/* Copyright (c) 2015-2020, 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. */ #ifndef __MSM_MHI_DEV_H #define __MSM_MHI_DEV_H #include #include #define DMA_SYNC 1 #define DMA_ASYNC 0 enum cb_reason { MHI_DEV_TRE_AVAILABLE = 0, MHI_DEV_CTRL_UPDATE, }; struct mhi_dev_client_cb_reason { uint32_t ch_id; enum cb_reason reason; }; struct mhi_dev_client { struct list_head list; struct mhi_dev_channel *channel; void (*event_trigger)(struct mhi_dev_client_cb_reason *cb); /* mhi_dev calls are fully synchronous -- only one call may be * active per client at a time for now. */ struct mutex write_lock; wait_queue_head_t wait; /* trace logs */ spinlock_t tr_lock; unsigned int tr_head; unsigned int tr_tail; struct mhi_dev_trace *tr_log; /* client buffers */ struct mhi_dev_iov *iov; uint32_t nr_iov; }; enum mhi_ctrl_info { MHI_STATE_CONFIGURED = 0, MHI_STATE_CONNECTED = 1, MHI_STATE_DISCONNECTED = 2, MHI_STATE_INVAL, }; struct mhi_req { u32 chan; u32 mode; u32 chain; void *buf; dma_addr_t dma; u32 snd_cmpl; void *context; size_t len; size_t transfer_len; uint32_t rd_offset; struct mhi_dev_client *client; struct list_head list; union mhi_dev_ring_element_type *el; void (*client_cb)(void *req); }; /* SW channel client list */ enum mhi_client_channel { MHI_CLIENT_LOOPBACK_OUT = 0, MHI_CLIENT_LOOPBACK_IN = 1, MHI_CLIENT_SAHARA_OUT = 2, MHI_CLIENT_SAHARA_IN = 3, MHI_CLIENT_DIAG_OUT = 4, MHI_CLIENT_DIAG_IN = 5, MHI_CLIENT_SSR_OUT = 6, MHI_CLIENT_SSR_IN = 7, MHI_CLIENT_QDSS_OUT = 8, MHI_CLIENT_QDSS_IN = 9, MHI_CLIENT_EFS_OUT = 10, MHI_CLIENT_EFS_IN = 11, MHI_CLIENT_MBIM_OUT = 12, MHI_CLIENT_MBIM_IN = 13, MHI_CLIENT_QMI_OUT = 14, MHI_CLIENT_QMI_IN = 15, MHI_CLIENT_IP_CTRL_0_OUT = 16, MHI_CLIENT_IP_CTRL_0_IN = 17, MHI_CLIENT_IP_CTRL_1_OUT = 18, MHI_CLIENT_IP_CTRL_1_IN = 19, MHI_CLIENT_IPCR_OUT = 20, MHI_CLIENT_IPCR_IN = 21, MHI_CLIENT_IP_CTRL_3_OUT = 22, MHI_CLIENT_IP_CTRL_3_IN = 23, MHI_CLIENT_IP_CTRL_4_OUT = 24, MHI_CLIENT_IP_CTRL_4_IN = 25, MHI_CLIENT_IP_CTRL_5_OUT = 26, MHI_CLIENT_IP_CTRL_5_IN = 27, MHI_CLIENT_IP_CTRL_6_OUT = 28, MHI_CLIENT_IP_CTRL_6_IN = 29, MHI_CLIENT_IP_CTRL_7_OUT = 30, MHI_CLIENT_IP_CTRL_7_IN = 31, MHI_CLIENT_DUN_OUT = 32, MHI_CLIENT_DUN_IN = 33, MHI_CLIENT_IP_SW_0_OUT = 34, MHI_CLIENT_IP_SW_0_IN = 35, MHI_CLIENT_ADB_OUT = 36, MHI_CLIENT_ADB_IN = 37, MHI_CLIENT_IP_SW_2_OUT = 38, MHI_CLIENT_IP_SW_2_IN = 39, MHI_CLIENT_IP_SW_3_OUT = 40, MHI_CLIENT_IP_SW_3_IN = 41, MHI_CLIENT_CSVT_OUT = 42, MHI_CLIENT_CSVT_IN = 43, MHI_CLIENT_SMCT_OUT = 44, MHI_CLIENT_SMCT_IN = 45, MHI_CLIENT_IP_SW_4_OUT = 46, MHI_CLIENT_IP_SW_4_IN = 47, MHI_MAX_SOFTWARE_CHANNELS, MHI_CLIENT_TEST_OUT = 60, MHI_CLIENT_TEST_IN = 61, MHI_CLIENT_RESERVED_1_LOWER = 62, MHI_CLIENT_RESERVED_1_UPPER = 99, MHI_CLIENT_IP_HW_0_OUT = 100, MHI_CLIENT_IP_HW_0_IN = 101, MHI_CLIENT_ADPL_IN = 102, MHI_CLIENT_IP_HW_1_OUT = 105, MHI_CLIENT_IP_HW_1_IN = 106, MHI_CLIENT_RESERVED_2_LOWER = 107, MHI_CLIENT_RESERVED_2_UPPER = 127, MHI_MAX_CHANNELS = 107, MHI_CLIENT_INVALID = 0xFFFFFFFF }; struct mhi_dev_client_cb_data { void *user_data; enum mhi_client_channel channel; enum mhi_ctrl_info ctrl_info; }; typedef void (*mhi_state_cb)(struct mhi_dev_client_cb_data *cb_dat); struct mhi_dev_ready_cb_info { struct list_head list; mhi_state_cb cb; struct mhi_dev_client_cb_data cb_data; }; #if defined(CONFIG_MSM_MHI_DEV) /** * mhi_dev_open_channel() - Channel open for a given client done prior * to read/write. * @chan_id: Software Channel ID for the assigned client. * @handle_client: Structure device for client handle. * @notifier: Client issued callback notification. */ int mhi_dev_open_channel(uint32_t chan_id, struct mhi_dev_client **handle_client, void (*event_trigger)(struct mhi_dev_client_cb_reason *cb)); /** * mhi_dev_close_channel() - Channel close for a given client. */ void mhi_dev_close_channel(struct mhi_dev_client *handle_client); /** * mhi_dev_read_channel() - Channel read for a given client * @mreq: mreq is the client argument which includes meta info * like write data location, buffer len, read offset, mode, * chain and client call back function which will be invoked * when data read is completed. */ int mhi_dev_read_channel(struct mhi_req *mreq); /** * mhi_dev_write_channel() - Channel write for a given software client. * @wreq wreq is the client argument which includes meta info like * client handle, read data location, buffer length, mode, * and client call back function which will free the packet. * when data write is completed. */ int mhi_dev_write_channel(struct mhi_req *wreq); /** * mhi_dev_channel_isempty() - Checks if there is any pending TRE's to process. * @handle_client: Client Handle issued during mhi_dev_open_channel */ int mhi_dev_channel_isempty(struct mhi_dev_client *handle); /** * mhi_dev_channel_has_pending_write() - Checks if there are any pending writes * to be completed on inbound channel * @handle_client: Client Handle issued during mhi_dev_open_channel */ bool mhi_dev_channel_has_pending_write(struct mhi_dev_client *handle); /** * mhi_ctrl_state_info() - Provide MHI state info * @idx: Channel number idx. Look at channel_state_info and * pass the index for the corresponding channel. * @info: Return the control info. * MHI_STATE=CONFIGURED - MHI device is present but not ready * for data traffic. * MHI_STATE=CONNECTED - MHI device is ready for data transfer. * MHI_STATE=DISCONNECTED - MHI device has its pipes suspended. * exposes device nodes for the supported MHI software * channels. */ int mhi_ctrl_state_info(uint32_t idx, uint32_t *info); /** * mhi_register_state_cb() - Clients can register and receive callback after * MHI channel is connected or disconnected. */ int mhi_register_state_cb(void (*mhi_state_cb) (struct mhi_dev_client_cb_data *cb_data), void *data, enum mhi_client_channel channel); #else static inline int mhi_dev_open_channel(uint32_t chan_id, struct mhi_dev_client **handle_client, void (*event_trigger)(struct mhi_dev_client_cb_reason *cb)) { return -EINVAL; }; static inline int mhi_dev_close_channel(struct mhi_dev_client *handle_client) { return -EINVAL; }; static inline int mhi_dev_read_channel(struct mhi_req *mreq) { return -EINVAL; }; static inline int mhi_dev_write_channel(struct mhi_req *wreq) { return -EINVAL; }; static inline int mhi_dev_channel_isempty(struct mhi_dev_client *handle) { return -EINVAL; }; static inline bool mhi_dev_channel_has_pending_write (struct mhi_dev_client *handle) { return false; } static inline int mhi_ctrl_state_info(uint32_t idx, uint32_t *info) { return -EINVAL; }; static inline int mhi_register_state_cb(void (*mhi_state_cb) (struct mhi_dev_client_cb_data *cb_data), void *data, enum mhi_client_channel channel) { return -EINVAL; }; #endif #endif /* _MSM_MHI_DEV_H*/