/* Copyright (c) 2014-2015, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include #include #include #include #include "esoc-mdm.h" enum gpio_update_config { GPIO_UPDATE_BOOTING_CONFIG = 1, GPIO_UPDATE_RUNNING_CONFIG, }; enum irq_mask { IRQ_ERRFATAL = 0x1, IRQ_STATUS = 0x2, IRQ_PBLRDY = 0x4, }; static struct gpio_map { const char *name; int index; } gpio_map[] = { {"qcom,mdm2ap-errfatal-gpio", MDM2AP_ERRFATAL}, {"qcom,ap2mdm-errfatal-gpio", AP2MDM_ERRFATAL}, {"qcom,mdm2ap-status-gpio", MDM2AP_STATUS}, {"qcom,ap2mdm-status-gpio", AP2MDM_STATUS}, {"qcom,mdm2ap-pblrdy-gpio", MDM2AP_PBLRDY}, {"qcom,ap2mdm-wakeup-gpio", AP2MDM_WAKEUP}, {"qcom,ap2mdm-chnlrdy-gpio", AP2MDM_CHNLRDY}, {"qcom,mdm2ap-wakeup-gpio", MDM2AP_WAKEUP}, {"qcom,ap2mdm-vddmin-gpio", AP2MDM_VDDMIN}, {"qcom,mdm2ap-vddmin-gpio", MDM2AP_VDDMIN}, {"qcom,ap2mdm-pmic-pwr-en-gpio", AP2MDM_PMIC_PWR_EN}, {"qcom,mdm-link-detect-gpio", MDM_LINK_DETECT}, }; /* Required gpios */ static const int required_gpios[] = { MDM2AP_ERRFATAL, AP2MDM_ERRFATAL, MDM2AP_STATUS, AP2MDM_STATUS, }; static void mdm_debug_gpio_show(struct mdm_ctrl *mdm) { struct device *dev = mdm->dev; dev_dbg(dev, "%s: MDM2AP_ERRFATAL gpio = %d\n", __func__, MDM_GPIO(mdm, MDM2AP_ERRFATAL)); dev_dbg(dev, "%s: AP2MDM_ERRFATAL gpio = %d\n", __func__, MDM_GPIO(mdm, AP2MDM_ERRFATAL)); dev_dbg(dev, "%s: MDM2AP_STATUS gpio = %d\n", __func__, MDM_GPIO(mdm, MDM2AP_STATUS)); dev_dbg(dev, "%s: AP2MDM_STATUS gpio = %d\n", __func__, MDM_GPIO(mdm, AP2MDM_STATUS)); dev_dbg(dev, "%s: AP2MDM_SOFT_RESET gpio = %d\n", __func__, MDM_GPIO(mdm, AP2MDM_SOFT_RESET)); dev_dbg(dev, "%s: MDM2AP_WAKEUP gpio = %d\n", __func__, MDM_GPIO(mdm, MDM2AP_WAKEUP)); dev_dbg(dev, "%s: AP2MDM_WAKEUP gpio = %d\n", __func__, MDM_GPIO(mdm, AP2MDM_WAKEUP)); dev_dbg(dev, "%s: AP2MDM_PMIC_PWR_EN gpio = %d\n", __func__, MDM_GPIO(mdm, AP2MDM_PMIC_PWR_EN)); dev_dbg(dev, "%s: MDM2AP_PBLRDY gpio = %d\n", __func__, MDM_GPIO(mdm, MDM2AP_PBLRDY)); dev_dbg(dev, "%s: AP2MDM_VDDMIN gpio = %d\n", __func__, MDM_GPIO(mdm, AP2MDM_VDDMIN)); dev_dbg(dev, "%s: MDM2AP_VDDMIN gpio = %d\n", __func__, MDM_GPIO(mdm, MDM2AP_VDDMIN)); } static void mdm_enable_irqs(struct mdm_ctrl *mdm) { if (!mdm) return; if (mdm->irq_mask & IRQ_ERRFATAL) { enable_irq(mdm->errfatal_irq); irq_set_irq_wake(mdm->errfatal_irq, 1); mdm->irq_mask &= ~IRQ_ERRFATAL; } if (mdm->irq_mask & IRQ_STATUS) { enable_irq(mdm->status_irq); irq_set_irq_wake(mdm->status_irq, 1); mdm->irq_mask &= ~IRQ_STATUS; } if (mdm->irq_mask & IRQ_PBLRDY) { enable_irq(mdm->pblrdy_irq); mdm->irq_mask &= ~IRQ_PBLRDY; } } static void mdm_disable_irqs(struct mdm_ctrl *mdm) { if (!mdm) return; if (!(mdm->irq_mask & IRQ_ERRFATAL)) { irq_set_irq_wake(mdm->errfatal_irq, 0); disable_irq_nosync(mdm->errfatal_irq); mdm->irq_mask |= IRQ_ERRFATAL; } if (!(mdm->irq_mask & IRQ_STATUS)) { irq_set_irq_wake(mdm->status_irq, 0); disable_irq_nosync(mdm->status_irq); mdm->irq_mask |= IRQ_STATUS; } if (!(mdm->irq_mask & IRQ_PBLRDY)) { disable_irq_nosync(mdm->pblrdy_irq); mdm->irq_mask |= IRQ_PBLRDY; } } static void mdm_deconfigure_ipc(struct mdm_ctrl *mdm) { int i; for (i = 0; i < NUM_GPIOS; ++i) { if (gpio_is_valid(MDM_GPIO(mdm, i))) gpio_free(MDM_GPIO(mdm, i)); } if (mdm->mdm_queue) { destroy_workqueue(mdm->mdm_queue); mdm->mdm_queue = NULL; } } static void mdm_update_gpio_configs(struct mdm_ctrl *mdm, enum gpio_update_config gpio_config) { struct pinctrl_state *pins_state = NULL; /* Some gpio configuration may need updating after modem bootup.*/ switch (gpio_config) { case GPIO_UPDATE_RUNNING_CONFIG: pins_state = mdm->gpio_state_running; break; case GPIO_UPDATE_BOOTING_CONFIG: pins_state = mdm->gpio_state_booting; break; default: pins_state = NULL; dev_err(mdm->dev, "%s: called with no config\n", __func__); break; } if (pins_state != NULL) { if (pinctrl_select_state(mdm->pinctrl, pins_state)) dev_err(mdm->dev, "switching gpio config failed\n"); } } static void mdm_trigger_dbg(struct mdm_ctrl *mdm) { int ret; if (mdm->dbg_mode && !mdm->trig_cnt) { ret = coresight_cti_pulse_trig(mdm->cti, MDM_CTI_CH); mdm->trig_cnt++; if (ret) dev_err(mdm->dev, "unable to trigger cti pulse on\n"); } } static int mdm_cmd_exe(enum esoc_cmd cmd, struct esoc_clink *esoc) { unsigned long end_time; bool status_down = false; struct mdm_ctrl *mdm = get_esoc_clink_data(esoc); struct device *dev = mdm->dev; int ret; bool graceful_shutdown = false; switch (cmd) { case ESOC_PWR_ON: gpio_set_value(MDM_GPIO(mdm, AP2MDM_ERRFATAL), 0); mdm_enable_irqs(mdm); mdm->init = 1; mdm_do_first_power_on(mdm); break; case ESOC_PWR_OFF: mdm_disable_irqs(mdm); mdm->debug = 0; mdm->ready = false; mdm->trig_cnt = 0; graceful_shutdown = true; ret = sysmon_send_shutdown(&esoc->subsys); if (ret) { dev_err(mdm->dev, "sysmon shutdown fail, ret = %d\n", ret); graceful_shutdown = false; goto force_poff; } dev_dbg(mdm->dev, "Waiting for status gpio go low\n"); status_down = false; end_time = jiffies + msecs_to_jiffies(10000); while (time_before(jiffies, end_time)) { if (gpio_get_value(MDM_GPIO(mdm, MDM2AP_STATUS)) == 0) { dev_dbg(dev, "Status went low\n"); status_down = true; break; } msleep(100); } if (status_down) dev_dbg(dev, "shutdown successful\n"); else dev_err(mdm->dev, "graceful poff ipc fail\n"); force_poff: case ESOC_FORCE_PWR_OFF: if (!graceful_shutdown) { mdm_disable_irqs(mdm); mdm->debug = 0; mdm->ready = false; mdm->trig_cnt = 0; dev_err(mdm->dev, "Graceful shutdown fail, ret = %d\n", esoc->subsys.sysmon_shutdown_ret); } /* * Force a shutdown of the mdm. This is required in order * to prevent the mdm from immediately powering back on * after the shutdown */ gpio_set_value(MDM_GPIO(mdm, AP2MDM_STATUS), 0); esoc_clink_queue_request(ESOC_REQ_SHUTDOWN, esoc); mdm_power_down(mdm); mdm_update_gpio_configs(mdm, GPIO_UPDATE_BOOTING_CONFIG); break; case ESOC_RESET: mdm_toggle_soft_reset(mdm, false); break; case ESOC_PREPARE_DEBUG: /* * disable all irqs except request irq (pblrdy) * force a reset of the mdm by signaling * an APQ crash, wait till mdm is ready for ramdumps. */ mdm->ready = false; cancel_delayed_work(&mdm->mdm2ap_status_check_work); gpio_set_value(MDM_GPIO(mdm, AP2MDM_ERRFATAL), 1); dev_dbg(mdm->dev, "set ap2mdm errfatal to force reset\n"); msleep(mdm->ramdump_delay_ms); break; case ESOC_EXE_DEBUG: mdm->debug = 1; mdm->trig_cnt = 0; mdm_toggle_soft_reset(mdm, false); /* * wait for ramdumps to be collected * then power down the mdm and switch gpios to booting * config */ wait_for_completion(&mdm->debug_done); if (mdm->debug_fail) { dev_err(mdm->dev, "unable to collect ramdumps\n"); mdm->debug = 0; return -EIO; } dev_dbg(mdm->dev, "ramdump collection done\n"); mdm->debug = 0; init_completion(&mdm->debug_done); break; case ESOC_EXIT_DEBUG: /* * Deassert APQ to mdm err fatal * Power on the mdm */ gpio_set_value(MDM_GPIO(mdm, AP2MDM_ERRFATAL), 0); dev_dbg(mdm->dev, "exiting debug state after power on\n"); mdm->get_restart_reason = true; break; default: return -EINVAL; }; return 0; } static void mdm2ap_status_check(struct work_struct *work) { struct mdm_ctrl *mdm = container_of(work, struct mdm_ctrl, mdm2ap_status_check_work.work); struct device *dev = mdm->dev; struct esoc_clink *esoc = mdm->esoc; if (gpio_get_value(MDM_GPIO(mdm, MDM2AP_STATUS)) == 0) { dev_dbg(dev, "MDM2AP_STATUS did not go high\n"); esoc_clink_evt_notify(ESOC_UNEXPECTED_RESET, esoc); } } static void mdm_status_fn(struct work_struct *work) { struct mdm_ctrl *mdm = container_of(work, struct mdm_ctrl, mdm_status_work); struct device *dev = mdm->dev; int value = gpio_get_value(MDM_GPIO(mdm, MDM2AP_STATUS)); dev_dbg(dev, "%s: status:%d\n", __func__, value); /* Update gpio configuration to "running" config. */ mdm_update_gpio_configs(mdm, GPIO_UPDATE_RUNNING_CONFIG); } static void mdm_get_restart_reason(struct work_struct *work) { int ret, ntries = 0; char sfr_buf[RD_BUF_SIZE]; struct mdm_ctrl *mdm = container_of(work, struct mdm_ctrl, restart_reason_work); struct device *dev = mdm->dev; do { ret = sysmon_get_reason(&mdm->esoc->subsys, sfr_buf, sizeof(sfr_buf)); if (!ret) { dev_err(dev, "mdm restart reason is %s\n", sfr_buf); break; } msleep(SFR_RETRY_INTERVAL); } while (++ntries < SFR_MAX_RETRIES); if (ntries == SFR_MAX_RETRIES) dev_dbg(dev, "%s: Error retrieving restart reason: %d\n", __func__, ret); mdm->get_restart_reason = false; } static void mdm_notify(enum esoc_notify notify, struct esoc_clink *esoc) { bool status_down; uint64_t timeout; uint64_t now; struct mdm_ctrl *mdm = get_esoc_clink_data(esoc); struct device *dev = mdm->dev; switch (notify) { case ESOC_IMG_XFER_DONE: if (gpio_get_value(MDM_GPIO(mdm, MDM2AP_STATUS)) == 0) schedule_delayed_work(&mdm->mdm2ap_status_check_work, msecs_to_jiffies(MDM2AP_STATUS_TIMEOUT_MS)); break; case ESOC_BOOT_DONE: esoc_clink_evt_notify(ESOC_RUN_STATE, esoc); break; case ESOC_IMG_XFER_RETRY: mdm->init = 1; mdm_toggle_soft_reset(mdm, false); break; case ESOC_IMG_XFER_FAIL: esoc_clink_evt_notify(ESOC_INVALID_STATE, esoc); break; case ESOC_BOOT_FAIL: esoc_clink_evt_notify(ESOC_INVALID_STATE, esoc); break; case ESOC_UPGRADE_AVAILABLE: break; case ESOC_DEBUG_DONE: mdm->debug_fail = false; mdm_update_gpio_configs(mdm, GPIO_UPDATE_BOOTING_CONFIG); complete(&mdm->debug_done); break; case ESOC_DEBUG_FAIL: mdm->debug_fail = true; complete(&mdm->debug_done); break; case ESOC_PRIMARY_CRASH: mdm_disable_irqs(mdm); status_down = false; dev_dbg(dev, "signal apq err fatal for graceful restart\n"); gpio_set_value(MDM_GPIO(mdm, AP2MDM_ERRFATAL), 1); timeout = local_clock(); do_div(timeout, NSEC_PER_MSEC); timeout += MDM_MODEM_TIMEOUT; do { if (gpio_get_value(MDM_GPIO(mdm, MDM2AP_STATUS)) == 0) { status_down = true; break; } now = local_clock(); do_div(now, NSEC_PER_MSEC); } while (!time_after64(now, timeout)); if (!status_down) { dev_err(mdm->dev, "%s MDM2AP status did not go low\n", __func__); mdm_toggle_soft_reset(mdm, true); } break; case ESOC_PRIMARY_REBOOT: mdm_disable_irqs(mdm); mdm->debug = 0; mdm->ready = false; mdm_cold_reset(mdm); break; }; return; } static irqreturn_t mdm_errfatal(int irq, void *dev_id) { struct mdm_ctrl *mdm = (struct mdm_ctrl *)dev_id; struct esoc_clink *esoc; struct device *dev; if (!mdm) goto no_mdm_irq; dev = mdm->dev; if (!mdm->ready) goto mdm_pwroff_irq; esoc = mdm->esoc; dev_err(dev, "%s: mdm sent errfatal interrupt\n", __func__); /* disable irq ?*/ esoc_clink_evt_notify(ESOC_ERR_FATAL, esoc); return IRQ_HANDLED; mdm_pwroff_irq: dev_info(dev, "errfatal irq when in pwroff\n"); no_mdm_irq: return IRQ_HANDLED; } static irqreturn_t mdm_status_change(int irq, void *dev_id) { int value; struct esoc_clink *esoc; struct mdm_ctrl *mdm = (struct mdm_ctrl *)dev_id; struct device *dev = mdm->dev; if (!mdm) return IRQ_HANDLED; esoc = mdm->esoc; value = gpio_get_value(MDM_GPIO(mdm, MDM2AP_STATUS)); if (value == 0 && mdm->ready) { dev_err(dev, "unexpected reset external modem\n"); esoc_clink_evt_notify(ESOC_UNEXPECTED_RESET, esoc); } else if (value == 1) { cancel_delayed_work(&mdm->mdm2ap_status_check_work); dev_dbg(dev, "status = 1: mdm is now ready\n"); mdm->ready = true; mdm_trigger_dbg(mdm); queue_work(mdm->mdm_queue, &mdm->mdm_status_work); if (mdm->get_restart_reason) queue_work(mdm->mdm_queue, &mdm->restart_reason_work); } return IRQ_HANDLED; } static irqreturn_t mdm_pblrdy_change(int irq, void *dev_id) { struct mdm_ctrl *mdm; struct device *dev; struct esoc_clink *esoc; mdm = (struct mdm_ctrl *)dev_id; if (!mdm) return IRQ_HANDLED; esoc = mdm->esoc; dev = mdm->dev; dev_dbg(dev, "pbl ready %d:\n", gpio_get_value(MDM_GPIO(mdm, MDM2AP_PBLRDY))); if (mdm->init) { mdm->init = 0; mdm_trigger_dbg(mdm); esoc_clink_queue_request(ESOC_REQ_IMG, esoc); return IRQ_HANDLED; } if (mdm->debug) esoc_clink_queue_request(ESOC_REQ_DEBUG, esoc); return IRQ_HANDLED; } static int mdm_get_status(u32 *status, struct esoc_clink *esoc) { struct mdm_ctrl *mdm = get_esoc_clink_data(esoc); if (gpio_get_value(MDM_GPIO(mdm, MDM2AP_STATUS)) == 0) *status = 0; else *status = 1; return 0; } static void mdm_configure_debug(struct mdm_ctrl *mdm) { void __iomem *addr; unsigned val; int ret; struct device_node *node = mdm->dev->of_node; addr = of_iomap(node, 0); if (IS_ERR(addr)) { dev_err(mdm->dev, "failed to get debug base addres\n"); return; } mdm->dbg_addr = addr + MDM_DBG_OFFSET; val = readl_relaxed(mdm->dbg_addr); if (val == MDM_DBG_MODE) { mdm->dbg_mode = true; mdm->cti = coresight_cti_get(MDM_CTI_NAME); if (IS_ERR(mdm->cti)) { dev_err(mdm->dev, "unable to get cti handle\n"); goto cti_get_err; } ret = coresight_cti_map_trigout(mdm->cti, MDM_CTI_TRIG, MDM_CTI_CH); if (ret) { dev_err(mdm->dev, "unable to map trig to channel\n"); goto cti_map_err; } mdm->trig_cnt = 0; } else { dev_dbg(mdm->dev, "Not in debug mode. debug mode = %u\n", val); mdm->dbg_mode = false; } return; cti_map_err: coresight_cti_put(mdm->cti); cti_get_err: mdm->dbg_mode = false; return; } /* Fail if any of the required gpios is absent. */ static int mdm_dt_parse_gpios(struct mdm_ctrl *mdm) { int i, val, rc = 0; struct device_node *node = mdm->dev->of_node; for (i = 0; i < NUM_GPIOS; i++) mdm->gpios[i] = INVALID_GPIO; for (i = 0; i < ARRAY_SIZE(gpio_map); i++) { val = of_get_named_gpio(node, gpio_map[i].name, 0); if (val >= 0) MDM_GPIO(mdm, gpio_map[i].index) = val; } /* These two are special because they can be inverted. */ /* Verify that the required gpios have valid values */ for (i = 0; i < ARRAY_SIZE(required_gpios); i++) { if (MDM_GPIO(mdm, required_gpios[i]) == INVALID_GPIO) { rc = -ENXIO; break; } } mdm_debug_gpio_show(mdm); return rc; } static int mdm_configure_ipc(struct mdm_ctrl *mdm, struct platform_device *pdev) { int ret = -1; int irq; struct device *dev = mdm->dev; struct device_node *node = pdev->dev.of_node; ret = of_property_read_u32(node, "qcom,ramdump-timeout-ms", &mdm->dump_timeout_ms); if (ret) mdm->dump_timeout_ms = DEF_RAMDUMP_TIMEOUT; ret = of_property_read_u32(node, "qcom,ramdump-delay-ms", &mdm->ramdump_delay_ms); if (ret) mdm->ramdump_delay_ms = DEF_RAMDUMP_DELAY; /* Multilple gpio_request calls are allowed */ if (gpio_request(MDM_GPIO(mdm, AP2MDM_STATUS), "AP2MDM_STATUS")) dev_err(dev, "Failed to configure AP2MDM_STATUS gpio\n"); /* Multilple gpio_request calls are allowed */ if (gpio_request(MDM_GPIO(mdm, AP2MDM_ERRFATAL), "AP2MDM_ERRFATAL")) dev_err(dev, "%s Failed to configure AP2MDM_ERRFATAL gpio\n", __func__); if (gpio_request(MDM_GPIO(mdm, MDM2AP_STATUS), "MDM2AP_STATUS")) { dev_err(dev, "%s Failed to configure MDM2AP_STATUS gpio\n", __func__); goto fatal_err; } if (gpio_request(MDM_GPIO(mdm, MDM2AP_ERRFATAL), "MDM2AP_ERRFATAL")) { dev_err(dev, "%s Failed to configure MDM2AP_ERRFATAL gpio\n", __func__); goto fatal_err; } if (gpio_is_valid(MDM_GPIO(mdm, MDM2AP_PBLRDY))) { if (gpio_request(MDM_GPIO(mdm, MDM2AP_PBLRDY), "MDM2AP_PBLRDY")) { dev_err(dev, "Cannot configure MDM2AP_PBLRDY gpio\n"); goto fatal_err; } } if (gpio_is_valid(MDM_GPIO(mdm, AP2MDM_WAKEUP))) { if (gpio_request(MDM_GPIO(mdm, AP2MDM_WAKEUP), "AP2MDM_WAKEUP")) { dev_err(dev, "Cannot configure AP2MDM_WAKEUP gpio\n"); goto fatal_err; } } if (gpio_is_valid(MDM_GPIO(mdm, AP2MDM_CHNLRDY))) { if (gpio_request(MDM_GPIO(mdm, AP2MDM_CHNLRDY), "AP2MDM_CHNLRDY")) { dev_err(dev, "Cannot configure AP2MDM_CHNLRDY gpio\n"); goto fatal_err; } } gpio_direction_output(MDM_GPIO(mdm, AP2MDM_STATUS), 0); gpio_direction_output(MDM_GPIO(mdm, AP2MDM_ERRFATAL), 0); if (gpio_is_valid(MDM_GPIO(mdm, AP2MDM_CHNLRDY))) gpio_direction_output(MDM_GPIO(mdm, AP2MDM_CHNLRDY), 0); gpio_direction_input(MDM_GPIO(mdm, MDM2AP_STATUS)); gpio_direction_input(MDM_GPIO(mdm, MDM2AP_ERRFATAL)); /* ERR_FATAL irq. */ irq = platform_get_irq_byname(pdev, "err_fatal_irq"); if (irq < 0) { dev_err(dev, "bad MDM2AP_ERRFATAL IRQ resource\n"); goto errfatal_err; } ret = request_irq(irq, mdm_errfatal, IRQF_TRIGGER_RISING , "mdm errfatal", mdm); if (ret < 0) { dev_err(dev, "%s: MDM2AP_ERRFATAL IRQ#%d request failed,\n", __func__, irq); goto errfatal_err; } mdm->errfatal_irq = irq; errfatal_err: /* status irq */ irq = platform_get_irq_byname(pdev, "status_irq"); if (irq < 0) { dev_err(dev, "%s: bad MDM2AP_STATUS IRQ resource, err = %d\n", __func__, irq); goto status_err; } ret = request_threaded_irq(irq, NULL, mdm_status_change, IRQF_TRIGGER_RISING | IRQF_TRIGGER_FALLING | IRQF_ONESHOT, "mdm status", mdm); if (ret < 0) { dev_err(dev, "%s: MDM2AP_STATUS IRQ#%d request failed, err=%d", __func__, irq, ret); goto status_err; } mdm->status_irq = irq; status_err: if (gpio_is_valid(MDM_GPIO(mdm, MDM2AP_PBLRDY))) { irq = platform_get_irq_byname(pdev, "plbrdy_irq"); if (irq < 0) { dev_err(dev, "%s: MDM2AP_PBLRDY IRQ request failed\n", __func__); goto pblrdy_err; } ret = request_threaded_irq(irq, NULL, mdm_pblrdy_change, IRQF_TRIGGER_RISING | IRQF_ONESHOT, "mdm pbl ready", mdm); if (ret < 0) { dev_err(dev, "MDM2AP_PBL IRQ#%d request failed %d\n", irq, ret); goto pblrdy_err; } mdm->pblrdy_irq = irq; } mdm_disable_irqs(mdm); pblrdy_err: return 0; fatal_err: mdm_deconfigure_ipc(mdm); return ret; } static int mdm_pinctrl_init(struct mdm_ctrl *mdm) { int retval = 0; mdm->pinctrl = devm_pinctrl_get(mdm->dev); if (IS_ERR_OR_NULL(mdm->pinctrl)) { retval = PTR_ERR(mdm->pinctrl); goto err_state_suspend; } mdm->gpio_state_booting = pinctrl_lookup_state(mdm->pinctrl, "mdm_booting"); if (IS_ERR_OR_NULL(mdm->gpio_state_booting)) { mdm->gpio_state_running = NULL; mdm->gpio_state_booting = NULL; } else { mdm->gpio_state_running = pinctrl_lookup_state(mdm->pinctrl, "mdm_running"); if (IS_ERR_OR_NULL(mdm->gpio_state_running)) { mdm->gpio_state_booting = NULL; mdm->gpio_state_running = NULL; } } mdm->gpio_state_active = pinctrl_lookup_state(mdm->pinctrl, "mdm_active"); if (IS_ERR_OR_NULL(mdm->gpio_state_active)) { retval = PTR_ERR(mdm->gpio_state_active); goto err_state_active; } mdm->gpio_state_suspend = pinctrl_lookup_state(mdm->pinctrl, "mdm_suspend"); if (IS_ERR_OR_NULL(mdm->gpio_state_suspend)) { retval = PTR_ERR(mdm->gpio_state_suspend); goto err_state_suspend; } retval = pinctrl_select_state(mdm->pinctrl, mdm->gpio_state_active); return retval; err_state_suspend: mdm->gpio_state_active = NULL; err_state_active: mdm->gpio_state_suspend = NULL; mdm->gpio_state_booting = NULL; mdm->gpio_state_running = NULL; return retval; } static int mdm9x25_setup_hw(struct mdm_ctrl *mdm, const struct mdm_ops *ops, struct platform_device *pdev) { int ret; struct esoc_clink *esoc; const struct esoc_clink_ops *const clink_ops = ops->clink_ops; const struct mdm_pon_ops *pon_ops = ops->pon_ops; mdm->dev = &pdev->dev; mdm->pon_ops = pon_ops; esoc = devm_kzalloc(mdm->dev, sizeof(*esoc), GFP_KERNEL); if (IS_ERR(esoc)) { dev_err(mdm->dev, "cannot allocate esoc device\n"); return PTR_ERR(esoc); } mdm->mdm_queue = alloc_workqueue("mdm_queue", 0, 0); if (!mdm->mdm_queue) { dev_err(mdm->dev, "could not create mdm_queue\n"); return -ENOMEM; } mdm->irq_mask = 0; mdm->ready = false; ret = mdm_dt_parse_gpios(mdm); if (ret) return ret; dev_err(mdm->dev, "parsing gpio done\n"); ret = mdm_pon_dt_init(mdm); if (ret) return ret; dev_dbg(mdm->dev, "pon dt init done\n"); ret = mdm_pinctrl_init(mdm); if (ret) return ret; dev_err(mdm->dev, "pinctrl init done\n"); ret = mdm_pon_setup(mdm); if (ret) return ret; dev_dbg(mdm->dev, "pon setup done\n"); ret = mdm_configure_ipc(mdm, pdev); if (ret) return ret; mdm_configure_debug(mdm); dev_err(mdm->dev, "ipc configure done\n"); esoc->name = MDM9x25_LABEL; esoc->link_name = MDM9x25_HSIC; esoc->clink_ops = clink_ops; esoc->parent = mdm->dev; esoc->owner = THIS_MODULE; esoc->np = pdev->dev.of_node; set_esoc_clink_data(esoc, mdm); ret = esoc_clink_register(esoc); if (ret) { dev_err(mdm->dev, "esoc registration failed\n"); return ret; } dev_dbg(mdm->dev, "esoc registration done\n"); init_completion(&mdm->debug_done); INIT_WORK(&mdm->mdm_status_work, mdm_status_fn); INIT_WORK(&mdm->restart_reason_work, mdm_get_restart_reason); INIT_DELAYED_WORK(&mdm->mdm2ap_status_check_work, mdm2ap_status_check); mdm->get_restart_reason = false; mdm->debug_fail = false; mdm->esoc = esoc; mdm->init = 0; return 0; } static int mdm9x35_setup_hw(struct mdm_ctrl *mdm, const struct mdm_ops *ops, struct platform_device *pdev) { int ret; struct device_node *node; struct esoc_clink *esoc; const struct esoc_clink_ops *const clink_ops = ops->clink_ops; const struct mdm_pon_ops *pon_ops = ops->pon_ops; mdm->dev = &pdev->dev; mdm->pon_ops = pon_ops; node = pdev->dev.of_node; esoc = devm_kzalloc(mdm->dev, sizeof(*esoc), GFP_KERNEL); if (IS_ERR(esoc)) { dev_err(mdm->dev, "cannot allocate esoc device\n"); return PTR_ERR(esoc); } mdm->mdm_queue = alloc_workqueue("mdm_queue", 0, 0); if (!mdm->mdm_queue) { dev_err(mdm->dev, "could not create mdm_queue\n"); return -ENOMEM; } mdm->irq_mask = 0; mdm->ready = false; ret = mdm_dt_parse_gpios(mdm); if (ret) return ret; dev_dbg(mdm->dev, "parsing gpio done\n"); ret = mdm_pon_dt_init(mdm); if (ret) return ret; dev_dbg(mdm->dev, "pon dt init done\n"); ret = mdm_pinctrl_init(mdm); if (ret) return ret; dev_dbg(mdm->dev, "pinctrl init done\n"); ret = mdm_pon_setup(mdm); if (ret) return ret; dev_dbg(mdm->dev, "pon setup done\n"); ret = mdm_configure_ipc(mdm, pdev); if (ret) return ret; mdm_configure_debug(mdm); dev_dbg(mdm->dev, "ipc configure done\n"); esoc->name = MDM9x35_LABEL; mdm->dual_interface = of_property_read_bool(node, "qcom,mdm-dual-link"); /* Check if link gpio is available */ if (gpio_is_valid(MDM_GPIO(mdm, MDM_LINK_DETECT))) { if (mdm->dual_interface) { if (gpio_get_value(MDM_GPIO(mdm, MDM_LINK_DETECT))) esoc->link_name = MDM9x35_DUAL_LINK; else esoc->link_name = MDM9x35_PCIE; } else { if (gpio_get_value(MDM_GPIO(mdm, MDM_LINK_DETECT))) esoc->link_name = MDM9x35_HSIC; else esoc->link_name = MDM9x35_PCIE; } } else if (mdm->dual_interface) esoc->link_name = MDM9x35_DUAL_LINK; else esoc->link_name = MDM9x35_HSIC; esoc->clink_ops = clink_ops; esoc->parent = mdm->dev; esoc->owner = THIS_MODULE; esoc->np = pdev->dev.of_node; set_esoc_clink_data(esoc, mdm); ret = esoc_clink_register(esoc); if (ret) { dev_err(mdm->dev, "esoc registration failed\n"); return ret; } dev_dbg(mdm->dev, "esoc registration done\n"); init_completion(&mdm->debug_done); INIT_WORK(&mdm->mdm_status_work, mdm_status_fn); INIT_WORK(&mdm->restart_reason_work, mdm_get_restart_reason); INIT_DELAYED_WORK(&mdm->mdm2ap_status_check_work, mdm2ap_status_check); mdm->get_restart_reason = false; mdm->debug_fail = false; mdm->esoc = esoc; mdm->init = 0; return 0; } static struct esoc_clink_ops mdm_cops = { .cmd_exe = mdm_cmd_exe, .get_status = mdm_get_status, .notify = mdm_notify, }; static struct mdm_ops mdm9x25_ops = { .clink_ops = &mdm_cops, .config_hw = mdm9x25_setup_hw, .pon_ops = &mdm9x25_pon_ops, }; static struct mdm_ops mdm9x35_ops = { .clink_ops = &mdm_cops, .config_hw = mdm9x35_setup_hw, .pon_ops = &mdm9x35_pon_ops, }; static const struct of_device_id mdm_dt_match[] = { { .compatible = "qcom,ext-mdm9x25", .data = &mdm9x25_ops, }, { .compatible = "qcom,ext-mdm9x35", .data = &mdm9x35_ops, }, {}, }; MODULE_DEVICE_TABLE(of, mdm_dt_match); static int mdm_probe(struct platform_device *pdev) { const struct of_device_id *match; const struct mdm_ops *mdm_ops; struct device_node *node = pdev->dev.of_node; struct mdm_ctrl *mdm; match = of_match_node(mdm_dt_match, node); if (IS_ERR(match)) return PTR_ERR(match); mdm_ops = match->data; mdm = devm_kzalloc(&pdev->dev, sizeof(*mdm), GFP_KERNEL); if (IS_ERR(mdm)) return PTR_ERR(mdm); return mdm_ops->config_hw(mdm, mdm_ops, pdev); } static struct platform_driver mdm_driver = { .probe = mdm_probe, .driver = { .name = "ext-mdm", .owner = THIS_MODULE, .of_match_table = of_match_ptr(mdm_dt_match), }, }; static int __init mdm_register(void) { return platform_driver_register(&mdm_driver); } module_init(mdm_register); static void __exit mdm_unregister(void) { platform_driver_unregister(&mdm_driver); } module_exit(mdm_unregister); MODULE_LICENSE("GPL v2");