📄 cpu_jtag_debug_module.vhd
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--Legal Notice: (C)2007 Altera Corporation. All rights reserved. Your
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--of programming logic devices manufactured by Altera and sold by Altera
--or its authorized distributors. Please refer to the applicable
--agreement for further details.
-- turn off superfluous VHDL processor warnings
-- altera message_level Level1
-- altera message_off 10034 10035 10036 10037 10230 10240 10030
library altera;
use altera.altera_europa_support_lib.all;
library ieee;
use ieee.std_logic_1164.all;
use ieee.std_logic_arith.all;
use ieee.std_logic_unsigned.all;
entity cpu_jtag_debug_module is
generic (
SLD_AUTO_INSTANCE_INDEX : STRING := "YES";
SLD_NODE_INFO : INTEGER := 286279168
);
port (
-- inputs:
signal MonDReg : IN STD_LOGIC_VECTOR (31 DOWNTO 0);
signal break_readreg : IN STD_LOGIC_VECTOR (31 DOWNTO 0);
signal clk : IN STD_LOGIC;
signal clrn : IN STD_LOGIC;
signal dbrk_hit0_latch : IN STD_LOGIC;
signal dbrk_hit1_latch : IN STD_LOGIC;
signal dbrk_hit2_latch : IN STD_LOGIC;
signal dbrk_hit3_latch : IN STD_LOGIC;
signal debugack : IN STD_LOGIC;
signal ena : IN STD_LOGIC;
signal ir_in : IN STD_LOGIC_VECTOR (1 DOWNTO 0);
signal jtag_state_sdr : IN STD_LOGIC;
signal jtag_state_udr : IN STD_LOGIC;
signal monitor_error : IN STD_LOGIC;
signal monitor_ready : IN STD_LOGIC;
signal raw_tck : IN STD_LOGIC;
signal reset_n : IN STD_LOGIC;
signal resetlatch : IN STD_LOGIC;
signal rti : IN STD_LOGIC;
signal shift : IN STD_LOGIC;
signal tdi : IN STD_LOGIC;
signal tracemem_on : IN STD_LOGIC;
signal tracemem_trcdata : IN STD_LOGIC_VECTOR (35 DOWNTO 0);
signal tracemem_tw : IN STD_LOGIC;
signal trc_im_addr : IN STD_LOGIC_VECTOR (6 DOWNTO 0);
signal trc_on : IN STD_LOGIC;
signal trc_wrap : IN STD_LOGIC;
signal trigbrktype : IN STD_LOGIC;
signal trigger_state_1 : IN STD_LOGIC;
signal update : IN STD_LOGIC;
signal usr1 : IN STD_LOGIC;
-- outputs:
signal ir_out : OUT STD_LOGIC_VECTOR (1 DOWNTO 0);
signal irq : OUT STD_LOGIC;
signal jdo : OUT STD_LOGIC_VECTOR (37 DOWNTO 0);
signal jrst_n : OUT STD_LOGIC;
signal st_ready_test_idle : OUT STD_LOGIC;
signal take_action_break_a : OUT STD_LOGIC;
signal take_action_break_b : OUT STD_LOGIC;
signal take_action_break_c : OUT STD_LOGIC;
signal take_action_ocimem_a : OUT STD_LOGIC;
signal take_action_ocimem_b : OUT STD_LOGIC;
signal take_action_tracectrl : OUT STD_LOGIC;
signal take_action_tracemem_a : OUT STD_LOGIC;
signal take_action_tracemem_b : OUT STD_LOGIC;
signal take_no_action_break_a : OUT STD_LOGIC;
signal take_no_action_break_b : OUT STD_LOGIC;
signal take_no_action_break_c : OUT STD_LOGIC;
signal take_no_action_ocimem_a : OUT STD_LOGIC;
signal take_no_action_tracemem_a : OUT STD_LOGIC;
signal tdo : OUT STD_LOGIC
);
end entity cpu_jtag_debug_module;
architecture europa of cpu_jtag_debug_module is
signal DRsize : STD_LOGIC_VECTOR (2 DOWNTO 0);
signal dr_update1 : STD_LOGIC;
signal dr_update2 : STD_LOGIC;
signal in_between_shiftdr_and_updatedr : STD_LOGIC;
signal internal_jdo1 : STD_LOGIC_VECTOR (37 DOWNTO 0);
signal internal_jrst_n1 : STD_LOGIC;
signal ir : STD_LOGIC_VECTOR (1 DOWNTO 0);
signal jxdr : STD_LOGIC;
signal sr : STD_LOGIC_VECTOR (37 DOWNTO 0);
signal st_shiftdr : STD_LOGIC;
signal st_updatedr : STD_LOGIC;
signal st_updateir : STD_LOGIC;
attribute ALTERA_ATTRIBUTE : string;
attribute ALTERA_ATTRIBUTE of DRsize : signal is "SUPPRESS_DA_RULE_INTERNAL=""D101,D103,R101""";
attribute ALTERA_ATTRIBUTE of dr_update1 : signal is "SUPPRESS_DA_RULE_INTERNAL=D101";
attribute ALTERA_ATTRIBUTE of in_between_shiftdr_and_updatedr : signal is "SUPPRESS_DA_RULE_INTERNAL=R101";
attribute ALTERA_ATTRIBUTE of ir_out : signal is "SUPPRESS_DA_RULE_INTERNAL=""D101,R101""";
attribute ALTERA_ATTRIBUTE of jdo : signal is "SUPPRESS_DA_RULE_INTERNAL=D103";
attribute ALTERA_ATTRIBUTE of sr : signal is "SUPPRESS_DA_RULE_INTERNAL=""D101,D103,R101""";
begin
process (clk)
begin
if clk'event and clk = '1' then
dr_update1 <= st_updatedr;
dr_update2 <= dr_update1;
jxdr <= NOT dr_update1 AND dr_update2;
end if;
end process;
take_action_ocimem_a <= ((jxdr AND to_std_logic(((ir = std_logic_vector'("00"))))) AND NOT internal_jdo1(35)) AND internal_jdo1(34);
take_no_action_ocimem_a <= ((jxdr AND to_std_logic(((ir = std_logic_vector'("00"))))) AND NOT internal_jdo1(35)) AND NOT internal_jdo1(34);
take_action_ocimem_b <= (jxdr AND to_std_logic(((ir = std_logic_vector'("00"))))) AND internal_jdo1(35);
take_action_tracemem_a <= ((jxdr AND to_std_logic(((ir = std_logic_vector'("01"))))) AND NOT internal_jdo1(37)) AND internal_jdo1(36);
take_no_action_tracemem_a <= ((jxdr AND to_std_logic(((ir = std_logic_vector'("01"))))) AND NOT internal_jdo1(37)) AND NOT internal_jdo1(36);
take_action_tracemem_b <= (jxdr AND to_std_logic(((ir = std_logic_vector'("01"))))) AND internal_jdo1(37);
take_action_break_a <= ((jxdr AND to_std_logic(((ir = std_logic_vector'("10"))))) AND NOT internal_jdo1(36)) AND internal_jdo1(37);
take_no_action_break_a <= ((jxdr AND to_std_logic(((ir = std_logic_vector'("10"))))) AND NOT internal_jdo1(36)) AND NOT internal_jdo1(37);
take_action_break_b <= (((jxdr AND to_std_logic(((ir = std_logic_vector'("10"))))) AND internal_jdo1(36)) AND NOT internal_jdo1(35)) AND internal_jdo1(37);
take_no_action_break_b <= (((jxdr AND to_std_logic(((ir = std_logic_vector'("10"))))) AND internal_jdo1(36)) AND NOT internal_jdo1(35)) AND NOT internal_jdo1(37);
take_action_break_c <= (((jxdr AND to_std_logic(((ir = std_logic_vector'("10"))))) AND internal_jdo1(36)) AND internal_jdo1(35)) AND internal_jdo1(37);
take_no_action_break_c <= (((jxdr AND to_std_logic(((ir = std_logic_vector'("10"))))) AND internal_jdo1(36)) AND internal_jdo1(35)) AND NOT internal_jdo1(37);
take_action_tracectrl <= (jxdr AND to_std_logic(((ir = std_logic_vector'("11"))))) AND internal_jdo1(15);
process (raw_tck, internal_jrst_n1)
begin
if internal_jrst_n1 = '0' then
ir_out <= std_logic_vector'("00");
elsif raw_tck'event and raw_tck = '1' then
ir_out <= Std_Logic_Vector'(A_ToStdLogicVector(debugack) & A_ToStdLogicVector(monitor_ready));
end if;
end process;
process (raw_tck, internal_jrst_n1)
begin
if internal_jrst_n1 = '0' then
sr <= std_logic_vector'("00000000000000000000000000000000000000");
DRsize <= std_logic_vector'("000");
elsif raw_tck'event and raw_tck = '1' then
if std_logic'(st_updateir) = '1' then
case ir_in is
when std_logic_vector'("00") =>
DRsize <= std_logic_vector'("100");
-- when std_logic_vector'("00")
when std_logic_vector'("01") =>
DRsize <= std_logic_vector'("101");
-- when std_logic_vector'("01")
when std_logic_vector'("10") =>
DRsize <= std_logic_vector'("101");
-- when std_logic_vector'("10")
when std_logic_vector'("11") =>
DRsize <= std_logic_vector'("010");
-- when std_logic_vector'("11")
when others =>
-- when others
end case; -- ir_in
ir <= ir_in;
elsif std_logic'((((NOT shift AND NOT usr1) AND ena) AND NOT in_between_shiftdr_and_updatedr)) = '1' then
case ir is
when std_logic_vector'("00") =>
sr(35) <= debugack;
sr(34) <= monitor_error;
sr(33) <= resetlatch;
sr(32 DOWNTO 1) <= MonDReg;
sr(0) <= monitor_ready;
-- when std_logic_vector'("00")
when std_logic_vector'("01") =>
sr(35 DOWNTO 0) <= tracemem_trcdata;
sr(37) <= tracemem_tw;
sr(36) <= tracemem_on;
-- when std_logic_vector'("01")
when std_logic_vector'("10") =>
sr(37) <= trigger_state_1;
sr(36) <= dbrk_hit3_latch;
sr(35) <= dbrk_hit2_latch;
sr(34) <= dbrk_hit1_latch;
sr(33) <= dbrk_hit0_latch;
sr(32 DOWNTO 1) <= break_readreg;
sr(0) <= trigbrktype;
-- when std_logic_vector'("10")
when std_logic_vector'("11") =>
sr(15 DOWNTO 12) <= std_logic_vector'("000") & (A_TOSTDLOGICVECTOR(std_logic'('0')));
sr(11 DOWNTO 2) <= std_logic_vector'("000") & (trc_im_addr);
sr(1) <= trc_wrap;
sr(0) <= trc_on;
-- when std_logic_vector'("11")
when others =>
-- when others
end case; -- ir
elsif std_logic'(((shift AND NOT usr1) AND ena)) = '1' then
case DRsize is
when std_logic_vector'("000") =>
sr <= Std_Logic_Vector'(A_ToStdLogicVector(tdi) & sr(37 DOWNTO 2) & A_ToStdLogicVector(tdi));
-- when std_logic_vector'("000")
when std_logic_vector'("001") =>
sr <= Std_Logic_Vector'(A_ToStdLogicVector(tdi) & sr(37 DOWNTO 9) & A_ToStdLogicVector(tdi) & sr(7 DOWNTO 1));
-- when std_logic_vector'("001")
when std_logic_vector'("010") =>
sr <= Std_Logic_Vector'(A_ToStdLogicVector(tdi) & sr(37 DOWNTO 17) & A_ToStdLogicVector(tdi) & sr(15 DOWNTO 1));
-- when std_logic_vector'("010")
when std_logic_vector'("011") =>
sr <= Std_Logic_Vector'(A_ToStdLogicVector(tdi) & sr(37 DOWNTO 33) & A_ToStdLogicVector(tdi) & sr(31 DOWNTO 1));
-- when std_logic_vector'("011")
when std_logic_vector'("100") =>
sr <= Std_Logic_Vector'(A_ToStdLogicVector(tdi) & A_ToStdLogicVector(sr(37)) & A_ToStdLogicVector(tdi) & sr(35 DOWNTO 1));
-- when std_logic_vector'("100")
when std_logic_vector'("101") =>
sr <= Std_Logic_Vector'(A_ToStdLogicVector(tdi) & sr(37 DOWNTO 1));
-- when std_logic_vector'("101")
when others =>
sr <= Std_Logic_Vector'(A_ToStdLogicVector(tdi) & sr(37 DOWNTO 2) & A_ToStdLogicVector(tdi));
-- when others
end case; -- DRsize
end if;
end if;
end process;
tdo <= sr(0);
st_ready_test_idle <= rti;
process (raw_tck)
begin
if raw_tck'event and raw_tck = '1' then
if std_logic'(st_updatedr) = '1' then
internal_jdo1 <= sr;
end if;
end if;
end process;
process (raw_tck)
begin
if raw_tck'event and raw_tck = '1' then
st_updatedr <= (NOT usr1 AND ena) AND jtag_state_udr;
st_updateir <= (usr1 AND ena) AND jtag_state_udr;
st_shiftdr <= (NOT usr1 AND ena) AND jtag_state_sdr;
end if;
end process;
process (raw_tck, internal_jrst_n1)
begin
if internal_jrst_n1 = '0' then
in_between_shiftdr_and_updatedr <= std_logic'('0');
elsif raw_tck'event and raw_tck = '1' then
if std_logic'(st_shiftdr) = '1' then
in_between_shiftdr_and_updatedr <= std_logic'('1');
elsif std_logic'(st_updatedr) = '1' then
in_between_shiftdr_and_updatedr <= std_logic'('0');
end if;
end if;
end process;
--vhdl renameroo for output signals
jdo <= internal_jdo1;
--vhdl renameroo for output signals
jrst_n <= internal_jrst_n1;
--synthesis translate_off
internal_jrst_n1 <= reset_n;
--synthesis translate_on
--synthesis read_comments_as_HDL on
-- internal_jrst_n1 <= clrn;
--synthesis read_comments_as_HDL off
end europa;
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