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619 lines
19 KiB
VHDL
619 lines
19 KiB
VHDL
library ieee;
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use ieee.std_logic_1164.all;
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use ieee.numeric_std.all;
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use ieee.math_real.all;
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use std.textio.all;
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use std.env.stop;
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library work;
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use work.common.all;
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use work.wishbone_types.all;
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-- Memory map. *** Keep include/microwatt_soc.h updated on changes ***
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--
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-- Main bus:
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-- 0x00000000: Block RAM (MEMORY_SIZE) or DRAM depending on syscon
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-- 0x40000000: DRAM (when present)
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-- 0x80000000: Block RAM (aliased & repeated)
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-- IO Bus:
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-- 0xc0000000: SYSCON
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-- 0xc0002000: UART0
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-- 0xc0004000: XICS ICP
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-- 0xc0100000: LiteDRAM control (CSRs)
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-- 0xf0000000: DRAM init code (if any)
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entity soc is
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generic (
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MEMORY_SIZE : natural;
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RAM_INIT_FILE : string;
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RESET_LOW : boolean;
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CLK_FREQ : positive;
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SIM : boolean;
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DISABLE_FLATTEN_CORE : boolean := false;
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HAS_DRAM : boolean := false;
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DRAM_SIZE : integer := 0;
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DRAM_INIT_SIZE : integer := 0
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);
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port(
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rst : in std_ulogic;
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system_clk : in std_ulogic;
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-- DRAM controller signals
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wb_dram_in : out wishbone_master_out;
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wb_dram_out : in wishbone_slave_out;
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wb_dram_ctrl_in : out wb_io_master_out;
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wb_dram_ctrl_out : in wb_io_slave_out;
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wb_dram_is_csr : out std_ulogic;
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wb_dram_is_init : out std_ulogic;
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-- UART0 signals:
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uart0_txd : out std_ulogic;
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uart0_rxd : in std_ulogic;
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-- DRAM controller signals
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alt_reset : in std_ulogic
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);
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end entity soc;
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architecture behaviour of soc is
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-- Wishbone master signals:
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signal wishbone_dcore_in : wishbone_slave_out;
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signal wishbone_dcore_out : wishbone_master_out;
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signal wishbone_icore_in : wishbone_slave_out;
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signal wishbone_icore_out : wishbone_master_out;
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signal wishbone_debug_in : wishbone_slave_out;
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signal wishbone_debug_out : wishbone_master_out;
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-- Arbiter array (ghdl doesnt' support assigning the array
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-- elements in the entity instantiation)
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constant NUM_WB_MASTERS : positive := 3;
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signal wb_masters_out : wishbone_master_out_vector(0 to NUM_WB_MASTERS-1);
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signal wb_masters_in : wishbone_slave_out_vector(0 to NUM_WB_MASTERS-1);
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-- Wishbone master (output of arbiter):
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signal wb_master_in : wishbone_slave_out;
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signal wb_master_out : wishbone_master_out;
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-- Main "IO" bus, from main slave decoder to the latch
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signal wb_io_in : wishbone_master_out;
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signal wb_io_out : wishbone_slave_out;
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-- Secondary (smaller) IO bus after the IO bus latch
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signal wb_sio_out : wb_io_master_out;
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signal wb_sio_in : wb_io_slave_out;
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-- Syscon signals
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signal dram_at_0 : std_ulogic;
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signal do_core_reset : std_ulogic;
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signal wb_syscon_in : wb_io_master_out;
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signal wb_syscon_out : wb_io_slave_out;
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-- UART0 signals:
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signal wb_uart0_in : wb_io_master_out;
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signal wb_uart0_out : wb_io_slave_out;
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signal uart_dat8 : std_ulogic_vector(7 downto 0);
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-- XICS0 signals:
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signal wb_xics0_in : wb_io_master_out;
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signal wb_xics0_out : wb_io_slave_out;
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signal int_level_in : std_ulogic_vector(15 downto 0);
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signal core_ext_irq : std_ulogic;
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-- Main memory signals:
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signal wb_bram_in : wishbone_master_out;
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signal wb_bram_out : wishbone_slave_out;
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-- DMI debug bus signals
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signal dmi_addr : std_ulogic_vector(7 downto 0);
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signal dmi_din : std_ulogic_vector(63 downto 0);
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signal dmi_dout : std_ulogic_vector(63 downto 0);
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signal dmi_req : std_ulogic;
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signal dmi_wr : std_ulogic;
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signal dmi_ack : std_ulogic;
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-- Per slave DMI signals
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signal dmi_wb_dout : std_ulogic_vector(63 downto 0);
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signal dmi_wb_req : std_ulogic;
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signal dmi_wb_ack : std_ulogic;
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signal dmi_core_dout : std_ulogic_vector(63 downto 0);
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signal dmi_core_req : std_ulogic;
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signal dmi_core_ack : std_ulogic;
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-- Delayed/latched resets and alt_reset
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signal rst_core : std_ulogic := '1';
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signal rst_uart : std_ulogic := '1';
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signal rst_xics : std_ulogic := '1';
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signal rst_bram : std_ulogic := '1';
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signal rst_dtm : std_ulogic := '1';
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signal rst_wbar : std_ulogic := '1';
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signal rst_wbdb : std_ulogic := '1';
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signal alt_reset_d : std_ulogic;
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begin
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resets: process(system_clk)
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begin
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if rising_edge(system_clk) then
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rst_core <= rst or do_core_reset;
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rst_uart <= rst;
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rst_xics <= rst;
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rst_bram <= rst;
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rst_dtm <= rst;
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rst_wbar <= rst;
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rst_wbdb <= rst;
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alt_reset_d <= alt_reset;
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end if;
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end process;
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-- Processor core
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processor: entity work.core
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generic map(
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SIM => SIM,
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DISABLE_FLATTEN => DISABLE_FLATTEN_CORE,
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ALT_RESET_ADDRESS => (27 downto 0 => '0', others => '1')
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)
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port map(
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clk => system_clk,
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rst => rst_core,
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alt_reset => alt_reset_d,
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wishbone_insn_in => wishbone_icore_in,
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wishbone_insn_out => wishbone_icore_out,
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wishbone_data_in => wishbone_dcore_in,
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wishbone_data_out => wishbone_dcore_out,
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dmi_addr => dmi_addr(3 downto 0),
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dmi_dout => dmi_core_dout,
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dmi_din => dmi_dout,
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dmi_wr => dmi_wr,
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dmi_ack => dmi_core_ack,
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dmi_req => dmi_core_req,
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ext_irq => core_ext_irq
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);
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-- Wishbone bus master arbiter & mux
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wb_masters_out <= (0 => wishbone_dcore_out,
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1 => wishbone_icore_out,
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2 => wishbone_debug_out);
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wishbone_dcore_in <= wb_masters_in(0);
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wishbone_icore_in <= wb_masters_in(1);
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wishbone_debug_in <= wb_masters_in(2);
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wishbone_arbiter_0: entity work.wishbone_arbiter
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generic map(
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NUM_MASTERS => NUM_WB_MASTERS
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)
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port map(
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clk => system_clk,
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rst => rst_wbar,
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wb_masters_in => wb_masters_out,
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wb_masters_out => wb_masters_in,
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wb_slave_out => wb_master_out,
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wb_slave_in => wb_master_in
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);
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-- Top level Wishbone slaves address decoder & mux
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--
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-- From CPU to BRAM, DRAM, IO, selected on top 3 bits and dram_at_0
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-- 0000 - BRAM
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-- 0001 - DRAM
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-- 01xx - DRAM
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-- 10xx - BRAM
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-- 11xx - IO
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--
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slave_top_intercon: process(wb_master_out, wb_bram_out, wb_dram_out, wb_io_out, dram_at_0)
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type slave_top_type is (SLAVE_TOP_BRAM,
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SLAVE_TOP_DRAM,
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SLAVE_TOP_IO);
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variable slave_top : slave_top_type;
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variable top_decode : std_ulogic_vector(3 downto 0);
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begin
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-- Top-level address decoder
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top_decode := wb_master_out.adr(31 downto 29) & dram_at_0;
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slave_top := SLAVE_TOP_BRAM;
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if std_match(top_decode, "0000") then
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slave_top := SLAVE_TOP_BRAM;
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elsif std_match(top_decode, "0001") then
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slave_top := SLAVE_TOP_DRAM;
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elsif std_match(top_decode, "01--") then
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slave_top := SLAVE_TOP_DRAM;
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elsif std_match(top_decode, "10--") then
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slave_top := SLAVE_TOP_BRAM;
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elsif std_match(top_decode, "11--") then
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slave_top := SLAVE_TOP_IO;
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end if;
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-- Top level wishbone muxing.
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wb_bram_in <= wb_master_out;
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wb_bram_in.cyc <= '0';
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wb_dram_in <= wb_master_out;
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wb_dram_in.cyc <= '0';
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wb_io_in <= wb_master_out;
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wb_io_in.cyc <= '0';
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case slave_top is
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when SLAVE_TOP_BRAM =>
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wb_bram_in.cyc <= wb_master_out.cyc;
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wb_master_in <= wb_bram_out;
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when SLAVE_TOP_DRAM =>
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wb_dram_in.cyc <= wb_master_out.cyc;
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wb_master_in <= wb_dram_out;
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when SLAVE_TOP_IO =>
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wb_io_in.cyc <= wb_master_out.cyc;
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wb_master_in <= wb_io_out;
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end case;
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end process slave_top_intercon;
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-- IO wishbone slave 64->32 bits converter
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--
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-- For timing reasons, this adds a one cycle latch on the way both
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-- in and out. This relaxes timing and routing pressure on the "main"
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-- memory bus by moving all simple IOs to a slower 32-bit bus.
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--
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-- This implementation is rather dumb at the moment, no stash buffer,
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-- so we stall whenever that latch is busy. This can be improved.
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--
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slave_io_latch: process(system_clk)
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-- State
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type state_t is (IDLE, WAIT_ACK_BOT, WAIT_ACK_TOP);
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variable state : state_t;
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-- Misc
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variable has_top : boolean;
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variable has_bot : boolean;
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begin
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if rising_edge(system_clk) then
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if (rst) then
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state := IDLE;
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wb_io_out.ack <= '0';
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wb_io_out.stall <= '0';
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wb_sio_out.cyc <= '0';
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wb_sio_out.stb <= '0';
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has_top := false;
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has_bot := false;
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else
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case state is
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when IDLE =>
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-- Clear ACK in case it was set
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wb_io_out.ack <= '0';
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-- Do we have a cycle ?
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if wb_io_in.cyc = '1' and wb_io_in.stb = '1' then
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-- Stall master until we are done, we are't (yet) pipelining
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-- this, it's all slow IOs.
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wb_io_out.stall <= '1';
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-- Start cycle downstream
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wb_sio_out.cyc <= '1';
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wb_sio_out.stb <= '1';
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-- Copy write enable to IO out, copy address as well
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wb_sio_out.we <= wb_io_in.we;
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wb_sio_out.adr <= wb_io_in.adr(wb_sio_out.adr'left downto 3) & "000";
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-- Do we have a top word and/or a bottom word ?
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has_top := wb_io_in.sel(7 downto 4) /= "0000";
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has_bot := wb_io_in.sel(3 downto 0) /= "0000";
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-- If we have a bottom word, handle it first, otherwise
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-- send the top word down. XXX Split the actual mux out
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-- and only generate a control signal.
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if has_bot then
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if wb_io_in.we = '1' then
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wb_sio_out.dat <= wb_io_in.dat(31 downto 0);
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end if;
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wb_sio_out.sel <= wb_io_in.sel(3 downto 0);
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-- Wait for ack
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state := WAIT_ACK_BOT;
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else
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if wb_io_in.we = '1' then
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wb_sio_out.dat <= wb_io_in.dat(63 downto 32);
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end if;
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wb_sio_out.sel <= wb_io_in.sel(7 downto 4);
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-- Bump address
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wb_sio_out.adr(2) <= '1';
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-- Wait for ack
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state := WAIT_ACK_TOP;
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end if;
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end if;
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when WAIT_ACK_BOT =>
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-- If we aren't stalled by the device, clear stb
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if wb_sio_in.stall = '0' then
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wb_sio_out.stb <= '0';
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end if;
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-- Handle ack
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if wb_sio_in.ack = '1' then
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-- If it's a read, latch the data
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if wb_sio_out.we = '0' then
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wb_io_out.dat(31 downto 0) <= wb_sio_in.dat;
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end if;
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-- Do we have a "top" part as well ?
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if has_top then
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-- Latch data & sel
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if wb_io_in.we = '1' then
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wb_sio_out.dat <= wb_io_in.dat(63 downto 32);
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end if;
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wb_sio_out.sel <= wb_io_in.sel(7 downto 4);
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-- Bump address and set STB
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wb_sio_out.adr(2) <= '1';
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wb_sio_out.stb <= '1';
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-- Wait for new ack
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state := WAIT_ACK_TOP;
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else
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-- We are done, ack up, clear cyc downstram
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wb_sio_out.cyc <= '0';
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-- And ack & unstall upstream
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wb_io_out.ack <= '1';
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wb_io_out.stall <= '0';
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-- Wait for next one
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state := IDLE;
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end if;
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end if;
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when WAIT_ACK_TOP =>
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-- If we aren't stalled by the device, clear stb
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if wb_sio_in.stall = '0' then
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wb_sio_out.stb <= '0';
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end if;
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-- Handle ack
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if wb_sio_in.ack = '1' then
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-- If it's a read, latch the data
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if wb_sio_out.we = '0' then
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wb_io_out.dat(63 downto 32) <= wb_sio_in.dat;
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end if;
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-- We are done, ack up, clear cyc downstram
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wb_sio_out.cyc <= '0';
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-- And ack & unstall upstream
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wb_io_out.ack <= '1';
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wb_io_out.stall <= '0';
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-- Wait for next one
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state := IDLE;
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end if;
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end case;
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end if;
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end if;
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end process;
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-- IO wishbone slave intercon.
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--
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slave_io_intercon: process(wb_sio_out, wb_syscon_out, wb_uart0_out,
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wb_dram_ctrl_out, wb_xics0_out)
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-- IO branch split:
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type slave_io_type is (SLAVE_IO_SYSCON,
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SLAVE_IO_UART,
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SLAVE_IO_DRAM_INIT,
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SLAVE_IO_DRAM_CSR,
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SLAVE_IO_ICP_0,
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SLAVE_IO_NONE);
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variable slave_io : slave_io_type;
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variable match : std_ulogic_vector(31 downto 12);
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begin
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-- Simple address decoder.
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slave_io := SLAVE_IO_NONE;
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match := "11" & wb_sio_out.adr(29 downto 12);
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if std_match(match, x"F----") then
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slave_io := SLAVE_IO_DRAM_INIT;
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elsif std_match(match, x"C0000") then
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slave_io := SLAVE_IO_SYSCON;
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elsif std_match(match, x"C0002") then
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slave_io := SLAVE_IO_UART;
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elsif std_match(match, x"C01--") then
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slave_io := SLAVE_IO_DRAM_CSR;
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elsif std_match(match, x"C0004") then
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slave_io := SLAVE_IO_ICP_0;
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end if;
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wb_uart0_in <= wb_sio_out;
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wb_uart0_in.cyc <= '0';
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-- Only give xics 8 bits of wb addr
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wb_xics0_in <= wb_sio_out;
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wb_xics0_in.adr <= (others => '0');
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wb_xics0_in.adr(7 downto 0) <= wb_sio_out.adr(7 downto 0);
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wb_xics0_in.cyc <= '0';
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wb_dram_ctrl_in <= wb_sio_out;
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wb_dram_ctrl_in.cyc <= '0';
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wb_dram_is_csr <= '0';
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wb_dram_is_init <= '0';
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wb_syscon_in <= wb_sio_out;
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wb_syscon_in.cyc <= '0';
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case slave_io is
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when SLAVE_IO_DRAM_INIT =>
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wb_dram_ctrl_in.cyc <= wb_sio_out.cyc;
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wb_sio_in <= wb_dram_ctrl_out;
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wb_dram_is_init <= '1';
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when SLAVE_IO_DRAM_CSR =>
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wb_dram_ctrl_in.cyc <= wb_sio_out.cyc;
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wb_sio_in <= wb_dram_ctrl_out;
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wb_dram_is_csr <= '1';
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when SLAVE_IO_SYSCON =>
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wb_syscon_in.cyc <= wb_sio_out.cyc;
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wb_sio_in <= wb_syscon_out;
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when SLAVE_IO_UART =>
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wb_uart0_in.cyc <= wb_sio_out.cyc;
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wb_sio_in <= wb_uart0_out;
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when SLAVE_IO_ICP_0 =>
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wb_xics0_in.cyc <= wb_sio_out.cyc;
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wb_sio_in <= wb_xics0_out;
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when others =>
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wb_sio_in.dat <= (others => '1');
|
|
wb_sio_in.ack <= wb_sio_out.stb and wb_sio_out.cyc;
|
|
wb_sio_in.stall <= '0';
|
|
end case;
|
|
|
|
end process;
|
|
|
|
-- Syscon slave
|
|
syscon0: entity work.syscon
|
|
generic map(
|
|
HAS_UART => true,
|
|
HAS_DRAM => HAS_DRAM,
|
|
BRAM_SIZE => MEMORY_SIZE,
|
|
DRAM_SIZE => DRAM_SIZE,
|
|
DRAM_INIT_SIZE => DRAM_INIT_SIZE,
|
|
CLK_FREQ => CLK_FREQ
|
|
)
|
|
port map(
|
|
clk => system_clk,
|
|
rst => rst,
|
|
wishbone_in => wb_syscon_in,
|
|
wishbone_out => wb_syscon_out,
|
|
dram_at_0 => dram_at_0,
|
|
core_reset => do_core_reset,
|
|
soc_reset => open -- XXX TODO
|
|
);
|
|
|
|
-- Simulated memory and UART
|
|
|
|
-- UART0 wishbone slave
|
|
uart0: entity work.pp_soc_uart
|
|
generic map(
|
|
FIFO_DEPTH => 32
|
|
)
|
|
port map(
|
|
clk => system_clk,
|
|
reset => rst_uart,
|
|
txd => uart0_txd,
|
|
rxd => uart0_rxd,
|
|
irq => int_level_in(0),
|
|
wb_adr_in => wb_uart0_in.adr(11 downto 0),
|
|
wb_dat_in => wb_uart0_in.dat(7 downto 0),
|
|
wb_dat_out => uart_dat8,
|
|
wb_cyc_in => wb_uart0_in.cyc,
|
|
wb_stb_in => wb_uart0_in.stb,
|
|
wb_we_in => wb_uart0_in.we,
|
|
wb_ack_out => wb_uart0_out.ack
|
|
);
|
|
wb_uart0_out.dat <= x"000000" & uart_dat8;
|
|
wb_uart0_out.stall <= '0' when wb_uart0_in.cyc = '0' else not wb_uart0_out.ack;
|
|
|
|
xics0: entity work.xics
|
|
generic map(
|
|
LEVEL_NUM => 16
|
|
)
|
|
port map(
|
|
clk => system_clk,
|
|
rst => rst_xics,
|
|
wb_in => wb_xics0_in,
|
|
wb_out => wb_xics0_out,
|
|
int_level_in => int_level_in,
|
|
core_irq_out => core_ext_irq
|
|
);
|
|
|
|
-- BRAM Memory slave
|
|
bram: if MEMORY_SIZE /= 0 generate
|
|
bram0: entity work.wishbone_bram_wrapper
|
|
generic map(
|
|
MEMORY_SIZE => MEMORY_SIZE,
|
|
RAM_INIT_FILE => RAM_INIT_FILE
|
|
)
|
|
port map(
|
|
clk => system_clk,
|
|
rst => rst_bram,
|
|
wishbone_in => wb_bram_in,
|
|
wishbone_out => wb_bram_out
|
|
);
|
|
end generate;
|
|
|
|
no_bram: if MEMORY_SIZE = 0 generate
|
|
wb_bram_out.ack <= wb_bram_in.cyc and wb_bram_in.stb;
|
|
wb_bram_out.dat <= x"FFFFFFFFFFFFFFFF";
|
|
wb_bram_out.stall <= wb_bram_in.cyc and not wb_bram_out.ack;
|
|
end generate;
|
|
|
|
-- DMI(debug bus) <-> JTAG bridge
|
|
dtm: entity work.dmi_dtm
|
|
generic map(
|
|
ABITS => 8,
|
|
DBITS => 64
|
|
)
|
|
port map(
|
|
sys_clk => system_clk,
|
|
sys_reset => rst_dtm,
|
|
dmi_addr => dmi_addr,
|
|
dmi_din => dmi_din,
|
|
dmi_dout => dmi_dout,
|
|
dmi_req => dmi_req,
|
|
dmi_wr => dmi_wr,
|
|
dmi_ack => dmi_ack
|
|
);
|
|
|
|
-- DMI interconnect
|
|
dmi_intercon: process(dmi_addr, dmi_req,
|
|
dmi_wb_ack, dmi_wb_dout,
|
|
dmi_core_ack, dmi_core_dout)
|
|
|
|
-- DMI address map (each address is a full 64-bit register)
|
|
--
|
|
-- Offset: Size: Slave:
|
|
-- 0 4 Wishbone
|
|
-- 10 16 Core
|
|
|
|
type slave_type is (SLAVE_WB,
|
|
SLAVE_CORE,
|
|
SLAVE_NONE);
|
|
variable slave : slave_type;
|
|
begin
|
|
-- Simple address decoder
|
|
slave := SLAVE_NONE;
|
|
if std_match(dmi_addr, "000000--") then
|
|
slave := SLAVE_WB;
|
|
elsif std_match(dmi_addr, "0001----") then
|
|
slave := SLAVE_CORE;
|
|
end if;
|
|
|
|
-- DMI muxing
|
|
dmi_wb_req <= '0';
|
|
dmi_core_req <= '0';
|
|
case slave is
|
|
when SLAVE_WB =>
|
|
dmi_wb_req <= dmi_req;
|
|
dmi_ack <= dmi_wb_ack;
|
|
dmi_din <= dmi_wb_dout;
|
|
when SLAVE_CORE =>
|
|
dmi_core_req <= dmi_req;
|
|
dmi_ack <= dmi_core_ack;
|
|
dmi_din <= dmi_core_dout;
|
|
when others =>
|
|
dmi_ack <= dmi_req;
|
|
dmi_din <= (others => '1');
|
|
end case;
|
|
|
|
-- SIM magic exit
|
|
if SIM and dmi_req = '1' and dmi_addr = "11111111" and dmi_wr = '1' then
|
|
stop;
|
|
end if;
|
|
end process;
|
|
|
|
-- Wishbone debug master (TODO: Add a DMI address decoder)
|
|
wishbone_debug: entity work.wishbone_debug_master
|
|
port map(clk => system_clk,
|
|
rst => rst_wbdb,
|
|
dmi_addr => dmi_addr(1 downto 0),
|
|
dmi_dout => dmi_wb_dout,
|
|
dmi_din => dmi_dout,
|
|
dmi_wr => dmi_wr,
|
|
dmi_ack => dmi_wb_ack,
|
|
dmi_req => dmi_wb_req,
|
|
wb_in => wishbone_debug_in,
|
|
wb_out => wishbone_debug_out);
|
|
|
|
|
|
end architecture behaviour;
|