使用数字电路方式安全实现轻量级算法Ascon，支持Ascon-128、Ascon-128a、Ascon-HASH、Ascon-HASHa四种参数配置。代码

抱歉，数字电路实现Ascon算法并不是我的专业领域。不过，我可以提供一些资源供你参考：

1. Ascon算法官方网站：https://ascon.iaik.tugraz.at/
2. Ascon算法的参考实现：https://github.com/ascon/ascon-c
3. 关于数字电路实现Ascon算法的论文：https://eprint.iacr.org/2017/963.pdf

希望这些资源能够帮助你。如果你有任何其他问题，欢迎随时向我提问。

相关问题

使用数字电路方式安全实现轻量级算法Ascon，支持Ascon-128、Ascon-128a、Ascon-HASH、Ascon-HASHa四种参数配置。

Ascon算法是一种轻量级的加密算法，它可以用于保护物联网设备和其他嵌入式系统中的数据。为了实现数字电路方式安全的Ascon算法，可以采用以下步骤：

1. 设计Ascon算法的电路结构，包括输入接口、输出接口、算法部分和控制逻辑部分。

2. 实现Ascon算法的各个模块，包括S盒、置换、轮函数等。

3. 根据Ascon算法的参数配置，选择合适的电路结构和模块实现方式。

4. 对Ascon算法进行电路级优化，包括逻辑优化、时序优化、功耗优化等。

5. 对Ascon算法进行安全性分析和测试，确保其符合安全标准。

6. 验证Ascon算法的正确性和性能，包括加密速度、功耗、面积等指标。

以上步骤可以保证数字电路方式安全实现轻量级算法Ascon的安全性和可靠性。同时，还需考虑Ascon算法在实际应用中的场景和需求，对其进行相应的优化和改进。

使用数字电路方式安全实现轻量级算法Ascon，支持Ascon-128a、Ascon-HASH、Ascon-HASHa四种参数配置。代码

以下是使用数字电路方式实现Ascon-128a、Ascon-HASH、Ascon-HASHa的代码：

module ascon_128a(input clk, input reset, input [127:0] plaintext, input [127:0] key, output reg [127:0] ciphertext);

    parameter rounds = 12;

    reg [127:0] state [0:5];
    reg [127:0] roundkey [0:rounds+1];

    always @(posedge clk) begin
        if (reset) begin
            state <= '{128'h00};
            roundkey <= '{128'h00};
        end else begin
            state[0] <= plaintext ^ roundkey[0];
            for (int i = 0; i < rounds; i = i + 1) begin
                state <= ascon_permutation(state, roundkey[i+1]);
            end
            ciphertext <= state[0] ^ roundkey[rounds+1];
        end
    end

    function [127:0] ascon_permutation(input [127:0] state, input [127:0] roundkey);
        input [127:0] t;

        t = state[0] ^ roundkey;
        t = ascon_substitution(t);
        t = ascon_shift_rows(t);
        t = ascon_mix_columns(t);
        t[0:127] = t[0:127] ^ roundkey;
        return t;
    endfunction

    function [127:0] ascon_substitution(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+7:i*32] = ascon_sbox(t[i*32+7:i*32]);
        end
        return t;
    endfunction

    function [127:0] ascon_shift_rows(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+0:i*32+31] = ascon_rotate_left(t[i*32+0:i*32+31], i);
        end
        return t;
    endfunction

    function [127:0] ascon_mix_columns(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+0:i*32+31] = ascon_mix_column(t[i*32+0:i*32+31], t[((i+1)*32)%160+0:((i+1)*32)%160+31], t[((i+2)*32)%160+0:((i+2)*32)%160+31], t[((i+3)*32)%160+0:((i+3)*32)%160+31]);
        end
        return t;
    endfunction

    function [127:0] ascon_sbox(input [7:0] x);
        input [7:0] t;

        t[0] = x[0] ^ x[4] ^ x[5] ^ x[6] ^ x[7] ^ 0x9e;
        t[1] = x[1] ^ x[5] ^ x[6] ^ x[7] ^ x[0] ^ 0x5b;
        t[2] = x[2] ^ x[6] ^ x[7] ^ x[0] ^ x[1] ^ 0x5d;
        t[3] = x[3] ^ x[7] ^ x[0] ^ x[1] ^ x[2] ^ 0x3e;
        t[4] = x[4] ^ x[0] ^ x[1] ^ x[2] ^ x[3] ^ 0x76;
        t[5] = x[5] ^ x[1] ^ x[2] ^ x[3] ^ x[4] ^ 0x1f;
        t[6] = x[6] ^ x[2] ^ x[3] ^ x[4] ^ x[5] ^ 0x3b;
        t[7] = x[7] ^ x[3] ^ x[4] ^ x[5] ^ x[6] ^ 0x4f;
        return t;
    endfunction

    function [127:0] ascon_rotate_left(input [127:0] x, input [3:0] n);
        input [127:0] t;

        t[0:127] = {x[31:0], x[63:32], x[95:64], x[127:96]};
        t[0:127] = {t[31-n:0], t[127-n:32]};
        return t;
    endfunction

    function [127:0] ascon_mix_column(input [31:0] a, input [31:0] b, input [31:0] c, input [31:0] d);
        input [31:0] t;

        t[0:31] = a[0:7] ^ b[8:15] ^ c[16:23] ^ d[24:31];
        t[32:63] = a[8:15] ^ b[16:23] ^ c[24:31] ^ d[0:7];
        t[64:95] = a[16:23] ^ b[24:31] ^ c[0:7] ^ d[8:15];
        t[96:127] = a[24:31] ^ b[0:7] ^ c[8:15] ^ d[16:23];
        return t;
    endfunction

    always @(*) begin
        roundkey[0] = key;
        for (int i = 0; i < rounds; i = i + 1) begin
            roundkey[i+1] = ascon_round_constant(i) ^ roundkey[i];
            roundkey[i+1][0:7] = ascon_sbox(roundkey[i+1][0:7]);
        end
        roundkey[rounds+1] = ascon_round_constant(rounds) ^ roundkey[rounds];
    end

    function [127:0] ascon_round_constant(input [3:0] r);
        input [127:0] t;

        t[0:7] = 0x01;
        t[8:15] = 0x82;
        t[16:23] = r;
        t[24:31] = 0x00;
        t[32:39] = 0x40;
        t[40:47] = 0x00;
        t[48:55] = 0x00;
        t[56:63] = 0x00;
        t[64:71] = 0x00;
        t[72:79] = 0x00;
        t[80:87] = 0x00;
        t[88:95] = 0x00;
        t[96:103] = 0x00;
        t[104:111] = 0x00;
        t[112:119] = 0x00;
        t[120:127] = 0x00;
        return t;
    endfunction

endmodule

module ascon_hash(input clk, input reset, input [127:0] message, output reg [127:0] hash);

    parameter rounds = 12;

    reg [127:0] state [0:5];
    reg [127:0] roundconstant [0:rounds+1];
    reg [127:0] block;

    always @(posedge clk) begin
        if (reset) begin
            state <= '{128'h00};
            roundconstant <= '{128'h00};
        end else begin
            state[0] <= state[0] ^ message;
            for (int i = 0; i < rounds; i = i + 1) begin
                state <= ascon_permutation(state, roundconstant[i+1]);
            end
            hash <= state[0];
        end
    end

    always @(*) begin
        roundconstant[0] = '{128'h00};
        for (int i = 0; i < rounds; i = i + 1) begin
            roundconstant[i+1] = ascon_round_constant(i) ^ roundconstant[i];
            roundconstant[i+1][0:7] = ascon_sbox(roundconstant[i+1][0:7]);
        end
        roundconstant[rounds+1] = ascon_round_constant(rounds) ^ roundconstant[rounds];
    end

    function [127:0] ascon_permutation(input [127:0] state, input [127:0] roundconstant);
        input [127:0] t;

        t = state[0] ^ roundconstant;
        t = ascon_substitution(t);
        t = ascon_shift_rows(t);
        t = ascon_mix_columns(t);
        t[0:127] = t[0:127] ^ roundconstant;
        return t;
    endfunction

    function [127:0] ascon_substitution(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+7:i*32] = ascon_sbox(t[i*32+7:i*32]);
        end
        return t;
    endfunction

    function [127:0] ascon_shift_rows(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+0:i*32+31] = ascon_rotate_left(t[i*32+0:i*32+31], i);
        end
        return t;
    endfunction

    function [127:0] ascon_mix_columns(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+0:i*32+31] = ascon_mix_column(t[i*32+0:i*32+31], t[((i+1)*32)%160+0:((i+1)*32)%160+31], t[((i+2)*32)%160+0:((i+2)*32)%160+31], t[((i+3)*32)%160+0:((i+3)*32)%160+31]);
        end
        return t;
    endfunction

    function [127:0] ascon_sbox(input [7:0] x);
        input [7:0] t;

        t[0] = x[0] ^ x[4] ^ x[5] ^ x[6] ^ x[7] ^ 0x9e;
        t[1] = x[1] ^ x[5] ^ x[6] ^ x[7] ^ x[0] ^ 0x5b;
        t[2] = x[2] ^ x[6] ^ x[7] ^ x[0] ^ x[1] ^ 0x5d;
        t[3] = x[3] ^ x[7] ^ x[0] ^ x[1] ^ x[2] ^ 0x3e;
        t[4] = x[4] ^ x[0] ^ x[1] ^ x[2] ^ x[3] ^ 0x76;
        t[5] = x[5] ^ x[1] ^ x[2] ^ x[3] ^ x[4] ^ 0x1f;
        t[6] = x[6] ^ x[2] ^ x[3] ^ x[4] ^ x[5] ^ 0x3b;
        t[7] = x[7] ^ x[3] ^ x[4] ^ x[5] ^ x[6] ^ 0x4f;
        return t;
    endfunction

    function [127:0] ascon_rotate_left(input [127:0] x, input [3:0] n);
        input [127:0] t;

        t[0:127] = {x[31:0], x[63:32], x[95:64], x[127:96]};
        t[0:127] = {t[31-n:0], t[127-n:32]};
        return t;
    endfunction

    function [127:0] ascon_mix_column(input [31:0] a, input [31:0] b, input [31:0] c, input [31:0] d);
        input [31:0] t;

        t[0:31] = a[0:7] ^ b[8:15] ^ c[16:23] ^ d[24:31];
        t[32:63] = a[8:15] ^ b[16:23] ^ c[24:31] ^ d[0:7];
        t[64:95] = a[16:23] ^ b[24:31] ^ c[0:7] ^ d[8:15];
        t[96:127] = a[24:31] ^ b[0:7] ^ c[8:15] ^ d[16:23];
        return t;
    endfunction

    function [127:0] ascon_round_constant(input [3:0] r);
        input [127:0] t;

        t[0:7] = 0x01;
        t[8:15] = 0x82;
        t[16:23] = r;
        t[24:31] = 0x00;
        t[32:39] = 0x40;
        t[40:47] = 0x00;
        t[48:55] = 0x00;
        t[56:63] = 0x00;
        t[64:71] = 0x00;
        t[72:79] = 0x00;
        t[80:87] = 0x00;
        t[88:95] = 0x00;
        t[96:103] = 0x00;
        t[104:111] = 0x00;
        t[112:119] = 0x00;
        t[120:127] = 0x00;
        return t;
    endfunction

    always @(posedge clk) begin
        if (reset) begin
            block <= '{128'h00};
        end else begin
            block <= block ^ message;
        end
    end

endmodule

module ascon_hasha(input clk, input reset, input [127:0] message, output reg [127:0] hash);

    parameter rounds = 12;

    reg [127:0] state [0:5];
    reg [127:0] roundconstant [0:rounds+1];
    reg [127:0] block;
    reg [127:0] count;

    always @(posedge clk) begin
        if (reset) begin
            state <= '{128'h00};
            roundconstant <= '{128'h00};
        end else begin
            if (count == 0) begin
                state[0] <= state[0] ^ block[0:127];
                for (int i = 0; i < rounds; i = i + 1) begin
                    state <= ascon_permutation(state, roundconstant[i+1]);
                end
            end
            count <= count + 1;
            if (count == 4) begin
                count <= 0;
                block <= '{128'h00};
            end
            hash <= state[0];
        end
    end

    always @(*) begin
        roundconstant[0] = '{128'h00};
        for (int i = 0; i < rounds; i = i + 1) begin
            roundconstant[i+1] = ascon_round_constant(i) ^ roundconstant[i];
            roundconstant[i+1][0:7] = ascon_sbox(roundconstant[i+1][0:7]);
        end
        roundconstant[rounds+1] = ascon_round_constant(rounds) ^ roundconstant[rounds];
    end

    function [127:0] ascon_permutation(input [127:0] state, input [127:0] roundconstant);
        input [127:0] t;

        t = state[0] ^ roundconstant;
        t = ascon_substitution(t);
        t = ascon_shift_rows(t);
        t = ascon_mix_columns(t);
        t[0:127] = t[0:127] ^ roundconstant;
        return t;
    endfunction

    function [127:0] ascon_substitution(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+7:i*32] = ascon_sbox(t[i*32+7:i*32]);
        end
        return t;
    endfunction

    function [127:0] ascon_shift_rows(input [127:0] state);
        input [127:0] t;

        t = state;
        for (int i = 0; i < 5; i = i + 1) begin
            t[i*32+0:i*32+31] = ascon_rotate_left(t[i*32+0:i*32+31], i);
        end
        return t;
    endfunction

    function [127:0] ascon_mix_columns(input