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freebsd-dev/sys/dev/cp/cserial.h
Gleb Smirnoff 6aae3517ed Retire synchronous PPP kernel driver sppp(4). 
The last two drivers that required sppp are cp(4) and ce(4).

These devices are still produced and can be purchased
at Cronyx <http://cronyx.ru/hardware/wan.html>.

Since Roman Kurakin <rik@FreeBSD.org> has quit them, they no
longer support FreeBSD officially.  Later they have dropped
support for Linux drivers to.  As of mid-2020 they don't even
have a developer to maintain their Windows driver.  However,
their support verbally told me that they could provide aid to
a FreeBSD developer with documentaion in case if there appears
a new customer for their devices.

These drivers have a feature to not use sppp(4) and create an
interface, but instead expose the device as netgraph(4) node.
Then, you can attach ng_ppp(4) with help of ports/net/mpd5 on
top of the node and get your synchronous PPP.  Alternatively
you can attach ng_frame_relay(4) or ng_cisco(4) for HDLC.
Actually, last time I used cp(4) back in 2004, using netgraph(4)
instead of sppp(4) was already the right way to do.

Thus, remove the sppp(4) related part of the drivers and enable
by default the negraph(4) part.  Further maintenance of these
drivers in the tree shouldn't be a big deal.

While doing that, remove some cruft and enable cp(4) compilation
on amd64.  The ce(4) for some unknown reason marks its internal
DDK functions with __attribute__ fastcall, which most likely is
safe to remove, but without hardware I'm not going to do that, so
ce(4) remains i386-only.

Reviewed by:		emaste, imp, donner
Differential Revision:	https://reviews.freebsd.org/D32590
See also:		https://reviews.freebsd.org/D23928
2021-10-22 11:41:36 -07:00

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/*-
* Ioctl interface to Cronyx serial drivers.
*
* Copyright (C) 1997-2002 Cronyx Engineering.
* Author: Serge Vakulenko, <vak@cronyx.ru>
*
* Copyright (C) 2001-2005 Cronyx Engineering.
* Author: Roman Kurakin, <rik@FreeBSD.org>
*
* Copyright (C) 2004-2005 Cronyx Engineering.
* Author: Leo Yuriev, <ly@cronyx.ru>
*
* This software is distributed with NO WARRANTIES, not even the implied
* warranties for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
*
* Authors grant any other persons or organisations permission to use
* or modify this software as long as this message is kept with the software,
* all derivative works or modified versions.
*
* Cronyx Id: cserial.h,v 1.4.2.2 2005/11/09 13:01:35 rik Exp $
* $FreeBSD$
*/
/*
* General channel statistics.
*/
struct serial_statistics {
unsigned long rintr; /* receive interrupts */
unsigned long tintr; /* transmit interrupts */
unsigned long mintr; /* modem interrupts */
unsigned long ibytes; /* input bytes */
unsigned long ipkts; /* input packets */
unsigned long ierrs; /* input errors */
unsigned long obytes; /* output bytes */
unsigned long opkts; /* output packets */
unsigned long oerrs; /* output errors */
};
/*
* Statistics for E1/G703 channels.
*/
struct e1_counters {
unsigned long bpv; /* bipolar violations */
unsigned long fse; /* frame sync errors */
unsigned long crce; /* CRC errors */
unsigned long rcrce; /* remote CRC errors (E-bit) */
unsigned long uas; /* unavailable seconds */
unsigned long les; /* line errored seconds */
unsigned long es; /* errored seconds */
unsigned long bes; /* bursty errored seconds */
unsigned long ses; /* severely errored seconds */
unsigned long oofs; /* out of frame seconds */
unsigned long css; /* controlled slip seconds */
unsigned long dm; /* degraded minutes */
};
struct e1_statistics {
unsigned long status; /* line status bit mask */
unsigned long cursec; /* seconds in current interval */
unsigned long totsec; /* total seconds elapsed */
struct e1_counters currnt; /* current 15-min interval data */
struct e1_counters total; /* total statistics data */
struct e1_counters interval [48]; /* 12 hour period data */
};
struct e3_statistics {
unsigned long status;
unsigned long cursec;
unsigned long totsec;
unsigned long ccv;
unsigned long tcv;
unsigned long icv[48];
};
#define M_ASYNC 0 /* asynchronous mode */
#define M_HDLC 1 /* bit-sync mode (HDLC) */
#define M_G703 2
#define M_E1 3
/*
* Receive error codes.
*/
#define ER_FRAMING 1 /* framing error */
#define ER_CHECKSUM 2 /* parity/CRC error */
#define ER_BREAK 3 /* break state */
#define ER_OVERFLOW 4 /* receive buffer overflow */
#define ER_OVERRUN 5 /* receive fifo overrun */
#define ER_UNDERRUN 6 /* transmit fifo underrun */
#define ER_SCC_FRAMING 7 /* subchannel framing error */
#define ER_SCC_OVERFLOW 8 /* subchannel receive buffer overflow */
#define ER_SCC_OVERRUN 9 /* subchannel receiver overrun */
#define ER_SCC_UNDERRUN 10 /* subchannel transmitter underrun */
#define ER_BUS 11 /* system bus is too busy (e.g PCI) */
/*
* E1 channel status.
*/
#define E1_NOALARM 0x0001 /* no alarm present */
#define E1_FARLOF 0x0002 /* receiving far loss of framing */
#define E1_CRC4E 0x0004 /* crc4 errors */
#define E1_AIS 0x0008 /* receiving all ones */
#define E1_LOF 0x0020 /* loss of framing */
#define E1_LOS 0x0040 /* loss of signal */
#define E1_AIS16 0x0100 /* receiving all ones in timeslot 16 */
#define E1_FARLOMF 0x0200 /* receiving alarm in timeslot 16 */
#define E1_LOMF 0x0400 /* loss of multiframe sync */
#define E1_TSTREQ 0x0800 /* test code detected */
#define E1_TSTERR 0x1000 /* test error */
#define E3_LOS 0x00000002 /* Lost of synchronization */
#define E3_TXE 0x00000004 /* Transmit error */
/*
* Query the mask of all registered channels, max 128.
*/
#define SERIAL_GETREGISTERED _IOR ('x', 0, char[16])
/*
* Attach/detach the protocol to the channel.
* The protocol is given by its name, char[8].
* For example "async", "hdlc", "cisco", "fr", "ppp".
*/
#define SERIAL_GETPROTO _IOR ('x', 1, char [8])
#define SERIAL_SETPROTO _IOW ('x', 1, char [8])
/*
* Query/set the hardware mode for the channel.
*/
#define SERIAL_GETMODE _IOR ('x', 2, int)
#define SERIAL_SETMODE _IOW ('x', 2, int)
#define SERIAL_ASYNC 1
#define SERIAL_HDLC 2
#define SERIAL_RAW 3
/*
* Get/clear the channel statistics.
*/
#define SERIAL_GETSTAT _IOR ('x', 3, struct serial_statistics)
#define SERIAL_GETESTAT _IOR ('x', 3, struct e1_statistics)
#define SERIAL_GETE3STAT _IOR ('x', 3, struct e3_statistics)
#define SERIAL_CLRSTAT _IO ('x', 3)
/*
* Query/set the synchronization mode and baud rate.
* If baud==0 then the external clock is used.
*/
#define SERIAL_GETBAUD _IOR ('x', 4, long)
#define SERIAL_SETBAUD _IOW ('x', 4, long)
/*
* Query/set the internal loopback mode,
* useful for debugging purposes.
*/
#define SERIAL_GETLOOP _IOR ('x', 5, int)
#define SERIAL_SETLOOP _IOW ('x', 5, int)
/*
* Query/set the DPLL mode, commonly used with NRZI
* for channels lacking synchro signals.
*/
#define SERIAL_GETDPLL _IOR ('x', 6, int)
#define SERIAL_SETDPLL _IOW ('x', 6, int)
/*
* Query/set the NRZI encoding (default is NRZ).
*/
#define SERIAL_GETNRZI _IOR ('x', 7, int)
#define SERIAL_SETNRZI _IOW ('x', 7, int)
/*
* Invert receive and transmit clock.
*/
#define SERIAL_GETINVCLK _IOR ('x', 8, int)
#define SERIAL_SETINVCLK _IOW ('x', 8, int)
/*
* Query/set the E1/G703 synchronization mode.
*/
#define SERIAL_GETCLK _IOR ('x', 9, int)
#define SERIAL_SETCLK _IOW ('x', 9, int)
#define E1CLK_RECOVERY -1
#define E1CLK_INTERNAL 0
#define E1CLK_RECEIVE 1
#define E1CLK_RECEIVE_CHAN0 2
#define E1CLK_RECEIVE_CHAN1 3
#define E1CLK_RECEIVE_CHAN2 4
#define E1CLK_RECEIVE_CHAN3 5
/*
* Query/set the E1 timeslot mask.
*/
#define SERIAL_GETTIMESLOTS _IOR ('x', 10, long)
#define SERIAL_SETTIMESLOTS _IOW ('x', 10, long)
/*
* Query/set the E1 subchannel timeslot mask.
*/
#define SERIAL_GETSUBCHAN _IOR ('x', 11, long)
#define SERIAL_SETSUBCHAN _IOW ('x', 11, long)
/*
* Query/set the high input sensitivity mode (E1).
*/
#define SERIAL_GETHIGAIN _IOR ('x', 12, int)
#define SERIAL_SETHIGAIN _IOW ('x', 12, int)
/*
* Query the input signal level in santibells.
*/
#define SERIAL_GETLEVEL _IOR ('x', 13, int)
/*
* Get the channel name.
*/
#define SERIAL_GETNAME _IOR ('x', 14, char [32])
/*
* Get version string.
*/
#define SERIAL_GETVERSIONSTRING _IOR ('x', 15, char [256])
/*
* Query/set master channel.
*/
#define SERIAL_GETMASTER _IOR ('x', 16, char [16])
#define SERIAL_SETMASTER _IOW ('x', 16, char [16])
/*
* Query/set keepalive.
*/
#define SERIAL_GETKEEPALIVE _IOR ('x', 17, int)
#define SERIAL_SETKEEPALIVE _IOW ('x', 17, int)
/*
* Query/set E1 configuration.
*/
#define SERIAL_GETCFG _IOR ('x', 18, char)
#define SERIAL_SETCFG _IOW ('x', 18, char)
/*
* Query/set debug.
*/
#define SERIAL_GETDEBUG _IOR ('x', 19, int)
#define SERIAL_SETDEBUG _IOW ('x', 19, int)
/*
* Query/set phony mode (E1).
*/
#define SERIAL_GETPHONY _IOR ('x', 20, int)
#define SERIAL_SETPHONY _IOW ('x', 20, int)
/*
* Query/set timeslot 16 usage mode (E1).
*/
#define SERIAL_GETUSE16 _IOR ('x', 21, int)
#define SERIAL_SETUSE16 _IOW ('x', 21, int)
/*
* Query/set crc4 mode (E1).
*/
#define SERIAL_GETCRC4 _IOR ('x', 22, int)
#define SERIAL_SETCRC4 _IOW ('x', 22, int)
/*
* Query/set the timeout to recover after transmit interrupt loss.
* If timo==0 recover will be disabled.
*/
#define SERIAL_GETTIMO _IOR ('x', 23, long)
#define SERIAL_SETTIMO _IOW ('x', 23, long)
/*
* Query/set port type for old models of Sigma
* -1 Fixed or cable select
* 0 RS-232
* 1 V35
* 2 RS-449
* 3 E1 (only for Windows 2000)
* 4 G.703 (only for Windows 2000)
* 5 DATA (only for Windows 2000)
* 6 E3 (only for Windows 2000)
* 7 T3 (only for Windows 2000)
* 8 STS1 (only for Windows 2000)
*/
#define SERIAL_GETPORT _IOR ('x', 25, int)
#define SERIAL_SETPORT _IOW ('x', 25, int)
/*
* Add the virtual channel DLCI (Frame Relay).
*/
#define SERIAL_ADDDLCI _IOW ('x', 26, int)
/*
* Invert receive clock.
*/
#define SERIAL_GETINVRCLK _IOR ('x', 27, int)
#define SERIAL_SETINVRCLK _IOW ('x', 27, int)
/*
* Invert transmit clock.
*/
#define SERIAL_GETINVTCLK _IOR ('x', 28, int)
#define SERIAL_SETINVTCLK _IOW ('x', 28, int)
/*
* Unframed E1 mode.
*/
#define SERIAL_GETUNFRAM _IOR ('x', 29, int)
#define SERIAL_SETUNFRAM _IOW ('x', 29, int)
/*
* E1 monitoring mode.
*/
#define SERIAL_GETMONITOR _IOR ('x', 30, int)
#define SERIAL_SETMONITOR _IOW ('x', 30, int)
/*
* Interrupt number.
*/
#define SERIAL_GETIRQ _IOR ('x', 31, int)
/*
* Reset.
*/
#define SERIAL_RESET _IO ('x', 32)
/*
* Hard reset.
*/
#define SERIAL_HARDRESET _IO ('x', 33)
/*
* Query cable type.
*/
#define SERIAL_GETCABLE _IOR ('x', 34, int)
/*
* Assignment of HDLC ports to E1 channels.
*/
#define SERIAL_GETDIR _IOR ('x', 35, int)
#define SERIAL_SETDIR _IOW ('x', 35, int)
struct dxc_table { /* cross-connector parameters */
unsigned char ts [32]; /* timeslot number */
unsigned char link [32]; /* E1 link number */
};
/*
* DXC cross-connector settings for E1 channels.
*/
#define SERIAL_GETDXC _IOR ('x', 36, struct dxc_table)
#define SERIAL_SETDXC _IOW ('x', 36, struct dxc_table)
/*
* Scrambler for G.703.
*/
#define SERIAL_GETSCRAMBLER _IOR ('x', 37, int)
#define SERIAL_SETSCRAMBLER _IOW ('x', 37, int)
/*
* Length of cable for T3 and STS-1.
*/
#define SERIAL_GETCABLEN _IOR ('x', 38, int)
#define SERIAL_SETCABLEN _IOW ('x', 38, int)
/*
* Remote loopback for E3, T3 and STS-1.
*/
#define SERIAL_GETRLOOP _IOR ('x', 39, int)
#define SERIAL_SETRLOOP _IOW ('x', 39, int)
/*
* G.703 line code
*/
#define SERIAL_GETLCODE _IOR ('x', 40, int)
#define SERIAL_SETLCODE _IOW ('x', 40, int)
/*
* MTU
*/
#define SERIAL_GETMTU _IOR ('x', 41, int)
#define SERIAL_SETMTU _IOW ('x', 41, int)
/*
* Receive Queue Length
*/
#define SERIAL_GETRQLEN _IOR ('x', 42, int)
#define SERIAL_SETRQLEN _IOW ('x', 42, int)
#ifdef __KERNEL__
#ifdef CRONYX_LYSAP
# define LYSAP_PEER_ADD _IOWR('x', 101, lysap_peer_config_t)
# define LYSAP_PEER_REMOVE _IOW('x', 102, unsigned)
# define LYSAP_PEER_INFO _IOWR('x', 103, lysap_peer_info_t)
# define LYSAP_PEER_COUNT _IOR('x', 104, unsigned)
# define LYSAP_PEER_ENUM _IOWR('x', 105, unsigned)
# define LYSAP_PEER_CLEAR _IOW('x', 106, unsigned)
# define LYSAP_CHAN_ADD _IOWR('x', 111, lysap_channel_config_t)
# define LYSAP_CHAN_REMOVE _IO('x', 112)
# define LYSAP_CHAN_INFO _IOR('x', 113, lysap_channel_info_t)
# define LYSAP_CHAN_COUNT _IOR('x', 114, unsigned)
# define LYSAP_CHAN_ENUM _IOWR('x', 115, unsigned)
# define LYSAP_CHAN_CLEAR _IO('x', 116)
# include "lysap-linux.h"
#else /* CRONYX_LYSAP */
typedef struct _lysap_channel_t lysap_channel_t;
typedef struct _lysap_channel_config_t lysap_channel_config_t;
typedef struct _LYSAP_DeviceInterfaceConfig LYSAP_DeviceInterfaceConfig;
typedef struct _LYSAP_ChannelConfig LYSAP_ChannelConfig;
typedef struct _lysap_buf_t lysap_buf_t;
#endif /* !CRONYX_LYSAP */
/*
* Dynamic binder interface.
*/
typedef struct _chan_t chan_t;
typedef struct _proto_t proto_t;
void binder_register_protocol (proto_t *p);
void binder_unregister_protocol (proto_t *p);
int binder_register_channel (chan_t *h, char *prefix, int minor);
void binder_unregister_channel (chan_t *h);
/*
* Hardware channel driver structure.
*/
struct sk_buff;
struct _chan_t {
char name [16];
int mtu; /* max packet size */
int fifosz; /* total hardware i/o buffer size */
int port; /* hardware base i/o port */
int irq; /* hardware interrupt line */
int minor; /* minor number 0..127, assigned by binder */
int debug; /* debug level, 0..2 */
int running; /* running, 0..1 */
struct _proto_t *proto; /* protocol interface data */
void *sw; /* protocol private data */
void *hw; /* hardware layer private data */
/* Interface to protocol */
int (*up) (chan_t *h);
void (*down) (chan_t *h);
int (*transmit) (chan_t *h, struct sk_buff *skb);
void (*set_dtr) (chan_t *h, int val);
void (*set_rts) (chan_t *h, int val);
int (*query_dtr) (chan_t *h);
int (*query_rts) (chan_t *h);
int (*query_dsr) (chan_t *h);
int (*query_cts) (chan_t *h);
int (*query_dcd) (chan_t *h);
/* Interface to async protocol */
void (*set_async_param) (chan_t *h, int baud, int bits, int parity,
int stop2, int ignpar, int rtscts,
int ixon, int ixany, int symstart, int symstop);
void (*send_break) (chan_t *h, int msec);
void (*send_xon) (chan_t *h);
void (*send_xoff) (chan_t *h);
void (*start_transmitter) (chan_t *h);
void (*stop_transmitter) (chan_t *h);
void (*flush_transmit_buffer) (chan_t *h);
/* Control interface */
int (*control) (chan_t *h, unsigned int cmd, unsigned long arg);
/* LYSAP interface */
struct lysap_t
{
lysap_channel_t *link;
int (*inspect_config)(chan_t *h, lysap_channel_config_t *,
LYSAP_DeviceInterfaceConfig *, LYSAP_ChannelConfig *);
unsigned long (*probe_freq)(chan_t *h, unsigned long freq);
unsigned long (*set_freq)(chan_t *h, unsigned long freq);
unsigned (*get_status)(chan_t *h);
int (*transmit) (chan_t *h, lysap_buf_t *b);
lysap_buf_t* (*alloc_buf) (chan_t *h, unsigned len);
int (*set_clock_master)(chan_t *h, int enable);
unsigned long (*get_master_freq)(chan_t *h);
} lysap;
};
/*
* Protocol driver structure.
*/
struct _proto_t {
char *name;
struct _proto_t *next;
/* Interface to channel */
void (*receive) (chan_t *h, struct sk_buff *skb);
void (*receive_error) (chan_t *h, int errcode);
void (*transmit) (chan_t *h);
void (*modem_event) (chan_t *h);
/* Interface to binder */
int (*open) (chan_t *h);
void (*close) (chan_t *h);
int (*read) (chan_t *h, unsigned short flg, char *buf, int len);
int (*write) (chan_t *h, unsigned short flg, const char *buf, int len);
int (*select) (chan_t *h, int type, void *st, struct file *filp);
struct fasync_struct *fasync;
/* Control interface */
int (*attach) (chan_t *h);
int (*detach) (chan_t *h);
int (*control) (chan_t *h, unsigned int cmd, unsigned long arg);
/* LYSAP interface */
void (*transmit_error) (chan_t *h, int errcode);
void (*lysap_notify_receive) (chan_t *h, lysap_buf_t *b);
void (*lysap_notify_transmit) (chan_t *h);
lysap_buf_t* (*lysap_get_data)(chan_t *h);
};
#endif /* KERNEL */
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