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wfjm.w11/rtl/w11a/pdp11_core_rbus.vhd
wfjm 792b175100 content renames gpr -> gr
2022-10-28 08:48:07 +02:00

439 lines
16 KiB
VHDL
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-- $Id: pdp11_core_rbus.vhd 1310 2022-10-27 16:15:50Z mueller $
-- SPDX-License-Identifier: GPL-3.0-or-later
-- Copyright 2007-2019 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de>
--
------------------------------------------------------------------------------
-- Module Name: pdp11_core_rbus - syn
-- Description: pdp11: core to rbus interface
--
-- Dependencies: -
-- Test bench: tb/tb_rlink_tba_pdp11core
--
-- Target Devices: generic
-- Tool versions: ise 8.2-14.7; viv 2014.4-2019.1; ghdl 0.18-0.35
--
-- Synthesized (xst):
-- Date Rev ise Target flop lutl lutm slic t peri
-- 2014-12-21 591 14.7 131013 xc6slx16-2 52 118 0 58 s 4.9
--
-- Revision History: -
-- Date Rev Version Comment
-- 2019-06-02 1159 1.5.4 use rbaddr_ constants
-- 2019-03-02 1116 1.5.3 rename state field rbinit to greset
-- 2016-05-22 767 1.5.2 don't init N_REGS (vivado fix for fsm inference)
-- 2015-07-10 700 1.5.1 add cpuact logic, redefine lam as cpuact 1->0
-- 2015-05-09 677 1.5 start/stop/suspend overhaul; reset overhaul
-- 2014-12-26 621 1.4 use full size 4k word ibus window
-- 2014-12-21 617 1.3.1 use separate RB_STAT bits for cmderr and cmdmerr
-- 2014-09-05 591 1.3 use new rlink v4 iface and 4 bit STAT
-- 2014-08-15 583 1.2 rb_mreq addr now 16 bit
-- 2011-11-18 427 1.1.1 now numeric_std clean
-- 2010-12-29 351 1.1 renamed from pdp11_core_rri; ported to rbv3
-- 2010-10-23 335 1.2.3 rename RRI_LAM->RB_LAM;
-- 2010-06-20 308 1.2.2 use c_ibrb_ibf_ def's
-- 2010-06-18 306 1.2.1 rename RB_ADDR->RB_ADDR_CORE, add RB_ADDR_IBUS;
-- add ibrb register and ibr window logic
-- 2010-06-13 305 1.2 add CP_ADDR in port; mostly rewritten for new
-- rri <-> cp mapping
-- 2010-06-03 299 1.1.2 correct rbus init logic (use we, din, RB_ADDR)
-- 2010-05-02 287 1.1.1 rename RP_STAT->RB_STAT; remove unneeded unsigned()
-- 2010-05-01 285 1.1 port to rri V2 interface, add RB_ADDR generic;
-- rename c_rp_addr_* -> c_rb_addr_*
-- 2008-05-03 143 1.0.8 rename _cpursta->_cpurust
-- 2008-04-27 140 1.0.7 use cpursta interface, remove cpufail
-- 2008-03-02 121 1.0.6 set RP_ERR when cmderr or cmdmerr status seen
-- 2008-02-24 119 1.0.5 support lah,rps,wps cp commands
-- 2008-01-20 113 1.0.4 use single LAM; change to RRI_LAM interface
-- 2007-10-12 88 1.0.3 avoid ieee.std_logic_unsigned, use cast to unsigned
-- 2007-08-16 74 1.0.2 add AP_LAM interface to pdp11_core_rri
-- 2007-08-12 73 1.0.1 use def's; add stat command; wait for step complete
-- 2007-07-08 65 1.0 Initial version
------------------------------------------------------------------------------
--
-- rbus registers:
--
-- Addr Bits Name r/w/f Function
--
-- 00000 conf r/w/- cpu configuration (e.g. cpu type)
-- (currently unused, all bits MBZ)
-- 00001 cntl -/f/- cpu control
-- 3:00 func function code
-- 0000: noop
-- 0001: start
-- 0010: stop
-- 0011: step
-- 0100: creset
-- 0101: breset
-- 0110: suspend
-- 0111: resume
-- 00010 stat r/-/- cpu status
-- 9 suspext r/-/- cp_stat: statext
-- 8 suspint r/-/- cp_stat: statint
-- 7:04 cpurust r/-/- cp_stat: cpurust
-- 3 cpususp r/-/- cp_stat: cpususp
-- 2 cpugo r/-/- cp_stat: cpugo
-- 1 cmdmerr r/-/- cp_stat: cmdmerr
-- 0 cmderr r/-/- cp_stat: cmderr
-- 00011 psw r/w/- processor status word access
-- 00100 al r/w/- address register, low
-- 00101 ah r/w/- address register, high
-- 7 ubm r/w/- ubmap access
-- 6 p22 r/w/- 22bit access
-- 5:00 addr r/w/- addr(21:16)
-- 00110 mem r/w/- memory access
-- 00111 memi r/w/- memory access, inc address
-- 01rrr gr[] r/w/- general regs
-- 10000 membe r/w/- memory write byte enables
-- 3 stick r/w/- sticky flag
-- 1:00 be r/w/- byte enables
--
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
use work.slvtypes.all;
use work.rblib.all;
use work.pdp11.all;
-- ----------------------------------------------------------------------------
entity pdp11_core_rbus is -- core to rbus interface
generic (
RB_ADDR_CORE : slv16 := rbaddr_cpu0_core;
RB_ADDR_IBUS : slv16 := rbaddr_cpu0_ibus);
port (
CLK : in slbit; -- clock
RESET : in slbit; -- reset
RB_MREQ : in rb_mreq_type; -- rbus: request
RB_SRES : out rb_sres_type; -- rbus: response
RB_STAT : out slv4; -- rbus: status flags
RB_LAM : out slbit; -- remote attention
GRESET : out slbit; -- general reset
CP_CNTL : out cp_cntl_type; -- console control port
CP_ADDR : out cp_addr_type; -- console address port
CP_DIN : out slv16; -- console data in
CP_STAT : in cp_stat_type; -- console status port
CP_DOUT : in slv16 -- console data out
);
end pdp11_core_rbus;
architecture syn of pdp11_core_rbus is
type state_type is (
s_idle, -- s_idle: wait for rbus access
s_cpwait, -- s_cpwait: wait for cp port ack
s_cpstep -- s_cpstep: wait for cpustep done
);
type regs_type is record
state : state_type; -- state
rbselc : slbit; -- rbus select for core
rbseli : slbit; -- rbus select for ibus
greset : slbit; -- greset from rbus init (1 cycle pulse)
cpreq : slbit; -- cp request flag
cpfunc : slv5; -- cp function
cpuact_1 : slbit; -- prev cycle cpuact
addr : slv22_1; -- address register
ena_22bit : slbit; -- 22bit enable
ena_ubmap : slbit; -- ubmap enable
membe : slv2; -- memory write byte enables
membestick : slbit; -- memory write byte enables sticky
doinc : slbit; -- at cmdack: do addr reg inc
waitstep : slbit; -- at cmdack: wait for cpu step complete
end record regs_type;
constant regs_init : regs_type := (
s_idle, -- state
'0','0', -- rbselc,rbseli
'0', -- greset
'0', -- cpreq
(others=>'0'), -- cpfunc
'0', -- cpuact_1
(others=>'0'), -- addr
'0','0', -- ena_22bit, ena_ubmap
"11",'0', -- membe,membestick
'0','0' -- doinc, waitstep
);
signal R_REGS : regs_type := regs_init;
signal N_REGS : regs_type; -- don't init (vivado fix for fsm infer)
begin
proc_regs: process (CLK)
begin
if rising_edge(CLK) then
if RESET = '1' then
R_REGS <= regs_init;
else
R_REGS <= N_REGS;
end if;
end if;
end process proc_regs;
proc_next: process (R_REGS, RB_MREQ, CP_STAT, CP_DOUT)
variable r : regs_type := regs_init;
variable n : regs_type := regs_init;
variable irb_ack : slbit := '0';
variable irb_busy : slbit := '0';
variable irb_err : slbit := '0';
variable irb_dout : slv16 := (others=>'0');
variable irb_lam : slbit := '0';
variable irbena : slbit := '0';
variable icpuact : slbit := '0';
variable icpreq : slbit := '0';
variable icpaddr : cp_addr_type := cp_addr_init;
begin
r := R_REGS;
n := R_REGS;
irb_ack := '0';
irb_busy := '0';
irb_err := '0';
irb_dout := (others=>'0');
irb_lam := '0';
irbena := RB_MREQ.re or RB_MREQ.we;
icpreq := '0';
-- generate single cycle pulse in case init against rbus base address seen
-- is used to generate some state machine resets via GRESET
n.greset := '0';
if RB_MREQ.init='1' and RB_MREQ.addr=RB_ADDR_CORE then
n.greset := RB_MREQ.din(c_init_rbf_greset);
end if;
-- rbus address decoder
n.rbseli := '0';
n.rbselc := '0';
if RB_MREQ.aval='1' then
if RB_MREQ.addr(15 downto 5)=RB_ADDR_CORE(15 downto 5) then
n.rbselc := '1';
end if;
if RB_MREQ.addr(15 downto 12)=RB_ADDR_IBUS(15 downto 12) then
n.rbseli := '1';
end if;
end if;
if (r.rbselc='1' or r.rbseli='1') and irbena='1' then
irb_ack := '1'; -- ack all (maybe rejected later)
end if;
case r.state is
when s_idle => -- s_idle: wait for rbus access ------
n.doinc := '0';
n.waitstep := '0';
if r.rbseli = '1' then
if irbena = '1' then
n.cpfunc := c_cpfunc_rmem;
n.cpfunc(0) := RB_MREQ.we;
icpreq := '1';
end if;
elsif r.rbselc = '1' then
case RB_MREQ.addr(4 downto 0) is
when c_rbaddr_conf => -- conf -------------------------
null; -- currently no action
when c_rbaddr_cntl => -- cntl -------------------------
if irbena = '1' then
n.cpfunc := RB_MREQ.din(n.cpfunc'range);
end if;
if RB_MREQ.we = '1' then
icpreq := '1';
if RB_MREQ.din(3 downto 0) = c_cpfunc_step(3 downto 0) then
n.waitstep := '1';
end if;
end if;
when c_rbaddr_stat => -- stat ------------------
irb_dout(c_stat_rbf_suspext) := CP_STAT.suspext;
irb_dout(c_stat_rbf_suspint) := CP_STAT.suspint;
irb_dout(c_stat_rbf_cpurust) := CP_STAT.cpurust;
irb_dout(c_stat_rbf_cpususp) := CP_STAT.cpususp;
irb_dout(c_stat_rbf_cpugo) := CP_STAT.cpugo;
irb_dout(c_stat_rbf_cmdmerr) := CP_STAT.cmdmerr;
irb_dout(c_stat_rbf_cmderr) := CP_STAT.cmderr;
when c_rbaddr_psw => -- psw -------------------
if irbena = '1' then
n.cpfunc := c_cpfunc_rpsw;
n.cpfunc(0) := RB_MREQ.we;
icpreq := '1';
end if;
when c_rbaddr_al => -- al --------------------
irb_dout(c_al_rbf_addr) := r.addr(c_al_rbf_addr);
if RB_MREQ.we = '1' then
n.addr := (others=>'0'); -- write to al clears ah !!
n.ena_22bit := '0';
n.ena_ubmap := '0';
n.addr(c_al_rbf_addr) := RB_MREQ.din(c_al_rbf_addr);
end if;
when c_rbaddr_ah => -- ah --------------------
irb_dout(c_ah_rbf_ena_ubmap) := r.ena_ubmap;
irb_dout(c_ah_rbf_ena_22bit) := r.ena_22bit;
irb_dout(c_ah_rbf_addr) := r.addr(21 downto 16);
if RB_MREQ.we = '1' then
n.addr(21 downto 16) := RB_MREQ.din(c_ah_rbf_addr);
n.ena_22bit := RB_MREQ.din(c_ah_rbf_ena_22bit);
n.ena_ubmap := RB_MREQ.din(c_ah_rbf_ena_ubmap);
end if;
when c_rbaddr_mem => -- mem -------------------
if irbena = '1' then
n.cpfunc := c_cpfunc_rmem;
n.cpfunc(0) := RB_MREQ.we;
icpreq := '1';
end if;
when c_rbaddr_memi => -- memi ------------------
if irbena = '1' then
n.cpfunc := c_cpfunc_rmem;
n.cpfunc(0) := RB_MREQ.we;
n.doinc := '1';
icpreq := '1';
end if;
when c_rbaddr_r0 | c_rbaddr_r1 |
c_rbaddr_r2 | c_rbaddr_r3 |
c_rbaddr_r4 | c_rbaddr_r5 |
c_rbaddr_sp | c_rbaddr_pc => -- r* -----------------
if irbena = '1' then
n.cpfunc := c_cpfunc_rreg;
n.cpfunc(0) := RB_MREQ.we;
icpreq := '1';
end if;
when c_rbaddr_membe => -- membe -----------------
irb_dout(c_membe_rbf_be) := r.membe;
irb_dout(c_membe_rbf_stick) := r.membestick;
if RB_MREQ.we = '1' then
n.membe := RB_MREQ.din(c_membe_rbf_be);
n.membestick := RB_MREQ.din(c_membe_rbf_stick);
end if;
when others =>
irb_ack := '0';
end case;
end if;
if icpreq = '1' then
irb_busy := '1';
n.cpreq := '1';
n.state := s_cpwait;
end if;
when s_cpwait => -- s_cpwait: wait for cp port ack ----
n.cpreq := '0'; -- cpreq only for 1 cycle
if (r.rbselc or r.rbseli)='0' or irbena='0' then -- rbus cycle abort
if r.cpfunc = c_cpfunc_wmem and -- if wmem command
r.membestick = '0' then -- and be's not sticky
n.membe := "11"; -- re-enable both bytes
end if;
n.state := s_idle; -- quit
else
irb_dout := CP_DOUT;
irb_err := CP_STAT.cmderr or CP_STAT.cmdmerr;
if CP_STAT.cmdack = '1' then -- normal cycle end
if r.cpfunc = c_cpfunc_wmem and -- if wmem command
r.membestick = '0' then -- and be's not sticky
n.membe := "11"; -- re-enable both bytes
end if;
if r.doinc = '1' then
n.addr := slv(unsigned(r.addr) + 1);
end if;
if r.waitstep = '1' then
irb_busy := '1';
n.state := s_cpstep;
else
n.state := s_idle;
end if;
else
irb_busy := '1';
end if;
end if;
when s_cpstep => -- s_cpstep: wait for cpustep done ---
n.state := s_cpstep; -- needed to prevent vivado iSTATE
if r.rbselc='0' or irbena='0' then -- rbus cycle abort
n.state := s_idle; -- quit
else
if CP_STAT.cpustep = '0' then -- cpustep done
n.state := s_idle;
else
irb_busy := '1';
end if;
end if;
when others => null;
end case;
icpaddr := cp_addr_init;
icpaddr.be := r.membe;
if r.rbseli = '0' then -- access via cp
icpaddr.addr := r.addr;
icpaddr.racc := '0';
icpaddr.ena_22bit := r.ena_22bit;
icpaddr.ena_ubmap := r.ena_ubmap;
else -- access via ibus window
icpaddr.addr(15 downto 13) := "111";
icpaddr.addr(12 downto 1) := RB_MREQ.addr(11 downto 0);
icpaddr.racc := '1';
icpaddr.ena_22bit := '0';
icpaddr.ena_ubmap := '0';
end if;
icpuact := CP_STAT.cpugo and not CP_STAT.suspint;
n.cpuact_1 := icpuact; -- delay cpuact
if (r.cpuact_1='1' and icpuact='0') then -- cpuact 1 -> 0
irb_lam := '1';
end if;
N_REGS <= n;
RB_SRES.ack <= irb_ack;
RB_SRES.err <= irb_err;
RB_SRES.busy <= irb_busy;
RB_SRES.dout <= irb_dout;
RB_STAT(3) <= CP_STAT.cmderr;
RB_STAT(2) <= CP_STAT.cmdmerr;
RB_STAT(1) <= CP_STAT.cpususp;
RB_STAT(0) <= CP_STAT.cpugo;
RB_LAM <= irb_lam;
GRESET <= R_REGS.greset;
CP_CNTL.req <= r.cpreq;
CP_CNTL.func <= r.cpfunc;
CP_CNTL.rnum <= RB_MREQ.addr(2 downto 0);
CP_ADDR <= icpaddr;
CP_DIN <= RB_MREQ.din;
end process proc_next;
end syn;
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