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<h2>7. Making Virtual Peripheral Devices (VPDs) </h2>
Virtual Peripheral Devices (VPDs) are a mechanism whereby new and
interesting user-define input/output devices can be created and used
by TkGate. They can be used to create devices such as TTY Devices,
Vending Machine, Robots and any other device that can be imagined.
<p>
TkGate handling of VPDs is designed to be user extensible. Users
create a VPD by writing a Tcl/Tk script to define the physical
behavior of the device, and a Verilog library file containing a stub
module that interacts with the Tcl script. The Tcl/Tk script can
create its own GUI through which the user can interact.
<a name=overview>
<h3>7.1 Overview of Virtual Peripheral Device Design</h3>
Virtual Peripheral Devices are comprised of a Tcl/Tk script file, and
a Verilog stub module. The script file implements the graphical
interface for the device and handles user interaction. The Verilog
stub module encapsulates the behavior of the device into a module that
can be included in user circuits. The VPD Tcl/Tk script files are
read both from a read-only directory that is part of the TkGate
installation, and from a user-defined list of directories that can be
specified through the <a href="gateOptions.html#library">Library
Options</a> dialog box. These script files are read at start-up time,
so you must restart TkGate if you change the Tcl/Tk portion of a VPD.
<p>
Since a Verilog description can contain multiple instances of a VPD,
the Tcl script must be written in such a way so as to allow multiple
instances of that interface. This is done by giving each instance a
unique instance name. The VPD instance name is typically the same as
the Verilog instance name of the stub module for the VPD. The fully
instantiated Verilog instance name is dot separated path such as
"<tt>top.bus1.dm1</tt>".
<h4>7.1.1 Named Channels</h4>
Communication between the Tcl-side and Verilog-side of the VPD
implementation is performed through a Verga extension to Verilog
called a "named channel". A named channel is basically a queue that
has a string identifier. TkGate provides Tcl-side and Verilog-side
access the named channels allowing data to be passed through the
channel. Named channels can be used both to send data from the Tcl
side to the Verilog side, and to send data from the Verilog side to
the Tcl side.
<h4>7.1.2 Direct Execution of Tcl Commands</h4>
It is also possible for the Verilog stub module to execute Tcl
commands directly using the <tt>$tkg$exec()</tt> system task provided
by Verga. However, use of the <tt>$tkg$exec()</tt> is restricted due
to the fact that allowing arbitrary Tcl commands implies allowing
arbitrary shell commands. This means that untrusted circuit files
could result in damage to the user's system when simulated. For this
reason, TkGate provides the capability of choosing a security policy
to control the use this system task through the <a
href="gateOptions.html#security">Security Options</a> dialog box.
<p>
Because of the potential security issues and the fact the a user could
choose to use a "high" security policy, it is generally recommended
that VPD implementers should avoid use of <tt>$tkg$exec()</tt> and use
only named channels when possible.
<a name=installing>
<h3>7.2 Installing VPDs</h3>
To install a VPD named <i>name</i>, you must install both the
"<i>name</i><tt>.tcl</tt>" file containing the Tcl implementation, and
the "<i>name</i><tt>.v</tt>" file containing the Verilog stub module.
You can place these files either in the TkGate home directory, or in a
user defined directory. To place them in the TkGate home directory,
put the "<i>name</i><tt>.tcl</tt>" file in the "<tt>vpd</tt>"
sub-directory, and the "<i>name</i><tt>.v</tt>" file in the
"<tt>vlib</tt>" sub-directory.
<p>
To place your VPD files a user defined location, you must set the
paths for library and VPD files. Open the <a
href="gateOptions.html#library">Library Options</a> dialog box and add
the directory containing your "<i>name</i><tt>.v</tt>" file to the
"Verilog Library Path", and the directory containing your
"<i>name</i><tt>.tcl</tt>" file to the "VPD () File Path".
<p>
The VPD files will be automatically loaded and registered when TkGate
starts. To use a VPD, you should open the library manager and load
your VPD.
<a name=tclside>
<h3>7.3 The Tcl-Side Interface</h3>
The Tcl script for a VPD is responsible for creating a window for the
device, responding to user input, and communicating with the Verilog
stub module.
<h4>7.3.1 Basic Concepts</h4>
A VPD script is a normal Tcl/Tk script and can execute any of the
commands that are available through Tcl/Tk. However, since it is
loaded with the rest of the TkGate interface, certain design
guidelines should be followed to prevent conflicts between the VPD and
TkGate. A Tcl-Side API is provided to enable communication between
the Verilog portion and the script portion. The VPD API is defined in
a Tcl/TK name-space called "VPD". As such, all of the API commands
have the prefix "VPD::".
<p>
VPD scripts should begin by executing the <tt>VPD::register</tt>
command to register the name of the VPD. It may then optionally use
the <tt>VPD::allow</tt> (and <tt>VPD::disallow</tt>) command(s) to
register specific commands that are allowed to be executed from the
Verilog side using the <tt>$tkg$exec()</tt> system task if that
interface method is used. The body of the VPD should be defined
within a name-space having the same name as the registered VPD name.
All VPD functions should be defined in that name-space. At a minimum,
each VPD is required to provide a "<tt>post</tt>" method. The "<tt>
post</tt>" method should take an instance name as its first argument,
and may optionally define one or more additional arguments. This
results in the following recommended structure for a VPD Tcl script:
<p>
<pre>
VPD::register TTY
VPD::allow TTY::data
namespace eval TTY {
proc post {name} {
...body of post method...
}
...other functions used by TTY VPD...
}
</pre>
<p>
<h4>7.3.2 Writing the <tt>post</tt> Method</h4>
The "<tt> post</tt>" method is generally responsible for taking the
following actions:
<ul>
<li> Create the top-level window for the VPD
using the <tt> VPD::createWindow</tt> command. This window will be
automatically <tt> destroy</tt>ed when TkGate exists simulation mode.
The <tt> -shutdowncommand</tt> switch can be used with this command to specify a script
to execute when the window is destroyed.
<li> Build the widgets for
the VPD in the top-level window and set up handlers for user actions.
<li> Register input and output signals using the <tt>
VPD::insignal</tt> and <tt> VPD::outsignal</tt> commands.
</ul>
Note that for some VPDs there may be exceptions to these rules. It is
also possible to use Tcl as glue to interface the simulation to a
real-world device without using a GUI. For example, one could write a
VPD to give a Verilog description the ability to access to the
Internet. With such a VPD, the <tt> VPD::shutdownnotify</tt> command can
be used to register a script to execute when the simulation is
terminated so as to close any open connections.
<p>
An example of a simple <tt>post</tt> method is given below:
<pre>
proc post {name} {
variable tty_w
//
// Create a VPD window. The title of the window will be "TTY" followed by the name
// of the instance. When the simulation is terminated, the TTY::unpost method
// will be called.
//
set tty_w($name) [VPD::createWindow "TTY $name" -shutdowncommand "TTY::unpost $name"]
...build GUI...
VPD::outsignal $name.TD TTY::TD($name)
VPD::insignal $name.RD -command "TTY::data" -format %d
}
</pre>
Since there can be multiple instances of a VPD, it is important to
keep state information for each instance separate. This can be done
by keeping all such state information in Tcl arrays. For example, the
<tt>VPD::createWindow</tt> method automatically chooses a name for the
top-level window in which the GUI will be constructed. Instead of
keeping the window id in a flat variable such as "<tt>$tty_w</tt>",
the information should be kept in a variable such as "<tt>
$tty_w($name)</tt>" indexed by the name of the VPD instance,
"<tt>$name</tt>".
<p>
The <tt>VPD::outsignal</tt> and <tt>VPD::insignal</tt> methods are
used to link Tcl variables or commands to named channels. In the
above example, the named channel <tt>$name.TD</tt> (where
<tt>$name</tt> is the instance name) is associated with the Tcl
variable <tt>TTY::TD($name)</tt>. Any time a value is assigned to
that variable, the value is transmitted to the Verilog side of the VPD
over the named channel. The named channel <tt>$name.RD</tt> is
associated with the Tcl command "<tt>TTY::data</tt>". Any time data
from the Verilog side is available on the named channel
<tt>$name.RD</tt>, that command is executed with the data received on
the channel. The <tt>-format</tt> switch can be used to specify the
formatting of the data.
<h4>7.3.3 Tcl/TK Side API for VPDs </h4>
TkGate provides the following Tcl-side API for creating VPDs:
<p>
<table class=display>
<tr><th width=350>Command</th><th>Description</th></tr>
<tr><td colspan=2><hr></td></tr>
<tr><td> <tt>VPD::register</tt> <i>name</i></td><td class=wide>
Register a new VPD named <i> name</i>. Registering a VPD allows it to
be posted using the Verilog <tt>$tkg$post()</tt> task.</td></tr>
<tr class=wide><td><tt>VPD::allow</tt> <i> names...</i></td><td class=wide>
Register Tcl commands that can be executed from the Verilog
simulation when running TkGate with medium or lower security. The '*'
character can be used as a wildcard.</td></tr>
<tr><td><tt>VPD::disallow</tt> <i> names...</i></td><td class=wide>
Register Tcl commands for which execution from the Verilog simulation
is explicitly disallowed when running TkGate with medium or higher
security. The '*' character can be used as a wildcard.</td></tr>
<tr><td><tt>VPD::isallowed</tt> <i> name</i></td><td class=wide>
Test a procedure name to see if it can be executed from the
Verilog simulation.</td></tr>
<tr><td><tt>VPD::shutdownnotify</tt> <i> script</i></td><td class=wide>
Register a script to be executed when TkGate exits simulation mode.
The registration is deleted after executing the script.</td></tr>
<tr><td><tt>VPD::createWindow</tt> <i>title</i> <i>[options]</i></td><td class=wide>
Create a top-level window that can be used for a VPD and return the
name of the window. The window name is automatically generated.
Top-level windows created with this command are automatically <tt>
destroy</tt>ed when TkGate exits simulation mode. A command to be
executed when the simulator shuts down can be specified with the <tt>
-shutdowncommand</tt> option. The shut-down command does any additional
cleanup needed by the VPD besides destroying the window.</td></tr>
<tr><td> <tt>VPD::outsignal</tt> <i>chan var</i></td><td class=wide>
Cause any value assigned to <i>var</i> to be sent to the simulator over
the named channel <i>chan</i>. The channel name is typically formed by
using the VPD instance name as a prefix and appending a local name
with a dot separator. By default, values assigned to <i>var</i> are
interpreted as a decimal integer, but Verilog format constants can
also be assigned as well. For example, assigning a value of "8'h3f"
would cause the value to be interpreted as the 8-bit hexadecimal value '3F'.
The association between the channel and the variable is automatically
deleted when TkGate exits simulation mode.</td></tr>
<tr><td> <tt>VPD::insignal</tt> <i>chan [options]</i></td><td class=wide>
Register an action to be taken when data is available on the named
channel <i>chan</i>. Channel names are chosen in the same manner as
<tt> VPD::outsignal</tt>. One or more options are usually given with
this command. The <tt> -command</tt> option takes a Tcl command to be
executed when data is received on <i>chan</i>. The value received on
the channel is appended to the command before execution. The <tt>
-variable</tt> option indicates a variable to be assigned.
Additionally, the <tt> -format</tt> switch indicates the format in
which data should be reported. The format is given as a Verilog style
format string such as "%d" for decimal or "%h" for hexadecimal.
The association between the channel and the variable is automatically
deleted when TkGate exits simulation mode.</td></tr> </table>
<a name=verilogside>
<h3>7.4 The Verilog-Side Interface</h3>
The purpose of the Verilog stub module for a VPD is to encapsulate the
channel I/O operations between the Tcl side and the Verilog side into
a module that can be included and used like as a regular Verilog
module within a user circuit. The stub module is usually defined in a
library that is included by user's circuit.
<h4>7.4.1 Writing the Stub Module</h4>
The easiest way to understand how to write a stub module is to look at
the following simple example:
<p>
<pre>
(1) module TTY(..., TD, RD, ...);
(2) output [7:0] TD;
(3) reg [7:0] RD;
(4) input RD;
(5)
(6) //
(7) // Execute the TTY::post command to start up the Tcl/Tk interface.
(8) //
(9) initial $tkg$post("TTY","%m");
(10)
(11) ...
(12)
(13) //
(14) // Respond to changes in the Tcl/Tk TD variable.
(15) //
(16) always #10 TD = $tkg$recv("%m.TD");
(17)
(18) //
(19) // Send updated value of RD signal to Tcl/Tk side of VPD.
(20) //
(21) always @ (RD) $tkg$send("%m.RD",RD);
(22)
(23) endmodule
</pre>
Verilog modules implementing a VPD should invoke the
<tt>$tkg$post()</tt> task in a Verilog "<tt>initial</tt>" block as
shown at Line (9). This will cause each instance of the VPD include
in the user design to execute the "<tt>TTY::post</tt>" method of the
Tcl/Tk side as soon as the simulation is started. The
<tt>$tkg$post()</tt> task takes two or more arguments. The first
argument is the name of the VPD to be created. The name must be the
name of a registered VPD. The second argument is the instance name of
the VPD. It must be unique for each instance that VPD. You can use
the string "<tt>%m</tt>", which will be replaced with the name of the
module instance in which <tt>$tkg$post</tt> is invoked. This will
guarantee a unique name for the VPD instance. Additional optional
arguments of <tt>$tkg$post</tt> are passed as additional parameters to
the <tt>VPD::post</tt> command.
<p>
Signals received from the Tcl side of the VPD can be handled using a
Verilog "<tt>always</tt>" block as shown on Line (16). An
"<tt>always</tt>" block is essentially an infinite loop executed in
its own thread. The "<tt>\#10</tt>" in this example indicates a delay
of 10 time units after which the <tt>$tkg$recv</tt> task will be
executed to read data on the named channel "<tt>%m.TD</tt>". Again,
the "<tt>%m</tt>" is replaced with the name of the current module
instance. The naming convention of prefixing each channel name with
"<tt>%m.</tt>" ensures that each instance of the TTY device has its
own set of named channels. When a value is received on the named
channel, it is placed in the Verilog variable <tt>TD</tt>, which is
declared as a register output.
<p>
Line 21 is an example of how to transmit a Verilog variable to the Tcl
side of the VPD implementation. The "<tt>always @(RD)</tt>" causes
the "<tt>$tkg$send</tt>" task to be called every time the "<tt>RD</tt>"
variable changes value. This will cause the action associated with
that channel by the "<tt>VPD::insignal</tt>" command to be executed in
the Tcl side of the VPD implementation.
<p>
The input/output examples at Lines (16) and (21) represent the most
simple and direct methods of communication between the Verilog-side
and Tcl-side of a VPD implementation. You can also define more
complex interactions by encoding some of the communication protocol in
Verilog. For example:
<pre>
(1) input CTS;
(2) reg output RTS;
(3) reg output [7:0] TD;
(4)
(5) always
(6) begin
(7) @ (negedge CTS); // Wait for CTS falling edge
(8) # 10 TD = $tkg$recv("%m.TD"); // Get the next character data
(9) # 10 RTS = 1'b1; // Indicate that data is ready
(10) @ (posedge CTS); // Wait for peer to acknowledge
(11) # 10 RTS = 1'b0; // Reset the protocol
(12) end
</pre>
This fragment encodes the protocol for receiving data from a TTY as
described in the discussion on <a href="gateSim.html#ttys">Simulation
of TTYs</a>. The lines in the "<tt>always</tt>" block perform the
following functions in the protocol:
<table class=display>
<tr><th align=left width=60>Line</th><th align=left>Description</th></tr>
<tr><td colspan=2><hr></td></tr>
<tr><td>(7)</td><td>Wait for a falling edge of the "<tt>CTS</tt>"
signal. This signal indicates that the peer device is ready to
receive data.</td></tr>
<tr><td>(8)</td><td>Wait 10 epochs, read the next available character
from the "<tt>%m.TD</tt>" channel, and place it in the "<tt>TD</tt>"
variable.</td></tr>
<tr><td>(9)</td><td>Wait 10 epochs, then assert the "<tt>RTS</tt>"
signal to indicate to the peer that new data is available on the
"<tt>TD</tt>" line.</td></tr>
<tr><td>(10)</td><td>Wait for the "<tt>CTS</tt>" line go high,
indicating that the peer has read the data from "<tt>TD</td>".</td></tr>
<tr><td>(11)</td><td>Wait 10 epochs, then unassert the "<tt>RTS</tt>"
line to reset the protocol for the next character.</td></tr>
</table>
<h4>7.4.2 Instantiating VPDs</h4>
Once the stub module for a VPD has been written, it can then be
included in a client Verilog module. For example, the top-level
module
<pre>
module top;
wire [7:0] TD1, TD2;
wire [7:0] RD1, RD2;
...
TTY tty1(..., TD1, RD1, ...);
TTY tty2(..., TD2, RD2, ...);
...
endmodule
</pre>
includes two instances of the TTY VPD. When this Verilog description
is simulated, two windows will pop-up with the the titles "TTY top.dm1"
and "TTY top.dm2". The names "<tt>top.dm1</tt>" and
"<tt>top.dm2</tt>" are the instance names of the VPDs (and of their
module instances). Each instance can be connected to a separate set
of input and output signals.
<h4>7.4.3 Verilog Side API for VPDs</h4
The Verga Verilog simulator supports the following system tasks in
support of VPDs:
<table class=display>
<tr><th width=350>Task</th><th>Description</th></tr>
<tr><td colspan=2><hr></td></tr>
<tr><td><tt>$tkg$exec(</tt><i>arg1</i><tt>,
</tt><i>arg2</i><tt>,</tt>...<tt>)</tt></td><td class=wide> Constructs
a string for a Tcl command and sends an execution request from the
simulation to the main TkGate executable. The string is constructed
similar to the Verilog <tt>$display()</tt> task (which is in turn
similar to the C <tt> printf()</tt> function). The Tcl command is
executed asynchronously with <tt>$tkg$exec()</tt> not waiting for the
command to complete. A "<tt>%m</tt>" in any string argument will be
substituted with the name of the current instance. Use of this task
in VPDs is discouraged since it may be disabled through the security
settings.</td></tr>
<tr><td><tt>$tkg$post(</tt><i>vpdname<tt>,</tt> <i>instname</i><tt>,</tt> <i>[arg1, ...]</i><tt>)</tt></td><td class=wide>
Post an instance of the VPD named "<tt>vpdname</tt>" by invoking the
command<br><br>
<i>vpdname</i><tt>::post</tt> <i>instname</i><br><br>
in the Tcl portion of the VPD. If any <i>arg</i> parameters are
specified, they will be passed as additional parameters to the
"<i>vpdname</i><tt>::post</tt>" function after the <i>instname</i>
parameter. Any "<tt>[</tt>" and "<tt>]</tt>" characters are treated
as ordinary characters. The "<i>vpdname</i><tt>::post</tt>" command
is executed asynchronously, with <tt>$tkg$post</tt> returning
immediately. A "<tt>%m</tt>" in any parameter will be substituted
with the name of the current instance. In most cases, "<tt>%m</tt>"
should be passed as the <i>instname</i>.</td></tr>
<tr><td> <tt>$tkg$send(</tt><i>name</i><tt>,</tt> <i>data</i><tt>)</tt></td><td class=wide>
Send <i>data</i> on the named channel <i>name</i>. If being used to
send data to the Tcl side of a VPD, the channel name should correspond
to a channel name specified in a <tt>VPD::insignal</tt> command. The
transmitted data will cause either a Tcl variable to be set or a Tcl
command to be invoked. A "<tt>%m</tt>" used in the channel name will
be substituted with the name of the current instance. This can be
used to create a compound name such as "<tt>%m.RD</tt>" which will be
unique to the instance.</td></tr>
<tr><td> <i>data</i><tt> = $tkg$recv(</tt><i>name</i><tt>)</tt></td><td class=wide>
Returns data received on the named channel <i>name</i>. If being used
to receive data from the Tcl side of a VPD, the channel name should
correspond to a channel name specified in a <tt>VPD::outsignal</tt>
command. When the variable declared in the <tt>VPD::outsignal</tt>
command is set, the value of that data, interpreted as a decimal
value, will be available to be read by this task. The task will block
if there is no data in the channel. A "<tt>%m</tt>" can be used in
the channel name will be substituted with the name of the current
instance. This can be used to create a compound name such as
"<tt>%m.TD</tt>" which will be unique to the instance.</td></tr>
</table>
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