tools/i2cset.8 - manifest_repos/i2c-tools - Git at Google

 .TH I2CSET 8 "October 2017"
 .SH "NAME"
 i2cset \- set I2C registers

 .SH SYNOPSIS
 .B i2cset
 .RB [ -f ]
 .RB [ -y ]
 .RB [ "-m mask" ]
 .RB [ -r ]
 .I i2cbus
 .I chip-address
 .I data-address
 .RI [ value ]
 .RI ...
 .RI [ mode ]
 .br
 .B i2cset
 .B -V

 .SH DESCRIPTION
 i2cset is a small helper program to set registers visible through the I2C
 bus.

 .SH OPTIONS
 .TP
 .B -V
 Display the version and exit.
 .TP
 .B -f
 Force access to the device even if it is already busy. By default, i2cset
 will refuse to access a device which is already under the control of a
 kernel driver. Using this flag is dangerous, it can seriously confuse the
 kernel driver in question. It can also cause i2cset to silently write to
 the wrong register. So use at your own risk and only if you know what
 you're doing.
 .TP
 .B -y
 Disable interactive mode. By default, i2cset will wait for a confirmation
 from the user before messing with the I2C bus. When this flag is used, it
 will perform the operation directly. This is mainly meant to be used in
 scripts.
 .TP
 .B -m mask
 The \fImask\fR parameter, if specified, describes which bits of \fIvalue\fR
 will be actually written to \fIdata-address\fR. Bits set to 1 in the mask
 are taken from \fIvalue\fR, while bits set to 0 will be read from
 \fIdata-address\fR and thus preserved by the operation. Please note that
 this parameter assumes that the read and write operations for the specified
 mode are symmetrical for the device you are accessing. This may or may not
 be the case, as neither I2C nor SMBus guarantees this.
 .TP
 .B -r
 Read back the value right after writing it, and compare the result with the
 value written. This used to be the default behavior. The same limitations
 apply as those of option \fB-m\fR.
 .PP
 There are three required options to i2cset. \fIi2cbus\fR indicates the number
 or name of the I2C bus to be scanned.  This number should correspond to one of
 the busses listed by \fIi2cdetect -l\fR. \fIchip-address\fR specifies the
 address of the chip on that bus, and is an integer between 0x03 and 0x77.
 \fIdata-address\fR specifies the address on that chip to write to, and is an
 integer between 0x00 and 0xFF.
 .PP
 The \fIvalue\fR parameter, if specified, is the value to write to that
 location on the chip. If this parameter is omitted, then a short write is
 issued. For most chips, it simply sets an internal pointer to the target
 location, but doesn't actually write to that location. For a few chips
 though, in particular simple ones with a single register, this short write
 is an actual write. If the mode parameter is \fBs\fP or \fBi\fP, multiple
 values can be specified.
 .PP
 The \fImode\fR parameter, if specified, is one of the letters \fBb\fP,
 \fBw\fP, \fBs\fP, or \fBi\fP, corresponding to a write size of a single byte,
 a 16-bit word, a SMBus block write, or an I2C block write, respectively.
 For SMBus and I2C block writes, the write size is determined by the number
 of \fIvalue\fR parameters.
 Except for I2C block writes, a \fBp\fP can also be appended to the \fImode\fR
 parameter to enable PEC.
 If the \fImode\fR parameter is omitted, i2cset defaults to byte
 mode without PEC. The \fIvalue\fR provided must be within range for the
 specified data type (0x00-0xFF for byte and block writes, 0x0000-0xFFFF
 for words).
 Another possible mode is \fBc\fP, which doesn't write any value (so-called
 short write). You usually don't have to specify this mode, as it is the
 default when no value is provided, unless you also want to enable PEC.

 .SH WARNING
 i2cset can be extremely dangerous if used improperly. It can confuse your
 I2C bus, cause data loss, or have more serious side effects. Writing to
 a serial EEPROM on a memory DIMM (chip addresses between 0x50 and 0x57) may
 DESTROY your memory, leaving your system unbootable!  Be extremely careful
 using this program.

 .SH EXAMPLES
 .PP
 Write value 0x42 to 8-bit register 0x11 of the I2C device at 7-bit
 address 0x2d on bus 1 (i2c-1), after user confirmation:
 .nf
 .RS
 # i2cset 1 0x2d 0x11 0x42
 .RE
 .fi
 .PP
 Immediately clear the 3 least significant bits of 8-bit register 0x11 of the
 I2C device at 7-bit address 0x2d on bus 1 (i2c-1) (no user confirmation):
 .nf
 .RS
 # i2cset -y -m 0x07 1 0x2d 0x11 0x00
 .RE
 .fi
 .PP
 Write value 0x5000 to 16-bit register 0x02 of the I2C device at 7-bit
 address 0x48 on bus 1 (i2c-1), after user confirmation:
 .nf
 .RS
 # i2cset 1 0x48 0x02 0x5000 w
 .RE
 .fi
 .PP
 Also see i2cget(8) for examples of combined usage of \fIi2cset\fR and
 \fIi2cget\fR.

 .SH SEE ALSO
 i2cdetect(8), i2cdump(8), i2cget(8), i2ctransfer(8), isaset(8)

 .SH AUTHOR
 Frodo Looijaard, Mark D. Studebaker and Jean Delvare

 This manual page was originally written by David Z Maze <dmaze@debian.org> for
 the Debian GNU/Linux system.
	.TH I2CSET 8 "October 2017"
	.SH "NAME"
	i2cset \- set I2C registers

	.SH SYNOPSIS
	.B i2cset
	.RB [ -f ]
	.RB [ -y ]
	.RB [ "-m mask" ]
	.RB [ -r ]
	.I i2cbus
	.I chip-address
	.I data-address
	.RI [ value ]
	.RI ...
	.RI [ mode ]
	.br
	.B i2cset
	.B -V

	.SH DESCRIPTION
	i2cset is a small helper program to set registers visible through the I2C
	bus.

	.SH OPTIONS
	.TP
	.B -V
	Display the version and exit.
	.TP
	.B -f
	Force access to the device even if it is already busy. By default, i2cset
	will refuse to access a device which is already under the control of a
	kernel driver. Using this flag is dangerous, it can seriously confuse the
	kernel driver in question. It can also cause i2cset to silently write to
	the wrong register. So use at your own risk and only if you know what
	you're doing.
	.TP
	.B -y
	Disable interactive mode. By default, i2cset will wait for a confirmation
	from the user before messing with the I2C bus. When this flag is used, it
	will perform the operation directly. This is mainly meant to be used in
	scripts.
	.TP
	.B -m mask
	The \fImask\fR parameter, if specified, describes which bits of \fIvalue\fR
	will be actually written to \fIdata-address\fR. Bits set to 1 in the mask
	are taken from \fIvalue\fR, while bits set to 0 will be read from
	\fIdata-address\fR and thus preserved by the operation. Please note that
	this parameter assumes that the read and write operations for the specified
	mode are symmetrical for the device you are accessing. This may or may not
	be the case, as neither I2C nor SMBus guarantees this.
	.TP
	.B -r
	Read back the value right after writing it, and compare the result with the
	value written. This used to be the default behavior. The same limitations
	apply as those of option \fB-m\fR.
	.PP
	There are three required options to i2cset. \fIi2cbus\fR indicates the number
	or name of the I2C bus to be scanned. This number should correspond to one of
	the busses listed by \fIi2cdetect -l\fR. \fIchip-address\fR specifies the
	address of the chip on that bus, and is an integer between 0x03 and 0x77.
	\fIdata-address\fR specifies the address on that chip to write to, and is an
	integer between 0x00 and 0xFF.
	.PP
	The \fIvalue\fR parameter, if specified, is the value to write to that
	location on the chip. If this parameter is omitted, then a short write is
	issued. For most chips, it simply sets an internal pointer to the target
	location, but doesn't actually write to that location. For a few chips
	though, in particular simple ones with a single register, this short write
	is an actual write. If the mode parameter is \fBs\fP or \fBi\fP, multiple
	values can be specified.
	.PP
	The \fImode\fR parameter, if specified, is one of the letters \fBb\fP,
	\fBw\fP, \fBs\fP, or \fBi\fP, corresponding to a write size of a single byte,
	a 16-bit word, a SMBus block write, or an I2C block write, respectively.
	For SMBus and I2C block writes, the write size is determined by the number
	of \fIvalue\fR parameters.
	Except for I2C block writes, a \fBp\fP can also be appended to the \fImode\fR
	parameter to enable PEC.
	If the \fImode\fR parameter is omitted, i2cset defaults to byte
	mode without PEC. The \fIvalue\fR provided must be within range for the
	specified data type (0x00-0xFF for byte and block writes, 0x0000-0xFFFF
	for words).
	Another possible mode is \fBc\fP, which doesn't write any value (so-called
	short write). You usually don't have to specify this mode, as it is the
	default when no value is provided, unless you also want to enable PEC.

	.SH WARNING
	i2cset can be extremely dangerous if used improperly. It can confuse your
	I2C bus, cause data loss, or have more serious side effects. Writing to
	a serial EEPROM on a memory DIMM (chip addresses between 0x50 and 0x57) may
	DESTROY your memory, leaving your system unbootable! Be extremely careful
	using this program.

	.SH EXAMPLES
	.PP
	Write value 0x42 to 8-bit register 0x11 of the I2C device at 7-bit
	address 0x2d on bus 1 (i2c-1), after user confirmation:
	.nf
	.RS
	# i2cset 1 0x2d 0x11 0x42
	.RE
	.fi
	.PP
	Immediately clear the 3 least significant bits of 8-bit register 0x11 of the
	I2C device at 7-bit address 0x2d on bus 1 (i2c-1) (no user confirmation):
	.nf
	.RS
	# i2cset -y -m 0x07 1 0x2d 0x11 0x00
	.RE
	.fi
	.PP
	Write value 0x5000 to 16-bit register 0x02 of the I2C device at 7-bit
	address 0x48 on bus 1 (i2c-1), after user confirmation:
	.nf
	.RS
	# i2cset 1 0x48 0x02 0x5000 w
	.RE
	.fi
	.PP
	Also see i2cget(8) for examples of combined usage of \fIi2cset\fR and
	\fIi2cget\fR.

	.SH SEE ALSO
	i2cdetect(8), i2cdump(8), i2cget(8), i2ctransfer(8), isaset(8)

	.SH AUTHOR
	Frodo Looijaard, Mark D. Studebaker and Jean Delvare

	This manual page was originally written by David Z Maze <dmaze@debian.org> for
	the Debian GNU/Linux system.