/****************************************************************************** * * Copyright 2016 The Android Open Source Project * Copyright 2002-2012 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 file contains the connection interface functions * ******************************************************************************/ #include #include #include #include "bt_types.h" #include "l2c_api.h" #include "l2cdefs.h" #include "btm_api.h" #include "btm_int.h" #include "btu.h" #include "hiddefs.h" #include "bt_utils.h" #include "hidd_api.h" #include "hidd_int.h" #include "osi/include/osi.h" static void hidd_l2cif_connect_ind(const RawAddress& bd_addr, uint16_t cid, uint16_t psm, uint8_t id); static void hidd_l2cif_connect_cfm(uint16_t cid, uint16_t result); static void hidd_l2cif_config_ind(uint16_t cid, tL2CAP_CFG_INFO* p_cfg); static void hidd_l2cif_config_cfm(uint16_t cid, tL2CAP_CFG_INFO* p_cfg); static void hidd_l2cif_disconnect_ind(uint16_t cid, bool ack_needed); static void hidd_l2cif_disconnect_cfm(uint16_t cid, uint16_t result); static void hidd_l2cif_data_ind(uint16_t cid, BT_HDR* p_msg); static void hidd_l2cif_cong_ind(uint16_t cid, bool congested); static const tL2CAP_APPL_INFO dev_reg_info = { hidd_l2cif_connect_ind, hidd_l2cif_connect_cfm, NULL, hidd_l2cif_config_ind, hidd_l2cif_config_cfm, hidd_l2cif_disconnect_ind, hidd_l2cif_disconnect_cfm, NULL, hidd_l2cif_data_ind, hidd_l2cif_cong_ind, NULL, NULL /* tL2CA_CREDITS_RECEIVED_CB */}; /******************************************************************************* * * Function hidd_check_config_done * * Description Checks if connection is configured and callback can be fired * * Returns void * ******************************************************************************/ static void hidd_check_config_done() { tHID_CONN* p_hcon; p_hcon = &hd_cb.device.conn; if (((p_hcon->conn_flags & HID_CONN_FLAGS_ALL_CONFIGURED) == HID_CONN_FLAGS_ALL_CONFIGURED) && (p_hcon->conn_state == HID_CONN_STATE_CONFIG)) { p_hcon->conn_state = HID_CONN_STATE_CONNECTED; hd_cb.device.state = HIDD_DEV_CONNECTED; hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_OPEN, 0, NULL); // send outstanding data on intr if (hd_cb.pending_data) { L2CA_DataWrite(p_hcon->intr_cid, hd_cb.pending_data); hd_cb.pending_data = NULL; } } } /******************************************************************************* * * Function hidh_sec_check_complete_term * * Description HID security check complete callback function. * * Returns Send L2CA_ConnectRsp OK if secutiry check succeed; otherwise * send security block L2C connection response. * ******************************************************************************/ static void hidd_sec_check_complete(UNUSED_ATTR const RawAddress* bd_addr, UNUSED_ATTR tBT_TRANSPORT transport, void* p_ref_data, uint8_t res) { tHID_DEV_DEV_CTB* p_dev = (tHID_DEV_DEV_CTB*)p_ref_data; if (res == BTM_SUCCESS && p_dev->conn.conn_state == HID_CONN_STATE_SECURITY) { p_dev->conn.disc_reason = HID_SUCCESS; p_dev->conn.conn_state = HID_CONN_STATE_CONNECTING_INTR; L2CA_ConnectRsp(p_dev->addr, p_dev->conn.ctrl_id, p_dev->conn.ctrl_cid, L2CAP_CONN_OK, L2CAP_CONN_OK); L2CA_ConfigReq(p_dev->conn.ctrl_cid, &hd_cb.l2cap_cfg); } else if (res != BTM_SUCCESS) { HIDD_TRACE_WARNING("%s: connection rejected by security", __func__); p_dev->conn.disc_reason = HID_ERR_AUTH_FAILED; p_dev->conn.conn_state = HID_CONN_STATE_UNUSED; L2CA_ConnectRsp(p_dev->addr, p_dev->conn.ctrl_id, p_dev->conn.ctrl_cid, L2CAP_CONN_SECURITY_BLOCK, L2CAP_CONN_OK); return; } } /******************************************************************************* * * Function hidd_sec_check_complete_orig * * Description HID security check complete callback function (device *originated) * * Returns void * ******************************************************************************/ void hidd_sec_check_complete_orig(UNUSED_ATTR const RawAddress* bd_addr, UNUSED_ATTR tBT_TRANSPORT transport, void* p_ref_data, uint8_t res) { tHID_DEV_DEV_CTB* p_dev = (tHID_DEV_DEV_CTB*)p_ref_data; if (p_dev->conn.conn_state != HID_CONN_STATE_SECURITY) { HIDD_TRACE_WARNING("%s: invalid state (%02x)", __func__, p_dev->conn.conn_state); return; } if (res == BTM_SUCCESS) { HIDD_TRACE_EVENT("%s: security ok", __func__); p_dev->conn.disc_reason = HID_SUCCESS; p_dev->conn.conn_state = HID_CONN_STATE_CONFIG; L2CA_ConfigReq(p_dev->conn.ctrl_cid, &hd_cb.l2cap_cfg); } else { HIDD_TRACE_WARNING("%s: security check failed (%02x)", __func__, res); p_dev->conn.disc_reason = HID_ERR_AUTH_FAILED; hidd_conn_disconnect(); } } /******************************************************************************* * * Function hidd_l2cif_connect_ind * * Description Handles incoming L2CAP connection (we act as server) * * Returns void * ******************************************************************************/ static void hidd_l2cif_connect_ind(const RawAddress& bd_addr, uint16_t cid, uint16_t psm, uint8_t id) { tHID_CONN* p_hcon; tHID_DEV_DEV_CTB* p_dev; bool accept = TRUE; // accept by default HIDD_TRACE_EVENT("%s: psm=%04x cid=%04x id=%02x", __func__, psm, cid, id); p_dev = &hd_cb.device; if (!hd_cb.allow_incoming) { HIDD_TRACE_WARNING("%s: incoming connections not allowed, rejecting", __func__); L2CA_ConnectRsp(bd_addr, id, cid, L2CAP_CONN_NO_RESOURCES, 0); return; } p_hcon = &hd_cb.device.conn; switch (psm) { case HID_PSM_INTERRUPT: if (p_hcon->ctrl_cid == 0) { accept = FALSE; HIDD_TRACE_WARNING("%s: incoming INTR without CTRL, rejecting", __func__); } if (p_hcon->conn_state != HID_CONN_STATE_CONNECTING_INTR) { accept = FALSE; HIDD_TRACE_WARNING("%s: incoming INTR in invalid state (%d), rejecting", __func__, p_hcon->conn_state); } break; case HID_PSM_CONTROL: if (p_hcon->conn_state != HID_CONN_STATE_UNUSED) { accept = FALSE; HIDD_TRACE_WARNING("%s: incoming CTRL in invalid state (%d), rejecting", __func__, p_hcon->conn_state); } break; default: accept = FALSE; HIDD_TRACE_ERROR("%s: received invalid PSM, rejecting", __func__); break; } if (!accept) { L2CA_ConnectRsp(bd_addr, id, cid, L2CAP_CONN_NO_RESOURCES, 0); return; } // for CTRL we need to go through security and we reply in callback from there if (psm == HID_PSM_CONTROL) { // We are ready to accept connection from this device, since we aren't // connected to anything and are in the correct state. p_dev->in_use = TRUE; p_dev->addr = bd_addr; p_dev->state = HIDD_DEV_NO_CONN; p_hcon->conn_flags = 0; p_hcon->ctrl_cid = cid; p_hcon->ctrl_id = id; p_hcon->disc_reason = HID_L2CAP_CONN_FAIL; p_hcon->conn_state = HID_CONN_STATE_SECURITY; if (btm_sec_mx_access_request(p_dev->addr, HID_PSM_CONTROL, FALSE, BTM_SEC_PROTO_HID, HIDD_NOSEC_CHN, &hidd_sec_check_complete, p_dev) == BTM_CMD_STARTED) { L2CA_ConnectRsp(bd_addr, id, cid, L2CAP_CONN_PENDING, L2CAP_CONN_OK); } return; } // for INTR we go directly to config state p_hcon->conn_state = HID_CONN_STATE_CONFIG; p_hcon->intr_cid = cid; L2CA_ConnectRsp(bd_addr, id, cid, L2CAP_CONN_OK, L2CAP_CONN_OK); L2CA_ConfigReq(cid, &hd_cb.l2cap_intr_cfg); } /******************************************************************************* * * Function hidd_l2cif_connect_cfm * * Description Handles L2CAP connection response (we act as client) * * Returns void * ******************************************************************************/ static void hidd_l2cif_connect_cfm(uint16_t cid, uint16_t result) { tHID_DEV_DEV_CTB* p_dev = &hd_cb.device; tHID_CONN* p_hcon = &hd_cb.device.conn; HIDD_TRACE_EVENT("%s: cid=%04x result=%d", __func__, cid, result); if (p_hcon->ctrl_cid != cid && p_hcon->intr_cid != cid) { HIDD_TRACE_WARNING("%s: unknown cid", __func__); return; } if (!(p_hcon->conn_flags & HID_CONN_FLAGS_IS_ORIG) || ((cid == p_hcon->ctrl_cid) && (p_hcon->conn_state != HID_CONN_STATE_CONNECTING_CTRL)) || ((cid == p_hcon->intr_cid) && (p_hcon->conn_state != HID_CONN_STATE_CONNECTING_INTR))) { HIDD_TRACE_WARNING("%s: unexpected", __func__); return; } if (result != L2CAP_CONN_OK) { HIDD_TRACE_WARNING("%s: connection failed, now disconnect", __func__); if (cid == p_hcon->ctrl_cid) p_hcon->ctrl_cid = 0; else p_hcon->intr_cid = 0; hidd_conn_disconnect(); hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_CLOSE, HID_L2CAP_CONN_FAIL | (uint32_t)result, NULL); return; } /* CTRL connect conf */ if (cid == p_hcon->ctrl_cid) { p_hcon->conn_state = HID_CONN_STATE_SECURITY; p_hcon->disc_reason = HID_L2CAP_CONN_FAIL; /* in case disconnected before sec completed */ btm_sec_mx_access_request(p_dev->addr, HID_PSM_CONTROL, TRUE, BTM_SEC_PROTO_HID, HIDD_SEC_CHN, &hidd_sec_check_complete_orig, p_dev); } else { p_hcon->conn_state = HID_CONN_STATE_CONFIG; L2CA_ConfigReq(cid, &hd_cb.l2cap_intr_cfg); } return; } /******************************************************************************* * * Function hidd_l2cif_config_ind * * Description Handles incoming L2CAP configuration request * * Returns void * ******************************************************************************/ static void hidd_l2cif_config_ind(uint16_t cid, tL2CAP_CFG_INFO* p_cfg) { tHID_CONN* p_hcon; HIDD_TRACE_EVENT("%s: cid=%04x", __func__, cid); p_hcon = &hd_cb.device.conn; if (p_hcon->ctrl_cid != cid && p_hcon->intr_cid != cid) { HIDD_TRACE_WARNING("%s: unknown cid", __func__); return; } if ((!p_cfg->mtu_present) || (p_cfg->mtu > HID_DEV_MTU_SIZE)) p_hcon->rem_mtu_size = HID_DEV_MTU_SIZE; else p_hcon->rem_mtu_size = p_cfg->mtu; // accept without changes p_cfg->flush_to_present = FALSE; p_cfg->mtu_present = FALSE; p_cfg->result = L2CAP_CFG_OK; if (cid == p_hcon->intr_cid && hd_cb.use_in_qos && !p_cfg->qos_present) { p_cfg->qos_present = TRUE; memcpy(&p_cfg->qos, &hd_cb.in_qos, sizeof(FLOW_SPEC)); } L2CA_ConfigRsp(cid, p_cfg); // update flags if (cid == p_hcon->ctrl_cid) { p_hcon->conn_flags |= HID_CONN_FLAGS_HIS_CTRL_CFG_DONE; if ((p_hcon->conn_flags & HID_CONN_FLAGS_IS_ORIG) && (p_hcon->conn_flags & HID_CONN_FLAGS_MY_CTRL_CFG_DONE)) { p_hcon->disc_reason = HID_L2CAP_CONN_FAIL; if ((p_hcon->intr_cid = L2CA_ConnectReq(HID_PSM_INTERRUPT, hd_cb.device.addr)) == 0) { hidd_conn_disconnect(); p_hcon->conn_state = HID_CONN_STATE_UNUSED; HIDD_TRACE_WARNING("%s: could not start L2CAP connection for INTR", __func__); hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_CLOSE, HID_ERR_L2CAP_FAILED, NULL); return; } else { p_hcon->conn_state = HID_CONN_STATE_CONNECTING_INTR; } } } else { p_hcon->conn_flags |= HID_CONN_FLAGS_HIS_INTR_CFG_DONE; } hidd_check_config_done(); } /******************************************************************************* * * Function hidd_l2cif_config_cfm * * Description Handles incoming L2CAP configuration response * * Returns void * ******************************************************************************/ static void hidd_l2cif_config_cfm(uint16_t cid, tL2CAP_CFG_INFO* p_cfg) { tHID_CONN* p_hcon; uint32_t reason; HIDD_TRACE_EVENT("%s: cid=%04x pcfg->result=%d", __func__, cid, p_cfg->result); p_hcon = &hd_cb.device.conn; if (p_hcon->ctrl_cid != cid && p_hcon->intr_cid != cid) { HIDD_TRACE_WARNING("%s: unknown cid", __func__); return; } if (p_hcon->intr_cid == cid && p_cfg->result == L2CAP_CFG_UNACCEPTABLE_PARAMS && p_cfg->qos_present) { tL2CAP_CFG_INFO new_qos; // QoS parameters not accepted for intr, try again with host proposal memcpy(&new_qos, &hd_cb.l2cap_intr_cfg, sizeof(new_qos)); memcpy(&new_qos.qos, &p_cfg->qos, sizeof(FLOW_SPEC)); new_qos.qos_present = TRUE; HIDD_TRACE_WARNING("%s: config failed, retry", __func__); L2CA_ConfigReq(cid, &new_qos); return; } else if (p_hcon->intr_cid == cid && p_cfg->result == L2CAP_CFG_UNKNOWN_OPTIONS) { // QoS not understood by remote device, try configuring without QoS HIDD_TRACE_WARNING("%s: config failed, retry without QoS", __func__); L2CA_ConfigReq(cid, &hd_cb.l2cap_cfg); return; } else if (p_cfg->result != L2CAP_CFG_OK) { HIDD_TRACE_WARNING("%s: config failed, disconnecting", __func__); hidd_conn_disconnect(); reason = HID_L2CAP_CFG_FAIL | (uint32_t)p_cfg->result; hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_CLOSE, reason, NULL); return; } // update flags if (cid == p_hcon->ctrl_cid) { p_hcon->conn_flags |= HID_CONN_FLAGS_MY_CTRL_CFG_DONE; if ((p_hcon->conn_flags & HID_CONN_FLAGS_IS_ORIG) && (p_hcon->conn_flags & HID_CONN_FLAGS_HIS_CTRL_CFG_DONE)) { p_hcon->disc_reason = HID_L2CAP_CONN_FAIL; if ((p_hcon->intr_cid = L2CA_ConnectReq(HID_PSM_INTERRUPT, hd_cb.device.addr)) == 0) { hidd_conn_disconnect(); p_hcon->conn_state = HID_CONN_STATE_UNUSED; HIDD_TRACE_WARNING("%s: could not start L2CAP connection for INTR", __func__); hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_CLOSE, HID_ERR_L2CAP_FAILED, NULL); return; } else { p_hcon->conn_state = HID_CONN_STATE_CONNECTING_INTR; } } } else { p_hcon->conn_flags |= HID_CONN_FLAGS_MY_INTR_CFG_DONE; } hidd_check_config_done(); } /******************************************************************************* * * Function hidd_l2cif_disconnect_ind * * Description Handler incoming L2CAP disconnection request * * Returns void * ******************************************************************************/ static void hidd_l2cif_disconnect_ind(uint16_t cid, bool ack_needed) { tHID_CONN* p_hcon; HIDD_TRACE_EVENT("%s: cid=%04x ack_needed=%d", __func__, cid, ack_needed); p_hcon = &hd_cb.device.conn; if (p_hcon->conn_state == HID_CONN_STATE_UNUSED || (p_hcon->ctrl_cid != cid && p_hcon->intr_cid != cid)) { HIDD_TRACE_WARNING("%s: unknown cid", __func__); return; } if (ack_needed) L2CA_DisconnectRsp(cid); p_hcon->conn_state = HID_CONN_STATE_DISCONNECTING; if (cid == p_hcon->ctrl_cid) p_hcon->ctrl_cid = 0; else p_hcon->intr_cid = 0; if ((p_hcon->ctrl_cid == 0) && (p_hcon->intr_cid == 0)) { HIDD_TRACE_EVENT("%s: INTR and CTRL disconnected", __func__); // clean any outstanding data on intr if (hd_cb.pending_data) { osi_free(hd_cb.pending_data); hd_cb.pending_data = NULL; } hd_cb.device.state = HIDD_DEV_NO_CONN; p_hcon->conn_state = HID_CONN_STATE_UNUSED; hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_CLOSE, p_hcon->disc_reason, NULL); } } /******************************************************************************* * * Function hidd_l2cif_disconnect_cfm * * Description Handles L2CAP disconection response * * Returns void * ******************************************************************************/ static void hidd_l2cif_disconnect_cfm(uint16_t cid, uint16_t result) { tHID_CONN* p_hcon; HIDD_TRACE_EVENT("%s: cid=%04x result=%d", __func__, cid, result); p_hcon = &hd_cb.device.conn; if (p_hcon->conn_state == HID_CONN_STATE_UNUSED || (p_hcon->ctrl_cid != cid && p_hcon->intr_cid != cid)) { HIDD_TRACE_WARNING("%s: unknown cid", __func__); return; } if (cid == p_hcon->ctrl_cid) { p_hcon->ctrl_cid = 0; } else { p_hcon->intr_cid = 0; // now disconnect CTRL L2CA_DisconnectReq(p_hcon->ctrl_cid); } if ((p_hcon->ctrl_cid == 0) && (p_hcon->intr_cid == 0)) { HIDD_TRACE_EVENT("%s: INTR and CTRL disconnected", __func__); hd_cb.device.state = HIDD_DEV_NO_CONN; p_hcon->conn_state = HID_CONN_STATE_UNUSED; if (hd_cb.pending_vc_unplug) { hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_VC_UNPLUG, p_hcon->disc_reason, NULL); hd_cb.pending_vc_unplug = FALSE; } else { hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_CLOSE, p_hcon->disc_reason, NULL); } } } /******************************************************************************* * * Function hidd_l2cif_cong_ind * * Description Handles L2CAP congestion status event * * Returns void * ******************************************************************************/ static void hidd_l2cif_cong_ind(uint16_t cid, bool congested) { tHID_CONN* p_hcon; HIDD_TRACE_EVENT("%s: cid=%04x congested=%d", __func__, cid, congested); p_hcon = &hd_cb.device.conn; if (p_hcon->conn_state == HID_CONN_STATE_UNUSED || (p_hcon->ctrl_cid != cid && p_hcon->intr_cid != cid)) { HIDD_TRACE_WARNING("%s: unknown cid", __func__); return; } if (congested) { p_hcon->conn_flags |= HID_CONN_FLAGS_CONGESTED; } else { p_hcon->conn_flags &= ~HID_CONN_FLAGS_CONGESTED; } } /******************************************************************************* * * Function hidd_l2cif_data_ind * * Description Handler incoming data on L2CAP channel * * Returns void * ******************************************************************************/ static void hidd_l2cif_data_ind(uint16_t cid, BT_HDR* p_msg) { tHID_CONN* p_hcon; uint8_t* p_data = (uint8_t*)(p_msg + 1) + p_msg->offset; uint8_t msg_type, param; bool err = FALSE; HIDD_TRACE_EVENT("%s: cid=%04x", __func__, cid); if (p_msg->len < 1) { HIDD_TRACE_ERROR("Invalid data length, ignore"); osi_free(p_msg); return; } p_hcon = &hd_cb.device.conn; if (p_hcon->conn_state == HID_CONN_STATE_UNUSED || (p_hcon->ctrl_cid != cid && p_hcon->intr_cid != cid)) { HIDD_TRACE_WARNING("%s: unknown cid", __func__); osi_free(p_msg); return; } msg_type = HID_GET_TRANS_FROM_HDR(*p_data); param = HID_GET_PARAM_FROM_HDR(*p_data); if (msg_type == HID_TRANS_DATA && cid == p_hcon->intr_cid) { // skip HID header p_msg->offset++; p_msg->len--; hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_INTR_DATA, 0, p_msg); return; } switch (msg_type) { case HID_TRANS_GET_REPORT: // at this stage we don't know if Report Id shall be included in request // so we pass complete packet in callback and let other code analyze this hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_GET_REPORT, !!(param & HID_PAR_GET_REP_BUFSIZE_FOLLOWS), p_msg); break; case HID_TRANS_SET_REPORT: // as above hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_SET_REPORT, 0, p_msg); break; case HID_TRANS_GET_IDLE: hidd_conn_send_data(HID_CHANNEL_CTRL, HID_TRANS_DATA, HID_PAR_REP_TYPE_OTHER, hd_cb.device.idle_time, 0, NULL); osi_free(p_msg); break; case HID_TRANS_SET_IDLE: if (p_msg->len != 2) { HIDD_TRACE_ERROR("%s: invalid len (%d) set idle request received", __func__, p_msg->len); err = TRUE; } else { hd_cb.device.idle_time = p_data[1]; HIDD_TRACE_DEBUG("%s: idle_time = %d", __func__, hd_cb.device.idle_time); if (hd_cb.device.idle_time) { HIDD_TRACE_WARNING( "%s: idle_time of %d ms not supported by HID Device", __func__, (hd_cb.device.idle_time * 4)); err = TRUE; } } if (!err) { hidd_conn_send_data(0, HID_TRANS_HANDSHAKE, HID_PAR_HANDSHAKE_RSP_SUCCESS, 0, 0, NULL); } else { hidd_conn_send_data(0, HID_TRANS_HANDSHAKE, HID_PAR_HANDSHAKE_RSP_ERR_INVALID_PARAM, 0, 0, NULL); } osi_free(p_msg); break; case HID_TRANS_GET_PROTOCOL: hidd_conn_send_data(HID_CHANNEL_CTRL, HID_TRANS_DATA, HID_PAR_REP_TYPE_OTHER, !hd_cb.device.boot_mode, 0, NULL); osi_free(p_msg); break; case HID_TRANS_SET_PROTOCOL: hd_cb.device.boot_mode = !(param & HID_PAR_PROTOCOL_MASK); hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_SET_PROTOCOL, param & HID_PAR_PROTOCOL_MASK, NULL); hidd_conn_send_data(0, HID_TRANS_HANDSHAKE, HID_PAR_HANDSHAKE_RSP_SUCCESS, 0, 0, NULL); osi_free(p_msg); break; case HID_TRANS_CONTROL: switch (param) { case HID_PAR_CONTROL_SUSPEND: hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_SUSPEND, 0, NULL); break; case HID_PAR_CONTROL_EXIT_SUSPEND: hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_EXIT_SUSPEND, 0, NULL); break; case HID_PAR_CONTROL_VIRTUAL_CABLE_UNPLUG: hidd_conn_disconnect(); // set flag so we can notify properly when disconnected hd_cb.pending_vc_unplug = TRUE; break; } osi_free(p_msg); break; case HID_TRANS_DATA: default: HIDD_TRACE_WARNING("%s: got unsupported msg (%d)", __func__, msg_type); hidd_conn_send_data(0, HID_TRANS_HANDSHAKE, HID_PAR_HANDSHAKE_RSP_ERR_UNSUPPORTED_REQ, 0, 0, NULL); osi_free(p_msg); break; } } /******************************************************************************* * * Function hidd_conn_reg * * Description Registers L2CAP channels * * Returns void * ******************************************************************************/ tHID_STATUS hidd_conn_reg(void) { HIDD_TRACE_API("%s", __func__); memset(&hd_cb.l2cap_cfg, 0, sizeof(tL2CAP_CFG_INFO)); hd_cb.l2cap_cfg.mtu_present = TRUE; hd_cb.l2cap_cfg.mtu = HID_DEV_MTU_SIZE; hd_cb.l2cap_cfg.flush_to_present = TRUE; hd_cb.l2cap_cfg.flush_to = HID_DEV_FLUSH_TO; memset(&hd_cb.l2cap_intr_cfg, 0, sizeof(tL2CAP_CFG_INFO)); hd_cb.l2cap_intr_cfg.mtu_present = TRUE; hd_cb.l2cap_intr_cfg.mtu = HID_DEV_MTU_SIZE; hd_cb.l2cap_intr_cfg.flush_to_present = TRUE; hd_cb.l2cap_intr_cfg.flush_to = HID_DEV_FLUSH_TO; if (!L2CA_Register(HID_PSM_CONTROL, (tL2CAP_APPL_INFO*)&dev_reg_info, false /* enable_snoop */, nullptr, hd_cb.l2cap_cfg.mtu)) { HIDD_TRACE_ERROR("HID Control (device) registration failed"); return (HID_ERR_L2CAP_FAILED); } if (!L2CA_Register(HID_PSM_INTERRUPT, (tL2CAP_APPL_INFO*)&dev_reg_info, false /* enable_snoop */, nullptr, hd_cb.l2cap_intr_cfg.mtu)) { L2CA_Deregister(HID_PSM_CONTROL); HIDD_TRACE_ERROR("HID Interrupt (device) registration failed"); return (HID_ERR_L2CAP_FAILED); } return (HID_SUCCESS); } /******************************************************************************* * * Function hidd_conn_dereg * * Description Deregisters L2CAP channels * * Returns void * ******************************************************************************/ void hidd_conn_dereg(void) { HIDD_TRACE_API("%s", __func__); L2CA_Deregister(HID_PSM_CONTROL); L2CA_Deregister(HID_PSM_INTERRUPT); } /******************************************************************************* * * Function hidd_conn_initiate * * Description Initiates HID connection to plugged device * * Returns HID_SUCCESS * ******************************************************************************/ tHID_STATUS hidd_conn_initiate(void) { tHID_DEV_DEV_CTB* p_dev = &hd_cb.device; HIDD_TRACE_API("%s", __func__); if (!p_dev->in_use) { HIDD_TRACE_WARNING("%s: no virtual cable established", __func__); return (HID_ERR_NOT_REGISTERED); } if (p_dev->conn.conn_state != HID_CONN_STATE_UNUSED) { HIDD_TRACE_WARNING("%s: connection already in progress", __func__); return (HID_ERR_CONN_IN_PROCESS); } p_dev->conn.ctrl_cid = 0; p_dev->conn.intr_cid = 0; p_dev->conn.disc_reason = HID_L2CAP_CONN_FAIL; p_dev->conn.conn_flags = HID_CONN_FLAGS_IS_ORIG; BTM_SetOutService(p_dev->addr, BTM_SEC_SERVICE_HIDD_SEC_CTRL, HIDD_SEC_CHN); /* Check if L2CAP started the connection process */ if ((p_dev->conn.ctrl_cid = L2CA_ConnectReq(HID_PSM_CONTROL, p_dev->addr)) == 0) { HIDD_TRACE_WARNING("%s: could not start L2CAP connection", __func__); hd_cb.callback(hd_cb.device.addr, HID_DHOST_EVT_CLOSE, HID_ERR_L2CAP_FAILED, NULL); } else { p_dev->conn.conn_state = HID_CONN_STATE_CONNECTING_CTRL; } return (HID_SUCCESS); } /******************************************************************************* * * Function hidd_conn_disconnect * * Description Disconnects existing HID connection * * Returns HID_SUCCESS * ******************************************************************************/ tHID_STATUS hidd_conn_disconnect(void) { tHID_CONN* p_hcon; HIDD_TRACE_API("%s", __func__); // clean any outstanding data on intr if (hd_cb.pending_data) { osi_free(hd_cb.pending_data); hd_cb.pending_data = NULL; } p_hcon = &hd_cb.device.conn; if ((p_hcon->ctrl_cid != 0) || (p_hcon->intr_cid != 0)) { p_hcon->conn_state = HID_CONN_STATE_DISCONNECTING; /* Set l2cap idle timeout to 0 (so ACL link is disconnected * immediately after last channel is closed) */ L2CA_SetIdleTimeoutByBdAddr(hd_cb.device.addr, 0, BT_TRANSPORT_BR_EDR); if (p_hcon->intr_cid) { L2CA_DisconnectReq(p_hcon->intr_cid); } else if (p_hcon->ctrl_cid) { L2CA_DisconnectReq(p_hcon->ctrl_cid); } } else { HIDD_TRACE_WARNING("%s: already disconnected", __func__); p_hcon->conn_state = HID_CONN_STATE_UNUSED; } return (HID_SUCCESS); } /******************************************************************************* * * Function hidd_conn_send_data * * Description Sends data to host * * Returns tHID_STATUS * ******************************************************************************/ tHID_STATUS hidd_conn_send_data(uint8_t channel, uint8_t msg_type, uint8_t param, uint8_t data, uint16_t len, uint8_t* p_data) { tHID_CONN* p_hcon; BT_HDR* p_buf; uint8_t* p_out; uint16_t cid; uint16_t buf_size; HIDD_TRACE_VERBOSE("%s: channel(%d), msg_type(%d), len(%d)", __func__, channel, msg_type, len); p_hcon = &hd_cb.device.conn; if (p_hcon->conn_flags & HID_CONN_FLAGS_CONGESTED) { return HID_ERR_CONGESTED; } switch (msg_type) { case HID_TRANS_HANDSHAKE: case HID_TRANS_CONTROL: cid = p_hcon->ctrl_cid; buf_size = HID_CONTROL_BUF_SIZE; break; case HID_TRANS_DATA: if (channel == HID_CHANNEL_CTRL) { cid = p_hcon->ctrl_cid; buf_size = HID_CONTROL_BUF_SIZE; } else { cid = p_hcon->intr_cid; buf_size = HID_INTERRUPT_BUF_SIZE; } break; default: return (HID_ERR_INVALID_PARAM); } p_buf = (BT_HDR*)osi_malloc(buf_size); if (p_buf == NULL) return (HID_ERR_NO_RESOURCES); p_buf->offset = L2CAP_MIN_OFFSET; p_out = (uint8_t*)(p_buf + 1) + p_buf->offset; *p_out = HID_BUILD_HDR(msg_type, param); p_out++; p_buf->len = 1; // start with header only // add report id prefix only if non-zero (which is reserved) if (msg_type == HID_TRANS_DATA && (data || param == HID_PAR_REP_TYPE_OTHER)) { *p_out = data; // report_id p_out++; p_buf->len++; } if (len > 0 && p_data != NULL) { memcpy(p_out, p_data, len); p_buf->len += len; } // check if connected if (hd_cb.device.state != HIDD_DEV_CONNECTED) { // for DATA on intr we hold transfer and try to reconnect if (msg_type == HID_TRANS_DATA && cid == p_hcon->intr_cid) { // drop previous data, we do not queue it for now if (hd_cb.pending_data) { osi_free(hd_cb.pending_data); } hd_cb.pending_data = p_buf; if (hd_cb.device.conn.conn_state == HID_CONN_STATE_UNUSED) { hidd_conn_initiate(); } return HID_SUCCESS; } return HID_ERR_NO_CONNECTION; } #ifdef REPORT_TRANSFER_TIMESTAMP if (report_transfer) { HIDD_TRACE_ERROR("%s: report sent", __func__); } #endif HIDD_TRACE_VERBOSE("%s: report sent", __func__); if (!L2CA_DataWrite(cid, p_buf)) return (HID_ERR_CONGESTED); return (HID_SUCCESS); }