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A set of scripts used to assist reverse engineering of old-school Programmable Array Logic devices.

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ReGAL

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ReGAL is a set of scripts used to assist reverse engineering of old-school Programmable Array Logic devices.

Synthesis / Place-and-route

From a verilog design, ReGAL can generate JEDEC files that can be used to program Generic Array Logic devices.

The synthesis is assisted by Yosys while the place-and-route logic has been implemented from scratch (since trivial for this type of devices).

As an example, consider the following design:

module top (
    input a, b, c,
    output x, y, z
);

assign x = a ^ b;
assign y = ~x;
assign z = ~(c & b);

endmodule

From this verilog file, the netlist can be generated using the synth subcommand. Internally, this command defines the GAL logic cells and configures Yosys to parse the design file, apply high-level optimizations, perform the technology mapping and output the netlist as a JSON file:

$ regal synth -o netlist.json basic.v

Netlist

A JEDEC file is obtained from this netlist using the pnr subcommand. This step requires to specify the targeted device and the IO mapping.

device: GAL16V8
mode: simple
pins:
    a: 1
    b: 2
    c: 3

    x: 19
    y: 18
    z: 17
$ regal pnr -o basic.jed device.yaml netlist.json

The build subcommand combines the synthesis and the place-and-route in only one step:

$ regal build -o basic.jed device.yaml basic.v

It is also allowed to synthesize sequential designs if the device has been configured in registered mode in the place-and-route configuration file:

device: GAL16V8
mode: registered
pins:
    Clk: 1
    A: 2
    B: 3

    X: 19
    Clk2: 17

Due to the limitations of GAL devices, the design can only define sequential logic on the positive edge of the dedicated clock input (Pin 1 for GAL16V8):

module top (
    input Clk,
    input A,
    input B,

    output X,
    output reg Clk2
);

assign X = A ^ B;

always @(posedge Clk)
  Clk2 <= ~Clk2
;

endmodule

Netlist

Supported devices

  • GAL16V8 (simple, complex and registered mode)
  • GAL20V8 (simple mode only)

Reverse engineering locked PAL/GAL

Another aspect of this project consists in facilitating the reproduction of locked PAL devices. When the fuse map is not readable anymore using the standard programming method, one alternative consists in dumping the truth tables by probing the outputs of the device when applying all the possibles input combinations.

Obviously, this method is limited to devices implementing combinational logic (PAL working in registered mode are out-of-scope for this proof-of-concept).

The current implementation uses an arduino mega to drive the device under test. The setup required to perform the IO probing on the example defined above can be described as follow:

probe: arduino_mega
outfile: basic_tt.csv
device: /dev/ttyUSB0

ios:
    inputs:
        - a: C0
        - b: C1
        - c: C2

    outputs:
        - x: A0
        - y: A1
        - z: A2
$ regal dump dump.yaml

While controlling the probe device, the dump subcommand produces the truth-table as a CSV file:

a,b,c,,x,y,z
0,0,0,,0,1,1
1,0,0,,1,0,1
0,1,0,,1,0,1
1,1,0,,0,1,1
0,0,1,,0,1,1
1,0,1,,1,0,1
0,1,1,,1,0,0
1,1,1,,0,1,0

Once the truth-table extracted, it can be simplified and converted to a verilog file with the tt2v subcommand:

$ regal tt2v basic_tt.csv basic_from_tt.v

The produced verilog is similar to the one used for the synthesis and can be used to generate a new JEDEC file equivalent to the original one.

module top (
    input a,
    input b,
    input c,
    output x,
    output y,
    output z
);

assign x =
  (~a & b) |
  (a & ~b)
;

assign y =
  (~a & ~b) |
  (a & b)
;

assign z =
  (~c) |
  (~b)
;

endmodule

Installation

$ pip install ./ --user

Requirements

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  • Python 84.8%
  • Verilog 8.0%
  • C 5.9%
  • Makefile 1.3%