Esempio n. 1
0
int sp_smoothdelay_compute(sp_data *sp, sp_smoothdelay *p, SPFLOAT *in, SPFLOAT *out)
{
    *out = 0;
    if(p->del != p->pdel && p->counter == 0) {
        uint32_t dels = min((uint32_t)(p->del * sp->sr), p->maxbuf);

        /* initial delay time sets time for both buffers */

        if(p->pdel < 0) {
            p->deltime1 = dels;
            p->deltime2 = dels;
        }

        p->pdel = p->del;

        if(dels == 0) dels = 1;

        if(p->curbuf == 0) {
            p->curbuf = 1;
            p->deltime2 = dels;
        } else {
            p->curbuf = 0;
            p->deltime1 = dels;
        }
        p->counter = p->maxcount;
    }



    SPFLOAT *buf1 = (SPFLOAT *)p->buf1.ptr; 
    SPFLOAT *buf2 = (SPFLOAT *)p->buf2.ptr; 
    SPFLOAT it = (SPFLOAT)p->counter / p->maxcount;
    if(p->counter != 0) p->counter--;
  
    SPFLOAT del1 = delay_sig(buf1, &p->bufpos1, 
            p->deltime1, p->feedback, *in);

    SPFLOAT del2 = delay_sig(buf2, &p->bufpos2, 
            p->deltime2, p->feedback, *in);

    if(p->curbuf == 0) {
        /* 1 to 2 */
        *out = (del1 * it) + (del2 * (1 - it));
    } else {
        /* 2 to 1 */
        *out = (del2 * it) + (del1 * (1 - it));
    }
    return SP_OK;
}
Esempio n. 2
0
/* ARGSUSED */
static enum clnt_stat
clnt_rdma_kcallit(CLIENT *h, rpcproc_t procnum, xdrproc_t xdr_args,
    caddr_t argsp, xdrproc_t xdr_results, caddr_t resultsp,
    struct timeval wait)
{
	cku_private_t *p = htop(h);

	int 	try_call_again;
	int	refresh_attempt = AUTH_REFRESH_COUNT;
	int 	status;
	int 	msglen;

	XDR	*call_xdrp, callxdr; /* for xdrrdma encoding the RPC call */
	XDR	*reply_xdrp, replyxdr; /* for xdrrdma decoding the RPC reply */
	XDR 	*rdmahdr_o_xdrs, *rdmahdr_i_xdrs;

	struct rpc_msg 	reply_msg;
	rdma_registry_t	*m;

	struct clist *cl_sendlist;
	struct clist *cl_recvlist;
	struct clist *cl;
	struct clist *cl_rpcmsg;
	struct clist *cl_rdma_reply;
	struct clist *cl_rpcreply_wlist;
	struct clist *cl_long_reply;
	rdma_buf_t  rndup;

	uint_t vers;
	uint_t op;
	uint_t off;
	uint32_t seg_array_len;
	uint_t long_reply_len;
	uint_t rpcsec_gss;
	uint_t gss_i_or_p;

	CONN *conn = NULL;
	rdma_buf_t clmsg;
	rdma_buf_t rpcmsg;
	rdma_chunkinfo_lengths_t rcil;

	clock_t	ticks;
	bool_t wlist_exists_reply;

	uint32_t rdma_credit = rdma_bufs_rqst;

	RCSTAT_INCR(rccalls);

call_again:

	bzero(&clmsg, sizeof (clmsg));
	bzero(&rpcmsg, sizeof (rpcmsg));
	bzero(&rndup, sizeof (rndup));
	try_call_again = 0;
	cl_sendlist = NULL;
	cl_recvlist = NULL;
	cl = NULL;
	cl_rpcmsg = NULL;
	cl_rdma_reply = NULL;
	call_xdrp = NULL;
	reply_xdrp = NULL;
	wlist_exists_reply  = FALSE;
	cl_rpcreply_wlist = NULL;
	cl_long_reply = NULL;
	rcil.rcil_len = 0;
	rcil.rcil_len_alt = 0;
	long_reply_len = 0;

	rw_enter(&rdma_lock, RW_READER);
	m = (rdma_registry_t *)p->cku_rd_handle;
	if (m->r_mod_state == RDMA_MOD_INACTIVE) {
		/*
		 * If we didn't find a matching RDMA module in the registry
		 * then there is no transport.
		 */
		rw_exit(&rdma_lock);
		p->cku_err.re_status = RPC_CANTSEND;
		p->cku_err.re_errno = EIO;
		ticks = clnt_rdma_min_delay * drv_usectohz(1000000);
		if (h->cl_nosignal == TRUE) {
			delay(ticks);
		} else {
			if (delay_sig(ticks) == EINTR) {
				p->cku_err.re_status = RPC_INTR;
				p->cku_err.re_errno = EINTR;
			}
		}
		return (RPC_CANTSEND);
	}
	/*
	 * Get unique xid
	 */
	if (p->cku_xid == 0)
		p->cku_xid = alloc_xid();

	status = RDMA_GET_CONN(p->cku_rd_mod->rdma_ops, &p->cku_srcaddr,
	    &p->cku_addr, p->cku_addrfmly, p->cku_rd_handle, &conn);
	rw_exit(&rdma_lock);

	/*
	 * If there is a problem with the connection reflect the issue
	 * back to the higher level to address, we MAY delay for a short
	 * period so that we are kind to the transport.
	 */
	if (conn == NULL) {
		/*
		 * Connect failed to server. Could be because of one
		 * of several things. In some cases we don't want
		 * the caller to retry immediately - delay before
		 * returning to caller.
		 */
		switch (status) {
		case RDMA_TIMEDOUT:
			/*
			 * Already timed out. No need to delay
			 * some more.
			 */
			p->cku_err.re_status = RPC_TIMEDOUT;
			p->cku_err.re_errno = ETIMEDOUT;
			break;
		case RDMA_INTR:
			/*
			 * Failed because of an signal. Very likely
			 * the caller will not retry.
			 */
			p->cku_err.re_status = RPC_INTR;
			p->cku_err.re_errno = EINTR;
			break;
		default:
			/*
			 * All other failures - server down or service
			 * down or temporary resource failure. Delay before
			 * returning to caller.
			 */
			ticks = clnt_rdma_min_delay * drv_usectohz(1000000);
			p->cku_err.re_status = RPC_CANTCONNECT;
			p->cku_err.re_errno = EIO;

			if (h->cl_nosignal == TRUE) {
				delay(ticks);
			} else {
				if (delay_sig(ticks) == EINTR) {
					p->cku_err.re_status = RPC_INTR;
					p->cku_err.re_errno = EINTR;
				}
			}
			break;
		}

		return (p->cku_err.re_status);
	}

	if (p->cku_srcaddr.maxlen < conn->c_laddr.len) {
		if ((p->cku_srcaddr.maxlen != 0) &&
		    (p->cku_srcaddr.buf != NULL))
			kmem_free(p->cku_srcaddr.buf, p->cku_srcaddr.maxlen);
		p->cku_srcaddr.buf = kmem_zalloc(conn->c_laddr.maxlen,
		    KM_SLEEP);
		p->cku_srcaddr.maxlen = conn->c_laddr.maxlen;
	}

	p->cku_srcaddr.len = conn->c_laddr.len;
	bcopy(conn->c_laddr.buf, p->cku_srcaddr.buf, conn->c_laddr.len);

	clnt_check_credit(conn);

	status = CLNT_RDMA_FAIL;

	rpcsec_gss = gss_i_or_p = FALSE;

	if (IS_RPCSEC_GSS(h)) {
		rpcsec_gss = TRUE;
		if (rpc_gss_get_service_type(h->cl_auth) ==
		    rpc_gss_svc_integrity ||
		    rpc_gss_get_service_type(h->cl_auth) ==
		    rpc_gss_svc_privacy)
			gss_i_or_p = TRUE;
	}

	/*
	 * Try a regular RDMA message if RPCSEC_GSS is not being used
	 * or if RPCSEC_GSS is being used for authentication only.
	 */
	if (rpcsec_gss == FALSE ||
	    (rpcsec_gss == TRUE && gss_i_or_p == FALSE)) {
		/*
		 * Grab a send buffer for the request.  Try to
		 * encode it to see if it fits. If not, then it
		 * needs to be sent in a chunk.
		 */
		rpcmsg.type = SEND_BUFFER;
		if (rdma_buf_alloc(conn, &rpcmsg)) {
			DTRACE_PROBE(krpc__e__clntrdma__callit_nobufs);
			goto done;
		}

		/* First try to encode into regular send buffer */
		op = RDMA_MSG;

		call_xdrp = &callxdr;

		xdrrdma_create(call_xdrp, rpcmsg.addr, rpcmsg.len,
		    rdma_minchunk, NULL, XDR_ENCODE, conn);

		status = clnt_compose_rpcmsg(h, procnum, &rpcmsg, call_xdrp,
		    xdr_args, argsp);

		if (status != CLNT_RDMA_SUCCESS) {
			/* Clean up from previous encode attempt */
			rdma_buf_free(conn, &rpcmsg);
			XDR_DESTROY(call_xdrp);
		} else {
			XDR_CONTROL(call_xdrp, XDR_RDMA_GET_CHUNK_LEN, &rcil);
		}
	}

	/* If the encode didn't work, then try a NOMSG */
	if (status != CLNT_RDMA_SUCCESS) {

		msglen = CKU_HDRSIZE + BYTES_PER_XDR_UNIT + MAX_AUTH_BYTES +
		    xdr_sizeof(xdr_args, argsp);

		msglen = calc_length(msglen);

		/* pick up the lengths for the reply buffer needed */
		(void) xdrrdma_sizeof(xdr_args, argsp, 0,
		    &rcil.rcil_len, &rcil.rcil_len_alt);

		/*
		 * Construct a clist to describe the CHUNK_BUFFER
		 * for the rpcmsg.
		 */
		cl_rpcmsg = clist_alloc();
		cl_rpcmsg->c_len = msglen;
		cl_rpcmsg->rb_longbuf.type = RDMA_LONG_BUFFER;
		cl_rpcmsg->rb_longbuf.len = msglen;
		if (rdma_buf_alloc(conn, &cl_rpcmsg->rb_longbuf)) {
			clist_free(cl_rpcmsg);
			goto done;
		}
		cl_rpcmsg->w.c_saddr3 = cl_rpcmsg->rb_longbuf.addr;

		op = RDMA_NOMSG;
		call_xdrp = &callxdr;

		xdrrdma_create(call_xdrp, cl_rpcmsg->rb_longbuf.addr,
		    cl_rpcmsg->rb_longbuf.len, 0,
		    cl_rpcmsg, XDR_ENCODE, conn);

		status = clnt_compose_rpcmsg(h, procnum, &rpcmsg, call_xdrp,
		    xdr_args, argsp);

		if (status != CLNT_RDMA_SUCCESS) {
			p->cku_err.re_status = RPC_CANTENCODEARGS;
			p->cku_err.re_errno = EIO;
			DTRACE_PROBE(krpc__e__clntrdma__callit__composemsg);
			goto done;
		}
	}

	/*
	 * During the XDR_ENCODE we may have "allocated" an RDMA READ or
	 * RDMA WRITE clist.
	 *
	 * First pull the RDMA READ chunk list from the XDR private
	 * area to keep it handy.
	 */
	XDR_CONTROL(call_xdrp, XDR_RDMA_GET_RLIST, &cl);

	if (gss_i_or_p) {
		long_reply_len = rcil.rcil_len + rcil.rcil_len_alt;
		long_reply_len += MAX_AUTH_BYTES;
	} else {
		long_reply_len = rcil.rcil_len;
	}

	/*
	 * Update the chunk size information for the Long RPC msg.
	 */
	if (cl && op == RDMA_NOMSG)
		cl->c_len = p->cku_outsz;

	/*
	 * Prepare the RDMA header. On success xdrs will hold the result
	 * of xdrmem_create() for a SEND_BUFFER.
	 */
	status = clnt_compose_rdma_header(conn, h, &clmsg,
	    &rdmahdr_o_xdrs, &op);

	if (status != CLNT_RDMA_SUCCESS) {
		p->cku_err.re_status = RPC_CANTSEND;
		p->cku_err.re_errno = EIO;
		RCSTAT_INCR(rcnomem);
		DTRACE_PROBE(krpc__e__clntrdma__callit__nobufs2);
		goto done;
	}

	/*
	 * Now insert the RDMA READ list iff present
	 */
	status = clnt_setup_rlist(conn, rdmahdr_o_xdrs, call_xdrp);
	if (status != CLNT_RDMA_SUCCESS) {
		DTRACE_PROBE(krpc__e__clntrdma__callit__clistreg);
		rdma_buf_free(conn, &clmsg);
		p->cku_err.re_status = RPC_CANTSEND;
		p->cku_err.re_errno = EIO;
		goto done;
	}

	/*
	 * Setup RDMA WRITE chunk list for nfs read operation
	 * other operations will have a NULL which will result
	 * as a NULL list in the XDR stream.
	 */
	status = clnt_setup_wlist(conn, rdmahdr_o_xdrs, call_xdrp, &rndup);
	if (status != CLNT_RDMA_SUCCESS) {
		rdma_buf_free(conn, &clmsg);
		p->cku_err.re_status = RPC_CANTSEND;
		p->cku_err.re_errno = EIO;
		goto done;
	}

	/*
	 * If NULL call and RPCSEC_GSS, provide a chunk such that
	 * large responses can flow back to the client.
	 * If RPCSEC_GSS with integrity or privacy is in use, get chunk.
	 */
	if ((procnum == 0 && rpcsec_gss == TRUE) ||
	    (rpcsec_gss == TRUE && gss_i_or_p == TRUE))
		long_reply_len += 1024;

	status = clnt_setup_long_reply(conn, &cl_long_reply, long_reply_len);

	if (status != CLNT_RDMA_SUCCESS) {
		rdma_buf_free(conn, &clmsg);
		p->cku_err.re_status = RPC_CANTSEND;
		p->cku_err.re_errno = EIO;
		goto done;
	}

	/*
	 * XDR encode the RDMA_REPLY write chunk
	 */
	seg_array_len = (cl_long_reply ? 1 : 0);
	(void) xdr_encode_reply_wchunk(rdmahdr_o_xdrs, cl_long_reply,
	    seg_array_len);

	/*
	 * Construct a clist in "sendlist" that represents what we
	 * will push over the wire.
	 *
	 * Start with the RDMA header and clist (if any)
	 */
	clist_add(&cl_sendlist, 0, XDR_GETPOS(rdmahdr_o_xdrs), &clmsg.handle,
	    clmsg.addr, NULL, NULL);

	/*
	 * Put the RPC call message in  sendlist if small RPC
	 */
	if (op == RDMA_MSG) {
		clist_add(&cl_sendlist, 0, p->cku_outsz, &rpcmsg.handle,
		    rpcmsg.addr, NULL, NULL);
	} else {
		/* Long RPC already in chunk list */
		RCSTAT_INCR(rclongrpcs);
	}

	/*
	 * Set up a reply buffer ready for the reply
	 */
	status = rdma_clnt_postrecv(conn, p->cku_xid);
	if (status != RDMA_SUCCESS) {
		rdma_buf_free(conn, &clmsg);
		p->cku_err.re_status = RPC_CANTSEND;
		p->cku_err.re_errno = EIO;
		goto done;
	}

	/*
	 * sync the memory for dma
	 */
	if (cl != NULL) {
		status = clist_syncmem(conn, cl, CLIST_REG_SOURCE);
		if (status != RDMA_SUCCESS) {
			(void) rdma_clnt_postrecv_remove(conn, p->cku_xid);
			rdma_buf_free(conn, &clmsg);
			p->cku_err.re_status = RPC_CANTSEND;
			p->cku_err.re_errno = EIO;
			goto done;
		}
	}

	/*
	 * Send the RDMA Header and RPC call message to the server
	 */
	status = RDMA_SEND(conn, cl_sendlist, p->cku_xid);
	if (status != RDMA_SUCCESS) {
		(void) rdma_clnt_postrecv_remove(conn, p->cku_xid);
		p->cku_err.re_status = RPC_CANTSEND;
		p->cku_err.re_errno = EIO;
		goto done;
	}

	/*
	 * RDMA plugin now owns the send msg buffers.
	 * Clear them out and don't free them.
	 */
	clmsg.addr = NULL;
	if (rpcmsg.type == SEND_BUFFER)
		rpcmsg.addr = NULL;

	/*
	 * Recv rpc reply
	 */
	status = RDMA_RECV(conn, &cl_recvlist, p->cku_xid);

	/*
	 * Now check recv status
	 */
	if (status != 0) {
		if (status == RDMA_INTR) {
			p->cku_err.re_status = RPC_INTR;
			p->cku_err.re_errno = EINTR;
			RCSTAT_INCR(rcintrs);
		} else if (status == RPC_TIMEDOUT) {
			p->cku_err.re_status = RPC_TIMEDOUT;
			p->cku_err.re_errno = ETIMEDOUT;
			RCSTAT_INCR(rctimeouts);
		} else {
			p->cku_err.re_status = RPC_CANTRECV;
			p->cku_err.re_errno = EIO;
		}
		goto done;
	}

	/*
	 * Process the reply message.
	 *
	 * First the chunk list (if any)
	 */
	rdmahdr_i_xdrs = &(p->cku_inxdr);
	xdrmem_create(rdmahdr_i_xdrs,
	    (caddr_t)(uintptr_t)cl_recvlist->w.c_saddr3,
	    cl_recvlist->c_len, XDR_DECODE);

	/*
	 * Treat xid as opaque (xid is the first entity
	 * in the rpc rdma message).
	 * Skip xid and set the xdr position accordingly.
	 */
	XDR_SETPOS(rdmahdr_i_xdrs, sizeof (uint32_t));
	(void) xdr_u_int(rdmahdr_i_xdrs, &vers);
	(void) xdr_u_int(rdmahdr_i_xdrs, &rdma_credit);
	(void) xdr_u_int(rdmahdr_i_xdrs, &op);
	(void) xdr_do_clist(rdmahdr_i_xdrs, &cl);

	clnt_update_credit(conn, rdma_credit);

	wlist_exists_reply = FALSE;
	if (! xdr_decode_wlist(rdmahdr_i_xdrs, &cl_rpcreply_wlist,
	    &wlist_exists_reply)) {
		DTRACE_PROBE(krpc__e__clntrdma__callit__wlist_decode);
		p->cku_err.re_status = RPC_CANTDECODERES;
		p->cku_err.re_errno = EIO;
		goto done;
	}

	/*
	 * The server shouldn't have sent a RDMA_SEND that
	 * the client needs to RDMA_WRITE a reply back to
	 * the server.  So silently ignoring what the
	 * server returns in the rdma_reply section of the
	 * header.
	 */
	(void) xdr_decode_reply_wchunk(rdmahdr_i_xdrs, &cl_rdma_reply);
	off = xdr_getpos(rdmahdr_i_xdrs);

	clnt_decode_long_reply(conn, cl_long_reply,
	    cl_rdma_reply, &replyxdr, &reply_xdrp,
	    cl, cl_recvlist, op, off);

	if (reply_xdrp == NULL)
		goto done;

	if (wlist_exists_reply) {
		XDR_CONTROL(reply_xdrp, XDR_RDMA_SET_WLIST, cl_rpcreply_wlist);
	}

	reply_msg.rm_direction = REPLY;
	reply_msg.rm_reply.rp_stat = MSG_ACCEPTED;
	reply_msg.acpted_rply.ar_stat = SUCCESS;
	reply_msg.acpted_rply.ar_verf = _null_auth;

	/*
	 *  xdr_results will be done in AUTH_UNWRAP.
	 */
	reply_msg.acpted_rply.ar_results.where = NULL;
	reply_msg.acpted_rply.ar_results.proc = xdr_void;

	/*
	 * Decode and validate the response.
	 */
	if (xdr_replymsg(reply_xdrp, &reply_msg)) {
		enum clnt_stat re_status;

		_seterr_reply(&reply_msg, &(p->cku_err));

		re_status = p->cku_err.re_status;
		if (re_status == RPC_SUCCESS) {
			/*
			 * Reply is good, check auth.
			 */
			if (!AUTH_VALIDATE(h->cl_auth,
			    &reply_msg.acpted_rply.ar_verf)) {
				p->cku_err.re_status = RPC_AUTHERROR;
				p->cku_err.re_why = AUTH_INVALIDRESP;
				RCSTAT_INCR(rcbadverfs);
				DTRACE_PROBE(
				    krpc__e__clntrdma__callit__authvalidate);
			} else if (!AUTH_UNWRAP(h->cl_auth, reply_xdrp,
			    xdr_results, resultsp)) {
				p->cku_err.re_status = RPC_CANTDECODERES;
				p->cku_err.re_errno = EIO;
				DTRACE_PROBE(
				    krpc__e__clntrdma__callit__authunwrap);
			}
		} else {
			/* set errno in case we can't recover */
			if (re_status != RPC_VERSMISMATCH &&
			    re_status != RPC_AUTHERROR &&
			    re_status != RPC_PROGVERSMISMATCH)
				p->cku_err.re_errno = EIO;

			if (re_status == RPC_AUTHERROR) {
				if ((refresh_attempt > 0) &&
				    AUTH_REFRESH(h->cl_auth, &reply_msg,
				    p->cku_cred)) {
					refresh_attempt--;
					try_call_again = 1;
					goto done;
				}

				try_call_again = 0;

				/*
				 * We have used the client handle to
				 * do an AUTH_REFRESH and the RPC status may
				 * be set to RPC_SUCCESS; Let's make sure to
				 * set it to RPC_AUTHERROR.
				 */
				p->cku_err.re_status = RPC_AUTHERROR;

				/*
				 * Map recoverable and unrecoverable
				 * authentication errors to appropriate
				 * errno
				 */
				switch (p->cku_err.re_why) {
				case AUTH_BADCRED:
				case AUTH_BADVERF:
				case AUTH_INVALIDRESP:
				case AUTH_TOOWEAK:
				case AUTH_FAILED:
				case RPCSEC_GSS_NOCRED:
				case RPCSEC_GSS_FAILED:
					p->cku_err.re_errno = EACCES;
					break;
				case AUTH_REJECTEDCRED:
				case AUTH_REJECTEDVERF:
				default:
					p->cku_err.re_errno = EIO;
					break;
				}
			}
			DTRACE_PROBE1(krpc__e__clntrdma__callit__rpcfailed,
			    int, p->cku_err.re_why);
		}
	} else {