📄 can_rd.vhd
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-------------------------------------------------------------------------------- This file is a part of the GRLIB VHDL IP LIBRARY-- Copyright (C) 2003, Gaisler Research---- This program is free software; you can redistribute it and/or modify-- it under the terms of the GNU General Public License as published by-- the Free Software Foundation; either version 2 of the License, or-- (at your option) any later version.---- This program is distributed in the hope that it will be useful,-- but WITHOUT ANY WARRANTY; without even the implied warranty of-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the-- GNU General Public License for more details.---- You should have received a copy of the GNU General Public License-- along with this program; if not, write to the Free Software-- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ----------------------------------------------------------------------------- -- Entity: can_oc-- File: can_oc.vhd-- Author: Jiri Gaisler - Gaisler Research-- Description: AHB interface for the OpenCores CAN MAC------------------------------------------------------------------------------ library ieee;use ieee.std_logic_1164.all;library grlib;use grlib.amba.all;use grlib.stdlib.all;use grlib.devices.all;library techmap;use techmap.gencomp.all;library gaisler;use gaisler.can.all;entity can_rd is generic ( slvndx : integer := 0; ioaddr : integer := 16#000#; iomask : integer := 16#FF0#; irq : integer := 0; memtech : integer := DEFMEMTECH; syncrst : integer := 0; dmap : integer := 0); port ( resetn : in std_logic; clk : in std_logic; ahbsi : in ahb_slv_in_type; ahbso : out ahb_slv_out_type; can_rxi : in std_logic_vector(1 downto 0); can_txo : out std_logic_vector(1 downto 0) ); end; architecture rtl of can_rd is constant ncores : integer := 1;constant sepirq : integer := 0;constant REVISION : amba_version_type := ncores-1;constant hconfig : ahb_config_type := ( 0 => ahb_device_reg ( VENDOR_GAISLER, GAISLER_CANAHB, 0, REVISION, irq), 4 => ahb_iobar(ioaddr, iomask), others => zero32);type ahbregs is record hsel : std_ulogic; hwrite : std_ulogic; hwrite2 : std_ulogic; htrans : std_logic_vector(1 downto 0); haddr : std_logic_vector(10 downto 0); hwdata : std_logic_vector(7 downto 0); herr : std_ulogic; hready : std_ulogic; ws : std_logic_vector(1 downto 0); irqi : std_logic_vector(ncores-1 downto 0); irqo : std_logic_vector(ncores-1 downto 0); muxsel : std_logic; writemux : std_logic;end record;subtype cdata is std_logic_vector(7 downto 0);type cdataarr is array (0 to 7) of cdata;signal data_out : cdataarr;signal reset : std_logic; signal irqo : std_logic_vector(ncores-1 downto 0);signal addr : std_logic_vector(7 downto 0); signal vcc, gnd : std_ulogic;signal r, rin : ahbregs;signal can_lrxi, can_ltxo : std_logic;begin gnd <= '0'; vcc <= '1'; reset <= not resetn; comb : process(ahbsi, r, resetn, data_out, irqo) variable v : ahbregs; variable hresp : std_logic_vector(1 downto 0); variable dataout : std_logic_vector(7 downto 0); variable irqvec : std_logic_vector(NAHBIRQ-1 downto 0); variable vmuxreg : std_logic; begin v := r; if (r.hsel = '1' ) and (r.ws /= "11") then v.ws := r.ws + 1; end if; if ahbsi.hready = '1' then v.hsel := ahbsi.hsel(slvndx); v.haddr := ahbsi.haddr(10 downto 0); v.htrans := ahbsi.htrans; v.hwrite := ahbsi.hwrite; v.herr := orv(ahbsi.hsize) and ahbsi.hwrite; v.ws := "00"; end if; v.hready := (r.hsel and r.ws(1) and not r.ws(0)) or not resetn or (ahbsi.hready and not ahbsi.htrans(1)); vmuxreg := not r.haddr(7) and r.haddr(6); --v.hwrite2 := r.hwrite and r.hsel and r.htrans(1) and r.ws(1) -- and not r.ws(0) and not r.herr; v.hwrite2 := r.hwrite and r.hsel and r.htrans(1) and r.ws(1) and not r.ws(0) and not r.herr and not vmuxreg; v.writemux := r.hwrite and r.hsel and r.htrans(1) and r.ws(1) and not r.ws(0) and vmuxreg; if (r.herr and r.ws(1)) = '1' then hresp := HRESP_ERROR; else hresp := HRESP_OKAY; end if; case r.haddr(1 downto 0) is when "00" => v.hwdata := ahbsi.hwdata(31 downto 24); when "01" => v.hwdata := ahbsi.hwdata(23 downto 16); when "10" => v.hwdata := ahbsi.hwdata(15 downto 8); when others => v.hwdata := ahbsi.hwdata(7 downto 0); end case; --dataout := data_out(0); if r.haddr(7 downto 6) = "01" then dataout := (others => r.muxsel); if r.writemux = '1' then v.muxsel := r.hwdata(0); end if; else dataout := data_out(0); end if; -- Interrupt goes to low when appeard and is normal high -- but the irq controller from leon is active high and the interrupt should appear only -- for 1 Clk cycle, v.irqi := irqo; v.irqo:= (r.irqi and not irqo); irqvec := (others => '0'); if sepirq = 1 then irqvec(ncores-1+irq downto irq) := r.irqo; else irqvec(irq) := orv(r.irqo); end if; ahbso.hirq <= irqvec; ahbso.hrdata <= dataout & dataout & dataout & dataout; ahbso.hresp <= hresp; rin <= v; end process; -- Double mapping of registers [byte (offset 0), word (offset 0x80)] dmap0 : if dmap = 0 generate addr <= r.haddr(7 downto 0); end generate; dmap1 : if dmap = 1 generate addr <= "000"&r.haddr(6 downto 2) when r.haddr(7) = '1' else r.haddr(7 downto 0); end generate; reg : process(clk) begin if clk'event and clk = '1' then r <= rin; end if; end process; cmod : can_mod generic map (memtech, syncrst) --port map (reset, clk, r.hsel, r.hwrite2, r.haddr(7 downto 0), r.hwdata, port map (reset, clk, r.hsel, r.hwrite2, addr, r.hwdata, data_out(0), irqo(0), can_lrxi, can_ltxo); cmux : canmux port map (r.muxsel, can_lrxi, can_ltxo, can_rxi, can_txo); ahbso.hconfig <= hconfig; ahbso.hindex <= slvndx; ahbso.hsplit <= (others => '0'); ahbso.hcache <= '0'; ahbso.hready <= r.hready; -- pragma translate_off bootmsg : report_version generic map ( "can_oc" & tost(slvndx) & ": SJA1000 Compatible CAN MAC, revision " & tost(REVISION) & ", irq " & tost(irq));-- pragma translate_on end;⌨️ 快捷键说明
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