/****************************************************************************** * * Copyright (C) 2005-2012 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. * ******************************************************************************/ #include #include "bt_target.h" #if defined(BTA_HH_INCLUDED) && (BTA_HH_INCLUDED == TRUE) #include "bta_hh_int.h" /* if SSR max latency is not defined by remote device, set the default value as half of the link supervision timeout */ #define BTA_HH_GET_DEF_SSR_MAX_LAT(x) ((x)>> 1) /***************************************************************************** ** Constants *****************************************************************************/ #define BTA_HH_KB_CTRL_MASK 0x11 #define BTA_HH_KB_SHIFT_MASK 0x22 #define BTA_HH_KB_ALT_MASK 0x44 #define BTA_HH_KB_GUI_MASK 0x88 #define BTA_HH_KB_CAPS_LOCK 0x39 /* caps lock */ #define BTA_HH_KB_NUM_LOCK 0x53 /* num lock */ #define BTA_HH_MAX_RPT_CHARS 8 static const UINT8 bta_hh_mod_key_mask[BTA_HH_MOD_MAX_KEY] = { BTA_HH_KB_CTRL_MASK, BTA_HH_KB_SHIFT_MASK, BTA_HH_KB_ALT_MASK, BTA_HH_KB_GUI_MASK }; /* hid_blacklist_addr_prefix_for_ssr & hid_ssr_max_lat_list_for_iot are used to fix IOP issues of sniff subrate feature */ static const UINT8 hid_blacklist_addr_prefix_for_ssr[][3] = { {0x00, 0x1B, 0xDC} // ISSC ,{0xdc, 0x2c, 0x26} // BORND ,{0x54, 0x46, 0x6B} // JW MT002 }; static const UINT16 hid_ssr_max_lat_list_for_iot[] = { 0x0012 // ISSC ,BTA_HH_SSR_MAX_LATENCY_ZERO // BORND ,BTA_HH_SSR_DISABLE_SSR // JW MT002 }; /******************************************************************************* ** Function blacklist_adjust_sniff_subrate ** ** Description It's used to update SSR parameter such as max latency, ** if device is found in HID blacklist. ** ** Returns None *******************************************************************************/ static void blacklist_adjust_sniff_subrate(BD_ADDR peer_dev, UINT16 *ssr_max_lat) { UINT16 old_ssr_max_lat = *ssr_max_lat; const int blacklist_size = sizeof(hid_blacklist_addr_prefix_for_ssr)/sizeof(hid_blacklist_addr_prefix_for_ssr[0]); for (int i = 0; i < blacklist_size; i++) { if (hid_blacklist_addr_prefix_for_ssr[i][0] == peer_dev[0] && hid_blacklist_addr_prefix_for_ssr[i][1] == peer_dev[1] && hid_blacklist_addr_prefix_for_ssr[i][2] == peer_dev[2]) { *ssr_max_lat = hid_ssr_max_lat_list_for_iot[i]; APPL_TRACE_WARNING("%s: Device in blacklist for ssr, max latency changed " "from %d to %d", __func__, old_ssr_max_lat, *ssr_max_lat); return; } } } /******************************************************************************* ** ** Function bta_hh_find_cb ** ** Description Find best available control block according to BD address. ** ** ** Returns void ** *******************************************************************************/ UINT8 bta_hh_find_cb(BD_ADDR bda) { UINT8 xx; /* See how many active devices there are. */ for (xx = 0; xx < BTA_HH_MAX_DEVICE; xx++) { /* check if any active/known devices is a match */ if ((!bdcmp (bda, bta_hh_cb.kdev[xx].addr) && bdcmp(bda, bd_addr_null) != 0) ) { #if BTA_HH_DEBUG APPL_TRACE_DEBUG("found kdev_cb[%d] hid_handle = %d ", xx, bta_hh_cb.kdev[xx].hid_handle) #endif return xx; } #if BTA_HH_DEBUG else APPL_TRACE_DEBUG("in_use ? [%d] kdev[%d].hid_handle = %d state = [%d]", bta_hh_cb.kdev[xx].in_use, xx, bta_hh_cb.kdev[xx].hid_handle, bta_hh_cb.kdev[xx].state); #endif } /* if no active device match, find a spot for it */ for (xx = 0; xx < BTA_HH_MAX_DEVICE; xx++) { if (!bta_hh_cb.kdev[xx].in_use) { bdcpy(bta_hh_cb.kdev[xx].addr, bda); break; } } /* If device list full, report BTA_HH_IDX_INVALID */ #if BTA_HH_DEBUG APPL_TRACE_DEBUG("bta_hh_find_cb:: index = %d while max = %d", xx, BTA_HH_MAX_DEVICE); #endif if (xx == BTA_HH_MAX_DEVICE) xx = BTA_HH_IDX_INVALID; return xx; } /******************************************************************************* ** ** Function bta_hh_clean_up_kdev ** ** Description Clean up device control block when device is removed from ** manitainace list, and update control block index map. ** ** Returns void ** *******************************************************************************/ void bta_hh_clean_up_kdev(tBTA_HH_DEV_CB *p_cb) { UINT8 index; if (p_cb->hid_handle != BTA_HH_INVALID_HANDLE ) { #if BTA_HH_LE_INCLUDED == TRUE if (p_cb->is_le_device) bta_hh_cb.le_cb_index[BTA_HH_GET_LE_CB_IDX(p_cb->hid_handle)] = BTA_HH_IDX_INVALID; else #endif bta_hh_cb.cb_index[p_cb->hid_handle] = BTA_HH_IDX_INVALID; } /* reset device control block */ index = p_cb->index; /* Preserve index for this control block */ /* Free buffer for report descriptor info */ utl_freebuf((void **)&p_cb->dscp_info.descriptor.dsc_list); memset(p_cb, 0, sizeof (tBTA_HH_DEV_CB)); /* Reset control block */ p_cb->index = index; /* Restore index for this control block */ p_cb->state = BTA_HH_IDLE_ST; p_cb->hid_handle = BTA_HH_INVALID_HANDLE; } /******************************************************************************* ** ** Function bta_hh_update_di_info ** ** Description Maintain a known device list for BTA HH. ** ** Returns void ** *******************************************************************************/ void bta_hh_update_di_info(tBTA_HH_DEV_CB *p_cb, UINT16 vendor_id, UINT16 product_id, UINT16 version, UINT8 flag) { #if BTA_HH_DEBUG APPL_TRACE_DEBUG("vendor_id = 0x%2x product_id = 0x%2x version = 0x%2x", vendor_id, product_id, version); #endif p_cb->dscp_info.vendor_id = vendor_id; p_cb->dscp_info.product_id = product_id; p_cb->dscp_info.version = version; #if (defined BTA_HH_LE_INCLUDED && BTA_HH_LE_INCLUDED == TRUE) p_cb->dscp_info.flag = flag; #else UNUSED(flag); #endif } /******************************************************************************* ** ** Function bta_hh_add_device_to_list ** ** Description Maintain a known device list for BTA HH. ** ** Returns void ** *******************************************************************************/ void bta_hh_add_device_to_list(tBTA_HH_DEV_CB *p_cb, UINT8 handle, UINT16 attr_mask, tHID_DEV_DSCP_INFO *p_dscp_info, UINT8 sub_class, UINT16 ssr_max_latency, UINT16 ssr_min_tout, UINT8 app_id) { #if BTA_HH_DEBUG APPL_TRACE_DEBUG("subclass = 0x%2x", sub_class); #endif p_cb->hid_handle = handle; p_cb->in_use = TRUE; p_cb->attr_mask = attr_mask; p_cb->sub_class = sub_class; p_cb->app_id = app_id; p_cb->dscp_info.ssr_max_latency = ssr_max_latency; blacklist_adjust_sniff_subrate(p_cb->addr, &(p_cb->dscp_info.ssr_max_latency)); p_cb->dscp_info.ssr_min_tout = ssr_min_tout; /* store report descriptor info */ if ( p_dscp_info) { utl_freebuf((void **)&p_cb->dscp_info.descriptor.dsc_list); if (p_dscp_info->dl_len && (p_cb->dscp_info.descriptor.dsc_list = (UINT8 *)GKI_getbuf(p_dscp_info->dl_len)) != NULL) { p_cb->dscp_info.descriptor.dl_len = p_dscp_info->dl_len; memcpy(p_cb->dscp_info.descriptor.dsc_list, p_dscp_info->dsc_list, p_dscp_info->dl_len); } } return; } /******************************************************************************* ** ** Function bta_hh_tod_spt ** ** Description Check to see if this type of device is supported ** ** Returns ** *******************************************************************************/ BOOLEAN bta_hh_tod_spt(tBTA_HH_DEV_CB *p_cb,UINT8 sub_class) { UINT8 xx; UINT8 cod = (sub_class >> 2); /* lower two bits are reserved */ for (xx = 0 ; xx < p_bta_hh_cfg->max_devt_spt; xx ++) { if (cod == (UINT8) p_bta_hh_cfg->p_devt_list[xx].tod) { p_cb->app_id = p_bta_hh_cfg->p_devt_list[xx].app_id; #if BTA_HH_DEBUG APPL_TRACE_EVENT("bta_hh_tod_spt sub_class:0x%x supported", sub_class); #endif return TRUE; } } #if BTA_HH_DEBUG APPL_TRACE_EVENT("bta_hh_tod_spt sub_class:0x%x NOT supported", sub_class); #endif return FALSE; } /******************************************************************************* ** ** Function bta_hh_parse_keybd_rpt ** ** Description This utility function parse a boot mode keyboard report. ** ** Returns void ** *******************************************************************************/ void bta_hh_parse_keybd_rpt(tBTA_HH_BOOT_RPT *p_kb_data, UINT8 *p_report, UINT16 report_len) { tBTA_HH_KB_CB *p_kb = &bta_hh_cb.kb_cb; tBTA_HH_KEYBD_RPT *p_data = &p_kb_data->data_rpt.keybd_rpt; UINT8 this_char, ctl_shift; UINT16 xx, yy, key_idx = 0; UINT8 this_report[BTA_HH_MAX_RPT_CHARS]; #if BTA_HH_DEBUG APPL_TRACE_DEBUG("bta_hh_parse_keybd_rpt: (report=%p, report_len=%d) called", p_report, report_len); #endif if (report_len < 2) return; ctl_shift = *p_report++; report_len--; if (report_len > BTA_HH_MAX_RPT_CHARS) report_len = BTA_HH_MAX_RPT_CHARS; memset (this_report, 0, BTA_HH_MAX_RPT_CHARS); memset (p_data, 0, sizeof(tBTA_HH_KEYBD_RPT)); memcpy (this_report, p_report, report_len); /* Take care of shift, control, GUI and alt, modifier keys */ for (xx = 0; xx < BTA_HH_MOD_MAX_KEY; xx ++ ) { if (ctl_shift & bta_hh_mod_key_mask[xx]) { APPL_TRACE_DEBUG("Mod Key[%02x] pressed", bta_hh_mod_key_mask[xx] ); p_kb->mod_key[xx] = TRUE; } else if (p_kb->mod_key[xx]) { p_kb->mod_key[xx] = FALSE; } /* control key flag is set */ p_data->mod_key[xx] = p_kb->mod_key[xx]; } /***************************************************************************/ /* First step is to remove all characters we saw in the last report */ /***************************************************************************/ for (xx = 0; xx < report_len; xx++) { for (yy = 0; yy < BTA_HH_MAX_RPT_CHARS; yy++) { if (this_report[xx] == p_kb->last_report[yy]) { this_report[xx] = 0; } } } /***************************************************************************/ /* Now, process all the characters in the report, up to 6 keycodes */ /***************************************************************************/ for (xx = 0; xx < report_len; xx++) { #if BTA_HH_DEBUG APPL_TRACE_DEBUG("this_char = %02x", this_report[xx]); #endif if ((this_char = this_report[xx]) == 0) continue; /* take the key code as the report data */ if (this_report[xx] == BTA_HH_KB_CAPS_LOCK) p_kb->caps_lock = p_kb->caps_lock ? FALSE : TRUE; else if (this_report[xx] == BTA_HH_KB_NUM_LOCK) p_kb->num_lock = p_kb->num_lock ? FALSE : TRUE; else p_data->this_char[key_idx ++] = this_char; #if BTA_HH_DEBUG APPL_TRACE_DEBUG("found keycode %02x ", this_report[xx]); #endif p_data->caps_lock = p_kb->caps_lock; p_data->num_lock = p_kb->num_lock; } memset (p_kb->last_report, 0, BTA_HH_MAX_RPT_CHARS); memcpy (p_kb->last_report, p_report, report_len); return; } /******************************************************************************* ** ** Function bta_hh_parse_mice_rpt ** ** Description This utility function parse a boot mode mouse report. ** ** Returns void ** *******************************************************************************/ void bta_hh_parse_mice_rpt(tBTA_HH_BOOT_RPT *p_mice_data, UINT8 *p_report, UINT16 report_len) { tBTA_HH_MICE_RPT *p_data = &p_mice_data->data_rpt.mice_rpt; #if BTA_HH_DEBUG UINT8 xx; APPL_TRACE_DEBUG("bta_hh_parse_mice_rpt: bta_keybd_rpt_rcvd(report=%p, \ report_len=%d) called", p_report, report_len); #endif if (report_len < 3) return; if (report_len > BTA_HH_MAX_RPT_CHARS) report_len = BTA_HH_MAX_RPT_CHARS; #if BTA_HH_DEBUG for (xx = 0; xx < report_len; xx++) { APPL_TRACE_DEBUG("this_char = %02x", p_report[xx]); } #endif /* only first bytes lower 3 bits valid */ p_data->mouse_button = (p_report[0] & 0x07); /* x displacement */ p_data->delta_x = p_report[1]; /* y displacement */ p_data->delta_y = p_report[2]; #if BTA_HH_DEBUG APPL_TRACE_DEBUG("mice button: 0x%2x", p_data->mouse_button); APPL_TRACE_DEBUG("mice move: x = %d y = %d", p_data->delta_x, p_data->delta_y ); #endif return; } /******************************************************************************* ** ** Function bta_hh_read_ssr_param ** ** Description Read the SSR Parameter for the remote device ** ** Returns tBTA_HH_STATUS operation status ** *******************************************************************************/ tBTA_HH_STATUS bta_hh_read_ssr_param(BD_ADDR bd_addr, UINT16 *p_max_ssr_lat, UINT16 *p_min_ssr_tout) { tBTA_HH_STATUS status = BTA_HH_ERR; tBTA_HH_CB *p_cb = &bta_hh_cb; UINT8 i; UINT16 ssr_max_latency; for (i = 0; i < BTA_HH_MAX_KNOWN; i ++) { if (memcmp(p_cb->kdev[i].addr, bd_addr, BD_ADDR_LEN) == 0) { /* if remote device does not have HIDSSRHostMaxLatency attribute in SDP, set SSR max latency default value here. */ if (p_cb->kdev[i].dscp_info.ssr_max_latency == HID_SSR_PARAM_INVALID) { /* The default is calculated as half of link supervision timeout.*/ BTM_GetLinkSuperTout(p_cb->kdev[i].addr, &ssr_max_latency) ; ssr_max_latency = BTA_HH_GET_DEF_SSR_MAX_LAT(ssr_max_latency); /* per 1.1 spec, if the newly calculated max latency is greater than BTA_HH_SSR_MAX_LATENCY_DEF which is 500ms, use BTA_HH_SSR_MAX_LATENCY_DEF */ if (ssr_max_latency > BTA_HH_SSR_MAX_LATENCY_DEF) ssr_max_latency = BTA_HH_SSR_MAX_LATENCY_DEF; * p_max_ssr_lat = ssr_max_latency; } else * p_max_ssr_lat = p_cb->kdev[i].dscp_info.ssr_max_latency; if (p_cb->kdev[i].dscp_info.ssr_min_tout == HID_SSR_PARAM_INVALID) * p_min_ssr_tout = BTA_HH_SSR_MIN_TOUT_DEF; else * p_min_ssr_tout = p_cb->kdev[i].dscp_info.ssr_min_tout; status = BTA_HH_OK; break; } } return status; } /******************************************************************************* ** ** Function bta_hh_cleanup_disable ** ** Description when disable finished, cleanup control block and send callback ** ** ** Returns void ** *******************************************************************************/ void bta_hh_cleanup_disable(tBTA_HH_STATUS status) { UINT8 xx; /* free buffer in CB holding report descriptors */ for(xx = 0; xx < BTA_HH_MAX_DEVICE; xx ++) { utl_freebuf((void **)&bta_hh_cb.kdev[xx].dscp_info.descriptor.dsc_list); } utl_freebuf((void **)&bta_hh_cb.p_disc_db); if (bta_hh_cb.p_cback) { (* bta_hh_cb.p_cback)(BTA_HH_DISABLE_EVT, (tBTA_HH *)&status); /* all connections are down, no waiting for diconnect */ memset(&bta_hh_cb, 0, sizeof(tBTA_HH_CB)); } } /******************************************************************************* ** ** Function bta_hh_dev_handle_to_cb_idx ** ** Description convert a HID device handle to the device control block index. ** ** ** Returns UINT8: index of the device control block. ** *******************************************************************************/ UINT8 bta_hh_dev_handle_to_cb_idx(UINT8 dev_handle) { UINT8 index = BTA_HH_IDX_INVALID; #if BTA_HH_LE_INCLUDED == TRUE if (BTA_HH_IS_LE_DEV_HDL(dev_handle)) { if (BTA_HH_IS_LE_DEV_HDL_VALID(dev_handle)) index = bta_hh_cb.le_cb_index[BTA_HH_GET_LE_CB_IDX(dev_handle)]; #if BTA_HH_DEBUG == TRUE APPL_TRACE_DEBUG("bta_hh_dev_handle_to_cb_idx dev_handle = %d index = %d", dev_handle, index); #endif } else #endif /* regular HID device checking */ if (dev_handle < BTA_HH_MAX_KNOWN ) index = bta_hh_cb.cb_index[dev_handle]; return index; } #if BTA_HH_DEBUG /******************************************************************************* ** ** Function bta_hh_trace_dev_db ** ** Description Check to see if this type of device is supported ** ** Returns ** *******************************************************************************/ void bta_hh_trace_dev_db(void) { UINT8 xx; APPL_TRACE_DEBUG("bta_hh_trace_dev_db:: Device DB list********************"); for (xx = 0; xx < BTA_HH_MAX_DEVICE; xx++) { APPL_TRACE_DEBUG("kdev[%d] in_use[%d] handle[%d] ",xx, bta_hh_cb.kdev[xx].in_use, bta_hh_cb.kdev[xx].hid_handle); APPL_TRACE_DEBUG("\t\t\t attr_mask[%04x] state [%d] sub_class[%02x] index = %d", bta_hh_cb.kdev[xx].attr_mask, bta_hh_cb.kdev[xx].state, bta_hh_cb.kdev[xx].sub_class, bta_hh_cb.kdev[xx].index); } APPL_TRACE_DEBUG("*********************************************************"); } #endif #endif /* HL_INCLUDED */