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Add multi master sys bus

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This commit is contained in:
Paul Mathieu 2021-03-06 16:36:57 -08:00
parent ea52764fc4
commit 9e61fd9456
3 changed files with 456 additions and 0 deletions
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18
sysbus/makefile Normal file
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all: sim
sim: test.ghw
sim_sources = sysbus_test.vhdl
sources = sysbus.vhdl
test_entity = sysbus_test
test.ghw: work-obj93.cf
ghdl -r $(test_entity) --wave=$@
work-obj93.cf: $(sim_sources) $(sources)
ghdl -a $^
PHONY: sim
.PRECIOUS: test.ghw

197
sysbus/sysbus.vhdl Normal file
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library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity sysbus is
port(
clk: in std_logic;
rst: in std_logic;
-- master port 0
m0_addr: in std_logic_vector(15 downto 0);
m0_wdata: in std_logic_vector(15 downto 0);
m0_rdata: out std_logic_vector(15 downto 0);
m0_re: in std_logic;
m0_we: in std_logic;
m0_busy: out std_logic;
-- master port 1
m1_addr: in std_logic_vector(15 downto 0);
m1_wdata: in std_logic_vector(15 downto 0);
m1_rdata: out std_logic_vector(15 downto 0);
m1_re: in std_logic;
m1_we: in std_logic;
m1_busy: out std_logic;
-- actual bus
bus_addr: out std_logic_vector(15 downto 0);
bus_wdata: out std_logic_vector(15 downto 0);
bus_rdata: in std_logic_vector(15 downto 0);
bus_re: out std_logic;
bus_we: out std_logic
);
end entity sysbus;
architecture behavior of sysbus is
type bus_state is (IDLE, READING, PENDING);
signal owner_next, owner: std_logic_vector(0 to 1);
signal state_next, state: bus_state;
signal pend_addr, pend_addr_next: std_logic_vector(15 downto 0);
signal pend_wdata, pend_wdata_next: std_logic_vector(15 downto 0);
signal pend, pend_next: std_logic_vector(0 to 1);
signal were: std_logic_vector(0 to 3);
begin
were <= m0_we & m1_we & m0_re & m1_re;
process(were, m0_addr, m0_wdata, m1_addr, m1_wdata, bus_rdata, state, owner, pend, pend_addr, pend_wdata)
begin
if pend = "00" then
m0_busy <= '0';
m1_busy <= '0';
else
m0_busy <= '1';
m1_busy <= '1';
end if;
pend_next <= pend;
owner_next <= "00";
bus_we <= '0';
bus_re <= '0';
-- some defaults
bus_addr <= x"0000";
bus_wdata <= x"0000";
m0_rdata <= x"0000";
m1_rdata <= x"0000";
case state is
when READING =>
if owner = "10" then
m0_rdata <= bus_rdata;
m1_busy <= '1';
else
m1_rdata <= bus_rdata;
m0_busy <= '1';
end if;
if pend = "00" then
state_next <= IDLE;
else
state_next <= PENDING;
end if;
when PENDING =>
bus_addr <= pend_addr;
bus_we <= '1';
bus_wdata <= pend_wdata;
pend_next <= "00";
state_next <= IDLE;
when IDLE =>
case were is
when "0000" =>
-- chill
when "1000" =>
bus_addr <= m0_addr;
bus_wdata <= m0_wdata;
bus_we <= '1';
bus_re <= '0';
when "0100" =>
bus_addr <= m1_addr;
bus_wdata <= m1_wdata;
bus_we <= '1';
bus_re <= '0';
when "1100" =>
bus_addr <= m0_addr;
bus_wdata <= m0_wdata;
bus_we <= '1';
bus_re <= '0';
pend_next <= "01";
pend_addr_next <= m1_addr;
pend_wdata_next <= m1_wdata;
state_next <= PENDING;
when "0010" =>
state_next <= READING;
owner_next <= "10";
bus_addr <= m0_addr;
bus_we <= '0';
bus_re <= '1';
when "0001" =>
state_next <= READING;
owner_next <= "01";
bus_addr <= m1_addr;
bus_we <= '0';
bus_re <= '1';
when "0011" =>
state_next <= READING;
owner_next <= "10";
bus_addr <= m0_addr;
bus_we <= '0';
bus_re <= '1';
m1_busy <= '1';
when "1001" =>
state_next <= READING;
owner_next <= "01";
bus_addr <= m1_addr;
bus_we <= '0';
bus_re <= '1';
pend_next <= "10";
pend_addr_next <= m0_addr;
pend_wdata_next <= m0_wdata;
m0_busy <= '1';
when "0110" =>
state_next <= READING;
owner_next <= "10";
bus_addr <= m0_addr;
bus_we <= '0';
bus_re <= '1';
pend_next <= "01";
pend_addr_next <= m1_addr;
pend_wdata_next <= m1_wdata;
m1_busy <= '1';
when others =>
-- blarg
end case;
end case;
end process;
process(clk, rst)
begin
if rst = '1' then
state <= IDLE;
owner <= "00";
pend <= "00";
pend_addr <= x"0000";
pend_wdata <= x"0000";
elsif rising_edge(clk) then
state <= state_next;
owner <= owner_next;
pend <= pend_next;
pend_addr <= pend_addr_next;
pend_wdata <= pend_wdata_next;
end if;
end process;
end behavior;

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sysbus/sysbus_test.vhdl Normal file
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library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use std.textio.all;
entity sysbus_test is
end sysbus_test;
architecture rtl of sysbus_test is
component sysbus is
port(
clk: in std_logic;
rst: in std_logic;
-- master port 0
m0_addr: in std_logic_vector(15 downto 0);
m0_wdata: in std_logic_vector(15 downto 0);
m0_rdata: out std_logic_vector(15 downto 0);
m0_re: in std_logic;
m0_we: in std_logic;
m0_busy: out std_logic;
-- master port 1
m1_addr: in std_logic_vector(15 downto 0);
m1_wdata: in std_logic_vector(15 downto 0);
m1_rdata: out std_logic_vector(15 downto 0);
m1_re: in std_logic;
m1_we: in std_logic;
m1_busy: out std_logic;
-- actual bus
bus_addr: out std_logic_vector(15 downto 0);
bus_wdata: out std_logic_vector(15 downto 0);
bus_rdata: in std_logic_vector(15 downto 0);
bus_re: out std_logic;
bus_we: out std_logic
);
end component;
signal finished: std_logic := '0';
signal clk, rst: std_logic := '0';
signal m0_addr, m0_wdata, m0_rdata: std_logic_vector(15 downto 0);
signal m0_re, m0_we, m0_busy: std_logic;
signal m1_addr, m1_wdata, m1_rdata: std_logic_vector(15 downto 0);
signal m1_re, m1_we, m1_busy: std_logic;
signal bus_addr, bus_wdata, bus_rdata: std_logic_vector(15 downto 0);
signal bus_re, bus_we : std_logic;
signal bus_rdata_next: std_logic_vector(15 downto 0);
begin
dut: sysbus port map(clk => clk, rst => rst,
m0_addr => m0_addr, m0_wdata => m0_wdata, m0_rdata => m0_rdata,
m0_re => m0_re, m0_we => m0_we, m0_busy => m0_busy,
m1_addr => m1_addr, m1_wdata => m1_wdata, m1_rdata => m1_rdata,
m1_re => m1_re, m1_we => m1_we, m1_busy => m1_busy,
bus_addr => bus_addr, bus_wdata => bus_wdata, bus_rdata => bus_rdata,
bus_re => bus_re, bus_we => bus_we
);
-- clock
process
begin
if finished = '0' then
clk <= not clk;
wait for 5 ns;
else
clk <= '0';
wait;
end if;
end process;
-- memory
process(bus_re, bus_addr)
begin
bus_rdata_next <= x"0000";
if bus_re = '1' then
case bus_addr is
when x"feed" =>
bus_rdata_next <= x"babe";
when x"dead" =>
bus_rdata_next <= x"beef";
when others =>
end case;
end if;
end process;
process(clk, rst)
begin
if rst = '1' then
bus_rdata <= x"0000";
elsif rising_edge(clk) then
bus_rdata <= bus_rdata_next;
end if;
end process;
process
begin
rst <= '1';
m0_re <= '0';
m0_we <= '0';
m1_re <= '0';
m1_we <= '0';
wait for 1 ns;
assert(m0_busy='0') report "Fail rst" severity error;
assert(m1_busy='0') report "Fail rst" severity error;
rst <= '0';
wait for 10 ns;
assert(m0_busy='0') report "Should still be idle" severity error;
assert(m1_busy='0') report "Should still be idle" severity error;
-- m0 write
m0_addr <= x"feed";
m0_wdata <= x"babe";
m0_we <= '1';
wait for 10 ns;
assert(bus_addr=x"feed") report "Did not do write" severity error;
assert(bus_wdata=x"babe") report "Did not do write" severity error;
m0_we <= '0';
-- read
m0_re <= '1';
wait for 10 ns;
assert(m0_rdata=x"babe") report "Did not do read" severity error;
assert(m1_busy='1') report "Did not do block m1 for m0 read" severity error;
m0_re <= '0';
wait for 10 ns;
assert(m0_busy='0') report "m0 was not idle" severity error;
assert(m1_busy='0') report "m1 was not idle" severity error;
-- m1 write
m1_addr <= x"dead";
m1_wdata <= x"beef";
m1_we <= '1';
wait for 10 ns;
assert(bus_addr=x"dead") report "Did not do write" severity error;
assert(bus_wdata=x"beef") report "Did not do write" severity error;
m1_we <= '0';
-- read
m1_re <= '1';
wait for 10 ns;
assert(m1_rdata=x"beef") report "Did not do read m1" severity error;
assert(m0_busy='1') report "Did not do block m0 for m1 read" severity error;
m1_re <= '0';
wait for 10 ns;
assert(m0_busy='0') report "m0 was not idle" severity error;
assert(m1_busy='0') report "m1 was not idle" severity error;
-- serious shit below
-- concurent writes
m0_addr <= x"feed";
m0_wdata <= x"babe";
m0_we <= '1';
m1_addr <= x"dead";
m1_wdata <= x"beef";
m1_we <= '1';
wait for 9 ns;
assert(bus_addr=x"feed") report "Did not do write m0" severity error;
assert(bus_wdata=x"babe") report "Did not do write m0" severity error;
wait for 1 ns;
assert(m1_busy='1') report "Did not do delay m1" severity error;
m0_we <= '0';
m1_we <= '0';
wait for 9 ns;
assert(bus_addr=x"dead") report "Did not do write m1" severity error;
assert(bus_wdata=x"beef") report "Did not do write m1" severity error;
wait for 1 ns;
wait for 10 ns;
assert(m0_busy='0') report "m0 was not idle" severity error;
assert(m1_busy='0') report "m1 was not idle" severity error;
-- concurrent reads (!!)
m0_re <= '1';
m1_re <= '1';
wait for 10 ns;
assert(m0_rdata=x"babe") report "Did not do read m0" severity error;
assert(m1_busy='1') report "Did not do block m1 for m0 read" severity error;
m0_re <= '0';
wait for 20 ns;
assert(m1_busy='0') report "m1 was not idle" severity error;
assert(m1_rdata=x"beef") report "Did not do read m1" severity error;
assert(m0_busy='1') report "Did not do block m0 for m1 read" severity error;
m1_re <= '0';
wait for 10 ns;
assert(m0_busy='0') report "m0 was not idle" severity error;
assert(m1_busy='0') report "m1 was not idle" severity error;
-- concurrent read & write (OMG)
m1_re <= '1';
m0_we <= '1';
wait for 10 ns;
assert(m1_rdata=x"beef") report "Did not do read m1" severity error;
assert(m0_busy='1') report "Did not do block m0 for m1 read" severity error;
m1_re <= '0';
wait for 10 ns;
assert(bus_addr=x"feed") report "Did not do write m0" severity error;
assert(bus_wdata=x"babe") report "Did not do write m0" severity error;
m0_we <= '0';
wait for 10 ns;
assert(m0_busy='0') report "m0 was not idle" severity error;
assert(m1_busy='0') report "m1 was not idle" severity error;
assert false report "Test done." severity note;
finished <= '1';
wait;
end process;
end rtl;