From a2bbe116cb725c92bca19aa25a3a74401c02107f Mon Sep 17 00:00:00 2001 From: jjsuperpower Date: Mon, 5 Sep 2022 17:51:57 -0500 Subject: Restructuring and organizing --- hdl/config.py | 8 ++ hdl/core/reg.py | 231 ++++++++++++++++++++++++++----------------------- hdl/lib/in_out_buff.py | 28 ++++++ 3 files changed, 159 insertions(+), 108 deletions(-) create mode 100644 hdl/config.py create mode 100644 hdl/lib/in_out_buff.py (limited to 'hdl') diff --git a/hdl/config.py b/hdl/config.py new file mode 100644 index 0000000..4761c0a --- /dev/null +++ b/hdl/config.py @@ -0,0 +1,8 @@ +import os + +ROOT_DIR = os.path.dirname(os.path.abspath(__file__)) + +HDL_PATH = os.path.join(ROOT_DIR, 'hdl') +VERILOG_DIR = os.path.join(ROOT_DIR, 'gen_verilog') +CXXRTL_DIR = os.path.join(ROOT_DIR, 'gen_cxxrtl') +VCD_DIR = os.path.join(ROOT_DIR, 'gen_vcd') \ No newline at end of file diff --git a/hdl/core/reg.py b/hdl/core/reg.py index 3859dc5..b6aa3c5 100644 --- a/hdl/core/reg.py +++ b/hdl/core/reg.py @@ -1,51 +1,42 @@ from amaranth import * -from amaranth.sim import Simulator, Settle, Delay +from amaranth.sim import Settle -from hdl.utils import cmd +from hdl.lib.in_out_buff import InOutBuff +from hdl.utils import cmd, step, sim class Reg(Elaboratable): def __init__(self, **kargs): # sim is only for modularity, does nothing for this - # enable write + + ################ INPUTS ################ self.wr_en = Signal(1) + self.stall = Signal(1) # stall instruction pointer increment - # input and output addresses + self.rd = Signal(32) self.rd_addr = Signal(4) self.rs1_addr = Signal(4) self.rs2_addr = Signal(4) - # input and output signals - self.rd = Signal(32) - self.rs1 = Signal(32) - self.rs2 = Signal(32) + self.alu_flgs = Signal(5) # flags from alu - #interupt enable output signal - self.int_en = Signal(1) + # these signals should be used one hot only + self.int_sig = Signal(1) # unconditional interrupt + self.iret = Signal(1) # return from interrupt + self.call = Signal(1) # call subroutine, save return address + self.jump = Signal(1) # jump, do not save return address - # alu status signals - self.alu_flgs = Signal(5) - # signals stack operation - self.stack_instr = Signal(1) - self.stack_down_up = Signal(1) + ################ OUTPUTS ################ - ################################################################## + self.rs1 = Signal(32) # read data 1 + self.rs2 = Signal(32) # read data 2 - # this is the singal from the control unit, it not affected by interupt enable - self.int_sig = Signal(1) - # return from interrupt special - self.iret = Signal(1) - # jump signal to jump and link (swap ip and cs0) - self.jump = Signal(1) + self.int_en = Signal(1) #interupt enable output signal to control unit + self.user_mode = Signal(1) # user mode output signal to control unit - ################################################################# - # None of the 3 signals above should ever be set at the same time - ################################################################# - - # internal signals - self._user_mode = Signal(1) - self._sp_inc_dec = Signal(1) + ################ INTERNAL SIGNALS ################ self._wr_alu_flg = Signal(1) + self._inc_ip = Signal(1) self.zx = Signal(32) #0 self.ax = Signal(32) #1 @@ -82,39 +73,47 @@ class Reg(Elaboratable): self.reg_arr = Array(reg_list) - ports_in = [self.wr_en, self.alu_flgs, self.jump, self.int_sig, self.iret, self.stack_instr, self.stack_down_up, self.rd_addr, self.rd, self.rs1_addr, self.rs2_addr] - ports_out = [self.int_en, self.rs1, self.rs2, self.ip ] + ports_in = [self.wr_en, self.alu_flgs, self.int_sig, self.iret, self.call, self.jump, self.rd_addr, self.rd, self.rs1_addr, self.rs2_addr] + ports_out = [self.int_en, self.user_mode, self.rs1, self.rs2, self.ip] self.ports = {'in': ports_in, 'out': ports_out} def elaborate(self, platform=None): m = Module() - # user mode override + # output signals to control unit m.d.comb += self.int_en.eq(self.flg.int) - m.d.comb += self._user_mode.eq(self.flg.user_mode & ~self.int_sig) - - # toggle ip and cs0 - with m.If(self.jump | self.int_sig | self.iret): - m.d.sync += self.cs0.eq(self.ip) - m.d.sync += self.ip.eq(self.cs0) - with m.Else(): - m.d.sync += self.ip.eq(self.ip + 1) # increment ip only on normal operation + m.d.comb += self.user_mode.eq(self.flg.user_mode & ~self.int_sig) + + # defualt value of internal signals + m.d.comb += self._wr_alu_flg.eq(1) + m.d.comb += self._inc_ip.eq(1) with m.If(self.int_sig): + m.d.comb += self._inc_ip.eq(0) + m.d.sync += self.ip.eq(self.rd) + m.d.sync += self.cs0.eq(self.ip) m.d.sync += self.cs1.eq(self.sp) m.d.sync += self.cs2.eq(self.flg) m.d.sync += self.flg.user_mode.eq(0) # set to system mode or iret cannot be used m.d.sync += self.flg.int.eq(0) # clear int flag, essential because another interrupt can be triggered without this + with m.Elif(self.iret): + m.d.comb += self._inc_ip.eq(0) + m.d.sync += self.ip.eq(self.cs0) m.d.sync += self.sp.eq(self.cs1) m.d.sync += self.flg.eq(self.cs2) - m.d.comb += self._sp_inc_dec.eq(0) - m.d.comb += self._wr_alu_flg.eq(1) + with m.Elif(self.call): + m.d.comb += self._inc_ip.eq(0) + m.d.sync += self.ip.eq(self.rd) + m.d.sync += self.cs0.eq(self.ip) + + with m.Elif(self.jump): + m.d.comb += self._inc_ip.eq(0) + m.d.sync += self.ip.eq(self.cs0) - # writeback setup - with m.If(self.wr_en): + with m.Elif(self.wr_en): with m.Switch(self.rd_addr): with m.Case(self.zx.idx): # do not write to zero register pass @@ -124,7 +123,7 @@ class Reg(Elaboratable): with m.Case(self.flg.idx): # mask top half of register to prevent writing to flags in user mode - with m.If(~self._user_mode): + with m.If(~self.flg.user_mode): m.d.sync += self.flg.eq(self.rd) # system mode, full control with m.Else(): m.d.sync += self.flg.eq(Cat(self.rd[:16], self.flg[16:])) # usermode can only effect lower 16 bits @@ -132,56 +131,46 @@ class Reg(Elaboratable): # don't update flags from alu m.d.comb += self._wr_alu_flg.eq(0) - with m.Case(self.sp.idx): - m.d.comb += self._sp_inc_dec.eq(1) - m.d.sync += self.sp.eq(self.rd) - with m.Case(): m.d.sync += self.reg_arr[self.rd_addr].eq(self.rd) - with m.If(self._wr_alu_flg): - m.d.sync += self.flg.eq(Cat(self.alu_flgs, self.flg[len(self.alu_flgs):])) # update flags if register is not being written to + with m.If(self._wr_alu_flg): # alu flags are written only if write enabled and not writing to flags register + m.d.sync += self.flg.eq(Cat(self.alu_flgs, self.flg[len(self.alu_flgs):])) - with m.If(~self._sp_inc_dec & self.stack_instr): - with m.If(self.stack_down_up): - m.d.sync += self.sp.eq(self.sp - 1) - with m.Else(): - m.d.sync += self.sp.eq(self.sp + 1) + with m.If(self._inc_ip & ~self.stall): # increment ip if not directly writing to ip register + m.d.sync += self.ip.eq(self.ip + 4) + ### Combination signal outputs ### with m.Switch(self.rs1_addr): with m.Case(self.flg.idx): - m.d.comb += self.rs1.eq(self.flg & Cat(Const(0xFFFF, 16), Repl(~self._user_mode, 16))) + m.d.comb += self.rs1.eq(self.flg & Cat(Const(0xFFFF, 16), Repl(~self.flg.user_mode, 16))) with m.Case(): m.d.comb += self.rs1.eq(self.reg_arr[self.rs1_addr]) with m.Switch(self.rs2_addr): with m.Case(self.flg.idx): - m.d.comb += self.rs2.eq(self.flg & Cat(Const(0xFFFF, 16), Repl(~self._user_mode, 16))) + m.d.comb += self.rs2.eq(self.flg & Cat(Const(0xFFFF, 16), Repl(~self.flg.user_mode, 16))) with m.Case(): m.d.comb += self.rs2.eq(self.reg_arr[self.rs2_addr]) return m -def test_reg(filename="reg.vcd"): - dut = Reg(sim=True) - def init(): - for i in range(16): - yield dut.reg_arr[i].eq(i) - yield Settle() +#--------------------------------- TEST BENCH BELOW ---------------------------------# - def step(): - yield Settle() # settle comb logic before clock - yield # clock edge - yield Settle() # settle comb logic after clock - yield Delay(5e-7) # used for debugging, change values on neg edge of clock +def _init(dut): + for i in range(16): + yield dut.reg_arr[i].eq(i) + yield Settle() - def proc1(): - yield from init() - # test combinational output +# test combinational output +def test_reg_comb_output(): + dut = Reg() + def proc(): + yield from _init(dut) for i in range(16): yield dut.rs1_addr.eq(i) yield Settle() @@ -190,19 +179,27 @@ def test_reg(filename="reg.vcd"): yield dut.rs2_addr.eq(i) yield Settle() assert (yield dut.rs2) == i, f'ERROR reading {dut.reg_arr[i].name} != {i}' + sim(dut, proc) - # test writeback with writeback disabled - yield from init() +# test writeback with writeback disabled +def test_reg_writeback_dsb(): + dut = Reg() + def proc(): + yield from _init(dut) for i in range(16): yield dut.rd_addr.eq(i) yield dut.rd.eq(i + 1) yield from step() if (i != dut.ip.idx) and (i != dut.flg.idx): # flag gets update by the alu assert (yield dut.reg_arr[i]) == i, f'ERROR writing to {dut.reg_arr[i].name} != {i}' + sim(dut, proc) - # test writeback with writeback enabled +# test writeback with writeback enabled +def test_reg_writeback_en(): + dut = Reg() + def proc(): for i in range(16): - yield from init() + yield from _init(dut) yield dut.wr_en.eq(1) yield dut.rd_addr.eq(i) yield dut.rd.eq(i - 1) @@ -214,10 +211,41 @@ def test_reg(filename="reg.vcd"): elif i == dut.ip.idx: # ip should be incremented and not written to assert (yield dut.reg_arr[i]) == i+1, f'ERROR {dut.ip.name} != {i + 1} should not be able to be directly written to' + sim(dut, proc) - yield dut.wr_en.eq(0) +# check to make sure alu is writing values +def test_reg_flg_write_aluflg(): + dut = Reg() + def proc(): + yield dut.flg.eq(0) + yield dut.alu_flgs.eq(Repl(1, dut.alu_flgs.width)) + yield dut.wr_en.eq(1) + yield dut.flg.user_mode.eq(0) + yield dut.rd_addr.eq(dut.zx.idx) # can be anything except flg register + yield dut.rd.eq(0xFFFF0000) # this does not matter + yield from step() + assert (yield dut.flg) == (yield dut.alu_flgs), f'ERROR: alu is not writing to flg register' + sim(dut, proc) - # test flag register security +def test_reg_flg_overwrite(): + dut = Reg() + def proc(): + yield dut.flg.eq(0) + yield dut.alu_flgs.eq(Repl(1, dut.alu_flgs.width)) + yield dut.wr_en.eq(1) + yield dut.flg.user_mode.eq(0) + yield dut.flg[15].eq(1) + yield dut.flg[31].eq(1) + yield dut.rd_addr.eq(dut.flg.idx) + yield dut.rd.eq(0xFFFF0000) + yield from step() + assert (yield dut.flg) == (0xFFFF0000), f'ERROR: alu status should not be to flag' + sim(dut, proc) + +# test flag register security +def test_reg_flg_read_usermode(): + dut = Reg() + def proc(): yield dut.flg.eq(0) yield dut.flg.user_mode.eq(1) yield dut.flg[15].eq(1) @@ -225,8 +253,12 @@ def test_reg(filename="reg.vcd"): yield dut.rs1_addr.eq(dut.flg.idx) yield Settle() assert (yield dut.rs1) == 0x00008000, f'ERROR: able to read upper 16 bits of flg reg in user mode' + sim(dut, proc) - # test flag register security +# test flag register security +def test_reg_flg_write_usermode(): + dut = Reg() + def proc(): yield dut.flg.eq(0) yield dut.wr_en.eq(1) yield dut.flg.user_mode.eq(1) @@ -236,7 +268,11 @@ def test_reg(filename="reg.vcd"): yield dut.rd.eq(0xABCD5789) yield from step() assert (yield dut.flg) == (0x80020000 | 0x5789), f'ERROR: able to write to upper 16 bits of flg reg in user mode' + sim(dut, proc) +def test_reg_flg_read_systemmode(): + dut = Reg() + def proc(): yield dut.flg.eq(0) yield dut.flg.user_mode.eq(0) yield dut.flg[15].eq(1) @@ -244,7 +280,12 @@ def test_reg(filename="reg.vcd"): yield dut.rs1_addr.eq(dut.flg.idx) yield Settle() assert (yield dut.rs1) == 0x80008000, f'ERROR: able to read all bits of flg reg in system mode' + sim(dut, proc) +# make sure not to write alu flags when directly writing to flg register +def test_reg_flg_write_systemmode(): + dut = Reg() + def proc(): yield dut.flg.eq(0) yield dut.wr_en.eq(1) yield dut.flg.user_mode.eq(0) @@ -254,36 +295,10 @@ def test_reg(filename="reg.vcd"): yield dut.rd.eq(0xABCD5789) yield from step() assert (yield dut.flg) == (0xABCD5789), f'ERROR: unamble to write to all bits in supervisor mode' + sim(dut, proc) - # make sure not to write alu flags when directly writing to flg register - yield dut.flg.eq(0) - yield dut.alu_flgs.eq(Repl(1, dut.alu_flgs.width)) - yield dut.wr_en.eq(1) - yield dut.flg.user_mode.eq(0) - yield dut.flg[15].eq(1) - yield dut.flg[31].eq(1) - yield dut.rd_addr.eq(dut.flg.idx) - yield dut.rd.eq(0xFFFF0000) - yield from step() - assert (yield dut.flg) == (0xFFFF0000), f'ERROR: alu status should not be to flag' - - # check to make sure alu is writing values - yield dut.flg.eq(0) - yield dut.alu_flgs.eq(Repl(1, dut.alu_flgs.width)) - yield dut.wr_en.eq(1) - yield dut.flg.user_mode.eq(0) - yield dut.rd_addr.eq(dut.zx.idx) # can be anything except flg register - yield dut.rd.eq(0xFFFF0000) # this does not matter - yield from step() - assert (yield dut.flg) == (yield dut.alu_flgs), f'ERROR: alu is not writing to flg register' - sim = Simulator(dut) - sim.add_clock(1e-6) - sim.add_sync_process(proc1) - - with sim.write_vcd(filename): - sim.run() if __name__ == '__main__': - reg = Reg() - cmd(reg, test_reg) \ No newline at end of file + reg = InOutBuff(Reg()) + cmd(reg) \ No newline at end of file diff --git a/hdl/lib/in_out_buff.py b/hdl/lib/in_out_buff.py new file mode 100644 index 0000000..306f909 --- /dev/null +++ b/hdl/lib/in_out_buff.py @@ -0,0 +1,28 @@ +from amaranth import * + +class InOutBuff(Elaboratable): + ''' + This module wraps another modules input and output with a buffer + This is usefull for doing timeing analysis on combinational logic + + An instance of a module should be passed, not the module itself + ''' + def __init__(self, sub_module: Elaboratable): + assert sub_module.ports is not None, 'sub_module must have ports' + + self.sub_module = sub_module + ports_in = [Signal(port.width, name=port.name + '_inbuf') for port in sub_module.ports['in']] + ports_out = [Signal(port.width, name=port.name + '_outbuf') for port in sub_module.ports['out']] + self.ports = {'in': ports_in, 'out': ports_out} + + def elaborate(self, platform): + m = Module() + m.submodules.sub = self.sub_module + + for i in range(len(self.ports['in'])): + m.d.sync += self.sub_module.ports['in'][i].eq(self.ports['in'][i]) + + for i in range(len(self.ports['out'])): + m.d.sync += self.ports['out'][i].eq(self.sub_module.ports['out'][i]) + + return m \ No newline at end of file -- cgit v1.2.3