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- library ieee;
- use ieee.std_logic_1164.all;
- use ieee.numeric_std.all;
-
- library work;
- use work.reg32.all;
- use work.avalon_slave.all;
- use work.test_utility.all;
- use work.test_avalon_slave.all;
- use work.task.all;
-
- package test_hardware_task is
-
- procedure read_state( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable state : out std_logic_vector );
-
- procedure assert_state_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable state : std_logic_vector );
-
- procedure assert_cycle_count_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable cycle_count : std_logic_vector );
-
- procedure write_start( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request );
-
- procedure write_config( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- variable index : in integer;
- variable config : in std_logic_vector );
-
- procedure assert_config_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable index : in integer;
- variable config : in std_logic_vector );
-
- procedure write_and_assert_config_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable index : in integer;
- variable config : in std_logic_vector );
-
- procedure assert_output_steam_data_eq( signal clk : in std_logic;
- signal write : std_logic;
- signal writedata : std_logic_vector;
- signal expected : work.reg32.RegArray );
-
- procedure test_execute( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- signal write : in std_logic;
- signal writedata : in std_logic_vector );
-
- end package test_hardware_task;
-
- package body test_hardware_task is
-
- procedure read_state( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable state : out std_logic_vector ) is
-
- variable address : std_logic_vector( 3 downto 0 );
- begin
- wait until falling_edge( clk );
- address := std_logic_vector( to_unsigned( 1, address'length ) );
-
- work.test_avalon_slave.read( clk => clk,
- address => address,
- req => req,
- rsp => rsp,
- data => state );
- end procedure read_state;
-
- procedure assert_state_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable state : std_logic_vector ) is
-
- variable address : std_logic_vector( 3 downto 0 );
- begin
- wait until falling_edge( clk );
- address := std_logic_vector( to_unsigned( 1, address'length ) );
-
- work.test_avalon_slave.assert_readdata_eq( clk => clk,
- address => address,
- req => req,
- rsp => rsp,
- expected => state,
- message => TEST_FAIL & " assert_state_eq" );
- end procedure assert_state_eq;
-
- procedure assert_cycle_count_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable cycle_count : std_logic_vector ) is
-
- variable address : std_logic_vector( 3 downto 0 );
- begin
- wait until falling_edge( clk );
- address := std_logic_vector( to_unsigned( 2, address'length ) );
-
- work.test_avalon_slave.assert_readdata_eq( clk => clk,
- address => address,
- req => req,
- rsp => rsp,
- expected => cycle_count,
- message => TEST_FAIL & " assert_cycle_count_eq" );
- end procedure assert_cycle_count_eq;
-
- procedure write_start( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request ) is
-
- variable address : std_logic_vector( 3 downto 0 );
- variable start : std_logic_vector( 31 downto 0 ) := ( others => '0' );
- begin
- wait until falling_edge( clk );
- address := std_logic_vector( to_unsigned( 0, address'length ) );
-
- work.test_avalon_slave.write( clk => clk,
- address => address,
- req => req,
- data => START );
-
- end procedure write_start;
-
- procedure write_config( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- variable index : in integer;
- variable config : in std_logic_vector ) is
-
- variable address : std_logic_vector( 3 downto 0 );
- begin
- wait until falling_edge( clk );
- address := std_logic_vector( to_unsigned( 3 + index, address'length ) );
-
- work.test_avalon_slave.write( clk => clk,
- address => address,
- req => req,
- data => config );
- end procedure write_config;
-
- procedure assert_config_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable index : in integer;
- variable config : in std_logic_vector ) is
-
- variable address : std_logic_vector( 3 downto 0 );
- begin
- wait until falling_edge( clk );
- address := std_logic_vector( to_unsigned( 3 + index, address'length ) );
-
- work.test_avalon_slave.assert_readdata_eq( clk => clk,
- address => address,
- req => req,
- rsp => rsp,
- expected => config,
- message => TEST_FAIL & " assert_config_eq" );
- end procedure assert_config_eq;
-
- procedure write_and_assert_config_eq( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- variable index : in integer;
- variable config : in std_logic_vector ) is
-
- variable address : std_logic_vector( 3 downto 0 );
- begin
- write_config( clk => clk, req => req, index => index, config => config );
- assert_config_eq( clk => clk, req => req, rsp => rsp, index => index, config => config );
- end procedure write_and_assert_config_eq;
-
- procedure assert_output_steam_data_eq( signal clk : in std_logic;
- signal write : std_logic;
- signal writedata : std_logic_vector;
- signal expected : work.reg32.RegArray ) is
- begin
- end procedure assert_output_steam_data_eq;
-
- procedure test_execute( signal clk : in std_logic;
- signal req : out work.avalon_slave.Request;
- signal rsp : in work.avalon_slave.Response;
- signal write : in std_logic;
- signal writedata : in std_logic_vector ) is
-
- variable expected_readdata : std_logic_vector( 31 downto 0 );
- variable state : std_logic_vector( 31 downto 0 );
- variable index : integer := 0;
- begin
- std.textio.write( std.textio.OUTPUT, " test_execute ... " );
-
- expected_readdata := to_std_logic_vector( TASK_IDLE, expected_readdata'length );
- assert_state_eq( clk => clk, req => req, rsp => rsp, state => expected_readdata );
-
- write_start( clk => clk, req => req );
-
- expected_readdata := to_std_logic_vector( TASK_RUNNING, expected_readdata'length );
- assert_state_eq( clk => clk, req => req, rsp => rsp, state => expected_readdata );
-
- while true loop
- work.test_hardware_task.read_state( clk => clk, req => req, rsp => rsp, state => state );
- if ( state = to_std_logic_vector( TASK_DONE, expected_readdata'length ) ) then
- exit;
- end if;
- end loop;
-
- std.textio.write( std.textio.OUTPUT, TEST_OK );
- end procedure test_execute;
- end package body test_hardware_task;
-
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