg_rsched rv;
rv = mgmt_msg_read(&conn->mstate, conn->fd, conn->debug);
if (rv == MSR_DISCONNECT) {
msg_conn_disconnect(conn, conn->is_client);
return;
}
if (rv == MSR_SCHED_BOTH)
msg_conn_sched_proc_msgs(conn);
msg_conn_sched_read(conn);
}
/* collapse this into mgmt_msg_procbufs */
static void msg_conn_proc_msgs(struct event *thread)
{
struct msg_conn *conn = EVENT_ARG(thread);
if (mgmt_msg_procbufs(&conn->mstate,
(void (*)(uint8_t, uint8_t *, size_t,
void *))conn->handle_msg,
conn, conn->debug))
/* there's more, schedule handling more */
msg_conn_sched_proc_msgs(conn);
}
static void msg_conn_sched_read(struct msg_conn *conn)
{
event_add_read(conn->loop, msg_conn_read, conn, conn->fd,
&conn->read_ev);
}
static void msg_conn_sched_write(struct msg_conn *conn)
{
event_add_write(conn->loop, msg_conn_write, conn, conn->fd,
&conn->write_ev);
}
static void msg_conn_sched_proc_msgs(struct msg_conn *conn)
{
event_add_event(conn->loop, msg_conn_proc_msgs, conn, 0,
&conn->proc_msg_ev);
}
void msg_conn_disconnect(struct msg_conn *conn, bool reconnect)
{
/* disconnect short-circuit if present */
if (conn->remote_conn) {
conn->remote_conn->remote_conn = NULL;
conn->remote_conn = NULL;
}
if (conn->fd != -1) {
close(conn->fd);
conn->fd = -1;
/* Notify client through registered callback (if any) */
if (conn->notify_disconnect)
(void)(*conn->notify_disconnect)(conn);
}
if (reconnect) {
assert(conn->is_client);
msg_client_sched_connect(
container_of(conn, struct msg_client, conn),
MSG_CONN_DEFAULT_CONN_RETRY_MSEC);
}
}
int msg_conn_send_msg(struct msg_conn *conn, uint8_t version, void *msg,
size_t mlen, size_t (*packf)(void *, void *),
bool short_circuit_ok)
{
const char *dbgtag = conn->debug ? conn->mstate.idtag : NULL;
if (conn->fd == -1) {
MGMT_MSG_ERR(&conn->mstate,
"can't send message on closed connection");
return -1;
}
/* immediately handle the message if short-circuit is present */
if (conn->remote_conn && short_circuit_ok) {
uint8_t *buf = msg;
size_t n = mlen;
if (packf) {
buf = XMALLOC(MTYPE_TMP, mlen);
n = packf(msg, buf);
}
MGMT_MSG_DBG(dbgtag, "SC send: depth %u msg: %p",
++conn->short_circuit_depth, msg);
conn->remote_conn->handle_msg(version, buf, n,
conn->remote_conn);
MGMT_MSG_DBG(dbgtag, "SC return from depth: %u msg: %p",
conn->short_circuit_depth--, msg);
if (packf)
XFREE(MTYPE_TMP, buf);
return 0;
}
int rv = mgmt_msg_send_msg(&conn->mstate, version, msg, mlen, packf,
conn->debug);
msg_conn_sched_write(conn);
return rv;
}
void msg_conn_cleanup(struct msg_conn *conn)
{
struct mgmt_msg_state *ms = &conn->mstate;
/* disconnect short-circuit if present */
if (conn->remote_conn) {
conn->remote_conn->remote_conn = NULL;
conn->remote_conn = NULL;
}
if (conn->fd != -1) {
close(conn->fd);
conn->fd = -1;
}
EVENT_OFF(conn->read_ev);
EVENT_OFF(conn->write_ev);
EVENT_OFF(conn->proc_msg_ev);
mgmt_msg_destroy(ms);
}
/*
* Client Connections
*/
DECLARE_LIST(msg_server_list, struct msg_server, link);
static struct msg_server_list_head msg_servers;
static void msg_client_connect(struct msg_client *conn);
static void msg_client_connect_timer(struct event *thread)
{
msg_client_connect(EVENT_ARG(thread));
}
static void msg_client_sched_connect(struct msg_client *client,
unsigned long msec)
{
struct msg_conn *conn = &client->conn;
const char *dbgtag = conn->debug ? conn->mstate.idtag : NULL;
MGMT_MSG_DBG(dbgtag, "connection retry in %lu msec", msec);
if (msec)
event_add_timer_msec(conn->loop, msg_client_connect_timer,
client, msec, &client->conn_retry_tmr);
else
event_add_event(conn->loop, msg_client_connect_timer, client, 0,
&client->conn_retry_tmr);
}
static bool msg_client_connect_short_circuit(struct msg_client *client)
{
struct msg_conn *server_conn;
struct msg_server *server;
const char *dbgtag =
client->conn.debug ? client->conn.mstate.idtag : NULL;
union sockunion su = {0};
int sockets[2];
frr_each (msg_server_list, &msg_servers, server)
if (!strcmp(server->sopath, client->sopath))
break;
if (!server) {
MGMT_MSG_DBG(dbgtag,
"no short-circuit connection available for %s",
client->sopath);
return false;
}
if (socketpair(AF_UNIX, SOCK_STREAM, 0, sockets)) {
MGMT_MSG_ERR(
&client->conn.mstate,
"socketpair failed trying to short-circuit connection on %s: %s",
client->sopath, safe_strerror(errno));
return false;
}
/* client side */
client->conn.fd = sockets[0];
set_nonblocking(sockets[0]);
setsockopt_so_sendbuf(sockets[0], client->conn.mstate.max_write_buf);
setsockopt_so_recvbuf(sockets[0], client->conn.mstate.max_read_buf);
client->conn.is_short_circuit = true;
/* server side */
memset(&su, 0, sizeof(union sockunion));
server_conn = server->create(sockets[1], &su);
server_conn->is_short_circuit = true;
client->conn.remote_conn = server_conn;
server_conn->remote_conn = &client->conn;
MGMT_MSG_DBG(
dbgtag,
"short-circuit connection on %s server %s:%d to client %s:%d",
client->sopath, server_conn->mstate.idtag, server_conn->fd,
client->conn.mstate.idtag, client->conn.fd);
MGMT_MSG_DBG(
server_conn->debug ? server_conn->mstate.idtag : NULL,
"short-circuit connection on %s client %s:%d to server %s:%d",
client->sopath, client->conn.mstate.idtag, client->conn.fd,
server_conn->mstate.idtag, server_conn->fd);
return true;
}
/* Connect and start reading from the socket */
static void msg_client_connect(struct msg_client *client)
{
struct msg_conn *conn = &client->conn;
const char *dbgtag = conn->debug ? conn->mstate.idtag : NULL;
if (!client->short_circuit_ok ||
!msg_client_connect_short_circuit(client))
conn->fd =
mgmt_msg_connect(client->sopath, MSG_CONN_SEND_BUF_SIZE,
MSG_CONN_RECV_BUF_SIZE, dbgtag);
if (conn->fd == -1)
/* retry the connection */
msg_client_sched_connect(client,
MSG_CONN_DEFAULT_CONN_RETRY_MSEC);
else if (client->notify_connect && client->notify_connect(client))
/* client connect notify failed */
msg_conn_disconnect(conn, true);
else
/* start reading */
msg_conn_sched_read(conn);
}
void msg_client_init(struct msg_client *client, struct event_loop *tm,
const char *sopath,
int (*notify_connect)(struct msg_client *client),
int (*notify_disconnect)(struct msg_conn *client),
void (*handle_msg)(uint8_t version, uint8_t *data,
size_t len, struct msg_conn *client),
size_t max_read_buf, size_t max_write_buf,
size_t max_msg_sz, bool short_circuit_ok,
const char *idtag, bool debug)
{
struct msg_conn *conn = &client->conn;
memset(client, 0, sizeof(*client));
conn->loop = tm;
conn->fd = -1;
conn->handle_msg = handle_msg;
conn->notify_disconnect = notify_disconnect;
conn->is_client = true;
conn->debug = debug;
client->short_circuit_ok = short_circuit_ok;
client->sopath = strdup(sopath);
client->notify_connect = notify_connect;
mgmt_msg_init(&conn->mstate, max_read_buf, max_write_buf, max_msg_sz,
idtag);
/* XXX maybe just have client kick this off */
/* Start trying to connect to server */
msg_client_sched_connect(client, 0);
}
void msg_client_cleanup(struct msg_client *client)
{
assert(client->conn.is_client);
EVENT_OFF(client->conn_retry_tmr);
free(client->sopath);
msg_conn_cleanup(&client->conn);
}
/*
* Server-side connections
*/
static void msg_server_accept(struct event *event)
{
struct msg_server *server = EVENT_ARG(event);
int fd;
union sockunion su;
if (server->fd < 0)
return;
/* We continue hearing server listen socket. */
event_add_read(server->loop, msg_server_accept, server, server->fd,
&server->listen_ev);
memset(&su, 0, sizeof(union sockunion));
/* We can handle IPv4 or IPv6 socket. */
fd = sockunion_accept(server->fd, &su);
if (fd < 0) {
zlog_err("Failed to accept %s client connection: %s",
server->idtag, safe_strerror(errno));
return;
}
set_nonblocking(fd);
set_cloexec(fd);
DEBUGD(server->debug, "Accepted new %s connection", server->idtag);
server->create(fd, &su);
}
int msg_server_init(struct msg_server *server, const char *sopath,
struct event_loop *loop,
struct msg_conn *(*create)(int fd, union sockunion *su),
const char *idtag, struct debug *debug)
{
int ret;
int sock;
struct sockaddr_un addr;
mode_t old_mask;
memset(server, 0, sizeof(*server));
server->fd = -1;
sock = socket(AF_UNIX, SOCK_STREAM, PF_UNSPEC);
if (sock < 0) {
zlog_err("Failed to create %s server socket: %s", server->idtag,
safe_strerror(errno));
goto fail;
}
addr.sun_family = AF_UNIX,
strlcpy(addr.sun_path, sopath, sizeof(addr.sun_path));
unlink(addr.sun_path);
old_mask = umask(0077);
ret = bind(sock, (struct sockaddr *)&addr, sizeof(addr));
if (ret < 0) {
zlog_err("Failed to bind %s server socket to '%s': %s",
server->idtag, addr.sun_path, safe_strerror(errno));
umask(old_mask);
goto fail;
}
umask(old_mask);
ret = listen(sock, MGMTD_MAX_CONN);
if (ret < 0) {
zlog_err("Failed to listen on %s server socket: %s",
server->idtag, safe_strerror(errno));
goto fail;
}
server->fd = sock;
server->loop = loop;
server->sopath = strdup(sopath);
server->idtag = strdup(idtag);
server->create = create;
server->debug = debug;
msg_server_list_add_head(&msg_servers, server);
event_add_read(server->loop, msg_server_accept, server, server->fd,
&server->listen_ev);
DEBUGD(debug, "Started %s server, listening on %s", idtag, sopath);
return 0;
fail:
if (sock >= 0)
close(sock);
server->fd = -1;
return -1;
}
void msg_server_cleanup(struct msg_server *server)
{
DEBUGD(server->debug, "Closing %s server", server->idtag);
if (server->listen_ev)
EVENT_OFF(server->listen_ev);
msg_server_list_del(&msg_servers, server);
if (server->fd >= 0)
close(server->fd);
free((char *)server->sopath);
free((char *)server->idtag);
memset(server, 0, sizeof(*server));
server->fd = -1;
}
/*
* Initialize and start reading from the accepted socket
*
* notify_connect - only called for disconnect i.e., connected == false
*/
void msg_conn_accept_init(struct msg_conn *conn, struct event_loop *tm, int fd,
int (*notify_disconnect)(struct msg_conn *conn),
void (*handle_msg)(uint8_t version, uint8_t *data,
size_t len, struct msg_conn *conn),
size_t max_read, size_t max_write, size_t max_size,
const char *idtag)
{
conn->loop = tm;
conn->fd = fd;
conn->notify_disconnect = notify_disconnect;
conn->handle_msg = handle_msg;
conn->is_client = false;
mgmt_msg_init(&conn->mstate, max_read, max_write, max_size, idtag);
/* start reading */
msg_conn_sched_read(conn);
/* Make socket non-blocking. */
set_nonblocking(conn->fd);
setsockopt_so_sendbuf(conn->fd, MSG_CONN_SEND_BUF_SIZE);
setsockopt_so_recvbuf(conn->fd, MSG_CONN_RECV_BUF_SIZE);
}
struct msg_conn *
msg_server_conn_create(struct event_loop *tm, int fd,
int (*notify_disconnect)(struct msg_conn *conn),
void (*handle_msg)(uint8_t version, uint8_t *data,
size_t len, struct msg_conn *conn),
size_t max_read, size_t max_write, size_t max_size,
void *user, const char *idtag)
{
struct msg_conn *conn = XMALLOC(MTYPE_MSG_CONN, sizeof(*conn));
memset(conn, 0, sizeof(*conn));
msg_conn_accept_init(conn, tm, fd, notify_disconnect, handle_msg,
max_read, max_write, max_size, idtag);
conn->user = user;
return conn;
}
void msg_server_conn_delete(struct msg_conn *conn)
{
if (!conn)
return;
msg_conn_cleanup(conn);
XFREE(MTYPE_MSG_CONN, conn);
}
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