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|
/*
Copyright (c) 2010 Gluster, Inc. <http://www.gluster.com>
This file is part of GlusterFS.
GlusterFS is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3 of the License,
or (at your option) any later version.
GlusterFS is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see
<http://www.gnu.org/licenses/>.
*/
#ifndef _CONFIG_H
#define _CONFIG_H
#include "config.h"
#endif
#include "rpcsvc.h"
#include "rpc-socket.h"
#include "dict.h"
#include "logging.h"
#include "byte-order.h"
#include "common-utils.h"
#include "compat-errno.h"
#include "list.h"
#include "xdr-rpc.h"
#include "iobuf.h"
#include "globals.h"
#include <errno.h>
#include <pthread.h>
#include <stdlib.h>
#include <rpc/rpc.h>
#include <rpc/pmap_clnt.h>
#include <arpa/inet.h>
#include <rpc/xdr.h>
#include <fnmatch.h>
#include <stdarg.h>
#include <stdio.h>
#define nfs_rpcsvc_alloc_request(con, request) \
do { \
request = (rpcsvc_request_t *) mem_get ((con)->rxpool); \
memset (request, 0, sizeof (rpcsvc_request_t)); \
} while (0) \
/* The generic event handler for every stage */
void *
nfs_rpcsvc_stage_proc (void *arg)
{
rpcsvc_stage_t *stg = (rpcsvc_stage_t *)arg;
if (!stg)
return NULL;
event_dispatch (stg->eventpool);
return NULL;
}
rpcsvc_stage_t *
nfs_rpcsvc_stage_init (rpcsvc_t *svc)
{
rpcsvc_stage_t *stg = NULL;
int ret = -1;
size_t stacksize = RPCSVC_THREAD_STACK_SIZE;
pthread_attr_t stgattr;
unsigned int eventpoolsize = 0;
if (!svc)
return NULL;
stg = GF_CALLOC (1, sizeof(*stg), gf_common_mt_rpcsvc_stage_t);
if (!stg)
return NULL;
eventpoolsize = svc->memfactor * RPCSVC_EVENTPOOL_SIZE_MULT;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "event pool size: %d", eventpoolsize);
stg->eventpool = event_pool_new (eventpoolsize);
if (!stg->eventpool)
goto free_stg;
pthread_attr_init (&stgattr);
ret = pthread_attr_setstacksize (&stgattr, stacksize);
if (ret == EINVAL)
gf_log (GF_RPCSVC, GF_LOG_WARNING,
"Using default thread stack size");
ret = pthread_create (&stg->tid, &stgattr, nfs_rpcsvc_stage_proc,
(void *)stg);
if (ret != 0) {
ret = -1;
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Stage creation failed");
goto free_stg;
}
stg->svc = svc;
ret = 0;
free_stg:
if (ret == -1) {
GF_FREE (stg);
stg = NULL;
}
return stg;
}
int
nfs_rpcsvc_init_options (rpcsvc_t *svc, dict_t *options)
{
svc->memfactor = RPCSVC_DEFAULT_MEMFACTOR;
return 0;
}
/* The global RPC service initializer.
* Starts up the stages and then waits for RPC program registrations
* to come in.
*/
rpcsvc_t *
nfs_rpcsvc_init (glusterfs_ctx_t *ctx, dict_t *options)
{
rpcsvc_t *svc = NULL;
int ret = -1;
if ((!ctx) || (!options))
return NULL;
svc = GF_CALLOC (1, sizeof (*svc), gf_common_mt_rpcsvc_t);
if (!svc)
return NULL;
pthread_mutex_init (&svc->rpclock, NULL);
INIT_LIST_HEAD (&svc->stages);
INIT_LIST_HEAD (&svc->authschemes);
ret = nfs_rpcsvc_init_options (svc, options);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to init options");
goto free_svc;
}
ret = nfs_rpcsvc_auth_init (svc, options);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to init "
"authentication");
goto free_svc;
}
ret = -1;
svc->defaultstage = nfs_rpcsvc_stage_init (svc);
if (!svc->defaultstage) {
gf_log (GF_RPCSVC, GF_LOG_ERROR,"RPC service init failed.");
goto free_svc;
}
svc->options = options;
svc->ctx = ctx;
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "RPC service inited.");
ret = 0;
free_svc:
if (ret == -1) {
GF_FREE (svc);
svc = NULL;
}
return svc;
}
/* Once multi-threaded support is complete, we'll be able to round-robin
* the various incoming connections over the many available stages. This
* function selects one from among all the stages.
*/
rpcsvc_stage_t *
nfs_rpcsvc_select_stage (rpcsvc_t *rpcservice)
{
if (!rpcservice)
return NULL;
return rpcservice->defaultstage;
}
int
nfs_rpcsvc_conn_peer_check_search (dict_t *options, char *pattern, char *clstr)
{
int ret = -1;
char *addrtok = NULL;
char *addrstr = NULL;
char *svptr = NULL;
if ((!options) || (!clstr))
return -1;
if (!dict_get (options, pattern))
return -1;
ret = dict_get_str (options, pattern, &addrstr);
if (ret < 0) {
ret = -1;
goto err;
}
if (!addrstr) {
ret = -1;
goto err;
}
addrtok = strtok_r (addrstr, ",", &svptr);
while (addrtok) {
/* CASEFOLD not present on Solaris */
#ifdef FNM_CASEFOLD
ret = fnmatch (addrtok, clstr, FNM_CASEFOLD);
#else
ret = fnmatch (addrtok, clstr, 0);
#endif
if (ret == 0)
goto err;
addrtok = strtok_r (NULL, ",", &svptr);
}
ret = -1;
err:
return ret;
}
int
nfs_rpcsvc_conn_peer_check_allow (dict_t *options, char *volname, char *clstr)
{
int ret = RPCSVC_AUTH_DONTCARE;
char *srchstr = NULL;
char globalrule[] = "rpc-auth.addr.allow";
if ((!options) || (!clstr))
return ret;
/* If volname is NULL, then we're searching for the general rule to
* determine the current address in clstr is allowed or not for all
* subvolumes.
*/
if (volname) {
ret = gf_asprintf (&srchstr, "rpc-auth.addr.%s.allow", volname);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "asprintf failed");
ret = RPCSVC_AUTH_DONTCARE;
goto out;
}
} else
srchstr = globalrule;
ret = nfs_rpcsvc_conn_peer_check_search (options, srchstr, clstr);
if (volname)
GF_FREE (srchstr);
if (ret == 0)
ret = RPCSVC_AUTH_ACCEPT;
else
ret = RPCSVC_AUTH_DONTCARE;
out:
return ret;
}
int
nfs_rpcsvc_conn_peer_check_reject (dict_t *options, char *volname, char *clstr)
{
int ret = RPCSVC_AUTH_DONTCARE;
char *srchstr = NULL;
char generalrule[] = "rpc-auth.addr.reject";
if ((!options) || (!clstr))
return ret;
if (volname) {
ret = gf_asprintf (&srchstr, "rpc-auth.addr.%s.reject",
volname);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "asprintf failed");
ret = RPCSVC_AUTH_REJECT;
goto out;
}
} else
srchstr = generalrule;
ret = nfs_rpcsvc_conn_peer_check_search (options, srchstr, clstr);
if (volname)
GF_FREE (srchstr);
if (ret == 0)
ret = RPCSVC_AUTH_REJECT;
else
ret = RPCSVC_AUTH_DONTCARE;
out:
return ret;
}
/* This function tests the results of the allow rule and the reject rule to
* combine them into a single result that can be used to determine if the
* connection should be allowed to proceed.
* Heres the test matrix we need to follow in this function.
*
* A - Allow, the result of the allow test. Never returns R.
* R - Reject, result of the reject test. Never returns A.
* Both can return D or dont care if no rule was given.
*
* | @allow | @reject | Result |
* | A | R | R |
* | D | D | D |
* | A | D | A |
* | D | R | R |
*/
int
nfs_rpcsvc_combine_allow_reject_volume_check (int allow, int reject)
{
int final = RPCSVC_AUTH_REJECT;
/* If allowed rule allows but reject rule rejects, we stay cautious
* and reject. */
if ((allow == RPCSVC_AUTH_ACCEPT) && (reject == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
/* if both are dont care, that is user did not specify for either allow
* or reject, we leave it up to the general rule to apply, in the hope
* that there is one.
*/
else if ((allow == RPCSVC_AUTH_DONTCARE) &&
(reject == RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_DONTCARE;
/* If one is dont care, the other one applies. */
else if ((allow == RPCSVC_AUTH_ACCEPT) &&
(reject == RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_ACCEPT;
else if ((allow == RPCSVC_AUTH_DONTCARE) &&
(reject == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
return final;
}
/* Combines the result of the general rule test against, the specific rule
* to determine final permission for the client's address.
*
* | @gen | @spec | Result |
* | A | A | A |
* | A | R | R |
* | A | D | A |
* | D | A | A |
* | D | R | R |
* | D | D | D |
* | R | A | A |
* | R | D | R |
* | R | R | R |
*/
int
nfs_rpcsvc_combine_gen_spec_addr_checks (int gen, int spec)
{
int final = RPCSVC_AUTH_REJECT;
if ((gen == RPCSVC_AUTH_ACCEPT) && (spec == RPCSVC_AUTH_ACCEPT))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_ACCEPT) && (spec == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
else if ((gen == RPCSVC_AUTH_ACCEPT) && (spec == RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_DONTCARE) && (spec == RPCSVC_AUTH_ACCEPT))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_DONTCARE) && (spec == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
else if ((gen == RPCSVC_AUTH_DONTCARE) && (spec== RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_DONTCARE;
else if ((gen == RPCSVC_AUTH_REJECT) && (spec == RPCSVC_AUTH_ACCEPT))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_REJECT) && (spec == RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_REJECT;
else if ((gen == RPCSVC_AUTH_REJECT) && (spec == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
return final;
}
/* Combines the result of the general rule test against, the specific rule
* to determine final test for the connection coming in for a given volume.
*
* | @gen | @spec | Result |
* | A | A | A |
* | A | R | R |
* | A | D | A |
* | D | A | A |
* | D | R | R |
* | D | D | R |, special case, we intentionally disallow this.
* | R | A | A |
* | R | D | R |
* | R | R | R |
*/
int
nfs_rpcsvc_combine_gen_spec_volume_checks (int gen, int spec)
{
int final = RPCSVC_AUTH_REJECT;
if ((gen == RPCSVC_AUTH_ACCEPT) && (spec == RPCSVC_AUTH_ACCEPT))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_ACCEPT) && (spec == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
else if ((gen == RPCSVC_AUTH_ACCEPT) && (spec == RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_DONTCARE) && (spec == RPCSVC_AUTH_ACCEPT))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_DONTCARE) && (spec == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
/* On no rule, we reject. */
else if ((gen == RPCSVC_AUTH_DONTCARE) && (spec== RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_REJECT;
else if ((gen == RPCSVC_AUTH_REJECT) && (spec == RPCSVC_AUTH_ACCEPT))
final = RPCSVC_AUTH_ACCEPT;
else if ((gen == RPCSVC_AUTH_REJECT) && (spec == RPCSVC_AUTH_DONTCARE))
final = RPCSVC_AUTH_REJECT;
else if ((gen == RPCSVC_AUTH_REJECT) && (spec == RPCSVC_AUTH_REJECT))
final = RPCSVC_AUTH_REJECT;
return final;
}
int
nfs_rpcsvc_conn_peer_check_name (dict_t *options, char *volname,
rpcsvc_conn_t *conn)
{
int ret = RPCSVC_AUTH_REJECT;
int aret = RPCSVC_AUTH_REJECT;
int rjret = RPCSVC_AUTH_REJECT;
char clstr[RPCSVC_PEER_STRLEN];
if (!conn)
return ret;
ret = nfs_rpcsvc_conn_peername (conn, clstr, RPCSVC_PEER_STRLEN);
if (ret != 0) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to get remote addr: "
"%s", gai_strerror (ret));
ret = RPCSVC_AUTH_REJECT;
goto err;
}
aret = nfs_rpcsvc_conn_peer_check_allow (options, volname, clstr);
rjret = nfs_rpcsvc_conn_peer_check_reject (options, volname, clstr);
ret = nfs_rpcsvc_combine_allow_reject_volume_check (aret, rjret);
err:
return ret;
}
int
nfs_rpcsvc_conn_peer_check_addr (dict_t *options, char *volname,
rpcsvc_conn_t *conn)
{
int ret = RPCSVC_AUTH_REJECT;
int aret = RPCSVC_AUTH_DONTCARE;
int rjret = RPCSVC_AUTH_REJECT;
char clstr[RPCSVC_PEER_STRLEN];
if (!conn)
return ret;
ret = nfs_rpcsvc_conn_peeraddr (conn, clstr, RPCSVC_PEER_STRLEN, NULL,
0);
if (ret != 0) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to get remote addr: "
"%s", gai_strerror (ret));
ret = RPCSVC_AUTH_REJECT;
goto err;
}
aret = nfs_rpcsvc_conn_peer_check_allow (options, volname, clstr);
rjret = nfs_rpcsvc_conn_peer_check_reject (options, volname, clstr);
ret = nfs_rpcsvc_combine_allow_reject_volume_check (aret, rjret);
err:
return ret;
}
int
nfs_rpcsvc_conn_check_volume_specific (dict_t *options, char *volname,
rpcsvc_conn_t *conn)
{
int namechk = RPCSVC_AUTH_REJECT;
int addrchk = RPCSVC_AUTH_REJECT;
gf_boolean_t namelookup = _gf_true;
char *namestr = NULL;
int ret = 0;
if ((!options) || (!volname) || (!conn))
return RPCSVC_AUTH_REJECT;
/* Enabled by default */
if ((dict_get (options, "rpc-auth.addr.namelookup"))) {
ret = dict_get_str (options, "rpc-auth.addr.namelookup"
, &namestr);
if (ret == 0)
ret = gf_string2boolean (namestr, &namelookup);
}
/* We need two separate checks because the rules with addresses in them
* can be network addresses which can be general and names can be
* specific which will over-ride the network address rules.
*/
if (namelookup)
namechk = nfs_rpcsvc_conn_peer_check_name (options, volname,
conn);
addrchk = nfs_rpcsvc_conn_peer_check_addr (options, volname, conn);
if (namelookup)
ret = nfs_rpcsvc_combine_gen_spec_addr_checks (addrchk,
namechk);
else
ret = addrchk;
return ret;
}
int
nfs_rpcsvc_conn_check_volume_general (dict_t *options, rpcsvc_conn_t *conn)
{
int addrchk = RPCSVC_AUTH_REJECT;
int namechk = RPCSVC_AUTH_REJECT;
gf_boolean_t namelookup = _gf_true;
char *namestr = NULL;
int ret = 0;
if ((!options) || (!conn))
return RPCSVC_AUTH_REJECT;
/* Enabled by default */
if ((dict_get (options, "rpc-auth.addr.namelookup"))) {
ret = dict_get_str (options, "rpc-auth.addr.namelookup"
, &namestr);
if (ret == 0)
ret = gf_string2boolean (namestr, &namelookup);
}
/* We need two separate checks because the rules with addresses in them
* can be network addresses which can be general and names can be
* specific which will over-ride the network address rules.
*/
if (namelookup)
namechk = nfs_rpcsvc_conn_peer_check_name (options, NULL, conn);
addrchk = nfs_rpcsvc_conn_peer_check_addr (options, NULL, conn);
if (namelookup)
ret = nfs_rpcsvc_combine_gen_spec_addr_checks (addrchk,
namechk);
else
ret = addrchk;
return ret;
}
int
nfs_rpcsvc_conn_peer_check (dict_t *options, char *volname, rpcsvc_conn_t *conn)
{
int general_chk = RPCSVC_AUTH_REJECT;
int specific_chk = RPCSVC_AUTH_REJECT;
if ((!options) || (!volname) || (!conn))
return RPCSVC_AUTH_REJECT;
general_chk = nfs_rpcsvc_conn_check_volume_general (options, conn);
specific_chk = nfs_rpcsvc_conn_check_volume_specific (options, volname,
conn);
return nfs_rpcsvc_combine_gen_spec_volume_checks (general_chk,
specific_chk);
}
char *
nfs_rpcsvc_volume_allowed (dict_t *options, char *volname)
{
char globalrule[] = "rpc-auth.addr.allow";
char *srchstr = NULL;
char *addrstr = NULL;
int ret = -1;
if ((!options) || (!volname))
return NULL;
ret = gf_asprintf (&srchstr, "rpc-auth.addr.%s.allow", volname);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "asprintf failed");
goto out;
}
if (!dict_get (options, srchstr)) {
GF_FREE (srchstr);
srchstr = globalrule;
ret = dict_get_str (options, srchstr, &addrstr);
} else
ret = dict_get_str (options, srchstr, &addrstr);
out:
return addrstr;
}
/* Initialize the core of a connection */
rpcsvc_conn_t *
nfs_rpcsvc_conn_init (rpcsvc_t *svc, rpcsvc_program_t *prog, int sockfd)
{
rpcsvc_conn_t *conn = NULL;
int ret = -1;
unsigned int poolcount = 0;
conn = GF_CALLOC (1, sizeof(*conn), gf_common_mt_rpcsvc_conn_t);
if (!conn) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "memory allocation failed");
return NULL;
}
conn->sockfd = sockfd;
conn->program = (void *)prog;
INIT_LIST_HEAD (&conn->txbufs);
poolcount = RPCSVC_POOLCOUNT_MULT * svc->memfactor;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "tx pool: %d", poolcount);
conn->txpool = mem_pool_new (rpcsvc_txbuf_t, poolcount);
if (!conn->txpool) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "mem pool allocation failed");
goto free_conn;
}
gf_log (GF_RPCSVC, GF_LOG_TRACE, "rx pool: %d", poolcount);
conn->rxpool = mem_pool_new (rpcsvc_request_t, poolcount);
if (!conn->rxpool) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "mem pool allocation failed");
goto free_txp;
}
/* Cannot consider a connection connected unless the user of this
* connection decides it is ready to use. It is possible that we have
* to free this connection soon after. That free will not happpen
* unless the state is disconnected.
*/
conn->connstate = RPCSVC_CONNSTATE_DISCONNECTED;
pthread_mutex_init (&conn->connlock, NULL);
conn->connref = 0;
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "New connection inited: sockfd: %d",
sockfd);
ret = 0;
free_txp:
if (ret == -1)
mem_pool_destroy (conn->txpool);
free_conn:
if (ret == -1) {
GF_FREE (conn);
conn = NULL;
}
return conn;
}
void
nfs_rpcsvc_conn_destroy (rpcsvc_conn_t *conn)
{
mem_pool_destroy (conn->txpool);
mem_pool_destroy (conn->rxpool);
if (conn->program->conn_destroy)
conn->program->conn_destroy (conn->program->private, conn);
/* Need to destory record state, txlists etc. */
GF_FREE (conn);
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "Connection destroyed");
}
int
__nfs_rpcsvc_conn_unref (rpcsvc_conn_t *conn)
{
--conn->connref;
return conn->connref;
}
void
__nfs_rpcsvc_conn_deinit (rpcsvc_conn_t *conn)
{
if (!conn)
return;
if ((conn->stage) && (conn->stage->eventpool)) {
event_unregister (conn->stage->eventpool, conn->sockfd,
conn->eventidx);
}
if (nfs_rpcsvc_conn_check_active (conn)) {
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "Connection de-activated:"
" sockfd: %d", conn->sockfd);
conn->connstate = RPCSVC_CONNSTATE_DISCONNECTED;
}
if (conn->sockfd != -1) {
close (conn->sockfd);
conn->sockfd = -1;
}
}
void
nfs_rpcsvc_conn_deinit (rpcsvc_conn_t *conn)
{
int ref = 0;
if (!conn)
return;
pthread_mutex_lock (&conn->connlock);
{
__nfs_rpcsvc_conn_deinit (conn);
ref = __nfs_rpcsvc_conn_unref (conn);
}
pthread_mutex_unlock (&conn->connlock);
if (ref == 0)
nfs_rpcsvc_conn_destroy (conn);
return;
}
void
nfs_rpcsvc_conn_unref (rpcsvc_conn_t *conn)
{
int ref = 0;
if (!conn)
return;
pthread_mutex_lock (&conn->connlock);
{
ref = __nfs_rpcsvc_conn_unref (conn);
}
pthread_mutex_unlock (&conn->connlock);
if (ref == 0)
nfs_rpcsvc_conn_destroy (conn);
}
int
nfs_rpcsvc_conn_active (rpcsvc_conn_t *conn)
{
int status = 0;
if (!conn)
return 0;
pthread_mutex_lock (&conn->connlock);
{
status = nfs_rpcsvc_conn_check_active (conn);
}
pthread_mutex_unlock (&conn->connlock);
return status;
}
void
nfs_rpcsvc_conn_ref (rpcsvc_conn_t *conn)
{
if (!conn)
return;
pthread_mutex_lock (&conn->connlock);
{
++conn->connref;
}
pthread_mutex_unlock (&conn->connlock);
return;
}
void
nfs_rpcsvc_conn_state_init (rpcsvc_conn_t *conn)
{
if (!conn)
return;
++conn->connref;
conn->connstate = RPCSVC_CONNSTATE_CONNECTED;
}
/* Builds a rpcsvc_conn_t with the aim of listening on it.
*/
rpcsvc_conn_t *
nfs_rpcsvc_conn_listen_init (rpcsvc_t *svc, rpcsvc_program_t *newprog)
{
rpcsvc_conn_t *conn = NULL;
int sock = -1;
if (!newprog)
return NULL;
sock = nfs_rpcsvc_socket_listen (newprog->progaddrfamily,
newprog->proghost, newprog->progport);
if (sock == -1)
goto err;
conn = nfs_rpcsvc_conn_init (svc, newprog, sock);
if (!conn)
goto sock_close_err;
nfs_rpcsvc_conn_state_init (conn);
sock_close_err:
if (!conn)
close (sock);
err:
return conn;
}
void
nfs_rpcsvc_record_init (rpcsvc_record_state_t *rs, struct iobuf_pool *pool)
{
if (!rs)
return;
rs->state = RPCSVC_READ_FRAGHDR;
rs->vecstate = 0;
rs->remainingfraghdr = RPCSVC_FRAGHDR_SIZE;
rs->remainingfrag = 0;
rs->fragsize = 0;
rs->recordsize = 0;
rs->islastfrag = 0;
/* If the rs preserves a ref to the iob used by the previous request,
* we must unref it here to prevent memory leak.
* If program actor wanted to keep that memory around, it should've
* refd it on entry into the actor.
*/
if (rs->activeiob)
iobuf_unref (rs->activeiob);
if (rs->vectoriob) {
iobuf_unref (rs->vectoriob);
rs->vectoriob = NULL;
}
rs->activeiob = iobuf_get (pool);
rs->fragcurrent = iobuf_ptr (rs->activeiob);
memset (rs->fragheader, 0, RPCSVC_FRAGHDR_SIZE);
rs->hdrcurrent = &rs->fragheader[0];
}
int
nfs_rpcsvc_conn_privport_check (rpcsvc_t *svc, char *volname,
rpcsvc_conn_t *conn)
{
struct sockaddr_in sa;
int ret = RPCSVC_AUTH_REJECT;
socklen_t sasize = sizeof (sa);
char *srchstr = NULL;
char *valstr = NULL;
int globalinsecure = RPCSVC_AUTH_REJECT;
int exportinsecure = RPCSVC_AUTH_DONTCARE;
uint16_t port = 0;
gf_boolean_t insecure = _gf_false;
if ((!svc) || (!volname) || (!conn))
return ret;
ret = nfs_rpcsvc_conn_peeraddr (conn, NULL, 0, (struct sockaddr *)&sa,
sasize);
if (ret != 0) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to get peer addr: %s",
gai_strerror (ret));
ret = RPCSVC_AUTH_REJECT;
goto err;
}
port = ntohs (sa.sin_port);
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Client port: %d", (int)port);
/* If the port is already a privileged one, dont bother with checking
* options.
*/
if (port <= 1024) {
ret = RPCSVC_AUTH_ACCEPT;
goto err;
}
/* Disabled by default */
if ((dict_get (svc->options, "rpc-auth.ports.insecure"))) {
ret = dict_get_str (svc->options, "rpc-auth.ports.insecure"
, &srchstr);
if (ret == 0) {
ret = gf_string2boolean (srchstr, &insecure);
if (ret == 0) {
if (insecure == _gf_true)
globalinsecure = RPCSVC_AUTH_ACCEPT;
} else
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to"
" read rpc-auth.ports.insecure value");
} else
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to"
" read rpc-auth.ports.insecure value");
}
/* Disabled by default */
ret = gf_asprintf (&srchstr, "rpc-auth.ports.%s.insecure", volname);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "asprintf failed");
ret = RPCSVC_AUTH_REJECT;
goto err;
}
if (dict_get (svc->options, srchstr)) {
ret = dict_get_str (svc->options, srchstr, &valstr);
if (ret == 0) {
ret = gf_string2boolean (srchstr, &insecure);
if (ret == 0) {
if (insecure == _gf_true)
exportinsecure = RPCSVC_AUTH_ACCEPT;
else
exportinsecure = RPCSVC_AUTH_REJECT;
} else
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to"
" read rpc-auth.ports.insecure value");
} else
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to"
" read rpc-auth.ports.insecure value");
}
ret = nfs_rpcsvc_combine_gen_spec_volume_checks (globalinsecure,
exportinsecure);
if (ret == RPCSVC_AUTH_ACCEPT)
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "Unprivileged port allowed");
else
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "Unprivileged port not"
" allowed");
err:
return ret;
}
/* Inits a rpcsvc_conn_t after accepting the connection.
*/
rpcsvc_conn_t *
nfs_rpcsvc_conn_accept_init (rpcsvc_t *svc, int listenfd,
rpcsvc_program_t *destprog)
{
rpcsvc_conn_t *newconn = NULL;
int sock = -1;
int ret = -1;
sock = nfs_rpcsvc_socket_accept (listenfd);
if (sock == -1)
goto err;
newconn = nfs_rpcsvc_conn_init (svc, destprog, sock);
if (!newconn) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to init conn object");
ret = -1;
goto err;
}
nfs_rpcsvc_record_init (&newconn->rstate, svc->ctx->iobuf_pool);
nfs_rpcsvc_conn_state_init (newconn);
if (destprog->conn_init)
destprog->conn_init (destprog->private, newconn);
ret = 0;
err:
if (ret == -1)
close (sock);
return newconn;
}
/* Once the connection has been created, we need to associate it with
* a stage so that the selected stage will handle the event on this connection.
* This function also allows the caller to decide which handler should
* be executed in the context of the stage, and also which specific events
* should be handed to the handler when running in this particular stage.
*/
int
nfs_rpcsvc_stage_conn_associate (rpcsvc_stage_t *stg, rpcsvc_conn_t *conn,
event_handler_t handler, void *data)
{
int ret = -1;
if ((!stg) || (!conn))
return -1;
conn->stage = stg;
conn->eventidx = event_register (stg->eventpool, conn->sockfd, handler,
data, 1, 0);
if (conn->eventidx == -1)
goto err;
ret = 0;
err:
return ret;
}
/* Depending on the state we're in, return the size of the next read request. */
size_t
nfs_rpcsvc_record_read_size (rpcsvc_record_state_t *rs)
{
size_t toread = -1;
if (!rs)
return -1;
if (nfs_rpcsvc_record_readfraghdr (rs))
toread = rs->remainingfraghdr;
else if (nfs_rpcsvc_record_readfrag (rs))
toread = rs->remainingfrag;
else
toread = RPCSVC_CONN_READ;
return toread;
}
uint32_t
nfs_rpcsvc_record_extract_fraghdr (char *fraghdr)
{
uint32_t hdr = 0;
if (!fraghdr)
return 0;
memcpy ((void *)&hdr, fraghdr, sizeof (hdr));
hdr = ntohl (hdr);
return hdr;
}
ssize_t
nfs_rpcsvc_record_read_complete_fraghdr (rpcsvc_record_state_t *rs,
ssize_t dataread)
{
uint32_t remhdr = 0;
char *fraghdrstart = NULL;
uint32_t fraghdr = 0;
fraghdrstart = &rs->fragheader[0];
remhdr = rs->remainingfraghdr;
fraghdr = nfs_rpcsvc_record_extract_fraghdr (fraghdrstart);
rs->fragsize = RPCSVC_FRAGSIZE (fraghdr);
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Received fragment size: %d",
rs->fragsize);
if (nfs_rpcsvc_record_vectored (rs)) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC header,"
" remaining: %d", RPCSVC_BARERPC_MSGSZ);
rs->remainingfrag = RPCSVC_BARERPC_MSGSZ;
} else {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Regular RPC header,"
" remaining: %d", rs->fragsize);
rs->remainingfrag = rs->fragsize;
}
rs->state = RPCSVC_READ_FRAG;
dataread -= remhdr;
rs->remainingfraghdr -= remhdr;
rs->islastfrag = RPCSVC_LASTFRAG (fraghdr);
return dataread;
}
ssize_t
nfs_rpcsvc_record_read_partial_fraghdr (rpcsvc_record_state_t *rs,
ssize_t dataread)
{
/* In case we got less than even the remaining header size,
* we need to consume it all and wait for remaining frag hdr
* bytes to come in.
*/
rs->remainingfraghdr -= dataread;
nfs_rpcsvc_record_update_currenthdr (rs, dataread);
dataread = 0;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Fragment header remaining: %d",
rs->remainingfraghdr);
return dataread;
}
ssize_t
nfs_rpcsvc_record_update_fraghdr (rpcsvc_record_state_t *rs, ssize_t dataread)
{
if ((!rs) || (dataread <= 0))
return -1;
/* Why are we even here, we're not supposed to be in the fragment
* header processing state.
*/
if (!nfs_rpcsvc_record_readfraghdr(rs)) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "record state inconsistent"
": request to update frag header when state is not"
"RPCSVC_READ_FRAGHDR");
return -1;
}
/* Again, if header has been read then the state member above should've
* been different, this is crazy. We should not be here.
*/
if (rs->remainingfraghdr == 0) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "record state inconsistent"
": request to update frag header when frag header"
"remaining is 0.");
return -1;
}
/* We've definitely got the full header now and may be even more. */
if (dataread >= rs->remainingfraghdr)
dataread = nfs_rpcsvc_record_read_complete_fraghdr (rs,
dataread);
else
dataread = nfs_rpcsvc_record_read_partial_fraghdr (rs,
dataread);
return dataread;
}
ssize_t
nfs_rpcsvc_record_read_complete_frag (rpcsvc_record_state_t *rs,
ssize_t dataread)
{
uint32_t remfrag;
/* Since the frag is now complete, change the state to the next
* one, i.e. to read the header of the next fragment.
*/
remfrag = rs->remainingfrag;
rs->state = RPCSVC_READ_FRAGHDR;
dataread -= remfrag;
/* This will be 0 now. */
rs->remainingfrag -= remfrag;
/* Now that the fragment is complete, we must update the
* record size. Recall that fragsize was got from the frag
* header.
*/
rs->recordsize += rs->fragsize;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Fragment remaining: %d",
rs->remainingfrag);
return dataread;
}
ssize_t
nfs_rpcsvc_record_read_partial_frag (rpcsvc_record_state_t *rs,
ssize_t dataread)
{
/* Just take whatever has come through the current network buffer. */
rs->remainingfrag -= dataread;
nfs_rpcsvc_record_update_currentfrag (rs, dataread);
/* Since we know we're consuming the whole buffer from dataread
* simply setting to 0 zero is fine.
*/
dataread = 0;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Fragment remaining: %d",
rs->remainingfrag);
return dataread;
}
ssize_t
nfs_rpcsvc_record_update_frag (rpcsvc_record_state_t *rs, ssize_t dataread)
{
if ((!rs) || (dataread <= 0))
return -1;
if (!nfs_rpcsvc_record_readfrag (rs)) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "record state inconsistent"
": request to update fragment when record state is not"
"RPCSVC_READ_FRAG.");
return -1;
}
if (rs->remainingfrag == 0) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "record state inconsistent"
": request to update fragment when there is no fragment"
" data remaining to be read.");
return -1;
}
/* We've read in more data than the current fragment requires. */
if (dataread >= rs->remainingfrag)
dataread = nfs_rpcsvc_record_read_complete_frag (rs, dataread);
else
dataread = nfs_rpcsvc_record_read_partial_frag (rs, dataread);
return dataread;
}
/* This needs to change to returning errors, since
* we need to return RPC specific error messages when some
* of the pointers below are NULL.
*/
rpcsvc_actor_t *
nfs_rpcsvc_program_actor (rpcsvc_conn_t *conn, rpcsvc_request_t *req)
{
rpcsvc_program_t *program = NULL;
int err = SYSTEM_ERR;
rpcsvc_actor_t *actor = NULL;
if ((!conn) || (!req))
goto err;
program = (rpcsvc_program_t *)conn->program;
if (!program)
goto err;
if (req->prognum != program->prognum) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "RPC program not available");
err = PROG_UNAVAIL;
goto err;
}
if (!program->actors) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "RPC System error");
err = SYSTEM_ERR;
goto err;
}
if (req->progver != program->progver) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "RPC program version not"
" available");
err = PROG_MISMATCH;
goto err;
}
if ((req->procnum < 0) || (req->procnum >= program->numactors)) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "RPC Program procedure not"
" available");
err = PROC_UNAVAIL;
goto err;
}
actor = &program->actors[req->procnum];
if (!actor->actor) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "RPC Program procedure not"
" available");
err = PROC_UNAVAIL;
actor = NULL;
goto err;
}
err = SUCCESS;
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "Actor found: %s - %s",
program->progname, actor->procname);
err:
if (req)
req->rpc_err = err;
return actor;
}
rpcsvc_txbuf_t *
nfs_rpcsvc_init_txbuf (rpcsvc_conn_t *conn, struct iovec msg, struct iobuf *iob,
struct iobref *iobref, int txflags)
{
rpcsvc_txbuf_t *txbuf = NULL;
txbuf = (rpcsvc_txbuf_t *) mem_get(conn->txpool);
if (!txbuf) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to get txbuf");
return NULL;
}
memset (txbuf, 0, sizeof (*txbuf));
INIT_LIST_HEAD (&txbuf->txlist);
txbuf->buf = msg;
/* If it was required, this iob must've been ref'd already
* so I dont have to bother here.
*/
txbuf->iob = iob;
txbuf->iobref = iobref;
txbuf->offset = 0;
txbuf->txbehave = txflags;
return txbuf;
}
int
nfs_rpcsvc_conn_append_txlist (rpcsvc_conn_t *conn, struct iovec msg,
struct iobuf *iob, int txflags)
{
rpcsvc_txbuf_t *txbuf = NULL;
if ((!conn) || (!msg.iov_base) || (!iob))
return -1;
txbuf = nfs_rpcsvc_init_txbuf (conn, msg, iob, NULL, txflags);
if (!txbuf)
return -1;
list_add_tail (&txbuf->txlist, &conn->txbufs);
return 0;
}
void
nfs_rpcsvc_set_lastfrag (uint32_t *fragsize) {
(*fragsize) |= 0x80000000U;
}
void
nfs_rpcsvc_set_frag_header_size (uint32_t size, char *haddr)
{
size = htonl (size);
memcpy (haddr, &size, sizeof (size));
}
void
nfs_rpcsvc_set_last_frag_header_size (uint32_t size, char *haddr)
{
nfs_rpcsvc_set_lastfrag (&size);
nfs_rpcsvc_set_frag_header_size (size, haddr);
}
/* Given the RPC reply structure and the payload handed by the RPC program,
* encode the RPC record header into the buffer pointed by recordstart.
*/
struct iovec
nfs_rpcsvc_record_build_header (char *recordstart, size_t rlen,
struct rpc_msg reply, size_t payload)
{
struct iovec replyhdr;
struct iovec txrecord = {0, 0};
size_t fraglen = 0;
int ret = -1;
/* After leaving aside the 4 bytes for the fragment header, lets
* encode the RPC reply structure into the buffer given to us.
*/
ret = nfs_rpc_reply_to_xdr (&reply,(recordstart + RPCSVC_FRAGHDR_SIZE),
rlen, &replyhdr);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to create RPC reply");
goto err;
}
fraglen = payload + replyhdr.iov_len;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Reply fraglen %zu, payload: %zu, "
"rpc hdr: %zu", fraglen, payload, replyhdr.iov_len);
/* Since we're not spreading RPC records over mutiple fragments
* we just set this fragment as the first and last fragment for this
* record.
*/
nfs_rpcsvc_set_last_frag_header_size (fraglen, recordstart);
/* Even though the RPC record starts at recordstart+RPCSVC_FRAGHDR_SIZE
* we need to transmit the record with the fragment header, which starts
* at recordstart.
*/
txrecord.iov_base = recordstart;
/* Remember, this is only the vec for the RPC header and does not
* include the payload above. We needed the payload only to calculate
* the size of the full fragment. This size is sent in the fragment
* header.
*/
txrecord.iov_len = RPCSVC_FRAGHDR_SIZE + replyhdr.iov_len;
err:
return txrecord;
}
int
nfs_rpcsvc_conn_submit (rpcsvc_conn_t *conn, struct iovec hdr,
struct iobuf *hdriob, struct iovec msgvec,
struct iobuf *msgiob)
{
int ret = -1;
if ((!conn) || (!hdr.iov_base) || (!hdriob))
return -1;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Tx Header: %zu, payload: %zu",
hdr.iov_len, msgvec.iov_len);
/* Now that we have both the RPC and Program buffers in xdr format
* lets hand it to the transmission layer.
*/
pthread_mutex_lock (&conn->connlock);
{
if (!nfs_rpcsvc_conn_check_active (conn)) {
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "Connection inactive");
goto unlock_err;
}
ret = nfs_rpcsvc_conn_append_txlist (conn, hdr, hdriob,
RPCSVC_TXB_FIRST);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to append "
"header to transmission list");
goto unlock_err;
}
/* It is possible that this RPC reply is an error reply. In that
* case we might not have been handed a payload.
*/
ret = 0;
if (msgiob)
ret = nfs_rpcsvc_conn_append_txlist (conn, msgvec,
msgiob,
RPCSVC_TXB_LAST);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to append"
" payload to transmission list");
goto unlock_err;
}
}
unlock_err:
pthread_mutex_unlock (&conn->connlock);
if (ret == -1)
goto err;
/* Tell event pool, we're interested in poll_out to trigger flush
* of our tx buffers.
*/
conn->eventidx = event_select_on (conn->stage->eventpool, conn->sockfd,
conn->eventidx, -1, 1);
ret = 0;
err:
return ret;
}
int
nfs_rpcsvc_fill_reply (rpcsvc_request_t *req, struct rpc_msg *reply)
{
rpcsvc_program_t *prog = NULL;
if ((!req) || (!reply))
return -1;
prog = nfs_rpcsvc_request_program (req);
nfs_rpc_fill_empty_reply (reply, req->xid);
if (req->rpc_stat == MSG_DENIED)
nfs_rpc_fill_denied_reply (reply, req->rpc_err, req->auth_err);
else if (req->rpc_stat == MSG_ACCEPTED)
nfs_rpc_fill_accepted_reply (reply, req->rpc_err,
prog->proglowvers,
prog->proghighvers,
req->verf.flavour,
req->verf.datalen,
req->verf.authdata);
else
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Invalid rpc_stat value");
return 0;
}
/* Given a request and the reply payload, build a reply and encodes the reply
* into a record header. This record header is encoded into the vector pointed
* to be recbuf.
* msgvec is the buffer that points to the payload of the RPC program.
* This buffer can be NULL, if an RPC error reply is being constructed.
* The only reason it is needed here is that in case the buffer is provided,
* we should account for the length of that buffer in the RPC fragment header.
*/
struct iobuf *
nfs_rpcsvc_record_build_record (rpcsvc_request_t *req, size_t payload,
struct iovec *recbuf)
{
struct rpc_msg reply;
struct iobuf *replyiob = NULL;
char *record = NULL;
struct iovec recordhdr = {0, };
size_t pagesize = 0;
rpcsvc_conn_t *conn = NULL;
rpcsvc_t *svc = NULL;
if ((!req) || (!req->conn) || (!recbuf))
return NULL;
/* First, try to get a pointer into the buffer which the RPC
* layer can use.
*/
conn = req->conn;
svc = nfs_rpcsvc_conn_rpcsvc (conn);
replyiob = iobuf_get (svc->ctx->iobuf_pool);
pagesize = iobpool_pagesize ((struct iobuf_pool *)svc->ctx->iobuf_pool);
if (!replyiob) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to get iobuf");
goto err_exit;
}
record = iobuf_ptr (replyiob); /* Now we have it. */
/* Fill the rpc structure and XDR it into the buffer got above. */
nfs_rpcsvc_fill_reply (req, &reply);
recordhdr = nfs_rpcsvc_record_build_header (record, pagesize, reply,
payload);
if (!recordhdr.iov_base) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to build record "
" header");
iobuf_unref (replyiob);
replyiob = NULL;
recbuf->iov_base = NULL;
goto err_exit;
}
recbuf->iov_base = recordhdr.iov_base;
recbuf->iov_len = recordhdr.iov_len;
err_exit:
return replyiob;
}
/*
* The function to submit a program message to the RPC service.
* This message is added to the transmission queue of the
* conn.
*
* Program callers are not expected to use the msgvec->iov_base
* address for anything else.
* Nor are they expected to free it once this function returns.
* Once the transmission of the buffer is completed by the RPC service,
* the memory area as referenced through @msg will be unrefed.
* If a higher layer does not want anything to do with this iobuf
* after this function returns, it should call unref on it. For keeping
* it around till the transmission is actually complete, rpcsvc also refs it.
* *
* If this function returns an error by returning -1, the
* higher layer programs should assume that a disconnection happened
* and should know that the conn memory area as well as the req structure
* has been freed internally.
*
* For now, this function assumes that a submit is always called
* to send a new record. Later, if there is a situation where different
* buffers for the same record come from different sources, then we'll
* need to change this code to account for multiple submit calls adding
* the buffers into a single record.
*/
int
nfs_rpcsvc_submit_generic (rpcsvc_request_t *req, struct iovec msgvec,
struct iobuf *msg)
{
int ret = -1;
struct iobuf *replyiob = NULL;
struct iovec recordhdr = {0, };
rpcsvc_conn_t *conn = NULL;
if ((!req) || (!req->conn))
return -1;
conn = req->conn;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Tx message: %zu", msgvec.iov_len);
/* Build the buffer containing the encoded RPC reply. */
replyiob = nfs_rpcsvc_record_build_record (req, msgvec.iov_len,
&recordhdr);
if (!replyiob) {
gf_log (GF_RPCSVC, GF_LOG_ERROR,"Reply record creation failed");
goto disconnect_exit;
}
/* Must ref the iobuf got from higher layer so that the higher layer
* can rest assured that it can unref it and leave the final freeing
* of the buffer to us. Note msg can be NULL if an RPC-only message
* was being sent. Happens when an RPC error reply is being sent.
*/
if (msg)
iobuf_ref (msg);
ret = nfs_rpcsvc_conn_submit (conn, recordhdr, replyiob, msgvec, msg);
mem_put (conn->rxpool, req);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to submit message");
iobuf_unref (replyiob);
}
disconnect_exit:
/* Note that a unref is called everytime a reply is sent. This is in
* response to the ref that is performed on the conn when a request is
* handed to the RPC program.
*
* The catch, however, is that if the reply is an rpc error, we must
* not unref. This is because the ref only contains
* references for the actors to which the request was handed plus one
* reference maintained by the RPC layer. By unrefing for a case where
* no actor was called, we will be losing the ref held for the RPC
* layer.
*/
if ((nfs_rpcsvc_request_accepted (req)) &&
(nfs_rpcsvc_request_accepted_success (req)))
nfs_rpcsvc_conn_unref (conn);
return ret;
}
int
nfs_rpcsvc_request_attach_vector (rpcsvc_request_t *req, struct iovec msgvec,
struct iobuf *iob, struct iobref *iobref,
int finalvector)
{
rpcsvc_txbuf_t *txb = NULL;
int txflags = 0;
if ((!req) || (!msgvec.iov_base))
return -1;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Tx Vector: %zu", msgvec.iov_len);
if (finalvector)
txflags |= RPCSVC_TXB_LAST;
/* We only let the user decide whether this is the last vector for the
* record, since the first vector is always the RPC header.
*/
txb = nfs_rpcsvc_init_txbuf (req->conn, msgvec, iob, iobref, txflags);
if (!txb) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Could not init tx buf");
return -1;
}
req->payloadsize += msgvec.iov_len;
if (iob)
iobuf_ref (iob);
if (iobref)
iobref_ref (iobref);
list_add_tail (&txb->txlist, &req->txlist);
return 0;
}
int
nfs_rpcsvc_request_attach_vectors (rpcsvc_request_t *req, struct iovec *payload,
int vcount, struct iobref *piobref)
{
int c = 0;
int ret = -1;
for (;c < (vcount-1); c++) {
ret = nfs_rpcsvc_request_attach_vector (req, payload[c], NULL,
piobref, 0);
if (ret < 0) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to attach "
"vector");
goto out;
}
}
ret = nfs_rpcsvc_request_attach_vector (req, payload[vcount-1], NULL,
piobref, 1);
if (ret < 0)
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to attach final vec");
out:
return ret;
}
int
nfs_rpcsvc_submit_vectors (rpcsvc_request_t *req)
{
int ret = -1;
struct iobuf *replyiob = NULL;
struct iovec recordhdr = {0, };
rpcsvc_txbuf_t *rpctxb = NULL;
if ((!req) || (!req->conn))
return -1;
/* Build the buffer containing the encoded RPC reply. */
replyiob = nfs_rpcsvc_record_build_record (req, req->payloadsize,
&recordhdr);
if (!replyiob) {
gf_log (GF_RPCSVC, GF_LOG_ERROR,"Reply record creation failed");
goto disconnect_exit;
}
rpctxb = nfs_rpcsvc_init_txbuf (req->conn, recordhdr, replyiob, NULL,
RPCSVC_TXB_FIRST);
if (!rpctxb) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to create tx buf");
goto disconnect_exit;
}
pthread_mutex_lock (&req->conn->connlock);
{
list_splice_init (&req->txlist, &req->conn->txbufs);
list_add (&rpctxb->txlist, &req->conn->txbufs);
}
pthread_mutex_unlock (&req->conn->connlock);
ret = 0;
req->conn->eventidx = event_select_on (req->conn->stage->eventpool,
req->conn->sockfd,
req->conn->eventidx, -1, 1);
disconnect_exit:
/* Note that a unref is called everytime a reply is sent. This is in
* response to the ref that is performed on the conn when a request is
* handed to the RPC program.
*/
nfs_rpcsvc_conn_unref (req->conn);
if (ret == -1)
iobuf_unref (replyiob);
mem_put (req->conn->rxpool, req);
return ret;
}
int
nfs_rpcsvc_error_reply (rpcsvc_request_t *req)
{
struct iovec dummyvec = {0, };
if (!req)
return -1;
/* At this point the req should already have been filled with the
* appropriate RPC error numbers.
*/
return nfs_rpcsvc_submit_generic (req, dummyvec, NULL);
}
rpcsvc_request_t *
nfs_rpcsvc_request_init (rpcsvc_conn_t *conn, struct rpc_msg *callmsg,
struct iovec progmsg, rpcsvc_request_t *req)
{
if ((!conn) || (!callmsg)|| (!req))
return NULL;
/* We start a RPC request as always denied. */
req->rpc_stat = MSG_DENIED;
req->xid = nfs_rpc_call_xid (callmsg);
req->prognum = nfs_rpc_call_program (callmsg);
req->progver = nfs_rpc_call_progver (callmsg);
req->procnum = nfs_rpc_call_progproc (callmsg);
req->conn = conn;
req->msg = progmsg;
req->recordiob = conn->rstate.activeiob;
INIT_LIST_HEAD (&req->txlist);
req->payloadsize = 0;
/* By this time, the data bytes for the auth scheme would have already
* been copied into the required sections of the req structure,
* we just need to fill in the meta-data about it now.
*/
req->cred.flavour = nfs_rpc_call_cred_flavour (callmsg);
req->cred.datalen = nfs_rpc_call_cred_len (callmsg);
req->verf.flavour = nfs_rpc_call_verf_flavour (callmsg);
req->verf.datalen = nfs_rpc_call_verf_len (callmsg);
/* AUTH */
nfs_rpcsvc_auth_request_init (req);
return req;
}
rpcsvc_request_t *
nfs_rpcsvc_request_create (rpcsvc_conn_t *conn)
{
char *msgbuf = NULL;
struct rpc_msg rpcmsg;
struct iovec progmsg; /* RPC Program payload */
rpcsvc_request_t *req = NULL;
int ret = -1;
if (!conn)
return NULL;
/* We need to allocate the request before actually calling
* rpcsvc_request_init on the request so that we, can fill the auth
* data directly into the request structure from the message iobuf.
* This avoids a need to keep a temp buffer into which the auth data
* would've been copied otherwise.
*/
nfs_rpcsvc_alloc_request (conn, req);
if (!req) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed to alloc request");
goto err;
}
msgbuf = iobuf_ptr (conn->rstate.activeiob);
ret = nfs_xdr_to_rpc_call (msgbuf, conn->rstate.recordsize, &rpcmsg,
&progmsg, req->cred.authdata,
req->verf.authdata);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "RPC call decoding failed");
nfs_rpcsvc_request_seterr (req, GARBAGE_ARGS);
goto err;
}
ret = -1;
nfs_rpcsvc_request_init (conn, &rpcmsg, progmsg, req);
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "RPC XID: %lx, Ver: %ld, Program: %ld,"
" ProgVers: %ld, Proc: %ld", nfs_rpc_call_xid (&rpcmsg),
nfs_rpc_call_rpcvers (&rpcmsg), nfs_rpc_call_program (&rpcmsg),
nfs_rpc_call_progver (&rpcmsg),
nfs_rpc_call_progproc (&rpcmsg));
if (nfs_rpc_call_rpcvers (&rpcmsg) != 2) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "RPC version not supported");
nfs_rpcsvc_request_seterr (req, RPC_MISMATCH);
goto err;
}
ret = nfs_rpcsvc_authenticate (req);
if (ret == RPCSVC_AUTH_REJECT) {
/* No need to set auth_err, that is the responsibility of
* the authentication handler since only that know what exact
* error happened.
*/
nfs_rpcsvc_request_seterr (req, AUTH_ERROR);
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Failed authentication");
ret = -1;
goto err;
}
/* If the error is not RPC_MISMATCH, we consider the call as accepted
* since we are not handling authentication failures for now.
*/
req->rpc_stat = MSG_ACCEPTED;
ret = 0;
err:
if (ret == -1) {
ret = nfs_rpcsvc_error_reply (req);
req = NULL;
}
return req;
}
int
nfs_rpcsvc_handle_rpc_call (rpcsvc_conn_t *conn)
{
rpcsvc_actor_t *actor = NULL;
rpcsvc_request_t *req = NULL;
int ret = -1;
if (!conn)
return -1;
req = nfs_rpcsvc_request_create (conn);
if (!req)
goto err;
if (!nfs_rpcsvc_request_accepted (req))
goto err_reply;
actor = nfs_rpcsvc_program_actor (conn, req);
if (!actor)
goto err_reply;
if ((actor) && (actor->actor)) {
THIS = nfs_rpcsvc_request_actorxl (req);
nfs_rpcsvc_conn_ref (conn);
ret = actor->actor (req);
}
err_reply:
if (ret == RPCSVC_ACTOR_ERROR)
ret = nfs_rpcsvc_error_reply (req);
/* No need to propagate error beyond this function since the reply
* has now been queued. */
ret = 0;
err:
return ret;
}
#define nfs_rpc_call_cred_addr(rs) (iobuf_ptr ((rs)->activeiob) + RPCSVC_BARERPC_MSGSZ - 4)
uint32_t
nfs_rpcsvc_call_credlen (rpcsvc_record_state_t *rs)
{
char *credaddr = NULL;
uint32_t credlen_nw = 0;
uint32_t credlen_host = 0;
/* Position to the start of the credential length field. */
credaddr = nfs_rpc_call_cred_addr (rs);
credlen_nw = *(uint32_t *)credaddr;
credlen_host = ntohl (credlen_nw);
return credlen_host;
}
uint32_t
nfs_rpcsvc_call_verflen (rpcsvc_record_state_t *rs)
{
char *verfaddr = NULL;
uint32_t verflen_nw = 0;
uint32_t verflen_host = 0;
uint32_t credlen = 0;
/* Position to the start of the verifier length field. */
credlen = nfs_rpcsvc_call_credlen (rs);
verfaddr = (nfs_rpc_call_cred_addr (rs) + 4 + credlen);
verflen_nw = *(uint32_t *)verfaddr;
verflen_host = ntohl (verflen_nw);
return verflen_host;
}
void
nfs_rpcsvc_update_vectored_verf (rpcsvc_record_state_t *rs)
{
if (!rs)
return;
rs->recordsize += nfs_rpcsvc_call_verflen (rs);
return;
}
void
nfs_rpcsvc_handle_vectored_prep_rpc_call (rpcsvc_conn_t *conn)
{
rpcsvc_actor_t *actor = NULL;
rpcsvc_request_t *req = NULL;
rpcsvc_record_state_t *rs = NULL;
rpcsvc_t *svc = NULL;
int ret = -1;
ssize_t remfrag = RPCSVC_ACTOR_ERROR;
int newbuf = 0;
if (!conn)
return;
rs = &conn->rstate;
/* In case one of the steps below fails, we need to make sure that the
* remaining frag in the kernel's buffers are read-out so that the
* requests that follow can be served.
*/
rs->remainingfrag = rs->fragsize - rs->recordsize;
rs->vecstate = RPCSVC_VECTOR_IGNORE;
req = nfs_rpcsvc_request_create (conn);
svc = nfs_rpcsvc_conn_rpcsvc (conn);
if (!req)
goto err;
if (!nfs_rpcsvc_request_accepted (req))
goto err_reply;
actor = nfs_rpcsvc_program_actor (conn, req);
if (!actor)
goto err_reply;
if (!actor->vector_sizer) {
ret = -1;
nfs_rpcsvc_request_seterr (req, PROC_UNAVAIL);
goto err_reply;
}
nfs_rpcsvc_conn_ref (conn);
THIS = nfs_rpcsvc_request_actorxl (req);
ret = actor->vector_sizer (req, &remfrag, &newbuf);
nfs_rpcsvc_conn_unref (conn);
if (ret == RPCSVC_ACTOR_ERROR) {
ret = -1;
nfs_rpcsvc_request_seterr (req, SYSTEM_ERR);
goto err_reply;
}
rs->remainingfrag = remfrag;
rs->vecstate = RPCSVC_VECTOR_READPROCHDR;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC proc header remaining:"
" %d", rs->remainingfrag);
conn->vectoredreq = req;
/* Store the reference to the current frag pointer. This is where the
* proc header will be read into.
*/
req->msg.iov_base = rs->fragcurrent;
req->msg.iov_len = rs->remainingfrag;
ret = 0;
err_reply:
if (ret == -1)
ret = nfs_rpcsvc_error_reply (req);
/* No need to propagate error beyond this function since the reply
* has now been queued. */
ret = 0;
err:
return;
}
void
nfs_rpcsvc_update_vectored_verfsz (rpcsvc_conn_t *conn)
{
rpcsvc_record_state_t *rs = NULL;
uint32_t verflen = 0;
if (!conn)
return;
rs = &conn->rstate;
verflen = nfs_rpcsvc_call_verflen (rs);
rs->recordsize += 8;
if (verflen > 0) {
rs->remainingfrag = verflen;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC verf remaining: "
" %d", rs->remainingfrag);
rs->vecstate = RPCSVC_VECTOR_READVERF;
} else {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC preparing call");
nfs_rpcsvc_handle_vectored_prep_rpc_call (conn);
}
return;
}
void
nfs_rpcsvc_update_vectored_cred (rpcsvc_record_state_t *rs)
{
uint32_t credlen = 0;
if (!rs)
return;
credlen = nfs_rpcsvc_call_credlen (rs);
/* Update remainingfrag to read the 8 bytes needed for
* reading verf flavour and verf len.
*/
rs->remainingfrag = (2 * sizeof (uint32_t));
rs->vecstate = RPCSVC_VECTOR_READVERFSZ;
rs->recordsize += credlen;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC verfsz remaining: %d",
rs->remainingfrag);
return;
}
void
nfs_rpcsvc_update_vectored_barerpc (rpcsvc_record_state_t *rs)
{
uint32_t credlen = 0;
if (!rs)
return;
credlen = nfs_rpcsvc_call_credlen (rs);
rs->recordsize = RPCSVC_BARERPC_MSGSZ;
if (credlen == 0) {
rs->remainingfrag = 8;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC verfsz remaining"
": %d", rs->remainingfrag);
rs->vecstate = RPCSVC_VECTOR_READVERFSZ;
} else {
rs->remainingfrag = credlen;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC cred remaining: "
"%d", rs->remainingfrag);
rs->vecstate = RPCSVC_VECTOR_READCRED;
}
return;
}
void
nfs_rpcsvc_handle_vectored_rpc_call (rpcsvc_conn_t *conn)
{
rpcsvc_actor_t *actor = NULL;
rpcsvc_request_t *req = NULL;
rpcsvc_record_state_t *rs = NULL;
rpcsvc_t *svc = NULL;
int ret = -1;
ssize_t remfrag = -1;
int newbuf = 0;
if (!conn)
return;
rs = &conn->rstate;
req = conn->vectoredreq;
svc = nfs_rpcsvc_conn_rpcsvc (conn);
if (!req)
goto err;
actor = nfs_rpcsvc_program_actor (conn, req);
if (!actor)
goto err_reply;
if (!actor->vector_sizer) {
ret = -1;
nfs_rpcsvc_request_seterr (req, PROC_UNAVAIL);
goto err_reply;
}
req->msg.iov_len = (unsigned long)((long)rs->fragcurrent - (long)req->msg.iov_base);
nfs_rpcsvc_conn_ref (conn);
THIS = nfs_rpcsvc_request_actorxl (req);
ret = actor->vector_sizer (req, &remfrag, &newbuf);
nfs_rpcsvc_conn_unref (conn);
if (ret == RPCSVC_ACTOR_ERROR) {
ret = -1;
nfs_rpcsvc_request_seterr (req, SYSTEM_ERR);
goto err_reply;
}
if (newbuf) {
rs->vectoriob = iobuf_get (svc->ctx->iobuf_pool);
rs->fragcurrent = iobuf_ptr (rs->vectoriob);
rs->vecstate = RPCSVC_VECTOR_READVEC;
rs->remainingfrag = remfrag;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC buf remaining:"
" %d", rs->remainingfrag);
} else {
rs->remainingfrag = remfrag;
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC proc remaining:"
" %d", rs->remainingfrag);
}
ret = 0;
err_reply:
if (ret == -1)
ret = nfs_rpcsvc_error_reply (req);
/* No need to propagate error beyond this function since the reply
* has now been queued. */
ret = 0;
err:
return;
}
void
nfs_rpcsvc_record_vectored_call_actor (rpcsvc_conn_t *conn)
{
rpcsvc_actor_t *actor = NULL;
rpcsvc_request_t *req = NULL;
rpcsvc_record_state_t *rs = NULL;
rpcsvc_t *svc = NULL;
int ret = -1;
if (!conn)
return;
rs = &conn->rstate;
req = conn->vectoredreq;
svc = nfs_rpcsvc_conn_rpcsvc (conn);
if (!req)
goto err;
actor = nfs_rpcsvc_program_actor (conn, req);
if (!actor)
goto err_reply;
if (actor->vector_actor) {
nfs_rpcsvc_conn_ref (conn);
THIS = nfs_rpcsvc_request_actorxl (req);
ret = actor->vector_actor (req, rs->vectoriob);
} else {
nfs_rpcsvc_request_seterr (req, PROC_UNAVAIL);
gf_log (GF_RPCSVC, GF_LOG_ERROR, "No vectored handler present");
ret = RPCSVC_ACTOR_ERROR;
}
err_reply:
if (ret == RPCSVC_ACTOR_ERROR)
ret = nfs_rpcsvc_error_reply (req);
/* No need to propagate error beyond this function since the reply
* has now been queued. */
ret = 0;
err:
return;
}
ssize_t
nfs_rpcsvc_update_vectored_state (rpcsvc_conn_t *conn)
{
rpcsvc_record_state_t *rs = NULL;
rpcsvc_t *svc = NULL;
if (!conn)
return 0;
/* At this point, we can be confident that the activeiob contains
* exactly the first RPCSVC_BARERPC_MSGSZ bytes needed in order to
* determine the program and actor. So the next state will be
* to read the credentials.
*
* But first, try to determine how many more bytes do we need from the
* network to complete the RPC message including the credentials.
*/
rs = &conn->rstate;
if (nfs_rpcsvc_record_vectored_baremsg (rs))
nfs_rpcsvc_update_vectored_barerpc (rs);
else if (nfs_rpcsvc_record_vectored_cred (rs))
nfs_rpcsvc_update_vectored_cred (rs);
else if (nfs_rpcsvc_record_vectored_verfsz (rs))
nfs_rpcsvc_update_vectored_verfsz (conn);
else if (nfs_rpcsvc_record_vectored_verfread (rs)) {
nfs_rpcsvc_update_vectored_verf (rs);
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC preparing call");
nfs_rpcsvc_handle_vectored_prep_rpc_call (conn);
} else if (nfs_rpcsvc_record_vectored_readprochdr (rs))
nfs_rpcsvc_handle_vectored_rpc_call (conn);
else if (nfs_rpcsvc_record_vectored_ignore (rs)) {
svc = nfs_rpcsvc_conn_rpcsvc (conn);
nfs_rpcsvc_record_init (rs, svc->ctx->iobuf_pool);
} else if (nfs_rpcsvc_record_vectored_readvec (rs)) {
svc = nfs_rpcsvc_conn_rpcsvc (conn);
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored RPC vector read");
nfs_rpcsvc_record_vectored_call_actor (conn);
nfs_rpcsvc_record_init (rs, svc->ctx->iobuf_pool);
}
return 0;
}
ssize_t
nfs_rpcsvc_record_read_partial_frag (rpcsvc_record_state_t *rs,
ssize_t dataread);
ssize_t
nfs_rpcsvc_update_vectored_msg (rpcsvc_conn_t *conn, ssize_t dataread)
{
if (!conn)
return dataread;
/* find out how much of the bare msg is pending and set that up to be
* read into the updated fragcurrent along with the updated size into
* remainingfrag.
*/
/* Incidently, the logic needed here is similar to a regular partial
* fragment read since we've already set the remainingfrag member in
* rstate to be RPCSVC_BARERPC_MSGSZ for the purpose of a vectored
* fragment.
*/
return nfs_rpcsvc_record_read_partial_frag (&conn->rstate, dataread);
}
/* FIX: As a first version of vectored reading, I am assuming dataread will
* always be equal to RPCSVC_BARERPC_MSGSZ for the sake of simplicity on the
* belief that we're never actually reading more bytes than needed in each
* poll_in.
*/
ssize_t
nfs_rpcsvc_handle_vectored_frag (rpcsvc_conn_t *conn, ssize_t dataread)
{
if (!conn)
return dataread;
/* At this point we can be confident that only the frag size has been
* read from the network. Now it is up to us to have the remaining RPC
* fields given to us here.
*/
/* Since the poll_in handler uses the remainingfrag field to determine
* how much to read from the network, we'll hack this scheme to tell
* the poll_in to read at most RPCSVC_BARERPC_MSGSZ bytes. This is done
* to, as a first step, identify which (program, actor) we need to call.
*/
dataread = nfs_rpcsvc_update_vectored_msg (conn, dataread);
if (conn->rstate.remainingfrag == 0) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored frag complete");
dataread = nfs_rpcsvc_update_vectored_state (conn);
}
return dataread;
}
int
nfs_rpcsvc_record_update_state (rpcsvc_conn_t *conn, ssize_t dataread)
{
rpcsvc_record_state_t *rs = NULL;
rpcsvc_t *svc = NULL;
if (!conn)
return -1;
rs = &conn->rstate;
/* At entry into this function, fragcurrent will be pointing to the\
* start of the area into which dataread number of bytes were read.
*/
if (nfs_rpcsvc_record_readfraghdr(rs))
dataread = nfs_rpcsvc_record_update_fraghdr (rs, dataread);
if (nfs_rpcsvc_record_readfrag(rs)) {
/* The minimum needed for triggering the vectored handler is
* the frag size field. The fragsize member remains set to this
* size till this request is completely extracted from the
* network. Once all the data has been read from the network,
* the request structure would've been created. The point being
* that even if it takes multiple calls to network IO for
* getting the vectored fragment, we can continue to use this
* condition as the flag to tell us that this is a vectored
* fragment.
*/
if ((dataread > 0) && (nfs_rpcsvc_record_vectored (rs))) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Vectored frag");
dataread = nfs_rpcsvc_handle_vectored_frag (conn,
dataread);
} else if (dataread > 0) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Regular frag");
dataread = nfs_rpcsvc_record_update_frag (rs, dataread);
}
}
/* This should not happen. We are never reading more than the current
* fragment needs. Something is seriously wrong.
*/
if (dataread > 0) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Data Left: %zd", dataread);
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Unwanted data read from "
" connection.");
}
/* If we're now supposed to wait for a new fragment header and if the
* fragment that we just completed in the previous call to
* rpcsvc_record_update_frag was the last fragment for the current
* RPC record, then, it is time to perform the translation from
* XDR formatted buffer in activeiob followed by the upcall to the
* protocol actor.
*/
if ((nfs_rpcsvc_record_readfraghdr(rs)) && (rs->islastfrag)) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Full Record Received.");
nfs_rpcsvc_handle_rpc_call (conn);
svc = nfs_rpcsvc_conn_rpcsvc (conn);
nfs_rpcsvc_record_init (rs, svc->ctx->iobuf_pool);
}
return 0;
}
char *
nfs_rpcsvc_record_read_addr (rpcsvc_record_state_t *rs)
{
if (nfs_rpcsvc_record_readfraghdr (rs))
return nfs_rpcsvc_record_currenthdr_addr (rs);
else if (nfs_rpcsvc_record_readfrag (rs))
return nfs_rpcsvc_record_currentfrag_addr (rs);
return NULL;
}
int
nfs_rpcsvc_conn_data_poll_in (rpcsvc_conn_t *conn)
{
ssize_t dataread = -1;
size_t readsize = 0;
char *readaddr = NULL;
int ret = -1;
readaddr = nfs_rpcsvc_record_read_addr (&conn->rstate);
if (!readaddr)
goto err;
readsize = nfs_rpcsvc_record_read_size (&conn->rstate);
if (readsize == -1)
goto err;
dataread = nfs_rpcsvc_socket_read (conn->sockfd, readaddr, readsize);
gf_log (GF_RPCSVC, GF_LOG_TRACE, "conn: 0x%lx, readsize: %zu, dataread:"
"%zd", (long)conn, readsize, dataread);
if (dataread > 0)
ret = nfs_rpcsvc_record_update_state (conn, dataread);
err:
return ret;
}
int
nfs_rpcsvc_conn_data_poll_err (rpcsvc_conn_t *conn)
{
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Received error event");
nfs_rpcsvc_conn_deinit (conn);
return 0;
}
int
__nfs_rpcsvc_conn_data_poll_out (rpcsvc_conn_t *conn)
{
rpcsvc_txbuf_t *txbuf = NULL;
rpcsvc_txbuf_t *tmp = NULL;
ssize_t written = -1;
char *writeaddr = NULL;
size_t writesize = -1;
if (!conn)
return -1;
/* Attempt transmission of each of the pending buffers */
list_for_each_entry_safe (txbuf, tmp, &conn->txbufs, txlist) {
tx_remaining:
writeaddr = (char *)(txbuf->buf.iov_base + txbuf->offset);
writesize = (txbuf->buf.iov_len - txbuf->offset);
if (txbuf->txbehave & RPCSVC_TXB_FIRST) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "First Tx Buf");
nfs_rpcsvc_socket_block_tx (conn->sockfd);
}
written = nfs_rpcsvc_socket_write (conn->sockfd, writeaddr,
writesize);
if (txbuf->txbehave & RPCSVC_TXB_LAST) {
gf_log (GF_RPCSVC, GF_LOG_TRACE, "Last Tx Buf");
nfs_rpcsvc_socket_unblock_tx (conn->sockfd);
}
gf_log (GF_RPCSVC, GF_LOG_TRACE, "conn: 0x%lx, Tx request: %zu,"
" Tx sent: %zd", (long)conn, writesize, written);
/* There was an error transmitting this buffer */
if (written == -1)
break;
if (written >= 0)
txbuf->offset += written;
/* If the current buffer has been completely transmitted,
* delete it from the list and move on to the next buffer.
*/
if (txbuf->offset == txbuf->buf.iov_len) {
/* It doesnt matter who ref'ed this iobuf, rpcsvc for
* its own header or a RPC program.
*/
if (txbuf->iob)
iobuf_unref (txbuf->iob);
if (txbuf->iobref)
iobref_unref (txbuf->iobref);
list_del (&txbuf->txlist);
mem_put (conn->txpool, txbuf);
} else
/* If the current buffer is incompletely tx'd, do not
* go to the head of the loop, since that moves us to
* the next buffer.
*/
goto tx_remaining;
}
/* If we've broken out of the loop above then we must unblock
* the transmission now.
*/
nfs_rpcsvc_socket_unblock_tx (conn->sockfd);
if (list_empty (&conn->txbufs))
conn->eventidx = event_select_on (conn->stage->eventpool,
conn->sockfd, conn->eventidx,
-1, 0);
return 0;
}
int
nfs_rpcsvc_conn_data_poll_out (rpcsvc_conn_t *conn)
{
if (!conn)
return -1;
pthread_mutex_lock (&conn->connlock);
{
__nfs_rpcsvc_conn_data_poll_out (conn);
}
pthread_mutex_unlock (&conn->connlock);
return 0;
}
int
nfs_rpcsvc_conn_data_handler (int fd, int idx, void *data, int poll_in,
int poll_out, int poll_err)
{
rpcsvc_conn_t *conn = NULL;
int ret = 0;
if (!data)
return 0;
conn = (rpcsvc_conn_t *)data;
if (poll_out)
ret = nfs_rpcsvc_conn_data_poll_out (conn);
if (poll_err) {
ret = nfs_rpcsvc_conn_data_poll_err (conn);
return 0;
}
if (poll_in) {
ret = 0;
ret = nfs_rpcsvc_conn_data_poll_in (conn);
}
if (ret == -1)
nfs_rpcsvc_conn_data_poll_err (conn);
return 0;
}
int
nfs_rpcsvc_conn_listening_handler (int fd, int idx, void *data, int poll_in,
int poll_out, int poll_err)
{
rpcsvc_conn_t *newconn = NULL;
rpcsvc_stage_t *selectedstage = NULL;
int ret = -1;
rpcsvc_conn_t *conn = NULL;
rpcsvc_program_t *prog = NULL;
rpcsvc_t *svc = NULL;
if (!poll_in)
return 0;
conn = (rpcsvc_conn_t *)data;
prog = (rpcsvc_program_t *)conn->program;
svc = nfs_rpcsvc_conn_rpcsvc (conn);
newconn = nfs_rpcsvc_conn_accept_init (svc, fd, prog);
if (!newconn) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "failed to accept connection");
goto err;
}
selectedstage = nfs_rpcsvc_select_stage (svc);
if (!selectedstage)
goto close_err;
/* Now that we've accepted the connection, we need to associate
* its events to a stage.
*/
ret = nfs_rpcsvc_stage_conn_associate (selectedstage, newconn,
nfs_rpcsvc_conn_data_handler,
newconn);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "could not associated stage "
" with new connection");
goto close_err;
}
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "New Connection: Program %s, Num: %d,"
" Ver: %d, Port: %d", prog->progname, prog->prognum,
prog->progver, prog->progport);
ret = 0;
close_err:
if (ret == -1)
nfs_rpcsvc_conn_unref (newconn);
err:
return ret;
}
/* Register the program with the local portmapper service. */
int
nfs_rpcsvc_program_register_portmap (rpcsvc_program_t *newprog)
{
if (!newprog)
return -1;
if (!(pmap_set(newprog->prognum, newprog->progver, IPPROTO_TCP,
newprog->progport))) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Could not register with"
" portmap");
return -1;
}
return 0;
}
int
nfs_rpcsvc_program_unregister_portmap (rpcsvc_program_t *prog)
{
if (!prog)
return -1;
if (!(pmap_unset(prog->prognum, prog->progver))) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Could not unregister with"
" portmap");
return -1;
}
return 0;
}
int
nfs_rpcsvc_stage_program_register (rpcsvc_stage_t *stg,
rpcsvc_program_t *newprog)
{
rpcsvc_conn_t *newconn = NULL;
rpcsvc_t *svc = NULL;
if ((!stg) || (!newprog))
return -1;
svc = nfs_rpcsvc_stage_service (stg);
/* Create a listening socket */
newconn = nfs_rpcsvc_conn_listen_init (svc, newprog);
if (!newconn) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "could not create listening"
" connection");
return -1;
}
if ((nfs_rpcsvc_stage_conn_associate (stg, newconn,
nfs_rpcsvc_conn_listening_handler,
newconn)) == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR,"could not associate stage with"
" listening connection");
return -1;
}
return 0;
}
int
nfs_rpcsvc_program_register (rpcsvc_t *svc, rpcsvc_program_t program)
{
rpcsvc_program_t *newprog = NULL;
rpcsvc_stage_t *selectedstage = NULL;
int ret = -1;
if (!svc)
return -1;
newprog = GF_CALLOC (1, sizeof(*newprog),gf_common_mt_rpcsvc_program_t);
if (!newprog)
return -1;
if (!program.actors)
goto free_prog;
memcpy (newprog, &program, sizeof (program));
selectedstage = nfs_rpcsvc_select_stage (svc);
ret = nfs_rpcsvc_stage_program_register (selectedstage, newprog);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "stage registration of program"
" failed");
goto free_prog;
}
ret = nfs_rpcsvc_program_register_portmap (newprog);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "portmap registration of"
" program failed");
goto free_prog;
}
ret = 0;
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "New program registered: %s, Num: %d,"
" Ver: %d, Port: %d", newprog->progname, newprog->prognum,
newprog->progver, newprog->progport);
free_prog:
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Program registration failed:"
" %s, Num: %d, Ver: %d, Port: %d", newprog->progname,
newprog->prognum, newprog->progver, newprog->progport);
GF_FREE (newprog);
}
return ret;
}
/* The only difference between the generic submit and this one is that the
* generic submit is also used for submitting RPC error replies in where there
* are no payloads so the msgvec and msgbuf can be NULL.
* Since RPC programs should be using this function along with their payloads
* we must perform NULL checks before calling the generic submit.
*/
int
nfs_rpcsvc_submit_message (rpcsvc_request_t *req, struct iovec msgvec,
struct iobuf *msg)
{
if ((!req) || (!req->conn) || (!msg) || (!msgvec.iov_base))
return -1;
return nfs_rpcsvc_submit_generic (req, msgvec, msg);
}
int
nfs_rpcsvc_program_unregister (rpcsvc_t *svc, rpcsvc_program_t prog)
{
int ret = -1;
if (!svc)
return -1;
/* TODO: De-init the listening connection for this program. */
ret = nfs_rpcsvc_program_unregister_portmap (&prog);
if (ret == -1) {
gf_log (GF_RPCSVC, GF_LOG_ERROR, "portmap unregistration of"
" program failed");
goto err;
}
ret = 0;
gf_log (GF_RPCSVC, GF_LOG_DEBUG, "Program unregistered: %s, Num: %d,"
" Ver: %d, Port: %d", prog.progname, prog.prognum,
prog.progver, prog.progport);
err:
if (ret == -1)
gf_log (GF_RPCSVC, GF_LOG_ERROR, "Program unregistration failed"
": %s, Num: %d, Ver: %d, Port: %d", prog.progname,
prog.prognum, prog.progver, prog.progport);
return ret;
}
int
nfs_rpcsvc_conn_peername (rpcsvc_conn_t *conn, char *hostname, int hostlen)
{
if (!conn)
return -1;
return nfs_rpcsvc_socket_peername (conn->sockfd, hostname, hostlen);
}
int
nfs_rpcsvc_conn_peeraddr (rpcsvc_conn_t *conn, char *addrstr, int addrlen,
struct sockaddr *sa, socklen_t sasize)
{
if (!conn)
return -1;
return nfs_rpcsvc_socket_peeraddr (conn->sockfd, addrstr, addrlen, sa,
sasize);
}
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