URL
https://opencores.org/ocsvn/uart2bus_testbench/uart2bus_testbench/trunk
Subversion Repositories uart2bus_testbench
[/] [uart2bus_testbench/] [trunk/] [tb/] [test/] [uart_test.svh] - Rev 8
Go to most recent revision | Compare with Previous | Blame | View Log
//-------------------------------------------------------------------------------------------------
//
// UART2BUS VERIFICATION
//
//-------------------------------------------------------------------------------------------------
// CREATOR : HANY SALAH
// PROJECT : UART2BUS UVM TEST BENCH
// UNIT : TEST
//-------------------------------------------------------------------------------------------------
// TITLE : UART TEST
// DESCRIPTION: THIS COMPONENT INCLUDES THE MAIN TESTS THAT WILL BE FORCED TO THE DUT. IT INCLUDES
// VIRTUAL BASE TEST FUNCTION THAT SHARES THE MOST COMMON ATTRIBUTES OF ALL TESTS.
// THE TESTS IMPLEMENTED THROUGH BELOW ARE RELATED TO THE TESTBENCH SPECIFICATIONS
// DOCUMENT. YOU CAN DOWNLOAD IT DIRECTLY THROUGH OPENCORES.COM OR FIND IT IN THE DOC
// DIRECTORY.
//-------------------------------------------------------------------------------------------------
// LOG DETAILS
//-------------
// VERSION NAME DATE DESCRIPTION
// 1 HANY SALAH 10012016 FILE CREATION
// 2 HANY SALAH 20012016 ADD BINARY MODE TESTS AND INVALID TESTS
// 3 HANY SALAH 12022016 IMPROVE BLOCK DESCRIPTION & ADD COMMENTS
//-------------------------------------------------------------------------------------------------
// ALL COPYRIGHTS ARE RESERVED FOR THE PRODUCER ONLY .THIS FILE IS PRODUCED FOR OPENCORES MEMBERS
// ONLY AND IT IS PROHIBTED TO USE THIS MATERIAL WITHOUT THE CREATOR'S PERMISSION
//-------------------------------------------------------------------------------------------------
// The base test class that includes the uvm printer and establish the whole environment.
// It also responsible for setting the environment configurations described in details through the
// testbench specifications document.
// The environment configurations are set during the end of elaboration phase. It includes:
// ----------------------------------------------------------------------------------------
// - The active edge : The active clock edge at which, the data is changed on the UART buses.
// It could be positive edge or negative edge.
// ----------------------------------------------------------------------------------------
// - The start bit : Represent the sequence through which the byte is serialized; either to
// start with the most significant bit or the least significant bit.
// ----------------------------------------------------------------------------------------
// - The data format : The data representation through the text commands either to be ASCII
// format or ordinary binary format.
// ----------------------------------------------------------------------------------------
// - The number of stop: The number of stop bits sent after the latest bit of each byte. It
// bit(s) would be either one or two bits
// ----------------------------------------------------------------------------------------
// - The number of bits: The number of bits within each transferred field. It would be either
// in the field 7 or 8 bits per field.
// ----------------------------------------------------------------------------------------
// - The parity mode : The used parity type of each field. It would be either no parity bit,
// odd parity or even parity.
// ----------------------------------------------------------------------------------------
// - The response time : Represent the maximum allowable time within which DUT should respond
// to the driven request.
// ----------------------------------------------------------------------------------------
// - The false data : Enable force false data on the output port within the read command
// enable through the both modes; text or binary.
// ----------------------------------------------------------------------------------------
virtual class uart_base_test extends uvm_test;
uart_env env;
uvm_table_printer printer;
uart_config _config;
`uvm_component_utils(uart_base_test)
function new (string name,uvm_component parent);
super.new(name,parent);
endfunction:new
function void build_phase (uvm_phase phase);
super.build_phase(phase);
env = uart_env::type_id::create("env",this);
_config = uart_config::type_id::create("_config",this);
uvm_config_db#(uart_config)::set(this,"*","UART_CONFIGURATION",_config);
printer = new();
printer.knobs.depth = 3;
env_configuration();
endfunction:build_phase
function void connect_phase (uvm_phase phase);
super.connect_phase(phase);
endfunction:connect_phase
function void env_configuration ();
_config._edge = pos_edge;
_config._start = lsb;
_config._datamode = ascii;
_config.num_stop_bits = 1;
_config.num_of_bits = 8;
_config._paritymode = parity_off;
_config.response_time = 8680;
_config.use_false_data= no;
endfunction:env_configuration
task run_phase (uvm_phase phase);
phase.phase_done.set_drain_time(this,5000);
endtask:run_phase
endclass:uart_base_test
//-------------------------------------------------------------------------------------------------
//
// PURE TEXT MODE TESTS
//
//-------------------------------------------------------------------------------------------------
// This test apply thirteen successive tests of UART write request using text communication mode.
// Refer to test plan section in the testbench specifications document for more details.
class write_text_mode extends uart_base_test;
seq_1p1 seq1;
seq_1p2 seq2;
seq_1p3 seq3;
seq_1p4 seq4;
seq_1p5 seq5;
seq_1p6 seq6;
seq_1p7 seq7;
seq_1p8 seq8;
seq_1p9 seq9;
seq_1p10 seq10;
seq_1p11 seq11;
seq_1p12 seq12;
seq_1p13 seq13;
`uvm_component_utils(write_text_mode)
function new (string name,uvm_component parent);
super.new(name,parent);
endfunction:new
function void build_phase (uvm_phase phase);
super.build_phase (phase);
seq1 = seq_1p1::type_id::create("seq1");
seq2 = seq_1p2::type_id::create("seq2");
seq3 = seq_1p3::type_id::create("seq3");
seq4 = seq_1p4::type_id::create("seq4");
seq5 = seq_1p5::type_id::create("seq5");
seq6 = seq_1p6::type_id::create("seq6");
seq7 = seq_1p7::type_id::create("seq7");
seq8 = seq_1p8::type_id::create("seq8");
seq9 = seq_1p9::type_id::create("seq9");
seq10 = seq_1p10::type_id::create("seq10");
seq11 = seq_1p11::type_id::create("seq11");
seq12 = seq_1p12::type_id::create("seq12");
seq13 = seq_1p13::type_id::create("seq13");
endfunction:build_phase
task run_phase (uvm_phase phase);
super.run_phase(phase);
phase.raise_objection(this);
seq1.start(env.agent._seq,null);
seq2.start(env.agent._seq,null);
seq3.start(env.agent._seq,null);
seq4.start(env.agent._seq,null);
seq5.start(env.agent._seq,null);
seq6.start(env.agent._seq,null);
seq7.start(env.agent._seq,null);
seq8.start(env.agent._seq,null);
seq9.start(env.agent._seq,null);
seq10.start(env.agent._seq,null);
seq11.start(env.agent._seq,null);
seq12.start(env.agent._seq,null);
seq13.start(env.agent._seq,null);
phase.drop_objection(this);
endtask:run_phase
endclass:write_text_mode
// This test apply thirteen successive tests of UART read request using text communication mode.
// Refer to test plan section in the testbench specifications document for more details.
class read_text_mode extends uart_base_test;
seq_2p1 seq1;
seq_2p2 seq2;
seq_2p3 seq3;
seq_2p4 seq4;
seq_2p5 seq5;
seq_2p6 seq6;
seq_2p7 seq7;
seq_2p8 seq8;
seq_2p9 seq9;
seq_2p10 seq10;
seq_2p11 seq11;
seq_2p12 seq12;
seq_2p13 seq13;
`uvm_component_utils(read_text_mode)
function new (string name,uvm_component parent);
super.new(name,parent);
endfunction:new
function void build_phase (uvm_phase phase);
super.build_phase(phase);
seq1 = seq_2p1::type_id::create("seq1");
seq2 = seq_2p2::type_id::create("seq2");
seq3 = seq_2p3::type_id::create("seq3");
seq4 = seq_2p4::type_id::create("seq4");
seq5 = seq_2p5::type_id::create("seq5");
seq6 = seq_2p6::type_id::create("seq6");
seq7 = seq_2p7::type_id::create("seq7");
seq8 = seq_2p8::type_id::create("seq8");
seq9 = seq_2p9::type_id::create("seq9");
seq10 = seq_2p10::type_id::create("seq10");
seq11 = seq_2p11::type_id::create("seq11");
seq12 = seq_2p12::type_id::create("seq12");
seq13 = seq_2p13::type_id::create("seq13");
endfunction:build_phase
task run_phase (uvm_phase phase);
super.run_phase(phase);
phase.raise_objection(this);
seq1.start(env.agent._seq,null);
seq2.start(env.agent._seq,null);
seq3.start(env.agent._seq,null);
seq4.start(env.agent._seq,null);
seq5.start(env.agent._seq,null);
seq6.start(env.agent._seq,null);
seq7.start(env.agent._seq,null);
seq8.start(env.agent._seq,null);
seq9.start(env.agent._seq,null);
seq10.start(env.agent._seq,null);
seq11.start(env.agent._seq,null);
seq12.start(env.agent._seq,null);
seq13.start(env.agent._seq,null);
phase.drop_objection(this);
endtask:run_phase
endclass:read_text_mode
//-------------------------------------------------------------------------------------------------
//
// PURE BINARY MODE TESTS
//
//-------------------------------------------------------------------------------------------------
// This test apply six successive tests of UART nop request using binary communication mode.
// Refer to test plan section in the testbench specifications document for more details.
class nop_command_mode extends uart_base_test;
seq_3p1 seq1;
seq_3p2 seq2;
seq_3p3 seq3;
seq_4p1 seq4;
seq_4p2 seq5;
seq_4p3 seq6;
`uvm_component_utils(nop_command_mode)
function new (string name,uvm_component parent);
super.new(name,parent);
endfunction:new
function void build_phase (uvm_phase phase);
super.build_phase(phase);
seq1 = seq_3p1::type_id::create("seq1");
seq2 = seq_3p2::type_id::create("seq2");
seq3 = seq_3p3::type_id::create("seq3");
seq4 = seq_4p1::type_id::create("seq4");
seq5 = seq_4p2::type_id::create("seq5");
seq6 = seq_4p3::type_id::create("seq6");
endfunction:build_phase
task run_phase(uvm_phase phase);
super.run_phase(phase);
phase.raise_objection(this);
seq1.start(env.agent._seq,null);
seq2.start(env.agent._seq,null);
seq3.start(env.agent._seq,null);
seq4.start(env.agent._seq,null);
seq5.start(env.agent._seq,null);
seq6.start(env.agent._seq,null);
phase.drop_objection(this);
endtask:run_phase
endclass:nop_command_mode
// This test apply ten successive tests of UART write request using binary communication mode.
// Refer to test plan section in the testbench specifications document for more details.
class write_command_mode extends uart_base_test;
seq_5p1 seq1;
seq_5p2 seq2;
seq_5p3 seq3;
seq_5p4 seq4;
seq_5p5 seq5;
seq_5p6 seq6;
seq_5p7 seq7;
seq_5p8 seq8;
seq_5p9 seq9;
seq_5p10 seq10;
`uvm_component_utils(write_command_mode)
function new (string name,uvm_component parent);
super.new(name,parent);
endfunction:new
function void build_phase (uvm_phase phase);
super.build_phase(phase);
seq1 = seq_5p1::type_id::create("seq1");
seq2 = seq_5p2::type_id::create("seq2");
seq3 = seq_5p3::type_id::create("seq3");
seq4 = seq_5p4::type_id::create("seq4");
seq5 = seq_5p5::type_id::create("seq5");
seq6 = seq_5p6::type_id::create("seq6");
seq7 = seq_5p7::type_id::create("seq7");
seq8 = seq_5p8::type_id::create("seq8");
seq9 = seq_5p9::type_id::create("seq9");
seq10 = seq_5p10::type_id::create("seq10");
endfunction:build_phase
task run_phase (uvm_phase phase);
super.run_phase(phase);
phase.raise_objection(this);
uvm_test_done.set_drain_time(this,5000);
//seq1.start(env.agent._seq,null);
seq2.start(env.agent._seq,null);
seq3.start(env.agent._seq,null);
seq4.start(env.agent._seq,null);
seq5.start(env.agent._seq,null);
seq6.start(env.agent._seq,null);
seq7.start(env.agent._seq,null);
seq8.start(env.agent._seq,null);
seq9.start(env.agent._seq,null);
seq10.start(env.agent._seq,null);
phase.drop_objection(this);
endtask:run_phase
endclass: write_command_mode
// This test apply ten successive tests of UART read request using binary communication mode.
// Refer to test plan section in the testbench specifications document for more details.
class read_command_mode extends uart_base_test;
seq_6p1 seq1;
seq_6p2 seq2;
seq_6p3 seq3;
seq_6p4 seq4;
seq_6p5 seq5;
seq_6p6 seq6;
seq_6p7 seq7;
seq_6p8 seq8;
seq_6p9 seq9;
seq_6p10 seq10;
`uvm_component_utils(read_command_mode)
function new (string name,uvm_component parent);
super.new(name,parent);
seq1 = seq_6p1::type_id::create("seq1");
seq2 = seq_6p2::type_id::create("seq2");
seq3 = seq_6p3::type_id::create("seq3");
seq4 = seq_6p4::type_id::create("seq4");
seq5 = seq_6p5::type_id::create("seq5");
seq6 = seq_6p6::type_id::create("seq6");
seq7 = seq_6p7::type_id::create("seq7");
seq8 = seq_6p8::type_id::create("seq8");
seq9 = seq_6p9::type_id::create("seq9");
seq10 = seq_6p10::type_id::create("seq10");
endfunction:new
function void build_phase (uvm_phase phase);
super.build_phase(phase);
endfunction:build_phase
task run_phase (uvm_phase phase);
super.run_phase(phase);
phase.raise_objection(this);
//seq1.start(env.agent._seq,null);
seq2.start(env.agent._seq,null);
seq3.start(env.agent._seq,null);
seq4.start(env.agent._seq,null);
seq5.start(env.agent._seq,null);
seq6.start(env.agent._seq,null);
seq7.start(env.agent._seq,null);
seq8.start(env.agent._seq,null);
seq9.start(env.agent._seq,null);
seq10.start(env.agent._seq,null);
phase.drop_objection(this);
endtask:run_phase
endclass:read_command_mode
//-------------------------------------------------------------------------------------------------
//
// COMBINED COMMAND TESTS
//
//-------------------------------------------------------------------------------------------------
// this test randomly apply series of 100 text mode commands. They would be either read or write
// sequences described in text mode tests in the testbench specifications document.
class text_mode_test extends uart_base_test;
rand int unsigned command_number;
seq_1p1 seq1;
seq_1p2 seq2;
seq_1p3 seq3;
seq_1p4 seq4;
seq_1p5 seq5;
seq_1p6 seq6;
seq_1p7 seq7;
seq_1p8 seq8;
seq_1p9 seq9;
seq_1p10 seq10;
seq_1p11 seq11;
seq_1p12 seq12;
seq_1p13 seq13;
seq_2p1 seq14;
seq_2p2 seq15;
seq_2p3 seq16;
seq_2p4 seq17;
seq_2p5 seq18;
seq_2p6 seq19;
seq_2p7 seq20;
seq_2p8 seq21;
seq_2p9 seq22;
seq_2p10 seq23;
seq_2p11 seq24;
seq_2p12 seq25;
seq_2p13 seq26;
`uvm_component_utils(text_mode_test)
constraint limit {
command_number inside {[1:26]};
}
function new (string name , uvm_component parent);
super.new(name,parent);
endfunction:new
function void build_phase (uvm_phase phase);
super.build_phase(phase);
seq1 = seq_1p1::type_id::create("seq1");
seq2 = seq_1p2::type_id::create("seq2");
seq3 = seq_1p3::type_id::create("seq3");
seq4 = seq_1p4::type_id::create("seq4");
seq5 = seq_1p5::type_id::create("seq5");
seq6 = seq_1p6::type_id::create("seq6");
seq7 = seq_1p7::type_id::create("seq7");
seq8 = seq_1p8::type_id::create("seq8");
seq9 = seq_1p9::type_id::create("seq9");
seq10 = seq_1p10::type_id::create("seq10");
seq11 = seq_1p11::type_id::create("seq11");
seq12 = seq_1p12::type_id::create("seq12");
seq13 = seq_1p13::type_id::create("seq13");
seq14 = seq_2p1::type_id::create("seq14");
seq15 = seq_2p2::type_id::create("seq15");
seq16 = seq_2p3::type_id::create("seq16");
seq17 = seq_2p4::type_id::create("seq17");
seq18 = seq_2p5::type_id::create("seq18");
seq19 = seq_2p6::type_id::create("seq19");
seq20 = seq_2p7::type_id::create("seq20");
seq21 = seq_2p8::type_id::create("seq21");
seq22 = seq_2p9::type_id::create("seq22");
seq23 = seq_2p10::type_id::create("seq23");
seq24 = seq_2p11::type_id::create("seq24");
seq25 = seq_2p12::type_id::create("seq25");
seq26 = seq_2p13::type_id::create("seq26");
endfunction:build_phase
task run_phase (uvm_phase phase);
super.run_phase(phase);
phase.raise_objection(this);
repeat (100)
begin
randomize();
case (command_number)
1:
begin
seq1.start(env.agent._seq,null);
end
2:
begin
seq2.start(env.agent._seq,null);
end
3:
begin
seq3.start(env.agent._seq,null);
end
4:
begin
seq4.start(env.agent._seq,null);
end
5:
begin
seq5.start(env.agent._seq,null);
end
6:
begin
seq6.start(env.agent._seq,null);
end
7:
begin
seq7.start(env.agent._seq,null);
end
8:
begin
seq8.start(env.agent._seq,null);
end
9:
begin
seq9.start(env.agent._seq,null);
end
10:
begin
seq10.start(env.agent._seq,null);
end
11:
begin
seq11.start(env.agent._seq,null);
end
12:
begin
seq12.start(env.agent._seq,null);
end
13:
begin
seq13.start(env.agent._seq,null);
end
14:
begin
seq14.start(env.agent._seq,null);
end
15:
begin
seq15.start(env.agent._seq,null);
end
16:
begin
seq16.start(env.agent._seq,null);
end
17:
begin
seq17.start(env.agent._seq,null);
end
18:
begin
seq18.start(env.agent._seq,null);
end
19:
begin
seq19.start(env.agent._seq,null);
end
20:
begin
seq20.start(env.agent._seq,null);
end
21:
begin
seq21.start(env.agent._seq,null);
end
22:
begin
seq22.start(env.agent._seq,null);
end
23:
begin
seq23.start(env.agent._seq,null);
end
24:
begin
seq24.start(env.agent._seq,null);
end
25:
begin
seq25.start(env.agent._seq,null);
end
26:
begin
seq26.start(env.agent._seq,null);
end
default:
begin
`uvm_fatal("OUT OF RANGE","Command Number is Out of Range")
end
endcase
end
phase.drop_objection(this);
endtask:run_phase
endclass:text_mode_test
Go to most recent revision | Compare with Previous | Blame | View Log