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path: root/net/ceph/messenger.c
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#include <linux/ceph/ceph_debug.h>

#include <linux/crc32c.h>
#include <linux/ctype.h>
#include <linux/highmem.h>
#include <linux/inet.h>
#include <linux/kthread.h>
#include <linux/net.h>
#include <linux/slab.h>
#include <linux/socket.h>
#include <linux/string.h>
#ifdef	CONFIG_BLOCK
#include <linux/bio.h>
#endif	/* CONFIG_BLOCK */
#include <linux/dns_resolver.h>
#include <net/tcp.h>

#include <linux/ceph/libceph.h>
#include <linux/ceph/messenger.h>
#include <linux/ceph/decode.h>
#include <linux/ceph/pagelist.h>
#include <linux/export.h>

#define list_entry_next(pos, member)					\
	list_entry(pos->member.next, typeof(*pos), member)

/*
 * Ceph uses the messenger to exchange ceph_msg messages with other
 * hosts in the system.  The messenger provides ordered and reliable
 * delivery.  We tolerate TCP disconnects by reconnecting (with
 * exponential backoff) in the case of a fault (disconnection, bad
 * crc, protocol error).  Acks allow sent messages to be discarded by
 * the sender.
 */

/*
 * We track the state of the socket on a given connection using
 * values defined below.  The transition to a new socket state is
 * handled by a function which verifies we aren't coming from an
 * unexpected state.
 *
 *      --------
 *      | NEW* |  transient initial state
 *      --------
 *          | con_sock_state_init()
 *          v
 *      ----------
 *      | CLOSED |  initialized, but no socket (and no
 *      ----------  TCP connection)
 *       ^      \
 *       |       \ con_sock_state_connecting()
 *       |        ----------------------
 *       |                              \
 *       + con_sock_state_closed()       \
 *       |+---------------------------    \
 *       | \                          \    \
 *       |  -----------                \    \
 *       |  | CLOSING |  socket event;  \    \
 *       |  -----------  await close     \    \
 *       |       ^                        \   |
 *       |       |                         \  |
 *       |       + con_sock_state_closing() \ |
 *       |      / \                         | |
 *       |     /   ---------------          | |
 *       |    /                   \         v v
 *       |   /                    --------------
 *       |  /    -----------------| CONNECTING |  socket created, TCP
 *       |  |   /                 --------------  connect initiated
 *       |  |   | con_sock_state_connected()
 *       |  |   v
 *      -------------
 *      | CONNECTED |  TCP connection established
 *      -------------
 *
 * State values for ceph_connection->sock_state; NEW is assumed to be 0.
 */

#define CON_SOCK_STATE_NEW		0	/* -> CLOSED */
#define CON_SOCK_STATE_CLOSED		1	/* -> CONNECTING */
#define CON_SOCK_STATE_CONNECTING	2	/* -> CONNECTED or -> CLOSING */
#define CON_SOCK_STATE_CONNECTED	3	/* -> CLOSING or -> CLOSED */
#define CON_SOCK_STATE_CLOSING		4	/* -> CLOSED */

/*
 * connection states
 */
#define CON_STATE_CLOSED        1  /* -> PREOPEN */
#define CON_STATE_PREOPEN       2  /* -> CONNECTING, CLOSED */
#define CON_STATE_CONNECTING    3  /* -> NEGOTIATING, CLOSED */
#define CON_STATE_NEGOTIATING   4  /* -> OPEN, CLOSED */
#define CON_STATE_OPEN          5  /* -> STANDBY, CLOSED */
#define CON_STATE_STANDBY       6  /* -> PREOPEN, CLOSED */

/*
 * ceph_connection flag bits
 */
#define CON_FLAG_LOSSYTX           0  /* we can close channel or drop
				       * messages on errors */
#define CON_FLAG_KEEPALIVE_PENDING 1  /* we need to send a keepalive */
#define CON_FLAG_WRITE_PENDING	   2  /* we have data ready to send */
#define CON_FLAG_SOCK_CLOSED	   3  /* socket state changed to closed */
#define CON_FLAG_BACKOFF           4  /* need to retry queuing delayed work */

static bool con_flag_valid(unsigned long con_flag)
{
	switch (con_flag) {
	case CON_FLAG_LOSSYTX:
	case CON_FLAG_KEEPALIVE_PENDING:
	case CON_FLAG_WRITE_PENDING:
	case CON_FLAG_SOCK_CLOSED:
	case CON_FLAG_BACKOFF:
		return true;
	default:
		return false;
	}
}

static void con_flag_clear(struct ceph_connection *con, unsigned long con_flag)
{
	BUG_ON(!con_flag_valid(con_flag));

	clear_bit(con_flag, &con->flags);
}

static void con_flag_set(struct ceph_connection *con, unsigned long con_flag)
{
	BUG_ON(!con_flag_valid(con_flag));

	set_bit(con_flag, &con->flags);
}

static bool con_flag_test(struct ceph_connection *con, unsigned long con_flag)
{
	BUG_ON(!con_flag_valid(con_flag));

	return test_bit(con_flag, &con->flags);
}

static bool con_flag_test_and_clear(struct ceph_connection *con,
					unsigned long con_flag)
{
	BUG_ON(!con_flag_valid(con_flag));

	return test_and_clear_bit(con_flag, &con->flags);
}

static bool con_flag_test_and_set(struct ceph_connection *con,
					unsigned long con_flag)
{
	BUG_ON(!con_flag_valid(con_flag));

	return test_and_set_bit(con_flag, &con->flags);
}

/* static tag bytes (protocol control messages) */
static char tag_msg = CEPH_MSGR_TAG_MSG;
static char tag_ack = CEPH_MSGR_TAG_ACK;
static char tag_keepalive = CEPH_MSGR_TAG_KEEPALIVE;

#ifdef CONFIG_LOCKDEP
static struct lock_class_key socket_class;
#endif

/*
 * When skipping (ignoring) a block of input we read it into a "skip
 * buffer," which is this many bytes in size.
 */
#define SKIP_BUF_SIZE	1024

static void queue_con(struct ceph_connection *con);
static void con_work(struct work_struct *);
static void con_fault(struct ceph_connection *con);

/*
 * Nicely render a sockaddr as a string.  An array of formatted
 * strings is used, to approximate reentrancy.
 */
#define ADDR_STR_COUNT_LOG	5	/* log2(# address strings in array) */
#define ADDR_STR_COUNT		(1 << ADDR_STR_COUNT_LOG)
#define ADDR_STR_COUNT_MASK	(ADDR_STR_COUNT - 1)
#define MAX_ADDR_STR_LEN	64	/* 54 is enough */

static char addr_str[ADDR_STR_COUNT][MAX_ADDR_STR_LEN];
static atomic_t addr_str_seq = ATOMIC_INIT(0);

static struct page *zero_page;		/* used in certain error cases */

const char *ceph_pr_addr(const struct sockaddr_storage *ss)
{
	int i;
	char *s;
	struct sockaddr_in *in4 = (struct sockaddr_in *) ss;
	struct sockaddr_in6 *in6 = (struct sockaddr_in6 *) ss;

	i = atomic_inc_return(&addr_str_seq) & ADDR_STR_COUNT_MASK;
	s = addr_str[i];

	switch (ss->ss_family) {
	case AF_INET:
		snprintf(s, MAX_ADDR_STR_LEN, "%pI4:%hu", &in4->sin_addr,
			 ntohs(in4->sin_port));
		break;

	case AF_INET6:
		snprintf(s, MAX_ADDR_STR_LEN, "[%pI6c]:%hu", &in6->sin6_addr,
			 ntohs(in6->sin6_port));
		break;

	default:
		snprintf(s, MAX_ADDR_STR_LEN, "(unknown sockaddr family %hu)",
			 ss->ss_family);
	}

	return s;
}
EXPORT_SYMBOL(ceph_pr_addr);

static void encode_my_addr(struct ceph_messenger *msgr)
{
	memcpy(&msgr->my_enc_addr, &msgr->inst.addr, sizeof(msgr->my_enc_addr));
	ceph_encode_addr(&msgr->my_enc_addr);
}

/*
 * work queue for all reading and writing to/from the socket.
 */
static struct workqueue_struct *ceph_msgr_wq;

static void _ceph_msgr_exit(void)
{
	if (ceph_msgr_wq) {
		destroy_workqueue(ceph_msgr_wq);
		ceph_msgr_wq = NULL;
	}

	BUG_ON(zero_page == NULL);
	kunmap(zero_page);
	page_cache_release(zero_page);
	zero_page = NULL;
}

int ceph_msgr_init(void)
{
	BUG_ON(zero_page != NULL);
	zero_page = ZERO_PAGE(0);
	page_cache_get(zero_page);

	ceph_msgr_wq = alloc_workqueue("ceph-msgr", WQ_NON_REENTRANT, 0);
	if (ceph_msgr_wq)
		return 0;

	pr_err("msgr_init failed to create workqueue\n");
	_ceph_msgr_exit();

	return -ENOMEM;
}
EXPORT_SYMBOL(ceph_msgr_init);

void ceph_msgr_exit(void)
{
	BUG_ON(ceph_msgr_wq == NULL);

	_ceph_msgr_exit();
}
EXPORT_SYMBOL(ceph_msgr_exit);

void ceph_msgr_flush(void)
{
	flush_workqueue(ceph_msgr_wq);
}
EXPORT_SYMBOL(ceph_msgr_flush);

/* Connection socket state transition functions */

static void con_sock_state_init(struct ceph_connection *con)
{
	int old_state;

	old_state = atomic_xchg(&con->sock_state, CON_SOCK_STATE_CLOSED);
	if (WARN_ON(old_state != CON_SOCK_STATE_NEW))
		printk("%s: unexpected old state %d\n", __func__, old_state);
	dout("%s con %p sock %d -> %d\n", __func__, con, old_state,
	     CON_SOCK_STATE_CLOSED);
}

static void con_sock_state_connecting(struct ceph_connection *con)
{
	int old_state;

	old_state = atomic_xchg(&con->sock_state, CON_SOCK_STATE_CONNECTING);
	if (WARN_ON(old_state != CON_SOCK_STATE_CLOSED))
		printk("%s: unexpected old state %d\n", __func__, old_state);
	dout("%s con %p sock %d -> %d\n", __func__, con, old_state,
	     CON_SOCK_STATE_CONNECTING);
}

static void con_sock_state_connected(struct ceph_connection *con)
{
	int old_state;

	old_state = atomic_xchg(&con->sock_state, CON_SOCK_STATE_CONNECTED);
	if (WARN_ON(old_state != CON_SOCK_STATE_CONNECTING))
		printk("%s: unexpected old state %d\n", __func__, old_state);
	dout("%s con %p sock %d -> %d\n", __func__, con, old_state,
	     CON_SOCK_STATE_CONNECTED);
}

static void con_sock_state_closing(struct ceph_connection *con)
{
	int old_state;

	old_state = atomic_xchg(&con->sock_state, CON_SOCK_STATE_CLOSING);
	if (WARN_ON(old_state != CON_SOCK_STATE_CONNECTING &&
			old_state != CON_SOCK_STATE_CONNECTED &&
			old_state != CON_SOCK_STATE_CLOSING))
		printk("%s: unexpected old state %d\n", __func__, old_state);
	dout("%s con %p sock %d -> %d\n", __func__, con, old_state,
	     CON_SOCK_STATE_CLOSING);
}

static void con_sock_state_closed(struct ceph_connection *con)
{
	int old_state;

	old_state = atomic_xchg(&con->sock_state, CON_SOCK_STATE_CLOSED);
	if (WARN_ON(old_state != CON_SOCK_STATE_CONNECTED &&
		    old_state != CON_SOCK_STATE_CLOSING &&
		    old_state != CON_SOCK_STATE_CONNECTING &&
		    old_state != CON_SOCK_STATE_CLOSED))
		printk("%s: unexpected old state %d\n", __func__, old_state);
	dout("%s con %p sock %d -> %d\n", __func__, con, old_state,
	     CON_SOCK_STATE_CLOSED);
}

/*
 * socket callback functions
 */

/* data available on socket, or listen socket received a connect */
static void ceph_sock_data_ready(struct sock *sk, int count_unused)
{
	struct ceph_connection *con = sk->sk_user_data;
	if (atomic_read(&con->msgr->stopping)) {
		return;
	}

	if (sk->sk_state != TCP_CLOSE_WAIT) {
		dout("%s on %p state = %lu, queueing work\n", __func__,
		     con, con->state);
		queue_con(con);
	}
}

/* socket has buffer space for writing */
static void ceph_sock_write_space(struct sock *sk)
{
	struct ceph_connection *con = sk->sk_user_data;

	/* only queue to workqueue if there is data we want to write,
	 * and there is sufficient space in the socket buffer to accept
	 * more data.  clear SOCK_NOSPACE so that ceph_sock_write_space()
	 * doesn't get called again until try_write() fills the socket
	 * buffer. See net/ipv4/tcp_input.c:tcp_check_space()
	 * and net/core/stream.c:sk_stream_write_space().
	 */
	if (con_flag_test(con, CON_FLAG_WRITE_PENDING)) {
		if (sk_stream_wspace(sk) >= sk_stream_min_wspace(sk)) {
			dout("%s %p queueing write work\n", __func__, con);
			clear_bit(SOCK_NOSPACE, &sk->sk_socket->flags);
			queue_con(con);
		}
	} else {
		dout("%s %p nothing to write\n", __func__, con);
	}
}

/* socket's state has changed */
static void ceph_sock_state_change(struct sock *sk)
{
	struct ceph_connection *con = sk->sk_user_data;

	dout("%s %p state = %lu sk_state = %u\n", __func__,
	     con, con->state, sk->sk_state);

	switch (sk->sk_state) {
	case TCP_CLOSE:
		dout("%s TCP_CLOSE\n", __func__);
	case TCP_CLOSE_WAIT:
		dout("%s TCP_CLOSE_WAIT\n", __func__);
		con_sock_state_closing(con);
		con_flag_set(con, CON_FLAG_SOCK_CLOSED);
		queue_con(con);
		break;
	case TCP_ESTABLISHED:
		dout("%s TCP_ESTABLISHED\n", __func__);
		con_sock_state_connected(con);
		queue_con(con);
		break;
	default:	/* Everything else is uninteresting */
		break;
	}
}

/*
 * set up socket callbacks
 */
static void set_sock_callbacks(struct socket *sock,
			       struct ceph_connection *con)
{
	struct sock *sk = sock->sk;
	sk->sk_user_data = con;
	sk->sk_data_ready = ceph_sock_data_ready;
	sk->sk_write_space = ceph_sock_write_space;
	sk->sk_state_change = ceph_sock_state_change;
}


/*
 * socket helpers
 */

/*
 * initiate connection to a remote socket.
 */
static int ceph_tcp_connect(struct ceph_connection *con)
{
	struct sockaddr_storage *paddr = &con->peer_addr.in_addr;
	struct socket *sock;
	int ret;

	BUG_ON(con->sock);
	ret = sock_create_kern(con->peer_addr.in_addr.ss_family, SOCK_STREAM,
			       IPPROTO_TCP, &sock);
	if (ret)
		return ret;
	sock->sk->sk_allocation = GFP_NOFS;

#ifdef CONFIG_LOCKDEP
	lockdep_set_class(&sock->sk->sk_lock, &socket_class);
#endif

	set_sock_callbacks(sock, con);

	dout("connect %s\n", ceph_pr_addr(&con->peer_addr.in_addr));

	con_sock_state_connecting(con);
	ret = sock->ops->connect(sock, (struct sockaddr *)paddr, sizeof(*paddr),
				 O_NONBLOCK);
	if (ret == -EINPROGRESS) {
		dout("connect %s EINPROGRESS sk_state = %u\n",
		     ceph_pr_addr(&con->peer_addr.in_addr),
		     sock->sk->sk_state);
	} else if (ret < 0) {
		pr_err("connect %s error %d\n",
		       ceph_pr_addr(&con->peer_addr.in_addr), ret);
		sock_release(sock);
		con->error_msg = "connect error";

		return ret;
	}
	con->sock = sock;
	return 0;
}

static int ceph_tcp_recvmsg(struct socket *sock, void *buf, size_t len)
{
	struct kvec iov = {buf, len};
	struct msghdr msg = { .msg_flags = MSG_DONTWAIT | MSG_NOSIGNAL };
	int r;

	r = kernel_recvmsg(sock, &msg, &iov, 1, len, msg.msg_flags);
	if (r == -EAGAIN)
		r = 0;
	return r;
}

static int ceph_tcp_recvpage(struct socket *sock, struct page *page,
		     int page_offset, size_t length)
{
	void *kaddr;
	int ret;

	BUG_ON(page_offset + length > PAGE_SIZE);

	kaddr = kmap(page);
	BUG_ON(!kaddr);
	ret = ceph_tcp_recvmsg(sock, kaddr + page_offset, length);
	kunmap(page);

	return ret;
}

/*
 * write something.  @more is true if caller will be sending more data
 * shortly.
 */
static int ceph_tcp_sendmsg(struct socket *sock, struct kvec *iov,
		     size_t kvlen, size_t len, int more)
{
	struct msghdr msg = { .msg_flags = MSG_DONTWAIT | MSG_NOSIGNAL };
	int r;

	if (more)
		msg.msg_flags |= MSG_MORE;
	else
		msg.msg_flags |= MSG_EOR;  /* superfluous, but what the hell */

	r = kernel_sendmsg(sock, &msg, iov, kvlen, len);
	if (r == -EAGAIN)
		r = 0;
	return r;
}

static int ceph_tcp_sendpage(struct socket *sock, struct page *page,
		     int offset, size_t size, bool more)
{
	int flags = MSG_DONTWAIT | MSG_NOSIGNAL | (more ? MSG_MORE : MSG_EOR);
	int ret;

	ret = kernel_sendpage(sock, page, offset, size, flags);
	if (ret == -EAGAIN)
		ret = 0;

	return ret;
}


/*
 * Shutdown/close the socket for the given connection.
 */
static int con_close_socket(struct ceph_connection *con)
{
	int rc = 0;

	dout("con_close_socket on %p sock %p\n", con, con->sock);
	if (con->sock) {
		rc = con->sock->ops->shutdown(con->sock, SHUT_RDWR);
		sock_release(con->sock);
		con->sock = NULL;
	}

	/*
	 * Forcibly clear the SOCK_CLOSED flag.  It gets set
	 * independent of the connection mutex, and we could have
	 * received a socket close event before we had the chance to
	 * shut the socket down.
	 */
	con_flag_clear(con, CON_FLAG_SOCK_CLOSED);

	con_sock_state_closed(con);
	return rc;
}

/*
 * Reset a connection.  Discard all incoming and outgoing messages
 * and clear *_seq state.
 */
static void ceph_msg_remove(struct ceph_msg *msg)
{
	list_del_init(&msg->list_head);
	BUG_ON(msg->con == NULL);
	msg->con->ops->put(msg->con);
	msg->con = NULL;

	ceph_msg_put(msg);
}
static void ceph_msg_remove_list(struct list_head *head)
{
	while (!list_empty(head)) {
		struct ceph_msg *msg = list_first_entry(head, struct ceph_msg,
							list_head);
		ceph_msg_remove(msg);
	}
}

static void reset_connection(struct ceph_connection *con)
{
	/* reset connection, out_queue, msg_ and connect_seq */
	/* discard existing out_queue and msg_seq */
	dout("reset_connection %p\n", con);
	ceph_msg_remove_list(&con->out_queue);
	ceph_msg_remove_list(&con->out_sent);

	if (con->in_msg) {
		BUG_ON(con->in_msg->con != con);
		con->in_msg->con = NULL;
		ceph_msg_put(con->in_msg);
		con->in_msg = NULL;
		con->ops->put(con);
	}

	con->connect_seq = 0;
	con->out_seq = 0;
	if (con->out_msg) {
		ceph_msg_put(con->out_msg);
		con->out_msg = NULL;
	}
	con->in_seq = 0;
	con->in_seq_acked = 0;
}

/*
 * mark a peer down.  drop any open connections.
 */
void ceph_con_close(struct ceph_connection *con)
{
	mutex_lock(&con->mutex);
	dout("con_close %p peer %s\n", con,
	     ceph_pr_addr(&con->peer_addr.in_addr));
	con->state = CON_STATE_CLOSED;

	con_flag_clear(con, CON_FLAG_LOSSYTX);	/* so we retry next connect */
	con_flag_clear(con, CON_FLAG_KEEPALIVE_PENDING);
	con_flag_clear(con, CON_FLAG_WRITE_PENDING);
	con_flag_clear(con, CON_FLAG_BACKOFF);

	reset_connection(con);
	con->peer_global_seq = 0;
	cancel_delayed_work(&con->work);
	con_close_socket(con);
	mutex_unlock(&con->mutex);
}
EXPORT_SYMBOL(ceph_con_close);

/*
 * Reopen a closed connection, with a new peer address.
 */
void ceph_con_open(struct ceph_connection *con,
		   __u8 entity_type, __u64 entity_num,
		   struct ceph_entity_addr *addr)
{
	mutex_lock(&con->mutex);
	dout("con_open %p %s\n", con, ceph_pr_addr(&addr->in_addr));

	WARN_ON(con->state != CON_STATE_CLOSED);
	con->state = CON_STATE_PREOPEN;

	con->peer_name.type = (__u8) entity_type;
	con->peer_name.num = cpu_to_le64(entity_num);

	memcpy(&con->peer_addr, addr, sizeof(*addr));
	con->delay = 0;      /* reset backoff memory */
	mutex_unlock(&con->mutex);
	queue_con(con);
}
EXPORT_SYMBOL(ceph_con_open);

/*
 * return true if this connection ever successfully opened
 */
bool ceph_con_opened(struct ceph_connection *con)
{
	return con->connect_seq > 0;
}

/*
 * initialize a new connection.
 */
void ceph_con_init(struct ceph_connection *con, void *private,
	const struct ceph_connection_operations *ops,
	struct ceph_messenger *msgr)
{
	dout("con_init %p\n", con);
	memset(con, 0, sizeof(*con));
	con->private = private;
	con->ops = ops;
	con->msgr = msgr;

	con_sock_state_init(con);

	mutex_init(&con->mutex);
	INIT_LIST_HEAD(&con->out_queue);
	INIT_LIST_HEAD(&con->out_sent);
	INIT_DELAYED_WORK(&con->work, con_work);

	con->state = CON_STATE_CLOSED;
}
EXPORT_SYMBOL(ceph_con_init);


/*
 * We maintain a global counter to order connection attempts.  Get
 * a unique seq greater than @gt.
 */
static u32 get_global_seq(struct ceph_messenger *msgr, u32 gt)
{
	u32 ret;

	spin_lock(&msgr->global_seq_lock);
	if (msgr->global_seq < gt)
		msgr->global_seq = gt;
	ret = ++msgr->global_seq;
	spin_unlock(&msgr->global_seq_lock);
	return ret;
}

static void con_out_kvec_reset(struct ceph_connection *con)
{
	con->out_kvec_left = 0;
	con->out_kvec_bytes = 0;
	con->out_kvec_cur = &con->out_kvec[0];
}

static void con_out_kvec_add(struct ceph_connection *con,
				size_t size, void *data)
{
	int index;

	index = con->out_kvec_left;
	BUG_ON(index >= ARRAY_SIZE(con->out_kvec));

	con->out_kvec[index].iov_len = size;
	con->out_kvec[index].iov_base = data;
	con->out_kvec_left++;
	con->out_kvec_bytes += size;
}

#ifdef CONFIG_BLOCK

/*
 * For a bio data item, a piece is whatever remains of the next
 * entry in the current bio iovec, or the first entry in the next
 * bio in the list.
 */
static void ceph_msg_data_bio_cursor_init(struct ceph_msg_data *data,
					size_t length)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	struct bio *bio;

	BUG_ON(data->type != CEPH_MSG_DATA_BIO);

	bio = data->bio;
	BUG_ON(!bio);
	BUG_ON(!bio->bi_vcnt);

	cursor->resid = length;
	cursor->bio = bio;
	cursor->vector_index = 0;
	cursor->vector_offset = 0;
	cursor->last_piece = length <= bio->bi_io_vec[0].bv_len;
}

static struct page *ceph_msg_data_bio_next(struct ceph_msg_data *data,
						size_t *page_offset,
						size_t *length)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	struct bio *bio;
	struct bio_vec *bio_vec;
	unsigned int index;

	BUG_ON(data->type != CEPH_MSG_DATA_BIO);

	bio = cursor->bio;
	BUG_ON(!bio);

	index = cursor->vector_index;
	BUG_ON(index >= (unsigned int) bio->bi_vcnt);

	bio_vec = &bio->bi_io_vec[index];
	BUG_ON(cursor->vector_offset >= bio_vec->bv_len);
	*page_offset = (size_t) (bio_vec->bv_offset + cursor->vector_offset);
	BUG_ON(*page_offset >= PAGE_SIZE);
	if (cursor->last_piece) /* pagelist offset is always 0 */
		*length = cursor->resid;
	else
		*length = (size_t) (bio_vec->bv_len - cursor->vector_offset);
	BUG_ON(*length > cursor->resid);
	BUG_ON(*page_offset + *length > PAGE_SIZE);

	return bio_vec->bv_page;
}

static bool ceph_msg_data_bio_advance(struct ceph_msg_data *data, size_t bytes)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	struct bio *bio;
	struct bio_vec *bio_vec;
	unsigned int index;

	BUG_ON(data->type != CEPH_MSG_DATA_BIO);

	bio = cursor->bio;
	BUG_ON(!bio);

	index = cursor->vector_index;
	BUG_ON(index >= (unsigned int) bio->bi_vcnt);
	bio_vec = &bio->bi_io_vec[index];

	/* Advance the cursor offset */

	BUG_ON(cursor->resid < bytes);
	cursor->resid -= bytes;
	cursor->vector_offset += bytes;
	if (cursor->vector_offset < bio_vec->bv_len)
		return false;	/* more bytes to process in this segment */
	BUG_ON(cursor->vector_offset != bio_vec->bv_len);

	/* Move on to the next segment, and possibly the next bio */

	if (++index == (unsigned int) bio->bi_vcnt) {
		bio = bio->bi_next;
		index = 0;
	}
	cursor->bio = bio;
	cursor->vector_index = index;
	cursor->vector_offset = 0;

	if (!cursor->last_piece) {
		BUG_ON(!cursor->resid);
		BUG_ON(!bio);
		/* A short read is OK, so use <= rather than == */
		if (cursor->resid <= bio->bi_io_vec[index].bv_len)
			cursor->last_piece = true;
	}

	return true;
}
#endif

/*
 * For a page array, a piece comes from the first page in the array
 * that has not already been fully consumed.
 */
static void ceph_msg_data_pages_cursor_init(struct ceph_msg_data *data,
					size_t length)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	int page_count;

	BUG_ON(data->type != CEPH_MSG_DATA_PAGES);

	BUG_ON(!data->pages);
	BUG_ON(!data->length);
	BUG_ON(length > data->length);	/* short reads are OK */

	cursor->resid = length;
	page_count = calc_pages_for(data->alignment, (u64)data->length);
	cursor->page_offset = data->alignment & ~PAGE_MASK;
	cursor->page_index = 0;
	BUG_ON(page_count > (int)USHRT_MAX);
	cursor->page_count = (unsigned short)page_count;
	BUG_ON(length > SIZE_MAX - cursor->page_offset);
	cursor->last_piece = (size_t)cursor->page_offset + length <= PAGE_SIZE;
}

static struct page *ceph_msg_data_pages_next(struct ceph_msg_data *data,
					size_t *page_offset,
					size_t *length)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;

	BUG_ON(data->type != CEPH_MSG_DATA_PAGES);

	BUG_ON(cursor->page_index >= cursor->page_count);
	BUG_ON(cursor->page_offset >= PAGE_SIZE);

	*page_offset = cursor->page_offset;
	if (cursor->last_piece)
		*length = cursor->resid;
	else
		*length = PAGE_SIZE - *page_offset;

	return data->pages[cursor->page_index];
}

static bool ceph_msg_data_pages_advance(struct ceph_msg_data *data,
						size_t bytes)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;

	BUG_ON(data->type != CEPH_MSG_DATA_PAGES);

	BUG_ON(cursor->page_offset + bytes > PAGE_SIZE);

	/* Advance the cursor page offset */

	cursor->resid -= bytes;
	cursor->page_offset = (cursor->page_offset + bytes) & ~PAGE_MASK;
	if (!bytes || cursor->page_offset)
		return false;	/* more bytes to process in the current page */

	/* Move on to the next page; offset is already at 0 */

	BUG_ON(cursor->page_index >= cursor->page_count);
	cursor->page_index++;
	cursor->last_piece = cursor->resid <= PAGE_SIZE;

	return true;
}

/*
 * For a pagelist, a piece is whatever remains to be consumed in the
 * first page in the list, or the front of the next page.
 */
static void ceph_msg_data_pagelist_cursor_init(struct ceph_msg_data *data,
					size_t length)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	struct ceph_pagelist *pagelist;
	struct page *page;

	BUG_ON(data->type != CEPH_MSG_DATA_PAGELIST);

	pagelist = data->pagelist;
	BUG_ON(!pagelist);
	BUG_ON(length > pagelist->length);	/* short reads are OK */

	if (!length)
		return;		/* pagelist can be assigned but empty */

	BUG_ON(list_empty(&pagelist->head));
	page = list_first_entry(&pagelist->head, struct page, lru);

	cursor->resid = length;
	cursor->page = page;
	cursor->offset = 0;
	cursor->last_piece = length <= PAGE_SIZE;
}

static struct page *ceph_msg_data_pagelist_next(struct ceph_msg_data *data,
						size_t *page_offset,
						size_t *length)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	struct ceph_pagelist *pagelist;

	BUG_ON(data->type != CEPH_MSG_DATA_PAGELIST);

	pagelist = data->pagelist;
	BUG_ON(!pagelist);

	BUG_ON(!cursor->page);
	BUG_ON(cursor->offset + cursor->resid != pagelist->length);

	/* offset of first page in pagelist is always 0 */
	*page_offset = cursor->offset & ~PAGE_MASK;
	if (cursor->last_piece)
		*length = cursor->resid;
	else
		*length = PAGE_SIZE - *page_offset;

	return data->cursor.page;
}

static bool ceph_msg_data_pagelist_advance(struct ceph_msg_data *data,
						size_t bytes)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	struct ceph_pagelist *pagelist;

	BUG_ON(data->type != CEPH_MSG_DATA_PAGELIST);

	pagelist = data->pagelist;
	BUG_ON(!pagelist);

	BUG_ON(cursor->offset + cursor->resid != pagelist->length);
	BUG_ON((cursor->offset & ~PAGE_MASK) + bytes > PAGE_SIZE);

	/* Advance the cursor offset */

	cursor->resid -= bytes;
	cursor->offset += bytes;
	/* offset of first page in pagelist is always 0 */
	if (!bytes || cursor->offset & ~PAGE_MASK)
		return false;	/* more bytes to process in the current page */

	/* Move on to the next page */

	BUG_ON(list_is_last(&cursor->page->lru, &pagelist->head));
	cursor->page = list_entry_next(cursor->page, lru);
	cursor->last_piece = cursor->resid <= PAGE_SIZE;

	return true;
}

/*
 * Message data is handled (sent or received) in pieces, where each
 * piece resides on a single page.  The network layer might not
 * consume an entire piece at once.  A data item's cursor keeps
 * track of which piece is next to process and how much remains to
 * be processed in that piece.  It also tracks whether the current
 * piece is the last one in the data item.
 */
static void ceph_msg_data_cursor_init(struct ceph_msg_data *data,
					size_t length)
{
	switch (data->type) {
	case CEPH_MSG_DATA_PAGELIST:
		ceph_msg_data_pagelist_cursor_init(data, length);
		break;
	case CEPH_MSG_DATA_PAGES:
		ceph_msg_data_pages_cursor_init(data, length);
		break;
#ifdef CONFIG_BLOCK
	case CEPH_MSG_DATA_BIO:
		ceph_msg_data_bio_cursor_init(data, length);
		break;
#endif /* CONFIG_BLOCK */
	case CEPH_MSG_DATA_NONE:
	default:
		/* BUG(); */
		break;
	}
	data->cursor.need_crc = true;
}

/*
 * Return the page containing the next piece to process for a given
 * data item, and supply the page offset and length of that piece.
 * Indicate whether this is the last piece in this data item.
 */
static struct page *ceph_msg_data_next(struct ceph_msg_data *data,
					size_t *page_offset,
					size_t *length,
					bool *last_piece)
{
	struct page *page;

	switch (data->type) {
	case CEPH_MSG_DATA_PAGELIST:
		page = ceph_msg_data_pagelist_next(data, page_offset, length);
		break;
	case CEPH_MSG_DATA_PAGES:
		page = ceph_msg_data_pages_next(data, page_offset, length);
		break;
#ifdef CONFIG_BLOCK
	case CEPH_MSG_DATA_BIO:
		page = ceph_msg_data_bio_next(data, page_offset, length);
		break;
#endif /* CONFIG_BLOCK */
	case CEPH_MSG_DATA_NONE:
	default:
		page = NULL;
		break;
	}
	BUG_ON(!page);
	BUG_ON(*page_offset + *length > PAGE_SIZE);
	BUG_ON(!*length);
	if (last_piece)
		*last_piece = data->cursor.last_piece;

	return page;
}

/*
 * Returns true if the result moves the cursor on to the next piece
 * of the data item.
 */
static bool ceph_msg_data_advance(struct ceph_msg_data *data, size_t bytes)
{
	struct ceph_msg_data_cursor *cursor = &data->cursor;
	bool new_piece;

	BUG_ON(bytes > cursor->resid);
	switch (data->type) {
	case CEPH_MSG_DATA_PAGELIST:
		new_piece = ceph_msg_data_pagelist_advance(data, bytes);
		break;
	case CEPH_MSG_DATA_PAGES:
		new_piece = ceph_msg_data_pages_advance(data, bytes);
		break;
#ifdef CONFIG_BLOCK
	case CEPH_MSG_DATA_BIO:
		new_piece = ceph_msg_data_bio_advance(data, bytes);
		break;
#endif /* CONFIG_BLOCK */
	case CEPH_MSG_DATA_NONE:
	default:
		BUG();
		break;
	}
	data->cursor.need_crc = new_piece;

	return new_piece;
}

static void prepare_message_data(struct ceph_msg *msg, u32 data_len)
{
	BUG_ON(!msg);
	BUG_ON(!data_len);

	/* Initialize data cursor */

	ceph_msg_data_cursor_init(msg->data, (size_t)data_len);
}

/*
 * Prepare footer for currently outgoing message, and finish things
 * off.  Assumes out_kvec* are already valid.. we just add on to the end.
 */
static void prepare_write_message_footer(struct ceph_connection *con)
{
	struct ceph_msg *m = con->out_msg;
	int v = con->out_kvec_left;

	m->footer.flags |= CEPH_MSG_FOOTER_COMPLETE;

	dout("prepare_write_message_footer %p\n", con);
	con->out_kvec_is_msg = true;
	con->out_kvec[v].iov_base = &m->footer;
	con->out_kvec[v].iov_len = sizeof(m->footer);
	con->out_kvec_bytes += sizeof(m->footer);
	con->out_kvec_left++;
	con->out_more = m->more_to_follow;
	con->out_msg_done = true;
}

/*
 * Prepare headers for the next outgoing message.
 */
static void prepare_write_message(struct ceph_connection *con)
{
	struct ceph_msg *m;
	u32 crc;

	con_out_kvec_reset(con);
	con->out_kvec_is_msg = true;
	con->out_msg_done = false;

	/* Sneak an ack in there first?  If we can get it into the same
	 * TCP packet that's a good thing. */
	if (con->in_seq > con->in_seq_acked) {
		con->in_seq_acked = con->in_seq;
		con_out_kvec_add(con, sizeof (tag_ack), &tag_ack);
		con->out_temp_ack = cpu_to_le64(con->in_seq_acked);
		con_out_kvec_add(con, sizeof (con->out_temp_ack),
			&con->out_temp_ack);
	}

	BUG_ON(list_empty(&con->out_queue));
	m = list_first_entry(&con->out_queue, struct ceph_msg, list_head);
	con->out_msg = m;
	BUG_ON(m->con != con);

	/* put message on sent list */
	ceph_msg_get(m);
	list_move_tail(&m->list_head, &con->out_sent);

	/*
	 * only assign outgoing seq # if we haven't sent this message
	 * yet.  if it is requeued, resend with it's original seq.
	 */
	if (m->needs_out_seq) {
		m->hdr.seq = cpu_to_le64(++con->out_seq);
		m->needs_out_seq = false;
	}
	WARN_ON(m->data_length != le32_to_cpu(m->hdr.data_len));

	dout("prepare_write_message %p seq %lld type %d len %d+%d+%zd\n",
	     m, con->out_seq, le16_to_cpu(m->hdr.type),
	     le32_to_cpu(m->hdr.front_len), le32_to_cpu(m->hdr.middle_len),
	     m->data_length);
	BUG_ON(le32_to_cpu(m->hdr.front_len) != m->front.iov_len);

	/* tag + hdr + front + middle */
	con_out_kvec_add(con, sizeof (tag_msg), &tag_msg);
	con_out_kvec_add(con, sizeof (m->hdr), &m->hdr);
	con_out_kvec_add(con, m->front.iov_len, m->front.iov_base);

	if (m->middle)
		con_out_kvec_add(con, m->middle->vec.iov_len,
			m->middle->vec.iov_base);

	/* fill in crc (except data pages), footer */
	crc = crc32c(0, &m->hdr, offsetof(struct ceph_msg_header, crc));
	con->out_msg->hdr.crc = cpu_to_le32(crc);
	con->out_msg->footer.flags = 0;

	crc = crc32c(0, m->front.iov_base, m->front.iov_len);
	con->out_msg->footer.front_crc = cpu_to_le32(crc);
	if (m->middle) {
		crc = crc32c(0, m->middle->vec.iov_base,
				m->middle->vec.iov_len);
		con->out_msg->footer.middle_crc = cpu_to_le32(crc);
	} else
		con->out_msg->footer.middle_crc = 0;
	dout("%s front_crc %u middle_crc %u\n", __func__,
	     le32_to_cpu(con->out_msg->footer.front_crc),
	     le32_to_cpu(con->out_msg->footer.middle_crc));

	/* is there a data payload? */
	con->out_msg->footer.data_crc = 0;
	if (m->data_length) {
		prepare_message_data(con->out_msg, m->data_length);
		con->out_more = 1;  /* data + footer will follow */
	} else {
		/* no, queue up footer too and be done */
		prepare_write_message_footer(con);
	}

	con_flag_set(con, CON_FLAG_WRITE_PENDING);
}

/*
 * Prepare an ack.
 */
static void prepare_write_ack(struct ceph_connection *con)
{
	dout("prepare_write_ack %p %llu -> %llu\n", con,
	     con->in_seq_acked, con->in_seq);
	con->in_seq_acked = con->in_seq;

	con_out_kvec_reset(con);

	con_out_kvec_add(con, sizeof (tag_ack), &tag_ack);

	con->out_temp_ack = cpu_to_le64(con->in_seq_acked);
	con_out_kvec_add(con, sizeof (con->out_temp_ack),
				&con->out_temp_ack);

	con->out_more = 1;  /* more will follow.. eventually.. */
	con_flag_set(con, CON_FLAG_WRITE_PENDING);
}

/*
 * Prepare to share the seq during handshake
 */
static void prepare_write_seq(struct ceph_connection *con)
{
	dout("prepare_write_seq %p %llu -> %llu\n", con,
	     con->in_seq_acked, con->in_seq);
	con->in_seq_acked = con->in_seq;

	con_out_kvec_reset(con);

	con->out_temp_ack = cpu_to_le64(con->in_seq_acked);
	con_out_kvec_add(con, sizeof (con->out_temp_ack),
			 &con->out_temp_ack);

	con_flag_set(con, CON_FLAG_WRITE_PENDING);
}

/*
 * Prepare to write keepalive byte.
 */
static void prepare_write_keepalive(struct ceph_connection *con)
{
	dout("prepare_write_keepalive %p\n", con);
	con_out_kvec_reset(con);
	con_out_kvec_add(con, sizeof (tag_keepalive), &tag_keepalive);
	con_flag_set(con, CON_FLAG_WRITE_PENDING);
}

/*
 * Connection negotiation.
 */

static struct ceph_auth_handshake *get_connect_authorizer(struct ceph_connection *con,
						int *auth_proto)
{
	struct ceph_auth_handshake *auth;

	if (!con->ops->get_authorizer) {
		con->out_connect.authorizer_protocol = CEPH_AUTH_UNKNOWN;
		con->out_connect.authorizer_len = 0;
		return NULL;
	}

	/* Can't hold the mutex while getting authorizer */
	mutex_unlock(&con->mutex);
	auth = con->ops->get_authorizer(con, auth_proto, con->auth_retry);
	mutex_lock(&con->mutex);

	if (IS_ERR(auth))
		return auth;
	if (con->state != CON_STATE_NEGOTIATING)
		return ERR_PTR(-EAGAIN);

	con->auth_reply_buf = auth->authorizer_reply_buf;
	con->auth_reply_buf_len = auth->authorizer_reply_buf_len;
	return auth;
}

/*
 * We connected to a peer and are saying hello.
 */
static void prepare_write_banner(struct ceph_connection *con)
{
	con_out_kvec_add(con, strlen(CEPH_BANNER), CEPH_BANNER);
	con_out_kvec_add(con, sizeof (con->msgr->my_enc_addr),
					&con->msgr->my_enc_addr);

	con->out_more = 0;
	con_flag_set(con, CON_FLAG_WRITE_PENDING);
}

static int prepare_write_connect(struct ceph_connection *con)
{
	unsigned int global_seq = get_global_seq(con->msgr, 0);
	int proto;
	int auth_proto;
	struct ceph_auth_handshake *auth;

	switch (con->peer_name.type) {
	case CEPH_ENTITY_TYPE_MON:
		proto = CEPH_MONC_PROTOCOL;
		break;
	case CEPH_ENTITY_TYPE_OSD:
		proto = CEPH_OSDC_PROTOCOL;
		break;
	case CEPH_ENTITY_TYPE_MDS:
		proto = CEPH_MDSC_PROTOCOL;
		break;
	default:
		BUG();
	}

	dout("prepare_write_connect %p cseq=%d gseq=%d proto=%d\n", con,
	     con->connect_seq, global_seq, proto);

	con->out_connect.features = cpu_to_le64(con->msgr->supported_features);
	con->out_connect.host_type = cpu_to_le32(CEPH_ENTITY_TYPE_CLIENT);
	con->out_connect.connect_seq = cpu_to_le32(con->connect_seq);
	con->out_connect.global_seq = cpu_to_le32(global_seq);
	con->out_connect.protocol_version = cpu_to_le32(proto);
	con->out_connect.flags = 0;

	auth_proto = CEPH_AUTH_UNKNOWN;
	auth = get_connect_authorizer(con, &auth_proto);
	if (IS_ERR(auth))
		return PTR_ERR(auth);

	con->out_connect.authorizer_protocol = cpu_to_le32(auth_proto);
	con->out_connect.authorizer_len = auth ?
		cpu_to_le32(auth->authorizer_buf_len) : 0;

	con_out_kvec_add(con, sizeof (con->out_connect),
					&con->out_connect);
	if (auth && auth->authorizer_buf_len)
		con_out_kvec_add(con, auth->authorizer_buf_len,
					auth->authorizer_buf);

	con->out_more = 0;
	con_flag_set(con, CON_FLAG_WRITE_PENDING);

	return 0;
}

/*
 * write as much of pending kvecs to the socket as we can.
 *  1 -> done
 *  0 -> socket full, but more to do
 * <0 -> error
 */
static int write_partial_kvec(struct ceph_connection *con)
{
	int ret;

	dout("write_partial_kvec %p %d left\n", con, con->out_kvec_bytes);
	while (con->out_kvec_bytes > 0) {
		ret = ceph_tcp_sendmsg(con->sock, con->out_kvec_cur,
				       con->out_kvec_left, con->out_kvec_bytes,
				       con->out_more);
		if (ret <= 0)
			goto out;
		con->out_kvec_bytes -= ret;
		if (con->out_kvec_bytes == 0)
			break;            /* done */

		/* account for full iov entries consumed */
		while (ret >= con->out_kvec_cur->iov_len) {
			BUG_ON(!con->out_kvec_left);
			ret -= con->out_kvec_cur->iov_len;
			con->out_kvec_cur++;
			con->out_kvec_left--;
		}
		/* and for a partially-consumed entry */
		if (ret) {
			con->out_kvec_cur->iov_len -= ret;
			con->out_kvec_cur->iov_base += ret;
		}
	}
	con->out_kvec_left = 0;
	con->out_kvec_is_msg = false;
	ret = 1;
out:
	dout("write_partial_kvec %p %d left in %d kvecs ret = %d\n", con,
	     con->out_kvec_bytes, con->out_kvec_left, ret);
	return ret;  /* done! */
}

static u32 ceph_crc32c_page(u32 crc, struct page *page,
				unsigned int page_offset,
				unsigned int length)
{
	char *kaddr;

	kaddr = kmap(page);
	BUG_ON(kaddr == NULL);
	crc = crc32c(crc, kaddr + page_offset, length);
	kunmap(page);

	return crc;
}
/*
 * Write as much message data payload as we can.  If we finish, queue
 * up the footer.
 *  1 -> done, footer is now queued in out_kvec[].
 *  0 -> socket full, but more to do
 * <0 -> error
 */
static int write_partial_message_data(struct ceph_connection *con)
{
	struct ceph_msg *msg = con->out_msg;
	struct ceph_msg_data_cursor *cursor = &msg->data->cursor;
	bool do_datacrc = !con->msgr->nocrc;
	u32 crc;

	dout("%s %p msg %p\n", __func__, con, msg);

	if (WARN_ON(!msg->data))
		return -EINVAL;

	/*
	 * Iterate through each page that contains data to be
	 * written, and send as much as possible for each.
	 *
	 * If we are calculating the data crc (the default), we will
	 * need to map the page.  If we have no pages, they have
	 * been revoked, so use the zero page.
	 */
	crc = do_datacrc ? le32_to_cpu(msg->footer.data_crc) : 0;
	while (cursor->resid) {
		struct page *page;
		size_t page_offset;
		size_t length;
		bool last_piece;
		bool need_crc;
		int ret;

		page = ceph_msg_data_next(msg->data, &page_offset, &length,
							&last_piece);
		ret = ceph_tcp_sendpage(con->sock, page, page_offset,
				      length, last_piece);
		if (ret <= 0) {
			if (do_datacrc)
				msg->footer.data_crc = cpu_to_le32(crc);

			return ret;
		}
		if (do_datacrc && cursor->need_crc)
			crc = ceph_crc32c_page(crc, page, page_offset, length);
		need_crc = ceph_msg_data_advance(msg->data, (size_t)ret);
	}

	dout("%s %p msg %p done\n", __func__, con, msg);

	/* prepare and queue up footer, too */
	if (do_datacrc)
		msg->footer.data_crc = cpu_to_le32(crc);
	else
		msg->footer.flags |= CEPH_MSG_FOOTER_NOCRC;
	con_out_kvec_reset(con);
	prepare_write_message_footer(con);

	return 1;	/* must return > 0 to indicate success */
}

/*
 * write some zeros
 */
static int write_partial_skip(struct ceph_connection *con)
{
	int ret;

	while (con->out_skip > 0) {
		size_t size = min(con->out_skip, (int) PAGE_CACHE_SIZE);

		ret = ceph_tcp_sendpage(con->sock, zero_page, 0, size, true);
		if (ret <= 0)
			goto out;
		con->out_skip -= ret;
	}
	ret = 1;
out:
	return ret;
}

/*
 * Prepare to read connection handshake, or an ack.
 */
static void prepare_read_banner(struct ceph_connection *con)
{
	dout("prepare_read_banner %p\n", con);
	con->in_base_pos = 0;
}

static void prepare_read_connect(struct ceph_connection *con)
{
	dout("prepare_read_connect %p\n", con);
	con->in_base_pos = 0;
}

static void prepare_read_ack(struct ceph_connection *con)
{
	dout("prepare_read_ack %p\n", con);
	con->in_base_pos = 0;
}

static void prepare_read_seq(struct ceph_connection *con)
{
	dout("prepare_read_seq %p\n", con);
	con->in_base_pos = 0;
	con->in_tag = CEPH_MSGR_TAG_SEQ;
}

static void prepare_read_tag(struct ceph_connection *con)
{
	dout("prepare_read_tag %p\n", con);
	con->in_base_pos = 0;
	con->in_tag = CEPH_MSGR_TAG_READY;
}

/*
 * Prepare to read a message.
 */
static int prepare_read_message(struct ceph_connection *con)
{
	dout("prepare_read_message %p\n", con);
	BUG_ON(con->in_msg != NULL);
	con->in_base_pos = 0;
	con->in_front_crc = con->in_middle_crc = con->in_data_crc = 0;
	return 0;
}


static int read_partial(struct ceph_connection *con,
			int end, int size, void *object)
{
	while (con->in_base_pos < end) {
		int left = end - con->in_base_pos;
		int have = size - left;
		int ret = ceph_tcp_recvmsg(con->sock, object + have, left);
		if (ret <= 0)
			return ret;
		con->in_base_pos += ret;
	}
	return 1;
}


/*
 * Read all or part of the connect-side handshake on a new connection
 */
static int read_partial_banner(struct ceph_connection *con)
{
	int size;
	int end;
	int ret;

	dout("read_partial_banner %p at %d\n", con, con->in_base_pos);

	/* peer's banner */
	size = strlen(CEPH_BANNER);
	end = size;
	ret = read_partial(con, end, size, con->in_banner);
	if (ret <= 0)
		goto out;

	size = sizeof (con->actual_peer_addr);
	end += size;
	ret = read_partial(con, end, size, &con->actual_peer_addr);
	if (ret <= 0)
		goto out;

	size = sizeof (con->peer_addr_for_me);
	end += size;
	ret = read_partial(con, end, size, &con->peer_addr_for_me);
	if (ret <= 0)
		goto out;

out:
	return ret;
}

static int read_partial_connect(struct ceph_connection *con)
{
	int size;
	int end;
	int ret;

	dout("read_partial_connect %p at %d\n", con, con->in_base_pos);

	size = sizeof (con->in_reply);
	end = size;
	ret = read_partial(con, end, size, &con->in_reply);
	if (ret <= 0)
		goto out;

	size = le32_to_cpu(con->in_reply.authorizer_len);
	end += size;
	ret = read_partial(con, end, size, con->auth_reply_buf);
	if (ret <= 0)
		goto out;

	dout("read_partial_connect %p tag %d, con_seq = %u, g_seq = %u\n",
	     con, (int)con->in_reply.tag,
	     le32_to_cpu(con->in_reply.connect_seq),
	     le32_to_cpu(con->in_reply.global_seq));
out:
	return ret;

}

/*
 * Verify the hello banner looks okay.
 */
static int verify_hello(struct ceph_connection *con)
{
	if (memcmp(con->in_banner, CEPH_BANNER, strlen(CEPH_BANNER))) {
		pr_err("connect to %s got bad banner\n",
		       ceph_pr_addr(&con->peer_addr.in_addr));
		con->error_msg = "protocol error, bad banner";
		return -1;
	}
	return 0;
}

static bool addr_is_blank(struct sockaddr_storage *ss)
{
	switch (ss->ss_family) {
	case AF_INET:
		return ((struct sockaddr_in *)ss)->sin_addr.s_addr == 0;
	case AF_INET6:
		return
		     ((struct sockaddr_in6 *)ss)->sin6_addr.s6_addr32[0] == 0 &&
		     ((struct sockaddr_in6 *)ss)->sin6_addr.s6_addr32[1] == 0 &&
		     ((struct sockaddr_in6 *)ss)->sin6_addr.s6_addr32[2] == 0 &&
		     ((struct sockaddr_in6 *)ss)->sin6_addr.s6_addr32[3] == 0;
	}
	return false;
}

static int addr_port(struct sockaddr_storage *ss)
{
	switch (ss->ss_family) {
	case AF_INET:
		return ntohs(((struct sockaddr_in *)ss)->sin_port);
	case AF_INET6:
		return ntohs(((struct sockaddr_in6 *)ss)->sin6_port);
	}
	return 0;
}

static void addr_set_port(struct sockaddr_storage *ss, int p)
{
	switch (ss->ss_family) {
	case AF_INET:
		((struct sockaddr_in *)ss)->sin_port = htons(p);
		break;
	case AF_INET6:
		((struct sockaddr_in6 *)ss)->sin6_port = htons(p);
		break;
	}
}

/*
 * Unlike other *_pton function semantics, zero indicates success.
 */
static int ceph_pton(const char *str, size_t len, struct sockaddr_storage *ss,
		char delim, const char **ipend)
{
	struct sockaddr_in *in4 = (struct sockaddr_in *) ss;
	struct sockaddr_in6 *in6 = (struct sockaddr_in6 *) ss;

	memset(ss, 0, sizeof(*ss));

	if (in4_pton(str, len, (u8 *)&in4->sin_addr.s_addr, delim, ipend)) {
		ss->ss_family = AF_INET;
		return 0;
	}

	if (in6_pton(str, len, (u8 *)&in6->sin6_addr.s6_addr, delim, ipend)) {
		ss->ss_family = AF_INET6;
		return 0;
	}

	return -EINVAL;
}

/*
 * Extract hostname string and resolve using kernel DNS facility.
 */
#ifdef CONFIG_CEPH_LIB_USE_DNS_RESOLVER
static int ceph_dns_resolve_name(const char *name, size_t namelen,
		struct sockaddr_storage *ss, char delim, const char **ipend)
{
	const char *end, *delim_p;
	char *colon_p, *ip_addr = NULL;
	int ip_len, ret;

	/*
	 * The end of the hostname occurs immediately preceding the delimiter or
	 * the port marker (':') where the delimiter takes precedence.
	 */
	delim_p = memchr(name, delim, namelen);
	colon_p = memchr(name, ':', namelen);

	if (delim_p && colon_p)
		end = delim_p < colon_p ? delim_p : colon_p;
	else if (!delim_p && colon_p)
		end = colon_p;
	else {
		end = delim_p;
		if (!end) /* case: hostname:/ */
			end = name + namelen;
	}

	if (end <= name)
		return -EINVAL;

	/* do dns_resolve upcall */
	ip_len = dns_query(NULL, name, end - name, NULL, &ip_addr, NULL);
	if (ip_len > 0)
		ret = ceph_pton(ip_addr, ip_len, ss, -1, NULL);
	else
		ret = -ESRCH;

	kfree(ip_addr);

	*ipend = end;

	pr_info("resolve '%.*s' (ret=%d): %s\n", (int)(end - name), name,
			ret, ret ? "failed" : ceph_pr_addr(ss));

	return ret;
}
#else
static inline int ceph_dns_resolve_name(const char *name, size_t namelen,
		struct sockaddr_storage *ss, char delim, const char **ipend)
{
	return -EINVAL;
}
#endif

/*
 * Parse a server name (IP or hostname). If a valid IP address is not found
 * then try to extract a hostname to resolve using userspace DNS upcall.
 */
static int ceph_parse_server_name(const char *name, size_t namelen,
			struct sockaddr_storage *ss, char delim, const char **ipend)
{
	int ret;

	ret = ceph_pton(name, namelen, ss, delim, ipend);
	if (ret)
		ret = ceph_dns_resolve_name(name, namelen, ss, delim, ipend);

	return ret;
}

/*
 * Parse an ip[:port] list into an addr array.  Use the default
 * monitor port if a port isn't specified.
 */
int ceph_parse_ips(const char *c, const char *end,
		   struct ceph_entity_addr *addr,
		   int max_count, int *count)
{
	int i, ret = -EINVAL;
	const char *p = c;

	dout("parse_ips on '%.*s'\n", (int)(end-c), c);
	for (i = 0; i < max_count; i++) {
		const char *ipend;
		struct sockaddr_storage *ss = &addr[i].in_addr;
		int port;
		char delim = ',';

		if (*p == '[') {
			delim = ']';
			p++;
		}

		ret = ceph_parse_server_name(p, end - p, ss, delim, &ipend);
		if (ret)
			goto bad;
		ret = -EINVAL;

		p = ipend;

		if (delim == ']') {
			if (*p != ']') {
				dout("missing matching ']'\n");
				goto bad;
			}
			p++;
		}

		/* port? */
		if (p < end && *p == ':') {
			port = 0;
			p++;
			while (p < end && *p >= '0' && *p <= '9') {
				port = (port * 10) + (*p - '0');
				p++;
			}
			if (port > 65535 || port == 0)
				goto bad;
		} else {
			port = CEPH_MON_PORT;
		}

		addr_set_port(ss, port);

		dout("parse_ips got %s\n", ceph_pr_addr(ss));

		if (p == end)
			break;
		if (*p != ',')
			goto bad;
		p++;
	}

	if (p != end)
		goto bad;

	if (count)
		*count = i + 1;
	return 0;

bad:
	pr_err("parse_ips bad ip '%.*s'\n", (int)(end - c), c);
	return ret;
}
EXPORT_SYMBOL(ceph_parse_ips);

static int process_banner(struct ceph_connection *con)
{
	dout("process_banner on %p\n", con);

	if (verify_hello(con) < 0)
		return -1;

	ceph_decode_addr(&con->actual_peer_addr);
	ceph_decode_addr(&con->peer_addr_for_me);

	/*
	 * Make sure the other end is who we wanted.  note that the other
	 * end may not yet know their ip address, so if it's 0.0.0.0, give
	 * them the benefit of the doubt.
	 */
	if (memcmp(&con->peer_addr, &con->actual_peer_addr,
		   sizeof(con->peer_addr)) != 0 &&
	    !(addr_is_blank(&con->actual_peer_addr.in_addr) &&
	      con->actual_peer_addr.nonce == con->peer_addr.nonce)) {
		pr_warning("wrong peer, want %s/%d, got %s/%d\n",
			   ceph_pr_addr(&con->peer_addr.in_addr),
			   (int)le32_to_cpu(con->peer_addr.nonce),
			   ceph_pr_addr(&con->actual_peer_addr.in_addr),
			   (int)le32_to_cpu(con->actual_peer_addr.nonce));
		con->error_msg = "wrong peer at address";
		return -1;
	}

	/*
	 * did we learn our address?
	 */
	if (addr_is_blank(&con->msgr->inst.addr.in_addr)) {
		int port = addr_port(&con->msgr->inst.addr.in_addr);

		memcpy(&con->msgr->inst.addr.in_addr,
		       &con->peer_addr_for_me.in_addr,
		       sizeof(con->peer_addr_for_me.in_addr));
		addr_set_port(&con->msgr->inst.addr.in_addr, port);
		encode_my_addr(con->msgr);
		dout("process_banner learned my addr is %s\n",
		     ceph_pr_addr(&con->msgr->inst.addr.in_addr));
	}

	return 0;
}

static int process_connect(struct ceph_connection *con)
{
	u64 sup_feat = con->msgr->supported_features;
	u64 req_feat = con->msgr->required_features;
	u64 server_feat = le64_to_cpu(con->in_reply.features);
	int ret;

	dout("process_connect on %p tag %d\n", con, (int)con->in_tag);

	switch (con->in_reply.tag) {
	case CEPH_MSGR_TAG_FEATURES:
		pr_err("%s%lld %s feature set mismatch,"
		       " my %llx < server's %llx, missing %llx\n",
		       ENTITY_NAME(con->peer_name),
		       ceph_pr_addr(&con->peer_addr.in_addr),
		       sup_feat, server_feat, server_feat & ~sup_feat);
		con->error_msg = "missing required protocol features";
		reset_connection(con);
		return -1;

	case CEPH_MSGR_TAG_BADPROTOVER:
		pr_err("%s%lld %s protocol version mismatch,"
		       " my %d != server's %d\n",
		       ENTITY_NAME(con->peer_name),
		       ceph_pr_addr(&con->peer_addr.in_addr),
		       le32_to_cpu(con->out_connect.protocol_version),
		       le32_to_cpu(con->in_reply.protocol_version));
		con->error_msg = "protocol version mismatch";
		reset_connection(con);
		return -1;

	case CEPH_MSGR_TAG_BADAUTHORIZER:
		con->auth_retry++;
		dout("process_connect %p got BADAUTHORIZER attempt %d\n", con,
		     con->auth_retry);
		if (con->auth_retry == 2) {
			con->error_msg = "connect authorization failure";
			return -1;
		}
		con_out_kvec_reset(con);
		ret = prepare_write_connect(con);
		if (ret < 0)
			return ret;
		prepare_read_connect(con);
		break;

	case CEPH_MSGR_TAG_RESETSESSION:
		/*
		 * If we connected with a large connect_seq but the peer
		 * has no record of a session with us (no connection, or
		 * connect_seq == 0), they will send RESETSESION to indicate
		 * that they must have reset their session, and may have
		 * dropped messages.
		 */
		dout("process_connect got RESET peer seq %u\n",
		     le32_to_cpu(con->in_reply.connect_seq));
		pr_err("%s%lld %s connection reset\n",
		       ENTITY_NAME(con->peer_name),
		       ceph_pr_addr(&con->peer_addr.in_addr));
		reset_connection(con);
		con_out_kvec_reset(con);
		ret = prepare_write_connect(con);
		if (ret < 0)
			return ret;
		prepare_read_connect(con);

		/* Tell ceph about it. */
		mutex_unlock(&con->mutex);
		pr_info("reset on %s%lld\n", ENTITY_NAME(con->peer_name));
		if (con->ops->peer_reset)
			con->ops->peer_reset(con);
		mutex_lock(&con->mutex);
		if (con->state != CON_STATE_NEGOTIATING)
			return -EAGAIN;
		break;

	case CEPH_MSGR_TAG_RETRY_SESSION:
		/*
		 * If we sent a smaller connect_seq than the peer has, try
		 * again with a larger value.
		 */
		dout("process_connect got RETRY_SESSION my seq %u, peer %u\n",
		     le32_to_cpu(con->out_connect.connect_seq),
		     le32_to_cpu(con->in_reply.connect_seq));
		con->connect_seq = le32_to_cpu(con->in_reply.connect_seq);
		con_out_kvec_reset(con);
		ret = prepare_write_connect(con);
		if (ret < 0)
			return ret;
		prepare_read_connect(con);
		break;

	case CEPH_MSGR_TAG_RETRY_GLOBAL:
		/*
		 * If we sent a smaller global_seq than the peer has, try
		 * again with a larger value.
		 */
		dout("process_connect got RETRY_GLOBAL my %u peer_gseq %u\n",
		     con->peer_global_seq,
		     le32_to_cpu(con->in_reply.global_seq));
		get_global_seq(con->msgr,
			       le32_to_cpu(con->in_reply.global_seq));
		con_out_kvec_reset(con);
		ret = prepare_write_connect(con);
		if (ret < 0)
			return ret;
		prepare_read_connect(con);
		break;

	case CEPH_MSGR_TAG_SEQ:
	case CEPH_MSGR_TAG_READY:
		if (req_feat & ~server_feat) {
			pr_err("%s%lld %s protocol feature mismatch,"
			       " my required %llx > server's %llx, need %llx\n",
			       ENTITY_NAME(con->peer_name),
			       ceph_pr_addr(&con->peer_addr.in_addr),
			       req_feat, server_feat, req_feat & ~server_feat);
			con->error_msg = "missing required protocol features";
			reset_connection(con);
			return -1;
		}

		WARN_ON(con->state != CON_STATE_NEGOTIATING);
		con->state = CON_STATE_OPEN;
		con->auth_retry = 0;    /* we authenticated; clear flag */
		con->peer_global_seq = le32_to_cpu(con->in_reply.global_seq);
		con->connect_seq++;
		con->peer_features = server_feat;
		dout("process_connect got READY gseq %d cseq %d (%d)\n",
		     con->peer_global_seq,
		     le32_to_cpu(con->in_reply.connect_seq),
		     con->connect_seq);
		WARN_ON(con->connect_seq !=
			le32_to_cpu(con->in_reply.connect_seq));

		if (con->in_reply.flags & CEPH_MSG_CONNECT_LOSSY)
			con_flag_set(con, CON_FLAG_LOSSYTX);

		con->delay = 0;      /* reset backoff memory */

		if (con->in_reply.tag == CEPH_MSGR_TAG_SEQ) {
			prepare_write_seq(con);
			prepare_read_seq(con);
		} else {
			prepare_read_tag(con);
		}
		break;

	case CEPH_MSGR_TAG_WAIT:
		/*
		 * If there is a connection race (we are opening
		 * connections to each other), one of us may just have
		 * to WAIT.  This shouldn't happen if we are the
		 * client.
		 */
		pr_err("process_connect got WAIT as client\n");
		con->error_msg = "protocol error, got WAIT as client";
		return -1;

	default:
		pr_err("connect protocol error, will retry\n");
		con->error_msg = "protocol error, garbage tag during connect";
		return -1;
	}
	return 0;
}


/*
 * read (part of) an ack
 */
static int read_partial_ack(struct ceph_connection *con)
{
	int size = sizeof (con->in_temp_ack);
	int end = size;

	return read_partial(con, end, size, &con->in_temp_ack);
}

/*
 * We can finally discard anything that's been acked.
 */
static void process_ack(struct ceph_connection *con)
{
	struct ceph_msg *m;
	u64 ack = le64_to_cpu(con->in_temp_ack);
	u64 seq;

	while (!list_empty(&con->out_sent)) {
		m = list_first_entry(&con->out_sent, struct ceph_msg,
				     list_head);
		seq = le64_to_cpu(m->hdr.seq);
		if (seq > ack)
			break;
		dout("got ack for seq %llu type %d at %p\n", seq,
		     le16_to_cpu(m->hdr.type), m);
		m->ack_stamp = jiffies;
		ceph_msg_remove(m);
	}
	prepare_read_tag(con);
}


static int read_partial_message_section(struct ceph_connection *con,
					struct kvec *section,
					unsigned int sec_len, u32 *crc)
{
	int ret, left;

	BUG_ON(!section);

	while (section->iov_len < sec_len) {
		BUG_ON(section->iov_base == NULL);
		left = sec_len - section->iov_len;
		ret = ceph_tcp_recvmsg(con->sock, (char *)section->iov_base +
				       section->iov_len, left);
		if (ret <= 0)
			return ret;
		section->iov_len += ret;
	}
	if (section->iov_len == sec_len)
		*crc = crc32c(0, section->iov_base, section->iov_len);

	return 1;
}

static int read_partial_msg_data(struct ceph_connection *con)
{
	struct ceph_msg *msg = con->in_msg;
	struct ceph_msg_data_cursor *cursor = &msg->data->cursor;
	const bool do_datacrc = !con->msgr->nocrc;
	struct page *page;
	size_t page_offset;
	size_t length;
	u32 crc = 0;
	int ret;

	BUG_ON(!msg);
	if (!msg->data)
		return -EIO;

	if (do_datacrc)
		crc = con->in_data_crc;
	while (cursor->resid) {
		page = ceph_msg_data_next(msg->data, &page_offset, &length,
							NULL);
		ret = ceph_tcp_recvpage(con->sock, page, page_offset, length);
		if (ret <= 0) {
			if (do_datacrc)
				con->in_data_crc = crc;

			return ret;
		}

		if (do_datacrc)
			crc = ceph_crc32c_page(crc, page, page_offset, ret);
		(void) ceph_msg_data_advance(msg->data, (size_t)ret);
	}
	if (do_datacrc)
		con->in_data_crc = crc;

	return 1;	/* must return > 0 to indicate success */
}

/*
 * read (part of) a message.
 */
static int ceph_con_in_msg_alloc(struct ceph_connection *con, int *skip);

static int read_partial_message(struct ceph_connection *con)
{
	struct ceph_msg *m = con->in_msg;
	int size;
	int end;
	int ret;
	unsigned int front_len, middle_len, data_len;
	bool do_datacrc = !con->msgr->nocrc;
	u64 seq;
	u32 crc;

	dout("read_partial_message con %p msg %p\n", con, m);

	/* header */
	size = sizeof (con->in_hdr);
	end = size;
	ret = read_partial(con, end, size, &con->in_hdr);
	if (ret <= 0)
		return ret;

	crc = crc32c(0, &con->in_hdr, offsetof(struct ceph_msg_header, crc));
	if (cpu_to_le32(crc) != con->in_hdr.crc) {
		pr_err("read_partial_message bad hdr "
		       " crc %u != expected %u\n",
		       crc, con->in_hdr.crc);
		return -EBADMSG;
	}

	front_len = le32_to_cpu(con->in_hdr.front_len);
	if (front_len > CEPH_MSG_MAX_FRONT_LEN)
		return -EIO;
	middle_len = le32_to_cpu(con->in_hdr.middle_len);
	if (middle_len > CEPH_MSG_MAX_MIDDLE_LEN)
		return -EIO;
	data_len = le32_to_cpu(con->in_hdr.data_len);
	if (data_len > CEPH_MSG_MAX_DATA_LEN)
		return -EIO;

	/* verify seq# */
	seq = le64_to_cpu(con->in_hdr.seq);
	if ((s64)seq - (s64)con->in_seq < 1) {
		pr_info("skipping %s%lld %s seq %lld expected %lld\n",
			ENTITY_NAME(con->peer_name),
			ceph_pr_addr(&con->peer_addr.in_addr),
			seq, con->in_seq + 1);
		con->in_base_pos = -front_len - middle_len - data_len -
			sizeof(m->footer);
		con->in_tag = CEPH_MSGR_TAG_READY;
		return 0;
	} else if ((s64)seq - (s64)con->in_seq > 1) {
		pr_err("read_partial_message bad seq %lld expected %lld\n",
		       seq, con->in_seq + 1);
		con->error_msg = "bad message sequence # for incoming message";
		return -EBADMSG;
	}

	/* allocate message? */
	if (!con->in_msg) {
		int skip = 0;

		dout("got hdr type %d front %d data %d\n", con->in_hdr.type,
		     front_len, data_len);
		ret = ceph_con_in_msg_alloc(con, &skip);
		if (ret < 0)
			return ret;
		if (skip) {
			/* skip this message */
			dout("alloc_msg said skip message\n");
			BUG_ON(con->in_msg);
			con->in_base_pos = -front_len - middle_len - data_len -
				sizeof(m->footer);
			con->in_tag = CEPH_MSGR_TAG_READY;
			con->in_seq++;
			return 0;
		}

		BUG_ON(!con->in_msg);
		BUG_ON(con->in_msg->con != con);
		m = con->in_msg;
		m->front.iov_len = 0;    /* haven't read it yet */
		if (m->middle)
			m->middle->vec.iov_len = 0;

		/* prepare for data payload, if any */

		if (data_len)
			prepare_message_data(con->in_msg, data_len);
	}

	/* front */
	ret = read_partial_message_section(con, &m->front, front_len,
					   &con->in_front_crc);
	if (ret <= 0)
		return ret;

	/* middle */
	if (m->middle) {
		ret = read_partial_message_section(con, &m->middle->vec,
						   middle_len,
						   &con->in_middle_crc);
		if (ret <= 0)
			return ret;
	}

	/* (page) data */
	if (data_len) {
		ret = read_partial_msg_data(con);
		if (ret <= 0)
			return ret;
	}

	/* footer */
	size = sizeof (m->footer);
	end += size;
	ret = read_partial(con, end, size, &m->footer);
	if (ret <= 0)
		return ret;

	dout("read_partial_message got msg %p %d (%u) + %d (%u) + %d (%u)\n",
	     m, front_len, m->footer.front_crc, middle_len,
	     m->footer.middle_crc, data_len, m->footer.data_crc);

	/* crc ok? */
	if (con->in_front_crc != le32_to_cpu(m->footer.front_crc)) {
		pr_err("read_partial_message %p front crc %u != exp. %u\n",
		       m, con->in_front_crc, m->footer.front_crc);
		return -EBADMSG;
	}
	if (con->in_middle_crc != le32_to_cpu(m->footer.middle_crc)) {
		pr_err("read_partial_message %p middle crc %u != exp %u\n",
		       m, con->in_middle_crc, m->footer.middle_crc);
		return -EBADMSG;
	}
	if (do_datacrc &&
	    (m->footer.flags & CEPH_MSG_FOOTER_NOCRC) == 0 &&
	    con->in_data_crc != le32_to_cpu(m->footer.data_crc)) {
		pr_err("read_partial_message %p data crc %u != exp. %u\n", m,
		       con->in_data_crc, le32_to_cpu(m->footer.data_crc));
		return -EBADMSG;
	}

	return 1; /* done! */
}

/*
 * Process message.  This happens in the worker thread.  The callback should
 * be careful not to do anything that waits on other incoming messages or it
 * may deadlock.
 */
static void process_message(struct ceph_connection *con)
{
	struct ceph_msg *msg;

	BUG_ON(con->in_msg->con != con);
	con->in_msg->con = NULL;
	msg = con->in_msg;
	con->in_msg = NULL;
	con->ops->put(con);

	/* if first message, set peer_name */
	if (con->peer_name.type == 0)
		con->peer_name = msg->hdr.src;

	con->in_seq++;
	mutex_unlock(&con->mutex);

	dout("===== %p %llu from %s%lld %d=%s len %d+%d (%u %u %u) =====\n",
	     msg, le64_to_cpu(msg->hdr.seq),
	     ENTITY_NAME(msg->hdr.src),
	     le16_to_cpu(msg->hdr.type),
	     ceph_msg_type_name(le16_to_cpu(msg->hdr.type)),
	     le32_to_cpu(msg->hdr.front_len),
	     le32_to_cpu(msg->hdr.data_len),
	     con->in_front_crc, con->in_middle_crc, con->in_data_crc);
	con->ops->dispatch(con, msg);

	mutex_lock(&con->mutex);
}


/*
 * Write something to the socket.  Called in a worker thread when the
 * socket appears to be writeable and we have something ready to send.
 */
static int try_write(struct ceph_connection *con)
{
	int ret = 1;

	dout("try_write start %p state %lu\n", con, con->state);

more:
	dout("try_write out_kvec_bytes %d\n", con->out_kvec_bytes);

	/* open the socket first? */
	if (con->state == CON_STATE_PREOPEN) {
		BUG_ON(con->sock);
		con->state = CON_STATE_CONNECTING;

		con_out_kvec_reset(con);
		prepare_write_banner(con);
		prepare_read_banner(con);

		BUG_ON(con->in_msg);
		con->in_tag = CEPH_MSGR_TAG_READY;
		dout("try_write initiating connect on %p new state %lu\n",
		     con, con->state);
		ret = ceph_tcp_connect(con);
		if (ret < 0) {
			con->error_msg = "connect error";
			goto out;
		}
	}

more_kvec:
	/* kvec data queued? */
	if (con->out_skip) {
		ret = write_partial_skip(con);
		if (ret <= 0)
			goto out;
	}
	if (con->out_kvec_left) {
		ret = write_partial_kvec(con);
		if (ret <= 0)
			goto out;
	}

	/* msg pages? */
	if (con->out_msg) {
		if (con->out_msg_done) {
			ceph_msg_put(con->out_msg);
			con->out_msg = NULL;   /* we're done with this one */
			goto do_next;
		}

		ret = write_partial_message_data(con);
		if (ret == 1)
			goto more_kvec;  /* we need to send the footer, too! */
		if (ret == 0)
			goto out;
		if (ret < 0) {
			dout("try_write write_partial_message_data err %d\n",
			     ret);
			goto out;
		}
	}

do_next:
	if (con->state == CON_STATE_OPEN) {
		/* is anything else pending? */
		if (!list_empty(&con->out_queue)) {
			prepare_write_message(con);
			goto more;
		}
		if (con->in_seq > con->in_seq_acked) {
			prepare_write_ack(con);
			goto more;
		}
		if (con_flag_test_and_clear(con, CON_FLAG_KEEPALIVE_PENDING)) {
			prepare_write_keepalive(con);
			goto more;
		}
	}

	/* Nothing to do! */
	con_flag_clear(con, CON_FLAG_WRITE_PENDING);
	dout("try_write nothing else to write.\n");
	ret = 0;
out:
	dout("try_write done on %p ret %d\n", con, ret);
	return ret;
}



/*
 * Read what we can from the socket.
 */
static int try_read(struct ceph_connection *con)
{
	int ret = -1;

more:
	dout("try_read start on %p state %lu\n", con, con->state);
	if (con->state != CON_STATE_CONNECTING &&
	    con->state != CON_STATE_NEGOTIATING &&
	    con->state != CON_STATE_OPEN)
		return 0;

	BUG_ON(!con->sock);

	dout("try_read tag %d in_base_pos %d\n", (int)con->in_tag,
	     con->in_base_pos);

	if (con->state == CON_STATE_CONNECTING) {
		dout("try_read connecting\n");
		ret = read_partial_banner(con);
		if (ret <= 0)
			goto out;
		ret = process_banner(con);
		if (ret < 0)
			goto out;

		con->state = CON_STATE_NEGOTIATING;

		/*
		 * Received banner is good, exchange connection info.
		 * Do not reset out_kvec, as sending our banner raced
		 * with receiving peer banner after connect completed.
		 */
		ret = prepare_write_connect(con);
		if (ret < 0)
			goto out;
		prepare_read_connect(con);

		/* Send connection info before awaiting response */
		goto out;
	}

	if (con->state == CON_STATE_NEGOTIATING) {
		dout("try_read negotiating\n");
		ret = read_partial_connect(con);
		if (ret <= 0)
			goto out;
		ret = process_connect(con);
		if (ret < 0)
			goto out;
		goto more;
	}

	WARN_ON(con->state != CON_STATE_OPEN);

	if (con->in_base_pos < 0) {
		/*
		 * skipping + discarding content.
		 *
		 * FIXME: there must be a better way to do this!
		 */
		static char buf[SKIP_BUF_SIZE];
		int skip = min((int) sizeof (buf), -con->in_base_pos);

		dout("skipping %d / %d bytes\n", skip, -con->in_base_pos);
		ret = ceph_tcp_recvmsg(con->sock, buf, skip);
		if (ret <= 0)
			goto out;
		con->in_base_pos += ret;
		if (con->in_base_pos)
			goto more;
	}
	if (con->in_tag == CEPH_MSGR_TAG_READY) {
		/*
		 * what's next?
		 */
		ret = ceph_tcp_recvmsg(con->sock, &con->in_tag, 1);
		if (ret <= 0)
			goto out;
		dout("try_read got tag %d\n", (int)con->in_tag);
		switch (con->in_tag) {
		case CEPH_MSGR_TAG_MSG:
			prepare_read_message(con);
			break;
		case CEPH_MSGR_TAG_ACK:
			prepare_read_ack(con);
			break;
		case CEPH_MSGR_TAG_CLOSE:
			con_close_socket(con);
			con->state = CON_STATE_CLOSED;
			goto out;
		default:
			goto bad_tag;
		}
	}
	if (con->in_tag == CEPH_MSGR_TAG_MSG) {
		ret = read_partial_message(con);
		if (ret <= 0) {
			switch (ret) {
			case -EBADMSG:
				con->error_msg = "bad crc";
				ret = -EIO;
				break;
			case -EIO:
				con->error_msg = "io error";
				break;
			}
			goto out;
		}
		if (con->in_tag == CEPH_MSGR_TAG_READY)
			goto more;
		process_message(con);
		if (con->state == CON_STATE_OPEN)
			prepare_read_tag(con);
		goto more;
	}
	if (con->in_tag == CEPH_MSGR_TAG_ACK ||
	    con->in_tag == CEPH_MSGR_TAG_SEQ) {
		/*
		 * the final handshake seq exchange is semantically
		 * equivalent to an ACK
		 */
		ret = read_partial_ack(con);
		if (ret <= 0)
			goto out;
		process_ack(con);
		goto more;
	}

out:
	dout("try_read done on %p ret %d\n", con, ret);
	return ret;

bad_tag:
	pr_err("try_read bad con->in_tag = %d\n", (int)con->in_tag);
	con->error_msg = "protocol error, garbage tag";
	ret = -1;
	goto out;
}


/*
 * Atomically queue work on a connection after the specified delay.
 * Bump @con reference to avoid races with connection teardown.
 * Returns 0 if work was queued, or an error code otherwise.
 */
static int queue_con_delay(struct ceph_connection *con, unsigned long delay)
{
	if (!con->ops->get(con)) {
		dout("%s %p ref count 0\n", __func__, con);

		return -ENOENT;
	}

	if (!queue_delayed_work(ceph_msgr_wq, &con->work, delay)) {
		dout("%s %p - already queued\n", __func__, con);
		con->ops->put(con);

		return -EBUSY;
	}

	dout("%s %p %lu\n", __func__, con, delay);

	return 0;
}

static void queue_con(struct ceph_connection *con)
{
	(void) queue_con_delay(con, 0);
}

static bool con_sock_closed(struct ceph_connection *con)
{
	if (!con_flag_test_and_clear(con, CON_FLAG_SOCK_CLOSED))
		return false;

#define CASE(x)								\
	case CON_STATE_ ## x:						\
		con->error_msg = "socket closed (con state " #x ")";	\
		break;

	switch (con->state) {
	CASE(CLOSED);
	CASE(PREOPEN);
	CASE(CONNECTING);
	CASE(NEGOTIATING);
	CASE(OPEN);
	CASE(STANDBY);
	default:
		pr_warning("%s con %p unrecognized state %lu\n",
			__func__, con, con->state);
		con->error_msg = "unrecognized con state";
		BUG();
		break;
	}
#undef CASE

	return true;
}

static bool con_backoff(struct ceph_connection *con)
{
	int ret;

	if (!con_flag_test_and_clear(con, CON_FLAG_BACKOFF))
		return false;

	ret = queue_con_delay(con, round_jiffies_relative(con->delay));
	if (ret) {
		dout("%s: con %p FAILED to back off %lu\n", __func__,
			con, con->delay);
		BUG_ON(ret == -ENOENT);
		con_flag_set(con, CON_FLAG_BACKOFF);
	}

	return true;
}

/* Finish fault handling; con->mutex must *not* be held here */

static void con_fault_finish(struct ceph_connection *con)
{
	/*
	 * in case we faulted due to authentication, invalidate our
	 * current tickets so that we can get new ones.
	 */
	if (con->auth_retry && con->ops->invalidate_authorizer) {
		dout("calling invalidate_authorizer()\n");
		con->ops->invalidate_authorizer(con);
	}

	if (con->ops->fault)
		con->ops->fault(con);
}

/*
 * Do some work on a connection.  Drop a connection ref when we're done.
 */
static void con_work(struct work_struct *work)
{
	struct ceph_connection *con = container_of(work, struct ceph_connection,
						   work.work);
	bool fault;

	mutex_lock(&con->mutex);
	while (true) {
		int ret;

		if ((fault = con_sock_closed(con))) {
			dout("%s: con %p SOCK_CLOSED\n", __func__, con);
			break;
		}
		if (con_backoff(con)) {
			dout("%s: con %p BACKOFF\n", __func__, con);
			break;
		}
		if (con->state == CON_STATE_STANDBY) {
			dout("%s: con %p STANDBY\n", __func__, con);
			break;
		}
		if (con->state == CON_STATE_CLOSED) {
			dout("%s: con %p CLOSED\n", __func__, con);
			BUG_ON(con->sock);
			break;
		}
		if (con->state == CON_STATE_PREOPEN) {
			dout("%s: con %p PREOPEN\n", __func__, con);
			BUG_ON(con->sock);
		}

		ret = try_read(con);
		if (ret < 0) {
			if (ret == -EAGAIN)
				continue;
			con->error_msg = "socket error on read";
			fault = true;
			break;
		}

		ret = try_write(con);
		if (ret < 0) {
			if (ret == -EAGAIN)
				continue;
			con->error_msg = "socket error on write";
			fault = true;
		}

		break;	/* If we make it to here, we're done */
	}
	if (fault)
		con_fault(con);
	mutex_unlock(&con->mutex);

	if (fault)
		con_fault_finish(con);

	con->ops->put(con);
}

/*
 * Generic error/fault handler.  A retry mechanism is used with
 * exponential backoff
 */
static void con_fault(struct ceph_connection *con)
{
	pr_warning("%s%lld %s %s\n", ENTITY_NAME(con->peer_name),
	       ceph_pr_addr(&con->peer_addr.in_addr), con->error_msg);
	dout("fault %p state %lu to peer %s\n",
	     con, con->state, ceph_pr_addr(&con->peer_addr.in_addr));

	WARN_ON(con->state != CON_STATE_CONNECTING &&
	       con->state != CON_STATE_NEGOTIATING &&
	       con->state != CON_STATE_OPEN);

	con_close_socket(con);

	if (con_flag_test(con, CON_FLAG_LOSSYTX)) {
		dout("fault on LOSSYTX channel, marking CLOSED\n");
		con->state = CON_STATE_CLOSED;
		return;
	}

	if (con->in_msg) {
		BUG_ON(con->in_msg->con != con);
		con->in_msg->con = NULL;
		ceph_msg_put(con->in_msg);
		con->in_msg = NULL;
		con->ops->put(con);
	}

	/* Requeue anything that hasn't been acked */
	list_splice_init(&con->out_sent, &con->out_queue);

	/* If there are no messages queued or keepalive pending, place
	 * the connection in a STANDBY state */
	if (list_empty(&con->out_queue) &&
	    !con_flag_test(con, CON_FLAG_KEEPALIVE_PENDING)) {
		dout("fault %p setting STANDBY clearing WRITE_PENDING\n", con);
		con_flag_clear(con, CON_FLAG_WRITE_PENDING);
		con->state = CON_STATE_STANDBY;
	} else {
		/* retry after a delay. */
		con->state = CON_STATE_PREOPEN;
		if (con->delay == 0)
			con->delay = BASE_DELAY_INTERVAL;
		else if (con->delay < MAX_DELAY_INTERVAL)
			con->delay *= 2;
		con_flag_set(con, CON_FLAG_BACKOFF);
		queue_con(con);
	}
}



/*
 * initialize a new messenger instance
 */
void ceph_messenger_init(struct ceph_messenger *msgr,
			struct ceph_entity_addr *myaddr,
			u32 supported_features,
			u32 required_features,
			bool nocrc)
{
	msgr->supported_features = supported_features;
	msgr->required_features = required_features;

	spin_lock_init(&msgr->global_seq_lock);

	if (myaddr)
		msgr->inst.addr = *myaddr;

	/* select a random nonce */
	msgr->inst.addr.type = 0;
	get_random_bytes(&msgr->inst.addr.nonce, sizeof(msgr->inst.addr.nonce));
	encode_my_addr(msgr);
	msgr->nocrc = nocrc;

	atomic_set(&msgr->stopping, 0);

	dout("%s %p\n", __func__, msgr);
}
EXPORT_SYMBOL(ceph_messenger_init);

static void clear_standby(struct ceph_connection *con)
{
	/* come back from STANDBY? */
	if (con->state == CON_STATE_STANDBY) {
		dout("clear_standby %p and ++connect_seq\n", con);
		con->state = CON_STATE_PREOPEN;
		con->connect_seq++;
		WARN_ON(con_flag_test(con, CON_FLAG_WRITE_PENDING));
		WARN_ON(con_flag_test(con, CON_FLAG_KEEPALIVE_PENDING));
	}
}

/*
 * Queue up an outgoing message on the given connection.
 */
void ceph_con_send(struct ceph_connection *con, struct ceph_msg *msg)
{
	/* set src+dst */
	msg->hdr.src = con->msgr->inst.name;
	BUG_ON(msg->front.iov_len != le32_to_cpu(msg->hdr.front_len));
	msg->needs_out_seq = true;

	mutex_lock(&con->mutex);

	if (con->state == CON_STATE_CLOSED) {
		dout("con_send %p closed, dropping %p\n", con, msg);
		ceph_msg_put(msg);
		mutex_unlock(&con->mutex);
		return;
	}

	BUG_ON(msg->con != NULL);
	msg->con = con->ops->get(con);
	BUG_ON(msg->con == NULL);

	BUG_ON(!list_empty(&msg->list_head));
	list_add_tail(&msg->list_head, &con->out_queue);
	dout("----- %p to %s%lld %d=%s len %d+%d+%d -----\n", msg,
	     ENTITY_NAME(con->peer_name), le16_to_cpu(msg->hdr.type),
	     ceph_msg_type_name(le16_to_cpu(msg->hdr.type)),
	     le32_to_cpu(msg->hdr.front_len),
	     le32_to_cpu(msg->hdr.middle_len),
	     le32_to_cpu(msg->hdr.data_len));

	clear_standby(con);
	mutex_unlock(&con->mutex);

	/* if there wasn't anything waiting to send before, queue
	 * new work */
	if (con_flag_test_and_set(con, CON_FLAG_WRITE_PENDING) == 0)
		queue_con(con);
}
EXPORT_SYMBOL(ceph_con_send);

/*
 * Revoke a message that was previously queued for send
 */
void ceph_msg_revoke(struct ceph_msg *msg)
{
	struct ceph_connection *con = msg->con;

	if (!con)
		return;		/* Message not in our possession */

	mutex_lock(&con->mutex);
	if (!list_empty(&msg->list_head)) {
		dout("%s %p msg %p - was on queue\n", __func__, con, msg);
		list_del_init(&msg->list_head);
		BUG_ON(msg->con == NULL);
		msg->con->ops->put(msg->con);
		msg->con = NULL;
		msg->hdr.seq = 0;

		ceph_msg_put(msg);
	}
	if (con->out_msg == msg) {
		dout("%s %p msg %p - was sending\n", __func__, con, msg);
		con->out_msg = NULL;
		if (con->out_kvec_is_msg) {
			con->out_skip = con->out_kvec_bytes;
			con->out_kvec_is_msg = false;
		}
		msg->hdr.seq = 0;

		ceph_msg_put(msg);
	}
	mutex_unlock(&con->mutex);
}

/*
 * Revoke a message that we may be reading data into
 */
void ceph_msg_revoke_incoming(struct ceph_msg *msg)
{
	struct ceph_connection *con;

	BUG_ON(msg == NULL);
	if (!msg->con) {
		dout("%s msg %p null con\n", __func__, msg);

		return;		/* Message not in our possession */
	}

	con = msg->con;
	mutex_lock(&con->mutex);
	if (con->in_msg == msg) {
		unsigned int front_len = le32_to_cpu(con->in_hdr.front_len);
		unsigned int middle_len = le32_to_cpu(con->in_hdr.middle_len);
		unsigned int data_len = le32_to_cpu(con->in_hdr.data_len);

		/* skip rest of message */
		dout("%s %p msg %p revoked\n", __func__, con, msg);
		con->in_base_pos = con->in_base_pos -
				sizeof(struct ceph_msg_header) -
				front_len -
				middle_len -
				data_len -
				sizeof(struct ceph_msg_footer);
		ceph_msg_put(con->in_msg);
		con->in_msg = NULL;
		con->in_tag = CEPH_MSGR_TAG_READY;
		con->in_seq++;
	} else {
		dout("%s %p in_msg %p msg %p no-op\n",
		     __func__, con, con->in_msg, msg);
	}
	mutex_unlock(&con->mutex);
}

/*
 * Queue a keepalive byte to ensure the tcp connection is alive.
 */
void ceph_con_keepalive(struct ceph_connection *con)
{
	dout("con_keepalive %p\n", con);
	mutex_lock(&con->mutex);
	clear_standby(con);
	mutex_unlock(&con->mutex);
	if (con_flag_test_and_set(con, CON_FLAG_KEEPALIVE_PENDING) == 0 &&
	    con_flag_test_and_set(con, CON_FLAG_WRITE_PENDING) == 0)
		queue_con(con);
}
EXPORT_SYMBOL(ceph_con_keepalive);

static struct ceph_msg_data *ceph_msg_data_create(enum ceph_msg_data_type type)
{
	struct ceph_msg_data *data;

	if (WARN_ON(!ceph_msg_data_type_valid(type)))
		return NULL;

	data = kzalloc(sizeof (*data), GFP_NOFS);
	if (data)
		data->type = type;

	return data;
}

static void ceph_msg_data_destroy(struct ceph_msg_data *data)
{
	if (!data)
		return;

	if (data->type == CEPH_MSG_DATA_PAGELIST) {
		ceph_pagelist_release(data->pagelist);
		kfree(data->pagelist);
	}
	kfree(data);
}

void ceph_msg_data_set_pages(struct ceph_msg *msg, struct page **pages,
		size_t length, size_t alignment)
{
	struct ceph_msg_data *data;

	BUG_ON(!pages);
	BUG_ON(!length);
	BUG_ON(msg->data_length);
	BUG_ON(msg->data != NULL);

	data = ceph_msg_data_create(CEPH_MSG_DATA_PAGES);
	BUG_ON(!data);
	data->pages = pages;
	data->length = length;
	data->alignment = alignment & ~PAGE_MASK;

	msg->data = data;
	msg->data_length = length;
}
EXPORT_SYMBOL(ceph_msg_data_set_pages);

void ceph_msg_data_set_pagelist(struct ceph_msg *msg,
				struct ceph_pagelist *pagelist)
{
	struct ceph_msg_data *data;

	BUG_ON(!pagelist);
	BUG_ON(!pagelist->length);
	BUG_ON(msg->data_length);
	BUG_ON(msg->data != NULL);

	data = ceph_msg_data_create(CEPH_MSG_DATA_PAGELIST);
	BUG_ON(!data);
	data->pagelist = pagelist;

	msg->data = data;
	msg->data_length = pagelist->length;
}
EXPORT_SYMBOL(ceph_msg_data_set_pagelist);

void ceph_msg_data_set_bio(struct ceph_msg *msg, struct bio *bio,
		size_t length)
{
	struct ceph_msg_data *data;

	BUG_ON(!bio);
	BUG_ON(msg->data_length);
	BUG_ON(msg->data != NULL);

	data = ceph_msg_data_create(CEPH_MSG_DATA_BIO);
	BUG_ON(!data);
	data->bio = bio;

	msg->data = data;
	msg->data_length = length;
}
EXPORT_SYMBOL(ceph_msg_data_set_bio);

/*
 * construct a new message with given type, size
 * the new msg has a ref count of 1.
 */
struct ceph_msg *ceph_msg_new(int type, int front_len, gfp_t flags,
			      bool can_fail)
{
	struct ceph_msg *m;

	m = kzalloc(sizeof(*m), flags);
	if (m == NULL)
		goto out;

	m->hdr.type = cpu_to_le16(type);
	m->hdr.priority = cpu_to_le16(CEPH_MSG_PRIO_DEFAULT);
	m->hdr.front_len = cpu_to_le32(front_len);

	INIT_LIST_HEAD(&m->list_head);
	kref_init(&m->kref);

	/* front */
	m->front_max = front_len;
	if (front_len) {
		if (front_len > PAGE_CACHE_SIZE) {
			m->front.iov_base = __vmalloc(front_len, flags,
						      PAGE_KERNEL);
			m->front_is_vmalloc = true;
		} else {
			m->front.iov_base = kmalloc(front_len, flags);
		}
		if (m->front.iov_base == NULL) {
			dout("ceph_msg_new can't allocate %d bytes\n",
			     front_len);
			goto out2;
		}
	} else {
		m->front.iov_base = NULL;
	}
	m->front.iov_len = front_len;

	dout("ceph_msg_new %p front %d\n", m, front_len);
	return m;

out2:
	ceph_msg_put(m);
out:
	if (!can_fail) {
		pr_err("msg_new can't create type %d front %d\n", type,
		       front_len);
		WARN_ON(1);
	} else {
		dout("msg_new can't create type %d front %d\n", type,
		     front_len);
	}
	return NULL;
}
EXPORT_SYMBOL(ceph_msg_new);

/*
 * Allocate "middle" portion of a message, if it is needed and wasn't
 * allocated by alloc_msg.  This allows us to read a small fixed-size
 * per-type header in the front and then gracefully fail (i.e.,
 * propagate the error to the caller based on info in the front) when
 * the middle is too large.
 */
static int ceph_alloc_middle(struct ceph_connection *con, struct ceph_msg *msg)
{
	int type = le16_to_cpu(msg->hdr.type);
	int middle_len = le32_to_cpu(msg->hdr.middle_len);

	dout("alloc_middle %p type %d %s middle_len %d\n", msg, type,
	     ceph_msg_type_name(type), middle_len);
	BUG_ON(!middle_len);
	BUG_ON(msg->middle);

	msg->middle = ceph_buffer_new(middle_len, GFP_NOFS);
	if (!msg->middle)
		return -ENOMEM;
	return 0;
}

/*
 * Allocate a message for receiving an incoming message on a
 * connection, and save the result in con->in_msg.  Uses the
 * connection's private alloc_msg op if available.
 *
 * Returns 0 on success, or a negative error code.
 *
 * On success, if we set *skip = 1:
 *  - the next message should be skipped and ignored.
 *  - con->in_msg == NULL
 * or if we set *skip = 0:
 *  - con->in_msg is non-null.
 * On error (ENOMEM, EAGAIN, ...),
 *  - con->in_msg == NULL
 */
static int ceph_con_in_msg_alloc(struct ceph_connection *con, int *skip)
{
	struct ceph_msg_header *hdr = &con->in_hdr;
	int middle_len = le32_to_cpu(hdr->middle_len);
	struct ceph_msg *msg;
	int ret = 0;

	BUG_ON(con->in_msg != NULL);
	BUG_ON(!con->ops->alloc_msg);

	mutex_unlock(&con->mutex);
	msg = con->ops->alloc_msg(con, hdr, skip);
	mutex_lock(&con->mutex);
	if (con->state != CON_STATE_OPEN) {
		if (msg)
			ceph_msg_put(msg);
		return -EAGAIN;
	}
	if (msg) {
		BUG_ON(*skip);
		con->in_msg = msg;
		con->in_msg->con = con->ops->get(con);
		BUG_ON(con->in_msg->con == NULL);
	} else {
		/*
		 * Null message pointer means either we should skip
		 * this message or we couldn't allocate memory.  The
		 * former is not an error.
		 */
		if (*skip)
			return 0;
		con->error_msg = "error allocating memory for incoming message";

		return -ENOMEM;
	}
	memcpy(&con->in_msg->hdr, &con->in_hdr, sizeof(con->in_hdr));

	if (middle_len && !con->in_msg->middle) {
		ret = ceph_alloc_middle(con, con->in_msg);
		if (ret < 0) {
			ceph_msg_put(con->in_msg);
			con->in_msg = NULL;
		}
	}

	return ret;
}


/*
 * Free a generically kmalloc'd message.
 */
void ceph_msg_kfree(struct ceph_msg *m)
{
	dout("msg_kfree %p\n", m);
	if (m->front_is_vmalloc)
		vfree(m->front.iov_base);
	else
		kfree(m->front.iov_base);
	kfree(m);
}

/*
 * Drop a msg ref.  Destroy as needed.
 */
void ceph_msg_last_put(struct kref *kref)
{
	struct ceph_msg *m = container_of(kref, struct ceph_msg, kref);

	dout("ceph_msg_put last one on %p\n", m);
	WARN_ON(!list_empty(&m->list_head));

	/* drop middle, data, if any */
	if (m->middle) {
		ceph_buffer_put(m->middle);
		m->middle = NULL;
	}
	ceph_msg_data_destroy(m->data);
	m->data = NULL;
	m->data_length = 0;

	if (m->pool)
		ceph_msgpool_put(m->pool, m);
	else
		ceph_msg_kfree(m);
}
EXPORT_SYMBOL(ceph_msg_last_put);

void ceph_msg_dump(struct ceph_msg *msg)
{
	pr_debug("msg_dump %p (front_max %d length %zd)\n", msg,
		 msg->front_max, msg->data->length);
	print_hex_dump(KERN_DEBUG, "header: ",
		       DUMP_PREFIX_OFFSET, 16, 1,
		       &msg->hdr, sizeof(msg->hdr), true);
	print_hex_dump(KERN_DEBUG, " front: ",
		       DUMP_PREFIX_OFFSET, 16, 1,
		       msg->front.iov_base, msg->front.iov_len, true);
	if (msg->middle)
		print_hex_dump(KERN_DEBUG, "middle: ",
			       DUMP_PREFIX_OFFSET, 16, 1,
			       msg->middle->vec.iov_base,
			       msg->middle->vec.iov_len, true);
	print_hex_dump(KERN_DEBUG, "footer: ",
		       DUMP_PREFIX_OFFSET, 16, 1,
		       &msg->footer, sizeof(msg->footer), true);
}
EXPORT_SYMBOL(ceph_msg_dump);