// SPDX-License-Identifier: GPL-2.0 /* Copyright (c) 2013-2018, The Linux Foundation. All rights reserved. * Copyright (C) 2018-2020 Linaro Ltd. */ #include #include #include #include #include #include "ipa.h" #include "ipa_endpoint.h" #include "ipa_mem.h" #include "ipa_table.h" #include "ipa_modem.h" #include "ipa_qmi_msg.h" /** * DOC: AP/Modem QMI Handshake * * The AP and modem perform a "handshake" at initialization time to ensure * both sides know when everything is ready to begin operating. The AP * driver (this code) uses two QMI handles (endpoints) for this; a client * using a service on the modem, and server to service modem requests (and * to supply an indication message from the AP). Once the handshake is * complete, the AP and modem may begin IPA operation. This occurs * only when the AP IPA driver, modem IPA driver, and IPA microcontroller * are ready. * * The QMI service on the modem expects to receive an INIT_DRIVER request from * the AP, which contains parameters used by the modem during initialization. * The AP sends this request as soon as it is knows the modem side service * is available. The modem responds to this request, and if this response * contains a success result, the AP knows the modem IPA driver is ready. * * The modem is responsible for loading firmware on the IPA microcontroller. * This occurs only during the initial modem boot. The modem sends a * separate DRIVER_INIT_COMPLETE request to the AP to report that the * microcontroller is ready. The AP may assume the microcontroller is * ready and remain so (even if the modem reboots) once it has received * and responded to this request. * * There is one final exchange involved in the handshake. It is required * on the initial modem boot, but optional (but in practice does occur) on * subsequent boots. The modem expects to receive a final INIT_COMPLETE * indication message from the AP when it is about to begin its normal * operation. The AP will only send this message after it has received * and responded to an INDICATION_REGISTER request from the modem. * * So in summary: * - Whenever the AP learns the modem has booted and its IPA QMI service * is available, it sends an INIT_DRIVER request to the modem. The * modem supplies a success response when it is ready to operate. * - On the initial boot, the modem sets up the IPA microcontroller, and * sends a DRIVER_INIT_COMPLETE request to the AP when this is done. * - When the modem is ready to receive an INIT_COMPLETE indication from * the AP, it sends an INDICATION_REGISTER request to the AP. * - On the initial modem boot, everything is ready when: * - AP has received a success response from its INIT_DRIVER request * - AP has responded to a DRIVER_INIT_COMPLETE request * - AP has responded to an INDICATION_REGISTER request from the modem * - AP has sent an INIT_COMPLETE indication to the modem * - On subsequent modem boots, everything is ready when: * - AP has received a success response from its INIT_DRIVER request * - AP has responded to a DRIVER_INIT_COMPLETE request * - The INDICATION_REGISTER request and INIT_COMPLETE indication are * optional for non-initial modem boots, and have no bearing on the * determination of when things are "ready" */ #define IPA_HOST_SERVICE_SVC_ID 0x31 #define IPA_HOST_SVC_VERS 1 #define IPA_HOST_SERVICE_INS_ID 1 #define IPA_MODEM_SERVICE_SVC_ID 0x31 #define IPA_MODEM_SERVICE_INS_ID 2 #define IPA_MODEM_SVC_VERS 1 #define QMI_INIT_DRIVER_TIMEOUT 60000 /* A minute in milliseconds */ /* Send an INIT_COMPLETE indication message to the modem */ static void ipa_server_init_complete(struct ipa_qmi *ipa_qmi) { struct ipa *ipa = container_of(ipa_qmi, struct ipa, qmi); struct qmi_handle *qmi = &ipa_qmi->server_handle; struct sockaddr_qrtr *sq = &ipa_qmi->modem_sq; struct ipa_init_complete_ind ind = { }; int ret; ind.status.result = QMI_RESULT_SUCCESS_V01; ind.status.error = QMI_ERR_NONE_V01; ret = qmi_send_indication(qmi, sq, IPA_QMI_INIT_COMPLETE, IPA_QMI_INIT_COMPLETE_IND_SZ, ipa_init_complete_ind_ei, &ind); if (ret) dev_err(&ipa->pdev->dev, "error %d sending init complete indication\n", ret); else ipa_qmi->indication_sent = true; } /* If requested (and not already sent) send the INIT_COMPLETE indication */ static void ipa_qmi_indication(struct ipa_qmi *ipa_qmi) { if (!ipa_qmi->indication_requested) return; if (ipa_qmi->indication_sent) return; ipa_server_init_complete(ipa_qmi); } /* Determine whether everything is ready to start normal operation. * We know everything (else) is ready when we know the IPA driver on * the modem is ready, and the microcontroller is ready. * * When the modem boots (or reboots), the handshake sequence starts * with the AP sending the modem an INIT_DRIVER request. Within * that request, the uc_loaded flag will be zero (false) for an * initial boot, non-zero (true) for a subsequent (SSR) boot. */ static void ipa_qmi_ready(struct ipa_qmi *ipa_qmi) { struct ipa *ipa = container_of(ipa_qmi, struct ipa, qmi); int ret; /* We aren't ready until the modem and microcontroller are */ if (!ipa_qmi->modem_ready || !ipa_qmi->uc_ready) return; /* Send the indication message if it was requested */ ipa_qmi_indication(ipa_qmi); /* The initial boot requires us to send the indication. */ if (ipa_qmi->initial_boot) { if (!ipa_qmi->indication_sent) return; /* The initial modem boot completed successfully */ ipa_qmi->initial_boot = false; } /* We're ready. Start up normal operation */ ipa = container_of(ipa_qmi, struct ipa, qmi); ret = ipa_modem_start(ipa); if (ret) dev_err(&ipa->pdev->dev, "error %d starting modem\n", ret); } /* All QMI clients from the modem node are gone (modem shut down or crashed). */ static void ipa_server_bye(struct qmi_handle *qmi, unsigned int node) { struct ipa_qmi *ipa_qmi; ipa_qmi = container_of(qmi, struct ipa_qmi, server_handle); /* The modem client and server go away at the same time */ memset(&ipa_qmi->modem_sq, 0, sizeof(ipa_qmi->modem_sq)); /* initial_boot doesn't change when modem reboots */ /* uc_ready doesn't change when modem reboots */ ipa_qmi->modem_ready = false; ipa_qmi->indication_requested = false; ipa_qmi->indication_sent = false; } static const struct qmi_ops ipa_server_ops = { .bye = ipa_server_bye, }; /* Callback function to handle an INDICATION_REGISTER request message from the * modem. This informs the AP that the modem is now ready to receive the * INIT_COMPLETE indication message. */ static void ipa_server_indication_register(struct qmi_handle *qmi, struct sockaddr_qrtr *sq, struct qmi_txn *txn, const void *decoded) { struct ipa_indication_register_rsp rsp = { }; struct ipa_qmi *ipa_qmi; struct ipa *ipa; int ret; ipa_qmi = container_of(qmi, struct ipa_qmi, server_handle); ipa = container_of(ipa_qmi, struct ipa, qmi); rsp.rsp.result = QMI_RESULT_SUCCESS_V01; rsp.rsp.error = QMI_ERR_NONE_V01; ret = qmi_send_response(qmi, sq, txn, IPA_QMI_INDICATION_REGISTER, IPA_QMI_INDICATION_REGISTER_RSP_SZ, ipa_indication_register_rsp_ei, &rsp); if (!ret) { ipa_qmi->indication_requested = true; ipa_qmi_ready(ipa_qmi); /* We might be ready now */ } else { dev_err(&ipa->pdev->dev, "error %d sending register indication response\n", ret); } } /* Respond to a DRIVER_INIT_COMPLETE request message from the modem. */ static void ipa_server_driver_init_complete(struct qmi_handle *qmi, struct sockaddr_qrtr *sq, struct qmi_txn *txn, const void *decoded) { struct ipa_driver_init_complete_rsp rsp = { }; struct ipa_qmi *ipa_qmi; struct ipa *ipa; int ret; ipa_qmi = container_of(qmi, struct ipa_qmi, server_handle); ipa = container_of(ipa_qmi, struct ipa, qmi); rsp.rsp.result = QMI_RESULT_SUCCESS_V01; rsp.rsp.error = QMI_ERR_NONE_V01; ret = qmi_send_response(qmi, sq, txn, IPA_QMI_DRIVER_INIT_COMPLETE, IPA_QMI_DRIVER_INIT_COMPLETE_RSP_SZ, ipa_driver_init_complete_rsp_ei, &rsp); if (!ret) { ipa_qmi->uc_ready = true; ipa_qmi_ready(ipa_qmi); /* We might be ready now */ } else { dev_err(&ipa->pdev->dev, "error %d sending init complete response\n", ret); } } /* The server handles two request message types sent by the modem. */ static const struct qmi_msg_handler ipa_server_msg_handlers[] = { { .type = QMI_REQUEST, .msg_id = IPA_QMI_INDICATION_REGISTER, .ei = ipa_indication_register_req_ei, .decoded_size = IPA_QMI_INDICATION_REGISTER_REQ_SZ, .fn = ipa_server_indication_register, }, { .type = QMI_REQUEST, .msg_id = IPA_QMI_DRIVER_INIT_COMPLETE, .ei = ipa_driver_init_complete_req_ei, .decoded_size = IPA_QMI_DRIVER_INIT_COMPLETE_REQ_SZ, .fn = ipa_server_driver_init_complete, }, { }, }; /* Handle an INIT_DRIVER response message from the modem. */ static void ipa_client_init_driver(struct qmi_handle *qmi, struct sockaddr_qrtr *sq, struct qmi_txn *txn, const void *decoded) { txn->result = 0; /* IPA_QMI_INIT_DRIVER request was successful */ complete(&txn->completion); } /* The client handles one response message type sent by the modem. */ static const struct qmi_msg_handler ipa_client_msg_handlers[] = { { .type = QMI_RESPONSE, .msg_id = IPA_QMI_INIT_DRIVER, .ei = ipa_init_modem_driver_rsp_ei, .decoded_size = IPA_QMI_INIT_DRIVER_RSP_SZ, .fn = ipa_client_init_driver, }, { }, }; /* Return a pointer to an init modem driver request structure, which contains * configuration parameters for the modem. The modem may be started multiple * times, but generally these parameters don't change so we can reuse the * request structure once it's initialized. The only exception is the * skip_uc_load field, which will be set only after the microcontroller has * reported it has completed its initialization. */ static const struct ipa_init_modem_driver_req * init_modem_driver_req(struct ipa_qmi *ipa_qmi) { struct ipa *ipa = container_of(ipa_qmi, struct ipa, qmi); static struct ipa_init_modem_driver_req req; const struct ipa_mem *mem; /* The microcontroller is initialized on the first boot */ req.skip_uc_load_valid = 1; req.skip_uc_load = ipa->uc_loaded ? 1 : 0; /* We only have to initialize most of it once */ if (req.platform_type_valid) return &req; req.platform_type_valid = 1; req.platform_type = IPA_QMI_PLATFORM_TYPE_MSM_ANDROID; mem = ipa_mem_find(ipa, IPA_MEM_MODEM_HEADER); if (mem->size) { req.hdr_tbl_info_valid = 1; req.hdr_tbl_info.start = ipa->mem_offset + mem->offset; req.hdr_tbl_info.end = req.hdr_tbl_info.start + mem->size - 1; } mem = ipa_mem_find(ipa, IPA_MEM_V4_ROUTE); req.v4_route_tbl_info_valid = 1; req.v4_route_tbl_info.start = ipa->mem_offset + mem->offset; req.v4_route_tbl_info.count = mem->size / sizeof(__le64); mem = ipa_mem_find(ipa, IPA_MEM_V6_ROUTE); req.v6_route_tbl_info_valid = 1; req.v6_route_tbl_info.start = ipa->mem_offset + mem->offset; req.v6_route_tbl_info.count = mem->size / sizeof(__le64); mem = ipa_mem_find(ipa, IPA_MEM_V4_FILTER); req.v4_filter_tbl_start_valid = 1; req.v4_filter_tbl_start = ipa->mem_offset + mem->offset; mem = ipa_mem_find(ipa, IPA_MEM_V6_FILTER); req.v6_filter_tbl_start_valid = 1; req.v6_filter_tbl_start = ipa->mem_offset + mem->offset; mem = ipa_mem_find(ipa, IPA_MEM_MODEM); if (mem->size) { req.modem_mem_info_valid = 1; req.modem_mem_info.start = ipa->mem_offset + mem->offset; req.modem_mem_info.size = mem->size; } req.ctrl_comm_dest_end_pt_valid = 1; req.ctrl_comm_dest_end_pt = ipa->name_map[IPA_ENDPOINT_AP_MODEM_RX]->endpoint_id; /* skip_uc_load_valid and skip_uc_load are set above */ mem = ipa_mem_find(ipa, IPA_MEM_MODEM_PROC_CTX); if (mem->size) { req.hdr_proc_ctx_tbl_info_valid = 1; req.hdr_proc_ctx_tbl_info.start = ipa->mem_offset + mem->offset; req.hdr_proc_ctx_tbl_info.end = req.hdr_proc_ctx_tbl_info.start + mem->size - 1; } /* Nothing to report for the compression table (zip_tbl_info) */ mem = ipa_mem_find(ipa, IPA_MEM_V4_ROUTE_HASHED); if (mem->size) { req.v4_hash_route_tbl_info_valid = 1; req.v4_hash_route_tbl_info.start = ipa->mem_offset + mem->offset; req.v4_hash_route_tbl_info.count = mem->size / sizeof(__le64); } mem = ipa_mem_find(ipa, IPA_MEM_V6_ROUTE_HASHED); if (mem->size) { req.v6_hash_route_tbl_info_valid = 1; req.v6_hash_route_tbl_info.start = ipa->mem_offset + mem->offset; req.v6_hash_route_tbl_info.count = mem->size / sizeof(__le64); } mem = ipa_mem_find(ipa, IPA_MEM_V4_FILTER_HASHED); if (mem->size) { req.v4_hash_filter_tbl_start_valid = 1; req.v4_hash_filter_tbl_start = ipa->mem_offset + mem->offset; } mem = ipa_mem_find(ipa, IPA_MEM_V6_FILTER_HASHED); if (mem->size) { req.v6_hash_filter_tbl_start_valid = 1; req.v6_hash_filter_tbl_start = ipa->mem_offset + mem->offset; } /* The stats fields are only valid for IPA v4.0+ */ if (ipa->version >= IPA_VERSION_4_0) { mem = ipa_mem_find(ipa, IPA_MEM_STATS_QUOTA_MODEM); if (mem->size) { req.hw_stats_quota_base_addr_valid = 1; req.hw_stats_quota_base_addr = ipa->mem_offset + mem->offset; req.hw_stats_quota_size_valid = 1; req.hw_stats_quota_size = ipa->mem_offset + mem->size; } /* If the DROP stats region is defined, include it */ mem = ipa_mem_find(ipa, IPA_MEM_STATS_DROP); if (mem && mem->size) { req.hw_stats_drop_base_addr_valid = 1; req.hw_stats_drop_base_addr = ipa->mem_offset + mem->offset; req.hw_stats_drop_size_valid = 1; req.hw_stats_drop_size = ipa->mem_offset + mem->size; } } return &req; } /* Send an INIT_DRIVER request to the modem, and wait for it to complete. */ static void ipa_client_init_driver_work(struct work_struct *work) { unsigned long timeout = msecs_to_jiffies(QMI_INIT_DRIVER_TIMEOUT); const struct ipa_init_modem_driver_req *req; struct ipa_qmi *ipa_qmi; struct qmi_handle *qmi; struct qmi_txn txn; struct device *dev; struct ipa *ipa; int ret; ipa_qmi = container_of(work, struct ipa_qmi, init_driver_work); qmi = &ipa_qmi->client_handle; ipa = container_of(ipa_qmi, struct ipa, qmi); dev = &ipa->pdev->dev; ret = qmi_txn_init(qmi, &txn, NULL, NULL); if (ret < 0) { dev_err(dev, "error %d preparing init driver request\n", ret); return; } /* Send the request, and if successful wait for its response */ req = init_modem_driver_req(ipa_qmi); ret = qmi_send_request(qmi, &ipa_qmi->modem_sq, &txn, IPA_QMI_INIT_DRIVER, IPA_QMI_INIT_DRIVER_REQ_SZ, ipa_init_modem_driver_req_ei, req); if (ret) dev_err(dev, "error %d sending init driver request\n", ret); else if ((ret = qmi_txn_wait(&txn, timeout))) dev_err(dev, "error %d awaiting init driver response\n", ret); if (!ret) { ipa_qmi->modem_ready = true; ipa_qmi_ready(ipa_qmi); /* We might be ready now */ } else { /* If any error occurs we need to cancel the transaction */ qmi_txn_cancel(&txn); } } /* The modem server is now available. We will send an INIT_DRIVER request * to the modem, but can't wait for it to complete in this callback thread. * Schedule a worker on the global workqueue to do that for us. */ static int ipa_client_new_server(struct qmi_handle *qmi, struct qmi_service *svc) { struct ipa_qmi *ipa_qmi; ipa_qmi = container_of(qmi, struct ipa_qmi, client_handle); ipa_qmi->modem_sq.sq_family = AF_QIPCRTR; ipa_qmi->modem_sq.sq_node = svc->node; ipa_qmi->modem_sq.sq_port = svc->port; schedule_work(&ipa_qmi->init_driver_work); return 0; } static const struct qmi_ops ipa_client_ops = { .new_server = ipa_client_new_server, }; /* Set up for QMI message exchange */ int ipa_qmi_setup(struct ipa *ipa) { struct ipa_qmi *ipa_qmi = &ipa->qmi; int ret; ipa_qmi->initial_boot = true; /* The server handle is used to handle the DRIVER_INIT_COMPLETE * request on the first modem boot. It also receives the * INDICATION_REGISTER request on the first boot and (optionally) * subsequent boots. The INIT_COMPLETE indication message is * sent over the server handle if requested. */ ret = qmi_handle_init(&ipa_qmi->server_handle, IPA_QMI_SERVER_MAX_RCV_SZ, &ipa_server_ops, ipa_server_msg_handlers); if (ret) return ret; ret = qmi_add_server(&ipa_qmi->server_handle, IPA_HOST_SERVICE_SVC_ID, IPA_HOST_SVC_VERS, IPA_HOST_SERVICE_INS_ID); if (ret) goto err_server_handle_release; /* The client handle is only used for sending an INIT_DRIVER request * to the modem, and receiving its response message. */ ret = qmi_handle_init(&ipa_qmi->client_handle, IPA_QMI_CLIENT_MAX_RCV_SZ, &ipa_client_ops, ipa_client_msg_handlers); if (ret) goto err_server_handle_release; /* We need this ready before the service lookup is added */ INIT_WORK(&ipa_qmi->init_driver_work, ipa_client_init_driver_work); ret = qmi_add_lookup(&ipa_qmi->client_handle, IPA_MODEM_SERVICE_SVC_ID, IPA_MODEM_SVC_VERS, IPA_MODEM_SERVICE_INS_ID); if (ret) goto err_client_handle_release; return 0; err_client_handle_release: /* Releasing the handle also removes registered lookups */ qmi_handle_release(&ipa_qmi->client_handle); memset(&ipa_qmi->client_handle, 0, sizeof(ipa_qmi->client_handle)); err_server_handle_release: /* Releasing the handle also removes registered services */ qmi_handle_release(&ipa_qmi->server_handle); memset(&ipa_qmi->server_handle, 0, sizeof(ipa_qmi->server_handle)); return ret; } /* Tear down IPA QMI handles */ void ipa_qmi_teardown(struct ipa *ipa) { cancel_work_sync(&ipa->qmi.init_driver_work); qmi_handle_release(&ipa->qmi.client_handle); memset(&ipa->qmi.client_handle, 0, sizeof(ipa->qmi.client_handle)); qmi_handle_release(&ipa->qmi.server_handle); memset(&ipa->qmi.server_handle, 0, sizeof(ipa->qmi.server_handle)); }