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fix/prot_m
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master
Author | SHA1 | Date | |
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7379df7b74 | |||
21a0d0e69a | |||
943febcb99 | |||
da7e329939 | |||
4bce111d69 |
@ -28,6 +28,14 @@ Notes:
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* The RX pull up/downs are probably not the best idea, and fixable in a better way. But for now, this shall work -- and suffice!
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* On the TX side, I'm grossly overloading the drivers. A line driver would probably be a good idea. Or you can just parallel multiple outputs ;D
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## Stats
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Sythesized for a Lattice LFXP2-5E FPGA using LSE / Diamond v3.12:
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| Configuration | Slices | LUT4 | Registers |
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| ---------------- | ------ | ---- | --------- |
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| `trashernet_phy` | 115 | 188 | 91 |
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## License
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This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0.
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@ -141,10 +141,7 @@ begin
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end if;
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when TXD =>
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if (not mac_in.tx_mac_data_en or not mac_out.tx_active) then
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state <= IDLE;
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sel <= SEL_ETH_I; -- To avoid arbitration errors, always select the highest priority one by default
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end if;
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state <= IDLE when (not mac_in.tx_mac_data_en or not mac_out.tx_active);
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end case;
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end if;
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end process arb;
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@ -105,10 +105,7 @@ begin
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end loop;
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when TXD =>
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if not ipv4_in.tx_en then
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state <= IDLE;
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tx_sel <= ipv4_protocol_in'left; -- To avoid arbitration errors, always select the highest priority one by default
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end if;
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state <= IDLE when (not ipv4_in.tx_en);
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end case;
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end if;
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end process arb;
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@ -253,6 +253,7 @@ begin
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begin
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if rst then
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phy_out.rx_data_valid <= '0';
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phy_out.rx_data <= (others => '0'); -- Needed for yosys to compile
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elsif rising_edge(clk) then
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phy_out.rx_data_valid <= '0';
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@ -296,8 +297,11 @@ begin
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-- -------------------------------------------------------------------------
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transmitter : block
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constant TX_STB_CNT_MAX : integer := integer(round(real(F_CLK) / real((F_ETH * 2)))) - 1;
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signal tx_stb_cnt : integer range 0 to TX_STB_CNT_MAX;
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constant TX_STB_CNT_IDEAL : real := real(F_CLK) / real((F_ETH * 2));
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constant TX_STB_SKIP_ERROR : real := abs (round(TX_STB_CNT_IDEAL) - TX_STB_CNT_IDEAL);
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constant TX_STB_CNT_MAX : integer := integer(round(TX_STB_CNT_IDEAL + 0.25)) - 1; -- Round up starting for error > 0.25
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constant TX_STB_SKIP_SECOND : boolean := TX_STB_SKIP_ERROR >= 0.25; -- Skip one clock cycle every other symbol to hit clock rate in between when the divider is close to x.5
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signal tx_stb_cnt : integer range 0 to TX_STB_CNT_MAX;
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type tx_state_t is (IDLE, NLP, TX, IPG);
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signal tx_state : tx_state_t;
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@ -367,6 +371,9 @@ begin
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if tx_stb_cnt = 0 then
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tx_stb_cnt <= TX_STB_CNT_MAX;
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if TX_STB_SKIP_SECOND and bit_stage = '1' then
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tx_stb_cnt <= TX_STB_CNT_MAX - 1;
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end if;
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else
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tx_stb_cnt <= tx_stb_cnt - 1;
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end if;
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@ -44,14 +44,14 @@ architecture rtl of trashernet_phy_cdc is
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signal phy_phy_in : phy_in_t;
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-- Helper signals
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signal rx_data_valid_i : std_logic;
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signal rx_data_i : byte;
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begin
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assert F_CLK_PHY > 2 * F_CLK report "F_CLK_PHY must be at least 2x F_CLK" severity failure;
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-- -------------------------------------------------------------------------
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-- Drives: PHY clock domain
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-- -------------------------------------------------------------------------
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-- Reset synchronizer for PHY
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rstsync : process(phy_clk, rst) is
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begin
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if rst then
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@ -61,6 +61,7 @@ begin
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end if;
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end process rstsync;
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-- Operate Trashernet in PHY clock domain
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trashernet_phy_inst : entity work.trashernet_phy
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generic map(
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F_CLK => F_CLK_PHY
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@ -75,6 +76,22 @@ begin
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tx_n => tx_n
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);
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-- Latch data in PHY clock domain when valid is strobed
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-- If the other clock domain is slower than the time it takes for the strobe to synchronize,
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-- `phy_phy_out.rx_data` will already have shifted in the next bit and no longer be valid.
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-- Therefore, we need to latch it here.
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rxdff : process(phy_clk, rst) is
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begin
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if rst then
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rx_data_i <= (others => '0');
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elsif rising_edge(phy_clk) then
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if phy_phy_out.rx_data_valid then
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rx_data_i <= phy_phy_out.rx_data;
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end if;
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end if;
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end process rxdff;
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synchronizer_txen_inst : entity work.synchronizer
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generic map(
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SIZE => 5
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@ -98,18 +115,10 @@ begin
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a_in => phy_phy_out.rx_data_valid,
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b_clk => clk,
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b_rst => rst,
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b_out => rx_data_valid_i
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b_out => phy_out.rx_data_valid
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);
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rxdvff : process(clk, rst) is
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begin
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if rst then
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phy_out.rx_data_valid <= '0';
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elsif rising_edge(clk) then
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phy_out.rx_data_valid <= rx_data_valid_i;
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phy_out.rx_data <= phy_phy_out.rx_data; -- Data should be stable after the time it takes the _valid signal to go through the synchronizer
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end if;
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end process rxdvff;
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phy_out.rx_data <= rx_data_i; -- No need to synchronize in new clock domain as latched data has been stable for a while thanks to the delay in the _valid synchronizer
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cdc_strobe_rxer_inst : entity work.cdc_strobe
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port map(
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