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rgpiod.1
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.\" Process this file with
.\" groff -man -Tascii lgd.1
.\"
.TH rgpiod 1 2020-2021 Linux "lg archive"
.SH NAME
rgpiod - a daemon to allow remote access to a SBC's GPIO.
.SH SYNOPSIS
rgpiod [OPTION]...&
.SH DESCRIPTION
.ad l
.nh
.br
.br
rgpiod is a daemon to allow remote access to a SBC's GPIO.
.br
.br
Once launched the daemon runs in the background accepting commands from the socket interface.
.br
.br
The daemon requires no special privileges and commands may be issued by normal users.
.br
.SH Features
.br
.br
The following features are available by issuing socket commands to the
daemon.
.br
.br
.br
o reading and writing GPIO singly and in groups
.br
o software timed PWM
.br
o GPIO callbacks
.br
o pipe notification of GPIO events
.br
o I2C wrapper
.br
o SPI wrapper
.br
o serial link wrapper
.br
o file handling
.br
o creating and running scripts
.br
.br
.SH Launch options
rgpiod [options] &
.br
.br
.SH OPTIONS
.IP "\fB-c dir \fP"
set the configuration directory (default current directory)
.br
.
.IP "\fB-l \fP"
disable remote socket interface (default enabled)
.br
.
.IP "\fB-n address \fP"
allow IP address to use the socket interface, name (e.g. paul) or dotted quad (e.g. 192.168.1.66). If the -n option is not used all addresses are allowed (unless overridden by the -l option). Multiple -n options are allowed. If -l has been used only -n localhost has any effect
.br
.
.IP "\fB-p value \fP"
set the socket port (1024-32000, default 8889)
.br
.
.IP "\fB-v \fP"
display rgpiod version and exit
.br
.
.IP "\fB-w dir \fP"
set working directory (default launch directory)
.br
.
.IP "\fB-x \fP"
enable access control (default off)
.
.SH Permissions
.br
.br
The rgpiod daemon has an optional access control system to control access to its functions.
.br
.br
See \fBPermits\fP.
.br
.br
.br
.br
.SH Scripts
.br
.br
Scripts are programs to be stored and executed by the rgpiod daemon.
They are intended to mitigate any performance problems associated with
the rgpiod daemon server/client model.
.br
.br
See \fBScripts\fP.
.br
.br
.SH Socket commands
.br
.br
Each socket command consists of a header and for commands with
parameters an extension.
.br
.br
The header is a lgCmd_t with the following structure.
.br
.br
.EX
typedef struct
.br
{
.br
union
.br
{
.br
uint32_t magic;
.br
int32_t status;
.br
};
.br
uint32_t size;
.br
uint16_t cmd;
.br
uint16_t doubles;
.br
uint16_t longs;
.br
uint16_t shorts;
.br
} lgCmd_t, *lgCmd_p;
.br
.EE
.br
.br
The magic value is 0x6c67646d (ASCII lgdm).
.br
.br
The size is the overall size in bytes of the optional extension.
.br
.br
The cmd is the command code. See the file lgSocketCommandCodes.h
for the command codes.
.br
.br
The doubles, longs, shorts is the number of 8-byte, 4-byte, and 2-byte
quantities in the extension. This information is used to
network order the bytes of the message. The extension should consist of
doubles 8-byte quantites, followed by longs 4-byte quantities, followed by
shorts 2-byte quantities, followed by as many 1-byte quantities needed to
make a total of size bytes.
.br
.br
If you wish to construct a client to talk to the rgpiod daemon the following
are a good source of information.
.br
o rpgio.py - a Python client
.br
o rgpio.c - a C client
.br
o rgs.c - a C command line client
.br
o lgCmd.c - a useful summary of the socket commands
.SH Daemon Access Control
.br
.br
The rpgpio daemon operates in two modes - with or without access control.
.br
.br
The default setting is without access control and the permissions
system does not apply (so the rest of this section may be ignored).
.br
.br
If the rgpiod daemon is started with the -x option it implements
an access control permissions system to its functions.
.br
.br
There are three parts to the permissions system.
.br
.br
.br
o An .lg_secret file in the users home directory.
.br
o An .lg_secret file in the daemon's configuration directory.
.br
o A permits file in the daemon's configuration directory.
.br
.br
The daemon client "logs in" to the daemon by choosing a user name. If the client and daemon copies of the password for the user match the user is "logged in".
.br
.br
The client program is then authorised to carry out any functions permitted to the user as specified in the permits file.
.br
.br
.SH User secret file
.br
.br
The user .lg_secret file contains a list of user names with an associated password.
.br
.br
These passwords have no relationship to the passwords used by Linux and should not be the same. The format is user=password.
.br
.br
An example .lg_secret file.
.br
.br
.EX
# user secrets file
.br
# user=password
.br
pete=t4pf4kvPOXjLfDnKBrMu
.br
.EE
.br
.br
The file should be readable/writable by the owner only.
.br
.br
chmod 600 .lg_secret
.SH Daemon secret file
.br
.br
The daemon .lg_secret file contains a list of user names with an associated password.
.br
.br
These passwords have no relationship to the passwords used by Linux and should not be the same. The format is user=password.
.br
.br
An example daemon .lg_secret file.
.br
.br
.EX
# rgpiod secrets file
.br
# user=password
.br
joan=kr6g89XmFQvLDWh6UcJH
.br
sally=fARrxSKqdHaPHBu6Vtet
.br
pete=t4pf4kvPOXjLfDnKBrMu
.br
fred=tugXUuRdPqGux6t7jhhv
.br
.EE
.br
.br
The file should be readable/writable by the owner only.
.br
.br
chmod 600 .lg_secret
.SH Daemon permits file
.br
.br
The permits file can contain the following sections. If a section is
absent it means that access to those features is forbidden.
.br
.br
.EX
[debug]
.br
[files]
.br
[gpio]
.br
[i2c]
.br
[notify]
.br
[scripts]
.br
[serial]
.br
[shell]
.br
[spi]
.br
.EE
.SH [debug]
Each entry in this section takes one of the following forms: \fBuser=y\fP or \fBuser=n\fP.
.br
.br
If the form \fBuser=y\fP is used that user is allowed to use the debug commands.
.br
.br
If the form \fBuser=n\fP is used, or there is no entry for the user, that user is
not allowed to use the debug command.
.br
.br
If the [debug] section is not present no user is allowed to use the
debug commands.
.br
.br
The debug commands are set and get sbc internals and reload configuration.
.SH [files]
Each entry in this section takes the form \fBuser=path x\fP where
\fBpath\fP indicates a file path and \fBx\fP refers to a permission. E.g.
\fB/home/peter/data.txt r\fP refers to Linux file\fB/home/peter/data.txt\fP
and read permission.
.br
.br
There may be more than one \fBpath\fP entry per user, each must be separated by a \fB:\fP character.
.br
.br
\fBpath\fP may contain the wild card characters \fB*\fP (matches any
characters) or \fB?\fP (matches a single character).
.br
.br
If the path entry starts with / it is relative to root (/) otherwise
it is relative to the daemons's working directory.
.br
.br
The permission may be R for read, W for write, U for read/write,
and N for no access. If a directory allows read/write access then
files may be created in that directory.
.br
.br
Where more than one entry matches a file the most specific rule
applies. If no entry matches a file then access is denied.
.br
.br
\fBExample\fP
.br
.EX
joan=/tmp/* u:* n:TEST/* r:TEST/TEST/* u
.br
.EE
.br
.br
User joan may create, read, and write files in the /tmp directory (\fB/tmp/* u\fP).
.br
.br
User joan has no access to files in the working directory (\fB* n\fP).
.br
.br
Overridden by user joan has read permission for files in the TEST directory
of the working directory (\fBTEST/* r\fP).
.br
.br
Overridden by user joan may create, read, and write files in the
TEST/TEST directory of the working directory (\fBTEST/TEST* u\fP).
.SH [gpio]
Each entry in this section takes the form \fBuser=x.y\fP where \fBx\fP indicates
a gpiochip device and \fBy\fP indicates a GPIO. E.g. \fB1.2\fP refers to Linux device \fB/dev/gpiochip1\fP GPIO 2.
.br
.br
There may be more than one \fBx.y\fP entry per user, each must be separated by a \fB:\fP character.
.br
.br
Both x and y may have the following forms.
.br
.br
\fB*\fP all gpiochips or all GPIO.
.br
\fBn\fP a single gpiochip or GPIO.
.br
\fBn,n\fP a list of gpiochips or GPIO.
.br
\fBn-n\fP a range of gpiochips or GPIO.
.br
.br
.br
\fBExample\fP
.br
.EX
fred=0.2-27 # user fred can access gpiochip 0 GPIO 2-27.
.br
peter=*.1,2 # user peter can access all gpiochips GPIO 1 and 2.
.br
jill=1,2.* # user jill can access all GPIO of gpiochips 1 and 2.
.br
boss=*.* # user boss can access all gpiochips and GPIO.
.br
sally=0.2-27:3.* # user sally can access gpiochip 0 GPIO 2-27 and
.br
# all GPIO of gpiochip 3.
.br
.EE
.br
.br
.SH [i2c]
Each entry in this section takes the form \fBuser=x.y\fP where \fBx\fP indicates
an I2C bus and \fBy\fP indicates a device on the bus. E.g. \fB1.27\fP refers to Linux device \fB/dev/i2c-1\fP device 27.
.br
.br
.br
There may be more than one \fBx.y\fP entry per user, each must be separated by a \fB:\fP character.
.br
.br
Both x and y may have the following forms.
.br
.br
\fB*\fP all I2C buses or all devices.
.br
\fBn\fP a single I2C bus or device.
.br
\fBn,n\fP a list of I2C buses or devices.
.br
\fBn-n\fP a range of I2C buses or devices.
.br
.br
.br
\fBExample\fP
.br
.EX
fred=0.3-127 # user fred can access I2C bus 0 devices 3-127.
.br
peter=*.83,89 # user peter can access all I2C buses devices 83 and 89.
.br
jill=1,2.* # user jill can access all devices on I2C buses 1 and 2.
.br
boss=*.* # user boss can access all I2C buses and devices.
.br
sally=0.80-99:3.* # user sally can access I2C bus 0 devices 80-99 and
.br
# all devices of I2C bus 3.
.br
.EE
.br
.br
.SH [notify]
Each entry in this section takes one of the following forms: \fBuser=y\fP or \fBuser=n\fP.
.br
.br
If the form \fBuser=y\fP is used that user is allowed to use the
notify commands.
.br
.br
If the form \fBuser=n\fP is used, or there is no entry for the user,
that user is not allowed to use the notifiy commands.
.br
.br
If the [notify] section is not present no user is allowed to use the
notify commands.
.SH [scripts]
Each entry in this section takes one of the following forms: \fBuser=y\fP or \fBuser=n\fP.
.br
.br
If the form \fBuser=y\fP is used that user is allowed to use the script commands.
.br
.br
If the form \fBuser=n\fP is used, or there is no entry for the user, that user is
not allowed to use the script command.
.br
.br
If the [debug] section is not present no user is allowed to use the
script commands.
.SH [serial]
Each entry in this section takes the form \fBuser=device\fP where
\fBdevice\fP indicates a serial device. E.g. \fB/dev/serial0\fP refers to
Linux device \fB/dev/serial0\fP
.br
.br
There may be more than one \fBdevice\fP entry per user, each must be separated by a \fB:\fP character.
.br
.br
\fBdevice\fP may contain the wild card characters \fB*\fP (matches any
characters) or \fB?\fP (matches a single character).
.br
.br
\fBExample\fP
.br
.EX
fred=/dev/serial0 # user fred can access /dev/serial0.
.br
peter=/dev/tty* # user peter can access /dev/tty*.
.br
boss=/dev/* # user boss can access /dev/*.
.br
sally=/dev/serial?:/dev/ttyS* # user sally can access /dev/serial?
.br
# and /dev/ttyS*.
.br
.EE
.br
.br
.SH [shell]
Each entry in this section takes one of the following forms: \fBuser=y\fP or \fBuser=n\fP.
.br
.br
If the form \fBuser=y\fP is used that user is allowed to use the shell commands.
.br
.br
If the form \fBuser=n\fP is used, or there is no entry for the user, that user is
not allowed to use the shell commands.
.br
.br
If the [shell] section is not present no user is allowed to use the
shell commands.
.SH [spi]
Each entry in this section takes the form \fBuser=x.y\fP where \fBx\fP
indicates a SPI bus and \fBy\fP indicates a slave select. E.g. \fB1.2\fP
refers to Linux device \fB/dev/spidev1.2\fP
.br
.br
There may be more than one \fBx.y\fP entry per user, each must be separated by a \fB:\fP character.
.br
.br
Both \fBx\fP and \fBy\fP may have the following forms.
.br
.br
\fB*\fP all SPI buses or all slaves.
.br
\fBn\fP a single SPI bus or slave.
.br
\fBn,n\fP a list of SPI buses or slaves.
.br
\fBn-n\fP a range of SPI buses or slaves.
.br
.br
.br
\fBExample\fP
.br
.EX
fred=0.0-2 # user fred can access SPI bus 0 slaves 0-2.
.br
peter=*.0 # user peter can access all SPI buses slave 0.
.br
jill=1,2.* # user jill can access all slaves on SPI buses 1 and 2.
.br
boss=*.* # user boss can access all SPI buses and slaves.
.br
sally=0.0-2:1.* # user sally can access SPI bus 0 slaves 0-2 and
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# all slaves of SPI bus 1.
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.EE
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.SH Example permits file
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.EX
# rgpiod test file for user access
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# user=permission
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[files]
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default=:
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test1=/tmp/* u:* n:TEST/* r:TEST/TEST/* u:
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[gpio]
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test1=*.2-27
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test2=0.2-27
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test3=0.5-10
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[i2c]
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test1=1-999.*
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test2=1-2.*
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test3=2.5-20
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[notify]
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test1=n
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test2=y
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test3=y
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[scripts]
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test1=y
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test2=n
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test3=y
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[serial]
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test1=/dev/serial*:/dev/ttyUSB*:/dev/ttyS*
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test2=/dev/ttyUSB1:/dev/tty0:/dev/ttyS0
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test3=/dev/null
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[spi]
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test1=0.0:0.1:1.0:1.1:1.2:2.0:2.1
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test2=0.*
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test3=*.0
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[debug]
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admin=y
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[shell]
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test1=n
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test2=n
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test3=y
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.EE
.SH Scripts
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Scripts are programs to be stored and executed by the rgpiod daemon.
They are intended to mitigate any performance problems associated with
the daemon server/client model.
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Scripts are work in progress.
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.SS Virtual machine
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A script runs within a virtual machine with
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a 32 bit accumulator A.
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a flags register F.
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a program counter PC.
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Each script has
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10 parameters named 0 through 9.
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150 variables named 0 through 149.
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50 labels which are named by any unique number.
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.SS Commands
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Many lg commands may be used within a script. However
some commands do not work within the script model as designed and
are not permitted.
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The following commands are not permitted within a script:
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File - FL FO FR FW
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I2C - I2CPK I2CRD I2CRI I2CRK I2CWD I2CWI I2CWK I2CZ
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Script control - PARSE PROC PROCD PROCP PROCR PROCS PROCU
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Serial - SERO SERR SERW SLR
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SPI - SPIR SPIW SPIX
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The following commands are only permitted within a script:
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Command Description Definition
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ADD x Add x to accumulator A+=x; F=A
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AND x And x with accumulator A&=x; F=A
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CALL L Call subroutine at tag L push(PC+1); PC=L
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CMP x Compare x with accumulator F=A-x
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DCR y Decrement register --*y; F=*y
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DCRA Decrement accumulator --A; F=A
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DIV x Divide x into accumulator A/=x; F=A
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HALT Halt Halt
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INR y Increment register ++*y; F=*y
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INRA Increment accumulator ++A; F=A
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JGE L Jump if >= 0 to tag L if (F>=0) PC=L
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JGT L Jump if > 0 to tag L if (F>0) PC=L
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JLE L Jump if <= 0 to tag L if (F<=0) PC=L
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JLT L Jump if < 0 to tag L if (F<0) PC=L
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JMP L Jump to tag L PC=L
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JNZ L Jump if non-zero to tag L if (F) PC=L
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JZ L Jump if zero to tag L if (!F) PC=L
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LD y x Load register with x *y=x
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LDA x Load accumulator with x A=x
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MLT x Multiply x with accumulator A*=x; F=A
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MOD x Modulus x with accumulator A%=x; F=A
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OR x Or x with accumulator A|=x; F=A
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POP y Pop register y=pop()
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POPA Pop accumulator A=pop()
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PUSH y Push register push(y)
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PUSHA Push accumulator push(A)