drivers/staging/fwserial/fwserial.h - kernel/quantenna - Git at Google

 #ifndef _FIREWIRE_FWSERIAL_H
 #define _FIREWIRE_FWSERIAL_H

 #include <linux/kernel.h>
 #include <linux/tty.h>
 #include <linux/tty_driver.h>
 #include <linux/tty_flip.h>
 #include <linux/list.h>
 #include <linux/firewire.h>
 #include <linux/firewire-constants.h>
 #include <linux/spinlock.h>
 #include <linux/rcupdate.h>
 #include <linux/mutex.h>
 #include <linux/serial.h>
 #include <linux/serial_reg.h>
 #include <linux/module.h>
 #include <linux/seq_file.h>
 #include <linux/debugfs.h>

 #include "dma_fifo.h"

 #ifdef FWTTY_PROFILING
 #define DISTRIBUTION_MAX_SIZE     8192
 #define DISTRIBUTION_MAX_INDEX    (ilog2(DISTRIBUTION_MAX_SIZE) + 1)
 static inline void fwtty_profile_data(unsigned int stat[], unsigned int val)
 {
 	int n = (val) ? min(ilog2(val) + 1, DISTRIBUTION_MAX_INDEX) : 0;
 	++stat[n];
 }
 #else
 #define DISTRIBUTION_MAX_INDEX    0
 #define fwtty_profile_data(st, n)
 #endif

 /* Parameters for both VIRT_CABLE_PLUG & VIRT_CABLE_PLUG_RSP mgmt codes */
 struct virt_plug_params {
 	__be32  status_hi;
 	__be32  status_lo;
 	__be32	fifo_hi;
 	__be32	fifo_lo;
 	__be32	fifo_len;
 };

 struct peer_work_params {
 	union {
 		struct virt_plug_params plug_req;
 	};
 };

 /**
  * fwtty_peer: structure representing local & remote unit devices
  * @unit: unit child device of fw_device node
  * @serial: back pointer to associated fw_serial aggregate
  * @guid: unique 64-bit guid for this unit device
  * @generation: most recent bus generation
  * @node_id: most recent node_id
  * @speed: link speed of peer (0 = S100, 2 = S400, ... 5 = S3200)
  * @mgmt_addr: bus addr region to write mgmt packets to
  * @status_addr: bus addr register to write line status to
  * @fifo_addr: bus addr region to write serial output to
  * @fifo_len:  max length for single write to fifo_addr
  * @list: link for insertion into fw_serial's peer_list
  * @rcu: for deferring peer reclamation
  * @lock: spinlock to synchonize changes to state & port fields
  * @work: only one work item can be queued at any one time
  *        Note: pending work is canceled prior to removal, so this
  *        peer is valid for at least the lifetime of the work function
  * @work_params: parameter block for work functions
  * @timer: timer for resetting peer state if remote request times out
  * @state: current state
  * @connect: work item for auto-connecting
  * @connect_retries: # of connections already attempted
  * @port: associated tty_port (usable if state == FWSC_ATTACHED)
  */
 struct fwtty_peer {
 	struct fw_unit		*unit;
 	struct fw_serial	*serial;
 	u64			guid;
 	int			generation;
 	int			node_id;
 	unsigned int		speed;
 	int			max_payload;
 	u64			mgmt_addr;

 	/* these are usable only if state == FWSC_ATTACHED */
 	u64			status_addr;
 	u64			fifo_addr;
 	int			fifo_len;

 	struct list_head	list;
 	struct rcu_head		rcu;

 	spinlock_t		lock;
 	work_func_t		workfn;
 	struct work_struct	work;
 	struct peer_work_params work_params;
 	struct timer_list	timer;
 	int			state;
 	struct delayed_work	connect;
 	int			connect_retries;

 	struct fwtty_port	*port;
 };

 #define to_peer(ptr, field)	(container_of(ptr, struct fwtty_peer, field))

 /* state values for fwtty_peer.state field */
 enum fwtty_peer_state {
 	FWPS_GONE,
 	FWPS_NOT_ATTACHED,
 	FWPS_ATTACHED,
 	FWPS_PLUG_PENDING,
 	FWPS_PLUG_RESPONDING,
 	FWPS_UNPLUG_PENDING,
 	FWPS_UNPLUG_RESPONDING,

 	FWPS_NO_MGMT_ADDR = -1,
 };

 #define CONNECT_RETRY_DELAY	HZ
 #define MAX_CONNECT_RETRIES	10

 /* must be holding peer lock for these state funclets */
 static inline void peer_set_state(struct fwtty_peer *peer, int new)
 {
 	peer->state = new;
 }

 static inline struct fwtty_port *peer_revert_state(struct fwtty_peer *peer)
 {
 	struct fwtty_port *port = peer->port;

 	peer->port = NULL;
 	peer_set_state(peer, FWPS_NOT_ATTACHED);
 	return port;
 }

 struct fwserial_mgmt_pkt {
 	struct {
 		__be16		len;
 		__be16		code;
 	} hdr;
 	union {
 		struct virt_plug_params plug_req;
 		struct virt_plug_params plug_rsp;
 	};
 } __packed;

 /* fwserial_mgmt_packet codes */
 #define FWSC_RSP_OK			0x0000
 #define FWSC_RSP_NACK			0x8000
 #define FWSC_CODE_MASK			0x0fff

 #define FWSC_VIRT_CABLE_PLUG		1
 #define FWSC_VIRT_CABLE_UNPLUG		2
 #define FWSC_VIRT_CABLE_PLUG_RSP	3
 #define FWSC_VIRT_CABLE_UNPLUG_RSP	4

 /* 1 min. plug timeout -- suitable for userland authorization */
 #define VIRT_CABLE_PLUG_TIMEOUT		(60 * HZ)

 struct stats {
 	unsigned int	xchars;
 	unsigned int	dropped;
 	unsigned int	tx_stall;
 	unsigned int	fifo_errs;
 	unsigned int	sent;
 	unsigned int	lost;
 	unsigned int	throttled;
 	unsigned int	reads[DISTRIBUTION_MAX_INDEX + 1];
 	unsigned int	writes[DISTRIBUTION_MAX_INDEX + 1];
 	unsigned int	txns[DISTRIBUTION_MAX_INDEX + 1];
 	unsigned int	unthrottle[DISTRIBUTION_MAX_INDEX + 1];
 };

 struct fwconsole_ops {
 	void (*notify)(int code, void *data);
 	void (*stats)(struct stats *stats, void *data);
 	void (*proc_show)(struct seq_file *m, void *data);
 };

 /* codes for console ops notify */
 #define FWCON_NOTIFY_ATTACH		1
 #define FWCON_NOTIFY_DETACH		2

 /**
  * fwtty_port: structure used to track/represent underlying tty_port
  * @port: underlying tty_port
  * @device: tty device
  * @index: index into port_table for this particular port
  *    note: minor = index + minor_start assigned by tty_alloc_driver()
  * @serial: back pointer to the containing fw_serial
  * @rx_handler: bus address handler for unique addr region used by remotes
  *              to communicate with this port. Every port uses
  *		fwtty_port_handler() for per port transactions.
  * @fwcon_ops: ops for attached fw_console (if any)
  * @con_data: private data for fw_console
  * @wait_tx: waitqueue for sleeping until writer/drain completes tx
  * @emit_breaks: delayed work responsible for generating breaks when the
  *               break line status is active
  * @cps : characters per second computed from the termios settings
  * @break_last: timestamp in jiffies from last emit_breaks
  * @hangup: work responsible for HUPing when carrier is dropped/lost
  * @mstatus: loose virtualization of LSR/MSR
  *         bits 15..0  correspond to TIOCM_* bits
  *         bits 19..16 reserved for mctrl
  *         bit 20      OOB_TX_THROTTLE
  *	   bits 23..21 reserved
  *         bits 31..24 correspond to UART_LSR_* bits
  * @lock: spinlock for protecting concurrent access to fields below it
  * @mctrl: loose virtualization of MCR
  *         bits 15..0  correspond to TIOCM_* bits
  *         bit 16      OOB_RX_THROTTLE
  *         bits 19..17 reserved
  *	   bits 31..20 reserved for mstatus
  * @drain: delayed work scheduled to ensure that writes are flushed.
  *         The work can race with the writer but concurrent sending is
  *         prevented with the IN_TX flag. Scheduled under lock to
  *         limit scheduling when fifo has just been drained.
  * @tx_fifo: fifo used to store & block-up writes for dma to remote
  * @max_payload: max bytes transmissible per dma (based on peer's max_payload)
  * @status_mask: UART_LSR_* bitmask significant to rx (based on termios)
  * @ignore_mask: UART_LSR_* bitmask of states to ignore (also based on termios)
  * @break_ctl: if set, port is 'sending break' to remote
  * @write_only: self-explanatory
  * @overrun: previous rx was lost (partially or completely)
  * @loopback: if set, port is in loopback mode
  * @flags: atomic bit flags
  *         bit 0: IN_TX - gate to allow only one cpu to send from the dma fifo
  *                        at a time.
  *         bit 1: STOP_TX - force tx to exit while sending
  * @peer: rcu-pointer to associated fwtty_peer (if attached)
  *        NULL if no peer attached
  * @icount: predefined statistics reported by the TIOCGICOUNT ioctl
  * @stats: additional statistics reported in /proc/tty/driver/firewire_serial
  */
 struct fwtty_port {
 	struct tty_port		   port;
 	struct device		   *device;
 	unsigned int		   index;
 	struct fw_serial	   *serial;
 	struct fw_address_handler  rx_handler;

 	struct fwconsole_ops	   *fwcon_ops;
 	void			   *con_data;

 	wait_queue_head_t	   wait_tx;
 	struct delayed_work	   emit_breaks;
 	unsigned int		   cps;
 	unsigned long		   break_last;

 	struct work_struct	   hangup;

 	unsigned int		   mstatus;

 	spinlock_t		   lock;
 	unsigned int		   mctrl;
 	struct delayed_work	   drain;
 	struct dma_fifo		   tx_fifo;
 	int			   max_payload;
 	unsigned int		   status_mask;
 	unsigned int		   ignore_mask;
 	unsigned int		   break_ctl:1,
 				   write_only:1,
 				   overrun:1,
 				   loopback:1;
 	unsigned long		   flags;

 	struct fwtty_peer __rcu	   *peer;

 	struct async_icount	   icount;
 	struct stats		   stats;
 };

 #define to_port(ptr, field)	(container_of(ptr, struct fwtty_port, field))

 /* bit #s for flags field */
 #define IN_TX                      0
 #define STOP_TX                    1

 /* bitmasks for special mctrl/mstatus bits */
 #define OOB_RX_THROTTLE   0x00010000
 #define MCTRL_RSRVD       0x000e0000
 #define OOB_TX_THROTTLE   0x00100000
 #define MSTATUS_RSRVD     0x00e00000

 #define MCTRL_MASK        (TIOCM_DTR | TIOCM_RTS | TIOCM_OUT1 | TIOCM_OUT2 | \
 			   TIOCM_LOOP | OOB_RX_THROTTLE | MCTRL_RSRVD)

 /* XXX even every 1/50th secs. may be unnecessarily accurate */
 /* delay in jiffies between brk emits */
 #define FREQ_BREAKS        (HZ / 50)

 /* Ports are allocated in blocks of num_ports for each fw_card */
 #define MAX_CARD_PORTS           CONFIG_FWTTY_MAX_CARD_PORTS
 #define MAX_TOTAL_PORTS          CONFIG_FWTTY_MAX_TOTAL_PORTS

 /* tuning parameters */
 #define FWTTY_PORT_TXFIFO_LEN	4096
 #define FWTTY_PORT_MAX_PEND_DMA    8    /* costs a cache line per pend */
 #define DRAIN_THRESHOLD         1024
 #define MAX_ASYNC_PAYLOAD       4096    /* ohci-defined limit          */
 #define WRITER_MINIMUM           128
 /* TODO: how to set watermark to AR context size? see fwtty_rx() */
 #define HIGH_WATERMARK         32768	/* AR context is 32K	       */

 /*
  * Size of bus addr region above 4GB used per port as the recv addr
  * - must be at least as big as the MAX_ASYNC_PAYLOAD
  */
 #define FWTTY_PORT_RXFIFO_LEN	MAX_ASYNC_PAYLOAD

 /**
  * fw_serial: aggregate used to associate tty ports with specific fw_card
  * @card: fw_card associated with this fw_serial device (1:1 association)
  * @kref: reference-counted multi-port management allows delayed destroy
  * @self: local unit device as 'peer'. Not valid until local unit device
  *         is enumerated.
  * @list: link for insertion into fwserial_list
  * @peer_list: list of local & remote unit devices attached to this card
  * @ports: fixed array of tty_ports provided by this serial device
  */
 struct fw_serial {
 	struct fw_card	  *card;
 	struct kref	  kref;

 	struct dentry	  *debugfs;
 	struct fwtty_peer *self;

 	struct list_head  list;
 	struct list_head  peer_list;

 	struct fwtty_port *ports[MAX_CARD_PORTS];
 };

 #define to_serial(ptr, field)	(container_of(ptr, struct fw_serial, field))

 #define TTY_DEV_NAME		    "fwtty"	/* ttyFW was taken           */
 static const char tty_dev_name[] =  TTY_DEV_NAME;
 static const char loop_dev_name[] = "fwloop";

 extern struct tty_driver *fwtty_driver;

 /*
  * Returns the max send async payload size in bytes based on the unit device
  * link speed. Self-limiting asynchronous bandwidth (via reducing the payload)
  * is not necessary and does not work, because
  *   1) asynchronous traffic will absorb all available bandwidth (less that
  *	being used for isochronous traffic)
  *   2) isochronous arbitration always wins.
  */
 static inline int link_speed_to_max_payload(unsigned int speed)
 {
 	/* Max async payload is 4096 - see IEEE 1394-2008 tables 6-4, 16-18 */
 	return min(512 << speed, 4096);
 }

 #endif /* _FIREWIRE_FWSERIAL_H */
	#ifndef _FIREWIRE_FWSERIAL_H
	#define _FIREWIRE_FWSERIAL_H

	#include <linux/kernel.h>
	#include <linux/tty.h>
	#include <linux/tty_driver.h>
	#include <linux/tty_flip.h>
	#include <linux/list.h>
	#include <linux/firewire.h>
	#include <linux/firewire-constants.h>
	#include <linux/spinlock.h>
	#include <linux/rcupdate.h>
	#include <linux/mutex.h>
	#include <linux/serial.h>
	#include <linux/serial_reg.h>
	#include <linux/module.h>
	#include <linux/seq_file.h>
	#include <linux/debugfs.h>

	#include "dma_fifo.h"

	#ifdef FWTTY_PROFILING
	#define DISTRIBUTION_MAX_SIZE 8192
	#define DISTRIBUTION_MAX_INDEX (ilog2(DISTRIBUTION_MAX_SIZE) + 1)
	static inline void fwtty_profile_data(unsigned int stat[], unsigned int val)
	{
	int n = (val) ? min(ilog2(val) + 1, DISTRIBUTION_MAX_INDEX) : 0;
	++stat[n];
	}
	#else
	#define DISTRIBUTION_MAX_INDEX 0
	#define fwtty_profile_data(st, n)
	#endif

	/* Parameters for both VIRT_CABLE_PLUG & VIRT_CABLE_PLUG_RSP mgmt codes */
	struct virt_plug_params {
	__be32 status_hi;
	__be32 status_lo;
	__be32 fifo_hi;
	__be32 fifo_lo;
	__be32 fifo_len;
	};

	struct peer_work_params {
	union {
	struct virt_plug_params plug_req;
	};
	};

	/**
	* fwtty_peer: structure representing local & remote unit devices
	* @unit: unit child device of fw_device node
	* @serial: back pointer to associated fw_serial aggregate
	* @guid: unique 64-bit guid for this unit device
	* @generation: most recent bus generation
	* @node_id: most recent node_id
	* @speed: link speed of peer (0 = S100, 2 = S400, ... 5 = S3200)
	* @mgmt_addr: bus addr region to write mgmt packets to
	* @status_addr: bus addr register to write line status to
	* @fifo_addr: bus addr region to write serial output to
	* @fifo_len: max length for single write to fifo_addr
	* @list: link for insertion into fw_serial's peer_list
	* @rcu: for deferring peer reclamation
	* @lock: spinlock to synchonize changes to state & port fields
	* @work: only one work item can be queued at any one time
	* Note: pending work is canceled prior to removal, so this
	* peer is valid for at least the lifetime of the work function
	* @work_params: parameter block for work functions
	* @timer: timer for resetting peer state if remote request times out
	* @state: current state
	* @connect: work item for auto-connecting
	* @connect_retries: # of connections already attempted
	* @port: associated tty_port (usable if state == FWSC_ATTACHED)
	*/
	struct fwtty_peer {
	struct fw_unit *unit;
	struct fw_serial *serial;
	u64 guid;
	int generation;
	int node_id;
	unsigned int speed;
	int max_payload;
	u64 mgmt_addr;

	/* these are usable only if state == FWSC_ATTACHED */
	u64 status_addr;
	u64 fifo_addr;
	int fifo_len;

	struct list_head list;
	struct rcu_head rcu;

	spinlock_t lock;
	work_func_t workfn;
	struct work_struct work;
	struct peer_work_params work_params;
	struct timer_list timer;
	int state;
	struct delayed_work connect;
	int connect_retries;

	struct fwtty_port *port;
	};

	#define to_peer(ptr, field) (container_of(ptr, struct fwtty_peer, field))

	/* state values for fwtty_peer.state field */
	enum fwtty_peer_state {
	FWPS_GONE,
	FWPS_NOT_ATTACHED,
	FWPS_ATTACHED,
	FWPS_PLUG_PENDING,
	FWPS_PLUG_RESPONDING,
	FWPS_UNPLUG_PENDING,
	FWPS_UNPLUG_RESPONDING,

	FWPS_NO_MGMT_ADDR = -1,
	};

	#define CONNECT_RETRY_DELAY HZ
	#define MAX_CONNECT_RETRIES 10

	/* must be holding peer lock for these state funclets */
	static inline void peer_set_state(struct fwtty_peer *peer, int new)
	{
	peer->state = new;
	}

	static inline struct fwtty_port peer_revert_state(struct fwtty_peer peer)
	{
	struct fwtty_port *port = peer->port;

	peer->port = NULL;
	peer_set_state(peer, FWPS_NOT_ATTACHED);
	return port;
	}

	struct fwserial_mgmt_pkt {
	struct {
	__be16 len;
	__be16 code;
	} hdr;
	union {
	struct virt_plug_params plug_req;
	struct virt_plug_params plug_rsp;
	};
	} __packed;

	/* fwserial_mgmt_packet codes */
	#define FWSC_RSP_OK 0x0000
	#define FWSC_RSP_NACK 0x8000
	#define FWSC_CODE_MASK 0x0fff

	#define FWSC_VIRT_CABLE_PLUG 1
	#define FWSC_VIRT_CABLE_UNPLUG 2
	#define FWSC_VIRT_CABLE_PLUG_RSP 3
	#define FWSC_VIRT_CABLE_UNPLUG_RSP 4

	/* 1 min. plug timeout -- suitable for userland authorization */
	#define VIRT_CABLE_PLUG_TIMEOUT (60 * HZ)

	struct stats {
	unsigned int xchars;
	unsigned int dropped;
	unsigned int tx_stall;
	unsigned int fifo_errs;
	unsigned int sent;
	unsigned int lost;
	unsigned int throttled;
	unsigned int reads[DISTRIBUTION_MAX_INDEX + 1];
	unsigned int writes[DISTRIBUTION_MAX_INDEX + 1];
	unsigned int txns[DISTRIBUTION_MAX_INDEX + 1];
	unsigned int unthrottle[DISTRIBUTION_MAX_INDEX + 1];
	};

	struct fwconsole_ops {
	void (notify)(int code, void data);
	void (stats)(struct stats stats, void *data);
	void (proc_show)(struct seq_file m, void *data);
	};

	/* codes for console ops notify */
	#define FWCON_NOTIFY_ATTACH 1
	#define FWCON_NOTIFY_DETACH 2

	/**
	* fwtty_port: structure used to track/represent underlying tty_port
	* @port: underlying tty_port
	* @device: tty device
	* @index: index into port_table for this particular port
	* note: minor = index + minor_start assigned by tty_alloc_driver()
	* @serial: back pointer to the containing fw_serial
	* @rx_handler: bus address handler for unique addr region used by remotes
	* to communicate with this port. Every port uses
	* fwtty_port_handler() for per port transactions.
	* @fwcon_ops: ops for attached fw_console (if any)
	* @con_data: private data for fw_console
	* @wait_tx: waitqueue for sleeping until writer/drain completes tx
	* @emit_breaks: delayed work responsible for generating breaks when the
	* break line status is active
	* @cps : characters per second computed from the termios settings
	* @break_last: timestamp in jiffies from last emit_breaks
	* @hangup: work responsible for HUPing when carrier is dropped/lost
	* @mstatus: loose virtualization of LSR/MSR
	* bits 15..0 correspond to TIOCM_* bits
	* bits 19..16 reserved for mctrl
	* bit 20 OOB_TX_THROTTLE
	* bits 23..21 reserved
	* bits 31..24 correspond to UART_LSR_* bits
	* @lock: spinlock for protecting concurrent access to fields below it
	* @mctrl: loose virtualization of MCR
	* bits 15..0 correspond to TIOCM_* bits
	* bit 16 OOB_RX_THROTTLE
	* bits 19..17 reserved
	* bits 31..20 reserved for mstatus
	* @drain: delayed work scheduled to ensure that writes are flushed.
	* The work can race with the writer but concurrent sending is
	* prevented with the IN_TX flag. Scheduled under lock to
	* limit scheduling when fifo has just been drained.
	* @tx_fifo: fifo used to store & block-up writes for dma to remote
	* @max_payload: max bytes transmissible per dma (based on peer's max_payload)
	* @status_mask: UART_LSR_* bitmask significant to rx (based on termios)
	* @ignore_mask: UART_LSR_* bitmask of states to ignore (also based on termios)
	* @break_ctl: if set, port is 'sending break' to remote
	* @write_only: self-explanatory
	* @overrun: previous rx was lost (partially or completely)
	* @loopback: if set, port is in loopback mode
	* @flags: atomic bit flags
	* bit 0: IN_TX - gate to allow only one cpu to send from the dma fifo
	* at a time.
	* bit 1: STOP_TX - force tx to exit while sending
	* @peer: rcu-pointer to associated fwtty_peer (if attached)
	* NULL if no peer attached
	* @icount: predefined statistics reported by the TIOCGICOUNT ioctl
	* @stats: additional statistics reported in /proc/tty/driver/firewire_serial
	*/
	struct fwtty_port {
	struct tty_port port;
	struct device *device;
	unsigned int index;
	struct fw_serial *serial;
	struct fw_address_handler rx_handler;

	struct fwconsole_ops *fwcon_ops;
	void *con_data;

	wait_queue_head_t wait_tx;
	struct delayed_work emit_breaks;
	unsigned int cps;
	unsigned long break_last;

	struct work_struct hangup;

	unsigned int mstatus;

	spinlock_t lock;
	unsigned int mctrl;
	struct delayed_work drain;
	struct dma_fifo tx_fifo;
	int max_payload;
	unsigned int status_mask;
	unsigned int ignore_mask;
	unsigned int break_ctl:1,
	write_only:1,
	overrun:1,
	loopback:1;
	unsigned long flags;

	struct fwtty_peer __rcu *peer;

	struct async_icount icount;
	struct stats stats;
	};

	#define to_port(ptr, field) (container_of(ptr, struct fwtty_port, field))

	/* bit #s for flags field */
	#define IN_TX 0
	#define STOP_TX 1

	/* bitmasks for special mctrl/mstatus bits */
	#define OOB_RX_THROTTLE 0x00010000
	#define MCTRL_RSRVD 0x000e0000
	#define OOB_TX_THROTTLE 0x00100000
	#define MSTATUS_RSRVD 0x00e00000

	#define MCTRL_MASK (TIOCM_DTR \| TIOCM_RTS \| TIOCM_OUT1 \| TIOCM_OUT2 \| \
	TIOCM_LOOP \| OOB_RX_THROTTLE \| MCTRL_RSRVD)

	/* XXX even every 1/50th secs. may be unnecessarily accurate */
	/* delay in jiffies between brk emits */
	#define FREQ_BREAKS (HZ / 50)

	/* Ports are allocated in blocks of num_ports for each fw_card */
	#define MAX_CARD_PORTS CONFIG_FWTTY_MAX_CARD_PORTS
	#define MAX_TOTAL_PORTS CONFIG_FWTTY_MAX_TOTAL_PORTS

	/* tuning parameters */
	#define FWTTY_PORT_TXFIFO_LEN 4096
	#define FWTTY_PORT_MAX_PEND_DMA 8 /* costs a cache line per pend */
	#define DRAIN_THRESHOLD 1024
	#define MAX_ASYNC_PAYLOAD 4096 /* ohci-defined limit */
	#define WRITER_MINIMUM 128
	/* TODO: how to set watermark to AR context size? see fwtty_rx() */
	#define HIGH_WATERMARK 32768 /* AR context is 32K */

	/*
	* Size of bus addr region above 4GB used per port as the recv addr
	* - must be at least as big as the MAX_ASYNC_PAYLOAD
	*/
	#define FWTTY_PORT_RXFIFO_LEN MAX_ASYNC_PAYLOAD

	/**
	* fw_serial: aggregate used to associate tty ports with specific fw_card
	* @card: fw_card associated with this fw_serial device (1:1 association)
	* @kref: reference-counted multi-port management allows delayed destroy
	* @self: local unit device as 'peer'. Not valid until local unit device
	* is enumerated.
	* @list: link for insertion into fwserial_list
	* @peer_list: list of local & remote unit devices attached to this card
	* @ports: fixed array of tty_ports provided by this serial device
	*/
	struct fw_serial {
	struct fw_card *card;
	struct kref kref;

	struct dentry *debugfs;
	struct fwtty_peer *self;

	struct list_head list;
	struct list_head peer_list;

	struct fwtty_port *ports[MAX_CARD_PORTS];
	};

	#define to_serial(ptr, field) (container_of(ptr, struct fw_serial, field))

	#define TTY_DEV_NAME "fwtty" /* ttyFW was taken */
	static const char tty_dev_name[] = TTY_DEV_NAME;
	static const char loop_dev_name[] = "fwloop";

	extern struct tty_driver *fwtty_driver;

	/*
	* Returns the max send async payload size in bytes based on the unit device
	* link speed. Self-limiting asynchronous bandwidth (via reducing the payload)
	* is not necessary and does not work, because
	* 1) asynchronous traffic will absorb all available bandwidth (less that
	* being used for isochronous traffic)
	* 2) isochronous arbitration always wins.
	*/
	static inline int link_speed_to_max_payload(unsigned int speed)
	{
	/* Max async payload is 4096 - see IEEE 1394-2008 tables 6-4, 16-18 */
	return min(512 << speed, 4096);
	}

	#endif /* _FIREWIRE_FWSERIAL_H */