-- altera vhdl_input_version vhdl_2008 -- XXX: QSYS Fix (https://www.intel.com/content/www/us/en/support/programmable/articles/000079458.html) library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.rtps_package.all; use work.rtps_config_package.all; entity TYPENAME_writer_wrapper is generic ( LITTLE_ENDIAN : std_logic := '0' ); port ( -- SYSTEM clk : in std_logic; reset : in std_logic; -- FROM DDS WRITER start_dds : out std_logic; ack_dds : in std_logic; opcode_dds : out DDS_WRITER_OPCODE_TYPE; instance_handle_out_dds : out INSTANCE_HANDLE_TYPE; source_ts_dds : out TIME_TYPE; max_wait_dds : out DURATION_TYPE; done_dds : in std_logic; return_code_dds : in std_logic_vector(RETURN_CODE_WIDTH-1 downto 0); instance_handle_in_dds : in INSTANCE_HANDLE_TYPE; valid_out_dds : out std_logic; ready_out_dds : in std_logic; data_out_dds : out std_logic_vector(WORD_WIDTH-1 downto 0); last_word_out_dds : out std_logic; valid_in_dds : in std_logic; ready_in_dds : out std_logic; data_in_dds : in std_logic_vector(WORD_WIDTH-1 downto 0); last_word_in_dds : in std_logic; -- Communication Status status_dds : in std_logic_vector(STATUS_KIND_WIDTH-1 downto 0); -- TO USER ENTITY start_user : in std_logic; ack_user : out std_logic; opcode_user : in DDS_WRITER_OPCODE_TYPE; instance_handle_in_user : in INSTANCE_HANDLE_TYPE; source_ts_user : in TIME_TYPE; max_wait_user : in DURATION_TYPE; done_user : out std_logic; return_code_user : out std_logic_vector(RETURN_CODE_WIDTH-1 downto 0); instance_handle_out_user : out INSTANCE_HANDLE_TYPE; -- Communication Status status_user : out std_logic_vector(STATUS_KIND_WIDTH-1 downto 0); -- ###GENERATED START### -- TYPE SPECIFIC PORTS -- ###GENERATED END### encode_done : out std_logic ); end entity; architecture arch of TYPENAME_writer_wrapper is --*****TYPE DECLARATION***** -- FSM states. Explained below in detail type STAGE_TYPE is (IDLE,WRITE_PAYLOAD_HEADER,PUSH,ALIGN_STREAM,ENCODE_PAYLOAD); -- ###GENERATED START### type ENCODE_STAGE_TYPE is (TODO); -- TYPES DECLARATIONS -- ###GENERATED END### -- *MAIN PROCESS* signal stage, stage_next : STAGE_TYPE; signal cnt, cnt_next : natural range 0 to 5; signal align_offset, align_offset_next : unsigned(MAX_ALIGN_OFFSET_WIDTH-1 downto 0); signal align_op, align_op_next : std_logic; signal target_align, target_align_next : ALIGN_TYPE; signal data_out_latch, data_out_latch_next : std_logic_vector(WORD_WIDTH-1 downto 0); signal abort_mem : std_logic; signal finalize_payload, finalize_payload_next : std_logic; signal encode_stage, encode_stage_next : ENCODE_STAGE_TYPE; -- ###GENERATED START### -- SIGNAL DECLARATION -- ###GENERATED END### begin -- ###GENERATED START### -- MEMORY INSTANTIATIONS -- ###GENERATED END### -- PASSTHROUGH start_dds <= start_user; ack_user <= ack_dds; opcode_dds <= opcode_user; instance_handle_out_dds <= instance_handle_in_user; source_ts_dds <= source_ts_user; max_wait_dds <= max_wait_user; done_user <= done_dds; return_code_user <= return_code_dds; instance_handle_out_user <= instance_handle_in_dds; status_user <= status_dds; -- ###GENERATED START### -- PORT SIGNAL CONNECTIONS -- ###GENERATED END### main_prc : process (all) begin -- DEFAULT stage_next <= stage; encode_stage_next <= encode_stage; cnt_next <= cnt; align_offset_next <= align_offset; align_op_next <= align_op; target_align_next <= target_align; data_out_latch_next <= data_out_latch; finalize_payload_next <= finalize_payload; abort_mem <= '0'; encode_done <= '0'; valid_out_dds <= '0'; last_word_out_dds <= '0'; data_out_dds <= (others => '0'); -- ###GENERATED START### -- DEFAULT SIGNAL ASSIGNMENTS -- ###GENERATED END### case (stage) is when IDLE => -- User Requests Payload if (start_user = '1' and ack_dds = '1') then case (opcode_user) is when REGISTER_INSTANCE => stage_next <= WRITE_PAYLOAD_HEADER; -- RESET abort_mem <= '1'; when UNREGISTER_INSTANCE => stage_next <= WRITE_PAYLOAD_HEADER; -- RESET abort_mem <= '1'; when LOOKUP_INSTANCE => stage_next <= WRITE_PAYLOAD_HEADER; -- RESET abort_mem <= '1'; when WRITE => stage_next <= WRITE_PAYLOAD_HEADER; -- RESET abort_mem <= '1'; when DISPOSE => stage_next <= WRITE_PAYLOAD_HEADER; -- RESET abort_mem <= '1'; when others => null; end case; else -- ###GENERATED START### -- MEMORY SIGNAL CONNECTIONS -- ###GENERATED END### end if; when WRITE_PAYLOAD_HEADER => valid_out_dds <= '1'; if (LITTLE_ENDIAN = '0') then data_out_dds <= CDR_BE & x"0000"; else data_out_dds <= CDR_LE & x"0000"; end if; -- Output Guard if (ready_out_dds = '1') then stage_next <= ENCODE_PAYLOAD; -- Reset align_offset_next <= (others => '0'); data_out_latch_next <= (others => '0'); -- ###GENERATED START### encode_stage_next <= TODO; -- ###GENERATED END### end if; when PUSH => -- Mark Last Word if (finalize_payload = '1') then last_word_out_dds <= '1'; end if; valid_out_dds <= '1'; data_out_dds <= data_out_latch; -- Output Guard if (ready_out_dds = '1') then -- NOTE: Ensures all padding is zero. data_out_latch_next <= (others => '0'); -- Alignment Operation in process if (align_op = '1') then stage_next <= ALIGN_STREAM; -- Reset align_op_next <= '0'; -- DONE elsif (finalize_payload = '1') then finalize_payload_next <= '0'; stage_next <= IDLE; else stage_next <= ENCODE_PAYLOAD; end if; end if; when ALIGN_STREAM => -- Target Stream Alignment reached if (check_align(align_offset, target_align)) then -- DONE stage_next <= ENCODE_PAYLOAD; else align_offset_next <= align_offset + 1; -- Need to push Word if (align_offset(1 downto 0) = "11") then align_op_next <= '1'; stage_next <= PUSH; end if; end if; when ENCODE_PAYLOAD => case (encode_stage) is -- ###GENERATED START### when TODO => -- ###GENERATED END### when others => null; end case; when others => null; end case; end process; sync_prc : process(clk) begin if rising_edge(clk) then if (reset = '1') then stage <= IDLE; encode_stage <= TODO; target_align <= ALIGN_1; cnt <= 0; finalize_payload <= '0'; align_op <= '0'; align_offset <= (others => '0'); data_out_latch <= (others => '0'); -- ###GENERATED START### -- RESET SYNC SIGNAL VALUE -- ###GENERATED END### else stage <= stage_next; encode_stage <= encode_stage_next; target_align <= target_align_next; cnt <= cnt_next; finalize_payload <= finalize_payload_next; align_op <= align_op_next; align_offset <= align_offset_next; data_out_latch <= data_out_latch_next; -- ###GENERATED START### -- SYNC SIGNALS -- ###GENERATED END### end if; end if; end process; end architecture;