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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 | /* * Copyright (c) 2020 Demant * * SPDX-License-Identifier: Apache-2.0 */ #include <zephyr/kernel.h> #include <zephyr/sys/byteorder.h> #include <zephyr/sys/slist.h> #include <zephyr/sys/util.h> #include <zephyr/bluetooth/hci_types.h> #include "hal/ccm.h" #include "util/util.h" #include "util/mem.h" #include "util/memq.h" #include "util/dbuf.h" #include "util/mayfly.h" #include "pdu_df.h" #include "lll/pdu_vendor.h" #include "pdu.h" #include "ll.h" #include "ll_settings.h" #include "lll.h" #include "ll_feat.h" #include "lll/lll_df_types.h" #include "lll_conn.h" #include "lll_conn_iso.h" #include "lll_sync.h" #include "lll_sync_iso.h" #include "lll_scan.h" #include "lll/lll_adv_types.h" #include "lll_adv.h" #include "lll/lll_adv_pdu.h" #include "ull_tx_queue.h" #include "isoal.h" #include "ull_iso_types.h" #include "ull_conn_iso_types.h" #include "ull_sync_types.h" #include "ull_scan_types.h" #include "ull_adv_types.h" #include "ull_adv_internal.h" #include "ull_iso_internal.h" #include "ull_conn_iso_internal.h" #include "ull_peripheral_iso_internal.h" #include "ull_conn_types.h" #include "ull_chan_internal.h" #include "ull_llcp.h" #include "ull_conn_internal.h" #include "ull_internal.h" #include "ull_sync_internal.h" #include "ull_llcp_features.h" #include "ull_llcp_internal.h" #include <soc.h> #include "hal/debug.h" /* LLCP Local Procedure FSM states */ enum { LP_COMMON_STATE_IDLE = LLCP_STATE_IDLE, LP_COMMON_STATE_WAIT_TX, LP_COMMON_STATE_WAIT_TX_ACK, LP_COMMON_STATE_WAIT_RX, LP_COMMON_STATE_WAIT_NTF_AVAIL, }; /* LLCP Local Procedure Common FSM events */ enum { /* Procedure run */ LP_COMMON_EVT_RUN, /* Response received */ LP_COMMON_EVT_RESPONSE, /* Reject response received */ LP_COMMON_EVT_REJECT, /* Unknown response received */ LP_COMMON_EVT_UNKNOWN, /* Instant collision detected */ LP_COMMON_EVT_COLLISION, /* Ack received */ LP_COMMON_EVT_ACK, }; /* LLCP Remote Procedure Common FSM states */ enum { RP_COMMON_STATE_IDLE = LLCP_STATE_IDLE, RP_COMMON_STATE_WAIT_RX, RP_COMMON_STATE_POSTPONE_TERMINATE, RP_COMMON_STATE_WAIT_TX, RP_COMMON_STATE_WAIT_TX_ACK, }; /* LLCP Remote Procedure Common FSM events */ enum { /* Procedure run */ RP_COMMON_EVT_RUN, /* Ack received */ RP_COMMON_EVT_ACK, /* Request received */ RP_COMMON_EVT_REQUEST, }; static void lp_comm_ntf(struct ll_conn *conn, struct proc_ctx *ctx); static void lp_comm_terminate_invalid_pdu(struct ll_conn *conn, struct proc_ctx *ctx); #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) /** * @brief Stop and tear down a connected ISO stream * This function may be called to tear down a CIS. * * @param cig_id ID of specific ISO group * @param cis_id ID of connected ISO stream to stop * @param reason Termination reason */ static void llcp_cis_stop_by_id(uint8_t cig_id, uint8_t cis_id, uint8_t reason) { struct ll_conn_iso_group *cig = ll_conn_iso_group_get_by_id(cig_id); if (cig) { struct ll_conn_iso_stream *cis; uint16_t cis_handle = UINT16_MAX; /* Look through CIS's of specified group */ cis = ll_conn_iso_stream_get_by_group(cig, &cis_handle); while (cis && cis->cis_id != cis_id) { /* Get next CIS */ cis = ll_conn_iso_stream_get_by_group(cig, &cis_handle); } if (cis && cis->lll.handle == cis_handle) { ull_conn_iso_cis_stop(cis, NULL, reason); } } } #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ /* * LLCP Local Procedure Common FSM */ static void lp_comm_tx(struct ll_conn *conn, struct proc_ctx *ctx) { struct node_tx *tx; struct pdu_data *pdu; /* Allocate tx node */ tx = llcp_tx_alloc(conn, ctx); LL_ASSERT(tx); pdu = (struct pdu_data *)tx->pdu; /* Encode LL Control PDU */ switch (ctx->proc) { #if defined(CONFIG_BT_CTLR_LE_PING) case PROC_LE_PING: llcp_pdu_encode_ping_req(pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_PING_RSP; break; #endif /* CONFIG_BT_CTLR_LE_PING */ case PROC_FEATURE_EXCHANGE: llcp_pdu_encode_feature_req(conn, pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_FEATURE_RSP; break; #if defined(CONFIG_BT_CTLR_MIN_USED_CHAN) && defined(CONFIG_BT_PERIPHERAL) case PROC_MIN_USED_CHANS: llcp_pdu_encode_min_used_chans_ind(ctx, pdu); ctx->node_ref.tx_ack = tx; ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; #endif /* CONFIG_BT_CTLR_MIN_USED_CHAN && CONFIG_BT_PERIPHERAL */ case PROC_VERSION_EXCHANGE: llcp_pdu_encode_version_ind(pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_VERSION_IND; break; case PROC_TERMINATE: llcp_pdu_encode_terminate_ind(ctx, pdu); ctx->node_ref.tx_ack = tx; ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) case PROC_CIS_TERMINATE: llcp_pdu_encode_cis_terminate_ind(ctx, pdu); ctx->node_ref.tx_ack = tx; ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PROC_DATA_LENGTH_UPDATE: llcp_pdu_encode_length_req(conn, pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_LENGTH_RSP; break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_REQ) case PROC_CTE_REQ: llcp_pdu_encode_cte_req(ctx, pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_CTE_RSP; break; #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_REQ */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PROC_SCA_UPDATE: llcp_pdu_encode_clock_accuracy_req(ctx, pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_CLOCK_ACCURACY_RSP; break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: /* Unknown procedure */ LL_ASSERT(0); } ctx->tx_opcode = pdu->llctrl.opcode; /* Enqueue LL Control PDU towards LLL */ llcp_tx_enqueue(conn, tx); /* Restart procedure response timeout timer */ if (ctx->proc != PROC_TERMINATE) { /* Use normal timeout value of 40s */ llcp_lr_prt_restart(conn); } else { /* Use supervision timeout value * NOTE: As the supervision timeout is at most 32s the normal procedure response * timeout of 40s will never come into play for the ACL Termination procedure. */ const uint32_t conn_interval_us = conn->lll.interval * CONN_INT_UNIT_US; const uint16_t sto_reload = RADIO_CONN_EVENTS( (conn->supervision_timeout * 10U * 1000U), conn_interval_us); llcp_lr_prt_restart_with_value(conn, sto_reload); } } static void lp_comm_ntf_feature_exchange(struct ll_conn *conn, struct proc_ctx *ctx, struct pdu_data *pdu) { switch (ctx->response_opcode) { case PDU_DATA_LLCTRL_TYPE_FEATURE_RSP: llcp_ntf_encode_feature_rsp(conn, pdu); break; case PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP: llcp_ntf_encode_unknown_rsp(ctx, pdu); break; default: /* Unexpected PDU, should not get through, so ASSERT */ LL_ASSERT(0); } } static void lp_comm_ntf_version_ind(struct ll_conn *conn, struct proc_ctx *ctx, struct pdu_data *pdu) { switch (ctx->response_opcode) { case PDU_DATA_LLCTRL_TYPE_VERSION_IND: llcp_ntf_encode_version_ind(conn, pdu); break; default: /* Unexpected PDU, should not get through, so ASSERT */ LL_ASSERT(0); } } #if defined(CONFIG_BT_CTLR_DATA_LENGTH) static void lp_comm_ntf_length_change(struct ll_conn *conn, struct proc_ctx *ctx, struct pdu_data *pdu) { llcp_ntf_encode_length_change(conn, pdu); } #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_REQ) static void lp_comm_complete_cte_req_finalize(struct ll_conn *conn) { llcp_rr_set_paused_cmd(conn, PROC_NONE); llcp_lr_complete(conn); } static void lp_comm_ntf_cte_req(struct ll_conn *conn, struct proc_ctx *ctx, struct pdu_data *pdu) { switch (ctx->response_opcode) { case PDU_DATA_LLCTRL_TYPE_CTE_RSP: /* Notify host that received LL_CTE_RSP does not have CTE */ if (!ctx->data.cte_remote_rsp.has_cte) { llcp_ntf_encode_cte_req(pdu); } break; case PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP: llcp_ntf_encode_unknown_rsp(ctx, pdu); break; case PDU_DATA_LLCTRL_TYPE_REJECT_EXT_IND: llcp_ntf_encode_reject_ext_ind(ctx, pdu); break; default: /* Unexpected PDU, should not get through, so ASSERT */ LL_ASSERT(0); } } static void lp_comm_ntf_cte_req_tx(struct ll_conn *conn, struct proc_ctx *ctx) { lp_comm_ntf(conn, ctx); ull_cp_cte_req_set_disable(conn); ctx->state = LP_COMMON_STATE_IDLE; } static void lp_comm_complete_cte_req(struct ll_conn *conn, struct proc_ctx *ctx) { if (conn->llcp.cte_req.is_enabled) { if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_CTE_RSP) { if (ctx->data.cte_remote_rsp.has_cte) { if (conn->llcp.cte_req.req_interval != 0U) { conn->llcp.cte_req.req_expire = conn->llcp.cte_req.req_interval; } else { /* Disable the CTE request procedure when it is completed in * case it was executed as non-periodic. */ conn->llcp.cte_req.is_enabled = 0U; } ctx->state = LP_COMMON_STATE_IDLE; } else { lp_comm_ntf_cte_req_tx(conn, ctx); } } else if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_REJECT_EXT_IND && ctx->reject_ext_ind.reject_opcode == PDU_DATA_LLCTRL_TYPE_CTE_REQ) { lp_comm_ntf_cte_req_tx(conn, ctx); } else if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP && ctx->unknown_response.type == PDU_DATA_LLCTRL_TYPE_CTE_REQ) { /* CTE response is unsupported in peer, so disable locally for this * connection */ feature_unmask_features(conn, LL_FEAT_BIT_CONNECTION_CTE_REQ); lp_comm_ntf_cte_req_tx(conn, ctx); } else if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_UNUSED) { /* This path is related with handling disable the CTE REQ when PHY * has been changed to CODED PHY. BT 5.3 Core Vol 4 Part E 7.8.85 * says CTE REQ has to be automatically disabled as if it had been requested * by Host. There is no notification send to Host. */ ull_cp_cte_req_set_disable(conn); ctx->state = LP_COMMON_STATE_IDLE; } else { /* Illegal response opcode, internally changes state to * LP_COMMON_STATE_IDLE */ lp_comm_terminate_invalid_pdu(conn, ctx); } } else { /* The CTE_REQ was disabled by Host after the request was send. * It does not matter if response has arrived, it should not be handled. */ ctx->state = LP_COMMON_STATE_IDLE; } if (ctx->state == LP_COMMON_STATE_IDLE) { lp_comm_complete_cte_req_finalize(conn); } } #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_REQ */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) static void lp_comm_ntf_sca(struct node_rx_pdu *ntf, struct proc_ctx *ctx, struct pdu_data *pdu) { struct node_rx_sca *pdu_sca = (struct node_rx_sca *)pdu; ntf->hdr.type = NODE_RX_TYPE_REQ_PEER_SCA_COMPLETE; pdu_sca->status = ctx->data.sca_update.error_code; pdu_sca->sca = ctx->data.sca_update.sca; } #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ static void lp_comm_ntf(struct ll_conn *conn, struct proc_ctx *ctx) { uint8_t piggy_back = 1U; struct node_rx_pdu *ntf; struct pdu_data *pdu; ntf = ctx->node_ref.rx; ctx->node_ref.rx = NULL; if (!ntf) { /* Allocate ntf node */ ntf = llcp_ntf_alloc(); LL_ASSERT(ntf); piggy_back = 0U; } ntf->hdr.type = NODE_RX_TYPE_DC_PDU; ntf->hdr.handle = conn->lll.handle; pdu = (struct pdu_data *)ntf->pdu; switch (ctx->proc) { case PROC_FEATURE_EXCHANGE: lp_comm_ntf_feature_exchange(conn, ctx, pdu); break; case PROC_VERSION_EXCHANGE: lp_comm_ntf_version_ind(conn, ctx, pdu); break; #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PROC_DATA_LENGTH_UPDATE: lp_comm_ntf_length_change(conn, ctx, pdu); break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_REQ) case PROC_CTE_REQ: lp_comm_ntf_cte_req(conn, ctx, pdu); break; #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_REQ */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PROC_SCA_UPDATE: lp_comm_ntf_sca(ntf, ctx, pdu); break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: LL_ASSERT(0); break; } if (!piggy_back) { /* Enqueue notification towards LL, unless we reuse RX node, * in which case it is handled on the ull_cp_rx return path */ ll_rx_put_sched(ntf->hdr.link, ntf); } } static void lp_comm_terminate_invalid_pdu(struct ll_conn *conn, struct proc_ctx *ctx) { /* Invalid behaviour */ /* Invalid PDU received so terminate connection */ conn->llcp_terminate.reason_final = BT_HCI_ERR_LMP_PDU_NOT_ALLOWED; llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } static void lp_comm_complete(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (ctx->proc) { #if defined(CONFIG_BT_CTLR_LE_PING) case PROC_LE_PING: if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP || ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_PING_RSP) { llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } else { /* Illegal response opcode */ lp_comm_terminate_invalid_pdu(conn, ctx); } break; #endif /* CONFIG_BT_CTLR_LE_PING */ case PROC_FEATURE_EXCHANGE: if ((ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP || ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_FEATURE_RSP)) { if (ctx->data.fex.host_initiated) { lp_comm_ntf(conn, ctx); } llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } else { /* Illegal response opcode */ lp_comm_terminate_invalid_pdu(conn, ctx); } break; #if defined(CONFIG_BT_CTLR_MIN_USED_CHAN) && defined(CONFIG_BT_PERIPHERAL) case PROC_MIN_USED_CHANS: llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; break; #endif /* CONFIG_BT_CTLR_MIN_USED_CHAN && CONFIG_BT_PERIPHERAL */ case PROC_VERSION_EXCHANGE: if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_VERSION_IND) { if (ctx->node_ref.rx || llcp_ntf_alloc_is_available()) { /* Either this is a piggy-back or there is a NTF node avail */ lp_comm_ntf(conn, ctx); llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } else { /* Handle procedure TO, in case we end up waiting 'forever' for * NTF buffer. This is a simple way to implement mechanism to * trigger disconnect in case NTF buffer 'never' becomes avail * see elaborate note in lp_comm_st_wait_ntf_avail() */ llcp_lr_prt_restart(conn); ctx->state = LP_COMMON_STATE_WAIT_NTF_AVAIL; } } else { /* Illegal response opcode */ lp_comm_terminate_invalid_pdu(conn, ctx); } break; case PROC_TERMINATE: /* No notification */ llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; /* Mark the connection for termination */ conn->llcp_terminate.reason_final = BT_HCI_ERR_LOCALHOST_TERM_CONN; break; #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) case PROC_CIS_TERMINATE: /* No notification */ llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; break; #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PROC_DATA_LENGTH_UPDATE: if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_LENGTH_RSP) { /* Apply changes in data lengths/times */ uint8_t dle_changed = ull_dle_update_eff(conn); if (dle_changed) { lp_comm_ntf(conn, ctx); } llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } else if (ctx->response_opcode == PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP) { /* Peer does not accept DLU, so disable on current connection */ feature_unmask_features(conn, LL_FEAT_BIT_DLE); llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } else { /* Illegal response opcode */ lp_comm_terminate_invalid_pdu(conn, ctx); break; } if (!ull_cp_remote_dle_pending(conn)) { /* Resume data, but only if there is no remote procedure pending RSP * in which case, the RSP tx-ACK will resume data */ llcp_tx_resume_data(conn, LLCP_TX_QUEUE_PAUSE_DATA_DATA_LENGTH); } break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_REQ) case PROC_CTE_REQ: lp_comm_complete_cte_req(conn, ctx); break; #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_REQ */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PROC_SCA_UPDATE: switch (ctx->response_opcode) { case PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP: /* Peer does not support SCA update, so disable on current connection */ feature_unmask_features(conn, LL_FEAT_BIT_SCA_UPDATE); ctx->data.sca_update.error_code = BT_HCI_ERR_UNSUPP_FEATURE_PARAM_VAL; /* Fall through to complete procedure */ case PDU_DATA_LLCTRL_TYPE_CLOCK_ACCURACY_RSP: #if defined(CONFIG_BT_PERIPHERAL) if (conn->lll.role == BT_HCI_ROLE_PERIPHERAL && !ctx->data.sca_update.error_code && conn->periph.sca != ctx->data.sca_update.sca) { conn->periph.sca = ctx->data.sca_update.sca; ull_conn_update_peer_sca(conn); #if defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) ull_peripheral_iso_update_peer_sca(conn); #endif /* defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) */ } #endif /* CONFIG_BT_PERIPHERAL */ lp_comm_ntf(conn, ctx); llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; break; default: /* Illegal response opcode */ lp_comm_terminate_invalid_pdu(conn, ctx); } break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: /* Unknown procedure */ LL_ASSERT(0); } } #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) static bool lp_cis_terminated(struct ll_conn *conn) { return conn->llcp.cis.terminate_ack; } #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ static bool lp_comm_tx_proxy(struct ll_conn *conn, struct proc_ctx *ctx, const bool extra_cond) { if (extra_cond || llcp_lr_ispaused(conn) || !llcp_tx_alloc_peek(conn, ctx)) { ctx->state = LP_COMMON_STATE_WAIT_TX; } else { lp_comm_tx(conn, ctx); /* Select correct state, depending on TX ack handling 'request' */ ctx->state = ctx->node_ref.tx_ack ? LP_COMMON_STATE_WAIT_TX_ACK : LP_COMMON_STATE_WAIT_RX; return true; } return false; } static void lp_comm_send_req(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (ctx->proc) { #if defined(CONFIG_BT_CTLR_LE_PING) case PROC_LE_PING: lp_comm_tx_proxy(conn, ctx, false); break; #endif /* CONFIG_BT_CTLR_LE_PING */ case PROC_FEATURE_EXCHANGE: lp_comm_tx_proxy(conn, ctx, false); break; #if defined(CONFIG_BT_CTLR_MIN_USED_CHAN) && defined(CONFIG_BT_PERIPHERAL) case PROC_MIN_USED_CHANS: lp_comm_tx_proxy(conn, ctx, false); break; #endif /* CONFIG_BT_CTLR_MIN_USED_CHAN && CONFIG_BT_PERIPHERAL */ case PROC_VERSION_EXCHANGE: /* The Link Layer shall only queue for transmission a maximum of * one LL_VERSION_IND PDU during a connection. */ if (!conn->llcp.vex.sent) { if (lp_comm_tx_proxy(conn, ctx, false)) { conn->llcp.vex.sent = 1; } } else { ctx->response_opcode = PDU_DATA_LLCTRL_TYPE_VERSION_IND; /* Clear node_ref to signal no NTF piggy-backing */ ctx->node_ref.rx = NULL; lp_comm_complete(conn, ctx, evt, param); } break; case PROC_TERMINATE: if (!llcp_tx_alloc_peek(conn, ctx)) { ctx->state = LP_COMMON_STATE_WAIT_TX; } else { lp_comm_tx(conn, ctx); ctx->data.term.error_code = BT_HCI_ERR_LOCALHOST_TERM_CONN; ctx->state = LP_COMMON_STATE_WAIT_TX_ACK; } break; #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) case PROC_CIS_TERMINATE: lp_comm_tx_proxy(conn, ctx, !lp_cis_terminated(conn)); break; #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PROC_DATA_LENGTH_UPDATE: if (feature_dle(conn) && !ull_cp_remote_dle_pending(conn)) { if (llcp_lr_ispaused(conn) || !llcp_tx_alloc_peek(conn, ctx)) { ctx->state = LP_COMMON_STATE_WAIT_TX; } else { /* Pause data tx, to ensure we can later (on RSP rx-ack) * update DLE without conflicting with out-going LL Data PDUs * See BT Core 5.2 Vol6: B-4.5.10 & B-5.1.9 */ llcp_tx_pause_data(conn, LLCP_TX_QUEUE_PAUSE_DATA_DATA_LENGTH); lp_comm_tx(conn, ctx); ctx->state = LP_COMMON_STATE_WAIT_RX; } } else { /* REQ was received from peer and RSP not yet sent * lets piggy-back on RSP instead af sending REQ * thus we can complete local req * * OR * * Data Length Update procedure no longer supported */ llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_REQ) case PROC_CTE_REQ: if (conn->llcp.cte_req.is_enabled && #if defined(CONFIG_BT_CTLR_PHY) conn->lll.phy_rx != PHY_CODED) { #else 1) { #endif /* CONFIG_BT_CTLR_PHY */ lp_comm_tx_proxy(conn, ctx, llcp_rr_get_paused_cmd(conn) == PROC_CTE_REQ); } else { /* The PHY was changed to CODED when the request was waiting in a local * request queue. * * Use of pair: proc PROC_CTE_REQ and rx_opcode PDU_DATA_LLCTRL_TYPE_UNUSED * to complete the procedure before sending a request to peer. * This is a special complete execution path to disable the procedure * due to change of RX PHY to CODED. */ ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; ctx->state = LP_COMMON_STATE_IDLE; llcp_lr_complete(conn); } break; #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_REQ */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PROC_SCA_UPDATE: lp_comm_tx_proxy(conn, ctx, false); break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: /* Unknown procedure */ LL_ASSERT(0); } } static void lp_comm_st_idle(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case LP_COMMON_EVT_RUN: #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) if (ctx->proc == PROC_CIS_TERMINATE) { /* We're getting going on a CIS Terminate */ /* So we should start by requesting Terminate for the CIS in question */ /* Clear terminate ack flag, used to signal CIS Terminated */ conn->llcp.cis.terminate_ack = 0U; llcp_cis_stop_by_id(ctx->data.cis_term.cig_id, ctx->data.cis_term.cis_id, BT_HCI_ERR_LOCALHOST_TERM_CONN); } #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ lp_comm_send_req(conn, ctx, evt, param); break; default: /* Ignore other evts */ break; } } static void lp_comm_st_wait_tx(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case LP_COMMON_EVT_RUN: lp_comm_send_req(conn, ctx, evt, param); break; default: /* Ignore other evts */ break; } } static void lp_comm_st_wait_tx_ack(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case LP_COMMON_EVT_ACK: switch (ctx->proc) { #if defined(CONFIG_BT_CTLR_MIN_USED_CHAN) && defined(CONFIG_BT_PERIPHERAL) case PROC_MIN_USED_CHANS: lp_comm_complete(conn, ctx, evt, param); break; #endif /* CONFIG_BT_CTLR_MIN_USED_CHAN && CONFIG_BT_PERIPHERAL */ case PROC_TERMINATE: lp_comm_complete(conn, ctx, evt, param); break; #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) case PROC_CIS_TERMINATE: lp_comm_complete(conn, ctx, evt, param); break; #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ default: /* Ignore for other procedures */ break; } break; default: /* Ignore other evts */ break; } } static void lp_comm_rx_decode(struct ll_conn *conn, struct proc_ctx *ctx, struct pdu_data *pdu) { ctx->response_opcode = pdu->llctrl.opcode; switch (pdu->llctrl.opcode) { #if defined(CONFIG_BT_CTLR_LE_PING) case PDU_DATA_LLCTRL_TYPE_PING_RSP: /* ping_rsp has no data */ break; #endif /* CONFIG_BT_CTLR_LE_PING */ case PDU_DATA_LLCTRL_TYPE_FEATURE_RSP: llcp_pdu_decode_feature_rsp(conn, pdu); #if defined(CONFIG_BT_CTLR_DATA_LENGTH) && defined(CONFIG_BT_CTLR_PHY) /* If Coded PHY is now supported we must update local max tx/rx times to reflect */ if (feature_phy_coded(conn)) { ull_dle_max_time_get(conn, &conn->lll.dle.local.max_rx_time, &conn->lll.dle.local.max_tx_time); } #endif /* CONFIG_BT_CTLR_DATA_LENGTH && CONFIG_BT_CTLR_PHY */ break; #if defined(CONFIG_BT_CTLR_MIN_USED_CHAN) case PDU_DATA_LLCTRL_TYPE_MIN_USED_CHAN_IND: /* No response expected */ break; #endif /* CONFIG_BT_CTLR_MIN_USED_CHAN */ case PDU_DATA_LLCTRL_TYPE_VERSION_IND: llcp_pdu_decode_version_ind(conn, pdu); break; case PDU_DATA_LLCTRL_TYPE_UNKNOWN_RSP: llcp_pdu_decode_unknown_rsp(ctx, pdu); break; case PDU_DATA_LLCTRL_TYPE_TERMINATE_IND: /* No response expected */ LL_ASSERT(0); break; #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PDU_DATA_LLCTRL_TYPE_LENGTH_RSP: llcp_pdu_decode_length_rsp(conn, pdu); break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_REQ) case PDU_DATA_LLCTRL_TYPE_CTE_RSP: llcp_pdu_decode_cte_rsp(ctx, pdu); break; #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_REQ */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PDU_DATA_LLCTRL_TYPE_CLOCK_ACCURACY_RSP: llcp_pdu_decode_clock_accuracy_rsp(ctx, pdu); break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ case PDU_DATA_LLCTRL_TYPE_REJECT_EXT_IND: llcp_pdu_decode_reject_ext_ind(ctx, pdu); break; case PDU_DATA_LLCTRL_TYPE_REJECT_IND: /* Empty on purpose, as we don't care about the PDU content, we'll disconnect */ break; default: /* Unknown opcode */ LL_ASSERT(0); } } static void lp_comm_st_wait_rx(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case LP_COMMON_EVT_RESPONSE: lp_comm_rx_decode(conn, ctx, (struct pdu_data *)param); lp_comm_complete(conn, ctx, evt, param); break; default: /* Ignore other evts */ break; } } static void lp_comm_st_wait_ntf_avail(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case LP_COMMON_EVT_RUN: switch (ctx->proc) { case PROC_VERSION_EXCHANGE: /* Note re. procedure timeout handling: * Procedure TO is specifically NOT reset while in wait state, since * the mechanism is being 'hi-jacked' to implement a TO on the NTF wait * This to catch the very unlikely case: * local VERSION IND started after a VERSION IND had already been TX'ed * in which case the local procedure should complete with NTF without * prior TX (ie no procedure TO handling initiated). IF this NTF never * finds buffer avail it would wait forever, but not with proc TO active */ if (llcp_ntf_alloc_is_available()) { lp_comm_ntf(conn, ctx); llcp_lr_complete(conn); ctx->state = LP_COMMON_STATE_IDLE; } break; default: /* If we get here it is not good since only VERSION EXCHANGE procedure * out of the ones handled in ull_llcp_common should end up waiting for * non-piggy-back'ed NTF */ LL_ASSERT(0); break; } break; default: break; } } static void lp_comm_execute_fsm(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (ctx->state) { case LP_COMMON_STATE_IDLE: lp_comm_st_idle(conn, ctx, evt, param); break; case LP_COMMON_STATE_WAIT_TX: lp_comm_st_wait_tx(conn, ctx, evt, param); break; case LP_COMMON_STATE_WAIT_TX_ACK: lp_comm_st_wait_tx_ack(conn, ctx, evt, param); break; case LP_COMMON_STATE_WAIT_RX: lp_comm_st_wait_rx(conn, ctx, evt, param); break; case LP_COMMON_STATE_WAIT_NTF_AVAIL: lp_comm_st_wait_ntf_avail(conn, ctx, evt, param); break; default: /* Unknown state */ LL_ASSERT(0); } } void llcp_lp_comm_tx_ack(struct ll_conn *conn, struct proc_ctx *ctx, struct node_tx *tx) { lp_comm_execute_fsm(conn, ctx, LP_COMMON_EVT_ACK, tx->pdu); } void llcp_lp_comm_rx(struct ll_conn *conn, struct proc_ctx *ctx, struct node_rx_pdu *rx) { lp_comm_execute_fsm(conn, ctx, LP_COMMON_EVT_RESPONSE, rx->pdu); } void llcp_lp_comm_run(struct ll_conn *conn, struct proc_ctx *ctx, void *param) { lp_comm_execute_fsm(conn, ctx, LP_COMMON_EVT_RUN, param); } static void rp_comm_terminate(struct ll_conn *conn, struct proc_ctx *ctx) { llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; /* Mark the connection for termination */ conn->llcp_terminate.reason_final = ctx->data.term.error_code; } #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) static void rp_comm_stop_cis(struct proc_ctx *ctx) { llcp_cis_stop_by_id(ctx->data.cis_term.cig_id, ctx->data.cis_term.cis_id, ctx->data.cis_term.error_code); } #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ /* * LLCP Remote Procedure Common FSM */ static void rp_comm_rx_decode(struct ll_conn *conn, struct proc_ctx *ctx, struct pdu_data *pdu) { ctx->response_opcode = pdu->llctrl.opcode; switch (pdu->llctrl.opcode) { #if defined(CONFIG_BT_CTLR_LE_PING) case PDU_DATA_LLCTRL_TYPE_PING_REQ: /* ping_req has no data */ break; #endif /* CONFIG_BT_CTLR_LE_PING */ #if defined(CONFIG_BT_PERIPHERAL) || \ (defined(CONFIG_BT_CTLR_PER_INIT_FEAT_XCHG) && defined(CONFIG_BT_CENTRAL)) #if defined(CONFIG_BT_PERIPHERAL) case PDU_DATA_LLCTRL_TYPE_FEATURE_REQ: #endif /* CONFIG_BT_PERIPHERAL */ #if defined(CONFIG_BT_CTLR_PER_INIT_FEAT_XCHG) && defined(CONFIG_BT_CENTRAL) case PDU_DATA_LLCTRL_TYPE_PER_INIT_FEAT_XCHG: #endif /* CONFIG_BT_CTLR_PER_INIT_FEAT_XCHG && CONFIG_BT_CENTRAL */ llcp_pdu_decode_feature_req(conn, pdu); #if defined(CONFIG_BT_CTLR_DATA_LENGTH) && defined(CONFIG_BT_CTLR_PHY) /* If Coded PHY is now supported we must update local max tx/rx times to reflect */ if (feature_phy_coded(conn)) { ull_dle_max_time_get(conn, &conn->lll.dle.local.max_rx_time, &conn->lll.dle.local.max_tx_time); } #endif /* CONFIG_BT_CTLR_DATA_LENGTH && CONFIG_BT_CTLR_PHY */ break; #endif /* CONFIG_BT_PERIPHERAL || (CONFIG_BT_CTLR_PER_INIT_FEAT_XCHG && CONFIG_BT_CENTRAL) */ #if defined(CONFIG_BT_CTLR_MIN_USED_CHAN) && defined(CONFIG_BT_CENTRAL) case PDU_DATA_LLCTRL_TYPE_MIN_USED_CHAN_IND: llcp_pdu_decode_min_used_chans_ind(conn, pdu); break; #endif /* CONFIG_BT_CTLR_MIN_USED_CHAN && CONFIG_BT_CENTRAL */ case PDU_DATA_LLCTRL_TYPE_VERSION_IND: llcp_pdu_decode_version_ind(conn, pdu); break; case PDU_DATA_LLCTRL_TYPE_TERMINATE_IND: llcp_pdu_decode_terminate_ind(ctx, pdu); /* Make sure no data is tx'ed after RX of terminate ind */ llcp_tx_pause_data(conn, LLCP_TX_QUEUE_PAUSE_DATA_TERMINATE); break; #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) case PDU_DATA_LLCTRL_TYPE_CIS_TERMINATE_IND: llcp_pdu_decode_cis_terminate_ind(ctx, pdu); /* Terminate CIS */ rp_comm_stop_cis(ctx); break; #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PDU_DATA_LLCTRL_TYPE_LENGTH_REQ: llcp_pdu_decode_length_req(conn, pdu); /* On reception of REQ mark RSP open for local piggy-back * Pause data tx, to ensure we can later (on RSP tx ack) update TX DLE without * conflicting with out-going LL Data PDUs * See BT Core 5.2 Vol6: B-4.5.10 & B-5.1.9 */ llcp_tx_pause_data(conn, LLCP_TX_QUEUE_PAUSE_DATA_DATA_LENGTH); ctx->data.dle.ntf_dle = ull_dle_update_eff_rx(conn); /* Mark RX pdu to be removed from RX queue, but NOT be released */ llcp_rx_node_retain(ctx); break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_RSP) case PDU_DATA_LLCTRL_TYPE_CTE_REQ: llcp_pdu_decode_cte_req(ctx, pdu); break; #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_RSP */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PDU_DATA_LLCTRL_TYPE_CLOCK_ACCURACY_REQ: llcp_pdu_decode_clock_accuracy_req(ctx, pdu); break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: /* Unknown opcode */ LL_ASSERT(0); } } static void rp_comm_tx(struct ll_conn *conn, struct proc_ctx *ctx) { struct node_tx *tx; struct pdu_data *pdu; /* Allocate tx node */ tx = llcp_tx_alloc(conn, ctx); LL_ASSERT(tx); pdu = (struct pdu_data *)tx->pdu; /* Encode LL Control PDU */ switch (ctx->proc) { #if defined(CONFIG_BT_CTLR_LE_PING) case PROC_LE_PING: llcp_pdu_encode_ping_rsp(pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; #endif /* CONFIG_BT_CTLR_LE_PING */ case PROC_FEATURE_EXCHANGE: llcp_pdu_encode_feature_rsp(conn, pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; case PROC_VERSION_EXCHANGE: llcp_pdu_encode_version_ind(pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PROC_DATA_LENGTH_UPDATE: llcp_pdu_encode_length_rsp(conn, pdu); ctx->node_ref.tx_ack = tx; ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_RSP) case PROC_CTE_REQ: { uint8_t err_code = 0; if (conn->llcp.cte_rsp.is_enabled == 0) { err_code = BT_HCI_ERR_UNSUPP_LL_PARAM_VAL; } #if defined(CONFIG_BT_PHY_UPDATE) /* If the PHY update is not possible, then PHY1M is used. * CTE is supported for PHY1M. */ if (conn->lll.phy_tx == PHY_CODED) { err_code = BT_HCI_ERR_INVALID_LL_PARAM; } #endif /* CONFIG_BT_PHY_UPDATE */ if (!(conn->llcp.cte_rsp.cte_types & BIT(ctx->data.cte_remote_req.cte_type)) || conn->llcp.cte_rsp.max_cte_len < ctx->data.cte_remote_req.min_cte_len) { err_code = BT_HCI_ERR_UNSUPP_LL_PARAM_VAL; } if (!err_code) { llcp_pdu_encode_cte_rsp(ctx, pdu); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; } else { llcp_pdu_encode_reject_ext_ind(pdu, PDU_DATA_LLCTRL_TYPE_CTE_REQ, err_code); ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; } ctx->node_ref.tx_ack = tx; break; } #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_RSP */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PROC_SCA_UPDATE: llcp_pdu_encode_clock_accuracy_rsp(ctx, pdu); ctx->node_ref.tx_ack = tx; ctx->rx_opcode = PDU_DATA_LLCTRL_TYPE_UNUSED; break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: /* Unknown procedure */ LL_ASSERT(0); } ctx->tx_opcode = pdu->llctrl.opcode; /* Enqueue LL Control PDU towards LLL */ llcp_tx_enqueue(conn, tx); /* Restart procedure response timeout timer */ llcp_rr_prt_restart(conn); } static void rp_comm_st_idle(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case RP_COMMON_EVT_RUN: ctx->state = RP_COMMON_STATE_WAIT_RX; break; default: /* Ignore other evts */ break; } } #if defined(CONFIG_BT_CTLR_DATA_LENGTH) static void rp_comm_ntf(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t generate_ntf) { struct node_rx_pdu *ntf; struct pdu_data *pdu; /* Allocate ntf node */ ntf = ctx->node_ref.rx; ctx->node_ref.rx = NULL; LL_ASSERT(ntf); /* This should be an 'old' RX node, so put/sched when done */ LL_ASSERT(ntf->hdr.type == NODE_RX_TYPE_RETAIN); /* And release memory if no NTF to be generated */ ntf->hdr.type = NODE_RX_TYPE_RELEASE; if (generate_ntf) { ntf->hdr.type = NODE_RX_TYPE_DC_PDU; ntf->hdr.handle = conn->lll.handle; pdu = (struct pdu_data *)ntf->pdu; LL_ASSERT(ctx->proc == PROC_DATA_LENGTH_UPDATE); llcp_ntf_encode_length_change(conn, pdu); } /* Enqueue notification towards LL - releases mem if no ntf */ ll_rx_put_sched(ntf->hdr.link, ntf); } #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ static bool rp_comm_tx_proxy(struct ll_conn *conn, struct proc_ctx *ctx, const bool complete) { if (llcp_rr_ispaused(conn) || !llcp_tx_alloc_peek(conn, ctx)) { ctx->state = RP_COMMON_STATE_WAIT_TX; return false; } rp_comm_tx(conn, ctx); ctx->state = RP_COMMON_STATE_WAIT_TX_ACK; if (complete) { llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; } return true; } static void rp_comm_send_rsp(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (ctx->proc) { #if defined(CONFIG_BT_CTLR_LE_PING) case PROC_LE_PING: /* Always respond on remote ping */ rp_comm_tx_proxy(conn, ctx, true); break; #endif /* CONFIG_BT_CTLR_LE_PING */ case PROC_FEATURE_EXCHANGE: /* Always respond on remote feature exchange */ rp_comm_tx_proxy(conn, ctx, true); break; case PROC_VERSION_EXCHANGE: /* The Link Layer shall only queue for transmission a maximum of one * LL_VERSION_IND PDU during a connection. * If the Link Layer receives an LL_VERSION_IND PDU and has already sent an * LL_VERSION_IND PDU then the Link Layer shall not send another * LL_VERSION_IND PDU to the peer device. */ if (!conn->llcp.vex.sent) { if (rp_comm_tx_proxy(conn, ctx, true)) { conn->llcp.vex.sent = 1; } } else { /* Invalid behaviour * A procedure already sent a LL_VERSION_IND and received a LL_VERSION_IND. * Ignore and complete the procedure. */ llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; } break; #if defined(CONFIG_BT_CTLR_MIN_USED_CHAN) && defined(CONFIG_BT_CENTRAL) case PROC_MIN_USED_CHANS: /* * Spec says (5.2, Vol.6, Part B, Section 5.1.11): * The procedure has completed when the Link Layer acknowledgment of the * LL_MIN_USED_CHANNELS_IND PDU is sent or received. * In effect, for this procedure, this is equivalent to RX of PDU * * Also: * If the Link Layer receives an LL_MIN_USED_CHANNELS_IND PDU, it should ensure * that, whenever the Peripheral-to-Central PHY is one of those specified, * the connection uses at least the number of channels given in the * MinUsedChannels field of the PDU. * * The 'should' is here interpreted as 'permission' to do nothing * * Future improvement could implement logic to support this */ llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; break; #endif /* CONFIG_BT_CTLR_MIN_USED_CHAN && CONFIG_BT_CENTRAL */ case PROC_TERMINATE: #if defined(CONFIG_BT_CENTRAL) if (conn->lll.role == BT_HCI_ROLE_CENTRAL) { /* No response, but postpone terminate until next event * to ensure acking the reception of TERMINATE_IND */ ctx->state = RP_COMMON_STATE_POSTPONE_TERMINATE; break; } #endif #if defined(CONFIG_BT_PERIPHERAL) /* Terminate right away */ rp_comm_terminate(conn, ctx); #endif break; #if defined(CONFIG_BT_CTLR_CENTRAL_ISO) || defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) case PROC_CIS_TERMINATE: /* No response */ llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; break; #endif /* CONFIG_BT_CTLR_CENTRAL_ISO || CONFIG_BT_CTLR_PERIPHERAL_ISO */ #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PROC_DATA_LENGTH_UPDATE: rp_comm_tx_proxy(conn, ctx, false); break; #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_RSP) case PROC_CTE_REQ: if (llcp_rr_ispaused(conn) || !llcp_tx_alloc_peek(conn, ctx) || (llcp_rr_get_paused_cmd(conn) == PROC_CTE_REQ)) { ctx->state = RP_COMMON_STATE_WAIT_TX; } else { llcp_rr_set_paused_cmd(conn, PROC_PHY_UPDATE); rp_comm_tx(conn, ctx); ctx->state = RP_COMMON_STATE_WAIT_TX_ACK; } break; #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_RSP */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PROC_SCA_UPDATE: /* Always respond to remote SCA */ rp_comm_tx_proxy(conn, ctx, false); break; #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: /* Unknown procedure */ LL_ASSERT(0); } } static void rp_comm_st_wait_rx(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case RP_COMMON_EVT_REQUEST: rp_comm_rx_decode(conn, ctx, (struct pdu_data *)param); rp_comm_send_rsp(conn, ctx, evt, param); break; default: /* Ignore other evts */ break; } } static void rp_comm_st_postpone_terminate(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case RP_COMMON_EVT_RUN: LL_ASSERT(ctx->proc == PROC_TERMINATE); /* Note: now we terminate, mimicking legacy LLCP behaviour * A check should be added to ensure that the ack of the terminate_ind was * indeed tx'ed and not scheduled out/postponed by LLL */ rp_comm_terminate(conn, ctx); break; default: /* Ignore other evts */ break; } } static void rp_comm_st_wait_tx(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case LP_COMMON_EVT_RUN: rp_comm_send_rsp(conn, ctx, evt, param); break; default: /* Ignore other evts */ break; } } static void rp_comm_st_wait_tx_ack(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (evt) { case RP_COMMON_EVT_ACK: switch (ctx->proc) { #if defined(CONFIG_BT_CTLR_DATA_LENGTH) case PROC_DATA_LENGTH_UPDATE: { /* Apply changes in data lengths/times */ uint8_t dle_changed = ull_dle_update_eff_tx(conn); dle_changed |= ctx->data.dle.ntf_dle; llcp_tx_resume_data(conn, LLCP_TX_QUEUE_PAUSE_DATA_DATA_LENGTH); rp_comm_ntf(conn, ctx, dle_changed); llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; break; } #endif /* CONFIG_BT_CTLR_DATA_LENGTH */ #if defined(CONFIG_BT_CTLR_DF_CONN_CTE_RSP) case PROC_CTE_REQ: { /* add PHY update pause = false here */ llcp_rr_set_paused_cmd(conn, PROC_NONE); llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; } #endif /* CONFIG_BT_CTLR_DF_CONN_CTE_RSP */ #if defined(CONFIG_BT_CTLR_SCA_UPDATE) case PROC_SCA_UPDATE: { #if defined(CONFIG_BT_PERIPHERAL) if (conn->lll.role == BT_HCI_ROLE_PERIPHERAL) { conn->periph.sca = ctx->data.sca_update.sca; ull_conn_update_peer_sca(conn); #if defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) ull_peripheral_iso_update_peer_sca(conn); #endif /* defined(CONFIG_BT_CTLR_PERIPHERAL_ISO) */ } #endif /* CONFIG_BT_PERIPHERAL */ llcp_rr_complete(conn); ctx->state = RP_COMMON_STATE_IDLE; } #endif /* CONFIG_BT_CTLR_SCA_UPDATE */ default: /* Ignore other procedures */ break; } break; default: /* Ignore other evts */ break; } } static void rp_comm_execute_fsm(struct ll_conn *conn, struct proc_ctx *ctx, uint8_t evt, void *param) { switch (ctx->state) { case RP_COMMON_STATE_IDLE: rp_comm_st_idle(conn, ctx, evt, param); break; case RP_COMMON_STATE_WAIT_RX: rp_comm_st_wait_rx(conn, ctx, evt, param); break; case RP_COMMON_STATE_POSTPONE_TERMINATE: rp_comm_st_postpone_terminate(conn, ctx, evt, param); break; case RP_COMMON_STATE_WAIT_TX: rp_comm_st_wait_tx(conn, ctx, evt, param); break; case RP_COMMON_STATE_WAIT_TX_ACK: rp_comm_st_wait_tx_ack(conn, ctx, evt, param); break; default: /* Unknown state */ LL_ASSERT(0); } } void llcp_rp_comm_rx(struct ll_conn *conn, struct proc_ctx *ctx, struct node_rx_pdu *rx) { rp_comm_execute_fsm(conn, ctx, RP_COMMON_EVT_REQUEST, rx->pdu); } void llcp_rp_comm_tx_ack(struct ll_conn *conn, struct proc_ctx *ctx, struct node_tx *tx) { rp_comm_execute_fsm(conn, ctx, RP_COMMON_EVT_ACK, tx->pdu); } void llcp_rp_comm_run(struct ll_conn *conn, struct proc_ctx *ctx, void *param) { rp_comm_execute_fsm(conn, ctx, RP_COMMON_EVT_RUN, param); } |