/****************************************************************************** * * Copyright (C) 1999-2012 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /***************************************************************************** * * This file contains main functions to support PAN profile * commands and events. * *****************************************************************************/ #include <string.h> #include "gki.h" #include "bt_types.h" #include "bnep_api.h" #include "pan_api.h" #include "pan_int.h" #include "sdp_api.h" #include "sdpdefs.h" #include "l2c_api.h" #include "hcidefs.h" #include "btm_api.h" /******************************************************************************* ** ** Function PAN_Register ** ** Description This function is called by the application to register ** its callbacks with PAN profile. The application then ** should set the PAN role explicitly. ** ** Parameters: p_register - contains all callback function pointers ** ** ** Returns none ** *******************************************************************************/ void PAN_Register (tPAN_REGISTER *p_register) { BTM_SetDiscoverability (BTM_GENERAL_DISCOVERABLE, 0, 0); BTM_SetConnectability (BTM_CONNECTABLE, 0, 0); pan_register_with_bnep (); if (!p_register) return; pan_cb.pan_conn_state_cb = p_register->pan_conn_state_cb; pan_cb.pan_bridge_req_cb = p_register->pan_bridge_req_cb; pan_cb.pan_data_buf_ind_cb = p_register->pan_data_buf_ind_cb; pan_cb.pan_data_ind_cb = p_register->pan_data_ind_cb; pan_cb.pan_pfilt_ind_cb = p_register->pan_pfilt_ind_cb; pan_cb.pan_mfilt_ind_cb = p_register->pan_mfilt_ind_cb; pan_cb.pan_tx_data_flow_cb = p_register->pan_tx_data_flow_cb; return; } /******************************************************************************* ** ** Function PAN_Deregister ** ** Description This function is called by the application to de-register ** its callbacks with PAN profile. This will make the PAN to ** become inactive. This will deregister PAN services from SDP ** and close all active connections ** ** Parameters: none ** ** ** Returns none ** *******************************************************************************/ void PAN_Deregister (void) { pan_cb.pan_bridge_req_cb = NULL; pan_cb.pan_data_buf_ind_cb = NULL; pan_cb.pan_data_ind_cb = NULL; pan_cb.pan_conn_state_cb = NULL; pan_cb.pan_pfilt_ind_cb = NULL; pan_cb.pan_mfilt_ind_cb = NULL; PAN_SetRole (PAN_ROLE_INACTIVE, NULL, NULL, NULL, NULL); BNEP_Deregister (); return; } /******************************************************************************* ** ** Function PAN_SetRole ** ** Description This function is called by the application to set the PAN ** profile role. This should be called after PAN_Register. ** This can be called any time to change the PAN role ** ** Parameters: role - is bit map of roles to be active ** PAN_ROLE_CLIENT is for PANU role ** PAN_ROLE_GN_SERVER is for GN role ** PAN_ROLE_NAP_SERVER is for NAP role ** sec_mask - Security mask for different roles ** It is array of UINT8. The byte represent the ** security for roles PANU, GN and NAP in order ** p_user_name - Service name for PANU role ** p_gn_name - Service name for GN role ** p_nap_name - Service name for NAP role ** Can be NULL if user wants it to be default ** ** Returns PAN_SUCCESS - if the role is set successfully ** PAN_FAILURE - if the role is not valid ** *******************************************************************************/ tPAN_RESULT PAN_SetRole (UINT8 role, UINT8 *sec_mask, char *p_user_name, char *p_gn_name, char *p_nap_name) { char *p_desc; UINT8 security[3] = {PAN_PANU_SECURITY_LEVEL, PAN_GN_SECURITY_LEVEL, PAN_NAP_SECURITY_LEVEL}; UINT8 *p_sec; /* If the role is not a valid combination reject it */ if ((!(role & (PAN_ROLE_CLIENT | PAN_ROLE_GN_SERVER | PAN_ROLE_NAP_SERVER))) && role != PAN_ROLE_INACTIVE) { PAN_TRACE_ERROR1 ("PAN role %d is invalid", role); return PAN_FAILURE; } /* If the current active role is same as the role being set do nothing */ if (pan_cb.role == role) { PAN_TRACE_EVENT1 ("PAN role already was set to: %d", role); return PAN_SUCCESS; } if (!sec_mask) p_sec = security; else p_sec = sec_mask; /* Register all the roles with SDP */ PAN_TRACE_API1 ("PAN_SetRole() called with role 0x%x", role); #if (defined (PAN_SUPPORTS_ROLE_NAP) && PAN_SUPPORTS_ROLE_NAP == TRUE) /* Check the service name */ if ((p_nap_name == NULL) || (*p_nap_name == 0)) p_nap_name = PAN_NAP_DEFAULT_SERVICE_NAME; if (role & PAN_ROLE_NAP_SERVER) { /* Registering for NAP service with SDP */ p_desc = PAN_NAP_DEFAULT_DESCRIPTION; if (pan_cb.pan_nap_sdp_handle != 0) SDP_DeleteRecord (pan_cb.pan_nap_sdp_handle); pan_cb.pan_nap_sdp_handle = pan_register_with_sdp (UUID_SERVCLASS_NAP, p_sec[2], p_nap_name, p_desc); // btla-specific ++ bta_sys_add_uuid(UUID_SERVCLASS_NAP); // btla-specific -- } /* If the NAP role is already active and now being cleared delete the record */ else if (pan_cb.role & PAN_ROLE_NAP_SERVER) { if (pan_cb.pan_nap_sdp_handle != 0) { SDP_DeleteRecord (pan_cb.pan_nap_sdp_handle); pan_cb.pan_nap_sdp_handle = 0; // btla-specific ++ bta_sys_remove_uuid(UUID_SERVCLASS_NAP); // btla-specific -- } } #endif #if (defined (PAN_SUPPORTS_ROLE_GN) && PAN_SUPPORTS_ROLE_GN == TRUE) /* Check the service name */ if ((p_gn_name == NULL) || (*p_gn_name == 0)) p_gn_name = PAN_GN_DEFAULT_SERVICE_NAME; if (role & PAN_ROLE_GN_SERVER) { /* Registering for GN service with SDP */ p_desc = PAN_GN_DEFAULT_DESCRIPTION; if (pan_cb.pan_gn_sdp_handle != 0) SDP_DeleteRecord (pan_cb.pan_gn_sdp_handle); pan_cb.pan_gn_sdp_handle = pan_register_with_sdp (UUID_SERVCLASS_GN, p_sec[1], p_gn_name, p_desc); // btla-specific ++ bta_sys_add_uuid(UUID_SERVCLASS_GN); // btla-specific -- } /* If the GN role is already active and now being cleared delete the record */ else if (pan_cb.role & PAN_ROLE_GN_SERVER) { if (pan_cb.pan_gn_sdp_handle != 0) { SDP_DeleteRecord (pan_cb.pan_gn_sdp_handle); pan_cb.pan_gn_sdp_handle = 0; // btla-specific ++ bta_sys_remove_uuid(UUID_SERVCLASS_GN); // btla-specific -- } } #endif #if (defined (PAN_SUPPORTS_ROLE_PANU) && PAN_SUPPORTS_ROLE_PANU == TRUE) /* Check the service name */ if ((p_user_name == NULL) || (*p_user_name == 0)) p_user_name = PAN_PANU_DEFAULT_SERVICE_NAME; if (role & PAN_ROLE_CLIENT) { /* Registering for PANU service with SDP */ p_desc = PAN_PANU_DEFAULT_DESCRIPTION; if (pan_cb.pan_user_sdp_handle != 0) SDP_DeleteRecord (pan_cb.pan_user_sdp_handle); pan_cb.pan_user_sdp_handle = pan_register_with_sdp (UUID_SERVCLASS_PANU, p_sec[0], p_user_name, p_desc); // btla-specific ++ bta_sys_add_uuid(UUID_SERVCLASS_PANU); // btla-specific -- } /* If the PANU role is already active and now being cleared delete the record */ else if (pan_cb.role & PAN_ROLE_CLIENT) { if (pan_cb.pan_user_sdp_handle != 0) { SDP_DeleteRecord (pan_cb.pan_user_sdp_handle); pan_cb.pan_user_sdp_handle = 0; // btla-specific ++ bta_sys_remove_uuid(UUID_SERVCLASS_PANU); // btla-specific -- } } #endif /* Check if it is a shutdown request */ if (role == PAN_ROLE_INACTIVE) pan_close_all_connections (); pan_cb.role = role; PAN_TRACE_EVENT1 ("PAN role set to: %d", role); return PAN_SUCCESS; } /******************************************************************************* ** ** Function PAN_Connect ** ** Description This function is called by the application to initiate a ** connection to the remote device ** ** Parameters: rem_bda - BD Addr of the remote device ** src_role - Role of the local device for the connection ** dst_role - Role of the remote device for the connection ** PAN_ROLE_CLIENT is for PANU role ** PAN_ROLE_GN_SERVER is for GN role ** PAN_ROLE_NAP_SERVER is for NAP role ** *handle - Pointer for returning Handle to the connection ** ** Returns PAN_SUCCESS - if the connection is initiated successfully ** PAN_NO_RESOURCES - resources are not sufficent ** PAN_FAILURE - if the connection cannot be initiated ** this can be because of the combination of ** src and dst roles may not be valid or ** allowed at that point of time ** *******************************************************************************/ tPAN_RESULT PAN_Connect (BD_ADDR rem_bda, UINT8 src_role, UINT8 dst_role, UINT16 *handle) { tPAN_CONN *pcb; tBNEP_RESULT result; tBT_UUID src_uuid, dst_uuid; UINT8 service_id; UINT32 mx_chan_id; /* ** Initialize the handle so that in case of failure return values ** the profile will not get confused */ *handle = BNEP_INVALID_HANDLE; /* Check if PAN is active or not */ if (!(pan_cb.role & src_role)) { PAN_TRACE_ERROR1 ("PAN is not active for the role %d", src_role); return PAN_FAILURE; } /* Validate the parameters before proceeding */ if ((src_role != PAN_ROLE_CLIENT && src_role != PAN_ROLE_GN_SERVER && src_role != PAN_ROLE_NAP_SERVER) || (dst_role != PAN_ROLE_CLIENT && dst_role != PAN_ROLE_GN_SERVER && dst_role != PAN_ROLE_NAP_SERVER)) { PAN_TRACE_ERROR2 ("Either source %d or destination role %d is invalid", src_role, dst_role); return PAN_FAILURE; } /* Check if connection exists for this remote device */ pcb = pan_get_pcb_by_addr (rem_bda); /* If we are PANU for this role validate destination role */ if (src_role == PAN_ROLE_CLIENT) { if ((pan_cb.num_conns > 1) || (pan_cb.num_conns && (!pcb))) { /* ** If the request is not for existing connection reject it ** because if there is already a connection we cannot accept ** another connection in PANU role */ PAN_TRACE_ERROR0 ("Cannot make PANU connections when there are more than one connection"); return PAN_INVALID_SRC_ROLE; } src_uuid.uu.uuid16 = UUID_SERVCLASS_PANU; if (dst_role == PAN_ROLE_CLIENT) { service_id = BTM_SEC_SERVICE_BNEP_PANU; dst_uuid.uu.uuid16 = UUID_SERVCLASS_PANU; } else if (dst_role == PAN_ROLE_GN_SERVER) { service_id = BTM_SEC_SERVICE_BNEP_GN; dst_uuid.uu.uuid16 = UUID_SERVCLASS_GN; } else { service_id = BTM_SEC_SERVICE_BNEP_NAP; dst_uuid.uu.uuid16 = UUID_SERVCLASS_NAP; } mx_chan_id = dst_uuid.uu.uuid16; } /* If destination is PANU role validate source role */ else if (dst_role == PAN_ROLE_CLIENT) { if (pan_cb.num_conns && pan_cb.active_role == PAN_ROLE_CLIENT && !pcb) { PAN_TRACE_ERROR0 ("Device already have a connection in PANU role"); return PAN_INVALID_SRC_ROLE; } dst_uuid.uu.uuid16 = UUID_SERVCLASS_PANU; if (src_role == PAN_ROLE_GN_SERVER) { service_id = BTM_SEC_SERVICE_BNEP_GN; src_uuid.uu.uuid16 = UUID_SERVCLASS_GN; } else { service_id = BTM_SEC_SERVICE_BNEP_NAP; src_uuid.uu.uuid16 = UUID_SERVCLASS_NAP; } mx_chan_id = src_uuid.uu.uuid16; } /* The role combination is not valid */ else { PAN_TRACE_ERROR2 ("Source %d and Destination roles %d are not valid combination", src_role, dst_role); return PAN_FAILURE; } /* Allocate control block and initiate connection */ if (!pcb) pcb = pan_allocate_pcb (rem_bda, BNEP_INVALID_HANDLE); if (!pcb) { PAN_TRACE_ERROR0 ("PAN Connection failed because of no resources"); return PAN_NO_RESOURCES; } BTM_SetOutService(rem_bda, BTM_SEC_SERVICE_BNEP_PANU, mx_chan_id); PAN_TRACE_API6 ("PAN_Connect() for BD Addr %x.%x.%x.%x.%x.%x", rem_bda[0], rem_bda[1], rem_bda[2], rem_bda[3], rem_bda[4], rem_bda[5]); if (pcb->con_state == PAN_STATE_IDLE) { pan_cb.num_conns++; } else if (pcb->con_state == PAN_STATE_CONNECTED) { pcb->con_flags |= PAN_FLAGS_CONN_COMPLETED; } else /* PAN connection is still in progress */ return PAN_WRONG_STATE; pcb->con_state = PAN_STATE_CONN_START; pcb->prv_src_uuid = pcb->src_uuid; pcb->prv_dst_uuid = pcb->dst_uuid; pcb->src_uuid = src_uuid.uu.uuid16; pcb->dst_uuid = dst_uuid.uu.uuid16; src_uuid.len = 2; dst_uuid.len = 2; result = BNEP_Connect (rem_bda, &src_uuid, &dst_uuid, &(pcb->handle)); if (result != BNEP_SUCCESS) { pan_release_pcb (pcb); return result; } PAN_TRACE_DEBUG1 ("PAN_Connect() current active role set to %d", src_role); pan_cb.prv_active_role = pan_cb.active_role; pan_cb.active_role = src_role; *handle = pcb->handle; return PAN_SUCCESS; } /******************************************************************************* ** ** Function PAN_Disconnect ** ** Description This is used to disconnect the connection ** ** Parameters: handle - handle for the connection ** ** Returns PAN_SUCCESS - if the connection is closed successfully ** PAN_FAILURE - if the connection is not found or ** there is an error in disconnecting ** *******************************************************************************/ tPAN_RESULT PAN_Disconnect (UINT16 handle) { tPAN_CONN *pcb; tBNEP_RESULT result; /* Check if the connection exists */ pcb = pan_get_pcb_by_handle (handle); if(!pcb) { PAN_TRACE_ERROR1 ("PAN connection not found for the handle %d", handle); return PAN_FAILURE; } result = BNEP_Disconnect (pcb->handle); if (pcb->con_state == PAN_STATE_CONNECTED) pan_cb.num_conns--; if (pan_cb.pan_bridge_req_cb && pcb->src_uuid == UUID_SERVCLASS_NAP) (*pan_cb.pan_bridge_req_cb) (pcb->rem_bda, FALSE); pan_release_pcb (pcb); if (result != BNEP_SUCCESS) { PAN_TRACE_EVENT0 ("Error in closing PAN connection"); return PAN_FAILURE; } PAN_TRACE_EVENT0 ("PAN connection closed"); return PAN_SUCCESS; } /******************************************************************************* ** ** Function PAN_Write ** ** Description This sends data over the PAN connections. If this is called ** on GN or NAP side and the packet is multicast or broadcast ** it will be sent on all the links. Otherwise the correct link ** is found based on the destination address and forwarded on it ** If the return value is not PAN_SUCCESS the application should ** take care of releasing the message buffer ** ** Parameters: handle - handle for the connection ** dst - MAC or BD Addr of the destination device ** src - MAC or BD Addr of the source who sent this packet ** protocol - protocol of the ethernet packet like IP or ARP ** p_data - pointer to the data ** len - length of the data ** ext - to indicate that extension headers present ** ** Returns PAN_SUCCESS - if the data is sent successfully ** PAN_FAILURE - if the connection is not found or ** there is an error in sending data ** *******************************************************************************/ tPAN_RESULT PAN_Write (UINT16 handle, BD_ADDR dst, BD_ADDR src, UINT16 protocol, UINT8 *p_data, UINT16 len, BOOLEAN ext) { tPAN_CONN *pcb; UINT16 i; tBNEP_RESULT result; if (pan_cb.role == PAN_ROLE_INACTIVE || (!(pan_cb.num_conns))) { PAN_TRACE_ERROR0 ("PAN is not active Data write failed"); return PAN_FAILURE; } /* Check if it is broadcast or multicast packet */ if (dst[0] & 0x01) { for (i=0; i<MAX_PAN_CONNS; i++) { if (pan_cb.pcb[i].con_state == PAN_STATE_CONNECTED) BNEP_Write (pan_cb.pcb[i].handle, dst, p_data, len, protocol, src, ext); } return PAN_SUCCESS; } if (pan_cb.active_role == PAN_ROLE_CLIENT) { /* Data write is on PANU connection */ for (i=0; i<MAX_PAN_CONNS; i++) { if (pan_cb.pcb[i].con_state == PAN_STATE_CONNECTED && pan_cb.pcb[i].src_uuid == UUID_SERVCLASS_PANU) break; } if (i == MAX_PAN_CONNS) { PAN_TRACE_ERROR0 ("PAN Don't have any user connections"); return PAN_FAILURE; } result = BNEP_Write (pan_cb.pcb[i].handle, dst, p_data, len, protocol, src, ext); if (result == BNEP_IGNORE_CMD) { PAN_TRACE_DEBUG0 ("PAN ignored data for PANU connection"); return result; } else if (result != BNEP_SUCCESS) { PAN_TRACE_ERROR0 ("PAN failed to write data for the PANU connection"); return result; } PAN_TRACE_DEBUG0 ("PAN successfully wrote data for the PANU connection"); return PAN_SUCCESS; } pcb = pan_get_pcb_by_handle (handle); if (!pcb) { PAN_TRACE_ERROR0 ("PAN Data write for wrong addr"); return PAN_FAILURE; } if (pcb->con_state != PAN_STATE_CONNECTED) { PAN_TRACE_ERROR0 ("PAN Data write when conn is not active"); return PAN_FAILURE; } result = BNEP_Write (pcb->handle, dst, p_data, len, protocol, src, ext); if (result == BNEP_IGNORE_CMD) { PAN_TRACE_DEBUG0 ("PAN ignored data write to PANU"); return result; } else if (result != BNEP_SUCCESS) { PAN_TRACE_ERROR0 ("PAN failed to send data to the PANU"); return result; } PAN_TRACE_DEBUG0 ("PAN successfully sent data to the PANU"); return PAN_SUCCESS; } /******************************************************************************* ** ** Function PAN_WriteBuf ** ** Description This sends data over the PAN connections. If this is called ** on GN or NAP side and the packet is multicast or broadcast ** it will be sent on all the links. Otherwise the correct link ** is found based on the destination address and forwarded on it ** If the return value is not PAN_SUCCESS the application should ** take care of releasing the message buffer ** ** Parameters: handle - handle for the connection ** dst - MAC or BD Addr of the destination device ** src - MAC or BD Addr of the source who sent this packet ** protocol - protocol of the ethernet packet like IP or ARP ** p_buf - pointer to the data buffer ** ext - to indicate that extension headers present ** ** Returns PAN_SUCCESS - if the data is sent successfully ** PAN_FAILURE - if the connection is not found or ** there is an error in sending data ** *******************************************************************************/ tPAN_RESULT PAN_WriteBuf (UINT16 handle, BD_ADDR dst, BD_ADDR src, UINT16 protocol, BT_HDR *p_buf, BOOLEAN ext) { tPAN_CONN *pcb; UINT16 i; tBNEP_RESULT result; /* Check if it is broadcast or multicast packet */ if (dst[0] & 0x01) { UINT8 *p_data; UINT16 len; p_data = (UINT8 *)(p_buf + 1) + p_buf->offset; len = p_buf->len; PAN_Write (handle, dst, src, protocol, p_data, len, ext); GKI_freebuf (p_buf); return PAN_SUCCESS; } if (pan_cb.role == PAN_ROLE_INACTIVE || (!(pan_cb.num_conns))) { PAN_TRACE_ERROR0 ("PAN is not active Data write failed"); GKI_freebuf (p_buf); return PAN_FAILURE; } /* Check if the data write is on PANU side */ if (pan_cb.active_role == PAN_ROLE_CLIENT) { /* Data write is on PANU connection */ for (i=0; i<MAX_PAN_CONNS; i++) { if (pan_cb.pcb[i].con_state == PAN_STATE_CONNECTED && pan_cb.pcb[i].src_uuid == UUID_SERVCLASS_PANU) break; } if (i == MAX_PAN_CONNS) { PAN_TRACE_ERROR0 ("PAN Don't have any user connections"); GKI_freebuf (p_buf); return PAN_FAILURE; } result = BNEP_WriteBuf (pan_cb.pcb[i].handle, dst, p_buf, protocol, src, ext); if (result == BNEP_IGNORE_CMD) { PAN_TRACE_DEBUG0 ("PAN ignored data write for PANU connection"); return result; } else if (result != BNEP_SUCCESS) { PAN_TRACE_ERROR0 ("PAN failed to write data for the PANU connection"); return result; } PAN_TRACE_DEBUG0 ("PAN successfully wrote data for the PANU connection"); return PAN_SUCCESS; } /* findout to which connection the data is meant for */ pcb = pan_get_pcb_by_handle (handle); if (!pcb) { PAN_TRACE_ERROR0 ("PAN Buf write for wrong handle"); GKI_freebuf (p_buf); return PAN_FAILURE; } if (pcb->con_state != PAN_STATE_CONNECTED) { PAN_TRACE_ERROR0 ("PAN Buf write when conn is not active"); GKI_freebuf (p_buf); return PAN_FAILURE; } result = BNEP_WriteBuf (pcb->handle, dst, p_buf, protocol, src, ext); if (result == BNEP_IGNORE_CMD) { PAN_TRACE_DEBUG0 ("PAN ignored data buf write to PANU"); return result; } else if (result != BNEP_SUCCESS) { PAN_TRACE_ERROR0 ("PAN failed to send data buf to the PANU"); return result; } PAN_TRACE_DEBUG0 ("PAN successfully sent data buf to the PANU"); return PAN_SUCCESS; } /******************************************************************************* ** ** Function PAN_SetProtocolFilters ** ** Description This function is used to set protocol filters on the peer ** ** Parameters: handle - handle for the connection ** num_filters - number of protocol filter ranges ** start - array of starting protocol numbers ** end - array of ending protocol numbers ** ** ** Returns PAN_SUCCESS if protocol filters are set successfully ** PAN_FAILURE if connection not found or error in setting ** *******************************************************************************/ tPAN_RESULT PAN_SetProtocolFilters (UINT16 handle, UINT16 num_filters, UINT16 *p_start_array, UINT16 *p_end_array) { #if (defined (BNEP_SUPPORTS_PROT_FILTERS) && BNEP_SUPPORTS_PROT_FILTERS == TRUE) tPAN_CONN *pcb; tPAN_RESULT result; /* Check if the connection exists */ pcb = pan_get_pcb_by_handle (handle); if(!pcb) { PAN_TRACE_ERROR1 ("PAN connection not found for the handle %d", handle); return PAN_FAILURE; } result = BNEP_SetProtocolFilters (pcb->handle, num_filters, p_start_array, p_end_array); if (result != BNEP_SUCCESS) { PAN_TRACE_ERROR1 ("PAN failed to set protocol filters for handle %d", handle); return result; } PAN_TRACE_API1 ("PAN successfully sent protocol filters for handle %d", handle); return PAN_SUCCESS; #else return PAN_FAILURE; #endif } /******************************************************************************* ** ** Function PAN_SetMulticastFilters ** ** Description This function is used to set multicast filters on the peer ** ** Parameters: handle - handle for the connection ** num_filters - number of multicast filter ranges ** start - array of starting multicast filter addresses ** end - array of ending multicast filter addresses ** ** ** Returns PAN_SUCCESS if multicast filters are set successfully ** PAN_FAILURE if connection not found or error in setting ** *******************************************************************************/ tBNEP_RESULT PAN_SetMulticastFilters (UINT16 handle, UINT16 num_mcast_filters, UINT8 *p_start_array, UINT8 *p_end_array) { #if (defined (BNEP_SUPPORTS_MULTI_FILTERS) && BNEP_SUPPORTS_MULTI_FILTERS == TRUE) tPAN_CONN *pcb; tPAN_RESULT result; /* Check if the connection exists */ pcb = pan_get_pcb_by_handle (handle); if(!pcb) { PAN_TRACE_ERROR1 ("PAN connection not found for the handle %d", handle); return PAN_FAILURE; } result = BNEP_SetMulticastFilters (pcb->handle, num_mcast_filters, p_start_array, p_end_array); if (result != BNEP_SUCCESS) { PAN_TRACE_ERROR1 ("PAN failed to set multicast filters for handle %d", handle); return result; } PAN_TRACE_API1 ("PAN successfully sent multicast filters for handle %d", handle); return PAN_SUCCESS; #else return PAN_FAILURE; #endif } /******************************************************************************* ** ** Function PAN_SetTraceLevel ** ** Description This function sets the trace level for PAN. If called with ** a value of 0xFF, it simply reads the current trace level. ** ** Returns the new (current) trace level ** *******************************************************************************/ UINT8 PAN_SetTraceLevel (UINT8 new_level) { if (new_level != 0xFF) pan_cb.trace_level = new_level; else pan_dump_status (); return (pan_cb.trace_level); } /******************************************************************************* ** ** Function PAN_Init ** ** Description This function initializes the PAN module variables ** ** Parameters: none ** ** Returns none ** *******************************************************************************/ void PAN_Init (void) { memset (&pan_cb, 0, sizeof (tPAN_CB)); #if defined(PAN_INITIAL_TRACE_LEVEL) pan_cb.trace_level = PAN_INITIAL_TRACE_LEVEL; #else pan_cb.trace_level = BT_TRACE_LEVEL_NONE; /* No traces */ #endif }