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[/] [System09/] [trunk/] [rtl/] [VHDL/] [trace.vhd] - Rev 101
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--===========================================================================-- -- -- -- Synthesizable Hardware Trace Capture -- -- -- --===========================================================================-- -- -- File name : trace.vhd -- -- Entity name : trace -- -- Purpose : Implements a hardware real-time trace buffer for system09. -- Captures all the CPU bus cycles to a block RAM trace buffer. -- A trigger condition may be used to start or stop a trace -- capture. The trigger condition is determined by the address, -- data and control, comparator and qualifier registers. -- The comparator registers determine the level of the signals -- to trigger on. The qualifier registers determine if the -- comparison is to be made for that bit (qualifier bit set) -- or not (qualifier bit cleared). The hardware trace capture -- module has 9 x 8 bit registers and 5 trace buffers. Separate -- chip selects are provided for the register bank and trace -- buffer bank. The individual trace buffers are selected via -- the bank select register. Trace buffers may be read by the -- CPU but are only written to when tracing CPU bus cycles. -- The lowest trace buffer address always points to the start -- of the trace capture. This is achieved by adding an offset -- to the buffer address which points to the last cycle captured. -- -- Dependencies : ieee.Std_Logic_1164 -- ieee.std_logic_unsigned -- -- Author : John E. Kent -- -- Email : dilbert57@opencores.org -- -- Web : http://opencores.org/project,system09 -- -- Description : Register Memory Map -- -- Register Bank(CS_R) -- Base + $00 - Address Comparitor High Byte -- Base + $01 - Address Comparitor Low byte -- Base + $02 - Data Comparitor -- Base + $03 - Control Comparitor -- Base + $04 - Address Qualifier High Byte -- Base + $05 - Address Qualifier Low byte -- Base + $06 - Data Qualifier -- Base + $07 - Control Qualifier -- Base + $08 - Buffer Bank Select -- Bits[2..0] Select Buffer Bank 0 to 4 -- -- Buffer Bank (CS_B) -- Bank 0 - CPU Address high trace buffer -- Bank 1 - CPU Address low trace buffer -- Bank 2 - CPU Data output (write) trace buffer -- Bank 3 - CPU Data input (read) trace buffer -- Bank 4 - CPU Control signal trace buffer -- -- Address, Data and Control signals -- must match in the Comparitor registers -- Matches are qualified by setting a bit -- in the Qualifier registers -- -- Control Comparitor / Control Qualify Write -- b0 - r/w 1=read 0=write -- b1 - vma 1=valid 0=invalid -- b5 - trace 1=enable 0=disable -- b6 - pre/post 1=before 0=after -- b7 - irq output 1=match 0=mismatch -- -- Control Qualifier Read -- b7 - Interrupt Flag (unmasked) -- -- Copyright (C) 2004 - 2010 John Kent -- -- 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 3 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, see <http://www.gnu.org/licenses/>. -- --===========================================================================-- -- -- -- Revision History -- -- -- --===========================================================================-- -- -- Version Date Author Description -- -- 0.1 2004-06-19 John E. Kent Initial version -- 0.2 2010-08-09 John E. Kent Updated header and added GPL -- Added trigger on read or write data -- (not just write data). -- Rearranged register and buffer bank decoding -- Added Generics for data width and buffer size -- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity trace is generic ( BUFF_SIZE : integer := 9; -- Buffer Address Bits (B4=9, B16=11) DATA_WIDTH : integer := 8 -- Data Width ) port ( clk : in std_logic; -- CPU bus clock rst : in std_logic; -- Reset cs_r : in std_logic; -- Register bank chip select cs_b : in std_logic; -- Buffer bank chip select rw : in std_logic; -- Read not Write addr : in std_logic_vector((2*DATA_WIDTH)-1 downto 0); -- CPU address / Trace buffer address in data_in : in std_logic_vector(DATA_WIDTH-1 downto 0); -- CPU data out (write)/ Trace data in data_out : out std_logic_vector(DATA_WIDTH-1 downto 0); -- Trace data out (read) irq : out std_logic; cpu_vma : in std_logic; -- CPU VMA / Trace buffer VMA in cpu_data_in : in std_logic_vector(DATA_WIDTH-1 downto 0) -- CPU read data in ); end; architecture trace_arch of trace is -- -- Registers -- signal comp_addr_hi : std_logic_vector(DATA_WIDTH-1 downto 0); -- Address High Comparator Reg signal comp_addr_lo : std_logic_vector(DATA_WIDTH-1 downto 0); -- Address Low Comparator Reg signal comp_data : std_logic_vector(DATA_WIDTH-1 downto 0); -- Data Comparator Reg signal comp_ctrl : std_logic_vector(DATA_WIDTH-1 downto 0); -- Control Sig Comparator Reg signal qual_addr_hi : std_logic_vector(DATA_WIDTH-1 downto 0); -- Address High Qualifier Reg signal qual_addr_lo : std_logic_vector(DATA_WIDTH-1 downto 0); -- Address Low Qualifier Reg signal qual_data : std_logic_vector(DATA_WIDTH-1 downto 0); -- Data Qualifier Reg signal qual_ctrl : std_logic_vector(DATA_WIDTH-1 downto 0); -- Control Sig Qualifier Reg signal bank_reg : std_logic_vector(DATA_WIDTH-1 downto 0); -- Trace Buffer Bank Select Reg signal reg_data_out : std_logic_vector(DATA_WIDTH-1 downto 0); -- Register Data Output -- -- Trace enable, counter and offset registers -- signal trace_en : std_logic; signal trace_count : std_logic_vector(BUFF_SIZE-1 downto 0); signal trace_offset : std_logic_vector(BUFF_SIZE-1 downto 0); -- -- Buffer address -- signal buf_addr : std_logic_vector(BUFF_SIZE-1 downto 0); -- -- Block RAM buffer Mux signals -- signal mux_stb : std_logic; signal mux_addr : std_logic_vector(BUFF_SIZE-1 downto 0); signal mux_we : std_logic; -- -- Block RAM trace buffer data outputs -- signal buf_data_out_0 : std_logic_vector(DATA_WIDTH-1 downto 0); signal buf_data_out_1 : std_logic_vector(DATA_WIDTH-1 downto 0); signal buf_data_out_2 : std_logic_vector(DATA_WIDTH-1 downto 0); signal buf_data_out_3 : std_logic_vector(DATA_WIDTH-1 downto 0); signal buf_data_out_4 : std_logic_vector(DATA_WIDTH-1 downto 0); signal buf_data_out : std_logic_vector(DATA_WIDTH-1 downto 0); -- -- Various other signals -- signal irq_out : std_logic; -- Interrupt Request signal (unmasked) signal qual_write : std_logic; -- Qualifier Control Register Write Strobe signal qual_read : std_logic; -- Qualifier Control Register Read Strobe signal trigger : std_logic; -- Event Trigger derived from bus comparator signal ctrl_in : std_logic_vector(7 downto 0); -- -- Block RAM Trace buffer -- For Spartan 2 these will be B4 RAMs ( 512 Bytes) -- For Spartan 3 these will be B16 RAMs (2048 Bytes) -- component trace_ram Port ( WB_CLK_I : in std_logic; WB_RST_I : in std_logic; WB_ADR_I : in std_logic_vector (BUFF_SIZE-1 downto 0); WB_DAT_O : out std_logic_vector (DATA_WIDTH-1 downto 0); WB_DAT_I : in std_logic_vector (DATA_WIDTH-1 downto 0); WB_WE_I : in std_logic; WB_STB_I : in std_logic ); end component; -- -- Start of Architecture -- begin -- -- Instantiate (Port Map) Block RAM trace buffers -- -- -- Bank 0 - Trace buffer for CPU address high bits -- trace_buffer_0 : trace_ram port map ( WB_CLK_I => clk, WB_RST_I => rst, WB_ADR_I => mux_addr, WB_DAT_O => buf_data_out_0, WB_DAT_I => addr((2*DATA_WIDTH)-1 downto DATA_WIDTH), WB_WE_I => mux_we, WB_STB_I => mux_stb ); -- -- Bank 1 - Trace buffer for CPU address low bits -- trace_buffer_1 : trace_ram port map ( WB_CLK_I => clk, WB_RST_I => rst, WB_ADR_I => mux_addr, WB_DAT_O => buf_data_out_1, WB_DAT_I => addr(DATA_WIDTH-1 downto 0), WB_WE_I => mux_we, WB_STB_I => mux_stb ); -- -- Bank 2 - Trace buffer for CPU data out (write) -- trace_buffer_2 : trace_ram port map ( WB_CLK_I => clk, WB_RST_I => rst, WB_ADR_I => mux_addr, WB_DAT_O => buf_data_out_2, WB_DAT_I => data_in(DATA_WIDTH-1 downto 0), WB_WE_I => mux_we, WB_STB_I => mux_stb ); -- -- Bank 3 - Trace buffer for CPU data in (read) -- trace_buffer_3 : trace_ram port map ( WB_CLK_I => clk, WB_RST_I => rst, WB_ADR_I => mux_addr, WB_DAT_O => buf_data_out_3, WB_DAT_I => cpu_data_in(DATA_WIDTH-1 downto 0), WB_WE_I => mux_we, WB_STB_I => mux_stb ); -- -- Bank 4 - Trace buffer for CPU control bits -- trace_buffer_4 : trace_ram port map ( WB_CLK_I => clk, WB_RST_I => rst, WB_ADR_I => mux_addr, WB_DAT_O => buf_data_out_4, WB_DAT_I => ctrl_in(DATA_WIDTH-1 downto 0), WB_WE_I => mux_we, WB_STB_I => mux_stb ); -------------------------------- -- -- Assign control signal input -- -------------------------------- trace_ctrl_assign : process( irq_out, qual_ctrl, rw, cpu_vma ) begin ctrl_in(0) <= rw; ctrl_in(1) <= cpu_vma; ctrl_in(7 downto 2) <= (others=>'0'); end process; -------------------------------- -- -- Write Trace Registers -- -------------------------------- trace_reg_write : process( clk, rst, cs_r, rw, addr, data_in ) begin if clk'event and clk = '0' then qual_write <= '0'; if rst = '1' then comp_addr_hi <= (others=>'0'); comp_addr_lo <= (others=>'0'); comp_data <= (others=>'0'); comp_ctrl <= (others=>'0'); qual_addr_hi <= (others=>'0'); qual_addr_lo <= (others=>'0'); qual_data <= (others=>'0'); qual_ctrl <= (others=>'0'); bank_reg <= (others=>'0'); elsif cs_r = '1' and rw = '0' then case addr(3 downto 0) is when "0000" => comp_addr_hi <= data_in; when "0001" => comp_addr_lo <= data_in; when "0010" => comp_data <= data_in; when "0011" => comp_ctrl <= data_in; when "0100" => qual_addr_hi <= data_in; when "0101" => qual_addr_lo <= data_in; when "0110" => qual_data <= data_in; when "0111" => qual_ctrl <= data_in; qual_write <= '1'; when others => bank_reg <= data_in; end case; end if; end if; end process; ------------------------------------------ -- -- Read Trace Register (output mux) -- ------------------------------------------ trace_reg_read : process( addr, rw, cs_r, comp_addr_hi, comp_addr_lo, comp_data, comp_ctrl, qual_addr_hi, qual_addr_lo, qual_data, qual_ctrl, bank_reg, irq_out ) begin qual_read <= '0'; case addr(3 downto 0) is when "0000" => reg_data_out <= comp_addr_hi; when "0001" => reg_data_out <= comp_addr_lo; when "0010" => reg_data_out <= comp_data; when "0011" => reg_data_out <= comp_ctrl; when "0100" => reg_data_out <= qual_addr_hi; when "0101" => reg_data_out <= qual_addr_lo; when "0110" => reg_data_out <= qual_data; when "0111" => qual_read <= cs_r and rw; reg_data_out(6 downto 0) <= qual_ctrl(6 downto 0); reg_data_out(7) <= irq_out; when others => reg_data_out <= bank_reg; end case; end process; -------------------------------- -- -- Read Trace Buffers -- -------------------------------- trace_buf_read : process( bank_reg, buf_data_out_0, buf_data_out_1, buf_data_out_2, buf_data_out_3, buf_data_out_4 ) begin case bank_reg(2 downto 0) is when "000" => buf_data_out <= buf_data_out_0; when "001" => buf_data_out <= buf_data_out_1; when "010" => buf_data_out <= buf_data_out_2; when "011" => buf_data_out <= buf_data_out_3; when "100" => buf_data_out <= buf_data_out_4; when others => buf_data_out <= (others=>'0'); end case; end process; -------------------------------- -- -- Read Registers or Buffers -- -------------------------------- trace_read : process( cs_r, reg_data_out, buf_data_out ) begin if cs_r = '1' then data_out = reg_data_out; else data_out = buf_data_out; else end process; ------------------------------------------------------------------------ -- -- Multiplex the trace buffer between the trace capture and the CPU read -- ------------------------------------------------------------------------ trace_buf_mux : process( cs_b, trace_count, trace_en, buf_addr ) begin if cs_b = '0' then mux_addr <= trace_count; mux_we <= '1'; mux_stb <= trace_en; else mux_addr <= buf_addr; mux_we <= '0'; mux_stb <= '1'; end if; end process; ------------------------------ -- -- Trigger comparator process -- ------------------------------ trace_trigger : process( clk, rst, cs_r, addr, rw, cpu_vma, data_in, cpu_data_in, comp_addr_hi, comp_addr_lo, comp_data, comp_ctrl, qual_addr_hi, qual_addr_lo, qual_data, qual_ctrl) variable hit : std_logic; variable miss_addr_hi : std_logic; variable miss_addr_lo : std_logic; variable miss_data_rd : std_logic; variable miss_data_wr : std_logic; variable miss_ctrl : std_logic; begin miss_addr_hi := ((comp_addr_hi(7) xor addr(15) ) and qual_addr_hi(7) ) or ((comp_addr_hi(6) xor addr(14) ) and qual_addr_hi(6) ) or ((comp_addr_hi(5) xor addr(13) ) and qual_addr_hi(5) ) or ((comp_addr_hi(4) xor addr(12) ) and qual_addr_hi(4) ) or ((comp_addr_hi(3) xor addr(11) ) and qual_addr_hi(3) ) or ((comp_addr_hi(2) xor addr(10) ) and qual_addr_hi(2) ) or ((comp_addr_hi(1) xor addr( 9) ) and qual_addr_hi(1) ) or ((comp_addr_hi(0) xor addr( 8) ) and qual_addr_hi(0) ); miss_addr_lo := ((comp_addr_lo(7) xor addr( 7) ) and qual_addr_lo(7) ) or ((comp_addr_lo(6) xor addr( 6) ) and qual_addr_lo(6) ) or ((comp_addr_lo(5) xor addr( 5) ) and qual_addr_lo(5) ) or ((comp_addr_lo(4) xor addr( 4) ) and qual_addr_lo(4) ) or ((comp_addr_lo(3) xor addr( 3) ) and qual_addr_lo(3) ) or ((comp_addr_lo(2) xor addr( 2) ) and qual_addr_lo(2) ) or ((comp_addr_lo(1) xor addr( 1) ) and qual_addr_lo(1) ) or ((comp_addr_lo(0) xor addr( 0) ) and qual_addr_lo(0) ); miss_data_wr := ((comp_data(7) xor data_in(7)) and qual_data(7) ) or ((comp_data(6) xor data_in(6)) and qual_data(6) ) or ((comp_data(5) xor data_in(5)) and qual_data(5) ) or ((comp_data(4) xor data_in(4)) and qual_data(4) ) or ((comp_data(3) xor data_in(3)) and qual_data(3) ) or ((comp_data(2) xor data_in(2)) and qual_data(2) ) or ((comp_data(1) xor data_in(1)) and qual_data(1) ) or ((comp_data(0) xor data_in(0)) and qual_data(0) ); miss_data_rd := ((comp_data(7) xor cpu_data_in(7)) and qual_data(7) ) or ((comp_data(6) xor cpu_data_in(6)) and qual_data(6) ) or ((comp_data(5) xor cpu_data_in(5)) and qual_data(5) ) or ((comp_data(4) xor cpu_data_in(4)) and qual_data(4) ) or ((comp_data(3) xor cpu_data_in(3)) and qual_data(3) ) or ((comp_data(2) xor cpu_data_in(2)) and qual_data(2) ) or ((comp_data(1) xor cpu_data_in(1)) and qual_data(1) ) or ((comp_data(0) xor cpu_data_in(0)) and qual_data(0) ); miss_ctrl := ((comp_ctrl(0) xor rw ) and qual_ctrl(0) ) or ((comp_ctrl(1) xor cpu_vma ) and qual_ctrl(1) ); hit := not( miss_addr_hi or miss_addr_lo or (miss_data_rd and not(miss_ctrl) and rw) or (miss_data_wr and not(miss_ctrl) and not(rw)) or miss_ctrl); trigger <= not(hit xor comp_ctrl(7)); end process; ----------------------------------------- -- -- Trace buffer capture on event trigger -- ----------------------------------------- trace_capture : process( clk, rst, addr, qual_write, trigger, trace_en, qual_ctrl, irq_out, trace_count, trace_offset ) begin if clk'event and clk = '1' then if rst = '1' then trace_count <= (others=>'0'); trace_offset <= (others=>'0'); trace_en <= '0'; irq_out <= '0'; else -- -- qualifier control register bit 6 = zero -- means start capture after trigger point. -- if qual_ctrl(6) = '0' then -- -- Activate trace on a trigger condition -- Deactive trace when the buffer is full -- if trace_en = '0' then trace_en <= trigger; elsif trace_count = trace_offset then trace_offset <= trace_count; trace_en <= '0'; end if; -- -- Set IRQ on trace buffer full -- Reset IRQ on qualifier control register write -- if qual_write = '1' then irq_out <= '0'; elsif trace_count = trace_offset then irq_out <= '1'; end if; -- -- qualifier control register bit 6 = one -- means finish capture at trigger point. -- else -- -- Activate trace on qualifier control write -- Deactivate trace on a trigger condition -- if trace_en = '0' then trace_en <= qual_write; elsif trigger = '1' then trace_offset <= trace_count; trace_en <= '0'; end if; -- -- Set IRQ on a trigger condition -- Reset IRQ on qualifier control register write -- if qual_write = '1' then irq_out <= '0'; elsif trigger = '1' then irq_out <= '1'; end if; end if; trace_count <= trace_count + 1; end if; end if; -- -- The IRQ output is qualified by the interrupt enable bit -- (bit 7 of the qualifier control register) -- irq <= irq_out and qual_ctrl(7); -- -- Trace buffer is offset by start address -- buf_addr <= addr(BUFF_SIZE-1 downto 0) + trace_offset; end process; end trace_arch;
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