/* SPDX-License-Identifier: GPL-2.0-only */ /* Copyright (c) 2016-2021, The Linux Foundation. All rights reserved. */ #ifndef _CNSS_PCI_H #define _CNSS_PCI_H #include #include #if IS_ENABLED(CONFIG_MHI_BUS_MISC) #include #endif #if IS_ENABLED(CONFIG_PCI_MSM) #include #endif #include #include "main.h" enum cnss_mhi_state { CNSS_MHI_INIT, CNSS_MHI_DEINIT, CNSS_MHI_POWER_ON, CNSS_MHI_POWERING_OFF, CNSS_MHI_POWER_OFF, CNSS_MHI_FORCE_POWER_OFF, CNSS_MHI_SUSPEND, CNSS_MHI_RESUME, CNSS_MHI_TRIGGER_RDDM, CNSS_MHI_RDDM, CNSS_MHI_RDDM_DONE, }; enum pci_link_status { PCI_GEN1, PCI_GEN2, PCI_DEF, }; enum cnss_rtpm_id { RTPM_ID_CNSS, RTPM_ID_MHI, RTPM_ID_MAX, }; enum cnss_pci_reg_dev_mask { REG_MASK_QCA6390, REG_MASK_QCA6490, REG_MASK_WCN7850, }; struct cnss_msi_user { char *name; int num_vectors; u32 base_vector; }; struct cnss_msi_config { int total_vectors; int total_users; struct cnss_msi_user *users; }; struct cnss_pci_reg { char *name; u32 offset; }; struct cnss_pci_debug_reg { u32 offset; u32 val; }; struct cnss_misc_reg { unsigned long dev_mask; u8 wr; u32 offset; u32 val; }; struct cnss_pm_stats { atomic_t runtime_get; atomic_t runtime_put; atomic_t runtime_get_id[RTPM_ID_MAX]; atomic_t runtime_put_id[RTPM_ID_MAX]; u64 runtime_get_timestamp_id[RTPM_ID_MAX]; u64 runtime_put_timestamp_id[RTPM_ID_MAX]; }; struct cnss_pci_data { struct pci_dev *pci_dev; struct cnss_plat_data *plat_priv; const struct pci_device_id *pci_device_id; u32 device_id; u16 revision_id; u64 dma_bit_mask; struct cnss_wlan_driver *driver_ops; u8 pci_link_state; u8 pci_link_down_ind; struct pci_saved_state *saved_state; struct pci_saved_state *default_state; #if IS_ENABLED(CONFIG_PCI_MSM) struct msm_pcie_register_event msm_pci_event; #endif #if defined(CONFIG_SOC_S5E9925) struct exynos_pcie_register_event exynos_pci_event; #endif struct cnss_pm_stats pm_stats; atomic_t auto_suspended; atomic_t drv_connected; u8 drv_connected_last; u32 qmi_send_usage_count; u16 def_link_speed; u16 def_link_width; u16 cur_link_speed; int wake_gpio; int wake_irq; u32 wake_counter; u8 monitor_wake_intr; struct iommu_domain *iommu_domain; u8 smmu_s1_enable; dma_addr_t smmu_iova_start; size_t smmu_iova_len; dma_addr_t smmu_iova_ipa_start; dma_addr_t smmu_iova_ipa_current; size_t smmu_iova_ipa_len; void __iomem *bar; struct cnss_msi_config *msi_config; u32 msi_ep_base_data; struct mhi_controller *mhi_ctrl; unsigned long mhi_state; u32 remap_window; struct timer_list dev_rddm_timer; struct timer_list boot_debug_timer; struct delayed_work time_sync_work; u8 disable_pc; struct mutex bus_lock; /* mutex for suspend and resume bus */ struct cnss_pci_debug_reg *debug_reg; struct cnss_misc_reg *wcss_reg; struct cnss_misc_reg *pcie_reg; struct cnss_misc_reg *wlaon_reg; struct cnss_misc_reg *syspm_reg; unsigned long misc_reg_dev_mask; u8 iommu_geometry; bool drv_supported; }; static inline void cnss_set_pci_priv(struct pci_dev *pci_dev, void *data) { pci_set_drvdata(pci_dev, data); } static inline struct cnss_pci_data *cnss_get_pci_priv(struct pci_dev *pci_dev) { return pci_get_drvdata(pci_dev); } static inline struct cnss_plat_data *cnss_pci_priv_to_plat_priv(void *bus_priv) { struct cnss_pci_data *pci_priv = bus_priv; return pci_priv->plat_priv; } static inline void cnss_pci_set_monitor_wake_intr(void *bus_priv, bool val) { struct cnss_pci_data *pci_priv = bus_priv; pci_priv->monitor_wake_intr = val; } static inline bool cnss_pci_get_monitor_wake_intr(void *bus_priv) { struct cnss_pci_data *pci_priv = bus_priv; return pci_priv->monitor_wake_intr; } static inline void cnss_pci_set_auto_suspended(void *bus_priv, int val) { struct cnss_pci_data *pci_priv = bus_priv; atomic_set(&pci_priv->auto_suspended, val); } static inline int cnss_pci_get_auto_suspended(void *bus_priv) { struct cnss_pci_data *pci_priv = bus_priv; return atomic_read(&pci_priv->auto_suspended); } static inline void cnss_pci_set_drv_connected(void *bus_priv, int val) { struct cnss_pci_data *pci_priv = bus_priv; atomic_set(&pci_priv->drv_connected, val); } static inline int cnss_pci_get_drv_connected(void *bus_priv) { struct cnss_pci_data *pci_priv = bus_priv; return atomic_read(&pci_priv->drv_connected); } int cnss_pci_check_link_status(struct cnss_pci_data *pci_priv); int cnss_suspend_pci_link(struct cnss_pci_data *pci_priv); int cnss_resume_pci_link(struct cnss_pci_data *pci_priv); int cnss_pci_recover_link_down(struct cnss_pci_data *pci_priv); int cnss_pci_init(struct cnss_plat_data *plat_priv); void cnss_pci_deinit(struct cnss_plat_data *plat_priv); void cnss_pci_add_fw_prefix_name(struct cnss_pci_data *pci_priv, char *prefix_name, char *name); int cnss_pci_alloc_fw_mem(struct cnss_pci_data *pci_priv); int cnss_pci_alloc_qdss_mem(struct cnss_pci_data *pci_priv); void cnss_pci_free_qdss_mem(struct cnss_pci_data *pci_priv); int cnss_pci_load_m3(struct cnss_pci_data *pci_priv); int cnss_pci_start_mhi(struct cnss_pci_data *pci_priv); void cnss_pci_collect_dump_info(struct cnss_pci_data *pci_priv, bool in_panic); void cnss_pci_device_crashed(struct cnss_pci_data *pci_priv); void cnss_pci_clear_dump_info(struct cnss_pci_data *pci_priv); u32 cnss_pci_get_wake_msi(struct cnss_pci_data *pci_priv); int cnss_pci_force_fw_assert_hdlr(struct cnss_pci_data *pci_priv); int cnss_pci_qmi_send_get(struct cnss_pci_data *pci_priv); int cnss_pci_qmi_send_put(struct cnss_pci_data *pci_priv); void cnss_pci_fw_boot_timeout_hdlr(struct cnss_pci_data *pci_priv); int cnss_pci_call_driver_probe(struct cnss_pci_data *pci_priv); int cnss_pci_call_driver_remove(struct cnss_pci_data *pci_priv); int cnss_pci_dev_powerup(struct cnss_pci_data *pci_priv); int cnss_pci_dev_shutdown(struct cnss_pci_data *pci_priv); int cnss_pci_dev_crash_shutdown(struct cnss_pci_data *pci_priv); int cnss_pci_dev_ramdump(struct cnss_pci_data *pci_priv); int cnss_pci_register_driver_hdlr(struct cnss_pci_data *pci_priv, void *data); int cnss_pci_unregister_driver_hdlr(struct cnss_pci_data *pci_priv); int cnss_pci_call_driver_modem_status(struct cnss_pci_data *pci_priv, int modem_current_status); void cnss_pci_pm_runtime_show_usage_count(struct cnss_pci_data *pci_priv); int cnss_pci_pm_request_resume(struct cnss_pci_data *pci_priv); int cnss_pci_pm_runtime_resume(struct cnss_pci_data *pci_priv); int cnss_pci_pm_runtime_get(struct cnss_pci_data *pci_priv, enum cnss_rtpm_id id); int cnss_pci_pm_runtime_get_sync(struct cnss_pci_data *pci_priv, enum cnss_rtpm_id id); void cnss_pci_pm_runtime_get_noresume(struct cnss_pci_data *pci_priv, enum cnss_rtpm_id id); int cnss_pci_pm_runtime_put_autosuspend(struct cnss_pci_data *pci_priv, enum cnss_rtpm_id id); void cnss_pci_pm_runtime_put_noidle(struct cnss_pci_data *pci_priv, enum cnss_rtpm_id id); void cnss_pci_pm_runtime_mark_last_busy(struct cnss_pci_data *pci_priv); int cnss_pci_update_status(struct cnss_pci_data *pci_priv, enum cnss_driver_status status); int cnss_pci_call_driver_uevent(struct cnss_pci_data *pci_priv, enum cnss_driver_status status, void *data); int cnss_pcie_is_device_down(struct cnss_pci_data *pci_priv); int cnss_pci_suspend_bus(struct cnss_pci_data *pci_priv); int cnss_pci_resume_bus(struct cnss_pci_data *pci_priv); int cnss_pci_debug_reg_read(struct cnss_pci_data *pci_priv, u32 offset, u32 *val, bool raw_access); int cnss_pci_debug_reg_write(struct cnss_pci_data *pci_priv, u32 offset, u32 val, bool raw_access); int cnss_pci_get_iova(struct cnss_pci_data *pci_priv, u64 *addr, u64 *size); int cnss_pci_get_iova_ipa(struct cnss_pci_data *pci_priv, u64 *addr, u64 *size); void cnss_pci_force_save_dump(struct cnss_pci_data *pci_priv); #endif /* _CNSS_PCI_H */