Plan 9 from Bell Labs’s /usr/web/sources/contrib/quanstro/root/sys/man/2/fis

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Distributed under the MIT License.
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.TH FIS 2
.SH NAME
setfissig, txmodefis, atapirwfis, featfis, 
flushcachefis, identifyfis, nopfis, rwfis,
skelfis, sigtofis, fiswr, fisrw,
id16, id32, id64,
idmove, idfeat, idwwn, idss, idpuis, pflag, fistosig,
sasbhash, sashash \- SATA/SAS FIS and drive feature functions
.de PB
.PP
.ft L
.nf
..
.SH SYNOPSIS
.ta \w'\fLdouble 'u +\w'\fLDatapi16 'u +\w'\fLspeeds:    'u
.de PB
.PP
.ft L
.nf
..
.PB
#include <u.h>
#include <libc.h>
#include <fis.h>
.PB
enum {
	Fissize	= 0x20,		/* nominal (fits all) fis size */
.PB
	Dlba	= 1<<0,
	Dllba 	= 1<<1,
	Dsmart	= 1<<2,
	Dpower	= 1<<3,
	Dnop	= 1<<4,
	Datapi	= 1<<5,
	Datapi16	= 1<<6,
	Data8	= 1<<7,
	Dsct	= 1<<8,
};
.PB
enum {
	Pspinup	= 1<<0,
	Pidready	= 1<<1,
};

struct Sfis {
	ushort	feat;		/* features supportd */
	uchar	udma;		/* modes supported */
	uchar	speeds;		/* sata: allowed speeds */
	uint	sectsz;		/* sector size */
	uint	phystol;		/* log2(logical/physical) */
	uint	sig;		/* signature */
	uint	c;		/* cylinder */
	uint	h;		/* head */
	uint	s;		/* sector */
};
.PB
void	setfissig(Sfis *sfis, uint sig)
.PB
int	txmodefis(Sfis *sfis, uchar *fis, uchar mode)
.PB
int	featfis(Sfis *sfis, uchar *fis, uchar feat)
.PB
int	flushcachefis(Sfis *sfis, uchar *fis)
.PB
int	identifyfis(Sfis *sfis, uchar *fis)
.PB
int	nopfis(Sfis *sfis, uchar *fis, int srst)
.PB
int	fisrw(Sfis *f, uchar *fis, int *count)
.PB
int	rwfis(Sfis *sfis, uchar *fis, int rw, int nsect, uvlong lba)
.PB
int	atapirwfis(Sfis *sfis, uchar *fis, uchar *cdb, int cdblen, int ndata)
.PB
void	skelfis(uchar *fis)
.PB
void	sigtofis(Sfis *sfis, uchar *d2hfis)
.PB
uvlong	fisrw(Sfis *sfis, uchar *fis, int *nsect)
.PB
ushort	id16(ushort *id, int idx)
.PB
uint	id32(ushort *id, int idx)
.PB
uvlong	id64(ushort *id, int idx)
.PB
void	idmove(char *buf, ushort *ididx, int n)
.PB
vlong	idfeat(Sfis *sfis, ushort *id)
.PB
uvlong	idwwn(Sfis*, ushort *id)
.PB
int	idss(Sfis *sfis, ushort *id)
.PB
int	idpuis(ushort *id)
.PB
char	*pflag(char *p, char *e, Sfis *sbis)
.PB
uint	fistosig(uchar *fis)
.PB
uint	sashash(uvlong u)
.PB
uchar*	sasbhash(uchar *t, uchar *s)
.SH DESCRIPTION
The
.B Sfis
type describes the connection between an ATA drive and
a Host Bus Adaptor (HBA).  The details of this connection,
such as DMA and LBA support, and the logcal sectors per
physical sector are used to construct the proper SATA FISes.
.PP
Since ATA uses a seperate sector size for addressing
(the logical sector size) and for ECC calculations (the
physical sector size), the library returns values based on
the physical sector size.  This allows clients to make
intelligent decisions about IO size without worrying about
this implementation botch.
.PP
.TP 10
.B feat
selected features supported by the drive.  Set by
.BR idfeat .
.TP
.B udma
the UDMA modes supported by the drive.  Set by
.BR idfeat .
.TP
.B speeds
bitmaped signaling speeds supported by the device.
SATA drives may support 1.5gbit/s, 3.0gbit/s and
6.0gbit/s signaling.
.TP
.B sig
this field contains the drive's “signature.”
Drives that support the packet command
set have a signature of
.BR 0xeb140000 ,
while conventional drives have a signature of
.BR 0x0101 .
The signature is set by
.BR setfissig .
See
.IR sd (3)
for more information.
.TP
.B "c\fP,\fP\ h\fP,\fP\ s"
the number of physical or logical cylinders, heads and sectors claimed
by the drive.  CHS addressing is not allowed by SATA drivers.  Set by
.BR idfeat .
.PP
Typically, a client starts by filling out
.BR sfis->sig .
Device drivers typically have an ideosyncratic method of obtaining
a signature.  Clients of
.IR sd (3)
can use special commands to obtain a signature.  Given a signature
the client can use
.B identifyfis
to identify the device and finally
.BR idfeat ,
.B idss 
and
.B idwwn 
to fill out the structure and extract the maximum LBA+1
and the sector size.
.PP
The
.IB xto fis
functions create FISes to be sent from the host to the device.
These are called H2D or Host to Device Register FISes.  All
require a
.B fis
buffer of at least
.B Fislen
bytes.  The return value is the ATA protocol of the returned
command.  For example,
.B identifyfis
returns
.BR "Pin|Ppio|P28|P512" .
.TP
.BI setfissig( sfis\fP,\fP\ sig )
sets the device's ATA signature.
.TP
.BI identifyfis( sfis\fP,\fP\ fis )
builds an ATA
.B IDENTIFY
.B DEVICE
or
.B IDENTIFY
.B PACKET
.B DEVICE
FIS, based on
.IB sfis ->sig\fR.
.TP
.BI id16( id\fP,\fP\ idx "), id32, id64"
return id word, double-world or quad-word at position
.IR idx .
.TP
.BI idss( sfis\fP,\fP\ id )
return the physical sector size of the disk.
The physical sector size is the quanta protected
by ECC and is never smaller than the logical
sector size, which is used in LBA calcuations.
.TP
.BI idpuis( id )
checks for PUIS (power up in standby) modes.
Invalid id blocks return -1.  Otherwise
.B Pspinup
is set if the drive needs
.B "SET FEATURES"
subcommand 7 to return complete data and
.B Pidready
bit set if the id block is complete.  Both or neither bits
may be set.
.TP
.BI idfeat( sfis\fP,\fP\ id )
parses the 512-byte data block returned by
the identify commands.  On success, the last LBA+1
is returned.  Unparseable or unsupportable data
blocks return -1.  Flags may be converted to a
descriptive string with
.BR pflag .
.B Idss
and
.B idwwn
return the sector size and World Wide Name from
the same data.
.TP
.BI idmove( buf\fP,\fP\ ididx\fP,\fP\ n )
converts an ATA string of length
.I n
into a null-terminated string.  Trailing
spaces are deleted.
.TP
.BI fistosig( fis )
converts a D2H FIS into a device signature.
.TP
.BI txmodefis( sfis\fP,\fP\ fis\fP,\fP\ mode )
builds a
.B "SET TRANSFER MODE"
FIS.
.TP
.BI featfis( sfis\fP,\fP\ fis\fP,\fP\ feat )
builds a
.B "SET FEATURES"
FIS.
.TP
.BI flushcachefis( sfis\fP,\fP\ fis )
builds a
.B "FLUSH CACHE"
FIS.
.TP
.BI nopfis( sfis\fP,\fP\ fis\fP,\fP\ srst )
builds a
.B "NOP"
FIS.  If
.I srst
is set, then out-of-band signaling is used to request
a soft reset.  It is not expected that
.I srst
will be useful outside of device drivers.
.TP
.BI rwfis( sfis\fP,\fP\ fis\fP,\fP\ rw\fP,\fP\ nsect\fP,\fP\ lba )
generates a FIS requesting an
.I nsect
i/o at
.IR lba .
If
.I rw
is non-zero, then a write is requested otherwise a
read is requested.  The correct command to issue is
determined by
.I sfis .
DMA and 48-bit (LLBA) commands are preferred.
The inverse is
.B fisrw
which returns the
.I lba
and
.I nsect
given a FIS generated by
.BR rwfis.
.TP
.BI atapirwfis( sfis\fP,\fP\ fis\fP,\fP\ cdb\fP,\fP\ cdlen\fP,\fP\ ndata )
generates an ATAPI read or write FIS.  The
.I cdb
contains a
.IR cdblen -byte
SCSI Command Data Block describing an
.IR nbyte -byte
i/o operation.
.TP
.BI skelfis( fis )
builds a skeleton
Host-to-Device (H2D) Register FIS.
.I Fis
must be a buffer of at least
.B Fislen
bytes.
.PP
The
.BI fis tox
functions create FISes to be sent from the device to the host.
These are called D2H or Device to Host Register FISes
and are used to generate faux responses where actual
communication with a device would be desirable.
All require a
.B fis
buffer of at least
.B Fislen
bytes.
.TP
.BI sigtofis( sfis\fP,\fP\ d2hfis )
builds a device signature fis from based on a device's
.BR sfis .
.TP
.BI sashash( sasaddr )
generates a 4-byte hashed SAS address from an 8 byte
WWN.
.TP
.BI sasbhash( sasaddr\fP,\fP\ wwn )
fills the buffer
.I sasaddr
with the hashed SAS addresse from the 8 byte buffer
.IR wwn .
.TP
.BI sigtofis( sfis\fP,\fP\ d2hfis )
.SH SOURCE
.B /sys/src/libfis
.SH "SEE ALSO"
.IR atazz (8) ,
.IR sd (3) ,
.IR sdide (3) ,
.IR sdahci (3) ,
.IR sdodin (3),
.IR smart (8) 
.SH BUGS
Support for CHS-style addressing is somewhat weak.
In particular,
.B rwfis
does not do the usual LBA-to-CHS transations.  This
is done by drivers that support CHS addressing.  Currently
this is only the IDE driver.
.PP
The
.B Sfis
structure arguably could contain the LBA size,
it is required for the correct construction of FISes.

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