/****************************************************************************** * * Copyright (C) 2010-2014 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /****************************************************************************** * * This file contains the utility functions for the NFA HCI. * ******************************************************************************/ #include #include #include #include #include "nfa_dm_int.h" #include "nfa_hci_api.h" #include "nfa_hci_defs.h" #include "nfa_hci_int.h" using android::base::StringPrintf; extern bool nfc_debug_enabled; static void handle_debug_loopback(NFC_HDR* p_buf, uint8_t type, uint8_t instruction); uint8_t HCI_LOOPBACK_DEBUG = NFA_HCI_DEBUG_OFF; /******************************************************************************* ** ** Function nfa_hciu_find_pipe_by_pid ** ** Description look for the pipe control block based on pipe id ** ** Returns pointer to the pipe control block, or NULL if not found ** *******************************************************************************/ tNFA_HCI_DYN_PIPE* nfa_hciu_find_pipe_by_pid(uint8_t pipe_id) { tNFA_HCI_DYN_PIPE* pp = nfa_hci_cb.cfg.dyn_pipes; int xx = 0; /* Loop through looking for a match */ for (; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if (pp->pipe_id == pipe_id) return (pp); } /* If here, not found */ return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_find_gate_by_gid ** ** Description Find the gate control block for the given gate id ** ** Returns pointer to the gate control block, or NULL if not found ** *******************************************************************************/ tNFA_HCI_DYN_GATE* nfa_hciu_find_gate_by_gid(uint8_t gate_id) { tNFA_HCI_DYN_GATE* pg = nfa_hci_cb.cfg.dyn_gates; int xx = 0; for (; xx < NFA_HCI_MAX_GATE_CB; xx++, pg++) { if (pg->gate_id == gate_id) return (pg); } return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_find_gate_by_owner ** ** Description Find the the first gate control block for the given owner ** ** Returns pointer to the gate control block, or NULL if not found ** *******************************************************************************/ tNFA_HCI_DYN_GATE* nfa_hciu_find_gate_by_owner(tNFA_HANDLE app_handle) { tNFA_HCI_DYN_GATE* pg = nfa_hci_cb.cfg.dyn_gates; int xx = 0; for (; xx < NFA_HCI_MAX_GATE_CB; xx++, pg++) { if (pg->gate_owner == app_handle) return (pg); } return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_find_gate_with_nopipes_by_owner ** ** Description Find the the first gate control block with no pipes ** for the given owner ** ** Returns pointer to the gate control block, or NULL if not found ** *******************************************************************************/ tNFA_HCI_DYN_GATE* nfa_hciu_find_gate_with_nopipes_by_owner( tNFA_HANDLE app_handle) { tNFA_HCI_DYN_GATE* pg = nfa_hci_cb.cfg.dyn_gates; int xx = 0; for (; xx < NFA_HCI_MAX_GATE_CB; xx++, pg++) { if ((pg->gate_owner == app_handle) && (pg->pipe_inx_mask == 0)) return (pg); } return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_count_pipes_on_gate ** ** Description Count the number of pipes on the given gate ** ** Returns the number of pipes on the gate ** *******************************************************************************/ uint8_t nfa_hciu_count_pipes_on_gate(tNFA_HCI_DYN_GATE* p_gate) { int xx = 0; uint32_t mask = 1; uint8_t count = 0; for (; xx < NFA_HCI_MAX_PIPE_CB; xx++) { if (p_gate->pipe_inx_mask & mask) count++; mask = mask << 1; } return (count); } /******************************************************************************* ** ** Function nfa_hciu_count_open_pipes_on_gate ** ** Description Count the number of opened pipes on the given gate ** ** Returns the number of pipes in OPENED state on the gate ** *******************************************************************************/ uint8_t nfa_hciu_count_open_pipes_on_gate(tNFA_HCI_DYN_GATE* p_gate) { tNFA_HCI_DYN_PIPE* pp = nfa_hci_cb.cfg.dyn_pipes; int xx = 0; uint32_t mask = 1; uint8_t count = 0; for (; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { /* For each pipe on this gate, check if it is open */ if ((p_gate->pipe_inx_mask & mask) && (pp->pipe_state == NFA_HCI_PIPE_OPENED)) count++; mask = mask << 1; } return (count); } /******************************************************************************* ** ** Function nfa_hciu_get_gate_owner ** ** Description Find the application that owns a gate ** ** Returns application handle ** *******************************************************************************/ tNFA_HANDLE nfa_hciu_get_gate_owner(uint8_t gate_id) { tNFA_HCI_DYN_GATE* pg; pg = nfa_hciu_find_gate_by_gid(gate_id); if (pg == nullptr) return (NFA_HANDLE_INVALID); return (pg->gate_owner); } /******************************************************************************* ** ** Function nfa_hciu_get_pipe_owner ** ** Description Find the application that owns a pipe ** ** Returns application handle ** *******************************************************************************/ tNFA_HANDLE nfa_hciu_get_pipe_owner(uint8_t pipe_id) { tNFA_HCI_DYN_PIPE* pp; tNFA_HCI_DYN_GATE* pg; pp = nfa_hciu_find_pipe_by_pid(pipe_id); if (pp == nullptr) return (NFA_HANDLE_INVALID); pg = nfa_hciu_find_gate_by_gid(pp->local_gate); if (pg == nullptr) return (NFA_HANDLE_INVALID); return (pg->gate_owner); } /******************************************************************************* ** ** Function nfa_hciu_alloc_gate ** ** Description Allocate an gate control block ** ** Returns pointer to the allocated gate, or NULL if cannot allocate ** *******************************************************************************/ tNFA_HCI_DYN_GATE* nfa_hciu_alloc_gate(uint8_t gate_id, tNFA_HANDLE app_handle) { tNFA_HCI_DYN_GATE* pg; int xx; uint8_t app_inx = app_handle & NFA_HANDLE_MASK; /* First, check if the application handle is valid */ if ((gate_id != NFA_HCI_CONNECTIVITY_GATE) && (gate_id < NFA_HCI_FIRST_PROP_GATE) && (((app_handle & NFA_HANDLE_GROUP_MASK) != NFA_HANDLE_GROUP_HCI) || (app_inx >= NFA_HCI_MAX_APP_CB) || (nfa_hci_cb.p_app_cback[app_inx] == nullptr))) { return (nullptr); } if (gate_id != 0) { pg = nfa_hciu_find_gate_by_gid(gate_id); if (pg != nullptr) return (pg); } else { /* If gate_id is 0, we need to assign a free one */ /* Loop through all possible gate IDs checking if they are already used */ uint32_t gate_id_index; for (gate_id_index = NFA_HCI_FIRST_HOST_SPECIFIC_GENERIC_GATE; gate_id_index <= NFA_HCI_LAST_PROP_GATE; gate_id_index++) { /* Skip connectivity gate */ if (gate_id_index == NFA_HCI_CONNECTIVITY_GATE) continue; /* Check if the gate is already allocated */ if (nfa_hciu_find_gate_by_gid(gate_id_index) == nullptr) { gate_id = gate_id_index & 0xFF; break; } } if (gate_id_index > NFA_HCI_LAST_PROP_GATE) { LOG(ERROR) << StringPrintf( "nfa_hci_alloc_gate - no free Gate ID: %u App Handle: 0x%04x", gate_id_index, app_handle); return (nullptr); } } /* Now look for a free control block */ for (xx = 0, pg = nfa_hci_cb.cfg.dyn_gates; xx < NFA_HCI_MAX_GATE_CB; xx++, pg++) { if (pg->gate_id == 0) { /* Found a free gate control block */ pg->gate_id = gate_id; pg->gate_owner = app_handle; pg->pipe_inx_mask = 0; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "nfa_hciu_alloc_gate id:%d app_handle: 0x%04x", gate_id, app_handle); nfa_hci_cb.nv_write_needed = true; return (pg); } } /* If here, no free gate control block */ LOG(ERROR) << StringPrintf( "nfa_hci_alloc_gate - no CB Gate ID: %u App Handle: 0x%04x", gate_id, app_handle); return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_send_msg ** ** Description This function will fragment the given packet, if necessary ** and send it on the given pipe. ** ** Returns status ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_msg(uint8_t pipe_id, uint8_t type, uint8_t instruction, uint16_t msg_len, uint8_t* p_msg) { NFC_HDR* p_buf; uint8_t* p_data; bool first_pkt = true; uint16_t data_len; tNFA_STATUS status = NFA_STATUS_OK; uint16_t max_seg_hcp_pkt_size; if (nfa_hci_cb.buff_size > (NCI_DATA_HDR_SIZE + 2)) { max_seg_hcp_pkt_size = nfa_hci_cb.buff_size - NCI_DATA_HDR_SIZE; } else { android_errorWriteLog(0x534e4554, "124521372"); return NFA_STATUS_NO_BUFFERS; } const uint8_t MAX_BUFF_SIZE = 100; char buff[MAX_BUFF_SIZE]; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("nfa_hciu_send_msg pipe_id:%d %s len:%d", pipe_id, nfa_hciu_get_type_inst_names(pipe_id, type, instruction, buff, MAX_BUFF_SIZE), msg_len); if (instruction == NFA_HCI_ANY_GET_PARAMETER) nfa_hci_cb.param_in_use = *p_msg; while ((first_pkt == true) || (msg_len != 0)) { p_buf = (NFC_HDR*)GKI_getpoolbuf(NFC_RW_POOL_ID); if (p_buf != nullptr) { p_buf->offset = NCI_MSG_OFFSET_SIZE + NCI_DATA_HDR_SIZE; /* First packet has a 2-byte header, subsequent fragments have a 1-byte * header */ data_len = first_pkt ? (max_seg_hcp_pkt_size - 2) : (max_seg_hcp_pkt_size - 1); p_data = (uint8_t*)(p_buf + 1) + p_buf->offset; /* Last or only segment has "no fragmentation" bit set */ if (msg_len > data_len) { *p_data++ = (NFA_HCI_MESSAGE_FRAGMENTATION << 7) | (pipe_id & 0x7F); } else { data_len = msg_len; *p_data++ = (NFA_HCI_NO_MESSAGE_FRAGMENTATION << 7) | (pipe_id & 0x7F); } p_buf->len = 1; /* Message header only goes in the first segment */ if (first_pkt) { first_pkt = false; *p_data++ = (type << 6) | instruction; p_buf->len++; } if (data_len != 0) { memcpy(p_data, p_msg, data_len); p_buf->len += data_len; if (msg_len >= data_len) { msg_len -= data_len; p_msg += data_len; } else { msg_len = 0; } } if (HCI_LOOPBACK_DEBUG == NFA_HCI_DEBUG_ON) handle_debug_loopback(p_buf, type, instruction); else status = NFC_SendData(nfa_hci_cb.conn_id, p_buf); } else { LOG(ERROR) << StringPrintf("nfa_hciu_send_data_packet no buffers"); status = NFA_STATUS_NO_BUFFERS; break; } } /* Start timer if response to wait for a particular time for the response */ if (type == NFA_HCI_COMMAND_TYPE) { nfa_hci_cb.cmd_sent = instruction; if (nfa_hci_cb.hci_state == NFA_HCI_STATE_IDLE) nfa_hci_cb.hci_state = NFA_HCI_STATE_WAIT_RSP; nfa_sys_start_timer(&nfa_hci_cb.timer, NFA_HCI_RSP_TIMEOUT_EVT, p_nfa_hci_cfg->hcp_response_timeout); } return status; } /******************************************************************************* ** ** Function nfa_hciu_get_allocated_gate_list ** ** Description fills in a list of allocated gates ** ** Returns the number of gates ** *******************************************************************************/ uint8_t nfa_hciu_get_allocated_gate_list(uint8_t* p_gate_list) { tNFA_HCI_DYN_GATE* p_cb; int xx; uint8_t count = 0; for (xx = 0, p_cb = nfa_hci_cb.cfg.dyn_gates; xx < NFA_HCI_MAX_GATE_CB; xx++, p_cb++) { if (p_cb->gate_id != 0) { *p_gate_list++ = p_cb->gate_id; count++; } } DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("returns: %u", count); return (count); } /******************************************************************************* ** ** Function nfa_hciu_alloc_pipe ** ** Description Allocate a pipe control block ** ** Returns pointer to the pipe control block, or NULL if ** cannot allocate ** *******************************************************************************/ tNFA_HCI_DYN_PIPE* nfa_hciu_alloc_pipe(uint8_t pipe_id) { uint8_t xx; tNFA_HCI_DYN_PIPE* pp; /* If we already have a pipe of the same ID, release it first it */ pp = nfa_hciu_find_pipe_by_pid(pipe_id); if (pp != nullptr) { if (pipe_id > NFA_HCI_LAST_DYNAMIC_PIPE) return pp; nfa_hciu_release_pipe(pipe_id); } /* Look for a free pipe control block */ for (xx = 0, pp = nfa_hci_cb.cfg.dyn_pipes; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if (pp->pipe_id == 0) { DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("nfa_hciu_alloc_pipe:%d, index:%d", pipe_id, xx); pp->pipe_id = pipe_id; nfa_hci_cb.nv_write_needed = true; return (pp); } } DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("nfa_hciu_alloc_pipe:%d, NO free entries !!", pipe_id); return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_release_gate ** ** Description Remove a generic gate from gate list ** ** Returns none ** *******************************************************************************/ void nfa_hciu_release_gate(uint8_t gate_id) { tNFA_HCI_DYN_GATE* p_gate = nfa_hciu_find_gate_by_gid(gate_id); if (p_gate != nullptr) { DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("ID: %d owner: 0x%04x pipe_inx_mask: 0x%04x", gate_id, p_gate->gate_owner, p_gate->pipe_inx_mask); p_gate->gate_id = 0; p_gate->gate_owner = 0; p_gate->pipe_inx_mask = 0; nfa_hci_cb.nv_write_needed = true; } else { LOG(WARNING) << StringPrintf("ID: %d NOT FOUND", gate_id); } } /******************************************************************************* ** ** Function nfa_hciu_add_pipe_to_gate ** ** Description Add pipe to generic gate ** ** Returns NFA_STATUS_OK, if successfully add the pipe on to the gate ** NFA_HCI_ADM_E_NO_PIPES_AVAILABLE, otherwise ** *******************************************************************************/ tNFA_HCI_RESPONSE nfa_hciu_add_pipe_to_gate(uint8_t pipe_id, uint8_t local_gate, uint8_t dest_host, uint8_t dest_gate) { tNFA_HCI_DYN_GATE* p_gate; tNFA_HCI_DYN_PIPE* p_pipe; uint8_t pipe_index; p_gate = nfa_hciu_find_gate_by_gid(local_gate); if (p_gate != nullptr) { /* Allocate a pipe control block */ p_pipe = nfa_hciu_alloc_pipe(pipe_id); if (p_pipe != nullptr) { p_pipe->pipe_id = pipe_id; p_pipe->pipe_state = NFA_HCI_PIPE_CLOSED; p_pipe->dest_host = dest_host; p_pipe->dest_gate = dest_gate; p_pipe->local_gate = local_gate; /* Save the pipe in the gate that it belongs to */ pipe_index = (uint8_t)(p_pipe - nfa_hci_cb.cfg.dyn_pipes); p_gate->pipe_inx_mask |= (uint32_t)(1 << pipe_index); DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "nfa_hciu_add_pipe_to_gate Gate ID: 0x%02x Pipe ID: 0x%02x " "pipe_index: %u App Handle: 0x%08x", local_gate, pipe_id, pipe_index, p_gate->gate_owner); return (NFA_HCI_ANY_OK); } } DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "nfa_hciu_add_pipe_to_gate: 0x%02x NOT FOUND", local_gate); return (NFA_HCI_ADM_E_NO_PIPES_AVAILABLE); } /******************************************************************************* ** ** Function nfa_hciu_add_pipe_to_static_gate ** ** Description Add pipe to identity management gate ** ** Returns NFA_HCI_ANY_OK, if successfully add the pipe on to the gate ** NFA_HCI_ADM_E_NO_PIPES_AVAILABLE, otherwise ** *******************************************************************************/ tNFA_HCI_RESPONSE nfa_hciu_add_pipe_to_static_gate(uint8_t local_gate, uint8_t pipe_id, uint8_t dest_host, uint8_t dest_gate) { tNFA_HCI_DYN_PIPE* p_pipe; uint8_t pipe_index; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "nfa_hciu_add_pipe_to_static_gate (%u) Pipe: 0x%02x Dest Host: 0x%02x " "Dest Gate: 0x%02x)", local_gate, pipe_id, dest_host, dest_gate); /* Allocate a pipe control block */ p_pipe = nfa_hciu_alloc_pipe(pipe_id); if (p_pipe != nullptr) { p_pipe->pipe_id = pipe_id; p_pipe->pipe_state = NFA_HCI_PIPE_CLOSED; p_pipe->dest_host = dest_host; p_pipe->dest_gate = dest_gate; p_pipe->local_gate = local_gate; /* If this is the ID gate, save the pipe index in the ID gate info */ /* block. Note that for loopback, it is enough to just create the pipe */ if (local_gate == NFA_HCI_IDENTITY_MANAGEMENT_GATE) { pipe_index = (uint8_t)(p_pipe - nfa_hci_cb.cfg.dyn_pipes); nfa_hci_cb.cfg.id_mgmt_gate.pipe_inx_mask |= (uint32_t)(1 << pipe_index); } return NFA_HCI_ANY_OK; } return NFA_HCI_ADM_E_NO_PIPES_AVAILABLE; } /******************************************************************************* ** ** Function nfa_hciu_find_active_pipe_by_owner ** ** Description Find the first pipe associated with the given app ** ** Returns pointer to pipe, or NULL if none found ** *******************************************************************************/ tNFA_HCI_DYN_PIPE* nfa_hciu_find_active_pipe_by_owner(tNFA_HANDLE app_handle) { tNFA_HCI_DYN_GATE* pg; tNFA_HCI_DYN_PIPE* pp; int xx; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("app_handle:0x%x", app_handle); /* Loop through all pipes looking for the owner */ for (xx = 0, pp = nfa_hci_cb.cfg.dyn_pipes; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if ((pp->pipe_id != 0) && (pp->pipe_id >= NFA_HCI_FIRST_DYNAMIC_PIPE) && (pp->pipe_id <= NFA_HCI_LAST_DYNAMIC_PIPE) && (nfa_hciu_is_active_host(pp->dest_host))) { if (((pg = nfa_hciu_find_gate_by_gid(pp->local_gate)) != nullptr) && (pg->gate_owner == app_handle)) return (pp); } } /* If here, not found */ return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_check_pipe_between_gates ** ** Description Check if there is a pipe between specified Terminal host ** gate and and the specified UICC gate ** ** Returns TRUE, if there exists a pipe between the two specified gated ** FALSE, otherwise ** *******************************************************************************/ bool nfa_hciu_check_pipe_between_gates(uint8_t local_gate, uint8_t dest_host, uint8_t dest_gate) { tNFA_HCI_DYN_PIPE* pp; int xx; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "Local gate: 0x%02X, Host[0x%02X] " "gate: 0x%02X", local_gate, dest_host, dest_gate); /* Loop through all pipes looking for the owner */ for (xx = 0, pp = nfa_hci_cb.cfg.dyn_pipes; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if ((pp->pipe_id != 0) && (pp->pipe_id >= NFA_HCI_FIRST_DYNAMIC_PIPE) && (pp->pipe_id <= NFA_HCI_LAST_DYNAMIC_PIPE) && (pp->local_gate == local_gate) && (pp->dest_host == dest_host) && (pp->dest_gate == dest_gate)) { return true; } } /* If here, not found */ return false; } /******************************************************************************* ** ** Function nfa_hciu_find_pipe_by_owner ** ** Description Find the first pipe associated with the given app ** ** Returns pointer to pipe, or NULL if none found ** *******************************************************************************/ tNFA_HCI_DYN_PIPE* nfa_hciu_find_pipe_by_owner(tNFA_HANDLE app_handle) { tNFA_HCI_DYN_GATE* pg; tNFA_HCI_DYN_PIPE* pp; int xx; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("app_handle:0x%x", app_handle); /* Loop through all pipes looking for the owner */ for (xx = 0, pp = nfa_hci_cb.cfg.dyn_pipes; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if (pp->pipe_id != 0) { if (((pg = nfa_hciu_find_gate_by_gid(pp->local_gate)) != nullptr) && (pg->gate_owner == app_handle)) return (pp); } } /* If here, not found */ return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_find_pipe_on_gate ** ** Description Find the first pipe associated with the given gate ** ** Returns pointer to pipe, or NULL if none found ** *******************************************************************************/ tNFA_HCI_DYN_PIPE* nfa_hciu_find_pipe_on_gate(uint8_t gate_id) { tNFA_HCI_DYN_GATE* pg; tNFA_HCI_DYN_PIPE* pp; int xx; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("Gate:0x%x", gate_id); /* Loop through all pipes looking for the owner */ for (xx = 0, pp = nfa_hci_cb.cfg.dyn_pipes; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if (pp->pipe_id != 0) { if (((pg = nfa_hciu_find_gate_by_gid(pp->local_gate)) != nullptr) && (pg->gate_id == gate_id)) return (pp); } } /* If here, not found */ return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_is_active_host ** ** Description Check if the host is currently active ** ** Returns TRUE, if the host is active in the host network ** FALSE, if the host is not active in the host network ** *******************************************************************************/ bool nfa_hciu_is_active_host(uint8_t host_id) { uint8_t xx; if ((host_id == NFA_HCI_HOST_ID_UICC0) || (host_id >= NFA_HCI_HOST_ID_FIRST_DYNAMICALLY_ALLOCATED)) { for (xx = 0; xx < NFA_HCI_MAX_HOST_IN_NETWORK; xx++) { if (nfa_hci_cb.active_host[xx] == host_id) return true; } } return false; } /******************************************************************************* ** ** Function nfa_hciu_is_host_reseting ** ** Description Check if the host is currently reseting ** ** Returns TRUE, if the host is reseting ** FALSE, if the host is not reseting ** *******************************************************************************/ bool nfa_hciu_is_host_reseting(uint8_t host_id) { uint8_t xx; if ((host_id == NFA_HCI_HOST_ID_UICC0) || (host_id >= NFA_HCI_HOST_ID_FIRST_DYNAMICALLY_ALLOCATED)) { for (xx = 0; xx < NFA_HCI_MAX_HOST_IN_NETWORK; xx++) { if (nfa_hci_cb.reset_host[xx] == host_id) return true; } } return false; } /******************************************************************************* ** ** Function nfa_hciu_is_no_host_resetting ** ** Description Check if no host is reseting ** ** Returns TRUE, if no host is resetting at this time ** FALSE, if one or more host is resetting ** *******************************************************************************/ bool nfa_hciu_is_no_host_resetting(void) { uint8_t xx; for (xx = 0; xx < NFA_HCI_MAX_HOST_IN_NETWORK; xx++) { if (nfa_hci_cb.reset_host[xx] != 0) return false; } return true; } /******************************************************************************* ** ** Function nfa_hciu_find_active_pipe_on_gate ** ** Description Find the first active pipe associated with the given gate ** ** Returns pointer to pipe, or NULL if none found ** *******************************************************************************/ tNFA_HCI_DYN_PIPE* nfa_hciu_find_active_pipe_on_gate(uint8_t gate_id) { tNFA_HCI_DYN_GATE* pg; tNFA_HCI_DYN_PIPE* pp; int xx; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("Gate:0x%x", gate_id); /* Loop through all pipes looking for the owner */ for (xx = 0, pp = nfa_hci_cb.cfg.dyn_pipes; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if ((pp->pipe_id != 0) && (pp->pipe_id >= NFA_HCI_FIRST_DYNAMIC_PIPE) && (pp->pipe_id <= NFA_HCI_LAST_DYNAMIC_PIPE) && (nfa_hciu_is_active_host(pp->dest_host))) { if (((pg = nfa_hciu_find_gate_by_gid(pp->local_gate)) != nullptr) && (pg->gate_id == gate_id)) return (pp); } } /* If here, not found */ return (nullptr); } /******************************************************************************* ** ** Function nfa_hciu_release_pipe ** ** Description remove the specified pipe ** ** Returns NFA_HCI_ANY_OK, if removed ** NFA_HCI_ANY_E_NOK, if otherwise ** *******************************************************************************/ tNFA_HCI_RESPONSE nfa_hciu_release_pipe(uint8_t pipe_id) { tNFA_HCI_DYN_GATE* p_gate; tNFA_HCI_DYN_PIPE* p_pipe; uint8_t pipe_index; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("nfa_hciu_release_pipe: %u", pipe_id); p_pipe = nfa_hciu_find_pipe_by_pid(pipe_id); if (p_pipe == nullptr) return (NFA_HCI_ANY_E_NOK); if (pipe_id > NFA_HCI_LAST_DYNAMIC_PIPE) { DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("ignore pipe: %d", pipe_id); return (NFA_HCI_ANY_E_NOK); } pipe_index = (uint8_t)(p_pipe - nfa_hci_cb.cfg.dyn_pipes); if (p_pipe->local_gate == NFA_HCI_IDENTITY_MANAGEMENT_GATE) { /* Remove pipe from ID management gate */ nfa_hci_cb.cfg.id_mgmt_gate.pipe_inx_mask &= ~(uint32_t)(1 << pipe_index); } else { p_gate = nfa_hciu_find_gate_by_gid(p_pipe->local_gate); if (p_gate == nullptr) { /* Mark the pipe control block as free */ p_pipe->pipe_id = 0; return (NFA_HCI_ANY_E_NOK); } /* Remove pipe from gate */ p_gate->pipe_inx_mask &= ~(uint32_t)(1 << pipe_index); } /* Reset pipe control block */ memset(p_pipe, 0, sizeof(tNFA_HCI_DYN_PIPE)); nfa_hci_cb.nv_write_needed = true; return NFA_HCI_ANY_OK; } /******************************************************************************* ** ** Function nfa_hciu_remove_all_pipes_from_host ** ** Description remove all the pipes that are connected to a specific host ** ** Returns None ** *******************************************************************************/ void nfa_hciu_remove_all_pipes_from_host(uint8_t host) { tNFA_HCI_DYN_GATE* pg; tNFA_HCI_DYN_PIPE* pp; int xx; tNFA_HCI_EVT_DATA evt_data; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("nfa_hciu_remove_all_pipes_from_host (0x%02x)", host); /* Remove all pipes from the specified host connected to all generic gates */ for (xx = 0, pp = nfa_hci_cb.cfg.dyn_pipes; xx < NFA_HCI_MAX_PIPE_CB; xx++, pp++) { if ((pp->pipe_id == 0) || ((host != 0) && ((pp->dest_host != host) || (pp->pipe_id > NFA_HCI_LAST_DYNAMIC_PIPE)))) continue; pg = nfa_hciu_find_gate_by_gid(pp->local_gate); if (pg != nullptr) { evt_data.deleted.status = NFA_STATUS_OK; evt_data.deleted.pipe = pp->pipe_id; nfa_hciu_send_to_app(NFA_HCI_DELETE_PIPE_EVT, &evt_data, pg->gate_owner); } nfa_hciu_release_pipe(pp->pipe_id); } } /******************************************************************************* ** ** Function nfa_hciu_send_create_pipe_cmd ** ** Description Create dynamic pipe between the specified gates ** ** Returns status ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_create_pipe_cmd(uint8_t source_gate, uint8_t dest_host, uint8_t dest_gate) { tNFA_STATUS status; uint8_t data[3]; data[0] = source_gate; data[1] = dest_host; data[2] = dest_gate; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf( "nfa_hciu_send_create_pipe_cmd source_gate:%d, dest_host:%d, " "dest_gate:%d", source_gate, dest_host, dest_gate); status = nfa_hciu_send_msg(NFA_HCI_ADMIN_PIPE, NFA_HCI_COMMAND_TYPE, NFA_HCI_ADM_CREATE_PIPE, 3, data); return status; } /******************************************************************************* ** ** Function nfa_hciu_send_delete_pipe_cmd ** ** Description Delete the dynamic pipe ** ** Returns None ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_delete_pipe_cmd(uint8_t pipe) { tNFA_STATUS status; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("nfa_hciu_send_delete_pipe_cmd: %d", pipe); if (pipe > NFA_HCI_LAST_DYNAMIC_PIPE) { DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("ignore pipe: %d", pipe); return (NFA_HCI_ANY_E_NOK); } nfa_hci_cb.pipe_in_use = pipe; status = nfa_hciu_send_msg(NFA_HCI_ADMIN_PIPE, NFA_HCI_COMMAND_TYPE, NFA_HCI_ADM_DELETE_PIPE, 1, &pipe); return status; } /******************************************************************************* ** ** Function nfa_hciu_send_clear_all_pipe_cmd ** ** Description delete all the dynamic pipe connected to device host, ** to close all static pipes connected to device host, ** and to set registry values related to static pipes to ** theri default values. ** ** Returns None ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_clear_all_pipe_cmd(void) { tNFA_STATUS status; uint16_t id_ref_data = 0x0102; DLOG_IF(INFO, nfc_debug_enabled) << StringPrintf("nfa_hciu_send_clear_all_pipe_cmd"); status = nfa_hciu_send_msg(NFA_HCI_ADMIN_PIPE, NFA_HCI_COMMAND_TYPE, NFA_HCI_ADM_CLEAR_ALL_PIPE, 2, (uint8_t*)&id_ref_data); return status; } /******************************************************************************* ** ** Function nfa_hciu_send_open_pipe_cmd ** ** Description Open a closed pipe ** ** Returns status ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_open_pipe_cmd(uint8_t pipe) { tNFA_STATUS status; nfa_hci_cb.pipe_in_use = pipe; status = nfa_hciu_send_msg(pipe, NFA_HCI_COMMAND_TYPE, NFA_HCI_ANY_OPEN_PIPE, 0, nullptr); return status; } /******************************************************************************* ** ** Function nfa_hciu_send_close_pipe_cmd ** ** Description Close an opened pipe ** ** Returns status ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_close_pipe_cmd(uint8_t pipe) { tNFA_STATUS status; nfa_hci_cb.pipe_in_use = pipe; status = nfa_hciu_send_msg(pipe, NFA_HCI_COMMAND_TYPE, NFA_HCI_ANY_CLOSE_PIPE, 0, nullptr); return status; } /******************************************************************************* ** ** Function nfa_hciu_send_get_param_cmd ** ** Description Read a parameter value from gate registry ** ** Returns None ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_get_param_cmd(uint8_t pipe, uint8_t index) { tNFA_STATUS status; status = nfa_hciu_send_msg(pipe, NFA_HCI_COMMAND_TYPE, NFA_HCI_ANY_GET_PARAMETER, 1, &index); if (status == NFC_STATUS_OK) nfa_hci_cb.param_in_use = index; return status; } /******************************************************************************* ** ** Function nfa_hciu_send_set_param_cmd ** ** Description Set a parameter value in a gate registry ** ** Returns None ** *******************************************************************************/ tNFA_STATUS nfa_hciu_send_set_param_cmd(uint8_t pipe, uint8_t index, uint8_t length, uint8_t* p_data) { tNFA_STATUS status; uint8_t data[255]; data[0] = index; memcpy(&data[1], p_data, length); status = nfa_hciu_send_msg(pipe, NFA_HCI_COMMAND_TYPE, NFA_HCI_ANY_SET_PARAMETER, (uint16_t)(length + 1), data); if (status == NFC_STATUS_OK) nfa_hci_cb.param_in_use = index; return status; } /******************************************************************************* ** ** Function nfa_hciu_send_to_app ** ** Description Send an event back to an application ** ** Returns none ** *******************************************************************************/ void nfa_hciu_send_to_app(tNFA_HCI_EVT event, tNFA_HCI_EVT_DATA* p_evt, tNFA_HANDLE app_handle) { uint8_t app_inx = app_handle & NFA_HANDLE_MASK; /* First, check if the application handle is valid */ if (((app_handle & NFA_HANDLE_GROUP_MASK) == NFA_HANDLE_GROUP_HCI) && (app_inx < NFA_HCI_MAX_APP_CB)) { if (nfa_hci_cb.p_app_cback[app_inx] != nullptr) { nfa_hci_cb.p_app_cback[app_inx](event, p_evt); return; } } if (app_handle != NFA_HANDLE_INVALID) { LOG(WARNING) << StringPrintf( "nfa_hciu_send_to_app no callback, event: 0x%04x app_handle: 0x%04x", event, app_handle); } } /******************************************************************************* ** ** Function nfa_hciu_send_to_all_apps ** ** Description Send an event back to all applications ** ** Returns none ** *******************************************************************************/ void nfa_hciu_send_to_all_apps(tNFA_HCI_EVT event, tNFA_HCI_EVT_DATA* p_evt) { uint8_t app_inx; for (app_inx = 0; app_inx < NFA_HCI_MAX_APP_CB; app_inx++) { if (nfa_hci_cb.p_app_cback[app_inx] != nullptr) nfa_hci_cb.p_app_cback[app_inx](event, p_evt); } } /******************************************************************************* ** ** Function nfa_hciu_send_to_apps_handling_connectivity_evts ** ** Description Send a connectivity event to all the application interested ** in connectivity events ** ** Returns none ** *******************************************************************************/ void nfa_hciu_send_to_apps_handling_connectivity_evts( tNFA_HCI_EVT event, tNFA_HCI_EVT_DATA* p_evt) { uint8_t app_inx; for (app_inx = 0; app_inx < NFA_HCI_MAX_APP_CB; app_inx++) { if ((nfa_hci_cb.p_app_cback[app_inx] != nullptr) && (nfa_hci_cb.cfg.b_send_conn_evts[app_inx])) nfa_hci_cb.p_app_cback[app_inx](event, p_evt); } } /******************************************************************************* ** ** Function nfa_hciu_get_response_name ** ** Description This function returns the error code name. ** ** NOTE conditionally compiled to save memory. ** ** Returns pointer to the name ** *******************************************************************************/ static std::string nfa_hciu_get_response_name(uint8_t rsp_code) { switch (rsp_code) { case NFA_HCI_ANY_OK: return "ANY_OK"; case NFA_HCI_ANY_E_NOT_CONNECTED: return "ANY_E_NOT_CONNECTED"; case NFA_HCI_ANY_E_CMD_PAR_UNKNOWN: return "ANY_E_CMD_PAR_UNKNOWN"; case NFA_HCI_ANY_E_NOK: return "ANY_E_NOK"; case NFA_HCI_ADM_E_NO_PIPES_AVAILABLE: return "ADM_E_NO_PIPES_AVAILABLE"; case NFA_HCI_ANY_E_REG_PAR_UNKNOWN: return "ANY_E_REG_PAR_UNKNOWN"; case NFA_HCI_ANY_E_PIPE_NOT_OPENED: return "ANY_E_PIPE_NOT_OPENED"; case NFA_HCI_ANY_E_CMD_NOT_SUPPORTED: return "ANY_E_CMD_NOT_SUPPORTED"; case NFA_HCI_ANY_E_INHIBITED: return "ANY_E_INHIBITED"; case NFA_HCI_ANY_E_TIMEOUT: return "ANY_E_TIMEOUT"; case NFA_HCI_ANY_E_REG_ACCESS_DENIED: return "ANY_E_REG_ACCESS_DENIED"; case NFA_HCI_ANY_E_PIPE_ACCESS_DENIED: return "ANY_E_PIPE_ACCESS_DENIED"; default: return "UNKNOWN"; } } /******************************************************************************* ** ** Function nfa_hciu_type_2_str ** ** Description This function returns the type name. ** ** Returns pointer to the name ** *******************************************************************************/ static std::string nfa_hciu_type_2_str(uint8_t type) { switch (type) { case NFA_HCI_COMMAND_TYPE: return "COMMAND"; case NFA_HCI_EVENT_TYPE: return "EVENT"; case NFA_HCI_RESPONSE_TYPE: return "RESPONSE"; default: return "UNKNOWN"; } } /******************************************************************************* ** ** Function nfa_hciu_instr_2_str ** ** Description This function returns the instruction name. ** ** Returns pointer to the name ** *******************************************************************************/ std::string nfa_hciu_instr_2_str(uint8_t instruction) { switch (instruction) { case NFA_HCI_ANY_SET_PARAMETER: return "ANY_SET_PARAMETER"; case NFA_HCI_ANY_GET_PARAMETER: return "ANY_GET_PARAMETER"; case NFA_HCI_ANY_OPEN_PIPE: return "ANY_OPEN_PIPE"; case NFA_HCI_ANY_CLOSE_PIPE: return "ANY_CLOSE_PIPE"; case NFA_HCI_ADM_CREATE_PIPE: return "ADM_CREATE_PIPE"; case NFA_HCI_ADM_DELETE_PIPE: return "ADM_DELETE_PIPE"; case NFA_HCI_ADM_NOTIFY_PIPE_CREATED: return "ADM_NOTIFY_PIPE_CREATED"; case NFA_HCI_ADM_NOTIFY_PIPE_DELETED: return "ADM_NOTIFY_PIPE_DELETED"; case NFA_HCI_ADM_CLEAR_ALL_PIPE: return "ADM_CLEAR_ALL_PIPE"; case NFA_HCI_ADM_NOTIFY_ALL_PIPE_CLEARED: return "ADM_NOTIFY_ALL_PIPE_CLEARED"; default: return "UNKNOWN"; } } /******************************************************************************* ** ** Function nfa_hciu_get_event_name ** ** Description This function returns the event code name. ** ** Returns pointer to the name ** *******************************************************************************/ std::string nfa_hciu_get_event_name(uint16_t event) { switch (event) { case NFA_HCI_API_REGISTER_APP_EVT: return "API_REGISTER"; case NFA_HCI_API_DEREGISTER_APP_EVT: return "API_DEREGISTER"; case NFA_HCI_API_GET_APP_GATE_PIPE_EVT: return "API_GET_GATE_LIST"; case NFA_HCI_API_ALLOC_GATE_EVT: return "API_ALLOC_GATE"; case NFA_HCI_API_DEALLOC_GATE_EVT: return "API_DEALLOC_GATE"; case NFA_HCI_API_GET_HOST_LIST_EVT: return "API_GET_HOST_LIST"; case NFA_HCI_API_GET_REGISTRY_EVT: return "API_GET_REG_VALUE"; case NFA_HCI_API_SET_REGISTRY_EVT: return "API_SET_REG_VALUE"; case NFA_HCI_API_CREATE_PIPE_EVT: return "API_CREATE_PIPE"; case NFA_HCI_API_OPEN_PIPE_EVT: return "API_OPEN_PIPE"; case NFA_HCI_API_CLOSE_PIPE_EVT: return "API_CLOSE_PIPE"; case NFA_HCI_API_DELETE_PIPE_EVT: return "API_DELETE_PIPE"; case NFA_HCI_API_SEND_CMD_EVT: return "API_SEND_COMMAND_EVT"; case NFA_HCI_API_SEND_RSP_EVT: return "API_SEND_RESPONSE_EVT"; case NFA_HCI_API_SEND_EVENT_EVT: return "API_SEND_EVENT_EVT"; case NFA_HCI_RSP_NV_READ_EVT: return "NV_READ_EVT"; case NFA_HCI_RSP_NV_WRITE_EVT: return "NV_WRITE_EVT"; case NFA_HCI_RSP_TIMEOUT_EVT: return "RESPONSE_TIMEOUT_EVT"; case NFA_HCI_CHECK_QUEUE_EVT: return "CHECK_QUEUE"; default: return "UNKNOWN"; } } /******************************************************************************* ** ** Function nfa_hciu_get_state_name ** ** Description This function returns the state name. ** ** Returns pointer to the name ** *******************************************************************************/ std::string nfa_hciu_get_state_name(uint8_t state) { switch (state) { case NFA_HCI_STATE_DISABLED: return "DISABLED"; case NFA_HCI_STATE_STARTUP: return "STARTUP"; case NFA_HCI_STATE_WAIT_NETWK_ENABLE: return "WAIT_NETWK_ENABLE"; case NFA_HCI_STATE_IDLE: return "IDLE"; case NFA_HCI_STATE_WAIT_RSP: return "WAIT_RSP"; case NFA_HCI_STATE_REMOVE_GATE: return "REMOVE_GATE"; case NFA_HCI_STATE_APP_DEREGISTER: return "APP_DEREGISTER"; case NFA_HCI_STATE_RESTORE: return "RESTORE"; case NFA_HCI_STATE_RESTORE_NETWK_ENABLE: return "WAIT_NETWK_ENABLE_AFTER_RESTORE"; default: return "UNKNOWN"; } } /******************************************************************************* ** ** Function nfa_hciu_get_type_inst_names ** ** Description This function returns command/response/event name. ** ** Returns none ** *******************************************************************************/ char* nfa_hciu_get_type_inst_names(uint8_t pipe, uint8_t type, uint8_t inst, char* p_buff, const uint8_t max_buff_size) { int xx; xx = snprintf(p_buff, max_buff_size, "Type: %s [0x%02x] ", nfa_hciu_type_2_str(type).c_str(), type); switch (type) { case NFA_HCI_COMMAND_TYPE: snprintf(&p_buff[xx], max_buff_size - xx, "Inst: %s [0x%02x] ", nfa_hciu_instr_2_str(inst).c_str(), inst); break; case NFA_HCI_EVENT_TYPE: snprintf(&p_buff[xx], max_buff_size - xx, "Evt: %s [0x%02x] ", nfa_hciu_evt_2_str(pipe, inst).c_str(), inst); break; case NFA_HCI_RESPONSE_TYPE: snprintf(&p_buff[xx], max_buff_size - xx, "Resp: %s [0x%02x] ", nfa_hciu_get_response_name(inst).c_str(), inst); break; default: snprintf(&p_buff[xx], max_buff_size - xx, "Inst: %u ", inst); break; } return p_buff; } /******************************************************************************* ** ** Function nfa_hciu_evt_2_str ** ** Description This function returns the event name. ** ** Returns pointer to the name ** *******************************************************************************/ std::string nfa_hciu_evt_2_str(uint8_t pipe_id, uint8_t evt) { tNFA_HCI_DYN_PIPE* p_pipe = nfa_hciu_find_pipe_by_pid(pipe_id); if (pipe_id != NFA_HCI_ADMIN_PIPE && pipe_id != NFA_HCI_LINK_MANAGEMENT_PIPE && p_pipe != nullptr && p_pipe->local_gate == NFA_HCI_CONNECTIVITY_GATE) { switch (evt) { case NFA_HCI_EVT_CONNECTIVITY: return "EVT_CONNECTIVITY"; case NFA_HCI_EVT_TRANSACTION: return "EVT_TRANSACTION"; case NFA_HCI_EVT_OPERATION_ENDED: return "EVT_OPERATION_ENDED"; default: return "UNKNOWN"; } } switch (evt) { case NFA_HCI_EVT_HCI_END_OF_OPERATION: return "EVT_END_OF_OPERATION"; case NFA_HCI_EVT_POST_DATA: return "EVT_POST_DATA"; case NFA_HCI_EVT_HOT_PLUG: return "EVT_HOT_PLUG"; default: return "UNKNOWN"; } } static void handle_debug_loopback(NFC_HDR* p_buf, uint8_t type, uint8_t instruction) { uint8_t* p = (uint8_t*)(p_buf + 1) + p_buf->offset; static uint8_t next_pipe = 0x10; if (type == NFA_HCI_COMMAND_TYPE) { switch (instruction) { case NFA_HCI_ADM_CREATE_PIPE: p[6] = next_pipe++; p[5] = p[4]; p[4] = p[3]; p[3] = p[2]; p[2] = 3; p[1] = (NFA_HCI_RESPONSE_TYPE << 6) | NFA_HCI_ANY_OK; p_buf->len = p_buf->offset + 7; break; case NFA_HCI_ANY_GET_PARAMETER: p[1] = (NFA_HCI_RESPONSE_TYPE << 6) | NFA_HCI_ANY_OK; memcpy(&p[2], (uint8_t*)nfa_hci_cb.cfg.admin_gate.session_id, NFA_HCI_SESSION_ID_LEN); p_buf->len = p_buf->offset + 2 + NFA_HCI_SESSION_ID_LEN; break; default: p[1] = (NFA_HCI_RESPONSE_TYPE << 6) | NFA_HCI_ANY_OK; p_buf->len = p_buf->offset + 2; break; } } else if (type == NFA_HCI_RESPONSE_TYPE) { GKI_freebuf(p_buf); return; } p_buf->event = NFA_HCI_CHECK_QUEUE_EVT; nfa_sys_sendmsg(p_buf); }