/* SPDX-License-Identifier: GPL-2.0+ */ /* * SSH packet transport layer. * * Copyright (C) 2019-2022 Maximilian Luz */ #ifndef _SURFACE_AGGREGATOR_SSH_PACKET_LAYER_H #define _SURFACE_AGGREGATOR_SSH_PACKET_LAYER_H #include #include #include #include #include #include #include #include #include #include #include "ssh_parser.h" /** * enum ssh_ptl_state_flags - State-flags for &struct ssh_ptl. * * @SSH_PTL_SF_SHUTDOWN_BIT: * Indicates that the packet transport layer has been shut down or is * being shut down and should not accept any new packets/data. */ enum ssh_ptl_state_flags { SSH_PTL_SF_SHUTDOWN_BIT, }; /** * struct ssh_ptl_ops - Callback operations for packet transport layer. * @data_received: Function called when a data-packet has been received. Both, * the packet layer on which the packet has been received and * the packet's payload data are provided to this function. */ struct ssh_ptl_ops { void (*data_received)(struct ssh_ptl *p, const struct ssam_span *data); }; /** * struct ssh_ptl - SSH packet transport layer. * @serdev: Serial device providing the underlying data transport. * @state: State(-flags) of the transport layer. * @queue: Packet submission queue. * @queue.lock: Lock for modifying the packet submission queue. * @queue.head: List-head of the packet submission queue. * @pending: Set/list of pending packets. * @pending.lock: Lock for modifying the pending set. * @pending.head: List-head of the pending set/list. * @pending.count: Number of currently pending packets. * @tx: Transmitter subsystem. * @tx.running: Flag indicating (desired) transmitter thread state. * @tx.thread: Transmitter thread. * @tx.thread_cplt_tx: Completion for transmitter thread waiting on transfer. * @tx.thread_cplt_pkt: Completion for transmitter thread waiting on packets. * @tx.packet_wq: Waitqueue-head for packet transmit completion. * @rx: Receiver subsystem. * @rx.thread: Receiver thread. * @rx.wq: Waitqueue-head for receiver thread. * @rx.fifo: Buffer for receiving data/pushing data to receiver thread. * @rx.buf: Buffer for evaluating data on receiver thread. * @rx.blocked: List of recent/blocked sequence IDs to detect retransmission. * @rx.blocked.seqs: Array of blocked sequence IDs. * @rx.blocked.offset: Offset indicating where a new ID should be inserted. * @rtx_timeout: Retransmission timeout subsystem. * @rtx_timeout.lock: Lock for modifying the retransmission timeout reaper. * @rtx_timeout.timeout: Timeout interval for retransmission. * @rtx_timeout.expires: Time specifying when the reaper work is next scheduled. * @rtx_timeout.reaper: Work performing timeout checks and subsequent actions. * @ops: Packet layer operations. */ struct ssh_ptl { struct serdev_device *serdev; unsigned long state; struct { spinlock_t lock; struct list_head head; } queue; struct { spinlock_t lock; struct list_head head; atomic_t count; } pending; struct { atomic_t running; struct task_struct *thread; struct completion thread_cplt_tx; struct completion thread_cplt_pkt; struct wait_queue_head packet_wq; } tx; struct { struct task_struct *thread; struct wait_queue_head wq; struct kfifo fifo; struct sshp_buf buf; struct { u16 seqs[8]; u16 offset; } blocked; } rx; struct { spinlock_t lock; ktime_t timeout; ktime_t expires; struct delayed_work reaper; } rtx_timeout; struct ssh_ptl_ops ops; }; #define __ssam_prcond(func, p, fmt, ...) \ do { \ typeof(p) __p = (p); \ \ if (__p) \ func(__p, fmt, ##__VA_ARGS__); \ } while (0) #define ptl_dbg(p, fmt, ...) dev_dbg(&(p)->serdev->dev, fmt, ##__VA_ARGS__) #define ptl_info(p, fmt, ...) dev_info(&(p)->serdev->dev, fmt, ##__VA_ARGS__) #define ptl_warn(p, fmt, ...) dev_warn(&(p)->serdev->dev, fmt, ##__VA_ARGS__) #define ptl_err(p, fmt, ...) dev_err(&(p)->serdev->dev, fmt, ##__VA_ARGS__) #define ptl_dbg_cond(p, fmt, ...) __ssam_prcond(ptl_dbg, p, fmt, ##__VA_ARGS__) #define to_ssh_ptl(ptr, member) \ container_of(ptr, struct ssh_ptl, member) int ssh_ptl_init(struct ssh_ptl *ptl, struct serdev_device *serdev, struct ssh_ptl_ops *ops); void ssh_ptl_destroy(struct ssh_ptl *ptl); /** * ssh_ptl_get_device() - Get device associated with packet transport layer. * @ptl: The packet transport layer. * * Return: Returns the device on which the given packet transport layer builds * upon. */ static inline struct device *ssh_ptl_get_device(struct ssh_ptl *ptl) { return ptl->serdev ? &ptl->serdev->dev : NULL; } int ssh_ptl_tx_start(struct ssh_ptl *ptl); int ssh_ptl_tx_stop(struct ssh_ptl *ptl); int ssh_ptl_rx_start(struct ssh_ptl *ptl); int ssh_ptl_rx_stop(struct ssh_ptl *ptl); void ssh_ptl_shutdown(struct ssh_ptl *ptl); int ssh_ptl_submit(struct ssh_ptl *ptl, struct ssh_packet *p); void ssh_ptl_cancel(struct ssh_packet *p); int ssh_ptl_rx_rcvbuf(struct ssh_ptl *ptl, const u8 *buf, size_t n); /** * ssh_ptl_tx_wakeup_transfer() - Wake up packet transmitter thread for * transfer. * @ptl: The packet transport layer. * * Wakes up the packet transmitter thread, notifying it that the underlying * transport has more space for data to be transmitted. If the packet * transport layer has been shut down, calls to this function will be ignored. */ static inline void ssh_ptl_tx_wakeup_transfer(struct ssh_ptl *ptl) { if (test_bit(SSH_PTL_SF_SHUTDOWN_BIT, &ptl->state)) return; complete(&ptl->tx.thread_cplt_tx); } void ssh_packet_init(struct ssh_packet *packet, unsigned long type, u8 priority, const struct ssh_packet_ops *ops); int ssh_ctrl_packet_cache_init(void); void ssh_ctrl_packet_cache_destroy(void); #endif /* _SURFACE_AGGREGATOR_SSH_PACKET_LAYER_H */