/****************************************************************************** * * Copyright 1999-2012 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /****************************************************************************** * * This module contains functions for port emulation entity and RFCOMM * communications * ******************************************************************************/ #include #include #include "osi/include/mutex.h" #include "osi/include/osi.h" #include "bt_common.h" #include "bt_target.h" #include "bt_utils.h" #include "btm_api.h" #include "port_api.h" #include "port_int.h" #include "rfc_int.h" #include "rfcdefs.h" /* * Local function definitions */ uint32_t port_rfc_send_tx_data(tPORT* p_port); void port_rfc_closed(tPORT* p_port, uint8_t res); void port_get_credits(tPORT* p_port, uint8_t k); /******************************************************************************* * * Function port_open_continue * * Description This function is called after security manager completes * required security checks. * * Returns void * ******************************************************************************/ int port_open_continue(tPORT* p_port) { RFCOMM_TRACE_EVENT("port_open_continue, p_port:%p", p_port); /* Check if multiplexer channel has already been established */ tRFC_MCB* p_mcb = rfc_alloc_multiplexer_channel(p_port->bd_addr, true); if (p_mcb == nullptr) { RFCOMM_TRACE_WARNING("port_open_continue no mx channel"); port_release_port(p_port); return (PORT_NO_RESOURCES); } p_port->rfc.p_mcb = p_mcb; p_mcb->port_handles[p_port->dlci] = p_port->handle; /* Connection is up and we know local and remote features, select MTU */ port_select_mtu(p_port); if (p_mcb->state == RFC_MX_STATE_CONNECTED) { RFCOMM_ParameterNegotiationRequest(p_mcb, p_port->dlci, p_port->mtu); } else if ((p_mcb->state == RFC_MX_STATE_IDLE) || (p_mcb->state == RFC_MX_STATE_DISC_WAIT_UA)) { // In RFC_MX_STATE_IDLE state, MX state machine will create connection // In RFC_MX_STATE_DISC_WAIT_UA state, MX state machine will recreate // connection after disconnecting is completed RFCOMM_StartReq(p_mcb); } else { // MX state machine ignores RFC_MX_EVENT_START_REQ in these states // When it enters RFC_MX_STATE_CONNECTED, it will check any openning ports RFCOMM_TRACE_DEBUG( "port_open_continue: mx state(%d) mx channel is openning", p_mcb->state); } return (PORT_SUCCESS); } /******************************************************************************* * * Function port_start_control * * Description This function is called in the BTU_TASK context to * send control information * * Returns void * ******************************************************************************/ void port_start_control(tPORT* p_port) { tRFC_MCB* p_mcb = p_port->rfc.p_mcb; if (p_mcb == NULL) return; RFCOMM_ControlReq(p_mcb, p_port->dlci, &p_port->local_ctrl); } /******************************************************************************* * * Function port_start_par_neg * * Description This function is called in the BTU_TASK context to * send configuration information * * Returns void * ******************************************************************************/ void port_start_par_neg(tPORT* p_port) { tRFC_MCB* p_mcb = p_port->rfc.p_mcb; if (p_mcb == NULL) return; RFCOMM_PortParameterNegotiationRequest(p_mcb, p_port->dlci, &p_port->user_port_pars); } /******************************************************************************* * * Function port_start_close * * Description This function is called in the BTU_TASK context to * release DLC * * Returns void * ******************************************************************************/ void port_start_close(tPORT* p_port) { tRFC_MCB* p_mcb = p_port->rfc.p_mcb; uint8_t old_signals; uint32_t events = 0; /* At first indicate to the user that signals on the connection were dropped */ p_port->line_status |= LINE_STATUS_FAILED; old_signals = p_port->peer_ctrl.modem_signal; p_port->peer_ctrl.modem_signal &= ~(PORT_DTRDSR_ON | PORT_CTSRTS_ON | PORT_DCD_ON); events |= port_get_signal_changes(p_port, old_signals, p_port->peer_ctrl.modem_signal); if (p_port->ev_mask & PORT_EV_CONNECT_ERR) events |= PORT_EV_CONNECT_ERR; if (p_port->ev_mask & PORT_EV_ERR) events |= PORT_EV_ERR; if ((p_port->p_callback != NULL) && events) p_port->p_callback(events, p_port->handle); /* Check if RFCOMM side has been closed while the message was queued */ if ((p_mcb == NULL) || (p_port->rfc.state == RFC_STATE_CLOSED)) { /* Call management callback function before calling port_release_port() to * clear tPort */ if (p_port->p_mgmt_callback) p_port->p_mgmt_callback(PORT_CLOSED, p_port->handle); port_release_port(p_port); } else { RFCOMM_DlcReleaseReq(p_mcb, p_port->dlci); } } /******************************************************************************* * * Function PORT_StartCnf * * Description This function is called from the RFCOMM layer when * establishing of the multiplexer channel is completed. * Continue establishing of the connection for all ports that * are in the OPENING state * ******************************************************************************/ void PORT_StartCnf(tRFC_MCB* p_mcb, uint16_t result) { bool no_ports_up = true; RFCOMM_TRACE_EVENT("%s: result %d", __func__, result); tPORT* p_port = &rfc_cb.port.port[0]; for (int i = 0; i < MAX_RFC_PORTS; i++, p_port++) { if (p_port->rfc.p_mcb == p_mcb) { no_ports_up = false; if (result == RFCOMM_SUCCESS) { RFCOMM_TRACE_EVENT("%s: dlci %d", __func__, p_port->dlci); RFCOMM_ParameterNegotiationRequest(p_mcb, p_port->dlci, p_port->mtu); } else { RFCOMM_TRACE_WARNING("%s: failed result:%d", __func__, result); /* Warning: result is also set to 4 when l2cap connection fails due to l2cap connect cnf (no_resources) */ if (result == HCI_ERR_PAGE_TIMEOUT) { p_port->error = PORT_PAGE_TIMEOUT; } else { p_port->error = PORT_START_FAILED; } rfc_release_multiplexer_channel(p_mcb); /* Send event to the application */ if (p_port->p_callback && (p_port->ev_mask & PORT_EV_CONNECT_ERR)) { (p_port->p_callback)(PORT_EV_CONNECT_ERR, p_port->handle); } if (p_port->p_mgmt_callback) { p_port->p_mgmt_callback(PORT_START_FAILED, p_port->handle); } port_release_port(p_port); } } } /* There can be a situation when after starting connection, user closes the */ /* port, we can catch it here to close multiplexor channel */ if (no_ports_up) { rfc_check_mcb_active(p_mcb); } } /******************************************************************************* * * Function PORT_StartInd * * Description This function is called from the RFCOMM layer when * some peer device wants to establish a multiplexer * connection. Check if there are any ports open with this * or not assigned multiplexer. * ******************************************************************************/ void PORT_StartInd(tRFC_MCB* p_mcb) { tPORT* p_port; int i; RFCOMM_TRACE_EVENT("PORT_StartInd"); p_port = &rfc_cb.port.port[0]; for (i = 0; i < MAX_RFC_PORTS; i++, p_port++) { if ((p_port->rfc.p_mcb == NULL) || (p_port->rfc.p_mcb == p_mcb)) { RFCOMM_TRACE_DEBUG( "PORT_StartInd, RFCOMM_StartRsp RFCOMM_SUCCESS: p_mcb:%p", p_mcb); RFCOMM_StartRsp(p_mcb, RFCOMM_SUCCESS); return; } } RFCOMM_StartRsp(p_mcb, RFCOMM_ERROR); } /******************************************************************************* * * Function PORT_ParNegInd * * Description This function is called from the RFCOMM layer to change * DLCI parameters (currently only MTU is negotiated). * If can not find the port do not accept the request. * Otherwise save the MTU size supported by the peer. * ******************************************************************************/ void PORT_ParNegInd(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu, uint8_t cl, uint8_t k) { RFCOMM_TRACE_EVENT("%s: bd_addr=%s, dlci=%d, mtu=%d", __func__, p_mcb->bd_addr.ToString().c_str(), dlci, mtu); tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); if (!p_port) { /* This can be a first request for this port */ p_port = port_find_dlci_port(dlci); if (!p_port) { LOG(ERROR) << __func__ << ": Disconnect RFCOMM, port not found, dlci=" << std::to_string(dlci) << ", p_mcb=" << p_mcb << ", bd_addr=" << p_mcb->bd_addr; /* If the port cannot be opened, send a DM. Per Errata 1205 */ rfc_send_dm(p_mcb, dlci, false); /* check if this is the last port open, some headsets have problem, they don't disconnect if we send DM */ rfc_check_mcb_active(p_mcb); return; } RFCOMM_TRACE_EVENT("%s: port_handles[dlci:%d]:%d->%d", __func__, dlci, p_mcb->port_handles[dlci], p_port->handle); p_mcb->port_handles[dlci] = p_port->handle; } p_port->bd_addr = p_mcb->bd_addr; /* Connection is up and we know local and remote features, select MTU */ port_select_mtu(p_port); p_port->rfc.p_mcb = p_mcb; p_port->mtu = (p_port->mtu < mtu) ? p_port->mtu : mtu; p_port->peer_mtu = p_port->mtu; /* Negotiate the flow control mechanism. If flow control mechanism for */ /* mux has not been set yet, set it now. If either we or peer wants TS 07.10, */ /* use that. Otherwise both must want credit based, so use that. If flow is */ /* already defined for this mux, we respond with that value. */ if (p_mcb->flow == PORT_FC_UNDEFINED) { if ((PORT_FC_DEFAULT == PORT_FC_TS710) || (cl == RFCOMM_PN_CONV_LAYER_TYPE_1)) { p_mcb->flow = PORT_FC_TS710; } else { p_mcb->flow = PORT_FC_CREDIT; } } /* Regardless of our flow control mechanism, if the PN cl is zero, we must */ /* respond with zero. "A responding implementation must set this field to 14 */ /* if (and only if) the PN request was 15." This could happen if a PN is sent */ /* after the DLCI is already established-- the PN in that case must have cl = * 0. */ /* See RFCOMM spec 5.5.3 */ uint8_t our_cl; uint8_t our_k; if (cl == RFCOMM_PN_CONV_LAYER_TYPE_1) { our_cl = RFCOMM_PN_CONV_LAYER_TYPE_1; our_k = 0; } else if (p_mcb->flow == PORT_FC_CREDIT) { /* get credits */ port_get_credits(p_port, k); /* Set convergence layer and number of credits (k) */ our_cl = RFCOMM_PN_CONV_LAYER_CBFC_R; our_k = (p_port->credit_rx_max < RFCOMM_K_MAX) ? p_port->credit_rx_max : RFCOMM_K_MAX; p_port->credit_rx = our_k; } else { /* must not be using credit based flow control; use TS 7.10 */ our_cl = RFCOMM_PN_CONV_LAYER_TYPE_1; our_k = 0; } RFCOMM_ParameterNegotiationResponse(p_mcb, dlci, p_port->mtu, our_cl, our_k); } /******************************************************************************* * * Function PORT_ParNegCnf * * Description This function is called from the RFCOMM layer to change * DLCI parameters (currently only MTU is negotiated). * Save the MTU size supported by the peer. * If the confirmation is received during the port opening * procedure send EstablishRequest to continue. * ******************************************************************************/ void PORT_ParNegCnf(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu, uint8_t cl, uint8_t k) { RFCOMM_TRACE_EVENT("PORT_ParNegCnf dlci:%d mtu:%d cl: %d k: %d", dlci, mtu, cl, k); tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); if (!p_port) { LOG(WARNING) << __func__ << ": port is null for " << p_mcb->bd_addr; return; } /* Flow control mechanism not set yet. Negotiate flow control mechanism. */ if (p_mcb->flow == PORT_FC_UNDEFINED) { /* Our stack is configured for TS07.10 and they responded with credit-based. */ /* This is illegal-- negotiation fails. */ if ((PORT_FC_DEFAULT == PORT_FC_TS710) && (cl == RFCOMM_PN_CONV_LAYER_CBFC_R)) { RFCOMM_TRACE_WARNING("%s, negotiation fails, index=%d", __func__, p_port->handle); rfc_send_disc(p_mcb, p_port->dlci); rfc_port_closed(p_port); return; } else if (cl == RFCOMM_PN_CONV_LAYER_CBFC_R) { // Our stack is configured for credit-based and they responded with // credit-based. p_mcb->flow = PORT_FC_CREDIT; } else { // They responded with any other value. Treat this as negotiation to // TS07.10. p_mcb->flow = PORT_FC_TS710; } } /* If mux flow control mechanism set, we honor that setting regardless of */ /* the CL value in their response. This allows us to gracefully accept any */ /* illegal PN negotiation scenarios. */ p_port->mtu = (p_port->mtu < mtu) ? p_port->mtu : mtu; p_port->peer_mtu = p_port->mtu; if (p_mcb->flow == PORT_FC_CREDIT) { port_get_credits(p_port, k); } if (p_port->state == PORT_STATE_OPENING) RFCOMM_DlcEstablishReq(p_mcb, p_port->dlci, p_port->mtu); } /******************************************************************************* * * Function PORT_DlcEstablishInd * * Description This function is called from the RFCOMM layer when peer * device wants to establish a new DLC. If this is not the * first message in the establishment procedure port_handle * has a handle to the port control block otherwise the control * block should be found based on the muliplexer channel and * dlci. The block should be allocated allocated before * meaning that application already made open. * ******************************************************************************/ void PORT_DlcEstablishInd(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); RFCOMM_TRACE_DEBUG( "PORT_DlcEstablishInd p_mcb:%p, dlci:%d mtu:%di, p_port:%p", p_mcb, dlci, mtu, p_port); VLOG(1) << __func__ << " p_mcb addr:" << p_mcb->bd_addr; if (!p_port) { /* This can be a first request for this port */ p_port = port_find_dlci_port(dlci); if (!p_port) { RFCOMM_DlcEstablishRsp(p_mcb, dlci, 0, RFCOMM_ERROR); return; } p_mcb->port_handles[dlci] = p_port->handle; } /* If L2CAP's mtu less then RFCOMM's take it */ if (mtu && (mtu < p_port->peer_mtu)) p_port->peer_mtu = mtu; /* If there was an inactivity timer running for MCB stop it */ rfc_timer_stop(p_mcb); RFCOMM_DlcEstablishRsp(p_mcb, dlci, p_port->mtu, RFCOMM_SUCCESS); /* This is the server side. If application wants to know when connection */ /* is established, thats the place */ if (p_port->p_callback && (p_port->ev_mask & PORT_EV_CONNECTED)) (p_port->p_callback)(PORT_EV_CONNECTED, p_port->handle); if (p_port->p_mgmt_callback) p_port->p_mgmt_callback(PORT_SUCCESS, p_port->handle); p_port->state = PORT_STATE_OPENED; } /******************************************************************************* * * Function PORT_DlcEstablishCnf * * Description This function is called from the RFCOMM layer when peer * acknowledges establish procedure (SABME/UA). Send reply * to the user and set state to OPENED if result was * successfull. * ******************************************************************************/ void PORT_DlcEstablishCnf(tRFC_MCB* p_mcb, uint8_t dlci, uint16_t mtu, uint16_t result) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); RFCOMM_TRACE_EVENT("PORT_DlcEstablishCnf dlci:%d mtu:%d result:%d", dlci, mtu, result); if (!p_port) return; if (result != RFCOMM_SUCCESS) { p_port->error = PORT_START_FAILED; port_rfc_closed(p_port, PORT_START_FAILED); return; } /* If L2CAP's mtu less then RFCOMM's take it */ if (mtu && (mtu < p_port->peer_mtu)) p_port->peer_mtu = mtu; /* If there was an inactivity timer running for MCB stop it */ rfc_timer_stop(p_mcb); if (p_port->p_callback && (p_port->ev_mask & PORT_EV_CONNECTED)) (p_port->p_callback)(PORT_EV_CONNECTED, p_port->handle); if (p_port->p_mgmt_callback) p_port->p_mgmt_callback(PORT_SUCCESS, p_port->handle); p_port->state = PORT_STATE_OPENED; /* RPN is required only if we want to tell DTE how the port should be opened */ if ((p_port->uuid == UUID_SERVCLASS_DIALUP_NETWORKING) || (p_port->uuid == UUID_SERVCLASS_FAX)) RFCOMM_PortParameterNegotiationRequest(p_port->rfc.p_mcb, p_port->dlci, NULL); else RFCOMM_ControlReq(p_port->rfc.p_mcb, p_port->dlci, &p_port->local_ctrl); } /******************************************************************************* * * Function PORT_PortNegInd * * Description This function is called from the RFCOMM layer when peer * device wants to set parameters of the port. As per the spec * this message has to be sent before the first data packet * and can be sent before establish. The block should be * allocated before meaning that application already made open. * ******************************************************************************/ void PORT_PortNegInd(tRFC_MCB* p_mcb, uint8_t dlci, tPORT_STATE* p_pars, uint16_t param_mask) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); RFCOMM_TRACE_EVENT("PORT_PortNegInd"); if (!p_port) { /* This can be a first request for this port */ p_port = port_find_dlci_port(dlci); if (!p_port) { RFCOMM_PortParameterNegotiationResponse(p_mcb, dlci, p_pars, 0); return; } p_mcb->port_handles[dlci] = p_port->handle; } /* Check if the flow control is acceptable on local side */ p_port->peer_port_pars = *p_pars; RFCOMM_PortParameterNegotiationResponse(p_mcb, dlci, p_pars, param_mask); } /******************************************************************************* * * Function PORT_PortNegCnf * * Description This function is called from the RFCOMM layer to change * state for the port. Propagate change to the user. * ******************************************************************************/ void PORT_PortNegCnf(tRFC_MCB* p_mcb, uint8_t dlci, UNUSED_ATTR tPORT_STATE* p_pars, uint16_t result) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); RFCOMM_TRACE_EVENT("PORT_PortNegCnf"); if (!p_port) { RFCOMM_TRACE_WARNING("PORT_PortNegCnf no port"); return; } /* Port negotiation failed. Drop the connection */ if (result != RFCOMM_SUCCESS) { p_port->error = PORT_PORT_NEG_FAILED; RFCOMM_DlcReleaseReq(p_mcb, p_port->dlci); port_rfc_closed(p_port, PORT_PORT_NEG_FAILED); return; } if (!(p_port->port_ctrl & PORT_CTRL_REQ_SENT)) { RFCOMM_ControlReq(p_port->rfc.p_mcb, p_port->dlci, &p_port->local_ctrl); } else { RFCOMM_TRACE_WARNING("PORT_PortNegCnf Control Already sent"); } } /******************************************************************************* * * Function PORT_ControlInd * * Description This function is called from the RFCOMM layer on the modem * signal change. Propagate change to the user. * ******************************************************************************/ void PORT_ControlInd(tRFC_MCB* p_mcb, uint8_t dlci, tPORT_CTRL* p_pars) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); uint32_t event; uint8_t old_signals; RFCOMM_TRACE_EVENT("PORT_ControlInd"); if (!p_port) return; old_signals = p_port->peer_ctrl.modem_signal; event = port_get_signal_changes(p_port, old_signals, p_pars->modem_signal); p_port->peer_ctrl = *p_pars; if (!(p_port->port_ctrl & PORT_CTRL_REQ_SENT)) { RFCOMM_ControlReq(p_port->rfc.p_mcb, p_port->dlci, &p_port->local_ctrl); } else { /* If this is the first time we received control RFCOMM is connected */ if (!(p_port->port_ctrl & PORT_CTRL_IND_RECEIVED)) { event |= (PORT_EV_CONNECTED & p_port->ev_mask); } if (p_port->port_ctrl & PORT_CTRL_REQ_CONFIRMED) { event |= port_rfc_send_tx_data(p_port); } } p_port->port_ctrl |= (PORT_CTRL_IND_RECEIVED | PORT_CTRL_IND_RESPONDED); if (p_pars->break_signal) event |= (PORT_EV_BREAK & p_port->ev_mask); /* execute call back function only if the application is registered for events */ if (event && p_port->p_callback) (p_port->p_callback)(event, p_port->handle); RFCOMM_TRACE_EVENT( "PORT_ControlInd DTR_DSR : %d, RTS_CTS : %d, RI : %d, DCD : %d", ((p_port->peer_ctrl.modem_signal & MODEM_SIGNAL_DTRDSR) ? 1 : 0), ((p_port->peer_ctrl.modem_signal & MODEM_SIGNAL_RTSCTS) ? 1 : 0), ((p_port->peer_ctrl.modem_signal & MODEM_SIGNAL_RI) ? 1 : 0), ((p_port->peer_ctrl.modem_signal & MODEM_SIGNAL_DCD) ? 1 : 0)); } /******************************************************************************* * * Function PORT_ControlCnf * * Description This function is called from the RFCOMM layer when * peer acknowleges change of the modem signals. * ******************************************************************************/ void PORT_ControlCnf(tRFC_MCB* p_mcb, uint8_t dlci, UNUSED_ATTR tPORT_CTRL* p_pars) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); uint32_t event = 0; RFCOMM_TRACE_EVENT("PORT_ControlCnf"); if (!p_port) return; if (!(p_port->port_ctrl & PORT_CTRL_REQ_CONFIRMED)) { p_port->port_ctrl |= PORT_CTRL_REQ_CONFIRMED; if (p_port->port_ctrl & PORT_CTRL_IND_RECEIVED) event = (p_port->ev_mask & PORT_EV_CONNECTED); } if (p_port->port_ctrl & PORT_CTRL_IND_RECEIVED) { event |= port_rfc_send_tx_data(p_port); } /* execute call back function only if the application is registered for events */ if (event && p_port->p_callback) (p_port->p_callback)(event, p_port->handle); } /******************************************************************************* * * Function PORT_LineStatusInd * * Description This function is called from the RFCOMM layer when * peer indicates change in the line status * ******************************************************************************/ void PORT_LineStatusInd(tRFC_MCB* p_mcb, uint8_t dlci, uint8_t line_status) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); uint32_t event = 0; RFCOMM_TRACE_EVENT("PORT_LineStatusInd"); if (!p_port) return; p_port->line_status |= line_status; if (line_status & PORT_ERR_OVERRUN) event |= PORT_EV_OVERRUN; if (line_status & PORT_ERR_BREAK) event |= PORT_EV_BREAK; if (line_status & ~(PORT_ERR_OVERRUN | PORT_ERR_BREAK)) event |= PORT_EV_ERR; if ((p_port->p_callback != NULL) && (p_port->ev_mask & event)) p_port->p_callback((p_port->ev_mask & event), p_port->handle); } /******************************************************************************* * * Function PORT_DlcReleaseInd * * Description This function is called from the RFCOMM layer when * DLC connection is released. * ******************************************************************************/ void PORT_DlcReleaseInd(tRFC_MCB* p_mcb, uint8_t dlci) { VLOG(1) << __func__ << ": dlci=" << std::to_string(dlci) << ", bd_addr=" << p_mcb->bd_addr; tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); if (!p_port) return; port_rfc_closed(p_port, PORT_CLOSED); } /******************************************************************************* * * Function PORT_CloseInd * * Description This function is called from the RFCOMM layer when * multiplexer connection is released. * ******************************************************************************/ void PORT_CloseInd(tRFC_MCB* p_mcb) { tPORT* p_port; int i; RFCOMM_TRACE_EVENT("PORT_CloseInd"); p_port = &rfc_cb.port.port[0]; for (i = 0; i < MAX_RFC_PORTS; i++, p_port++) { if (p_port->rfc.p_mcb == p_mcb) { port_rfc_closed(p_port, PORT_PEER_CONNECTION_FAILED); } } rfc_release_multiplexer_channel(p_mcb); } /******************************************************************************* * * Function Port_TimeOutCloseMux * * Description This function is called when RFCOMM timesout on a command * as a result multiplexer connection is closed. * ******************************************************************************/ void Port_TimeOutCloseMux(tRFC_MCB* p_mcb) { tPORT* p_port; int i; RFCOMM_TRACE_EVENT("Port_TimeOutCloseMux"); p_port = &rfc_cb.port.port[0]; for (i = 0; i < MAX_RFC_PORTS; i++, p_port++) { if (p_port->rfc.p_mcb == p_mcb) { port_rfc_closed(p_port, PORT_PEER_TIMEOUT); } } } /******************************************************************************* * * Function PORT_DataInd * * Description This function is called from the RFCOMM layer when data * buffer is received from the peer. * ******************************************************************************/ void PORT_DataInd(tRFC_MCB* p_mcb, uint8_t dlci, BT_HDR* p_buf) { tPORT* p_port = port_find_mcb_dlci_port(p_mcb, dlci); uint8_t rx_char1; uint32_t events = 0; uint8_t* p; int i; RFCOMM_TRACE_EVENT( "PORT_DataInd with data length %d, p_mcb:%p,p_port:%p,dlci:%d", p_buf->len, p_mcb, p_port, dlci); if (!p_port) { osi_free(p_buf); return; } /* If client registered callout callback with flow control we can just deliver * receive data */ if (p_port->p_data_co_callback) { /* Another packet is delivered to user. Send credits to peer if required */ if (p_port->p_data_co_callback(p_port->handle, (uint8_t*)p_buf, -1, DATA_CO_CALLBACK_TYPE_INCOMING)) { port_flow_control_peer(p_port, true, 1); } else { port_flow_control_peer(p_port, false, 0); } // osi_free(p_buf); return; } /* If client registered callback we can just deliver receive data */ if (p_port->p_data_callback) { /* Another packet is delivered to user. Send credits to peer if required */ port_flow_control_peer(p_port, true, 1); p_port->p_data_callback(p_port->handle, (uint8_t*)(p_buf + 1) + p_buf->offset, p_buf->len); osi_free(p_buf); return; } /* Check if rx queue exceeds the limit */ if ((p_port->rx.queue_size + p_buf->len > PORT_RX_CRITICAL_WM) || (fixed_queue_length(p_port->rx.queue) + 1 > p_port->rx_buf_critical)) { RFCOMM_TRACE_EVENT("PORT_DataInd. Buffer over run. Dropping the buffer"); osi_free(p_buf); RFCOMM_LineStatusReq(p_mcb, dlci, LINE_STATUS_OVERRUN); return; } /* If user registered to receive notification when a particular byte is */ /* received we mast check all received bytes */ if (((rx_char1 = p_port->user_port_pars.rx_char1) != 0) && (p_port->ev_mask & PORT_EV_RXFLAG)) { for (i = 0, p = (uint8_t*)(p_buf + 1) + p_buf->offset; i < p_buf->len; i++) { if (*p++ == rx_char1) { events |= PORT_EV_RXFLAG; break; } } } mutex_global_lock(); fixed_queue_enqueue(p_port->rx.queue, p_buf); p_port->rx.queue_size += p_buf->len; mutex_global_unlock(); /* perform flow control procedures if necessary */ port_flow_control_peer(p_port, false, 0); /* If user indicated flow control can not deliver any notifications to them */ if (p_port->rx.user_fc) { if (events & PORT_EV_RXFLAG) { p_port->rx_flag_ev_pending = true; } return; } events |= PORT_EV_RXCHAR; /* Mask out all events that are not of interest to user */ events &= p_port->ev_mask; if (p_port->p_callback && events) p_port->p_callback(events, p_port->handle); } /******************************************************************************* * * Function PORT_FlowInd * * Description This function is called from the RFCOMM layer on the flow * control signal change. Propagate change to the user. * ******************************************************************************/ void PORT_FlowInd(tRFC_MCB* p_mcb, uint8_t dlci, bool enable_data) { tPORT* p_port = (tPORT*)NULL; uint32_t events = 0; int i; RFCOMM_TRACE_EVENT("PORT_FlowInd fc:%d", enable_data); if (dlci == 0) { p_mcb->peer_ready = enable_data; } else { p_port = port_find_mcb_dlci_port(p_mcb, dlci); if (p_port == NULL) return; p_port->tx.peer_fc = !enable_data; } for (i = 0; i < MAX_RFC_PORTS; i++) { /* If DLCI is 0 event applies to all ports */ if (dlci == 0) { p_port = &rfc_cb.port.port[i]; if (!p_port->in_use || (p_port->rfc.p_mcb != p_mcb) || (p_port->rfc.state != RFC_STATE_OPENED)) continue; } events = 0; /* Check if flow of data is still enabled */ events |= port_flow_control_user(p_port); /* Check if data can be sent and send it */ events |= port_rfc_send_tx_data(p_port); /* Mask out all events that are not of interest to user */ events &= p_port->ev_mask; /* Send event to the application */ if (p_port->p_callback && events) (p_port->p_callback)(events, p_port->handle); /* If DLCI is not 0 event applies to one port only */ if (dlci != 0) break; } } /******************************************************************************* * * Function port_rfc_send_tx_data * * Description This function is when forward data can be sent to the peer * ******************************************************************************/ uint32_t port_rfc_send_tx_data(tPORT* p_port) { uint32_t events = 0; BT_HDR* p_buf; /* if there is data to be sent */ if (p_port->tx.queue_size > 0) { /* while the rfcomm peer is not flow controlling us, and peer is ready */ while (!p_port->tx.peer_fc && p_port->rfc.p_mcb && p_port->rfc.p_mcb->peer_ready) { /* get data from tx queue and send it */ mutex_global_lock(); p_buf = (BT_HDR*)fixed_queue_try_dequeue(p_port->tx.queue); if (p_buf != NULL) { p_port->tx.queue_size -= p_buf->len; mutex_global_unlock(); RFCOMM_TRACE_DEBUG("Sending RFCOMM_DataReq tx.queue_size=%d", p_port->tx.queue_size); RFCOMM_DataReq(p_port->rfc.p_mcb, p_port->dlci, p_buf); events |= PORT_EV_TXCHAR; if (p_port->tx.queue_size == 0) { events |= PORT_EV_TXEMPTY; break; } } /* queue is empty-- all data sent */ else { mutex_global_unlock(); events |= PORT_EV_TXEMPTY; break; } } /* If we flow controlled user based on the queue size enable data again */ events |= port_flow_control_user(p_port); } return (events & p_port->ev_mask); } /******************************************************************************* * * Function port_rfc_closed * * Description Called when RFCOMM port is closed * ******************************************************************************/ void port_rfc_closed(tPORT* p_port, uint8_t res) { uint8_t old_signals; uint32_t events = 0; tRFC_MCB* p_mcb = p_port->rfc.p_mcb; if ((p_port->state == PORT_STATE_OPENING) && (p_port->is_server)) { /* The server side was not informed that connection is up, ignore */ RFCOMM_TRACE_WARNING("port_rfc_closed in OPENING state ignored"); rfc_port_timer_stop(p_port); p_port->rfc.state = RFC_STATE_CLOSED; if (p_mcb) { p_mcb->port_handles[p_port->dlci] = 0; /* If there are no more ports opened on this MCB release it */ rfc_check_mcb_active(p_mcb); p_port->rfc.p_mcb = NULL; } /* Need to restore DLCI to listening state * if the server was on the initiating RFC */ p_port->dlci &= 0xfe; return; } if ((p_port->state != PORT_STATE_CLOSING) && (p_port->state != PORT_STATE_CLOSED)) { p_port->line_status |= LINE_STATUS_FAILED; old_signals = p_port->peer_ctrl.modem_signal; p_port->peer_ctrl.modem_signal &= ~(PORT_DTRDSR_ON | PORT_CTSRTS_ON | PORT_DCD_ON); events |= port_get_signal_changes(p_port, old_signals, p_port->peer_ctrl.modem_signal); if (p_port->ev_mask & PORT_EV_CONNECT_ERR) events |= PORT_EV_CONNECT_ERR; } if ((p_port->p_callback != NULL) && events) p_port->p_callback(events, p_port->handle); if (p_port->p_mgmt_callback) p_port->p_mgmt_callback(res, p_port->handle); p_port->rfc.state = RFC_STATE_CLOSED; LOG(INFO) << __func__ << ": RFCOMM connection closed, index=" << std::to_string(p_port->handle) << ", state=" << std::to_string(p_port->state) << ", reason=" << PORT_GetResultString(res) << "[" << std::to_string(res) << "], UUID=" << loghex(p_port->uuid) << ", bd_addr=" << p_port->bd_addr << ", is_server=" << p_port->is_server; port_release_port(p_port); } /******************************************************************************* * * Function port_get_credits * * Description Set initial values for credits. * Adjust max number of rx credits based on negotiated MTU. * Check max allowed num of bytes, max allowed num buffers, * should be less then 255 * ******************************************************************************/ void port_get_credits(tPORT* p_port, uint8_t k) { p_port->credit_tx = k; if (p_port->credit_tx == 0) p_port->tx.peer_fc = true; }