From patchwork Tue Jun 8 17:04:37 2021 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: "Kumar, M Chetan" X-Patchwork-Id: 457334 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org X-Spam-Level: X-Spam-Status: No, score=-16.8 required=3.0 tests=BAYES_00, HEADER_FROM_DIFFERENT_DOMAINS,INCLUDES_CR_TRAILER,INCLUDES_PATCH, MAILING_LIST_MULTI, SPF_HELO_NONE, SPF_PASS, URIBL_BLOCKED, USER_AGENT_GIT autolearn=ham autolearn_force=no version=3.4.0 Received: from mail.kernel.org (mail.kernel.org [198.145.29.99]) by smtp.lore.kernel.org (Postfix) with ESMTP id CA1E0C47082 for ; Tue, 8 Jun 2021 17:05:41 +0000 (UTC) Received: from vger.kernel.org (vger.kernel.org [23.128.96.18]) by mail.kernel.org (Postfix) with ESMTP id B11A461285 for ; Tue, 8 Jun 2021 17:05:41 +0000 (UTC) Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S233815AbhFHRHa (ORCPT ); Tue, 8 Jun 2021 13:07:30 -0400 Received: from mga09.intel.com ([134.134.136.24]:45920 "EHLO mga09.intel.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S233800AbhFHRH1 (ORCPT ); Tue, 8 Jun 2021 13:07:27 -0400 IronPort-SDR: curx8gUjRdbsk7KIE6mUyiVzrKBRwev4bQJR29VV26BnBEhWwPMtk0cd/iP/MqP19HzRhIMZ/x qDuimj/f5fzA== X-IronPort-AV: E=McAfee;i="6200,9189,10009"; a="204855199" X-IronPort-AV: E=Sophos;i="5.83,258,1616482800"; d="scan'208";a="204855199" Received: from orsmga001.jf.intel.com ([10.7.209.18]) by orsmga102.jf.intel.com with ESMTP/TLS/ECDHE-RSA-AES256-GCM-SHA384; 08 Jun 2021 10:05:21 -0700 IronPort-SDR: YfapFRT20Acf44BiZHOF3MgmjZqkHrzfLIa5QiXhppIc1d3D0+A8NEsfvVfvm08rmRqr9UsyI+ c8I6x+VormHQ== X-ExtLoop1: 1 X-IronPort-AV: E=Sophos;i="5.83,258,1616482800"; d="scan'208";a="482035229" Received: from bgsxx0031.iind.intel.com ([10.106.222.40]) by orsmga001.jf.intel.com with ESMTP; 08 Jun 2021 10:05:18 -0700 From: M Chetan Kumar To: netdev@vger.kernel.org, linux-wireless@vger.kernel.org Cc: johannes@sipsolutions.net, krishna.c.sudi@intel.com, linuxwwan@intel.com Subject: [PATCH V4 04/16] net: iosm: shared memory IPC interface Date: Tue, 8 Jun 2021 22:34:37 +0530 Message-Id: <20210608170449.28031-5-m.chetan.kumar@intel.com> X-Mailer: git-send-email 2.12.3 In-Reply-To: <20210608170449.28031-1-m.chetan.kumar@intel.com> References: <20210608170449.28031-1-m.chetan.kumar@intel.com> Precedence: bulk List-ID: X-Mailing-List: linux-wireless@vger.kernel.org 1) Initializes shared memory for host-device communication. 2) Allocate resources required for control & data operations. 3) Transfers the Device IRQ to IPC execution thread. 4) Defines the timer cbs for async events. Signed-off-by: M Chetan Kumar --- v4: no change. v3: * WWAN port adaptation. * Removed inline keyword in .c file. * Aligned ipc_ prefix for function name to be consistent across file. v2: * Clean-up vlan tag ids & removed FW flashing logic. * Function return type correction. * Return proper error code instead of returning -1. drivers/net/wwan/iosm/iosm_ipc_imem.c | 1363 +++++++++++++++++++++++++ drivers/net/wwan/iosm/iosm_ipc_imem.h | 579 +++++++++++ 2 files changed, 1942 insertions(+) create mode 100644 drivers/net/wwan/iosm/iosm_ipc_imem.c create mode 100644 drivers/net/wwan/iosm/iosm_ipc_imem.h diff --git a/drivers/net/wwan/iosm/iosm_ipc_imem.c b/drivers/net/wwan/iosm/iosm_ipc_imem.c new file mode 100644 index 000000000000..2eca274fbe98 --- /dev/null +++ b/drivers/net/wwan/iosm/iosm_ipc_imem.c @@ -0,0 +1,1363 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * Copyright (C) 2020-21 Intel Corporation. + */ + +#include + +#include "iosm_ipc_chnl_cfg.h" +#include "iosm_ipc_imem.h" +#include "iosm_ipc_port.h" + +/* Check the wwan ips if it is valid with Channel as input. */ +static int ipc_imem_check_wwan_ips(struct ipc_mem_channel *chnl) +{ + if (chnl) + return chnl->ctype == IPC_CTYPE_WWAN && + chnl->if_id == IPC_MEM_MUX_IP_CH_IF_ID; + return false; +} + +static int ipc_imem_msg_send_device_sleep(struct iosm_imem *ipc_imem, u32 state) +{ + union ipc_msg_prep_args prep_args = { + .sleep.target = 1, + .sleep.state = state, + }; + + ipc_imem->device_sleep = state; + + return ipc_protocol_tq_msg_send(ipc_imem->ipc_protocol, + IPC_MSG_PREP_SLEEP, &prep_args, NULL); +} + +static bool ipc_imem_dl_skb_alloc(struct iosm_imem *ipc_imem, + struct ipc_pipe *pipe) +{ + /* limit max. nr of entries */ + if (pipe->nr_of_queued_entries >= pipe->max_nr_of_queued_entries) + return false; + + return ipc_protocol_dl_td_prepare(ipc_imem->ipc_protocol, pipe); +} + +/* This timer handler will retry DL buff allocation if a pipe has no free buf + * and gives doorbell if TD is available + */ +static int ipc_imem_tq_td_alloc_timer(struct iosm_imem *ipc_imem, int arg, + void *msg, size_t size) +{ + bool new_buffers_available = false; + bool retry_allocation = false; + int i; + + for (i = 0; i < IPC_MEM_MAX_CHANNELS; i++) { + struct ipc_pipe *pipe = &ipc_imem->channels[i].dl_pipe; + + if (!pipe->is_open || pipe->nr_of_queued_entries > 0) + continue; + + while (ipc_imem_dl_skb_alloc(ipc_imem, pipe)) + new_buffers_available = true; + + if (pipe->nr_of_queued_entries == 0) + retry_allocation = true; + } + + if (new_buffers_available) + ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, + IPC_HP_DL_PROCESS); + + if (retry_allocation) { + ipc_imem->hrtimer_period = + ktime_set(0, IPC_TD_ALLOC_TIMER_PERIOD_MS * 1000 * 1000ULL); + if (!hrtimer_active(&ipc_imem->td_alloc_timer)) + hrtimer_start(&ipc_imem->td_alloc_timer, + ipc_imem->hrtimer_period, + HRTIMER_MODE_REL); + } + return 0; +} + +static enum hrtimer_restart ipc_imem_td_alloc_timer_cb(struct hrtimer *hr_timer) +{ + struct iosm_imem *ipc_imem = + container_of(hr_timer, struct iosm_imem, td_alloc_timer); + /* Post an async tasklet event to trigger HP update Doorbell */ + ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_td_alloc_timer, 0, NULL, + 0, false); + return HRTIMER_NORESTART; +} + +/* Fast update timer tasklet handler to trigger HP update */ +static int ipc_imem_tq_fast_update_timer_cb(struct iosm_imem *ipc_imem, int arg, + void *msg, size_t size) +{ + ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, + IPC_HP_FAST_TD_UPD_TMR); + + return 0; +} + +static enum hrtimer_restart +ipc_imem_fast_update_timer_cb(struct hrtimer *hr_timer) +{ + struct iosm_imem *ipc_imem = + container_of(hr_timer, struct iosm_imem, fast_update_timer); + /* Post an async tasklet event to trigger HP update Doorbell */ + ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_fast_update_timer_cb, 0, + NULL, 0, false); + return HRTIMER_NORESTART; +} + +static int ipc_imem_setup_cp_mux_cap_init(struct iosm_imem *ipc_imem, + struct ipc_mux_config *cfg) +{ + ipc_mmio_update_cp_capability(ipc_imem->mmio); + + if (!ipc_imem->mmio->has_mux_lite) { + dev_err(ipc_imem->dev, "Failed to get Mux capability."); + return -EINVAL; + } + + cfg->protocol = MUX_LITE; + + cfg->ul_flow = (ipc_imem->mmio->has_ul_flow_credit == 1) ? + MUX_UL_ON_CREDITS : + MUX_UL; + + /* The instance ID is same as channel ID because this is been reused + * for channel alloc function. + */ + cfg->instance_id = IPC_MEM_MUX_IP_CH_IF_ID; + cfg->nr_sessions = IPC_MEM_MUX_IP_SESSION_ENTRIES; + + return 0; +} + +void ipc_imem_msg_send_feature_set(struct iosm_imem *ipc_imem, + unsigned int reset_enable, bool atomic_ctx) +{ + union ipc_msg_prep_args prep_args = { .feature_set.reset_enable = + reset_enable }; + + if (atomic_ctx) + ipc_protocol_tq_msg_send(ipc_imem->ipc_protocol, + IPC_MSG_PREP_FEATURE_SET, &prep_args, + NULL); + else + ipc_protocol_msg_send(ipc_imem->ipc_protocol, + IPC_MSG_PREP_FEATURE_SET, &prep_args); +} + +void ipc_imem_td_update_timer_start(struct iosm_imem *ipc_imem) +{ + /* Use the TD update timer only in the runtime phase */ + if (!ipc_imem->enter_runtime || ipc_imem->td_update_timer_suspended) { + /* trigger the doorbell irq on CP directly. */ + ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, + IPC_HP_TD_UPD_TMR_START); + return; + } + + if (!hrtimer_active(&ipc_imem->tdupdate_timer)) { + ipc_imem->hrtimer_period = + ktime_set(0, TD_UPDATE_DEFAULT_TIMEOUT_USEC * 1000ULL); + if (!hrtimer_active(&ipc_imem->tdupdate_timer)) + hrtimer_start(&ipc_imem->tdupdate_timer, + ipc_imem->hrtimer_period, + HRTIMER_MODE_REL); + } +} + +void ipc_imem_hrtimer_stop(struct hrtimer *hr_timer) +{ + if (hrtimer_active(hr_timer)) + hrtimer_cancel(hr_timer); +} + +bool ipc_imem_ul_write_td(struct iosm_imem *ipc_imem) +{ + struct ipc_mem_channel *channel; + struct sk_buff_head *ul_list; + bool hpda_pending = false; + bool forced_hpdu = false; + struct ipc_pipe *pipe; + int i; + + /* Analyze the uplink pipe of all active channels. */ + for (i = 0; i < ipc_imem->nr_of_channels; i++) { + channel = &ipc_imem->channels[i]; + + if (channel->state != IMEM_CHANNEL_ACTIVE) + continue; + + pipe = &channel->ul_pipe; + + /* Get the reference to the skbuf accumulator list. */ + ul_list = &channel->ul_list; + + /* Fill the transfer descriptor with the uplink buffer info. */ + hpda_pending |= ipc_protocol_ul_td_send(ipc_imem->ipc_protocol, + pipe, ul_list); + + /* forced HP update needed for non data channels */ + if (hpda_pending && !ipc_imem_check_wwan_ips(channel)) + forced_hpdu = true; + } + + if (forced_hpdu) { + hpda_pending = false; + ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, + IPC_HP_UL_WRITE_TD); + } + + return hpda_pending; +} + +void ipc_imem_ipc_init_check(struct iosm_imem *ipc_imem) +{ + int timeout = IPC_MODEM_BOOT_TIMEOUT; + + ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_INIT; + + /* Trigger the CP interrupt to enter the init state. */ + ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC, + IPC_MEM_DEVICE_IPC_INIT); + /* Wait for the CP update. */ + do { + if (ipc_mmio_get_ipc_state(ipc_imem->mmio) == + ipc_imem->ipc_requested_state) { + /* Prepare the MMIO space */ + ipc_mmio_config(ipc_imem->mmio); + + /* Trigger the CP irq to enter the running state. */ + ipc_imem->ipc_requested_state = + IPC_MEM_DEVICE_IPC_RUNNING; + ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC, + IPC_MEM_DEVICE_IPC_RUNNING); + + return; + } + msleep(20); + } while (--timeout); + + /* timeout */ + dev_err(ipc_imem->dev, "%s: ipc_status(%d) ne. IPC_MEM_DEVICE_IPC_INIT", + ipc_imem_phase_get_string(ipc_imem->phase), + ipc_mmio_get_ipc_state(ipc_imem->mmio)); + + ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_TIMEOUT); +} + +/* Analyze the packet type and distribute it. */ +static void ipc_imem_dl_skb_process(struct iosm_imem *ipc_imem, + struct ipc_pipe *pipe, struct sk_buff *skb) +{ + u16 port_id; + + if (!skb) + return; + + /* An AT/control or IP packet is expected. */ + switch (pipe->channel->ctype) { + case IPC_CTYPE_CTRL: + port_id = pipe->channel->channel_id; + + /* Pass the packet to the wwan layer. */ + wwan_port_rx(ipc_imem->ipc_port[port_id]->iosm_port, skb); + break; + + case IPC_CTYPE_WWAN: + if (pipe->channel->if_id == IPC_MEM_MUX_IP_CH_IF_ID) + ipc_mux_dl_decode(ipc_imem->mux, skb); + break; + default: + dev_err(ipc_imem->dev, "Invalid channel type"); + break; + } +} + +/* Process the downlink data and pass them to the char or net layer. */ +static void ipc_imem_dl_pipe_process(struct iosm_imem *ipc_imem, + struct ipc_pipe *pipe) +{ + s32 cnt = 0, processed_td_cnt = 0; + struct ipc_mem_channel *channel; + u32 head = 0, tail = 0; + bool processed = false; + struct sk_buff *skb; + + channel = pipe->channel; + + ipc_protocol_get_head_tail_index(ipc_imem->ipc_protocol, pipe, &head, + &tail); + if (pipe->old_tail != tail) { + if (pipe->old_tail < tail) + cnt = tail - pipe->old_tail; + else + cnt = pipe->nr_of_entries - pipe->old_tail + tail; + } + + processed_td_cnt = cnt; + + /* Seek for pipes with pending DL data. */ + while (cnt--) { + skb = ipc_protocol_dl_td_process(ipc_imem->ipc_protocol, pipe); + + /* Analyze the packet type and distribute it. */ + ipc_imem_dl_skb_process(ipc_imem, pipe, skb); + } + + /* try to allocate new empty DL SKbs from head..tail - 1*/ + while (ipc_imem_dl_skb_alloc(ipc_imem, pipe)) + processed = true; + + if (processed && !ipc_imem_check_wwan_ips(channel)) { + /* Force HP update for non IP channels */ + ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, + IPC_HP_DL_PROCESS); + processed = false; + + /* If Fast Update timer is already running then stop */ + ipc_imem_hrtimer_stop(&ipc_imem->fast_update_timer); + } + + /* Any control channel process will get immediate HP update. + * Start Fast update timer only for IP channel if all the TDs were + * used in last process. + */ + if (processed && (processed_td_cnt == pipe->nr_of_entries - 1)) { + ipc_imem->hrtimer_period = + ktime_set(0, FORCE_UPDATE_DEFAULT_TIMEOUT_USEC * 1000ULL); + hrtimer_start(&ipc_imem->fast_update_timer, + ipc_imem->hrtimer_period, HRTIMER_MODE_REL); + } + + if (ipc_imem->app_notify_dl_pend) + complete(&ipc_imem->dl_pend_sem); +} + +/* process open uplink pipe */ +static void ipc_imem_ul_pipe_process(struct iosm_imem *ipc_imem, + struct ipc_pipe *pipe) +{ + struct ipc_mem_channel *channel; + u32 tail = 0, head = 0; + struct sk_buff *skb; + s32 cnt = 0; + + channel = pipe->channel; + + /* Get the internal phase. */ + ipc_protocol_get_head_tail_index(ipc_imem->ipc_protocol, pipe, &head, + &tail); + + if (pipe->old_tail != tail) { + if (pipe->old_tail < tail) + cnt = tail - pipe->old_tail; + else + cnt = pipe->nr_of_entries - pipe->old_tail + tail; + } + + /* Free UL buffers. */ + while (cnt--) { + skb = ipc_protocol_ul_td_process(ipc_imem->ipc_protocol, pipe); + + if (!skb) + continue; + + /* If the user app was suspended in uplink direction - blocking + * write, resume it. + */ + if (IPC_CB(skb)->op_type == UL_USR_OP_BLOCKED) + complete(&channel->ul_sem); + + /* Free the skbuf element. */ + if (IPC_CB(skb)->op_type == UL_MUX_OP_ADB) { + if (channel->if_id == IPC_MEM_MUX_IP_CH_IF_ID) + ipc_mux_ul_encoded_process(ipc_imem->mux, skb); + else + dev_err(ipc_imem->dev, + "OP Type is UL_MUX, unknown if_id %d", + channel->if_id); + } else { + ipc_pcie_kfree_skb(ipc_imem->pcie, skb); + } + } + + /* Trace channel stats for IP UL pipe. */ + if (ipc_imem_check_wwan_ips(pipe->channel)) + ipc_mux_check_n_restart_tx(ipc_imem->mux); + + if (ipc_imem->app_notify_ul_pend) + complete(&ipc_imem->ul_pend_sem); +} + +/* Executes the irq. */ +static void ipc_imem_rom_irq_exec(struct iosm_imem *ipc_imem) +{ + struct ipc_mem_channel *channel; + + if (ipc_imem->flash_channel_id < 0) { + ipc_imem->rom_exit_code = IMEM_ROM_EXIT_FAIL; + dev_err(ipc_imem->dev, "Missing flash app:%d", + ipc_imem->flash_channel_id); + return; + } + + ipc_imem->rom_exit_code = ipc_mmio_get_rom_exit_code(ipc_imem->mmio); + + /* Wake up the flash app to continue or to terminate depending + * on the CP ROM exit code. + */ + channel = &ipc_imem->channels[ipc_imem->flash_channel_id]; + complete(&channel->ul_sem); +} + +/* Execute the UL bundle timer actions, generating the doorbell irq. */ +static int ipc_imem_tq_td_update_timer_cb(struct iosm_imem *ipc_imem, int arg, + void *msg, size_t size) +{ + ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, + IPC_HP_TD_UPD_TMR); + return 0; +} + +/* Consider link power management in the runtime phase. */ +static void ipc_imem_slp_control_exec(struct iosm_imem *ipc_imem) +{ + /* link will go down, Test pending UL packets.*/ + if (ipc_protocol_pm_dev_sleep_handle(ipc_imem->ipc_protocol) && + hrtimer_active(&ipc_imem->tdupdate_timer)) { + /* Generate the doorbell irq. */ + ipc_imem_tq_td_update_timer_cb(ipc_imem, 0, NULL, 0); + /* Stop the TD update timer. */ + ipc_imem_hrtimer_stop(&ipc_imem->tdupdate_timer); + /* Stop the fast update timer. */ + ipc_imem_hrtimer_stop(&ipc_imem->fast_update_timer); + } +} + +/* Execute startup timer and wait for delayed start (e.g. NAND) */ +static int ipc_imem_tq_startup_timer_cb(struct iosm_imem *ipc_imem, int arg, + void *msg, size_t size) +{ + /* Update & check the current operation phase. */ + if (ipc_imem_phase_update(ipc_imem) != IPC_P_RUN) + return -EIO; + + if (ipc_mmio_get_ipc_state(ipc_imem->mmio) == + IPC_MEM_DEVICE_IPC_UNINIT) { + ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_INIT; + + ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC, + IPC_MEM_DEVICE_IPC_INIT); + + ipc_imem->hrtimer_period = ktime_set(0, 100 * 1000UL * 1000ULL); + /* reduce period to 100 ms to check for mmio init state */ + if (!hrtimer_active(&ipc_imem->startup_timer)) + hrtimer_start(&ipc_imem->startup_timer, + ipc_imem->hrtimer_period, + HRTIMER_MODE_REL); + } else if (ipc_mmio_get_ipc_state(ipc_imem->mmio) == + IPC_MEM_DEVICE_IPC_INIT) { + /* Startup complete - disable timer */ + ipc_imem_hrtimer_stop(&ipc_imem->startup_timer); + + /* Prepare the MMIO space */ + ipc_mmio_config(ipc_imem->mmio); + ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_RUNNING; + ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC, + IPC_MEM_DEVICE_IPC_RUNNING); + } + + return 0; +} + +static enum hrtimer_restart ipc_imem_startup_timer_cb(struct hrtimer *hr_timer) +{ + enum hrtimer_restart result = HRTIMER_NORESTART; + struct iosm_imem *ipc_imem = + container_of(hr_timer, struct iosm_imem, startup_timer); + + if (ktime_to_ns(ipc_imem->hrtimer_period)) { + hrtimer_forward(&ipc_imem->startup_timer, ktime_get(), + ipc_imem->hrtimer_period); + result = HRTIMER_RESTART; + } + + ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_startup_timer_cb, 0, + NULL, 0, false); + return result; +} + +/* Get the CP execution stage */ +static enum ipc_mem_exec_stage +ipc_imem_get_exec_stage_buffered(struct iosm_imem *ipc_imem) +{ + return (ipc_imem->phase == IPC_P_RUN && + ipc_imem->ipc_status == IPC_MEM_DEVICE_IPC_RUNNING) ? + ipc_protocol_get_ap_exec_stage(ipc_imem->ipc_protocol) : + ipc_mmio_get_exec_stage(ipc_imem->mmio); +} + +/* Callback to send the modem ready uevent */ +static int ipc_imem_send_mdm_rdy_cb(struct iosm_imem *ipc_imem, int arg, + void *msg, size_t size) +{ + enum ipc_mem_exec_stage exec_stage = + ipc_imem_get_exec_stage_buffered(ipc_imem); + + if (exec_stage == IPC_MEM_EXEC_STAGE_RUN) + ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_READY); + + return 0; +} + +/* This function is executed in a task context via an ipc_worker object, + * as the creation or removal of device can't be done from tasklet. + */ +static void ipc_imem_run_state_worker(struct work_struct *instance) +{ + struct ipc_chnl_cfg chnl_cfg_port = { 0 }; + struct ipc_mux_config mux_cfg; + struct iosm_imem *ipc_imem; + u8 ctrl_chl_idx = 0; + + ipc_imem = container_of(instance, struct iosm_imem, run_state_worker); + + if (ipc_imem->phase != IPC_P_RUN) { + dev_err(ipc_imem->dev, + "Modem link down. Exit run state worker."); + return; + } + + if (!ipc_imem_setup_cp_mux_cap_init(ipc_imem, &mux_cfg)) + ipc_imem->mux = ipc_mux_init(&mux_cfg, ipc_imem); + + ipc_imem_wwan_channel_init(ipc_imem, mux_cfg.protocol); + if (ipc_imem->mux) + ipc_imem->mux->wwan = ipc_imem->wwan; + + while (ctrl_chl_idx < IPC_MEM_MAX_CHANNELS) { + if (!ipc_chnl_cfg_get(&chnl_cfg_port, ctrl_chl_idx)) { + ipc_imem->ipc_port[ctrl_chl_idx] = NULL; + if (chnl_cfg_port.wwan_port_type != WWAN_PORT_MAX) { + ipc_imem_channel_init(ipc_imem, IPC_CTYPE_CTRL, + chnl_cfg_port, + IRQ_MOD_OFF); + ipc_imem->ipc_port[ctrl_chl_idx] = + ipc_port_init(ipc_imem, chnl_cfg_port); + } + } + ctrl_chl_idx++; + } + + ipc_task_queue_send_task(ipc_imem, ipc_imem_send_mdm_rdy_cb, 0, NULL, 0, + false); + + /* Complete all memory stores before setting bit */ + smp_mb__before_atomic(); + + set_bit(FULLY_FUNCTIONAL, &ipc_imem->flag); + + /* Complete all memory stores after setting bit */ + smp_mb__after_atomic(); +} + +static void ipc_imem_handle_irq(struct iosm_imem *ipc_imem, int irq) +{ + enum ipc_mem_device_ipc_state curr_ipc_status; + enum ipc_phase old_phase, phase; + bool retry_allocation = false; + bool ul_pending = false; + int ch_id, i; + + if (irq != IMEM_IRQ_DONT_CARE) + ipc_imem->ev_irq_pending[irq] = false; + + /* Get the internal phase. */ + old_phase = ipc_imem->phase; + + if (old_phase == IPC_P_OFF_REQ) { + dev_dbg(ipc_imem->dev, + "[%s]: Ignoring MSI. Deinit sequence in progress!", + ipc_imem_phase_get_string(old_phase)); + return; + } + + /* Update the phase controlled by CP. */ + phase = ipc_imem_phase_update(ipc_imem); + + switch (phase) { + case IPC_P_RUN: + if (!ipc_imem->enter_runtime) { + /* Excute the transition from flash/boot to runtime. */ + ipc_imem->enter_runtime = 1; + + /* allow device to sleep, default value is + * IPC_HOST_SLEEP_ENTER_SLEEP + */ + ipc_imem_msg_send_device_sleep(ipc_imem, + ipc_imem->device_sleep); + + ipc_imem_msg_send_feature_set(ipc_imem, + IPC_MEM_INBAND_CRASH_SIG, + true); + } + + curr_ipc_status = + ipc_protocol_get_ipc_status(ipc_imem->ipc_protocol); + + /* check ipc_status change */ + if (ipc_imem->ipc_status != curr_ipc_status) { + ipc_imem->ipc_status = curr_ipc_status; + + if (ipc_imem->ipc_status == + IPC_MEM_DEVICE_IPC_RUNNING) { + schedule_work(&ipc_imem->run_state_worker); + } + } + + /* Consider power management in the runtime phase. */ + ipc_imem_slp_control_exec(ipc_imem); + break; /* Continue with skbuf processing. */ + + /* Unexpected phases. */ + case IPC_P_OFF: + case IPC_P_OFF_REQ: + dev_err(ipc_imem->dev, "confused phase %s", + ipc_imem_phase_get_string(phase)); + return; + + case IPC_P_PSI: + if (old_phase != IPC_P_ROM) + break; + + fallthrough; + /* On CP the PSI phase is already active. */ + + case IPC_P_ROM: + /* Before CP ROM driver starts the PSI image, it sets + * the exit_code field on the doorbell scratchpad and + * triggers the irq. + */ + ipc_imem_rom_irq_exec(ipc_imem); + return; + + default: + break; + } + + /* process message ring */ + ipc_protocol_msg_process(ipc_imem, irq); + + /* process all open pipes */ + for (i = 0; i < IPC_MEM_MAX_CHANNELS; i++) { + struct ipc_pipe *ul_pipe = &ipc_imem->channels[i].ul_pipe; + struct ipc_pipe *dl_pipe = &ipc_imem->channels[i].dl_pipe; + + if (dl_pipe->is_open && + (irq == IMEM_IRQ_DONT_CARE || irq == dl_pipe->irq)) { + ipc_imem_dl_pipe_process(ipc_imem, dl_pipe); + + if (dl_pipe->nr_of_queued_entries == 0) + retry_allocation = true; + } + + if (ul_pipe->is_open) + ipc_imem_ul_pipe_process(ipc_imem, ul_pipe); + } + + /* Try to generate new ADB or ADGH. */ + if (ipc_mux_ul_data_encode(ipc_imem->mux)) + ipc_imem_td_update_timer_start(ipc_imem); + + /* Continue the send procedure with accumulated SIO or NETIF packets. + * Reset the debounce flags. + */ + ul_pending |= ipc_imem_ul_write_td(ipc_imem); + + /* if UL data is pending restart TD update timer */ + if (ul_pending) { + ipc_imem->hrtimer_period = + ktime_set(0, TD_UPDATE_DEFAULT_TIMEOUT_USEC * 1000ULL); + if (!hrtimer_active(&ipc_imem->tdupdate_timer)) + hrtimer_start(&ipc_imem->tdupdate_timer, + ipc_imem->hrtimer_period, + HRTIMER_MODE_REL); + } + + /* If CP has executed the transition + * from IPC_INIT to IPC_RUNNING in the PSI + * phase, wake up the flash app to open the pipes. + */ + if ((phase == IPC_P_PSI || phase == IPC_P_EBL) && + ipc_imem->ipc_requested_state == IPC_MEM_DEVICE_IPC_RUNNING && + ipc_mmio_get_ipc_state(ipc_imem->mmio) == + IPC_MEM_DEVICE_IPC_RUNNING && + ipc_imem->flash_channel_id >= 0) { + /* Wake up the flash app to open the pipes. */ + ch_id = ipc_imem->flash_channel_id; + complete(&ipc_imem->channels[ch_id].ul_sem); + } + + /* Reset the expected CP state. */ + ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_DONT_CARE; + + if (retry_allocation) { + ipc_imem->hrtimer_period = + ktime_set(0, IPC_TD_ALLOC_TIMER_PERIOD_MS * 1000 * 1000ULL); + if (!hrtimer_active(&ipc_imem->td_alloc_timer)) + hrtimer_start(&ipc_imem->td_alloc_timer, + ipc_imem->hrtimer_period, + HRTIMER_MODE_REL); + } +} + +/* Callback by tasklet for handling interrupt events. */ +static int ipc_imem_tq_irq_cb(struct iosm_imem *ipc_imem, int arg, void *msg, + size_t size) +{ + ipc_imem_handle_irq(ipc_imem, arg); + + return 0; +} + +void ipc_imem_ul_send(struct iosm_imem *ipc_imem) +{ + /* start doorbell irq delay timer if UL is pending */ + if (ipc_imem_ul_write_td(ipc_imem)) + ipc_imem_td_update_timer_start(ipc_imem); +} + +/* Check the execution stage and update the AP phase */ +static enum ipc_phase ipc_imem_phase_update_check(struct iosm_imem *ipc_imem, + enum ipc_mem_exec_stage stage) +{ + switch (stage) { + case IPC_MEM_EXEC_STAGE_BOOT: + if (ipc_imem->phase != IPC_P_ROM) { + /* Send this event only once */ + ipc_uevent_send(ipc_imem->dev, UEVENT_ROM_READY); + } + + ipc_imem->phase = IPC_P_ROM; + break; + + case IPC_MEM_EXEC_STAGE_PSI: + ipc_imem->phase = IPC_P_PSI; + break; + + case IPC_MEM_EXEC_STAGE_EBL: + ipc_imem->phase = IPC_P_EBL; + break; + + case IPC_MEM_EXEC_STAGE_RUN: + if (ipc_imem->phase != IPC_P_RUN && + ipc_imem->ipc_status == IPC_MEM_DEVICE_IPC_RUNNING) { + ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_READY); + } + ipc_imem->phase = IPC_P_RUN; + break; + + case IPC_MEM_EXEC_STAGE_CRASH: + if (ipc_imem->phase != IPC_P_CRASH) + ipc_uevent_send(ipc_imem->dev, UEVENT_CRASH); + + ipc_imem->phase = IPC_P_CRASH; + break; + + case IPC_MEM_EXEC_STAGE_CD_READY: + if (ipc_imem->phase != IPC_P_CD_READY) + ipc_uevent_send(ipc_imem->dev, UEVENT_CD_READY); + ipc_imem->phase = IPC_P_CD_READY; + break; + + default: + /* unknown exec stage: + * assume that link is down and send info to listeners + */ + ipc_uevent_send(ipc_imem->dev, UEVENT_CD_READY_LINK_DOWN); + break; + } + + return ipc_imem->phase; +} + +/* Send msg to device to open pipe */ +static bool ipc_imem_pipe_open(struct iosm_imem *ipc_imem, + struct ipc_pipe *pipe) +{ + union ipc_msg_prep_args prep_args = { + .pipe_open.pipe = pipe, + }; + + if (ipc_protocol_msg_send(ipc_imem->ipc_protocol, + IPC_MSG_PREP_PIPE_OPEN, &prep_args) == 0) + pipe->is_open = true; + + return pipe->is_open; +} + +/* Allocates the TDs for the given pipe along with firing HP update DB. */ +static int ipc_imem_tq_pipe_td_alloc(struct iosm_imem *ipc_imem, int arg, + void *msg, size_t size) +{ + struct ipc_pipe *dl_pipe = msg; + bool processed = false; + int i; + + for (i = 0; i < dl_pipe->nr_of_entries - 1; i++) + processed |= ipc_imem_dl_skb_alloc(ipc_imem, dl_pipe); + + /* Trigger the doorbell irq to inform CP that new downlink buffers are + * available. + */ + if (processed) + ipc_protocol_doorbell_trigger(ipc_imem->ipc_protocol, arg); + + return 0; +} + +static enum hrtimer_restart +ipc_imem_td_update_timer_cb(struct hrtimer *hr_timer) +{ + struct iosm_imem *ipc_imem = + container_of(hr_timer, struct iosm_imem, tdupdate_timer); + + ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_td_update_timer_cb, 0, + NULL, 0, false); + return HRTIMER_NORESTART; +} + +/* Get the CP execution state and map it to the AP phase. */ +enum ipc_phase ipc_imem_phase_update(struct iosm_imem *ipc_imem) +{ + enum ipc_mem_exec_stage exec_stage = + ipc_imem_get_exec_stage_buffered(ipc_imem); + /* If the CP stage is undef, return the internal precalculated phase. */ + return ipc_imem->phase == IPC_P_OFF_REQ ? + ipc_imem->phase : + ipc_imem_phase_update_check(ipc_imem, exec_stage); +} + +const char *ipc_imem_phase_get_string(enum ipc_phase phase) +{ + switch (phase) { + case IPC_P_RUN: + return "A-RUN"; + + case IPC_P_OFF: + return "A-OFF"; + + case IPC_P_ROM: + return "A-ROM"; + + case IPC_P_PSI: + return "A-PSI"; + + case IPC_P_EBL: + return "A-EBL"; + + case IPC_P_CRASH: + return "A-CRASH"; + + case IPC_P_CD_READY: + return "A-CD_READY"; + + case IPC_P_OFF_REQ: + return "A-OFF_REQ"; + + default: + return "A-???"; + } +} + +void ipc_imem_pipe_close(struct iosm_imem *ipc_imem, struct ipc_pipe *pipe) +{ + union ipc_msg_prep_args prep_args = { .pipe_close.pipe = pipe }; + + pipe->is_open = false; + ipc_protocol_msg_send(ipc_imem->ipc_protocol, IPC_MSG_PREP_PIPE_CLOSE, + &prep_args); + + ipc_imem_pipe_cleanup(ipc_imem, pipe); +} + +void ipc_imem_channel_close(struct iosm_imem *ipc_imem, int channel_id) +{ + struct ipc_mem_channel *channel; + + if (channel_id < 0 || channel_id >= ipc_imem->nr_of_channels) { + dev_err(ipc_imem->dev, "invalid channel id %d", channel_id); + return; + } + + channel = &ipc_imem->channels[channel_id]; + + if (channel->state == IMEM_CHANNEL_FREE) { + dev_err(ipc_imem->dev, "ch[%d]: invalid channel state %d", + channel_id, channel->state); + return; + } + + /* Free only the channel id in the CP power off mode. */ + if (channel->state == IMEM_CHANNEL_RESERVED) + /* Release only the channel id. */ + goto channel_free; + + if (ipc_imem->phase == IPC_P_RUN) { + ipc_imem_pipe_close(ipc_imem, &channel->ul_pipe); + ipc_imem_pipe_close(ipc_imem, &channel->dl_pipe); + } + + ipc_imem_pipe_cleanup(ipc_imem, &channel->ul_pipe); + ipc_imem_pipe_cleanup(ipc_imem, &channel->dl_pipe); + +channel_free: + ipc_imem_channel_free(channel); +} + +struct ipc_mem_channel *ipc_imem_channel_open(struct iosm_imem *ipc_imem, + int channel_id, u32 db_id) +{ + struct ipc_mem_channel *channel; + + if (channel_id < 0 || channel_id >= IPC_MEM_MAX_CHANNELS) { + dev_err(ipc_imem->dev, "invalid channel ID: %d", channel_id); + return NULL; + } + + channel = &ipc_imem->channels[channel_id]; + + channel->state = IMEM_CHANNEL_ACTIVE; + + if (!ipc_imem_pipe_open(ipc_imem, &channel->ul_pipe)) + goto ul_pipe_err; + + if (!ipc_imem_pipe_open(ipc_imem, &channel->dl_pipe)) + goto dl_pipe_err; + + /* Allocate the downlink buffers in tasklet context. */ + if (ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_pipe_td_alloc, db_id, + &channel->dl_pipe, 0, false)) { + dev_err(ipc_imem->dev, "td allocation failed : %d", channel_id); + goto task_failed; + } + + /* Active channel. */ + return channel; +task_failed: + ipc_imem_pipe_close(ipc_imem, &channel->dl_pipe); +dl_pipe_err: + ipc_imem_pipe_close(ipc_imem, &channel->ul_pipe); +ul_pipe_err: + ipc_imem_channel_free(channel); + return NULL; +} + +void ipc_imem_pm_suspend(struct iosm_imem *ipc_imem) +{ + ipc_protocol_suspend(ipc_imem->ipc_protocol); +} + +void ipc_imem_pm_s2idle_sleep(struct iosm_imem *ipc_imem, bool sleep) +{ + ipc_protocol_s2idle_sleep(ipc_imem->ipc_protocol, sleep); +} + +void ipc_imem_pm_resume(struct iosm_imem *ipc_imem) +{ + enum ipc_mem_exec_stage stage; + + if (ipc_protocol_resume(ipc_imem->ipc_protocol)) { + stage = ipc_mmio_get_exec_stage(ipc_imem->mmio); + ipc_imem_phase_update_check(ipc_imem, stage); + } +} + +void ipc_imem_channel_free(struct ipc_mem_channel *channel) +{ + /* Reset dynamic channel elements. */ + channel->state = IMEM_CHANNEL_FREE; +} + +int ipc_imem_channel_alloc(struct iosm_imem *ipc_imem, int index, + enum ipc_ctype ctype) +{ + struct ipc_mem_channel *channel; + int i; + + /* Find channel of given type/index */ + for (i = 0; i < ipc_imem->nr_of_channels; i++) { + channel = &ipc_imem->channels[i]; + if (channel->ctype == ctype && channel->index == index) + break; + } + + if (i >= ipc_imem->nr_of_channels) { + dev_dbg(ipc_imem->dev, + "no channel definition for index=%d ctype=%d", index, + ctype); + return -ECHRNG; + } + + if (ipc_imem->channels[i].state != IMEM_CHANNEL_FREE) { + dev_dbg(ipc_imem->dev, "channel is in use"); + return -EBUSY; + } + + if (channel->ctype == IPC_CTYPE_WWAN && + index == IPC_MEM_MUX_IP_CH_IF_ID) + channel->if_id = index; + + channel->channel_id = index; + channel->state = IMEM_CHANNEL_RESERVED; + + return i; +} + +void ipc_imem_channel_init(struct iosm_imem *ipc_imem, enum ipc_ctype ctype, + struct ipc_chnl_cfg chnl_cfg, u32 irq_moderation) +{ + struct ipc_mem_channel *channel; + + if (chnl_cfg.ul_pipe >= IPC_MEM_MAX_PIPES || + chnl_cfg.dl_pipe >= IPC_MEM_MAX_PIPES) { + dev_err(ipc_imem->dev, "invalid pipe: ul_pipe=%d, dl_pipe=%d", + chnl_cfg.ul_pipe, chnl_cfg.dl_pipe); + return; + } + + if (ipc_imem->nr_of_channels >= IPC_MEM_MAX_CHANNELS) { + dev_err(ipc_imem->dev, "too many channels"); + return; + } + + channel = &ipc_imem->channels[ipc_imem->nr_of_channels]; + channel->channel_id = ipc_imem->nr_of_channels; + channel->ctype = ctype; + channel->index = chnl_cfg.id; + channel->net_err_count = 0; + channel->state = IMEM_CHANNEL_FREE; + ipc_imem->nr_of_channels++; + + ipc_imem_channel_update(ipc_imem, channel->channel_id, chnl_cfg, + IRQ_MOD_OFF); + + skb_queue_head_init(&channel->ul_list); + + init_completion(&channel->ul_sem); +} + +void ipc_imem_channel_update(struct iosm_imem *ipc_imem, int id, + struct ipc_chnl_cfg chnl_cfg, u32 irq_moderation) +{ + struct ipc_mem_channel *channel; + + if (id < 0 || id >= ipc_imem->nr_of_channels) { + dev_err(ipc_imem->dev, "invalid channel id %d", id); + return; + } + + channel = &ipc_imem->channels[id]; + + if (channel->state != IMEM_CHANNEL_FREE && + channel->state != IMEM_CHANNEL_RESERVED) { + dev_err(ipc_imem->dev, "invalid channel state %d", + channel->state); + return; + } + + channel->ul_pipe.nr_of_entries = chnl_cfg.ul_nr_of_entries; + channel->ul_pipe.pipe_nr = chnl_cfg.ul_pipe; + channel->ul_pipe.is_open = false; + channel->ul_pipe.irq = IPC_UL_PIPE_IRQ_VECTOR; + channel->ul_pipe.channel = channel; + channel->ul_pipe.dir = IPC_MEM_DIR_UL; + channel->ul_pipe.accumulation_backoff = chnl_cfg.accumulation_backoff; + channel->ul_pipe.irq_moderation = irq_moderation; + channel->ul_pipe.buf_size = 0; + + channel->dl_pipe.nr_of_entries = chnl_cfg.dl_nr_of_entries; + channel->dl_pipe.pipe_nr = chnl_cfg.dl_pipe; + channel->dl_pipe.is_open = false; + channel->dl_pipe.irq = IPC_DL_PIPE_IRQ_VECTOR; + channel->dl_pipe.channel = channel; + channel->dl_pipe.dir = IPC_MEM_DIR_DL; + channel->dl_pipe.accumulation_backoff = chnl_cfg.accumulation_backoff; + channel->dl_pipe.irq_moderation = irq_moderation; + channel->dl_pipe.buf_size = chnl_cfg.dl_buf_size; +} + +static void ipc_imem_channel_reset(struct iosm_imem *ipc_imem) +{ + int i; + + for (i = 0; i < ipc_imem->nr_of_channels; i++) { + struct ipc_mem_channel *channel; + + channel = &ipc_imem->channels[i]; + + ipc_imem_pipe_cleanup(ipc_imem, &channel->dl_pipe); + ipc_imem_pipe_cleanup(ipc_imem, &channel->ul_pipe); + + ipc_imem_channel_free(channel); + } +} + +void ipc_imem_pipe_cleanup(struct iosm_imem *ipc_imem, struct ipc_pipe *pipe) +{ + struct sk_buff *skb; + + /* Force pipe to closed state also when not explicitly closed through + * ipc_imem_pipe_close() + */ + pipe->is_open = false; + + /* Empty the uplink skb accumulator. */ + while ((skb = skb_dequeue(&pipe->channel->ul_list))) + ipc_pcie_kfree_skb(ipc_imem->pcie, skb); + + ipc_protocol_pipe_cleanup(ipc_imem->ipc_protocol, pipe); +} + +/* Send IPC protocol uninit to the modem when Link is active. */ +static void ipc_imem_device_ipc_uninit(struct iosm_imem *ipc_imem) +{ + int timeout = IPC_MODEM_UNINIT_TIMEOUT_MS; + enum ipc_mem_device_ipc_state ipc_state; + + /* When PCIe link is up set IPC_UNINIT + * of the modem otherwise ignore it when PCIe link down happens. + */ + if (ipc_pcie_check_data_link_active(ipc_imem->pcie)) { + /* set modem to UNINIT + * (in case we want to reload the AP driver without resetting + * the modem) + */ + ipc_doorbell_fire(ipc_imem->pcie, IPC_DOORBELL_IRQ_IPC, + IPC_MEM_DEVICE_IPC_UNINIT); + ipc_state = ipc_mmio_get_ipc_state(ipc_imem->mmio); + + /* Wait for maximum 30ms to allow the Modem to uninitialize the + * protocol. + */ + while ((ipc_state <= IPC_MEM_DEVICE_IPC_DONT_CARE) && + (ipc_state != IPC_MEM_DEVICE_IPC_UNINIT) && + (timeout > 0)) { + usleep_range(1000, 1250); + timeout--; + ipc_state = ipc_mmio_get_ipc_state(ipc_imem->mmio); + } + } +} + +void ipc_imem_cleanup(struct iosm_imem *ipc_imem) +{ + ipc_imem->phase = IPC_P_OFF_REQ; + + /* forward MDM_NOT_READY to listeners */ + ipc_uevent_send(ipc_imem->dev, UEVENT_MDM_NOT_READY); + + hrtimer_cancel(&ipc_imem->td_alloc_timer); + hrtimer_cancel(&ipc_imem->tdupdate_timer); + hrtimer_cancel(&ipc_imem->fast_update_timer); + hrtimer_cancel(&ipc_imem->startup_timer); + + /* cancel the workqueue */ + cancel_work_sync(&ipc_imem->run_state_worker); + + if (test_and_clear_bit(FULLY_FUNCTIONAL, &ipc_imem->flag)) { + ipc_mux_deinit(ipc_imem->mux); + ipc_wwan_deinit(ipc_imem->wwan); + ipc_port_deinit(ipc_imem->ipc_port); + } + + ipc_imem_device_ipc_uninit(ipc_imem); + ipc_imem_channel_reset(ipc_imem); + + ipc_protocol_deinit(ipc_imem->ipc_protocol); + ipc_task_deinit(ipc_imem->ipc_task); + + kfree(ipc_imem->ipc_task); + kfree(ipc_imem->mmio); + + ipc_imem->phase = IPC_P_OFF; +} + +/* After CP has unblocked the PCIe link, save the start address of the doorbell + * scratchpad and prepare the shared memory region. If the flashing to RAM + * procedure shall be executed, copy the chip information from the doorbell + * scratchtpad to the application buffer and wake up the flash app. + */ +static int ipc_imem_config(struct iosm_imem *ipc_imem) +{ + enum ipc_phase phase; + + /* Initialize the semaphore for the blocking read UL/DL transfer. */ + init_completion(&ipc_imem->ul_pend_sem); + + init_completion(&ipc_imem->dl_pend_sem); + + /* clear internal flags */ + ipc_imem->ipc_status = IPC_MEM_DEVICE_IPC_UNINIT; + ipc_imem->enter_runtime = 0; + + phase = ipc_imem_phase_update(ipc_imem); + + /* Either CP shall be in the power off or power on phase. */ + switch (phase) { + case IPC_P_ROM: + ipc_imem->hrtimer_period = ktime_set(0, 1000 * 1000 * 1000ULL); + /* poll execution stage (for delayed start, e.g. NAND) */ + if (!hrtimer_active(&ipc_imem->startup_timer)) + hrtimer_start(&ipc_imem->startup_timer, + ipc_imem->hrtimer_period, + HRTIMER_MODE_REL); + return 0; + + case IPC_P_PSI: + case IPC_P_EBL: + case IPC_P_RUN: + /* The initial IPC state is IPC_MEM_DEVICE_IPC_UNINIT. */ + ipc_imem->ipc_requested_state = IPC_MEM_DEVICE_IPC_UNINIT; + + /* Verify the exepected initial state. */ + if (ipc_imem->ipc_requested_state == + ipc_mmio_get_ipc_state(ipc_imem->mmio)) { + ipc_imem_ipc_init_check(ipc_imem); + + return 0; + } + dev_err(ipc_imem->dev, + "ipc_status(%d) != IPC_MEM_DEVICE_IPC_UNINIT", + ipc_mmio_get_ipc_state(ipc_imem->mmio)); + break; + case IPC_P_CRASH: + case IPC_P_CD_READY: + dev_dbg(ipc_imem->dev, + "Modem is in phase %d, reset Modem to collect CD", + phase); + return 0; + default: + dev_err(ipc_imem->dev, "unexpected operation phase %d", phase); + break; + } + + complete(&ipc_imem->dl_pend_sem); + complete(&ipc_imem->ul_pend_sem); + ipc_imem->phase = IPC_P_OFF; + return -EIO; +} + +/* Pass the dev ptr to the shared memory driver and request the entry points */ +struct iosm_imem *ipc_imem_init(struct iosm_pcie *pcie, unsigned int device_id, + void __iomem *mmio, struct device *dev) +{ + struct iosm_imem *ipc_imem = kzalloc(sizeof(*pcie->imem), GFP_KERNEL); + + if (!ipc_imem) + return NULL; + + /* Save the device address. */ + ipc_imem->pcie = pcie; + ipc_imem->dev = dev; + + ipc_imem->pci_device_id = device_id; + + ipc_imem->ev_cdev_write_pending = false; + ipc_imem->cp_version = 0; + ipc_imem->device_sleep = IPC_HOST_SLEEP_ENTER_SLEEP; + + /* Reset the flash channel id. */ + ipc_imem->flash_channel_id = -1; + + /* Reset the max number of configured channels */ + ipc_imem->nr_of_channels = 0; + + /* allocate IPC MMIO */ + ipc_imem->mmio = ipc_mmio_init(mmio, ipc_imem->dev); + if (!ipc_imem->mmio) { + dev_err(ipc_imem->dev, "failed to initialize mmio region"); + goto mmio_init_fail; + } + + ipc_imem->ipc_task = kzalloc(sizeof(*ipc_imem->ipc_task), + GFP_KERNEL); + + /* Create tasklet for event handling*/ + if (!ipc_imem->ipc_task) + goto ipc_task_fail; + + if (ipc_task_init(ipc_imem->ipc_task)) + goto ipc_task_init_fail; + + ipc_imem->ipc_task->dev = ipc_imem->dev; + + INIT_WORK(&ipc_imem->run_state_worker, ipc_imem_run_state_worker); + + ipc_imem->ipc_protocol = ipc_protocol_init(ipc_imem); + + if (!ipc_imem->ipc_protocol) + goto protocol_init_fail; + + /* The phase is set to power off. */ + ipc_imem->phase = IPC_P_OFF; + + hrtimer_init(&ipc_imem->startup_timer, CLOCK_MONOTONIC, + HRTIMER_MODE_REL); + ipc_imem->startup_timer.function = ipc_imem_startup_timer_cb; + + hrtimer_init(&ipc_imem->tdupdate_timer, CLOCK_MONOTONIC, + HRTIMER_MODE_REL); + ipc_imem->tdupdate_timer.function = ipc_imem_td_update_timer_cb; + + hrtimer_init(&ipc_imem->fast_update_timer, CLOCK_MONOTONIC, + HRTIMER_MODE_REL); + ipc_imem->fast_update_timer.function = ipc_imem_fast_update_timer_cb; + + hrtimer_init(&ipc_imem->td_alloc_timer, CLOCK_MONOTONIC, + HRTIMER_MODE_REL); + ipc_imem->td_alloc_timer.function = ipc_imem_td_alloc_timer_cb; + + if (ipc_imem_config(ipc_imem)) { + dev_err(ipc_imem->dev, "failed to initialize the imem"); + goto imem_config_fail; + } + + return ipc_imem; + +imem_config_fail: + hrtimer_cancel(&ipc_imem->td_alloc_timer); + hrtimer_cancel(&ipc_imem->fast_update_timer); + hrtimer_cancel(&ipc_imem->tdupdate_timer); + hrtimer_cancel(&ipc_imem->startup_timer); +protocol_init_fail: + cancel_work_sync(&ipc_imem->run_state_worker); + ipc_task_deinit(ipc_imem->ipc_task); +ipc_task_init_fail: + kfree(ipc_imem->ipc_task); +ipc_task_fail: + kfree(ipc_imem->mmio); +mmio_init_fail: + kfree(ipc_imem); + return NULL; +} + +void ipc_imem_irq_process(struct iosm_imem *ipc_imem, int irq) +{ + /* Debounce IPC_EV_IRQ. */ + if (ipc_imem && !ipc_imem->ev_irq_pending[irq]) { + ipc_imem->ev_irq_pending[irq] = true; + ipc_task_queue_send_task(ipc_imem, ipc_imem_tq_irq_cb, irq, + NULL, 0, false); + } +} + +void ipc_imem_td_update_timer_suspend(struct iosm_imem *ipc_imem, bool suspend) +{ + ipc_imem->td_update_timer_suspended = suspend; +} diff --git a/drivers/net/wwan/iosm/iosm_ipc_imem.h b/drivers/net/wwan/iosm/iosm_ipc_imem.h new file mode 100644 index 000000000000..0d2f10e4cbc8 --- /dev/null +++ b/drivers/net/wwan/iosm/iosm_ipc_imem.h @@ -0,0 +1,579 @@ +/* SPDX-License-Identifier: GPL-2.0-only + * + * Copyright (C) 2020-21 Intel Corporation. + */ + +#ifndef IOSM_IPC_IMEM_H +#define IOSM_IPC_IMEM_H + +#include +#include + +#include "iosm_ipc_mmio.h" +#include "iosm_ipc_pcie.h" +#include "iosm_ipc_uevent.h" +#include "iosm_ipc_wwan.h" +#include "iosm_ipc_task_queue.h" + +struct ipc_chnl_cfg; + +/* IRQ moderation in usec */ +#define IRQ_MOD_OFF 0 +#define IRQ_MOD_NET 1000 +#define IRQ_MOD_TRC 4000 + +/* Either the PSI image is accepted by CP or the suspended flash tool is waken, + * informed that the CP ROM driver is not ready to process the PSI image. + * unit : milliseconds + */ +#define IPC_PSI_TRANSFER_TIMEOUT 3000 + +/* Timeout in 20 msec to wait for the modem to boot up to + * IPC_MEM_DEVICE_IPC_INIT state. + * unit : milliseconds (500 * ipc_util_msleep(20)) + */ +#define IPC_MODEM_BOOT_TIMEOUT 500 + +/* Wait timeout for ipc status reflects IPC_MEM_DEVICE_IPC_UNINIT + * unit : milliseconds + */ +#define IPC_MODEM_UNINIT_TIMEOUT_MS 30 + +/* Pending time for processing data. + * unit : milliseconds + */ +#define IPC_PEND_DATA_TIMEOUT 500 + +/* The timeout in milliseconds for application to wait for remote time. */ +#define IPC_REMOTE_TS_TIMEOUT_MS 10 + +/* Timeout for TD allocation retry. + * unit : milliseconds + */ +#define IPC_TD_ALLOC_TIMER_PERIOD_MS 100 + +/* Host sleep target is host */ +#define IPC_HOST_SLEEP_HOST 0 + +/* Host sleep target is device */ +#define IPC_HOST_SLEEP_DEVICE 1 + +/* Sleep message, target host: AP enters sleep / target device: CP is + * allowed to enter sleep and shall use the host sleep protocol + */ +#define IPC_HOST_SLEEP_ENTER_SLEEP 0 + +/* Sleep_message, target host: AP exits sleep / target device: CP is + * NOT allowed to enter sleep + */ +#define IPC_HOST_SLEEP_EXIT_SLEEP 1 + +#define IMEM_IRQ_DONT_CARE (-1) + +#define IPC_MEM_MAX_CHANNELS 7 + +#define IPC_MEM_MUX_IP_SESSION_ENTRIES 8 + +#define IPC_MEM_MUX_IP_CH_IF_ID 0 + +#define TD_UPDATE_DEFAULT_TIMEOUT_USEC 1900 + +#define FORCE_UPDATE_DEFAULT_TIMEOUT_USEC 500 + +/* Sleep_message, target host: not applicable / target device: CP is + * allowed to enter sleep and shall NOT use the device sleep protocol + */ +#define IPC_HOST_SLEEP_ENTER_SLEEP_NO_PROTOCOL 2 + +/* in_band_crash_signal IPC_MEM_INBAND_CRASH_SIG + * Modem crash notification configuration. If this value is non-zero then + * FEATURE_SET message will be sent to the Modem as a result the Modem will + * signal Crash via Execution Stage register. If this value is zero then Modem + * will use out-of-band method to notify about it's Crash. + */ +#define IPC_MEM_INBAND_CRASH_SIG 1 + +/* Extra headroom to be allocated for DL SKBs to allow addition of Ethernet + * header + */ +#define IPC_MEM_DL_ETH_OFFSET 16 + +#define IPC_CB(skb) ((struct ipc_skb_cb *)((skb)->cb)) + +#define FULLY_FUNCTIONAL 0 + +/* List of the supported UL/DL pipes. */ +enum ipc_mem_pipes { + IPC_MEM_PIPE_0 = 0, + IPC_MEM_PIPE_1, + IPC_MEM_PIPE_2, + IPC_MEM_PIPE_3, + IPC_MEM_PIPE_4, + IPC_MEM_PIPE_5, + IPC_MEM_PIPE_6, + IPC_MEM_PIPE_7, + IPC_MEM_PIPE_8, + IPC_MEM_PIPE_9, + IPC_MEM_PIPE_10, + IPC_MEM_PIPE_11, + IPC_MEM_PIPE_12, + IPC_MEM_PIPE_13, + IPC_MEM_PIPE_14, + IPC_MEM_PIPE_15, + IPC_MEM_PIPE_16, + IPC_MEM_PIPE_17, + IPC_MEM_PIPE_18, + IPC_MEM_PIPE_19, + IPC_MEM_PIPE_20, + IPC_MEM_PIPE_21, + IPC_MEM_PIPE_22, + IPC_MEM_PIPE_23, + IPC_MEM_MAX_PIPES +}; + +/* Enum defining channel states. */ +enum ipc_channel_state { + IMEM_CHANNEL_FREE, + IMEM_CHANNEL_RESERVED, + IMEM_CHANNEL_ACTIVE, + IMEM_CHANNEL_CLOSING, +}; + +/* Time Unit */ +enum ipc_time_unit { + IPC_SEC = 0, + IPC_MILLI_SEC = 1, + IPC_MICRO_SEC = 2, + IPC_NANO_SEC = 3, + IPC_PICO_SEC = 4, + IPC_FEMTO_SEC = 5, + IPC_ATTO_SEC = 6, +}; + +/** + * enum ipc_ctype - Enum defining supported channel type needed for control + * /IP traffic. + * @IPC_CTYPE_WWAN: Used for IP traffic + * @IPC_CTYPE_CTRL: Used for Control Communication + */ +enum ipc_ctype { + IPC_CTYPE_WWAN, + IPC_CTYPE_CTRL, +}; + +/* Pipe direction. */ +enum ipc_mem_pipe_dir { + IPC_MEM_DIR_UL, + IPC_MEM_DIR_DL, +}; + +/* HP update identifier. To be used as data for ipc_cp_irq_hpda_update() */ +enum ipc_hp_identifier { + IPC_HP_MR = 0, + IPC_HP_PM_TRIGGER, + IPC_HP_WAKEUP_SPEC_TMR, + IPC_HP_TD_UPD_TMR_START, + IPC_HP_TD_UPD_TMR, + IPC_HP_FAST_TD_UPD_TMR, + IPC_HP_UL_WRITE_TD, + IPC_HP_DL_PROCESS, + IPC_HP_NET_CHANNEL_INIT, + IPC_HP_CDEV_OPEN, +}; + +/** + * struct ipc_pipe - Structure for Pipe. + * @tdr_start: Ipc private protocol Transfer Descriptor Ring + * @channel: Id of the sio device, set by imem_sio_open, + * needed to pass DL char to the user terminal + * @skbr_start: Circular buffer for skbuf and the buffer + * reference in a tdr_start entry. + * @phy_tdr_start: Transfer descriptor start address + * @old_head: last head pointer reported to CP. + * @old_tail: AP read position before CP moves the read + * position to write/head. If CP has consumed the + * buffers, AP has to freed the skbuf starting at + * tdr_start[old_tail]. + * @nr_of_entries: Number of elements of skb_start and tdr_start. + * @max_nr_of_queued_entries: Maximum number of queued entries in TDR + * @accumulation_backoff: Accumulation in usec for accumulation + * backoff (0 = no acc backoff) + * @irq_moderation: timer in usec for irq_moderation + * (0=no irq moderation) + * @pipe_nr: Pipe identification number + * @irq: Interrupt vector + * @dir: Direction of data stream in pipe + * @td_tag: Unique tag of the buffer queued + * @buf_size: Buffer size (in bytes) for preallocated + * buffers (for DL pipes) + * @nr_of_queued_entries: Aueued number of entries + * @is_open: Check for open pipe status + */ +struct ipc_pipe { + struct ipc_protocol_td *tdr_start; + struct ipc_mem_channel *channel; + struct sk_buff **skbr_start; + dma_addr_t phy_tdr_start; + u32 old_head; + u32 old_tail; + u32 nr_of_entries; + u32 max_nr_of_queued_entries; + u32 accumulation_backoff; + u32 irq_moderation; + u32 pipe_nr; + u32 irq; + enum ipc_mem_pipe_dir dir; + u32 td_tag; + u32 buf_size; + u16 nr_of_queued_entries; + u8 is_open:1; +}; + +/** + * struct ipc_mem_channel - Structure for Channel. + * @channel_id: Instance of the channel list and is return to the user + * at the end of the open operation. + * @ctype: Control or netif channel. + * @index: unique index per ctype + * @ul_pipe: pipe objects + * @dl_pipe: pipe objects + * @if_id: Interface ID + * @net_err_count: Number of downlink errors returned by ipc_wwan_receive + * interface at the entry point of the IP stack. + * @state: Free, reserved or busy (in use). + * @ul_sem: Needed for the blocking write or uplink transfer. + * @ul_list: Uplink accumulator which is filled by the uplink + * char app or IP stack. The socket buffer pointer are + * added to the descriptor list in the kthread context. + */ +struct ipc_mem_channel { + int channel_id; + enum ipc_ctype ctype; + int index; + struct ipc_pipe ul_pipe; + struct ipc_pipe dl_pipe; + int if_id; + u32 net_err_count; + enum ipc_channel_state state; + struct completion ul_sem; + struct sk_buff_head ul_list; +}; + +/** + * enum ipc_phase - Different AP and CP phases. + * The enums defined after "IPC_P_ROM" and before + * "IPC_P_RUN" indicates the operating state where CP can + * respond to any requests. So while introducing new phase + * this shall be taken into consideration. + * @IPC_P_OFF: On host PC, the PCIe device link settings are known + * about the combined power on. PC is running, the driver + * is loaded and CP is in power off mode. The PCIe bus + * driver call the device power mode D3hot. In this phase + * the driver the polls the device, until the device is in + * the power on state and signals the power mode D0. + * @IPC_P_OFF_REQ: The intermediate phase between cleanup activity starts + * and ends. + * @IPC_P_CRASH: The phase indicating CP crash + * @IPC_P_CD_READY: The phase indicating CP core dump is ready + * @IPC_P_ROM: After power on, CP starts in ROM mode and the IPC ROM + * driver is waiting 150 ms for the AP active notification + * saved in the PCI link status register. + * @IPC_P_PSI: Primary signed image download phase + * @IPC_P_EBL: Extended bootloader pahse + * @IPC_P_RUN: The phase after flashing to RAM is the RUNTIME phase. + */ +enum ipc_phase { + IPC_P_OFF, + IPC_P_OFF_REQ, + IPC_P_CRASH, + IPC_P_CD_READY, + IPC_P_ROM, + IPC_P_PSI, + IPC_P_EBL, + IPC_P_RUN, +}; + +/** + * struct iosm_imem - Current state of the IPC shared memory. + * @mmio: mmio instance to access CP MMIO area / + * doorbell scratchpad. + * @ipc_protocol: IPC Protocol instance + * @ipc_task: Task for entry into ipc task queue + * @wwan: WWAN device pointer + * @mux: IP Data multiplexing state. + * @sio: IPC SIO data structure pointer + * @ipc_port: IPC PORT data structure pointer + * @pcie: IPC PCIe + * @dev: Pointer to device structure + * @flash_channel_id: Reserved channel id for flashing to RAM. + * @ipc_requested_state: Expected IPC state on CP. + * @channels: Channel list with UL/DL pipe pairs. + * @ipc_status: local ipc_status + * @nr_of_channels: number of configured channels + * @startup_timer: startup timer for NAND support. + * @hrtimer_period: Hr timer period + * @tdupdate_timer: Delay the TD update doorbell. + * @fast_update_timer: forced head pointer update delay timer. + * @td_alloc_timer: Timer for DL pipe TD allocation retry + * @rom_exit_code: Mapped boot rom exit code. + * @enter_runtime: 1 means the transition to runtime phase was + * executed. + * @ul_pend_sem: Semaphore to wait/complete of UL TDs + * before closing pipe. + * @app_notify_ul_pend: Signal app if UL TD is pending + * @dl_pend_sem: Semaphore to wait/complete of DL TDs + * before closing pipe. + * @app_notify_dl_pend: Signal app if DL TD is pending + * @phase: Operating phase like runtime. + * @pci_device_id: Device ID + * @cp_version: CP version + * @device_sleep: Device sleep state + * @run_state_worker: Pointer to worker component for device + * setup operations to be called when modem + * reaches RUN state + * @ev_irq_pending: 0 means inform the IPC tasklet to + * process the irq actions. + * @flag: Flag to monitor the state of driver + * @td_update_timer_suspended: if true then td update timer suspend + * @ev_cdev_write_pending: 0 means inform the IPC tasklet to pass + * the accumulated uplink buffers to CP. + * @ev_mux_net_transmit_pending:0 means inform the IPC tasklet to pass + * @reset_det_n: Reset detect flag + * @pcie_wake_n: Pcie wake flag + */ +struct iosm_imem { + struct iosm_mmio *mmio; + struct iosm_protocol *ipc_protocol; + struct ipc_task *ipc_task; + struct iosm_wwan *wwan; + struct iosm_mux *mux; + struct iosm_cdev *ipc_port[IPC_MEM_MAX_CHANNELS]; + struct iosm_pcie *pcie; + struct device *dev; + int flash_channel_id; + enum ipc_mem_device_ipc_state ipc_requested_state; + struct ipc_mem_channel channels[IPC_MEM_MAX_CHANNELS]; + u32 ipc_status; + u32 nr_of_channels; + struct hrtimer startup_timer; + ktime_t hrtimer_period; + struct hrtimer tdupdate_timer; + struct hrtimer fast_update_timer; + struct hrtimer td_alloc_timer; + enum rom_exit_code rom_exit_code; + u32 enter_runtime; + struct completion ul_pend_sem; + u32 app_notify_ul_pend; + struct completion dl_pend_sem; + u32 app_notify_dl_pend; + enum ipc_phase phase; + u16 pci_device_id; + int cp_version; + int device_sleep; + struct work_struct run_state_worker; + u8 ev_irq_pending[IPC_IRQ_VECTORS]; + unsigned long flag; + u8 td_update_timer_suspended:1, + ev_cdev_write_pending:1, + ev_mux_net_transmit_pending:1, + reset_det_n:1, + pcie_wake_n:1; +}; + +/** + * ipc_imem_init - Initialize the shared memory region + * @pcie: Pointer to core driver data-struct + * @device_id: PCI device ID + * @mmio: Pointer to the mmio area + * @dev: Pointer to device structure + * + * Returns: Initialized imem pointer on success else NULL + */ +struct iosm_imem *ipc_imem_init(struct iosm_pcie *pcie, unsigned int device_id, + void __iomem *mmio, struct device *dev); + +/** + * ipc_imem_pm_s2idle_sleep - Set PM variables to sleep/active for + * s2idle sleep/active + * @ipc_imem: Pointer to imem data-struct + * @sleep: Set PM Variable to sleep/active + */ +void ipc_imem_pm_s2idle_sleep(struct iosm_imem *ipc_imem, bool sleep); + +/** + * ipc_imem_pm_suspend - The HAL shall ask the shared memory layer + * whether D3 is allowed. + * @ipc_imem: Pointer to imem data-struct + */ +void ipc_imem_pm_suspend(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_pm_resume - The HAL shall inform the shared memory layer + * that the device is active. + * @ipc_imem: Pointer to imem data-struct + */ +void ipc_imem_pm_resume(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_cleanup - Inform CP and free the shared memory resources. + * @ipc_imem: Pointer to imem data-struct + */ +void ipc_imem_cleanup(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_irq_process - Shift the IRQ actions to the IPC thread. + * @ipc_imem: Pointer to imem data-struct + * @irq: Irq number + */ +void ipc_imem_irq_process(struct iosm_imem *ipc_imem, int irq); + +/** + * imem_get_device_sleep_state - Get the device sleep state value. + * @ipc_imem: Pointer to imem instance + * + * Returns: device sleep state + */ +int imem_get_device_sleep_state(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_td_update_timer_suspend - Updates the TD Update Timer suspend flag. + * @ipc_imem: Pointer to imem data-struct + * @suspend: Flag to update. If TRUE then HP update doorbell is triggered to + * device without any wait. If FALSE then HP update doorbell is + * delayed until timeout. + */ +void ipc_imem_td_update_timer_suspend(struct iosm_imem *ipc_imem, bool suspend); + +/** + * ipc_imem_channel_close - Release the channel resources. + * @ipc_imem: Pointer to imem data-struct + * @channel_id: Channel ID to be cleaned up. + */ +void ipc_imem_channel_close(struct iosm_imem *ipc_imem, int channel_id); + +/** + * ipc_imem_channel_alloc - Reserves a channel + * @ipc_imem: Pointer to imem data-struct + * @index: ID to lookup from the preallocated list. + * @ctype: Channel type. + * + * Returns: Index on success and failure value on error + */ +int ipc_imem_channel_alloc(struct iosm_imem *ipc_imem, int index, + enum ipc_ctype ctype); + +/** + * ipc_imem_channel_open - Establish the pipes. + * @ipc_imem: Pointer to imem data-struct + * @channel_id: Channel ID returned during alloc. + * @db_id: Doorbell ID for trigger identifier. + * + * Returns: Pointer of ipc_mem_channel on success and NULL on failure. + */ +struct ipc_mem_channel *ipc_imem_channel_open(struct iosm_imem *ipc_imem, + int channel_id, u32 db_id); + +/** + * ipc_imem_td_update_timer_start - Starts the TD Update Timer if not running. + * @ipc_imem: Pointer to imem data-struct + */ +void ipc_imem_td_update_timer_start(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_ul_write_td - Pass the channel UL list to protocol layer for TD + * preparation and sending them to the device. + * @ipc_imem: Pointer to imem data-struct + * + * Returns: TRUE of HP Doorbell trigger is pending. FALSE otherwise. + */ +bool ipc_imem_ul_write_td(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_ul_send - Dequeue SKB from channel list and start with + * the uplink transfer.If HP Doorbell is pending to be + * triggered then starts the TD Update Timer. + * @ipc_imem: Pointer to imem data-struct + */ +void ipc_imem_ul_send(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_channel_update - Set or modify pipe config of an existing channel + * @ipc_imem: Pointer to imem data-struct + * @id: Channel config index + * @chnl_cfg: Channel config struct + * @irq_moderation: Timer in usec for irq_moderation + */ +void ipc_imem_channel_update(struct iosm_imem *ipc_imem, int id, + struct ipc_chnl_cfg chnl_cfg, u32 irq_moderation); + +/** + * ipc_imem_channel_free -Free an IPC channel. + * @channel: Channel to be freed + */ +void ipc_imem_channel_free(struct ipc_mem_channel *channel); + +/** + * ipc_imem_hrtimer_stop - Stop the hrtimer + * @hr_timer: Pointer to hrtimer instance + */ +void ipc_imem_hrtimer_stop(struct hrtimer *hr_timer); + +/** + * ipc_imem_pipe_cleanup - Reset volatile pipe content for all channels + * @ipc_imem: Pointer to imem data-struct + * @pipe: Pipe to cleaned up + */ +void ipc_imem_pipe_cleanup(struct iosm_imem *ipc_imem, struct ipc_pipe *pipe); + +/** + * ipc_imem_pipe_close - Send msg to device to close pipe + * @ipc_imem: Pointer to imem data-struct + * @pipe: Pipe to be closed + */ +void ipc_imem_pipe_close(struct iosm_imem *ipc_imem, struct ipc_pipe *pipe); + +/** + * ipc_imem_phase_update - Get the CP execution state + * and map it to the AP phase. + * @ipc_imem: Pointer to imem data-struct + * + * Returns: Current ap updated phase + */ +enum ipc_phase ipc_imem_phase_update(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_phase_get_string - Return the current operation + * phase as string. + * @phase: AP phase + * + * Returns: AP phase string + */ +const char *ipc_imem_phase_get_string(enum ipc_phase phase); + +/** + * ipc_imem_msg_send_feature_set - Send feature set message to modem + * @ipc_imem: Pointer to imem data-struct + * @reset_enable: 0 = out-of-band, 1 = in-band-crash notification + * @atomic_ctx: if disabled call in tasklet context + * + */ +void ipc_imem_msg_send_feature_set(struct iosm_imem *ipc_imem, + unsigned int reset_enable, bool atomic_ctx); + +/** + * ipc_imem_ipc_init_check - Send the init event to CP, wait a certain time and + * set CP to runtime with the context information + * @ipc_imem: Pointer to imem data-struct + */ +void ipc_imem_ipc_init_check(struct iosm_imem *ipc_imem); + +/** + * ipc_imem_channel_init - Initialize the channel list with UL/DL pipe pairs. + * @ipc_imem: Pointer to imem data-struct + * @ctype: Channel type + * @chnl_cfg: Channel configuration struct + * @irq_moderation: Timer in usec for irq_moderation + */ +void ipc_imem_channel_init(struct iosm_imem *ipc_imem, enum ipc_ctype ctype, + struct ipc_chnl_cfg chnl_cfg, u32 irq_moderation); +#endif