mirror of
https://github.com/espressif/esp-idf.git
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579 lines
20 KiB
C
579 lines
20 KiB
C
/******************************************************************************
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*
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* Copyright (C) 1999-2012 Broadcom Corporation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at:
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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******************************************************************************/
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/******************************************************************************
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*
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* Port Emulation entity utilities
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*
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******************************************************************************/
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#include <string.h>
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#include "common/bt_target.h"
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#include "stack/rfcdefs.h"
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#include "stack/port_api.h"
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#include "port_int.h"
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#include "rfc_int.h"
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#include "stack/l2cdefs.h"
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#include "btm_int.h"
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#include "stack/btu.h"
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#include "osi/mutex.h"
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#include "osi/allocator.h"
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#if (defined RFCOMM_INCLUDED && RFCOMM_INCLUDED == TRUE)
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static const tPORT_STATE default_port_pars = {
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PORT_BAUD_RATE_9600,
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PORT_8_BITS,
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PORT_ONESTOPBIT,
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PORT_PARITY_NO,
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PORT_ODD_PARITY,
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PORT_FC_OFF,
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0, /* No rx_char */
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PORT_XON_DC1,
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PORT_XOFF_DC3,
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};
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/*******************************************************************************
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**
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** Function port_allocate_port
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**
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** Description Look through the Port Control Blocks for a free one. Note
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** that one server can open several ports with the same SCN
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** if it can support simulteneous requests from different
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** clients.
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**
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** Returns Pointer to the PORT or NULL if not found
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**
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*******************************************************************************/
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tPORT *port_allocate_port (UINT8 dlci, BD_ADDR bd_addr)
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{
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tPORT *p_port = &rfc_cb.port.port[0];
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UINT8 xx, yy;
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for (xx = 0, yy = rfc_cb.rfc.last_port + 1; xx < MAX_RFC_PORTS; xx++, yy++) {
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if (yy >= MAX_RFC_PORTS) {
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yy = 0;
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}
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p_port = &rfc_cb.port.port[yy];
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if (!p_port->in_use) {
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memset (p_port, 0, sizeof (tPORT));
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p_port->in_use = TRUE;
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p_port->inx = yy + 1;
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p_port->dlci = dlci;
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memcpy (p_port->bd_addr, bd_addr, BD_ADDR_LEN);
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/* During the open set default state for the port connection */
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port_set_defaults (p_port);
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rfc_cb.rfc.last_port = yy;
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RFCOMM_TRACE_DEBUG("rfc_cb.port.port[%d]:%p allocated, last_port:%d", yy, p_port, rfc_cb.rfc.last_port);
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RFCOMM_TRACE_DEBUG("port_allocate_port:bd_addr:%02x:%02x:%02x:%02x:%02x:%02x",
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bd_addr[0], bd_addr[1], bd_addr[2], bd_addr[3], bd_addr[4], bd_addr[5]);
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return (p_port);
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}
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}
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/* If here, no free PORT found */
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return (NULL);
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}
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/*******************************************************************************
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**
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** Function port_set_defaults
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**
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** Description Set defualt port parameters
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**
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**
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*******************************************************************************/
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void port_set_defaults (tPORT *p_port)
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{
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p_port->ev_mask = 0;
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p_port->p_callback = NULL;
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p_port->port_ctrl = 0;
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p_port->error = 0;
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p_port->line_status = 0;
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p_port->rx_flag_ev_pending = FALSE;
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p_port->peer_mtu = RFCOMM_DEFAULT_MTU;
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p_port->user_port_pars = default_port_pars;
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p_port->peer_port_pars = default_port_pars;
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p_port->credit_tx = 0;
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p_port->credit_rx = 0;
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/* p_port->credit_rx_max = PORT_CREDIT_RX_MAX; Determined later */
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/* p_port->credit_rx_low = PORT_CREDIT_RX_LOW; Determined later */
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memset (&p_port->local_ctrl, 0, sizeof (p_port->local_ctrl));
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memset (&p_port->peer_ctrl, 0, sizeof (p_port->peer_ctrl));
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memset (&p_port->rx, 0, sizeof (p_port->rx));
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memset (&p_port->tx, 0, sizeof (p_port->tx));
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p_port->tx.queue = fixed_queue_new(QUEUE_SIZE_MAX);
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p_port->rx.queue = fixed_queue_new(QUEUE_SIZE_MAX);
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}
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/*******************************************************************************
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**
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** Function port_select_mtu
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**
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** Description Select MTU which will best serve connection from our
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** point of view.
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** If our device is 1.2 or lower we calculate how many DH5s
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** fit into 1 RFCOMM buffer.
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**
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**
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*******************************************************************************/
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void port_select_mtu (tPORT *p_port)
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{
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UINT16 packet_size;
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/* Will select MTU only if application did not setup something */
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if (p_port->mtu == 0) {
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/* find packet size which connection supports */
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packet_size = btm_get_max_packet_size (p_port->bd_addr);
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if (packet_size == 0) {
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/* something is very wrong */
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RFCOMM_TRACE_WARNING ("port_select_mtu bad packet size");
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p_port->mtu = RFCOMM_DEFAULT_MTU;
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} else {
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/* We try to negotiate MTU that each packet can be split into whole
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number of max packets. For example if link is 1.2 max packet size is 339 bytes.
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At first calculate how many whole packets it is. MAX L2CAP is 1691 + 4 overhead.
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1695, that will be 5 Dh5 packets. Now maximum RFCOMM packet is
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5 * 339 = 1695. Minus 4 bytes L2CAP header 1691. Minus RFCOMM 6 bytes header overhead 1685
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For EDR 2.0 packet size is 1027. So we better send RFCOMM packet as 1 3DH5 packet
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1 * 1027 = 1027. Minus 4 bytes L2CAP header 1023. Minus RFCOMM 6 bytes header overhead 1017 */
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if ((L2CAP_MTU_SIZE + L2CAP_PKT_OVERHEAD) >= packet_size) {
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p_port->mtu = ((L2CAP_MTU_SIZE + L2CAP_PKT_OVERHEAD) / packet_size * packet_size) - RFCOMM_DATA_OVERHEAD - L2CAP_PKT_OVERHEAD;
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RFCOMM_TRACE_DEBUG ("port_select_mtu selected %d based on connection speed", p_port->mtu);
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} else {
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p_port->mtu = L2CAP_MTU_SIZE - RFCOMM_DATA_OVERHEAD;
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RFCOMM_TRACE_DEBUG ("port_select_mtu selected %d based on l2cap PDU size", p_port->mtu);
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}
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}
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} else {
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RFCOMM_TRACE_DEBUG ("port_select_mtu application selected %d", p_port->mtu);
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}
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p_port->credit_rx_max = (PORT_RX_HIGH_WM / p_port->mtu);
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if ( p_port->credit_rx_max > PORT_RX_BUF_HIGH_WM ) {
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p_port->credit_rx_max = PORT_RX_BUF_HIGH_WM;
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}
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p_port->credit_rx_low = (PORT_RX_LOW_WM / p_port->mtu);
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if ( p_port->credit_rx_low > PORT_RX_BUF_LOW_WM ) {
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p_port->credit_rx_low = PORT_RX_BUF_LOW_WM;
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}
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p_port->rx_buf_critical = (PORT_RX_CRITICAL_WM / p_port->mtu);
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if ( p_port->rx_buf_critical > PORT_RX_BUF_CRITICAL_WM ) {
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p_port->rx_buf_critical = PORT_RX_BUF_CRITICAL_WM;
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}
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RFCOMM_TRACE_DEBUG ("port_select_mtu credit_rx_max %d, credit_rx_low %d, rx_buf_critical %d",
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p_port->credit_rx_max, p_port->credit_rx_low, p_port->rx_buf_critical);
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}
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/*******************************************************************************
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**
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** Function port_release_port
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**
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** Description Release port infor control block.
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**
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** Returns Pointer to the PORT or NULL if not found
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**
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*******************************************************************************/
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void port_release_port (tPORT *p_port)
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{
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BT_HDR *p_buf;
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UINT32 mask;
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tPORT_CALLBACK *p_port_cb;
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tPORT_STATE user_port_pars;
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osi_mutex_global_lock();
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RFCOMM_TRACE_DEBUG("port_release_port, p_port:%p", p_port);
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if (p_port->rx.queue != NULL) {
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while ((p_buf = (BT_HDR *)fixed_queue_dequeue(p_port->rx.queue)) != NULL) {
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osi_free(p_buf);
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}
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}
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p_port->rx.queue_size = 0;
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if (p_port->tx.queue != NULL) {
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while ((p_buf = (BT_HDR *)fixed_queue_dequeue(p_port->tx.queue)) != NULL) {
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osi_free(p_buf);
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}
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}
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p_port->tx.queue_size = 0;
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osi_mutex_global_unlock();
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p_port->state = PORT_STATE_CLOSED;
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if (p_port->rfc.state == RFC_STATE_CLOSED) {
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RFCOMM_TRACE_DEBUG ("rfc_port_closed DONE");
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if (p_port->rfc.p_mcb) {
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p_port->rfc.p_mcb->port_inx[p_port->dlci] = 0;
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/* If there are no more ports opened on this MCB release it */
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rfc_check_mcb_active (p_port->rfc.p_mcb);
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}
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rfc_port_timer_stop (p_port);
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fixed_queue_free(p_port->tx.queue, NULL);
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p_port->tx.queue = NULL;
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fixed_queue_free(p_port->rx.queue, NULL);
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p_port->rx.queue = NULL;
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RFCOMM_TRACE_DEBUG ("port_release_port:p_port->keep_port_handle:%d", p_port->keep_port_handle);
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if ( p_port->keep_port_handle ) {
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RFCOMM_TRACE_DEBUG ("port_release_port:Initialize handle:%d", p_port->inx);
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/* save event mask and callback */
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mask = p_port->ev_mask;
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p_port_cb = p_port->p_callback;
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user_port_pars = p_port->user_port_pars;
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port_set_defaults(p_port);
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/* restore */
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p_port->ev_mask = mask;
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p_port->p_callback = p_port_cb;
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p_port->user_port_pars = user_port_pars;
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p_port->mtu = p_port->keep_mtu;
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p_port->state = PORT_STATE_OPENING;
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p_port->rfc.p_mcb = NULL;
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if (p_port->is_server) {
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p_port->dlci &= 0xfe;
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}
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p_port->local_ctrl.modem_signal = p_port->default_signal_state;
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memcpy (p_port->bd_addr, BT_BD_ANY, BD_ADDR_LEN);
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} else {
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RFCOMM_TRACE_DEBUG ("port_release_port:Clean-up handle:%d", p_port->inx);
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rfc_port_timer_free (p_port);
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memset (p_port, 0, sizeof (tPORT));
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}
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}
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}
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/*******************************************************************************
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**
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** Function port_find_mcb
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**
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** Description This function checks if connection exists to device with
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** the BD_ADDR.
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**
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*******************************************************************************/
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tRFC_MCB *port_find_mcb (BD_ADDR bd_addr)
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{
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int i;
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for (i = 0; i < MAX_BD_CONNECTIONS; i++) {
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if ((rfc_cb.port.rfc_mcb[i].state != RFC_MX_STATE_IDLE)
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&& !memcmp (rfc_cb.port.rfc_mcb[i].bd_addr, bd_addr, BD_ADDR_LEN)) {
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/* Multiplexer channel found do not change anything */
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RFCOMM_TRACE_DEBUG("port_find_mcb: found bd_addr:%02x:%02x:%02x:%02x:%02x:%02x",
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bd_addr[0], bd_addr[1], bd_addr[2], bd_addr[3], bd_addr[4], bd_addr[5]);
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RFCOMM_TRACE_DEBUG("port_find_mcb: rfc_cb.port.rfc_mcb:index:%d, %p, lcid:%d",
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i, &rfc_cb.port.rfc_mcb[i], rfc_cb.port.rfc_mcb[i].lcid);
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return (&rfc_cb.port.rfc_mcb[i]);
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}
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}
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RFCOMM_TRACE_DEBUG("port_find_mcb: not found, bd_addr:%02x:%02x:%02x:%02x:%02x:%02x",
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bd_addr[0], bd_addr[1], bd_addr[2], bd_addr[3], bd_addr[4], bd_addr[5]);
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return (NULL);
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}
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/*******************************************************************************
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**
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** Function port_find_mcb_dlci_port
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**
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** Description Find port on the multiplexer channel based on DLCI. If
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** this port with DLCI not found try to use even DLCI. This
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** is for the case when client is establishing connection on
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** none-initiator MCB.
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**
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** Returns Pointer to the PORT or NULL if not found
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**
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*******************************************************************************/
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tPORT *port_find_mcb_dlci_port (tRFC_MCB *p_mcb, UINT8 dlci)
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{
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UINT8 inx;
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if (!p_mcb) {
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return (NULL);
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}
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if (dlci > RFCOMM_MAX_DLCI) {
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return (NULL);
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}
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inx = p_mcb->port_inx[dlci];
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if (inx == 0) {
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RFCOMM_TRACE_DEBUG("port_find_mcb_dlci_port: p_mcb:%p, port_inx[dlci:%d] is 0", p_mcb, dlci);
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return (NULL);
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} else {
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return (&rfc_cb.port.port[inx - 1]);
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}
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}
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/*******************************************************************************
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**
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** Function port_find_dlci_port
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**
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** Description Find port with DLCI not assigned to multiplexer channel
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**
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** Returns Pointer to the PORT or NULL if not found
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**
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*******************************************************************************/
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tPORT *port_find_dlci_port (UINT8 dlci)
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{
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UINT16 i;
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tPORT *p_port;
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for (i = 0; i < MAX_RFC_PORTS; i++) {
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p_port = &rfc_cb.port.port[i];
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if (p_port->in_use && (p_port->rfc.p_mcb == NULL)) {
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if (p_port->dlci == dlci) {
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return (p_port);
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} else if ((dlci & 0x01) && (p_port->dlci == (dlci - 1))) {
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p_port->dlci++;
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return (p_port);
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}
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}
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}
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return (NULL);
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}
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/*******************************************************************************
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**
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** Function port_find_port
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**
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** Description Find port with DLCI, BD_ADDR
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**
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** Returns Pointer to the PORT or NULL if not found
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**
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*******************************************************************************/
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tPORT *port_find_port (UINT8 dlci, BD_ADDR bd_addr)
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{
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UINT16 i;
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tPORT *p_port;
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for (i = 0; i < MAX_RFC_PORTS; i++) {
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p_port = &rfc_cb.port.port[i];
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if (p_port->in_use
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&& (p_port->dlci == dlci)
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&& !memcmp (p_port->bd_addr, bd_addr, BD_ADDR_LEN)) {
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return (p_port);
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}
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}
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return (NULL);
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}
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/*******************************************************************************
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**
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** Function port_flow_control_user
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**
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** Description Check the current user flow control and if necessary return
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** events to be send to the user based on the user's specified
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** flow control type.
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**
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** Returns event mask to be returned to the application
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**
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*******************************************************************************/
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UINT32 port_flow_control_user (tPORT *p_port)
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{
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UINT32 event = 0;
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/* Flow control to the user can be caused by flow controlling by the peer */
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/* (FlowInd, or flow control by the peer RFCOMM (Fcon) or internally if */
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/* tx_queue is full */
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BOOLEAN fc = p_port->tx.peer_fc
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|| !p_port->rfc.p_mcb
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|| !p_port->rfc.p_mcb->peer_ready
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|| (p_port->tx.queue_size > PORT_TX_HIGH_WM)
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|| (fixed_queue_length(p_port->tx.queue) > PORT_TX_BUF_HIGH_WM);
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if (p_port->tx.user_fc == fc) {
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return (0);
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}
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p_port->tx.user_fc = fc;
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if (fc) {
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event = PORT_EV_FC;
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} else {
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event = PORT_EV_FC | PORT_EV_FCS;
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}
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return (event);
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}
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/*******************************************************************************
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**
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** Function port_get_signal_changes
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**
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** Description Check modem signals that has been changed
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**
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** Returns event mask to be returned to the application
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**
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*******************************************************************************/
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UINT32 port_get_signal_changes (tPORT *p_port, UINT8 old_signals, UINT8 signal)
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{
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UINT8 changed_signals = (signal ^ old_signals);
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UINT32 events = 0;
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if (changed_signals & PORT_DTRDSR_ON) {
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events |= PORT_EV_DSR;
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if (signal & PORT_DTRDSR_ON) {
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events |= PORT_EV_DSRS;
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}
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}
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if (changed_signals & PORT_CTSRTS_ON) {
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events |= PORT_EV_CTS;
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if (signal & PORT_CTSRTS_ON) {
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events |= PORT_EV_CTSS;
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}
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}
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if (changed_signals & PORT_RING_ON) {
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events |= PORT_EV_RING;
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}
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if (changed_signals & PORT_DCD_ON) {
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events |= PORT_EV_RLSD;
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if (signal & PORT_DCD_ON) {
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events |= PORT_EV_RLSDS;
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}
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}
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return (p_port->ev_mask & events);
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}
|
|
|
|
/*******************************************************************************
|
|
**
|
|
** Function port_flow_control_peer
|
|
**
|
|
** Description Send flow control messages to the peer for both enabling
|
|
** and disabling flow control, for both credit-based and
|
|
** TS 07.10 flow control mechanisms.
|
|
**
|
|
** Returns nothing
|
|
**
|
|
*******************************************************************************/
|
|
void port_flow_control_peer(tPORT *p_port, BOOLEAN enable, UINT16 count)
|
|
{
|
|
if (!p_port->rfc.p_mcb) {
|
|
return;
|
|
}
|
|
|
|
/* If using credit based flow control */
|
|
if (p_port->rfc.p_mcb->flow == PORT_FC_CREDIT) {
|
|
/* if want to enable flow from peer */
|
|
if (enable) {
|
|
/* update rx credits */
|
|
if (count > p_port->credit_rx) {
|
|
p_port->credit_rx = 0;
|
|
} else {
|
|
p_port->credit_rx -= count;
|
|
}
|
|
|
|
/* If credit count is less than low credit watermark, and user */
|
|
/* did not force flow control, send a credit update */
|
|
/* There might be a special case when we just adjusted rx_max */
|
|
if ((p_port->credit_rx <= p_port->credit_rx_low)
|
|
&& !p_port->rx.user_fc
|
|
&& (p_port->credit_rx_max > p_port->credit_rx)) {
|
|
rfc_send_credit(p_port->rfc.p_mcb, p_port->dlci,
|
|
(UINT8) (p_port->credit_rx_max - p_port->credit_rx));
|
|
RFCOMM_TRACE_DEBUG("send credit: max %d, rx %d, count %d", p_port->credit_rx_max, p_port->credit_rx,
|
|
count);
|
|
p_port->credit_rx = p_port->credit_rx_max;
|
|
|
|
p_port->rx.peer_fc = FALSE;
|
|
} else {
|
|
RFCOMM_TRACE_DEBUG("credit: max %d, rx %d, low %d", p_port->credit_rx_max, p_port->credit_rx,
|
|
p_port->credit_rx_low);
|
|
}
|
|
}
|
|
/* else want to disable flow from peer */
|
|
else {
|
|
/* if client registered data callback, just do what they want */
|
|
if (p_port->p_data_callback || p_port->p_data_co_callback) {
|
|
p_port->rx.peer_fc = TRUE;
|
|
}
|
|
/* if queue count reached credit rx max, set peer fc */
|
|
else if (fixed_queue_length(p_port->rx.queue) >= p_port->credit_rx_max) {
|
|
p_port->rx.peer_fc = TRUE;
|
|
}
|
|
}
|
|
}
|
|
/* else using TS 07.10 flow control */
|
|
else {
|
|
/* if want to enable flow from peer */
|
|
if (enable) {
|
|
/* If rfcomm suspended traffic from the peer based on the rx_queue_size */
|
|
/* check if it can be resumed now */
|
|
if (p_port->rx.peer_fc
|
|
&& (p_port->rx.queue_size < PORT_RX_LOW_WM)
|
|
&& (fixed_queue_length(p_port->rx.queue) < PORT_RX_BUF_LOW_WM)) {
|
|
p_port->rx.peer_fc = FALSE;
|
|
|
|
/* If user did not force flow control allow traffic now */
|
|
if (!p_port->rx.user_fc) {
|
|
RFCOMM_FlowReq (p_port->rfc.p_mcb, p_port->dlci, TRUE);
|
|
}
|
|
}
|
|
}
|
|
/* else want to disable flow from peer */
|
|
else {
|
|
/* if client registered data callback, just do what they want */
|
|
if (p_port->p_data_callback || p_port->p_data_co_callback) {
|
|
p_port->rx.peer_fc = TRUE;
|
|
RFCOMM_FlowReq (p_port->rfc.p_mcb, p_port->dlci, FALSE);
|
|
}
|
|
/* Check the size of the rx queue. If it exceeds certain */
|
|
/* level and flow control has not been sent to the peer do it now */
|
|
else if ( ((p_port->rx.queue_size > PORT_RX_HIGH_WM)
|
|
|| (fixed_queue_length(p_port->rx.queue) > PORT_RX_BUF_HIGH_WM))
|
|
&& !p_port->rx.peer_fc) {
|
|
RFCOMM_TRACE_EVENT ("PORT_DataInd Data reached HW. Sending FC set.");
|
|
|
|
p_port->rx.peer_fc = TRUE;
|
|
RFCOMM_FlowReq (p_port->rfc.p_mcb, p_port->dlci, FALSE);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
#endif ///(defined RFCOMM_INCLUDED && RFCOMM_INCLUDED == TRUE)
|