/****************************************************************************** * * Copyright 2009-2012 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. * ******************************************************************************/ /******************************************************************************* * * Filename: btif_hh.c * * Description: HID Host Profile Bluetooth Interface * * ******************************************************************************/ #define LOG_TAG "bt_btif_hh" #include "btif/include/btif_hh.h" #include #include #include #include #include #include #include #include #include #include "bt_device_type.h" #include "bta_api.h" #include "bta_hh_api.h" #include "bta_hh_co.h" #include "bta_sec_api.h" #include "btif/include/btif_common.h" #include "btif/include/btif_dm.h" #include "btif/include/btif_hd.h" #include "btif/include/btif_metrics_logging.h" #include "btif/include/btif_profile_storage.h" #include "btif/include/btif_storage.h" #include "btif/include/btif_util.h" #include "hardware/bluetooth.h" #include "include/hardware/bt_hh.h" #include "internal_include/bt_target.h" #include "main/shim/dumpsys.h" #include "osi/include/alarm.h" #include "osi/include/allocator.h" #include "stack/include/bt_hdr.h" #include "stack/include/bt_uuid16.h" #include "stack/include/btm_client_interface.h" #include "stack/include/hidh_api.h" #include "types/ble_address_with_type.h" #include "types/bluetooth/uuid.h" #include "types/bt_transport.h" #include "types/raw_address.h" #define COD_HID_KEYBOARD 0x0540 #define COD_HID_POINTING 0x0580 #define COD_HID_COMBO 0x05C0 #define HID_REPORT_CAPSLOCK 0x39 #define HID_REPORT_NUMLOCK 0x53 #define HID_REPORT_SCROLLLOCK 0x47 // For Apple Magic Mouse #define MAGICMOUSE_VENDOR_ID 0x05ac #define MAGICMOUSE_PRODUCT_ID 0x030d #define LOGITECH_KB_MX5500_VENDOR_ID 0x046D #define LOGITECH_KB_MX5500_PRODUCT_ID 0xB30B using namespace bluetooth; static int btif_hh_keylockstates = 0; // The current key state of each key #define BTIF_TIMEOUT_VUP_MS (3 * 1000) /* HH request events */ typedef enum { BTIF_HH_CONNECT_REQ_EVT = 0, BTIF_HH_DISCONNECT_REQ_EVT, BTIF_HH_VUP_REQ_EVT } btif_hh_req_evt_t; /******************************************************************************* * Constants & Macros ******************************************************************************/ /******************************************************************************* * Local type definitions ******************************************************************************/ typedef struct hid_kb_list { uint16_t product_id; uint16_t version_id; const char* kb_name; } tHID_KB_LIST; /******************************************************************************* * Static variables ******************************************************************************/ btif_hh_cb_t btif_hh_cb; static bthh_callbacks_t* bt_hh_callbacks = NULL; static bthh_profile_enable_t bt_hh_enable_type = {.hidp_enabled = true, .hogp_enabled = true}; /* List of HID keyboards for which the NUMLOCK state needs to be * turned ON by default. Add devices to this list to apply the * NUMLOCK state toggle on fpr first connect.*/ static tHID_KB_LIST hid_kb_numlock_on_list[] = { {LOGITECH_KB_MX5500_PRODUCT_ID, LOGITECH_KB_MX5500_VENDOR_ID, "Logitech MX5500 Keyboard"}}; #define CHECK_BTHH_INIT() \ do { \ if (bt_hh_callbacks == NULL) { \ log::error("BTHH not initialized"); \ return BT_STATUS_NOT_READY; \ } \ } while (0) #define BTHH_CHECK_NOT_DISABLED() \ do { \ if (btif_hh_cb.status == BTIF_HH_DISABLED) { \ log::error("HH status = {}", btif_hh_status_text(btif_hh_cb.status)); \ return BT_STATUS_UNEXPECTED_STATE; \ } \ } while (0) #define BTHH_LOG_UNKNOWN_LINK(_link_spec) log::error("Unknown link: {}", (_link_spec)) #define BTHH_LOG_LINK(_link_spec) log::verbose("link spec: {}", (_link_spec)) #define BTHH_STATE_UPDATE(_link_spec, _state) \ do { \ log::verbose("link spec: {} state: {}", (_link_spec), bthh_connection_state_text(_state)); \ HAL_CBACK(bt_hh_callbacks, connection_state_cb, &(_link_spec).addrt.bda, \ (_link_spec).addrt.type, (_link_spec).transport, (_state)); \ } while (0) /******************************************************************************* * Static functions ******************************************************************************/ static void btif_hh_transport_select(tAclLinkSpec& link_spec); static void btif_hh_timer_timeout(void* data); static void bte_hh_evt(tBTA_HH_EVT event, tBTA_HH* p_data); /******************************************************************************* * Functions ******************************************************************************/ static int get_keylockstates() { return btif_hh_keylockstates; } static void set_keylockstate(int keymask, bool isSet) { if (isSet) { btif_hh_keylockstates |= keymask; } } /******************************************************************************* * * Function toggle_os_keylockstates * * Description Function to toggle the keyboard lock states managed by the linux. * This function is used in by two call paths * (1) if the lock state change occurred from an onscreen keyboard, * this function is called to update the lock state maintained for the HID keyboard(s) * (2) if a HID keyboard is disconnected and reconnected, * this function is called to update the lock state maintained for the HID keyboard(s) * Returns void ******************************************************************************/ static void toggle_os_keylockstates(int fd, int changedlockstates) { log::verbose("fd = {}, changedlockstates = 0x{:x}", fd, changedlockstates); uint8_t hidreport[9]; int reportIndex; memset(hidreport, 0, 9); hidreport[0] = 1; reportIndex = 4; if (changedlockstates & BTIF_HH_KEYSTATE_MASK_CAPSLOCK) { log::verbose("Setting CAPSLOCK"); hidreport[reportIndex++] = (uint8_t)HID_REPORT_CAPSLOCK; } if (changedlockstates & BTIF_HH_KEYSTATE_MASK_NUMLOCK) { log::verbose("Setting NUMLOCK"); hidreport[reportIndex++] = (uint8_t)HID_REPORT_NUMLOCK; } if (changedlockstates & BTIF_HH_KEYSTATE_MASK_SCROLLLOCK) { log::verbose("Setting SCROLLLOCK"); hidreport[reportIndex++] = (uint8_t)HID_REPORT_SCROLLLOCK; } log::verbose("Writing hidreport #1 to os:"); log::verbose("| {:x} {:x} {:x}", hidreport[0], hidreport[1], hidreport[2]); log::verbose("| {:x} {:x} {:x}", hidreport[3], hidreport[4], hidreport[5]); log::verbose("| {:x} {:x} {:x}", hidreport[6], hidreport[7], hidreport[8]); bta_hh_co_write(fd, hidreport, sizeof(hidreport)); usleep(200000); memset(hidreport, 0, 9); hidreport[0] = 1; log::verbose("Writing hidreport #2 to os:"); log::verbose("| {:x} {:x} {:x}", hidreport[0], hidreport[1], hidreport[2]); log::verbose("| {:x} {:x} {:x}", hidreport[3], hidreport[4], hidreport[5]); log::verbose("| {:x} {:x} {:x}", hidreport[6], hidreport[7], hidreport[8]); bta_hh_co_write(fd, hidreport, sizeof(hidreport)); } /******************************************************************************* * * Function create_pbuf * * Description Helper function to create p_buf for send_data or set_report * ******************************************************************************/ static BT_HDR* create_pbuf(uint16_t len, uint8_t* data) { BT_HDR* p_buf = (BT_HDR*)osi_malloc(len + BTA_HH_MIN_OFFSET + sizeof(BT_HDR)); uint8_t* pbuf_data; p_buf->len = len; p_buf->offset = BTA_HH_MIN_OFFSET; pbuf_data = (uint8_t*)(p_buf + 1) + p_buf->offset; memcpy(pbuf_data, data, len); return p_buf; } /******************************************************************************* * * Function update_keyboard_lockstates * * Description Sends a report to the keyboard to set the lock states of * keys. * ******************************************************************************/ static void update_keyboard_lockstates(btif_hh_device_t* p_dev) { uint8_t len = 2; /* reportid + 1 byte report*/ BT_HDR* p_buf; uint8_t data[] = {0x01, /* report id */ static_cast(btif_hh_keylockstates)}; /* keystate */ /* Set report for other keyboards */ log::verbose("setting report on dev_handle {} to 0x{:x}", p_dev->dev_handle, btif_hh_keylockstates); /* Get SetReport buffer */ p_buf = create_pbuf(len, data); if (p_buf != NULL) { p_buf->layer_specific = BTA_HH_RPTT_OUTPUT; BTA_HhSendData(p_dev->dev_handle, p_dev->link_spec, p_buf); } } /******************************************************************************* * * Function sync_lockstate_on_connect * * Description Function to update the keyboard lock states managed by the * OS when a HID keyboard is connected or disconnected and * reconnected * * Returns void ******************************************************************************/ static void sync_lockstate_on_connect(btif_hh_device_t* p_dev, tBTA_HH_DEV_DSCP_INFO& dscp_info) { for (unsigned int i = 0; i < sizeof(hid_kb_numlock_on_list) / sizeof(tHID_KB_LIST); i++) { tHID_KB_LIST& kb = hid_kb_numlock_on_list[i]; if (dscp_info.vendor_id == kb.version_id && dscp_info.product_id == kb.product_id) { log::verbose("idx[{}] Enabling NUMLOCK for device {} {}", i, p_dev->link_spec, kb.kb_name); // Enable NUMLOCK by default so that numeric keys work from first keyboard connect set_keylockstate(BTIF_HH_KEYSTATE_MASK_NUMLOCK, true); update_keyboard_lockstates(p_dev); // If the lockstate of caps, scroll or num is set, send a report to the kernel int keylockstates = get_keylockstates(); if (keylockstates) { log::verbose("Sending HID report to kernel indicating lock key state 0x{:x} for device {}", keylockstates, p_dev->link_spec); usleep(200000); int fd = (com::android::bluetooth::flags::hid_report_queuing() ? p_dev->internal_send_fd : p_dev->uhid.fd); toggle_os_keylockstates(fd, keylockstates); } break; } } } /******************************************************************************* * * Function btif_hh_find_added_dev * * Description Return the added device pointer of the specified link spec * * Returns Added device entry ******************************************************************************/ static btif_hh_added_device_t* btif_hh_find_added_dev(const tAclLinkSpec& link_spec) { for (int i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) { btif_hh_added_device_t* added_dev = &btif_hh_cb.added_devices[i]; if (added_dev->link_spec == link_spec) { return added_dev; } } return NULL; } /******************************************************************************* * * Function btif_hh_find_connected_dev_by_handle * * Description Return the connected device pointer of the specified device * handle * * Returns Device entry pointer in the device table ******************************************************************************/ btif_hh_device_t* btif_hh_find_connected_dev_by_handle(uint8_t handle) { uint32_t i; for (i = 0; i < BTIF_HH_MAX_HID; i++) { if (btif_hh_cb.devices[i].dev_status == BTHH_CONN_STATE_CONNECTED && btif_hh_cb.devices[i].dev_handle == handle) { return &btif_hh_cb.devices[i]; } } return NULL; } /******************************************************************************* * * Function btif_hh_find_dev_by_handle * * Description Return the device pointer of the specified device handle * * Returns Device entry pointer in the device table ******************************************************************************/ btif_hh_device_t* btif_hh_find_dev_by_handle(uint8_t handle) { for (int i = 0; i < BTIF_HH_MAX_HID; i++) { btif_hh_device_t* p_dev = &btif_hh_cb.devices[i]; if (p_dev->dev_status != BTHH_CONN_STATE_UNKNOWN && p_dev->dev_handle == handle) { return p_dev; } } return nullptr; } /******************************************************************************* * * Function btif_hh_find_empty_dev * * Description Return an empty device * * Returns Device entry pointer in the device table ******************************************************************************/ btif_hh_device_t* btif_hh_find_empty_dev(void) { for (int i = 0; i < BTIF_HH_MAX_HID; i++) { btif_hh_device_t* p_dev = &btif_hh_cb.devices[i]; if (p_dev->dev_status == BTHH_CONN_STATE_UNKNOWN) { return p_dev; } } return nullptr; } /******************************************************************************* * * Function btif_hh_find_dev_by_link_spec * * Description Return the device pointer of the specified ACL link * specification. * * Returns Device entry pointer in the device table ******************************************************************************/ static btif_hh_device_t* btif_hh_find_dev_by_link_spec(const tAclLinkSpec& link_spec) { uint32_t i; for (i = 0; i < BTIF_HH_MAX_HID; i++) { if (btif_hh_cb.devices[i].dev_status != BTHH_CONN_STATE_UNKNOWN && btif_hh_cb.devices[i].link_spec == link_spec) { return &btif_hh_cb.devices[i]; } } return NULL; } /******************************************************************************* * * Function btif_hh_find_connected_dev_by_link_spec * * Description Return the connected device pointer of the specified ACL * link specification. * * Returns Device entry pointer in the device table ******************************************************************************/ static btif_hh_device_t* btif_hh_find_connected_dev_by_link_spec(const tAclLinkSpec& link_spec) { uint32_t i; for (i = 0; i < BTIF_HH_MAX_HID; i++) { if (btif_hh_cb.devices[i].dev_status == BTHH_CONN_STATE_CONNECTED && btif_hh_cb.devices[i].link_spec == link_spec) { return &btif_hh_cb.devices[i]; } } return NULL; } /******************************************************************************* * * Function btif_hh_stop_vup_timer * * Description stop virtual unplug timer * * Returns void ******************************************************************************/ static void btif_hh_stop_vup_timer(const tAclLinkSpec& link_spec) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev != NULL) { log::verbose("stop VUP timer"); alarm_free(p_dev->vup_timer); p_dev->vup_timer = NULL; } } /******************************************************************************* * * Function btif_hh_start_vup_timer * * Description start virtual unplug timer * * Returns void ******************************************************************************/ static void btif_hh_start_vup_timer(const tAclLinkSpec& link_spec) { log::verbose(""); btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); log::assert_that(p_dev != NULL, "assert failed: p_dev != NULL"); alarm_free(p_dev->vup_timer); p_dev->vup_timer = alarm_new("btif_hh.vup_timer"); alarm_set_on_mloop(p_dev->vup_timer, BTIF_TIMEOUT_VUP_MS, btif_hh_timer_timeout, p_dev); } static bthh_connection_state_t hh_get_state_on_disconnect(tAclLinkSpec& link_spec) { if (!com::android::bluetooth::flags::allow_switching_hid_and_hogp()) { return BTHH_CONN_STATE_ACCEPTING; } btif_hh_added_device_t* added_dev = btif_hh_find_added_dev(link_spec); if (added_dev != nullptr) { return added_dev->reconnect_allowed ? BTHH_CONN_STATE_ACCEPTING : BTHH_CONN_STATE_DISCONNECTED; } else { return BTHH_CONN_STATE_DISCONNECTED; } } static void hh_connect_complete(tBTA_HH_CONN& conn, bthh_connection_state_t state) { if (state != BTHH_CONN_STATE_CONNECTED) { if (!com::android::bluetooth::flags::close_hid_only_if_connected() || conn.status == BTA_HH_OK) { BTA_HhClose(conn.handle); } } BTHH_STATE_UPDATE(conn.link_spec, state); } /******************************************************************************* * * Function hh_add_device * * Description Add a new device to the added device list. * * Returns true if add successfully, otherwise false. ******************************************************************************/ static bool hh_add_device(const tAclLinkSpec& link_spec, tBTA_HH_ATTR_MASK attr_mask, bool reconnect_allowed) { int i; // Check if already added if (btif_hh_find_added_dev(link_spec) != nullptr) { log::warn("Device {} already added", link_spec); return false; } // Use an empty slot for the new device for (i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) { btif_hh_added_device_t& dev = btif_hh_cb.added_devices[i]; if (dev.link_spec.addrt.bda.IsEmpty()) { log::info("Added device {}", link_spec); dev.link_spec = link_spec; dev.dev_handle = BTA_HH_INVALID_HANDLE; dev.attr_mask = attr_mask; dev.reconnect_allowed = reconnect_allowed; return true; } } log::error("Out of space to add device"); log_counter_metrics_btif( android::bluetooth::CodePathCounterKeyEnum::HIDH_COUNT_MAX_ADDED_DEVICE_LIMIT_REACHED, 1); return false; } /******************************************************************************* * BTA_HH event handlers ******************************************************************************/ static void hh_enable_handler(tBTA_HH_STATUS& status) { log::verbose("Status ={}", status); if (status == BTA_HH_OK) { btif_hh_cb.status = BTIF_HH_ENABLED; log::verbose("Loading added devices"); /* Add hid descriptors for already bonded hid devices*/ btif_storage_load_bonded_hid_info(); } else { btif_hh_cb.status = BTIF_HH_DISABLED; log::warn("HH enabling failed, status = {}", status); } } static void hh_disable_handler(tBTA_HH_STATUS& status) { if (btif_hh_cb.status == BTIF_HH_DISABLING) { bt_hh_callbacks = NULL; } btif_hh_cb.status = BTIF_HH_DISABLED; if (btif_hh_cb.service_dereg_active) { log::verbose("Enabling HID Device service"); btif_hd_service_registration(); btif_hh_cb.service_dereg_active = FALSE; } if (status == BTA_HH_OK) { int i; // Clear the control block for (i = 0; i < BTIF_HH_MAX_HID; i++) { alarm_free(btif_hh_cb.devices[i].vup_timer); } btif_hh_cb = {}; for (i = 0; i < BTIF_HH_MAX_HID; i++) { btif_hh_cb.devices[i].dev_status = BTHH_CONN_STATE_UNKNOWN; } } else { log::warn("HH disabling failed, status = {}", status); } } static void hh_open_handler(tBTA_HH_CONN& conn) { log::debug("link spec = {}, status = {}, handle = {}", conn.link_spec, conn.status, conn.handle); if (com::android::bluetooth::flags::allow_switching_hid_and_hogp()) { // Initialize with disconnected/accepting state based on reconnection policy bthh_connection_state_t dev_status = hh_get_state_on_disconnect(conn.link_spec); // Use current state if the device instance already exists btif_hh_device_t* p_dev = btif_hh_find_dev_by_link_spec(conn.link_spec); if (p_dev != nullptr) { log::debug("Device instance found: {}, state: {}", p_dev->link_spec, bthh_connection_state_text(p_dev->dev_status)); dev_status = p_dev->dev_status; } if (std::find(btif_hh_cb.pending_connections.begin(), btif_hh_cb.pending_connections.end(), conn.link_spec) != btif_hh_cb.pending_connections.end()) { log::verbose("Device connection was pending for: {}, status: {}", conn.link_spec, btif_hh_status_text(btif_hh_cb.status)); dev_status = BTHH_CONN_STATE_CONNECTING; } if (dev_status != BTHH_CONN_STATE_ACCEPTING && dev_status != BTHH_CONN_STATE_CONNECTING) { log::warn("Reject Incoming HID Connection, device: {}, state: {}", conn.link_spec, bthh_connection_state_text(dev_status)); log_counter_metrics_btif( android::bluetooth::CodePathCounterKeyEnum::HIDH_COUNT_INCOMING_CONNECTION_REJECTED, 1); if (p_dev != nullptr) { p_dev->dev_status = BTHH_CONN_STATE_DISCONNECTED; } if (!com::android::bluetooth::flags::suppress_hid_rejection_broadcast()) { hh_connect_complete(conn, BTHH_CONN_STATE_DISCONNECTED); return; } BTA_HhClose(conn.handle); return; } } if (!com::android::bluetooth::flags::allow_switching_hid_and_hogp()) { BTHH_STATE_UPDATE(conn.link_spec, BTHH_CONN_STATE_CONNECTING); } btif_hh_cb.pending_connections.remove(conn.link_spec); if (conn.status != BTA_HH_OK) { btif_dm_hh_open_failed(&conn.link_spec.addrt.bda); btif_hh_device_t* p_dev = btif_hh_find_dev_by_link_spec(conn.link_spec); if (p_dev != nullptr) { btif_hh_stop_vup_timer(p_dev->link_spec); p_dev->dev_status = hh_get_state_on_disconnect(p_dev->link_spec); } hh_connect_complete(conn, BTHH_CONN_STATE_DISCONNECTED); return; } /* Initialize device driver */ if (!bta_hh_co_open(conn.handle, conn.sub_class, conn.attr_mask, conn.app_id, conn.link_spec)) { log::warn("Failed to find the uhid driver"); hh_connect_complete(conn, BTHH_CONN_STATE_DISCONNECTED); return; } btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(conn.handle); if (p_dev == nullptr) { /* The connect request must have come from device side and exceeded the * connected HID device number. */ log::warn("Cannot find device with handle {}", conn.handle); hh_connect_complete(conn, BTHH_CONN_STATE_DISCONNECTED); return; } log::info("Found device, getting dscp info for handle {}", conn.handle); if (!com::android::bluetooth::flags::hid_report_queuing()) { // link_spec and status is to be set in bta_hh_co_open instead. p_dev->link_spec = conn.link_spec; p_dev->dev_status = BTHH_CONN_STATE_CONNECTED; } hh_connect_complete(conn, BTHH_CONN_STATE_CONNECTED); if (!com::android::bluetooth::flags::dont_send_hid_set_idle()) { // Send set_idle if the peer_device is a keyboard // TODO (b/307923455): clean this, set idle is deprecated in HID spec v1.1.1 if (check_cod_hid_major(conn.link_spec.addrt.bda, COD_HID_KEYBOARD) || check_cod_hid_major(conn.link_spec.addrt.bda, COD_HID_COMBO)) { BTA_HhSetIdle(conn.handle, 0); } } BTA_HhGetDscpInfo(conn.handle); } static void hh_close_handler(tBTA_HH_CBDATA& dev_status) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(dev_status.handle); if (p_dev == nullptr) { log::warn("Unknown device handle {}", dev_status.handle); return; } log::verbose("device {} status {}", p_dev->link_spec, dev_status.status); BTHH_STATE_UPDATE(p_dev->link_spec, BTHH_CONN_STATE_DISCONNECTING); btif_hh_stop_vup_timer(p_dev->link_spec); /* Remove device if locally initiated VUP */ if (p_dev->local_vup) { log::info("Removing device {} after virtual unplug", p_dev->link_spec); p_dev->local_vup = false; btif_hh_remove_device(p_dev->link_spec); BTA_DmRemoveDevice(p_dev->link_spec.addrt.bda); } else if (dev_status.status == BTA_HH_HS_SERVICE_CHANGED) { /* Local disconnection due to service change in the HOGP device. HID descriptor would be read again, so remove it from cache. */ log::warn("Removing cached descriptor due to service change, device {}", p_dev->link_spec); btif_storage_remove_hid_info(p_dev->link_spec); } p_dev->dev_status = hh_get_state_on_disconnect(p_dev->link_spec); bta_hh_co_close(p_dev); BTHH_STATE_UPDATE(p_dev->link_spec, p_dev->dev_status); } static void hh_get_rpt_handler(tBTA_HH_HSDATA& hs_data) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(hs_data.handle); if (p_dev == nullptr) { log::warn("Unknown device handle {}", hs_data.handle); return; } log::verbose("Status = {}, handle = {}", hs_data.status, hs_data.handle); BT_HDR* hdr = hs_data.rsp_data.p_rpt_data; if (hdr) { /* Get report response */ uint8_t* data = (uint8_t*)(hdr + 1) + hdr->offset; uint16_t len = hdr->len; HAL_CBACK(bt_hh_callbacks, get_report_cb, (RawAddress*)&(p_dev->link_spec.addrt.bda), p_dev->link_spec.addrt.type, p_dev->link_spec.transport, (bthh_status_t)hs_data.status, data, len); bta_hh_co_get_rpt_rsp(p_dev->dev_handle, (tBTA_HH_STATUS)hs_data.status, data, len); } else { /* Handshake */ HAL_CBACK(bt_hh_callbacks, handshake_cb, (RawAddress*)&(p_dev->link_spec.addrt.bda), p_dev->link_spec.addrt.type, p_dev->link_spec.transport, (bthh_status_t)hs_data.status); if (com::android::bluetooth::flags::forward_get_set_report_failure_to_uhid()) { bta_hh_co_get_rpt_rsp(p_dev->dev_handle, (tBTA_HH_STATUS)hs_data.status, NULL, 0); } } } static void hh_set_rpt_handler(tBTA_HH_CBDATA& dev_status) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(dev_status.handle); if (p_dev == nullptr) { log::warn("Unknown device handle {}", dev_status.handle); return; } log::verbose("Status = {}, handle = {}", dev_status.status, dev_status.handle); HAL_CBACK(bt_hh_callbacks, handshake_cb, (RawAddress*)&(p_dev->link_spec.addrt.bda), p_dev->link_spec.addrt.type, p_dev->link_spec.transport, (bthh_status_t)dev_status.status); bta_hh_co_set_rpt_rsp(p_dev->dev_handle, dev_status.status); } static void hh_get_proto_handler(tBTA_HH_HSDATA& hs_data) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(hs_data.handle); if (p_dev == nullptr) { log::warn("Unknown device handle {}", hs_data.handle); return; } log::info("Status = {}, handle = {}, proto = [{}], {}", hs_data.status, hs_data.handle, hs_data.rsp_data.proto_mode, (hs_data.rsp_data.proto_mode == BTA_HH_PROTO_RPT_MODE) ? "Report Mode" : (hs_data.rsp_data.proto_mode == BTA_HH_PROTO_BOOT_MODE) ? "Boot Mode" : "Unsupported"); if (hs_data.rsp_data.proto_mode != BTA_HH_PROTO_UNKNOWN) { HAL_CBACK(bt_hh_callbacks, protocol_mode_cb, (RawAddress*)&(p_dev->link_spec.addrt.bda), p_dev->link_spec.addrt.type, p_dev->link_spec.transport, (bthh_status_t)hs_data.status, (bthh_protocol_mode_t)hs_data.rsp_data.proto_mode); } else { HAL_CBACK(bt_hh_callbacks, handshake_cb, (RawAddress*)&(p_dev->link_spec.addrt.bda), p_dev->link_spec.addrt.type, p_dev->link_spec.transport, (bthh_status_t)hs_data.status); } } static void hh_set_proto_handler(tBTA_HH_CBDATA& dev_status) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(dev_status.handle); if (p_dev == nullptr) { log::warn("Unknown device handle {}", dev_status.handle); return; } log::verbose("Status = {}, handle = {}", dev_status.status, dev_status.handle); HAL_CBACK(bt_hh_callbacks, handshake_cb, (RawAddress*)&(p_dev->link_spec.addrt.bda), p_dev->link_spec.addrt.type, p_dev->link_spec.transport, (bthh_status_t)dev_status.status); } static void hh_get_idle_handler(tBTA_HH_HSDATA& hs_data) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(hs_data.handle); if (p_dev == nullptr) { log::warn("Unknown device handle {}", hs_data.handle); return; } log::verbose("Handle = {}, status = {}, rate = {}", hs_data.handle, hs_data.status, hs_data.rsp_data.idle_rate); HAL_CBACK(bt_hh_callbacks, idle_time_cb, (RawAddress*)&(p_dev->link_spec.addrt.bda), p_dev->link_spec.addrt.type, p_dev->link_spec.transport, (bthh_status_t)hs_data.status, hs_data.rsp_data.idle_rate); } static void hh_set_idle_handler(tBTA_HH_CBDATA& dev_status) { log::verbose("Status = {}, handle = {}", dev_status.status, dev_status.handle); } static void hh_get_dscp_handler(tBTA_HH_DEV_DSCP_INFO& dscp_info) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(dscp_info.hid_handle); if (p_dev == nullptr) { log::error("Unknown device handle {}", dscp_info.hid_handle); return; } log::verbose("Len = {}, handle = {}", dscp_info.descriptor.dl_len, dscp_info.hid_handle); int fd = (com::android::bluetooth::flags::hid_report_queuing() ? p_dev->internal_send_fd : p_dev->uhid.fd); if (fd < 0) { log::error("Failed to find the uhid driver for device {}", p_dev->link_spec); return; } const char* cached_name = nullptr; bt_bdname_t bdname = {}; bt_property_t prop_name = {}; BTIF_STORAGE_FILL_PROPERTY(&prop_name, BT_PROPERTY_BDNAME, sizeof(bt_bdname_t), &bdname); if (btif_storage_get_remote_device_property(&p_dev->link_spec.addrt.bda, &prop_name) == BT_STATUS_SUCCESS) { cached_name = (char*)bdname.name; } else { cached_name = "Bluetooth HID"; } log::info("Retrieved the cached name:{} for device {}", cached_name, p_dev->link_spec); bta_hh_co_send_hid_info(p_dev, cached_name, dscp_info.vendor_id, dscp_info.product_id, dscp_info.version, dscp_info.ctry_code, dscp_info.descriptor.dl_len, dscp_info.descriptor.dsc_list); if (hh_add_device(p_dev->link_spec, p_dev->attr_mask, true)) { bt_status_t ret; BTA_HhAddDev(p_dev->link_spec, p_dev->attr_mask, p_dev->sub_class, p_dev->app_id, dscp_info); // Save HID info in the persistent storage ret = btif_storage_add_hid_device_info( p_dev->link_spec, p_dev->attr_mask, p_dev->sub_class, p_dev->app_id, dscp_info.vendor_id, dscp_info.product_id, dscp_info.version, dscp_info.ctry_code, dscp_info.ssr_max_latency, dscp_info.ssr_min_tout, dscp_info.descriptor.dl_len, dscp_info.descriptor.dsc_list); // Allow incoming connections if (com::android::bluetooth::flags::allow_switching_hid_and_hogp() && com::android::bluetooth::flags::save_initial_hid_connection_policy()) { btif_storage_set_hid_connection_policy(p_dev->link_spec, true); } ASSERTC(ret == BT_STATUS_SUCCESS, "storing hid info failed", ret); log::info("Added device {}", p_dev->link_spec); } else { log::warn("Device {} already added", p_dev->link_spec); } /* Sync HID Keyboard lockstates */ sync_lockstate_on_connect(p_dev, dscp_info); } static void hh_add_dev_handler(tBTA_HH_DEV_INFO& dev_info) { btif_hh_added_device_t* added_dev = btif_hh_find_added_dev(dev_info.link_spec); if (added_dev == nullptr) { log::error("Unknown device {}", dev_info.link_spec); return; } log::info("Status = {}, handle = {}", dev_info.status, dev_info.handle); if (dev_info.status == BTA_HH_OK) { added_dev->dev_handle = dev_info.handle; } else { added_dev->link_spec = {}; added_dev->dev_handle = BTA_HH_INVALID_HANDLE; } } static void hh_rmv_dev_handler(tBTA_HH_DEV_INFO& dev_info) { log::verbose("Status = {}, handle = {}, device = {}", dev_info.status, dev_info.handle, dev_info.link_spec); } static void hh_vc_unplug_handler(tBTA_HH_CBDATA& dev_status) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_handle(dev_status.handle); if (p_dev == nullptr) { log::error("Unknown device handle {}", dev_status.handle); return; } if (!com::android::bluetooth::flags::remove_input_device_on_vup() && p_dev->link_spec.transport == BT_TRANSPORT_LE) { log::error("Unexpected for {}", p_dev->link_spec); return; } log::info("Device {} status {}", p_dev->link_spec, dev_status.status); /* Stop the VUP timer */ btif_hh_stop_vup_timer(p_dev->link_spec); p_dev->dev_status = hh_get_state_on_disconnect(p_dev->link_spec); BTHH_STATE_UPDATE(p_dev->link_spec, p_dev->dev_status); if (!com::android::bluetooth::flags::remove_input_device_on_vup()) { if (p_dev->local_vup || check_cod_hid(p_dev->link_spec.addrt.bda)) { p_dev->local_vup = false; BTA_DmRemoveDevice(p_dev->link_spec.addrt.bda); } else { log_counter_metrics_btif(android::bluetooth::CodePathCounterKeyEnum:: HIDH_COUNT_VIRTUAL_UNPLUG_REQUESTED_BY_REMOTE_DEVICE, 1); btif_hh_remove_device(p_dev->link_spec); } return; } if (!p_dev->local_vup) { log_counter_metrics_btif(android::bluetooth::CodePathCounterKeyEnum:: HIDH_COUNT_VIRTUAL_UNPLUG_REQUESTED_BY_REMOTE_DEVICE, 1); } // Remove the HID device btif_hh_remove_device(p_dev->link_spec); if (p_dev->local_vup || check_cod_hid(p_dev->link_spec.addrt.bda)) { // Remove the bond if locally initiated or remote device has major class HID p_dev->local_vup = false; BTA_DmRemoveDevice(p_dev->link_spec.addrt.bda); } } void btif_hh_load_bonded_dev(const tAclLinkSpec& link_spec_ref, tBTA_HH_ATTR_MASK attr_mask, uint8_t sub_class, uint8_t app_id, tBTA_HH_DEV_DSCP_INFO dscp_info, bool reconnect_allowed) { btif_hh_device_t* p_dev; uint8_t i; tAclLinkSpec link_spec = link_spec_ref; if (com::android::bluetooth::flags::allow_switching_hid_and_hogp() && link_spec.transport == BT_TRANSPORT_AUTO) { log::warn("Resolving link spec {} transport to BREDR/LE", link_spec); btif_hh_transport_select(link_spec); reconnect_allowed = true; btif_storage_set_hid_connection_policy(link_spec, reconnect_allowed); // remove and re-write the hid info btif_storage_remove_hid_info(link_spec); btif_storage_add_hid_device_info(link_spec, attr_mask, sub_class, app_id, dscp_info.vendor_id, dscp_info.product_id, dscp_info.version, dscp_info.ctry_code, dscp_info.ssr_max_latency, dscp_info.ssr_min_tout, dscp_info.descriptor.dl_len, dscp_info.descriptor.dsc_list); } if (hh_add_device(link_spec, attr_mask, reconnect_allowed)) { if (com::android::bluetooth::flags::allow_switching_hid_and_hogp() && reconnect_allowed) { BTHH_STATE_UPDATE(link_spec, BTHH_CONN_STATE_ACCEPTING); } BTA_HhAddDev(link_spec, attr_mask, sub_class, app_id, dscp_info); } } /******************************************************************************* ** ** Function btif_hh_remove_device ** ** Description Remove an added device from the stack. ** ** Returns void ******************************************************************************/ void btif_hh_remove_device(const tAclLinkSpec& link_spec) { BTHH_LOG_LINK(link_spec); bool announce_vup = false; for (int i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) { btif_hh_added_device_t* p_added_dev = &btif_hh_cb.added_devices[i]; if (p_added_dev->link_spec == link_spec) { announce_vup = true; BTA_HhRemoveDev(p_added_dev->dev_handle); btif_storage_remove_hid_info(p_added_dev->link_spec); p_added_dev->link_spec = {}; p_added_dev->dev_handle = BTA_HH_INVALID_HANDLE; /* Look for other instances only if AUTO transport was used */ if (link_spec.transport != BT_TRANSPORT_AUTO) { break; } } } /* Remove all connections instances related to link_spec. If AUTO transport is * used, btif_hh_find_dev_by_link_spec() finds both HID and HOGP instances */ btif_hh_device_t* p_dev; while ((p_dev = btif_hh_find_dev_by_link_spec(link_spec)) != nullptr) { announce_vup = true; // Notify upper layers of disconnection to avoid getting states out of sync do_in_jni_thread(base::Bind( [](tAclLinkSpec link_spec) { BTHH_STATE_UPDATE(link_spec, BTHH_CONN_STATE_DISCONNECTED); }, link_spec)); if (btif_hh_cb.device_num > 0) { btif_hh_cb.device_num--; } else { log::warn("device_num = 0"); } if (com::android::bluetooth::flags::remove_pending_hid_connection()) { BTA_HhRemoveDev(p_dev->dev_handle); // Remove the connection, in case it was pending } bta_hh_co_close(p_dev); p_dev->dev_status = BTHH_CONN_STATE_UNKNOWN; p_dev->dev_handle = BTA_HH_INVALID_HANDLE; if (!com::android::bluetooth::flags::hid_report_queuing()) { p_dev->uhid.ready_for_data = false; } } if (com::android::bluetooth::flags::remove_input_device_on_vup() && announce_vup) { do_in_jni_thread(base::Bind( [](tAclLinkSpec link_spec) { HAL_CBACK(bt_hh_callbacks, virtual_unplug_cb, &link_spec.addrt.bda, link_spec.addrt.type, link_spec.transport, BTHH_OK); }, link_spec)); } } /******************************************************************************* * * Function btif_hh_virtual_unplug * * Description Virtual unplug initiated from the BTIF thread context * Special handling for HID mouse- * * Returns void * ******************************************************************************/ bt_status_t btif_hh_virtual_unplug(const tAclLinkSpec& link_spec) { BTHH_LOG_LINK(link_spec); btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev != nullptr) { // Device is connected, send the VUP command and disconnect btif_hh_start_vup_timer(link_spec); p_dev->local_vup = true; if (p_dev->attr_mask & HID_VIRTUAL_CABLE) { log::info("Sending BTA_HH_CTRL_VIRTUAL_CABLE_UNPLUG for: {}", link_spec); BTA_HhSendCtrl(p_dev->dev_handle, BTA_HH_CTRL_VIRTUAL_CABLE_UNPLUG); } else { log::info("Virtual unplug not supported, disconnecting device: {}", link_spec); BTA_HhClose(p_dev->dev_handle); } return BT_STATUS_SUCCESS; } log::info("Device {} not opened, state = {}", link_spec, btif_hh_status_text(btif_hh_cb.status)); // Remove the connecting or added device if (com::android::bluetooth::flags::remove_input_device_on_vup()) { if (btif_hh_find_dev_by_link_spec(link_spec) != nullptr || btif_hh_find_added_dev(link_spec) != nullptr) { // Remove pending connection if address matches btif_hh_cb.pending_connections.remove_if( [link_spec](auto ls) { return ls.addrt.bda == link_spec.addrt.bda; }); btif_hh_remove_device(link_spec); BTA_DmRemoveDevice(link_spec.addrt.bda); return BT_STATUS_SUCCESS; } } // Abort outgoing initial connection attempt bool pending_connection = false; for (auto ls : btif_hh_cb.pending_connections) { if (ls.addrt.bda == link_spec.addrt.bda) { pending_connection = true; break; } } if (pending_connection) { btif_hh_cb.pending_connections.remove_if( [link_spec](auto ls) { return ls.addrt.bda == link_spec.addrt.bda; }); /* need to notify up-layer device is disconnected to avoid * state out of sync with up-layer */ do_in_jni_thread(base::Bind( [](tAclLinkSpec link_spec) { BTHH_STATE_UPDATE(link_spec, BTHH_CONN_STATE_DISCONNECTED); }, link_spec)); } return BT_STATUS_DEVICE_NOT_FOUND; } /******************************************************************************* * * Function btif_hh_connect * * Description connection initiated from the BTIF thread context * * Returns int status * ******************************************************************************/ bt_status_t btif_hh_connect(const tAclLinkSpec& link_spec) { CHECK_BTHH_INIT(); log::verbose("BTHH"); btif_hh_device_t* p_dev = btif_hh_find_dev_by_link_spec(link_spec); if (!p_dev && btif_hh_cb.device_num >= BTIF_HH_MAX_HID) { // No space for more HID device now. log::warn("Error, exceeded the maximum supported HID device number {}", BTIF_HH_MAX_HID); log_counter_metrics_btif(android::bluetooth::CodePathCounterKeyEnum:: HIDH_COUNT_CONNECT_REQ_WHEN_MAX_DEVICE_LIMIT_REACHED, 1); return BT_STATUS_NOMEM; } btif_hh_added_device_t* added_dev = btif_hh_find_added_dev(link_spec); if (added_dev != nullptr) { log::info("Device {} already added, attr_mask = 0x{:x}", link_spec, added_dev->attr_mask); if (added_dev->dev_handle == BTA_HH_INVALID_HANDLE) { // No space for more HID device now. log::error("Device {} added but addition failed", link_spec); added_dev->link_spec = {}; added_dev->dev_handle = BTA_HH_INVALID_HANDLE; return BT_STATUS_NOMEM; } // Reset the connection policy to allow incoming reconnections if (com::android::bluetooth::flags::allow_switching_hid_and_hogp()) { added_dev->reconnect_allowed = true; btif_storage_set_hid_connection_policy(link_spec, true); } } if (p_dev && p_dev->dev_status == BTHH_CONN_STATE_CONNECTED) { log::debug("HidHost profile already connected for {}", link_spec); return BT_STATUS_SUCCESS; } if (p_dev) { p_dev->dev_status = BTHH_CONN_STATE_CONNECTING; } /* Not checking the NORMALLY_Connectible flags from sdp record, and anyways sending this request from host, for subsequent user initiated connection. If the remote is not in pagescan mode, we will do 2 retries to connect before giving up */ btif_hh_cb.pending_connections.push_back(link_spec); BTA_HhOpen(link_spec); do_in_jni_thread(base::Bind( [](tAclLinkSpec link_spec) { BTHH_STATE_UPDATE(link_spec, BTHH_CONN_STATE_CONNECTING); }, link_spec)); return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function btif_hh_disconnect * * Description disconnection initiated from the BTIF thread context * * Returns void * ******************************************************************************/ static void btif_hh_disconnect(const tAclLinkSpec& link_spec) { btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == nullptr) { log::warn("Unable to disconnect unknown HID device:{}", link_spec); return; } log::debug("Disconnect and close request for HID device:{}", link_spec); BTA_HhClose(p_dev->dev_handle); } /******************************************************************************* * * Function btif_btif_hh_setreport * * Description setreport initiated from the UHID thread context * * Returns void * ******************************************************************************/ void btif_hh_setreport(btif_hh_uhid_t* p_uhid, bthh_report_type_t r_type, uint16_t size, uint8_t* report) { BT_HDR* p_buf = create_pbuf(size, report); if (p_buf == NULL) { log::error("Error, failed to allocate RPT buffer, size = {}", size); return; } BTA_HhSetReport(p_uhid->dev_handle, r_type, p_buf); } /******************************************************************************* * * Function btif_btif_hh_senddata * * Description senddata initiated from the UHID thread context * * Returns void * ******************************************************************************/ void btif_hh_senddata(btif_hh_uhid_t* p_uhid, uint16_t size, uint8_t* report) { BT_HDR* p_buf = create_pbuf(size, report); if (p_buf == NULL) { log::error("Error, failed to allocate RPT buffer, size = {}", size); return; } p_buf->layer_specific = BTA_HH_RPTT_OUTPUT; BTA_HhSendData(p_uhid->dev_handle, p_uhid->link_spec, p_buf); } /******************************************************************************* * * Function btif_hh_service_registration * * Description Registers or derigisters the hid host service * * Returns none * ******************************************************************************/ void btif_hh_service_registration(bool enable) { log::verbose(""); log::verbose("enable = {}", enable); if (bt_hh_callbacks == NULL) { // The HID Host service was never initialized (it is either disabled or not // available in this build). We should proceed directly to changing the HID // Device service state (if needed). if (!enable) { btif_hd_service_registration(); } } else if (enable) { BTA_HhEnable(bte_hh_evt, bt_hh_enable_type.hidp_enabled, bt_hh_enable_type.hogp_enabled); } else { btif_hh_cb.service_dereg_active = TRUE; BTA_HhDisable(); } } /******************************************************************************* * * * Function btif_hh_getreport * * Description getreport initiated from the UHID thread context * * Returns void * ******************************************************************************/ void btif_hh_getreport(btif_hh_uhid_t* p_uhid, bthh_report_type_t r_type, uint8_t reportId, uint16_t bufferSize) { BTA_HhGetReport(p_uhid->dev_handle, r_type, reportId, bufferSize); } /***************************************************************************** * Section name (Group of functions) ****************************************************************************/ /***************************************************************************** * * btif hh api functions (no context switch) * ****************************************************************************/ /******************************************************************************* * * Function btif_hh_upstreams_evt * * Description Executes HH UPSTREAMS events in btif context * * Returns void * ******************************************************************************/ static void btif_hh_upstreams_evt(uint16_t event, char* p_param) { tBTA_HH* p_data = (tBTA_HH*)p_param; log::verbose("event={} dereg = {}", bta_hh_event_text(event), btif_hh_cb.service_dereg_active); switch (event) { case BTA_HH_ENABLE_EVT: hh_enable_handler(p_data->status); break; case BTA_HH_DISABLE_EVT: hh_disable_handler(p_data->status); break; case BTA_HH_OPEN_EVT: hh_open_handler(p_data->conn); break; case BTA_HH_CLOSE_EVT: hh_close_handler(p_data->dev_status); break; case BTA_HH_GET_RPT_EVT: hh_get_rpt_handler(p_data->hs_data); break; case BTA_HH_SET_RPT_EVT: hh_set_rpt_handler(p_data->dev_status); break; case BTA_HH_GET_PROTO_EVT: hh_get_proto_handler(p_data->hs_data); break; case BTA_HH_SET_PROTO_EVT: hh_set_proto_handler(p_data->dev_status); break; case BTA_HH_GET_IDLE_EVT: hh_get_idle_handler(p_data->hs_data); break; case BTA_HH_SET_IDLE_EVT: hh_set_idle_handler(p_data->dev_status); break; case BTA_HH_GET_DSCP_EVT: hh_get_dscp_handler(p_data->dscp_info); break; case BTA_HH_ADD_DEV_EVT: hh_add_dev_handler(p_data->dev_info); break; case BTA_HH_RMV_DEV_EVT: hh_rmv_dev_handler(p_data->dev_info); break; case BTA_HH_VC_UNPLUG_EVT: hh_vc_unplug_handler(p_data->dev_status); break; case BTA_HH_API_ERR_EVT: log::error("BTA_HH API_ERR"); break; case BTA_HH_DATA_EVT: // data output is sent - do nothing. break; default: log::warn("Unhandled event: {}", event); break; } } /******************************************************************************* * * Function btif_hh_hsdata_rpt_copy_cb * * Description Deep copies the tBTA_HH_HSDATA structure * * Returns void * ******************************************************************************/ static void btif_hh_hsdata_rpt_copy_cb(uint16_t /*event*/, char* p_dest, const char* p_src) { tBTA_HH_HSDATA* p_dst_data = (tBTA_HH_HSDATA*)p_dest; tBTA_HH_HSDATA* p_src_data = (tBTA_HH_HSDATA*)p_src; BT_HDR* hdr; if (!p_src) { log::error("Nothing to copy"); return; } memcpy(p_dst_data, p_src_data, sizeof(tBTA_HH_HSDATA)); hdr = p_src_data->rsp_data.p_rpt_data; if (hdr != NULL) { uint8_t* p_data = ((uint8_t*)p_dst_data) + sizeof(tBTA_HH_HSDATA); memcpy(p_data, hdr, BT_HDR_SIZE + hdr->offset + hdr->len); p_dst_data->rsp_data.p_rpt_data = (BT_HDR*)p_data; } } /******************************************************************************* * * Function bte_hh_evt * * Description Switches context from BTE to BTIF for all HH events * * Returns void * ******************************************************************************/ static void bte_hh_evt(tBTA_HH_EVT event, tBTA_HH* p_data) { bt_status_t status; int param_len = 0; tBTIF_COPY_CBACK* p_copy_cback = NULL; if (BTA_HH_ENABLE_EVT == event) { param_len = sizeof(tBTA_HH_STATUS); } else if (BTA_HH_OPEN_EVT == event) { param_len = sizeof(tBTA_HH_CONN); } else if (BTA_HH_DISABLE_EVT == event) { param_len = sizeof(tBTA_HH_STATUS); } else if (BTA_HH_CLOSE_EVT == event) { param_len = sizeof(tBTA_HH_CBDATA); } else if (BTA_HH_GET_DSCP_EVT == event) { param_len = sizeof(tBTA_HH_DEV_DSCP_INFO); } else if ((BTA_HH_GET_PROTO_EVT == event) || (BTA_HH_GET_IDLE_EVT == event)) { param_len = sizeof(tBTA_HH_HSDATA); } else if (BTA_HH_GET_RPT_EVT == event) { BT_HDR* hdr = p_data->hs_data.rsp_data.p_rpt_data; param_len = sizeof(tBTA_HH_HSDATA); if (hdr != NULL) { p_copy_cback = btif_hh_hsdata_rpt_copy_cb; param_len += BT_HDR_SIZE + hdr->offset + hdr->len; } } else if ((BTA_HH_SET_PROTO_EVT == event) || (BTA_HH_SET_RPT_EVT == event) || (BTA_HH_VC_UNPLUG_EVT == event) || (BTA_HH_SET_IDLE_EVT == event)) { param_len = sizeof(tBTA_HH_CBDATA); } else if ((BTA_HH_ADD_DEV_EVT == event) || (BTA_HH_RMV_DEV_EVT == event)) { param_len = sizeof(tBTA_HH_DEV_INFO); } else if (BTA_HH_API_ERR_EVT == event) { param_len = 0; } /* switch context to btif task context (copy full union size for convenience) */ status = btif_transfer_context(btif_hh_upstreams_evt, (uint16_t)event, (char*)p_data, param_len, p_copy_cback); /* catch any failed context transfers */ ASSERTC(status == BT_STATUS_SUCCESS, "context transfer failed", status); } /******************************************************************************* * * Function btif_hh_handle_evt * * Description Switches context for immediate callback * * Returns void * ******************************************************************************/ static void btif_hh_handle_evt(uint16_t event, char* p_param) { log::assert_that(p_param != nullptr, "assert failed: p_param != nullptr"); tAclLinkSpec link_spec = *(tAclLinkSpec*)p_param; switch (event) { case BTIF_HH_CONNECT_REQ_EVT: { log::debug("BTIF_HH_CONNECT_REQ_EVT: link spec:{}", link_spec); if (btif_hh_connect(link_spec) == BT_STATUS_SUCCESS) { BTHH_STATE_UPDATE(link_spec, BTHH_CONN_STATE_CONNECTING); } else { BTHH_STATE_UPDATE(link_spec, BTHH_CONN_STATE_DISCONNECTED); } } break; case BTIF_HH_DISCONNECT_REQ_EVT: { log::debug("BTIF_HH_DISCONNECT_REQ_EVT: link spec:{}", link_spec); btif_hh_disconnect(link_spec); BTHH_STATE_UPDATE(link_spec, BTHH_CONN_STATE_DISCONNECTING); } break; case BTIF_HH_VUP_REQ_EVT: { log::debug("BTIF_HH_VUP_REQ_EVT: link spec:{}", link_spec); if (btif_hh_virtual_unplug(link_spec) != BT_STATUS_SUCCESS) { log::warn("Unable to virtual unplug device remote:{}", link_spec); } } break; default: { log::warn("Unknown event received:{} remote:{}", event, link_spec); } break; } } /******************************************************************************* * * Function btif_hh_timer_timeout * * Description Process timer timeout * * Returns void ******************************************************************************/ static void btif_hh_timer_timeout(void* data) { btif_hh_device_t* p_dev = (btif_hh_device_t*)data; tBTA_HH_EVT event = BTA_HH_VC_UNPLUG_EVT; tBTA_HH p_data; int param_len = sizeof(tBTA_HH_CBDATA); log::verbose(""); if (p_dev->dev_status != BTHH_CONN_STATE_CONNECTED) { return; } memset(&p_data, 0, sizeof(tBTA_HH)); p_data.dev_status.status = BTA_HH_ERR; // tBTA_HH_STATUS p_data.dev_status.handle = p_dev->dev_handle; /* switch context to btif task context */ btif_transfer_context(btif_hh_upstreams_evt, (uint16_t)event, (char*)&p_data, param_len, NULL); } /******************************************************************************* * * Function btif_hh_init * * Description initializes the hh interface * * Returns bt_status_t * ******************************************************************************/ static bt_status_t init(bthh_callbacks_t* callbacks) { uint32_t i; log::verbose(""); bt_hh_callbacks = callbacks; btif_hh_cb = {}; for (i = 0; i < BTIF_HH_MAX_HID; i++) { btif_hh_cb.devices[i].dev_status = BTHH_CONN_STATE_UNKNOWN; } /* Invoke the enable service API to the core to set the appropriate service_id */ btif_enable_service(BTA_HID_SERVICE_ID); return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function btif_hh_transport_select * * Description Select HID transport based on services available. * * Returns void * ******************************************************************************/ static void btif_hh_transport_select(tAclLinkSpec& link_spec) { bool hid_available = false; bool hogp_available = false; bool headtracker_available = false; bool le_preferred = false; bluetooth::Uuid remote_uuids[BT_MAX_NUM_UUIDS] = {}; bt_property_t remote_properties = {BT_PROPERTY_UUIDS, sizeof(remote_uuids), &remote_uuids}; const RawAddress& bd_addr = link_spec.addrt.bda; // Find the device type tBT_DEVICE_TYPE dev_type; tBLE_ADDR_TYPE addr_type; get_btm_client_interface().peer.BTM_ReadDevInfo(bd_addr, &dev_type, &addr_type); // Find which transports are already connected bool bredr_acl = get_btm_client_interface().peer.BTM_IsAclConnectionUp(bd_addr, BT_TRANSPORT_BR_EDR); bool le_acl = get_btm_client_interface().peer.BTM_IsAclConnectionUp(bd_addr, BT_TRANSPORT_LE); // Find which services known to be available if (btif_storage_get_remote_device_property(&bd_addr, &remote_properties) == BT_STATUS_SUCCESS) { int count = remote_properties.len / sizeof(remote_uuids[0]); for (int i = 0; i < count; i++) { if (remote_uuids[i].Is16Bit()) { if (remote_uuids[i].As16Bit() == UUID_SERVCLASS_HUMAN_INTERFACE) { hid_available = true; } else if (remote_uuids[i].As16Bit() == UUID_SERVCLASS_LE_HID) { hogp_available = true; } } else if (com::android::bluetooth::flags::android_headtracker_service() && remote_uuids[i] == ANDROID_HEADTRACKER_SERVICE_UUID) { headtracker_available = true; } if (hid_available && (hogp_available || headtracker_available)) { break; } } } /* Decide whether to connect HID or HOGP */ if (bredr_acl && hid_available) { le_preferred = false; } else if (le_acl && (hogp_available || headtracker_available)) { le_preferred = true; } else if (hid_available) { le_preferred = false; } else if (hogp_available || headtracker_available) { le_preferred = true; } else if (bredr_acl) { le_preferred = false; } else if (le_acl || dev_type == BT_DEVICE_TYPE_BLE) { le_preferred = true; } else { le_preferred = false; } link_spec.transport = le_preferred ? BT_TRANSPORT_LE : BT_TRANSPORT_BR_EDR; log::info( "link_spec:{}, bredr_acl:{}, hid_available:{}, le_acl:{}, " "hogp_available:{}, headtracker_available:{}, " "dev_type:{}, le_preferred:{}", link_spec, bredr_acl, hid_available, le_acl, hogp_available, headtracker_available, dev_type, le_preferred); } /******************************************************************************* * * Function connect * * Description connect to hid device * * Returns bt_status_t * ******************************************************************************/ static bt_status_t connect(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport) { tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); if (!com::android::bluetooth::flags::initiate_multiple_hid_connections() && !btif_hh_cb.pending_connections.empty()) { log::warn("HH status = {}", btif_hh_status_text(btif_hh_cb.status)); return BT_STATUS_BUSY; } else if (btif_hh_cb.status == BTIF_HH_DISABLED || btif_hh_cb.status == BTIF_HH_DISABLING) { log::warn("HH status = {}", btif_hh_status_text(btif_hh_cb.status)); return BT_STATUS_NOT_READY; } btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev != nullptr) { log::warn("device {} already connected", p_dev->link_spec); return BT_STATUS_DONE; } if (link_spec.transport == BT_TRANSPORT_AUTO) { btif_hh_transport_select(link_spec); } return btif_transfer_context(btif_hh_handle_evt, BTIF_HH_CONNECT_REQ_EVT, (char*)&link_spec, sizeof(tAclLinkSpec), NULL); } /******************************************************************************* * * Function disconnect * * Description disconnect from hid device * * Returns bt_status_t * ******************************************************************************/ static bt_status_t disconnect(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, bool reconnect_allowed) { CHECK_BTHH_INIT(); tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); if (btif_hh_cb.status == BTIF_HH_DISABLED || btif_hh_cb.status == BTIF_HH_DISABLING) { log::error("HH status = {}", btif_hh_status_text(btif_hh_cb.status)); return BT_STATUS_UNHANDLED; } if (com::android::bluetooth::flags::allow_switching_hid_and_hogp() && !reconnect_allowed) { log::info("Incoming reconnections disabled for device {}", link_spec); btif_hh_added_device_t* added_dev = btif_hh_find_added_dev(link_spec); if (added_dev != nullptr) { added_dev->reconnect_allowed = reconnect_allowed; btif_storage_set_hid_connection_policy(added_dev->link_spec, reconnect_allowed); } } btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == nullptr) { if (com::android::bluetooth::flags::allow_switching_hid_and_hogp()) { // Conclude the request if the device is already disconnected p_dev = btif_hh_find_dev_by_link_spec(link_spec); if (p_dev != nullptr && (p_dev->dev_status == BTHH_CONN_STATE_ACCEPTING || p_dev->dev_status == BTHH_CONN_STATE_CONNECTING)) { log::warn("Device {} already not connected, state: {}", p_dev->link_spec, bthh_connection_state_text(p_dev->dev_status)); p_dev->dev_status = BTHH_CONN_STATE_DISCONNECTED; return BT_STATUS_DONE; } else if (com::android::bluetooth::flags::initiate_multiple_hid_connections() && std::find(btif_hh_cb.pending_connections.begin(), btif_hh_cb.pending_connections.end(), link_spec) != btif_hh_cb.pending_connections.end()) { btif_hh_cb.pending_connections.remove(link_spec); log::info("Pending connection cancelled {}", link_spec); return BT_STATUS_SUCCESS; } } BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_UNHANDLED; } return btif_transfer_context(btif_hh_handle_evt, BTIF_HH_DISCONNECT_REQ_EVT, (char*)&p_dev->link_spec, sizeof(tAclLinkSpec), NULL); } /******************************************************************************* * * Function virtual_unplug * * Description Virtual UnPlug (VUP) the specified HID device. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t virtual_unplug(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport) { CHECK_BTHH_INIT(); tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); BTHH_CHECK_NOT_DISABLED(); btif_hh_device_t* p_dev = btif_hh_find_dev_by_link_spec(link_spec); if (com::android::bluetooth::flags::remove_input_device_on_vup()) { bool pending_connection = false; for (auto ls : btif_hh_cb.pending_connections) { if (ls.addrt.bda == link_spec.addrt.bda) { pending_connection = true; break; } } if (p_dev == nullptr && btif_hh_find_added_dev(link_spec) && !pending_connection) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } } else { if (p_dev == nullptr) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } } btif_transfer_context(btif_hh_handle_evt, BTIF_HH_VUP_REQ_EVT, (char*)&link_spec, sizeof(tAclLinkSpec), NULL); return BT_STATUS_SUCCESS; } /******************************************************************************* ** ** Function get_idle_time ** ** Description Get the HID idle time ** ** Returns bt_status_t ** *******************************************************************************/ static bt_status_t get_idle_time(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport) { CHECK_BTHH_INIT(); tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); BTHH_CHECK_NOT_DISABLED(); btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == NULL) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } BTA_HhGetIdle(p_dev->dev_handle); return BT_STATUS_SUCCESS; } /******************************************************************************* ** ** Function set_idle_time ** ** Description Set the HID idle time ** ** Returns bt_status_t ** *******************************************************************************/ static bt_status_t set_idle_time(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, uint8_t idle_time) { CHECK_BTHH_INIT(); tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); log::verbose("idle time: {}", idle_time); BTHH_CHECK_NOT_DISABLED(); btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == NULL) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } BTA_HhSetIdle(p_dev->dev_handle, idle_time); return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function set_info * * Description Set the HID device descriptor for the specified HID device. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t set_info(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, bthh_hid_info_t hid_info) { CHECK_BTHH_INIT(); tBTA_HH_DEV_DSCP_INFO dscp_info = {}; tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); log::verbose( "sub_class = 0x{:02x}, app_id = {}, vendor_id = 0x{:04x}, " "product_id = 0x{:04x}, version= 0x{:04x}", hid_info.sub_class, hid_info.app_id, hid_info.vendor_id, hid_info.product_id, hid_info.version); BTHH_CHECK_NOT_DISABLED(); dscp_info.vendor_id = hid_info.vendor_id; dscp_info.product_id = hid_info.product_id; dscp_info.version = hid_info.version; dscp_info.ctry_code = hid_info.ctry_code; dscp_info.descriptor.dl_len = hid_info.dl_len; dscp_info.descriptor.dsc_list = (uint8_t*)osi_malloc(dscp_info.descriptor.dl_len); memcpy(dscp_info.descriptor.dsc_list, &(hid_info.dsc_list), hid_info.dl_len); if (transport == BT_TRANSPORT_AUTO) { btif_hh_transport_select(link_spec); } if (hh_add_device(link_spec, hid_info.attr_mask, true)) { BTA_HhAddDev(link_spec, hid_info.attr_mask, hid_info.sub_class, hid_info.app_id, dscp_info); } osi_free_and_reset((void**)&dscp_info.descriptor.dsc_list); return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function get_protocol * * Description Get the HID proto mode. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t get_protocol(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, bthh_protocol_mode_t /* protocolMode */) { CHECK_BTHH_INIT(); tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); BTHH_CHECK_NOT_DISABLED(); btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (!p_dev) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } BTA_HhGetProtoMode(p_dev->dev_handle); return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function set_protocol * * Description Set the HID proto mode. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t set_protocol(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, bthh_protocol_mode_t protocolMode) { CHECK_BTHH_INIT(); btif_hh_device_t* p_dev; uint8_t proto_mode = protocolMode; tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); log::verbose("mode: {}", protocolMode); BTHH_CHECK_NOT_DISABLED(); p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == NULL) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } else if (protocolMode != BTA_HH_PROTO_RPT_MODE && protocolMode != BTA_HH_PROTO_BOOT_MODE) { log::warn("device proto_mode = {}", proto_mode); return BT_STATUS_PARM_INVALID; } else { BTA_HhSetProtoMode(p_dev->dev_handle, protocolMode); } return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function get_report * * Description Send a GET_REPORT to HID device. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t get_report(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, bthh_report_type_t reportType, uint8_t reportId, int bufferSize) { CHECK_BTHH_INIT(); btif_hh_device_t* p_dev; tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); log::verbose("r_type: {}; rpt_id: {}; buf_size: {}", reportType, reportId, bufferSize); BTHH_CHECK_NOT_DISABLED(); p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == NULL) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } else if (((int)reportType) <= BTA_HH_RPTT_RESRV || ((int)reportType) > BTA_HH_RPTT_FEATURE) { log::error("report type={} not supported", reportType); log_counter_metrics_btif( android::bluetooth::CodePathCounterKeyEnum::HIDH_COUNT_WRONG_REPORT_TYPE, 1); return BT_STATUS_UNSUPPORTED; } else { BTA_HhGetReport(p_dev->dev_handle, reportType, reportId, bufferSize); } return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function get_report_reply * * Description Send a REPORT_REPLY/FEATURE_ANSWER to HID driver. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t get_report_reply(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, bthh_status_t status, char* report, uint16_t size) { CHECK_BTHH_INIT(); tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); BTHH_CHECK_NOT_DISABLED(); btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == NULL) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } bta_hh_co_get_rpt_rsp(p_dev->dev_handle, (tBTA_HH_STATUS)status, (uint8_t*)report, size); return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function set_report * * Description Send a SET_REPORT to HID device. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t set_report(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, bthh_report_type_t reportType, char* report) { CHECK_BTHH_INIT(); btif_hh_device_t* p_dev; tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); log::verbose("reportType: {}", reportType); BTHH_CHECK_NOT_DISABLED(); p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == NULL) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } else if (((int)reportType) <= BTA_HH_RPTT_RESRV || ((int)reportType) > BTA_HH_RPTT_FEATURE) { log::error("report type={} not supported", reportType); log_counter_metrics_btif( android::bluetooth::CodePathCounterKeyEnum::HIDH_COUNT_WRONG_REPORT_TYPE, 1); return BT_STATUS_UNSUPPORTED; } else { int hex_bytes_filled; size_t len = (strlen(report) + 1) / 2; uint8_t* hexbuf = (uint8_t*)osi_calloc(len); /* Build a SetReport data buffer */ // TODO hex_bytes_filled = ascii_2_hex(report, len, hexbuf); log::info("Hex bytes filled, hex value: {}", hex_bytes_filled); if (hex_bytes_filled) { BT_HDR* p_buf = create_pbuf(hex_bytes_filled, hexbuf); if (p_buf == NULL) { log::error("failed to allocate RPT buffer, len = {}", hex_bytes_filled); osi_free(hexbuf); return BT_STATUS_NOMEM; } BTA_HhSetReport(p_dev->dev_handle, reportType, p_buf); osi_free(hexbuf); return BT_STATUS_SUCCESS; } osi_free(hexbuf); return BT_STATUS_FAIL; } } /******************************************************************************* * * Function send_data * * Description Send a SEND_DATA to HID device. * * Returns bt_status_t * ******************************************************************************/ static bt_status_t send_data(RawAddress* bd_addr, tBLE_ADDR_TYPE addr_type, tBT_TRANSPORT transport, char* data) { CHECK_BTHH_INIT(); tAclLinkSpec link_spec = {}; link_spec.addrt.bda = *bd_addr; link_spec.addrt.type = addr_type; link_spec.transport = transport; BTHH_LOG_LINK(link_spec); BTHH_CHECK_NOT_DISABLED(); btif_hh_device_t* p_dev = btif_hh_find_connected_dev_by_link_spec(link_spec); if (p_dev == NULL) { BTHH_LOG_UNKNOWN_LINK(link_spec); return BT_STATUS_DEVICE_NOT_FOUND; } else { int hex_bytes_filled; size_t len = (strlen(data) + 1) / 2; uint8_t* hexbuf = (uint8_t*)osi_calloc(len); /* Build a SendData data buffer */ hex_bytes_filled = ascii_2_hex(data, len, hexbuf); log::info("Hex bytes filled, hex value: {}, {}", hex_bytes_filled, len); if (hex_bytes_filled) { BT_HDR* p_buf = create_pbuf(hex_bytes_filled, hexbuf); if (p_buf == NULL) { log::error("failed to allocate RPT buffer, len = {}", hex_bytes_filled); osi_free(hexbuf); return BT_STATUS_NOMEM; } p_buf->layer_specific = BTA_HH_RPTT_OUTPUT; BTA_HhSendData(p_dev->dev_handle, link_spec, p_buf); osi_free(hexbuf); return BT_STATUS_SUCCESS; } osi_free(hexbuf); return BT_STATUS_FAIL; } } /******************************************************************************* * * Function cleanup * * Description Closes the HH interface * * Returns bt_status_t * ******************************************************************************/ static void cleanup(void) { log::verbose(""); btif_hh_device_t* p_dev; int i; if (btif_hh_cb.status == BTIF_HH_DISABLED || btif_hh_cb.status == BTIF_HH_DISABLING) { log::warn("HH disabling or disabled already, status = {}", btif_hh_status_text(btif_hh_cb.status)); return; } if (bt_hh_callbacks) { btif_hh_cb.status = BTIF_HH_DISABLING; /* update flag, not to enable hid device service now as BT is switching off */ btif_hh_cb.service_dereg_active = FALSE; btif_disable_service(BTA_HID_SERVICE_ID); } btif_hh_cb.pending_connections.clear(); for (i = 0; i < BTIF_HH_MAX_HID; i++) { p_dev = &btif_hh_cb.devices[i]; int fd = (com::android::bluetooth::flags::hid_report_queuing() ? p_dev->internal_send_fd : p_dev->uhid.fd); if (p_dev->dev_status != BTHH_CONN_STATE_UNKNOWN && fd >= 0) { log::verbose("Closing uhid fd = {}", fd); bta_hh_co_close(p_dev); } } } /******************************************************************************* * * Function configure_enabled_profiles * * Description Configure HIDP or HOGP enablement. Require to cleanup and *re-init to take effect. * * Returns void * ******************************************************************************/ static void configure_enabled_profiles(bool enable_hidp, bool enable_hogp) { bt_hh_enable_type.hidp_enabled = enable_hidp; bt_hh_enable_type.hogp_enabled = enable_hogp; } static const bthh_interface_t bthhInterface = { sizeof(bthhInterface), init, connect, disconnect, virtual_unplug, set_info, get_protocol, set_protocol, get_idle_time, set_idle_time, get_report, get_report_reply, set_report, send_data, cleanup, configure_enabled_profiles, }; /******************************************************************************* * * Function btif_hh_execute_service * * Description Initializes/Shuts down the service * * Returns BT_STATUS_SUCCESS on success, BT_STATUS_FAIL otherwise * ******************************************************************************/ bt_status_t btif_hh_execute_service(bool b_enable) { if (b_enable) { /* Enable and register with BTA-HH */ BTA_HhEnable(bte_hh_evt, bt_hh_enable_type.hidp_enabled, bt_hh_enable_type.hogp_enabled); } else { /* Disable HH */ BTA_HhDisable(); } return BT_STATUS_SUCCESS; } /******************************************************************************* * * Function btif_hh_get_interface * * Description Get the hh callback interface * * Returns bthh_interface_t * ******************************************************************************/ const bthh_interface_t* btif_hh_get_interface() { log::verbose(""); return &bthhInterface; } #define DUMPSYS_TAG "shim::legacy::hid" void DumpsysHid(int fd) { LOG_DUMPSYS_TITLE(fd, DUMPSYS_TAG); LOG_DUMPSYS(fd, "status:%s num_devices:%u", btif_hh_status_text(btif_hh_cb.status).c_str(), btif_hh_cb.device_num); LOG_DUMPSYS(fd, "status:%s", btif_hh_status_text(btif_hh_cb.status).c_str()); for (auto link_spec : btif_hh_cb.pending_connections) { LOG_DUMPSYS(fd, "Pending connection: %s", link_spec.ToRedactedStringForLogging().c_str()); } for (unsigned i = 0; i < BTIF_HH_MAX_HID; i++) { const btif_hh_device_t* p_dev = &btif_hh_cb.devices[i]; if (p_dev->link_spec.addrt.bda != RawAddress::kEmpty) { int fd = (com::android::bluetooth::flags::hid_report_queuing() ? p_dev->internal_send_fd : p_dev->uhid.fd); LOG_DUMPSYS(fd, " %u: addr:%s fd:%d state:%s thread_id:%d handle:%d", i, p_dev->link_spec.ToRedactedStringForLogging().c_str(), fd, bthh_connection_state_text(p_dev->dev_status).c_str(), static_cast(p_dev->hh_poll_thread_id), p_dev->dev_handle); } } for (unsigned i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) { const btif_hh_added_device_t* p_dev = &btif_hh_cb.added_devices[i]; if (p_dev->link_spec.addrt.bda != RawAddress::kEmpty) { LOG_DUMPSYS(fd, " %u: addr:%s reconnect:%s", i, p_dev->link_spec.ToRedactedStringForLogging().c_str(), p_dev->reconnect_allowed ? "T" : "F"); } } BTA_HhDump(fd); } namespace bluetooth { namespace legacy { namespace testing { void bte_hh_evt(tBTA_HH_EVT event, tBTA_HH* p_data) { ::bte_hh_evt(event, p_data); } } // namespace testing } // namespace legacy } // namespace bluetooth #undef DUMPSYS_TAG