Line 5... |
Line 5... |
//// This file is part of the Ethernet IP core project ////
|
//// This file is part of the Ethernet IP core project ////
|
//// http://www.opencores.org/projects/ethmac/ ////
|
//// http://www.opencores.org/projects/ethmac/ ////
|
//// ////
|
//// ////
|
//// Author(s): ////
|
//// Author(s): ////
|
//// - Tadej Markovic, tadej@opencores.org ////
|
//// - Tadej Markovic, tadej@opencores.org ////
|
//// - Igor Mohor, igormM@opencores.org ////
|
//// - Igor Mohor, igorM@opencores.org ////
|
//// ////
|
//// ////
|
//// All additional information is available in the Readme.txt ////
|
//// All additional information is available in the Readme.txt ////
|
//// file. ////
|
//// file. ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
Line 40... |
Line 40... |
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
//
|
//
|
// CVS Revision History
|
// CVS Revision History
|
//
|
//
|
// $Log: not supported by cvs2svn $
|
// $Log: not supported by cvs2svn $
|
|
// Revision 1.18 2002/10/18 17:03:34 tadejm
|
|
// Changed BIST scan signals.
|
|
//
|
// Revision 1.17 2002/10/18 13:58:22 tadejm
|
// Revision 1.17 2002/10/18 13:58:22 tadejm
|
// Some code changed due to bug fixes.
|
// Some code changed due to bug fixes.
|
//
|
//
|
// Revision 1.16 2002/10/09 13:16:51 tadejm
|
// Revision 1.16 2002/10/09 13:16:51 tadejm
|
// Just back-up; not completed testbench and some testcases are not
|
// Just back-up; not completed testbench and some testcases are not
|
Line 370... |
Line 373... |
$fdisplay(wb_m_mon_log_file_desc, "============= WISHBONE Master Bus Monitor error log =============");
|
$fdisplay(wb_m_mon_log_file_desc, "============= WISHBONE Master Bus Monitor error log =============");
|
$fdisplay(wb_m_mon_log_file_desc, " ");
|
$fdisplay(wb_m_mon_log_file_desc, " ");
|
$fdisplay(wb_m_mon_log_file_desc, " Only ERRONEOUS conditions are logged !");
|
$fdisplay(wb_m_mon_log_file_desc, " Only ERRONEOUS conditions are logged !");
|
$fdisplay(wb_m_mon_log_file_desc, " ");
|
$fdisplay(wb_m_mon_log_file_desc, " ");
|
|
|
// Clear memories
|
|
clear_memories;
|
|
|
|
// Reset pulse
|
// Reset pulse
|
wb_rst = 1'b1;
|
wb_rst = 1'b1;
|
#423 wb_rst = 1'b0;
|
#423 wb_rst = 1'b0;
|
|
|
|
// Clear memories
|
|
clear_memories;
|
|
clear_buffer_descriptors;
|
|
|
#423 StartTB = 1'b1;
|
#423 StartTB = 1'b1;
|
end
|
end
|
|
|
|
|
|
|
Line 429... |
Line 434... |
// ----------
|
// ----------
|
// test_access_to_mac_reg(0, 3); // 0 - 3
|
// test_access_to_mac_reg(0, 3); // 0 - 3
|
// test_mii(0, 17); // 0 - 17
|
// test_mii(0, 17); // 0 - 17
|
test_note("PHY generates ideal Carrier sense and Collision signals for following tests");
|
test_note("PHY generates ideal Carrier sense and Collision signals for following tests");
|
eth_phy.carrier_sense_real_delay(0);
|
eth_phy.carrier_sense_real_delay(0);
|
test_mac_full_duplex_transmit(20, 20); // 0 - (21)
|
// test_mac_full_duplex_transmit(8, 9); // 0 - (21)
|
// test_mac_full_duplex_receive(0, 5);
|
test_mac_full_duplex_receive(8, 9);
|
// test_mac_full_duplex_flow(0, 0);
|
// test_mac_full_duplex_flow(0, 0);
|
|
|
test_note("PHY generates 'real' Carrier sense and Collision signals for following tests");
|
test_note("PHY generates 'real delayed' Carrier sense and Collision signals for following tests");
|
eth_phy.carrier_sense_real_delay(1);
|
eth_phy.carrier_sense_real_delay(1);
|
|
|
|
|
// Finish test's logs
|
// Finish test's logs
|
test_summary;
|
test_summary;
|
Line 6770... |
Line 6775... |
end
|
end
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Test no transmit packets (no pads) form 0 to (MINFL - 1) ////
|
//// Test transmit packets (no pads) from 0 to (MINFL - 1) ////
|
//// sizes at 8 TX buffer decriptors ( 10Mbps ). ////
|
//// sizes at 8 TX buffer decriptors ( 10Mbps ). ////
|
//// ////
|
//// ////
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
if (test_num == 8) //
|
if (test_num == 8) //
|
begin
|
begin
|
// TEST 8: NO TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )
|
// TEST 8: TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )
|
test_name = "TEST 8: NO TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )";
|
test_name = "TEST 8: TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )";
|
`TIME; $display(" TEST 8: NO TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )");
|
`TIME; $display(" TEST 8: TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )");
|
|
|
// reset MAC registers
|
// reset MAC registers
|
hard_reset;
|
hard_reset;
|
// reset MAC and MII LOGIC with soft reset
|
// reset MAC and MII LOGIC with soft reset
|
reset_mac;
|
reset_mac;
|
Line 6793... |
Line 6798... |
max_tmp = 0;
|
max_tmp = 0;
|
min_tmp = 0;
|
min_tmp = 0;
|
// set 8 TX buffer descriptors - must be set before TX enable
|
// set 8 TX buffer descriptors - must be set before TX enable
|
wbm_write(`ETH_TX_BD_NUM, 32'h8, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_TX_BD_NUM, 32'h8, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// enable TX, set full-duplex mode, padding and CRC appending
|
// enable TX, set full-duplex mode, padding and CRC appending
|
wbm_write(`ETH_MODER, `ETH_MODER_TXEN | `ETH_MODER_PAD | `ETH_MODER_FULLD | `ETH_MODER_CRCEN,
|
// wbm_write(`ETH_MODER, `ETH_MODER_TXEN | `ETH_MODER_PAD | `ETH_MODER_FULLD | `ETH_MODER_CRCEN,
|
|
wbm_write(`ETH_MODER, `ETH_MODER_TXEN | `ETH_MODER_FULLD,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// prepare two packets of MAXFL length
|
// prepare two packets of MAXFL length
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
min_tmp = tmp[31:16];
|
min_tmp = tmp[31:16];
|
Line 6863... |
Line 6869... |
// detect carrier sense in FD and set collision
|
// detect carrier sense in FD and set collision
|
eth_phy.carrier_sense_tx_fd_detect(1);
|
eth_phy.carrier_sense_tx_fd_detect(1);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
endcase
|
endcase
|
|
// // append CRC
|
|
// if ((i_length[0] == 1'b0) && (num_of_frames >= 6))
|
|
// begin
|
|
// append_tx_crc(`MEMORY_BASE, i_length, 1'b0);
|
|
// end
|
#1;
|
#1;
|
// first destination address on ethernet PHY
|
// first destination address on ethernet PHY
|
eth_phy.set_tx_mem_addr(num_of_frames * 16);
|
eth_phy.set_tx_mem_addr(num_of_frames * 16);
|
// SET packets and wrap bit
|
// SET packets and wrap bit
|
// num_of_frames <= 9 => wrap set to TX BD 0
|
// num_of_frames <= 9 => wrap set to TX BD 0
|
if (num_of_frames <= 9)
|
if (num_of_frames <= 5)
|
begin
|
begin
|
tmp_len = i_length; // length of frame
|
tmp_len = i_length; // length of frame
|
tmp_bd_num = 0; // TX BD number
|
tmp_bd_num = 0; // TX BD number
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0) // CRC appended by 'HARDWARE'
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b0, 1'b1, `MEMORY_BASE);
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b0, 1'b1, (`MEMORY_BASE + max_tmp));
|
|
// set wrap bit
|
|
set_tx_bd_wrap(0);
|
|
end
|
|
else if (num_of_frames <= 9)
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 0; // TX BD number
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0) // CRC appended by 'SOFTWARE'
|
|
set_tx_bd(tmp_bd_num, tmp_bd_num, (tmp_len + 0), !tmp_len[1], 1'b0, 1'b0, `MEMORY_BASE);
|
|
else
|
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b0, 1'b1, (`MEMORY_BASE + max_tmp));
|
// set wrap bit
|
// set wrap bit
|
set_tx_bd_wrap(0);
|
set_tx_bd_wrap(0);
|
end
|
end
|
// 10 <= num_of_frames < 18 => wrap set to TX BD 3
|
// 10 <= num_of_frames < 18 => wrap set to TX BD 3
|
else if ((num_of_frames == 10) || (num_of_frames == 14))
|
else if ((num_of_frames == 10) || (num_of_frames == 14))
|
Line 6891... |
Line 6915... |
while (tmp_bd_num < 4) //
|
while (tmp_bd_num < 4) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_tx_bd(tmp_bd_num, tmp_bd_num, (tmp_len + 0), !tmp_len[1], 1'b0, 1'b0, `MEMORY_BASE);
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b0, 1'b1, (`MEMORY_BASE + max_tmp));
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set TX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
Line 6911... |
Line 6935... |
while (tmp_bd_num < 5) //
|
while (tmp_bd_num < 5) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_tx_bd(tmp_bd_num, tmp_bd_num, (tmp_len + 0), !tmp_len[1], 1'b0, 1'b0, `MEMORY_BASE);
|
else
|
else // when (num_of_frames == 23), (i_length == 23) and therefor i_length[0] == 1 !!!
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1],
|
|
((num_of_frames == 23) && (tmp_bd_num == 0)), 1'b1, (`MEMORY_BASE + max_tmp));
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set TX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
Line 6931... |
Line 6956... |
while (tmp_bd_num < 6) //
|
while (tmp_bd_num < 6) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_tx_bd(tmp_bd_num, tmp_bd_num, (tmp_len + 0), !tmp_len[1], 1'b0, 1'b0, `MEMORY_BASE);
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b0, 1'b1, (`MEMORY_BASE + max_tmp));
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set TX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
Line 6951... |
Line 6976... |
while (tmp_bd_num < 7) //
|
while (tmp_bd_num < 7) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_tx_bd(tmp_bd_num, tmp_bd_num, (tmp_len + 0), !tmp_len[1], 1'b0, 1'b0, `MEMORY_BASE);
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b0, 1'b1, (`MEMORY_BASE + max_tmp));
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set TX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
Line 6971... |
Line 6996... |
while (tmp_bd_num < 8) //
|
while (tmp_bd_num < 8) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_tx_bd(tmp_bd_num, tmp_bd_num, (tmp_len + 0), !tmp_len[1], 1'b0, 1'b0, `MEMORY_BASE);
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b0, 1'b1, (`MEMORY_BASE + max_tmp));
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set TX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
Line 7045... |
Line 7070... |
#1 check_tx_bd(num_of_bd, data);
|
#1 check_tx_bd(num_of_bd, data);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
repeat (1) @(posedge wb_clk);
|
// check length of a PACKET
|
// check length of a PACKET
|
if (eth_phy.tx_len != (i_length + 4))
|
if ((eth_phy.tx_len != i_length) && (i_length[0] == 1'b0) && (num_of_frames >= 6))
|
|
begin
|
|
`TIME; $display("*E Wrong length of the packet out from MAC");
|
|
test_fail("Wrong length of the packet out from MAC");
|
|
fail = fail + 1;
|
|
end
|
|
else if ((eth_phy.tx_len != (i_length + 4)) && (num_of_frames != 23))
|
|
begin
|
|
`TIME; $display("*E Wrong length of the packet out from MAC");
|
|
test_fail("Wrong length of the packet out from MAC");
|
|
fail = fail + 1;
|
|
end
|
|
else if ((eth_phy.tx_len != (min_tmp)) && (num_of_frames == 23))
|
begin
|
begin
|
`TIME; $display("*E Wrong length of the packet out from MAC");
|
`TIME; $display("*E Wrong length of the packet out from MAC");
|
test_fail("Wrong length of the packet out from MAC");
|
test_fail("Wrong length of the packet out from MAC");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// check transmitted TX packet data
|
// check transmitted TX packet data
|
if (i_length[0] == 0)
|
if (i_length[0] == 0)
|
begin
|
begin
|
#1 check_tx_packet(`MEMORY_BASE, (num_of_frames * 16), i_length, tmp);
|
#1 check_tx_packet(`MEMORY_BASE, (num_of_frames * 16), i_length, tmp);
|
end
|
end
|
|
else if (num_of_frames == 23) // i_length[0] == 1 here
|
|
begin
|
|
#1 check_tx_packet((`MEMORY_BASE + max_tmp), (num_of_frames * 16), (min_tmp - 4), tmp);
|
|
end
|
else
|
else
|
begin
|
begin
|
#1 check_tx_packet((`MEMORY_BASE + max_tmp), (num_of_frames * 16), i_length, tmp);
|
#1 check_tx_packet((`MEMORY_BASE + max_tmp), (num_of_frames * 16), i_length, tmp);
|
end
|
end
|
if (tmp > 0)
|
if (tmp > 0)
|
begin
|
begin
|
test_fail("Wrong data of the transmitted packet");
|
test_fail("Wrong data of the transmitted packet");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// check transmited TX packet CRC
|
// check transmited TX packet CRC
|
#1 check_tx_crc((num_of_frames * 16), (eth_phy.tx_len - 4), 1'b0, tmp); // length without CRC
|
#1;
|
|
if ((i_length[0] == 1'b0) && (num_of_frames >= 6))
|
|
begin
|
|
end
|
|
else
|
|
check_tx_crc((num_of_frames * 16), (eth_phy.tx_len - 4), 1'b0, tmp); // length without CRC
|
if (tmp > 0)
|
if (tmp > 0)
|
begin
|
begin
|
test_fail("Wrong CRC of the transmitted packet");
|
test_fail("Wrong CRC of the transmitted packet");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
Line 7096... |
Line 7142... |
end
|
end
|
// check TX buffer descriptor of a packet
|
// check TX buffer descriptor of a packet
|
check_tx_bd(num_of_bd, data);
|
check_tx_bd(num_of_bd, data);
|
if (num_of_frames >= 5)
|
if (num_of_frames >= 5)
|
begin
|
begin
|
if (i_length[1] == 1'b0) // interrupt enabled
|
if ((i_length[1] == 1'b0) && (i_length[0] == 1'b0)) // interrupt enabled
|
begin
|
begin
|
if ( (data[15:0] !== 16'h7800) && // wrap bit
|
if ( (data[15:0] !== 16'h6000) && // wrap bit
|
(data[15:0] !== 16'h5800) ) // without wrap bit
|
(data[15:0] !== 16'h4000) ) // without wrap bit
|
begin
|
begin
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("TX buffer descriptor status is not correct");
|
test_fail("TX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else // interrupt not enabled
|
else if ((i_length[1] == 1'b1) && (i_length[0] == 1'b0)) // interrupt not enabled
|
|
begin
|
|
if ( (data[15:0] !== 16'h2000) && // wrap bit
|
|
(data[15:0] !== 16'h0000) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
|
test_fail("TX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else if ((i_length[1] == 1'b0) && (i_length[0] == 1'b1)) // interrupt enabled
|
|
begin
|
|
if ( (data[15:0] !== 16'h6800) && // wrap bit
|
|
(data[15:0] !== 16'h4800) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
|
test_fail("TX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else if (num_of_frames != 23) // ((i_length[1] == 1'b1) && (i_length[0] == 1'b1)) // interrupt not enabled
|
|
begin
|
|
if ( (data[15:0] !== 16'h2800) && // wrap bit
|
|
(data[15:0] !== 16'h0800) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
|
test_fail("TX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else // ((num_of_frames != 23) && (i_length[1] == 1'b1) && (i_length[0] == 1'b1)) // interrupt not enabled
|
begin
|
begin
|
if ( (data[15:0] !== 16'h3800) && // wrap bit
|
if ( (data[15:0] !== 16'h3800) && // wrap bit
|
(data[15:0] !== 16'h1800) ) // without wrap bit
|
(data[15:0] !== 16'h1800) ) // without wrap bit
|
begin
|
begin
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
Line 7233... |
Line 7309... |
end
|
end
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Test no transmit packets (no pads) form 0 to (MINFL - 1) ////
|
//// Test transmit packets (no pads) form 0 to (MINFL - 1) ////
|
//// sizes at 8 TX buffer decriptors ( 100Mbps ). ////
|
//// sizes at 8 TX buffer decriptors ( 100Mbps ). ////
|
//// ////
|
//// ////
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
if (test_num == 9) //
|
if (test_num == 9) //
|
begin
|
begin
|
// TEST 9: NO TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 100Mbps )
|
// TEST 9: TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 100Mbps )
|
test_name = "TEST 9: NO TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 100Mbps )";
|
test_name = "TEST 9: TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 100Mbps )";
|
`TIME; $display(" TEST 9: NO TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 100Mbps )");
|
`TIME; $display(" TEST 9: TRANSMIT PACKETS (NO PADs) FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 100Mbps )");
|
|
|
// reset MAC registers
|
// reset MAC registers
|
hard_reset;
|
hard_reset;
|
// reset MAC and MII LOGIC with soft reset
|
// reset MAC and MII LOGIC with soft reset
|
reset_mac;
|
reset_mac;
|
Line 10384... |
Line 10460... |
test_ok;
|
test_ok;
|
else
|
else
|
fail = 0;
|
fail = 0;
|
end
|
end
|
|
|
/*
|
|
wbm_write(`ETH_MODER, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
wbm_read(`ETH_MODER, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
|
|
wbm_write(32'hd0000000, `ETH_MODER_RXEN | `ETH_MODER_TXEN | `ETH_MODER_PRO | `ETH_MODER_CRCEN |
|
|
`ETH_MODER_PAD, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
wbm_read(32'hd0000000, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
|
|
|
|
|
|
|
|
set_tx_bd(3);
|
|
set_rx_bd(6);
|
|
|
|
set_tx_packet(16'h34, 8'h1);
|
|
set_tx_packet(16'h34, 8'h11);
|
|
send_tx_packet;
|
|
set_tx_packet(16'h34, 8'h21);
|
|
set_tx_packet(16'h34, 8'h31);
|
|
send_tx_packet;
|
|
|
|
|
|
eth_phy.GetDataOnMRxD(100, `BROADCAST_XFR); // LengthRx bytes is comming on MRxD[3:0] signals
|
|
repeat (100) @(posedge mrx_clk); // Waiting for TxEthMac to finish transmit
|
|
|
|
eth_phy.GetDataOnMRxD(70, `BROADCAST_XFR); // LengthRx bytes is comming on MRxD[3:0] signals
|
|
repeat (10000) @(posedge wb_clk); // Waiting for TxEthMac to finish transmit
|
|
|
|
eth_phy.GetDataOnMRxD(70, `MULTICAST_XFR); // LengthRx bytes is comming on MRxD[3:0] signals
|
|
repeat (10000) @(posedge wb_clk); // Waiting for TxEthMac to finish transmit
|
|
*/
|
|
|
|
end // for (test_num=start_task; test_num <= end_task; test_num=test_num+1)
|
end // for (test_num=start_task; test_num <= end_task; test_num=test_num+1)
|
|
|
end
|
end
|
endtask // test_mac_full_duplex_transmit
|
endtask // test_mac_full_duplex_transmit
|
|
|
Line 10453... |
Line 10497... |
integer fail;
|
integer fail;
|
integer speed;
|
integer speed;
|
reg frame_started;
|
reg frame_started;
|
reg frame_ended;
|
reg frame_ended;
|
reg wait_for_frame;
|
reg wait_for_frame;
|
|
reg check_frame;
|
|
reg stop_checking_frame;
|
|
reg first_fr_received;
|
reg [31:0] addr;
|
reg [31:0] addr;
|
reg [31:0] data;
|
reg [31:0] data;
|
reg [31:0] tmp;
|
reg [31:0] tmp;
|
reg [ 7:0] st_data;
|
reg [ 7:0] st_data;
|
reg [15:0] max_tmp;
|
reg [15:0] max_tmp;
|
Line 10534... |
Line 10581... |
//// ////
|
//// ////
|
//// test_mac_full_duplex_receive: ////
|
//// test_mac_full_duplex_receive: ////
|
//// ////
|
//// ////
|
//// 0: Test no receive when all buffers are TX ( 10Mbps ). ////
|
//// 0: Test no receive when all buffers are TX ( 10Mbps ). ////
|
//// 1: Test no receive when all buffers are TX ( 100Mbps ). ////
|
//// 1: Test no receive when all buffers are TX ( 100Mbps ). ////
|
//// 2: Test receive packets form MINFL to MAXFL sizes at ////
|
//// 2: Test receive packet synchronization with receive ////
|
|
//// disable/enable ( 10Mbps ). ////
|
|
//// 3: Test receive packet synchronization with receive ////
|
|
//// disable/enable ( 100Mbps ). ////
|
|
//// 4: Test receive packets form MINFL to MAXFL sizes at ////
|
//// one RX buffer decriptor ( 10Mbps ). ////
|
//// one RX buffer decriptor ( 10Mbps ). ////
|
//// 3: Test receive packets form MINFL to MAXFL sizes at ////
|
//// 5: Test receive packets form MINFL to MAXFL sizes at ////
|
//// one RX buffer decriptor ( 100Mbps ). ////
|
//// one RX buffer decriptor ( 100Mbps ). ////
|
//// ////
|
//// ////
|
//////////////////////////////////////////////////////////////////////
|
//////////////////////////////////////////////////////////////////////
|
for (test_num = start_task; test_num <= end_task; test_num = test_num + 1)
|
for (test_num = start_task; test_num <= end_task; test_num = test_num + 1)
|
begin
|
begin
|
Line 10715... |
Line 10766... |
end
|
end
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
//// Test receive packet synchronization with receive ////
|
//// one RX buffer decriptor ( 10Mbps ). ////
|
//// disable/enable ( 10Mbps ). ////
|
//// ////
|
//// ////
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
if (test_num == 2) // Test no receive when all buffers are TX ( 10Mbps ).
|
if (test_num == 2) // Test no receive when all buffers are TX ( 10Mbps ).
|
begin
|
begin
|
// TEST 2: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 10Mbps )
|
// TEST 2: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )
|
test_name = "TEST 2: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 10Mbps )";
|
test_name = "TEST 2: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )";
|
`TIME; $display(" TEST 2: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 10Mbps )");
|
`TIME; $display(" TEST 2: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )");
|
|
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// set 1 RX buffer descriptor (8'h80 - 1) - must be set before RX enable
|
// set 10 RX buffer descriptor (8'h80 - 8'hA) - must be set before RX enable
|
wbm_write(`ETH_TX_BD_NUM, 32'h7F, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_TX_BD_NUM, 32'h76, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
// disable RX, set full-duplex mode, NO receive small, NO correct IFG
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// prepare two packets of MAXFL length
|
// prepare two packets of MAXFL length
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
min_tmp = tmp[31:16];
|
min_tmp = tmp[31:16];
|
st_data = 8'h0F;
|
st_data = 8'h0F;
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
set_rx_packet(0, (min_tmp + 1), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
|
append_rx_crc(0, (min_tmp + 1), 1'b0, 1'b0);
|
st_data = 8'h1A;
|
st_data = 8'h1A;
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
set_rx_packet(max_tmp, (min_tmp + 1), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
|
append_rx_crc(max_tmp, (min_tmp + 1), 1'b0, 1'b0);
|
// check WB INT signal
|
// check WB INT signal
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
Line 10754... |
Line 10807... |
// write to phy's control register for 10Mbps
|
// write to phy's control register for 10Mbps
|
#Tp eth_phy.control_bit14_10 = 5'b00000; // bit 13 reset - speed 10
|
#Tp eth_phy.control_bit14_10 = 5'b00000; // bit 13 reset - speed 10
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
speed = 10;
|
speed = 10;
|
|
|
i_length = (min_tmp - 4);
|
frame_started = 0;
|
while (i_length <= (max_tmp - 4))
|
frame_ended = 0;
|
|
wait_for_frame = 0;
|
|
check_frame = 0;
|
|
stop_checking_frame = 0;
|
|
first_fr_received = 1; // at the beginning the first frame of each two will be received!
|
|
|
|
num_of_frames = 0; //
|
|
num_of_bd = 0;
|
|
i_length = (min_tmp + 1); // 5 bytes longer than MINFL
|
|
while (i_length < (max_tmp - 4))
|
begin
|
begin
|
// choose generating carrier sense and collision for first and last 64 lengths of frames
|
// choose generating carrier sense and collision
|
case (i_length[1:0])
|
case (num_of_frames[1:0])
|
2'h0: // Interrupt is generated
|
2'h0: // Interrupt is generated
|
begin
|
begin
|
// enable interrupt generation
|
// enable interrupt generation
|
set_rx_bd(127, 127, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// not detect carrier sense in FD and no collision
|
// not detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h1: // Interrupt is not generated
|
2'h1: // Interrupt is generated
|
begin
|
begin
|
// enable interrupt generation
|
// enable interrupt generation
|
set_rx_bd(127, 127, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// mask interrupts
|
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// detect carrier sense in FD and no collision
|
// detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h2: // Interrupt is not generated
|
2'h2: // Interrupt is generated
|
begin
|
begin
|
// disable interrupt generation
|
// disable interrupt generation
|
set_rx_bd(127, 127, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// not detect carrier sense in FD and set collision
|
// not detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
default: // 2'h3: // Interrupt is not generated
|
default: // 2'h3: // Interrupt is generated
|
begin
|
begin
|
// disable interrupt generation
|
// disable interrupt generation
|
set_rx_bd(127, 127, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// mask interrupts
|
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// detect carrier sense in FD and set collision
|
// detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
endcase
|
endcase
|
if (i_length[0] == 1'b0)
|
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
|
else
|
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
|
// set wrap bit
|
// set wrap bit
|
set_rx_bd_wrap(127);
|
set_rx_bd_wrap(118);
|
set_rx_bd_empty(127, 127);
|
set_rx_bd_empty(118, 118);
|
|
check_frame = 0;
|
|
stop_checking_frame = 0;
|
|
tmp_data = 0;
|
fork
|
fork
|
|
begin // enable RX MAC on first of each two packets - every second should be recived normaly
|
|
if (num_of_frames[0] == 1'b0)
|
begin
|
begin
|
if (i_length[0] == 1'b0)
|
repeat(1) @(posedge wb_clk);
|
|
if (num_of_frames[1] == 1'b0)
|
|
begin
|
|
repeat (num_of_frames[31:2]) @(posedge mrx_clk); // for every (second) frame enable receiver one clock later
|
|
end
|
|
else
|
|
begin
|
|
@(posedge mrx_clk);
|
|
repeat (num_of_frames[31:2]) @(negedge mrx_clk); // for every (second) frame enable receiver one clock later
|
|
end
|
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
|
wbm_init_waits = 4'h0;
|
|
wbm_subseq_waits = 4'h0;
|
|
#1 wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits); // write ASAP
|
|
end
|
|
end
|
|
begin // send a packet from PHY RX
|
|
repeat(1) @(posedge wb_clk); // wait for WB write when it is without delays
|
|
if (num_of_frames[1] == 1'b0)
|
|
begin
|
|
set_rx_addr_type(0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
|
end
|
else
|
else
|
|
begin
|
|
set_rx_addr_type((max_tmp), 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
|
end
|
|
end
|
|
begin: send_packet0
|
|
wait (MRxDV === 1'b1); // start transmit
|
|
wait (MRxDV === 1'b0); // end transmit
|
|
check_frame = 1;
|
repeat(10) @(posedge mrx_clk);
|
repeat(10) @(posedge mrx_clk);
|
|
repeat(15) @(posedge wb_clk);
|
|
stop_checking_frame = 1;
|
end
|
end
|
|
begin // count WB clocks between ACK (negedge) and RX_DV (posedge) or vice-versa
|
|
@(posedge eth_sl_wb_ack_o or posedge MRxDV);
|
|
if ((eth_sl_wb_ack_o === 1'b1) && (MRxDV === 1'b1))
|
begin
|
begin
|
#1 check_rx_bd(127, data);
|
tmp_data = 32'h8000_0001; // bit[31]==1 => 'posedge MRxDV' was before 'negedge eth_sl_wb_ack_o'
|
if (i_length < min_tmp) // just first four
|
end
|
|
else if (MRxDV === 1'b1)
|
begin
|
begin
|
while (data[15] === 1)
|
while (eth_sl_wb_ack_o === 1'b0)
|
begin
|
begin
|
#1 check_rx_bd(127, data);
|
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
|
tmp_data = tmp_data + 1;
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
tmp_data = tmp_data | 32'h8000_0000; // bit[31]==1 => 'posedge MRxDV' was before 'negedge eth_sl_wb_ack_o'
|
end
|
end
|
else
|
else if (eth_sl_wb_ack_o === 1'b1)
|
begin
|
begin
|
wait (MRxDV === 1'b1); // start transmit
|
@(posedge wb_clk); // wait for one clock => tmp_data 'becomes' 0
|
#1 check_rx_bd(127, data);
|
while (MRxDV === 1'b0)
|
if (data[15] !== 1)
|
|
begin
|
begin
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
@(posedge wb_clk);
|
fail = fail + 1;
|
tmp_data = tmp_data + 1; // bit[31]==0 => 'negedge eth_sl_wb_ack_o' was equal or before 'posedge MRxDV'
|
end
|
end
|
wait (MRxDV === 1'b0); // end transmit
|
end
|
while (data[15] === 1)
|
end
|
|
begin // check packet
|
|
wait (check_frame == 1);
|
|
check_rx_bd(118, tmp_bd);
|
|
while ((tmp_bd[15] === 1) && (stop_checking_frame == 0))
|
begin
|
begin
|
#1 check_rx_bd(127, data);
|
#1 check_rx_bd(118, tmp_bd);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
if (num_of_frames[0] == 1'b0)
|
|
begin
|
|
if (tmp_bd[15] === 1)
|
|
begin
|
|
if (first_fr_received == 1)
|
|
begin
|
|
first_fr_received = 0;
|
|
$display(" %0d packets (without this one) are checked - packets are received by two in a set",
|
|
num_of_frames); // +1 due to start with 0 AND -1 because this packet is excluded
|
|
$display(" From this moment:");
|
|
$display(" first one of two packets (including this one) is not accepted due to late RX enable");
|
|
if (tmp_data[31])
|
|
$display(" ->RX enable set %0d WB clks after RX_DV", tmp_data[30:0]);
|
|
else
|
|
$display(" ->RX enable set %0d WB clks before RX_DV", tmp_data[30:0]);
|
end
|
end
|
end
|
end
|
|
end
|
|
if (stop_checking_frame == 0)
|
|
disable send_packet0;
|
|
end
|
join
|
join
|
|
// ONLY IF packet was received!
|
|
if (tmp_bd[15] === 0)
|
|
begin
|
// check length of a PACKET
|
// check length of a PACKET
|
if (data[31:16] != (i_length + 4))
|
if (tmp_bd[31:16] != (i_length + 4))
|
begin
|
begin
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
data[31:16], (i_length + 4));
|
tmp_bd[31:16], (i_length + 4));
|
test_fail("Wrong length of the packet out from PHY");
|
test_fail("Wrong length of the packet out from PHY");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// checking in the following if statement is performed only for first and last 64 lengths
|
|
// check received RX packet data and CRC
|
// check received RX packet data and CRC
|
if (i_length[0] == 1'b0)
|
if (first_fr_received == 0) // if PREVIOUS RX buffer descriptor was not ready, pointer address is -1
|
begin
|
begin
|
check_rx_packet(0, (`MEMORY_BASE + i_length[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
if (num_of_frames[1] == 1'b0)
|
|
begin
|
|
check_rx_packet(0, (`MEMORY_BASE + num_of_frames[1:0] - 1'b1), (i_length + 4), 1'b0, 1'b0, tmp);
|
end
|
end
|
else
|
else
|
begin
|
begin
|
check_rx_packet(max_tmp, ((`MEMORY_BASE + i_length[1:0]) + max_tmp), (i_length + 4), 1'b0, 1'b0, tmp);
|
check_rx_packet(max_tmp, (`MEMORY_BASE + num_of_frames[1:0] - 1'b1), (i_length + 4), 1'b0, 1'b0, tmp);
|
end
|
end
|
if (tmp > 0)
|
if (tmp > 0)
|
begin
|
begin
|
`TIME; $display("*E Wrong data of the received packet");
|
`TIME; $display("*E Wrong data of the received packet");
|
test_fail("Wrong data of the received packet");
|
test_fail("Wrong data of the received packet");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// check WB INT signal
|
end
|
if (i_length[1:0] == 2'h0)
|
else // if PREVIOUS RX buffer descriptor was ready
|
begin
|
begin
|
if (wb_int !== 1'b1)
|
if (num_of_frames[1] == 1'b0)
|
begin
|
begin
|
`TIME; $display("*E WB INT signal should be set");
|
check_rx_packet(0, (`MEMORY_BASE + num_of_frames[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
test_fail("WB INT signal should be set");
|
end
|
|
else
|
|
begin
|
|
check_rx_packet(max_tmp, (`MEMORY_BASE + num_of_frames[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
if (tmp > 0)
|
|
begin
|
|
`TIME; $display("*E Wrong data of the received packet");
|
|
test_fail("Wrong data of the received packet");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else
|
end
|
|
// check WB INT signal
|
|
if ((num_of_frames[0] == 1'b0) && (first_fr_received == 0)) // interrupt enabled but no receive
|
begin
|
begin
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
`TIME; $display("*E WB INT signal should not be set");
|
`TIME; $display("*E WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// check RX buffer descriptor of a packet
|
else
|
check_rx_bd(127, data);
|
|
if (i_length[1] == 1'b0) // interrupt enabled no_carrier_sense_rx_fd_detect
|
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h6000) && (i_length[0] == 1'b0)) ||
|
if (wb_int !== 1'b1)
|
((data[15:0] !== 16'h6000) && (i_length[0] == 1'b1)) )
|
begin
|
|
`TIME; $display("*E WB INT signal should be set");
|
|
test_fail("WB INT signal should be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// check RX buffer descriptor of a packet - only 15 LSBits
|
|
check_rx_bd(118, data);
|
|
if ((num_of_frames[0] == 1'b0) && (first_fr_received == 0)) // interrupt enabled but no receive
|
|
begin
|
|
if (data[15:0] !== 16'hE000)
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else // interrupt not enabled
|
else // interrupt enabled
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h2000) && (i_length[0] == 1'b0)) ||
|
if (data[15:0] !== 16'h6000)
|
((data[15:0] !== 16'h2000) && (i_length[0] == 1'b1)) )
|
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// clear RX buffer descriptor for first 4 frames
|
|
if (i_length < min_tmp)
|
|
clear_rx_bd(127, 127);
|
|
// check interrupts
|
// check interrupts
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
if ((num_of_frames[0] == 1'b0) && (first_fr_received == 0)) // interrupt enabled but no receive
|
|
begin
|
|
if (data !== 0)
|
|
begin
|
|
`TIME; $display("*E Any of interrupts was set, interrupt reg: %0h, len: %0h", data, num_of_frames[1:0]);
|
|
test_fail("Any of interrupts was set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
begin
|
begin
|
if ((data & `ETH_INT_RXB) !== `ETH_INT_RXB)
|
if ((data & `ETH_INT_RXB) !== `ETH_INT_RXB)
|
begin
|
begin
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
test_fail("Interrupt Receive Buffer was not set");
|
test_fail("Interrupt Receive Buffer was not set");
|
Line 10932... |
Line 11070... |
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else
|
|
begin
|
|
if (data !== 0)
|
|
begin
|
|
`TIME; $display("*E Any of interrupts (except Receive Buffer) was set, interrupt reg: %0h, len: %0h", data, i_length[1:0]);
|
|
test_fail("Any of interrupts (except Receive Buffer) was set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// clear interrupts
|
// clear interrupts
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// check WB INT signal
|
// check WB INT signal
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// INTERMEDIATE DISPLAYS
|
// disable RX after two packets
|
if ((i_length + 4) == (min_tmp + 64))
|
if (num_of_frames[0] == 1'b1)
|
begin
|
begin
|
// starting length is min_tmp, ending length is (min_tmp + 64)
|
// disable RX, set full-duplex mode, NO receive small, NO correct IFG
|
$display(" receive small packets is NOT selected");
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
|
min_tmp, (min_tmp + 64));
|
|
// set receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, 4'h0, 4'h0); // write ASAP
|
end
|
|
else if ((i_length + 4) == (max_tmp - 16))
|
|
begin
|
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
|
$display(" receive small packets is selected");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
|
(min_tmp + 64 + 128), tmp_data);
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == max_tmp)
|
|
begin
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
|
(max_tmp - (4 + 16)), max_tmp);
|
|
end
|
|
// set length (loop variable)
|
|
if ((i_length + 4) < (min_tmp + 64))
|
|
i_length = i_length + 1;
|
|
else if ( ((i_length + 4) >= (min_tmp + 64)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
begin
|
|
i_length = i_length + 128;
|
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
|
end
|
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
|
i_length = max_tmp - (4 + 16);
|
|
else if ((i_length + 4) >= (max_tmp - 16))
|
|
i_length = i_length + 1;
|
|
else
|
|
begin
|
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
|
#10 $stop;
|
|
end
|
end
|
|
// the number of frame transmitted
|
|
num_of_frames = num_of_frames + 1;
|
|
num_of_bd = 0;
|
|
// set length (LOOP variable)
|
|
if (num_of_frames[31:2] == (i_length * 2 + 16)) // 64 => this vas last Byte (1st .. 64th) when i_length = min_tmp - 4
|
|
i_length = (max_tmp - 4);
|
|
@(posedge wb_clk);
|
end
|
end
|
// disable RX
|
// disable RX
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
Line 11009... |
Line 11107... |
end
|
end
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
//// Test receive packet synchronization with receive ////
|
//// one RX buffer decriptor ( 100Mbps ). ////
|
//// disable/enable ( 100Mbps ). ////
|
//// ////
|
//// ////
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
if (test_num == 3) // Test no receive when all buffers are TX ( 100Mbps ).
|
if (test_num == 3) // Test no receive when all buffers are TX ( 100Mbps ).
|
begin
|
begin
|
// TEST 3: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 100Mbps )
|
// TEST 3: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 100Mbps )
|
test_name = "TEST 3: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 100Mbps )";
|
test_name = "TEST 3: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 100Mbps )";
|
`TIME; $display(" TEST 3: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 100Mbps )");
|
`TIME; $display(" TEST 3: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 100Mbps )");
|
|
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// set 1 RX buffer descriptor (8'h80 - 1) - must be set before RX enable
|
// set 10 RX buffer descriptor (8'h80 - 8'hA) - must be set before RX enable
|
wbm_write(`ETH_TX_BD_NUM, 32'h7F, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_TX_BD_NUM, 32'h76, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
// disable RX, set full-duplex mode, NO receive small, NO correct IFG
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// prepare two packets of MAXFL length
|
// prepare two packets of MAXFL length
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
min_tmp = tmp[31:16];
|
min_tmp = tmp[31:16];
|
st_data = 8'h0F;
|
st_data = 8'h0F;
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
set_rx_packet(0, (min_tmp + 1), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
|
append_rx_crc(0, (min_tmp + 1), 1'b0, 1'b0);
|
st_data = 8'h1A;
|
st_data = 8'h1A;
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
set_rx_packet(max_tmp, (min_tmp + 1), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
|
append_rx_crc(max_tmp, (min_tmp + 1), 1'b0, 1'b0);
|
// check WB INT signal
|
// check WB INT signal
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
Line 11048... |
Line 11148... |
// write to phy's control register for 100Mbps
|
// write to phy's control register for 100Mbps
|
#Tp eth_phy.control_bit14_10 = 5'b01000; // bit 13 set - speed 100
|
#Tp eth_phy.control_bit14_10 = 5'b01000; // bit 13 set - speed 100
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
speed = 100;
|
speed = 100;
|
|
|
i_length = (min_tmp - 4);
|
frame_started = 0;
|
while (i_length <= (max_tmp - 4))
|
frame_ended = 0;
|
|
wait_for_frame = 0;
|
|
check_frame = 0;
|
|
stop_checking_frame = 0;
|
|
first_fr_received = 1; // at the beginning the first frame of each two will be received!
|
|
|
|
num_of_frames = 0; //
|
|
num_of_bd = 0;
|
|
i_length = (min_tmp + 1); // 5 bytes longer than MINFL
|
|
while (i_length < (max_tmp - 4))
|
begin
|
begin
|
// choose generating carrier sense and collision for first and last 64 lengths of frames
|
// choose generating carrier sense and collision
|
case (i_length[1:0])
|
case (num_of_frames[1:0])
|
2'h0: // Interrupt is generated
|
2'h0: // Interrupt is generated
|
begin
|
begin
|
// enable interrupt generation
|
// enable interrupt generation
|
set_rx_bd(127, 127, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// not detect carrier sense in FD and no collision
|
// not detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h1: // Interrupt is not generated
|
2'h1: // Interrupt is generated
|
begin
|
begin
|
// enable interrupt generation
|
// enable interrupt generation
|
set_rx_bd(127, 127, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// mask interrupts
|
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// detect carrier sense in FD and no collision
|
// detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h2: // Interrupt is not generated
|
2'h2: // Interrupt is generated
|
begin
|
begin
|
// disable interrupt generation
|
// disable interrupt generation
|
set_rx_bd(127, 127, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// not detect carrier sense in FD and set collision
|
// not detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
default: // 2'h3: // Interrupt is not generated
|
default: // 2'h3: // Interrupt is generated
|
begin
|
begin
|
// disable interrupt generation
|
// disable interrupt generation
|
set_rx_bd(127, 127, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
set_rx_bd(118, 118, 1'b1, (`MEMORY_BASE + num_of_frames[1:0]));
|
// mask interrupts
|
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// detect carrier sense in FD and set collision
|
// detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
endcase
|
endcase
|
if (i_length[0] == 1'b0)
|
//if (first_fr_received == 0)
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
//begin
|
else
|
// check_rx_bd(118, data);
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
// wbm_read((`TX_BD_BASE + (118 * 8) + 4), tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// $display("RX BD set : %h, %h", data, tmp);
|
|
//end
|
// set wrap bit
|
// set wrap bit
|
set_rx_bd_wrap(127);
|
set_rx_bd_wrap(118);
|
set_rx_bd_empty(127, 127);
|
set_rx_bd_empty(118, 118);
|
|
check_frame = 0;
|
|
stop_checking_frame = 0;
|
|
tmp_data = 0;
|
|
$display("mama 1");
|
fork
|
fork
|
|
begin // enable RX MAC on first of each two packets - every second should be recived normaly
|
|
if (num_of_frames[0] == 1'b0)
|
begin
|
begin
|
if (i_length[0] == 1'b0)
|
repeat(1) @(posedge wb_clk);
|
|
if (num_of_frames[1] == 1'b0)
|
|
begin
|
|
repeat (num_of_frames[31:2]) @(posedge mrx_clk); // for every (second) frame enable receiver one clock later
|
|
end
|
|
else
|
|
begin
|
|
@(posedge mrx_clk);
|
|
repeat (num_of_frames[31:2]) @(negedge mrx_clk); // for every (second) frame enable receiver one clock later
|
|
end
|
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
|
wbm_init_waits = 4'h0;
|
|
wbm_subseq_waits = 4'h0;
|
|
#1 wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits); // write ASAP
|
|
$display("mama 2, num_of_frames=%0h", num_of_frames);
|
|
end
|
|
end
|
|
begin // send a packet from PHY RX
|
|
repeat(1) @(posedge wb_clk); // wait for WB write when it is without delays
|
|
if (num_of_frames[1] == 1'b0)
|
|
begin
|
|
set_rx_addr_type(0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
|
end
|
else
|
else
|
|
begin
|
|
set_rx_addr_type((max_tmp), 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
|
end
|
|
end
|
|
begin: send_packet1
|
|
wait (MRxDV === 1'b1); // start transmit
|
|
wait (MRxDV === 1'b0); // end transmit
|
|
check_frame = 1;
|
|
$display("mama 3");
|
repeat(10) @(posedge mrx_clk);
|
repeat(10) @(posedge mrx_clk);
|
|
repeat(15) @(posedge wb_clk);
|
|
stop_checking_frame = 1;
|
end
|
end
|
|
begin // count WB clocks between ACK (negedge) and RX_DV (posedge) or vice-versa
|
|
@(posedge eth_sl_wb_ack_o or posedge MRxDV);
|
|
$display("mama 4");
|
|
if ((eth_sl_wb_ack_o === 1'b1) && (MRxDV === 1'b1))
|
begin
|
begin
|
#1 check_rx_bd(127, data);
|
tmp_data = 32'h8000_0001; // bit[31]==1 => 'posedge MRxDV' was before 'negedge eth_sl_wb_ack_o'
|
if (i_length < min_tmp) // just first four
|
$display("mama 4_1");
|
|
end
|
|
else if (MRxDV === 1'b1)
|
begin
|
begin
|
while (data[15] === 1)
|
while (eth_sl_wb_ack_o === 1'b0)
|
begin
|
begin
|
#1 check_rx_bd(127, data);
|
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
|
tmp_data = tmp_data + 1;
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
tmp_data = tmp_data | 32'h8000_0000; // bit[31]==1 => 'posedge MRxDV' was before 'negedge eth_sl_wb_ack_o'
|
|
$display("mama 4_2");
|
end
|
end
|
else
|
else if (eth_sl_wb_ack_o === 1'b1)
|
begin
|
begin
|
wait (MRxDV === 1'b1); // start transmit
|
@(posedge wb_clk); // wait for one clock => tmp_data 'becomes' 0
|
#1 check_rx_bd(127, data);
|
while (MRxDV === 1'b0)
|
if (data[15] !== 1)
|
|
begin
|
begin
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
@(posedge wb_clk);
|
fail = fail + 1;
|
tmp_data = tmp_data + 1; // bit[31]==0 => 'negedge eth_sl_wb_ack_o' was equal or before 'posedge MRxDV'
|
end
|
end
|
wait (MRxDV === 1'b0); // end transmit
|
$display("mama 4_3");
|
while (data[15] === 1)
|
end
|
|
end
|
|
begin // check packet
|
|
wait (check_frame == 1);
|
|
check_rx_bd(118, tmp_bd);
|
|
while ((tmp_bd[15] === 1) && (stop_checking_frame == 0))
|
begin
|
begin
|
#1 check_rx_bd(127, data);
|
#1 check_rx_bd(118, tmp_bd);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
$display("mama 5, tmp_bd=%0h", tmp_bd);
|
|
if (num_of_frames[0] == 1'b0)
|
|
begin
|
|
if (tmp_bd[15] === 1)
|
|
begin
|
|
if (first_fr_received == 1)
|
|
begin
|
|
first_fr_received = 0;
|
|
$display(" %0d packets (without this one) are checked - packets are received by two in a set",
|
|
num_of_frames); // +1 due to start with 0 AND -1 because this packet is excluded
|
|
$display(" From this moment:");
|
|
$display(" first one of two packets (including this one) is not accepted due to late RX enable");
|
|
if (tmp_data[31])
|
|
$display(" ->RX enable set %0d WB clks after RX_DV", tmp_data[30:0]);
|
|
else
|
|
$display(" ->RX enable set %0d WB clks before RX_DV", tmp_data[30:0]);
|
|
end
|
|
// check FB, etc.
|
|
|
|
end
|
|
else // (tmp_bd[15] === 0)
|
|
begin // check FB, packet, etc.
|
|
|
|
end
|
|
$display("mama 5_1");
|
|
end
|
|
else // (num_of_frames[0] == 1'b1)
|
|
begin
|
|
if (tmp_bd[15] === 1) // ERROR, because second packet of each two frames should be received
|
|
begin // check NOTHING
|
|
|
|
end
|
|
else // (tmp_bd[15] === 0)
|
|
begin // check FB, packet, etc.
|
|
|
|
end
|
|
$display("mama 5_2");
|
end
|
end
|
|
if (stop_checking_frame == 0)
|
|
disable send_packet1;
|
end
|
end
|
join
|
join
|
|
// ONLY IF packet was received!
|
|
$display("mama 6");
|
|
if (tmp_bd[15] === 0)
|
|
begin
|
// check length of a PACKET
|
// check length of a PACKET
|
if (data[31:16] != (i_length + 4))
|
if (tmp_bd[31:16] != (i_length + 4))
|
begin
|
begin
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
data[31:16], (i_length + 4));
|
tmp_bd[31:16], (i_length + 4));
|
test_fail("Wrong length of the packet out from PHY");
|
test_fail("Wrong length of the packet out from PHY");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// checking in the following if statement is performed only for first and last 64 lengths
|
|
// check received RX packet data and CRC
|
// check received RX packet data and CRC
|
if (i_length[0] == 1'b0)
|
if (first_fr_received == 0) // if PREVIOUS RX buffer descriptor was not ready, pointer address is -1
|
begin
|
begin
|
check_rx_packet(0, (`MEMORY_BASE + i_length[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
if (num_of_frames[1] == 1'b0)
|
|
begin
|
|
check_rx_packet(0, (`MEMORY_BASE + num_of_frames[1:0] - 1'b1), (i_length + 4), 1'b0, 1'b0, tmp);
|
end
|
end
|
else
|
else
|
begin
|
begin
|
check_rx_packet(max_tmp, ((`MEMORY_BASE + i_length[1:0]) + max_tmp), (i_length + 4), 1'b0, 1'b0, tmp);
|
check_rx_packet(max_tmp, (`MEMORY_BASE + num_of_frames[1:0] - 1'b1), (i_length + 4), 1'b0, 1'b0, tmp);
|
end
|
end
|
if (tmp > 0)
|
if (tmp > 0)
|
begin
|
begin
|
`TIME; $display("*E Wrong data of the received packet");
|
`TIME; $display("*E Wrong data of the received packet");
|
test_fail("Wrong data of the received packet");
|
test_fail("Wrong data of the received packet");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// check WB INT signal
|
end
|
if (i_length[1:0] == 2'h0)
|
else // if PREVIOUS RX buffer descriptor was ready
|
begin
|
begin
|
if (wb_int !== 1'b1)
|
if (num_of_frames[1] == 1'b0)
|
begin
|
begin
|
`TIME; $display("*E WB INT signal should be set");
|
check_rx_packet(0, (`MEMORY_BASE + num_of_frames[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
test_fail("WB INT signal should be set");
|
end
|
|
else
|
|
begin
|
|
check_rx_packet(max_tmp, (`MEMORY_BASE + num_of_frames[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
if (tmp > 0)
|
|
begin
|
|
`TIME; $display("*E Wrong data of the received packet");
|
|
test_fail("Wrong data of the received packet");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else
|
end
|
|
// check WB INT signal
|
|
if ((num_of_frames[0] == 1'b0) && (first_fr_received == 0)) // interrupt enabled but no receive
|
begin
|
begin
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
`TIME; $display("*E WB INT signal should not be set");
|
`TIME; $display("*E WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// check RX buffer descriptor of a packet
|
else
|
check_rx_bd(127, data);
|
|
if (i_length[1] == 1'b0) // interrupt enabled
|
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h6000) && (i_length[0] == 1'b0)) ||
|
if (wb_int !== 1'b1)
|
((data[15:0] !== 16'h6000) && (i_length[0] == 1'b1)) )
|
begin
|
|
`TIME; $display("*E WB INT signal should be set");
|
|
test_fail("WB INT signal should be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// check RX buffer descriptor of a packet - only 15 LSBits
|
|
check_rx_bd(118, data);
|
|
if ((num_of_frames[0] == 1'b0) && (first_fr_received == 0)) // interrupt enabled but no receive
|
|
begin
|
|
if (data[15:0] !== 16'hE000)
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else // interrupt not enabled
|
else // interrupt enabled
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h2000) && (i_length[0] == 1'b0)) ||
|
if (data[15:0] !== 16'h6000)
|
((data[15:0] !== 16'h2000) && (i_length[0] == 1'b1)) )
|
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// clear RX buffer descriptor for first 4 frames
|
|
if (i_length < min_tmp)
|
|
clear_rx_bd(127, 127);
|
|
// check interrupts
|
// check interrupts
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
if ((num_of_frames[0] == 1'b0) && (first_fr_received == 0)) // interrupt enabled but no receive
|
|
begin
|
|
if (data !== 0)
|
|
begin
|
|
`TIME; $display("*E Any of interrupts was set, interrupt reg: %0h, len: %0h", data, num_of_frames[1:0]);
|
|
test_fail("Any of interrupts was set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
begin
|
begin
|
if ((data & `ETH_INT_RXB) !== `ETH_INT_RXB)
|
if ((data & `ETH_INT_RXB) !== `ETH_INT_RXB)
|
begin
|
begin
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
test_fail("Interrupt Receive Buffer was not set");
|
test_fail("Interrupt Receive Buffer was not set");
|
Line 11226... |
Line 11445... |
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else
|
|
begin
|
|
if (data !== 0)
|
|
begin
|
|
`TIME; $display("*E Any of interrupts (except Receive Buffer) was set, interrupt reg: %0h, len: %0h", data, i_length[1:0]);
|
|
test_fail("Any of interrupts (except Receive Buffer) was set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// clear interrupts
|
// clear interrupts
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// check WB INT signal
|
// check WB INT signal
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// INTERMEDIATE DISPLAYS
|
// disable RX after two packets
|
if ((i_length + 4) == (min_tmp + 64))
|
if (num_of_frames[0] == 1'b1)
|
begin
|
|
// starting length is min_tmp, ending length is (min_tmp + 64)
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
|
min_tmp, (min_tmp + 64));
|
|
// set receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == (max_tmp - 16))
|
|
begin
|
begin
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
// disable RX, set full-duplex mode, NO receive small, NO correct IFG
|
$display(" receive small packets is selected");
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
|
(min_tmp + 64 + 128), tmp_data);
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, 4'h0, 4'h0); // write ASAP
|
end
|
|
else if ((i_length + 4) == max_tmp)
|
|
begin
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
|
(max_tmp - (4 + 16)), max_tmp);
|
|
end
|
|
// set length (loop variable)
|
|
if ((i_length + 4) < (min_tmp + 64))
|
|
i_length = i_length + 1;
|
|
else if ( ((i_length + 4) >= (min_tmp + 64)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
begin
|
|
i_length = i_length + 128;
|
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
|
end
|
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
|
i_length = max_tmp - (4 + 16);
|
|
else if ((i_length + 4) >= (max_tmp - 16))
|
|
i_length = i_length + 1;
|
|
else
|
|
begin
|
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
|
#10 $stop;
|
|
end
|
end
|
|
// the number of frame transmitted
|
|
num_of_frames = num_of_frames + 1;
|
|
num_of_bd = 0;
|
|
// set length (LOOP variable)
|
|
if (num_of_frames[31:2] == (i_length * 2 + 16)) // 64 => this vas last Byte (1st .. 64th) when i_length = min_tmp - 4
|
|
i_length = (max_tmp - 4);
|
|
@(posedge wb_clk);
|
end
|
end
|
// disable RX
|
// disable RX
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
Line 11304... |
Line 11483... |
|
|
|
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
//// maximum RX buffer decriptors ( 10Mbps ). ////
|
//// one RX buffer decriptor ( 10Mbps ). ////
|
//// ////
|
//// ////
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
if (test_num == 4) //
|
if (test_num == 4) //
|
begin
|
begin
|
// TEST 4: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 10Mbps )
|
// TEST 4: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 10Mbps )
|
test_name = "TEST 4: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 10Mbps )";
|
test_name = "TEST 4: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 10Mbps )";
|
`TIME; $display(" TEST 4: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 10Mbps )");
|
`TIME; $display(" TEST 4: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 10Mbps )");
|
|
|
// reset MAC registers
|
|
hard_reset;
|
|
// reset MAC and MII LOGIC with soft reset
|
|
reset_mac;
|
|
reset_mii;
|
|
// set wb slave response
|
|
wb_slave.cycle_response(`ACK_RESPONSE, wbs_waits, wbs_retries);
|
|
|
|
max_tmp = 0;
|
// unmask interrupts
|
min_tmp = 0;
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
num_of_frames = 0;
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
num_of_bd = 0;
|
// set 1 RX buffer descriptor (8'h80 - 1) - must be set before RX enable
|
// set maximum RX buffer descriptors (128) - must be set before RX enable
|
wbm_write(`ETH_TX_BD_NUM, 32'h7F, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_TX_BD_NUM, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// prepare two packets of MAXFL length
|
// prepare two packets of MAXFL length
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
min_tmp = tmp[31:16];
|
min_tmp = tmp[31:16];
|
st_data = 8'hAC;
|
st_data = 8'h0F;
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
st_data = 8'h35;
|
st_data = 8'h1A;
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
// check WB INT signal
|
// check WB INT signal
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
Line 11354... |
Line 11524... |
speed = 10;
|
speed = 10;
|
|
|
i_length = (min_tmp - 4);
|
i_length = (min_tmp - 4);
|
while (i_length <= (max_tmp - 4))
|
while (i_length <= (max_tmp - 4))
|
begin
|
begin
|
// append CRC to packet
|
// choose generating carrier sense and collision for first and last 64 lengths of frames
|
if (i_length[0] == 1'b0)
|
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
|
else
|
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
|
// choose generating carrier sense and collision
|
|
case (i_length[1:0])
|
case (i_length[1:0])
|
2'h0: // Interrupt is generated
|
2'h0: // Interrupt is generated
|
begin
|
begin
|
// Reset_tx_bd nable interrupt generation
|
// enable interrupt generation
|
|
set_rx_bd(127, 127, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// not detect carrier sense in FD and no collision
|
// not detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h1: // Interrupt is not generated
|
2'h1: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd enable interrupt generation
|
// enable interrupt generation
|
|
set_rx_bd(127, 127, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
// mask interrupts
|
// mask interrupts
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// detect carrier sense in FD and no collision
|
// detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h2: // Interrupt is not generated
|
2'h2: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd disable the interrupt generation
|
// disable interrupt generation
|
|
set_rx_bd(127, 127, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// not detect carrier sense in FD and set collision
|
// not detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
default: // 2'h3: // Interrupt is not generated
|
default: // 2'h3: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd disable the interrupt generation
|
// disable interrupt generation
|
|
set_rx_bd(127, 127, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
// mask interrupts
|
// mask interrupts
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// detect carrier sense in FD and set collision
|
// detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
endcase
|
endcase
|
// first 8 frames are received with RX BD 0 (wrap bit on RX BD 0)
|
if (i_length[0] == 1'b0)
|
// number of all frames is 154 (146 without first 8)
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
if (num_of_frames < 8)
|
|
begin
|
|
case (i_length[1:0])
|
|
2'h0: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
2'h1: // Interrupt is not generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
2'h2: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
default: // 2'h3: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
endcase
|
|
// set wrap bit
|
|
set_rx_bd_wrap(0);
|
|
end
|
|
// after first 8 number of frames, 128 frames form RX BD 0 to 127 will be received
|
|
else if ((num_of_frames - 8) == 0)
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 0; // RX BD number
|
|
while (tmp_bd_num < 128) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
else
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
// set wrap bit
|
set_rx_bd_wrap(127);
|
set_rx_bd_wrap(127);
|
end
|
set_rx_bd_empty(127, 127);
|
// after 128 + first 8 number of frames, 19 frames form RX BD 0 to 18 will be received
|
|
else if ((num_of_frames - 8) == 20) // 128
|
|
begin
|
|
tmp_len = tmp_len; // length of frame remaines from previous settings
|
|
tmp_bd_num = 0; // TX BD number
|
|
while (tmp_bd_num < 19) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set TX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
end
|
|
// set empty bit
|
|
if (num_of_frames < 8)
|
|
set_rx_bd_empty(0, 0);
|
|
else if ((num_of_frames - 8) < 128)
|
|
set_rx_bd_empty((num_of_frames - 8), (num_of_frames - 8));
|
|
else if ((num_of_frames - 136) < 19)
|
|
set_rx_bd_empty((num_of_frames - 136), (num_of_frames - 136));
|
|
// CHECK END OF RECEIVE
|
|
fork
|
fork
|
begin
|
begin
|
if (i_length[0] == 1'b0)
|
if (i_length[0] == 1'b0)
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
else
|
else
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
repeat(10) @(posedge mrx_clk);
|
repeat(10) @(posedge mrx_clk);
|
end
|
end
|
begin
|
begin
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
if (i_length < min_tmp) // just first four
|
if (i_length < min_tmp) // just first four
|
begin
|
begin
|
while (data[15] === 1)
|
while (data[15] === 1)
|
begin
|
begin
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
repeat (1) @(posedge wb_clk);
|
end
|
end
|
else
|
else
|
begin
|
begin
|
wait (MRxDV === 1'b1); // start transmit
|
wait (MRxDV === 1'b1); // start transmit
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
if (data[15] !== 1)
|
if (data[15] !== 1)
|
begin
|
begin
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
wait (MRxDV === 1'b0); // end transmit
|
wait (MRxDV === 1'b0); // end transmit
|
while (data[15] === 1)
|
while (data[15] === 1)
|
begin
|
begin
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
repeat (1) @(posedge wb_clk);
|
end
|
end
|
end
|
end
|
Line 11581... |
Line 11658... |
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// check RX buffer descriptor of a packet
|
// check RX buffer descriptor of a packet
|
check_rx_bd(num_of_bd, data);
|
check_rx_bd(127, data);
|
if (i_length[1] == 1'b0) // interrupt enabled
|
if (i_length[1] == 1'b0) // interrupt enabled no_carrier_sense_rx_fd_detect
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h6000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
if ( ((data[15:0] !== 16'h6000) && (i_length[0] == 1'b0)) ||
|
((data[15:0] !== 16'h4000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
((data[15:0] !== 16'h6000) && (i_length[0] == 1'b1)) )
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else // interrupt not enabled
|
else // interrupt not enabled
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h2000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
if ( ((data[15:0] !== 16'h2000) && (i_length[0] == 1'b0)) ||
|
((data[15:0] !== 16'h0000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
((data[15:0] !== 16'h2000) && (i_length[0] == 1'b1)) )
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// clear first half of 8 frames from RX buffer descriptor 0
|
// clear RX buffer descriptor for first 4 frames
|
if (num_of_frames < 4)
|
if (i_length < min_tmp)
|
clear_rx_bd(num_of_bd, num_of_bd);
|
|
// clear BD with wrap bit
|
|
if (num_of_frames == 140)
|
|
clear_rx_bd(127, 127);
|
clear_rx_bd(127, 127);
|
// check interrupts
|
// check interrupts
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
begin
|
begin
|
Line 11643... |
Line 11717... |
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// INTERMEDIATE DISPLAYS
|
// INTERMEDIATE DISPLAYS
|
if ((i_length + 4) == (min_tmp + 7))
|
if ((i_length + 4) == (min_tmp + 64))
|
begin
|
begin
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
// starting length is min_tmp, ending length is (min_tmp + 64)
|
$display(" receive small packets is NOT selected");
|
$display(" receive small packets is NOT selected");
|
$display(" using only RX BD 0 out of 128 BDs assigned to RX (wrap at first BD - RX BD 0)");
|
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
min_tmp, (min_tmp + 7));
|
min_tmp, (min_tmp + 64));
|
$display(" ->all packets were received on RX BD 0");
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == (min_tmp + 128))
|
|
begin
|
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
(min_tmp + 8), (min_tmp + 128));
|
|
$display(" ->packets were received on RX BD %0d to RX BD %0d respectively",
|
|
1'b0, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// set receive small, remain the rest
|
// set receive small, remain the rest
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
end
|
end
|
else if ((i_length + 4) == (max_tmp - 16))
|
else if ((i_length + 4) == (max_tmp - 16))
|
begin
|
begin
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
$display(" receive small packets is selected");
|
$display(" receive small packets is selected");
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
(min_tmp + 64 + 128), tmp_data);
|
(min_tmp + 64 + 128), tmp_data);
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// reset receive small, remain the rest
|
// reset receive small, remain the rest
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
end
|
end
|
else if ((i_length + 4) == max_tmp)
|
else if ((i_length + 4) == max_tmp)
|
begin
|
begin
|
$display(" receive small packets is NOT selected");
|
$display(" receive small packets is NOT selected");
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
(max_tmp - (4 + 16)), max_tmp);
|
(max_tmp - (4 + 16)), max_tmp);
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
end
|
end
|
// set length (loop variable)
|
// set length (loop variable)
|
if ((i_length + 4) < (min_tmp + 128))
|
if ((i_length + 4) < (min_tmp + 64))
|
i_length = i_length + 1;
|
i_length = i_length + 1;
|
else if ( ((i_length + 4) == (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
else if ( ((i_length + 4) >= (min_tmp + 64)) && ((i_length + 4) <= (max_tmp - 256)) )
|
i_length = 256;
|
|
else if ( ((i_length + 4) > (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
begin
|
begin
|
i_length = i_length + 128;
|
i_length = i_length + 128;
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
end
|
end
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
Line 11722... |
Line 11762... |
else
|
else
|
begin
|
begin
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
#10 $stop;
|
#10 $stop;
|
end
|
end
|
// the number of frame transmitted
|
|
num_of_frames = num_of_frames + 1;
|
|
if ((num_of_frames <= 8) || ((num_of_frames - 8) == 128))
|
|
num_of_bd = 0;
|
|
else
|
|
num_of_bd = num_of_bd + 1;
|
|
end
|
end
|
// disable RX
|
// disable RX
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
@(posedge wb_clk);
|
|
if(fail == 0)
|
if(fail == 0)
|
test_ok;
|
test_ok;
|
else
|
else
|
fail = 0;
|
fail = 0;
|
end
|
end
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
//// maximum RX buffer decriptors ( 100Mbps ). ////
|
//// one RX buffer decriptor ( 100Mbps ). ////
|
//// ////
|
//// ////
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
if (test_num == 5) //
|
if (test_num == 5) // Test no receive when all buffers are TX ( 100Mbps ).
|
begin
|
begin
|
// TEST 5: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 100Mbps )
|
// TEST 5: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 100Mbps )
|
test_name = "TEST 5: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 100Mbps )";
|
test_name = "TEST 5: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 100Mbps )";
|
`TIME; $display(" TEST 5: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 100Mbps )");
|
`TIME; $display(" TEST 5: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT ONE RX BD ( 100Mbps )");
|
|
|
// reset MAC registers
|
|
hard_reset;
|
|
// reset MAC and MII LOGIC with soft reset
|
|
reset_mac;
|
|
reset_mii;
|
|
// set wb slave response
|
|
wb_slave.cycle_response(`ACK_RESPONSE, wbs_waits, wbs_retries);
|
|
|
|
max_tmp = 0;
|
// unmask interrupts
|
min_tmp = 0;
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
num_of_frames = 0;
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
num_of_bd = 0;
|
// set 1 RX buffer descriptor (8'h80 - 1) - must be set before RX enable
|
// set maximum RX buffer descriptors (128) - must be set before RX enable
|
wbm_write(`ETH_TX_BD_NUM, 32'h7F, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_TX_BD_NUM, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// prepare two packets of MAXFL length
|
// prepare two packets of MAXFL length
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
min_tmp = tmp[31:16];
|
min_tmp = tmp[31:16];
|
st_data = 8'hAC;
|
st_data = 8'h0F;
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
st_data = 8'h35;
|
st_data = 8'h1A;
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
// check WB INT signal
|
// check WB INT signal
|
if (wb_int !== 1'b0)
|
if (wb_int !== 1'b0)
|
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
Line 11794... |
Line 11818... |
speed = 100;
|
speed = 100;
|
|
|
i_length = (min_tmp - 4);
|
i_length = (min_tmp - 4);
|
while (i_length <= (max_tmp - 4))
|
while (i_length <= (max_tmp - 4))
|
begin
|
begin
|
// append CRC to packet
|
// choose generating carrier sense and collision for first and last 64 lengths of frames
|
if (i_length[0] == 1'b0)
|
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
|
else
|
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
|
// choose generating carrier sense and collision
|
|
case (i_length[1:0])
|
case (i_length[1:0])
|
2'h0: // Interrupt is generated
|
2'h0: // Interrupt is generated
|
begin
|
begin
|
// Reset_tx_bd nable interrupt generation
|
// enable interrupt generation
|
|
set_rx_bd(127, 127, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// not detect carrier sense in FD and no collision
|
// not detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h1: // Interrupt is not generated
|
2'h1: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd enable interrupt generation
|
// enable interrupt generation
|
|
set_rx_bd(127, 127, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
// mask interrupts
|
// mask interrupts
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// detect carrier sense in FD and no collision
|
// detect carrier sense in FD and no collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h2: // Interrupt is not generated
|
2'h2: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd disable the interrupt generation
|
// disable interrupt generation
|
|
set_rx_bd(127, 127, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// not detect carrier sense in FD and set collision
|
// not detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
default: // 2'h3: // Interrupt is not generated
|
default: // 2'h3: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd disable the interrupt generation
|
// disable interrupt generation
|
|
set_rx_bd(127, 127, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
// mask interrupts
|
// mask interrupts
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// detect carrier sense in FD and set collision
|
// detect carrier sense in FD and set collision
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
endcase
|
endcase
|
// first 8 frames are received with RX BD 0 (wrap bit on RX BD 0)
|
if (i_length[0] == 1'b0)
|
// number of all frames is 154 (146 without first 8)
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
if (num_of_frames < 8)
|
|
begin
|
|
case (i_length[1:0])
|
|
2'h0: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
2'h1: // Interrupt is not generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
2'h2: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
default: // 2'h3: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
endcase
|
|
// set wrap bit
|
|
set_rx_bd_wrap(0);
|
|
end
|
|
// after first 8 number of frames, 128 frames form RX BD 0 to 127 will be received
|
|
else if ((num_of_frames - 8) == 0)
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 0; // RX BD number
|
|
while (tmp_bd_num < 128) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
else
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
// set wrap bit
|
set_rx_bd_wrap(127);
|
set_rx_bd_wrap(127);
|
end
|
set_rx_bd_empty(127, 127);
|
// after 128 + first 8 number of frames, 19 frames form RX BD 0 to 18 will be received
|
|
else if ((num_of_frames - 8) == 20) // 128
|
|
begin
|
|
tmp_len = tmp_len; // length of frame remaines from previous settings
|
|
tmp_bd_num = 0; // TX BD number
|
|
while (tmp_bd_num < 19) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set TX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
end
|
|
// set empty bit
|
|
if (num_of_frames < 8)
|
|
set_rx_bd_empty(0, 0);
|
|
else if ((num_of_frames - 8) < 128)
|
|
set_rx_bd_empty((num_of_frames - 8), (num_of_frames - 8));
|
|
else if ((num_of_frames - 136) < 19)
|
|
set_rx_bd_empty((num_of_frames - 136), (num_of_frames - 136));
|
|
// CHECK END OF RECEIVE
|
|
fork
|
fork
|
begin
|
begin
|
if (i_length[0] == 1'b0)
|
if (i_length[0] == 1'b0)
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
else
|
else
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
repeat(10) @(posedge mrx_clk);
|
repeat(10) @(posedge mrx_clk);
|
end
|
end
|
begin
|
begin
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
if (i_length < min_tmp) // just first four
|
if (i_length < min_tmp) // just first four
|
begin
|
begin
|
while (data[15] === 1)
|
while (data[15] === 1)
|
begin
|
begin
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
repeat (1) @(posedge wb_clk);
|
end
|
end
|
else
|
else
|
begin
|
begin
|
wait (MRxDV === 1'b1); // start transmit
|
wait (MRxDV === 1'b1); // start transmit
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
if (data[15] !== 1)
|
if (data[15] !== 1)
|
begin
|
begin
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
wait (MRxDV === 1'b0); // end transmit
|
wait (MRxDV === 1'b0); // end transmit
|
while (data[15] === 1)
|
while (data[15] === 1)
|
begin
|
begin
|
#1 check_rx_bd(num_of_bd, data);
|
#1 check_rx_bd(127, data);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
repeat (1) @(posedge wb_clk);
|
repeat (1) @(posedge wb_clk);
|
end
|
end
|
end
|
end
|
Line 12021... |
Line 11952... |
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// check RX buffer descriptor of a packet
|
// check RX buffer descriptor of a packet
|
check_rx_bd(num_of_bd, data);
|
check_rx_bd(127, data);
|
if (i_length[1] == 1'b0) // interrupt enabled
|
if (i_length[1] == 1'b0) // interrupt enabled
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h6000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
if ( ((data[15:0] !== 16'h6000) && (i_length[0] == 1'b0)) ||
|
((data[15:0] !== 16'h4000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
((data[15:0] !== 16'h6000) && (i_length[0] == 1'b1)) )
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else // interrupt not enabled
|
else // interrupt not enabled
|
begin
|
begin
|
if ( ((data[15:0] !== 16'h2000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
if ( ((data[15:0] !== 16'h2000) && (i_length[0] == 1'b0)) ||
|
((data[15:0] !== 16'h0000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
((data[15:0] !== 16'h2000) && (i_length[0] == 1'b1)) )
|
begin
|
begin
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
test_fail("RX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// clear first half of 8 frames from RX buffer descriptor 0
|
// clear RX buffer descriptor for first 4 frames
|
if (num_of_frames < 4)
|
if (i_length < min_tmp)
|
clear_rx_bd(num_of_bd, num_of_bd);
|
|
// clear BD with wrap bit
|
|
if (num_of_frames == 140)
|
|
clear_rx_bd(127, 127);
|
clear_rx_bd(127, 127);
|
// check interrupts
|
// check interrupts
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
begin
|
begin
|
Line 12083... |
Line 12011... |
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// INTERMEDIATE DISPLAYS
|
// INTERMEDIATE DISPLAYS
|
if ((i_length + 4) == (min_tmp + 7))
|
if ((i_length + 4) == (min_tmp + 64))
|
begin
|
begin
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
// starting length is min_tmp, ending length is (min_tmp + 64)
|
$display(" receive small packets is NOT selected");
|
$display(" receive small packets is NOT selected");
|
$display(" using only RX BD 0 out of 128 BDs assigned to RX (wrap at first BD - RX BD 0)");
|
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
min_tmp, (min_tmp + 7));
|
min_tmp, (min_tmp + 64));
|
$display(" ->all packets were received on RX BD 0");
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == (min_tmp + 128))
|
|
begin
|
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
(min_tmp + 8), (min_tmp + 128));
|
|
$display(" ->packets were received on RX BD %0d to RX BD %0d respectively",
|
|
1'b0, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// set receive small, remain the rest
|
// set receive small, remain the rest
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
end
|
end
|
else if ((i_length + 4) == (max_tmp - 16))
|
else if ((i_length + 4) == (max_tmp - 16))
|
begin
|
begin
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
$display(" receive small packets is selected");
|
$display(" receive small packets is selected");
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
(min_tmp + 64 + 128), tmp_data);
|
(min_tmp + 64 + 128), tmp_data);
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// reset receive small, remain the rest
|
// reset receive small, remain the rest
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
end
|
end
|
else if ((i_length + 4) == max_tmp)
|
else if ((i_length + 4) == max_tmp)
|
begin
|
begin
|
$display(" receive small packets is NOT selected");
|
$display(" receive small packets is NOT selected");
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
(max_tmp - (4 + 16)), max_tmp);
|
(max_tmp - (4 + 16)), max_tmp);
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
end
|
end
|
// set length (loop variable)
|
// set length (loop variable)
|
if ((i_length + 4) < (min_tmp + 128))
|
if ((i_length + 4) < (min_tmp + 64))
|
i_length = i_length + 1;
|
i_length = i_length + 1;
|
else if ( ((i_length + 4) == (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
else if ( ((i_length + 4) >= (min_tmp + 64)) && ((i_length + 4) <= (max_tmp - 256)) )
|
i_length = 256;
|
|
else if ( ((i_length + 4) > (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
begin
|
begin
|
i_length = i_length + 128;
|
i_length = i_length + 128;
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
end
|
end
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
Line 12162... |
Line 12056... |
else
|
else
|
begin
|
begin
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
#10 $stop;
|
#10 $stop;
|
end
|
end
|
// the number of frame transmitted
|
|
num_of_frames = num_of_frames + 1;
|
|
if ((num_of_frames <= 8) || ((num_of_frames - 8) == 128))
|
|
num_of_bd = 0;
|
|
else
|
|
num_of_bd = num_of_bd + 1;
|
|
end
|
end
|
// disable RX
|
// disable RX
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
@(posedge wb_clk);
|
|
if(fail == 0)
|
if(fail == 0)
|
test_ok;
|
test_ok;
|
else
|
else
|
fail = 0;
|
fail = 0;
|
end
|
end
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
//// ////
|
//// ////
|
//// Test receive packets form 0 to (MINFL - 1) sizes at ////
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
//// 8 RX buffer decriptors ( 10Mbps ). ////
|
//// maximum RX buffer decriptors ( 10Mbps ). ////
|
//// ////
|
//// ////
|
////////////////////////////////////////////////////////////////////
|
////////////////////////////////////////////////////////////////////
|
if (test_num == 6) //
|
if (test_num == 6) //
|
begin
|
begin
|
// TEST 6: TRANSMIT PACKETS FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )
|
// TEST 6: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 10Mbps )
|
test_name = "TEST 6: TRANSMIT PACKETS FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )";
|
test_name = "TEST 6: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 10Mbps )";
|
`TIME; $display(" TEST 6: TRANSMIT PACKETS FROM 0 TO (MINFL - 1) SIZES AT 8 TX BD ( 10Mbps )");
|
`TIME; $display(" TEST 6: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 10Mbps )");
|
|
|
// reset MAC registers
|
// reset MAC registers
|
hard_reset;
|
hard_reset;
|
// reset MAC and MII LOGIC with soft reset
|
// reset MAC and MII LOGIC with soft reset
|
reset_mac;
|
reset_mac;
|
Line 12203... |
Line 12090... |
// set wb slave response
|
// set wb slave response
|
wb_slave.cycle_response(`ACK_RESPONSE, wbs_waits, wbs_retries);
|
wb_slave.cycle_response(`ACK_RESPONSE, wbs_waits, wbs_retries);
|
|
|
max_tmp = 0;
|
max_tmp = 0;
|
min_tmp = 0;
|
min_tmp = 0;
|
// set 8 RX buffer descriptors (120 - 127) - must be set before RX enable
|
num_of_frames = 0;
|
wbm_write(`ETH_TX_BD_NUM, 32'h78, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
num_of_bd = 0;
|
// enable RX, set full-duplex mode, receive small, NO correct IFG
|
// set maximum RX buffer descriptors (128) - must be set before RX enable
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
wbm_write(`ETH_TX_BD_NUM, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// prepare two packets of MAXFL length
|
// prepare two packets of MAXFL length
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
Line 12229... |
Line 12118... |
// write to phy's control register for 10Mbps
|
// write to phy's control register for 10Mbps
|
#Tp eth_phy.control_bit14_10 = 5'b00000; // bit 13 reset - speed 10
|
#Tp eth_phy.control_bit14_10 = 5'b00000; // bit 13 reset - speed 10
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
speed = 10;
|
speed = 10;
|
|
|
frame_started = 0;
|
i_length = (min_tmp - 4);
|
num_of_frames = 0;
|
while (i_length <= (max_tmp - 4))
|
num_of_bd = 0;
|
|
i_length = 0; // 0;
|
|
while (i_length < 70) // (min_tmp - 4))
|
|
begin
|
begin
|
#1;
|
// append CRC to packet
|
|
if (i_length[0] == 1'b0)
|
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
|
else
|
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
// choose generating carrier sense and collision
|
// choose generating carrier sense and collision
|
case (i_length[1:0])
|
case (i_length[1:0])
|
2'h0: // Interrupt is generated
|
2'h0: // Interrupt is generated
|
begin
|
begin
|
// Reset_tx_bd nable interrupt generation
|
// Reset_tx_bd nable interrupt generation
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// not detect carrier sense in FD and no collision
|
// not detect carrier sense in FD and no collision
|
eth_phy.carrier_sense_tx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h1: // Interrupt is not generated
|
2'h1: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd enable interrupt generation
|
// set_tx_bd enable interrupt generation
|
// mask interrupts
|
// mask interrupts
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// detect carrier sense in FD and no collision
|
// detect carrier sense in FD and no collision
|
eth_phy.carrier_sense_tx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(0);
|
eth_phy.collision(0);
|
end
|
end
|
2'h2: // Interrupt is not generated
|
2'h2: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd disable the interrupt generation
|
// set_tx_bd disable the interrupt generation
|
// unmask interrupts
|
// unmask interrupts
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// not detect carrier sense in FD and set collision
|
// not detect carrier sense in FD and set collision
|
eth_phy.carrier_sense_tx_fd_detect(0);
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
default: // 2'h3: // Interrupt is not generated
|
default: // 2'h3: // Interrupt is not generated
|
begin
|
begin
|
// set_tx_bd disable the interrupt generation
|
// set_tx_bd disable the interrupt generation
|
// mask interrupts
|
// mask interrupts
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
// detect carrier sense in FD and set collision
|
// detect carrier sense in FD and set collision
|
eth_phy.carrier_sense_tx_fd_detect(1);
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
eth_phy.collision(1);
|
eth_phy.collision(1);
|
end
|
end
|
endcase
|
endcase
|
#1;
|
// first 8 frames are received with RX BD 0 (wrap bit on RX BD 0)
|
// first destination address on ethernet PHY
|
// number of all frames is 154 (146 without first 8)
|
eth_phy.set_tx_mem_addr(num_of_frames * 16);
|
if (num_of_frames < 8)
|
// SET packets and wrap bit
|
begin
|
// num_of_frames <= 9 => wrap set to TX BD 0
|
case (i_length[1:0])
|
if (num_of_frames <= 9)
|
2'h0: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
2'h1: // Interrupt is not generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
2'h2: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
default: // 2'h3: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
endcase
|
|
// set wrap bit
|
|
set_rx_bd_wrap(0);
|
|
end
|
|
// after first 8 number of frames, 128 frames form RX BD 0 to 127 will be received
|
|
else if ((num_of_frames - 8) == 0)
|
begin
|
begin
|
tmp_len = i_length; // length of frame
|
tmp_len = i_length; // length of frame
|
tmp_bd_num = 0; // TX BD number
|
tmp_bd_num = 0; // RX BD number
|
|
while (tmp_bd_num < 128) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(127);
|
|
end
|
|
// after 128 + first 8 number of frames, 19 frames form RX BD 0 to 18 will be received
|
|
else if ((num_of_frames - 8) == 20) // 128
|
|
begin
|
|
tmp_len = tmp_len; // length of frame remaines from previous settings
|
|
tmp_bd_num = 0; // TX BD number
|
|
while (tmp_bd_num < 19) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set TX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
end
|
|
// set empty bit
|
|
if (num_of_frames < 8)
|
|
set_rx_bd_empty(0, 0);
|
|
else if ((num_of_frames - 8) < 128)
|
|
set_rx_bd_empty((num_of_frames - 8), (num_of_frames - 8));
|
|
else if ((num_of_frames - 136) < 19)
|
|
set_rx_bd_empty((num_of_frames - 136), (num_of_frames - 136));
|
|
// CHECK END OF RECEIVE
|
|
fork
|
|
begin
|
|
if (i_length[0] == 1'b0)
|
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
|
else
|
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
|
repeat(10) @(posedge mrx_clk);
|
|
end
|
|
begin
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
if (i_length < min_tmp) // just first four
|
|
begin
|
|
while (data[15] === 1)
|
|
begin
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
@(posedge wb_clk);
|
|
end
|
|
repeat (1) @(posedge wb_clk);
|
|
end
|
|
else
|
|
begin
|
|
wait (MRxDV === 1'b1); // start transmit
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
if (data[15] !== 1)
|
|
begin
|
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
|
fail = fail + 1;
|
|
end
|
|
wait (MRxDV === 1'b0); // end transmit
|
|
while (data[15] === 1)
|
|
begin
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
@(posedge wb_clk);
|
|
end
|
|
repeat (1) @(posedge wb_clk);
|
|
end
|
|
end
|
|
join
|
|
// check length of a PACKET
|
|
if (data[31:16] != (i_length + 4))
|
|
begin
|
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
|
data[31:16], (i_length + 4));
|
|
test_fail("Wrong length of the packet out from PHY");
|
|
fail = fail + 1;
|
|
end
|
|
// checking in the following if statement is performed only for first and last 64 lengths
|
|
// check received RX packet data and CRC
|
|
if (i_length[0] == 1'b0)
|
|
begin
|
|
check_rx_packet(0, (`MEMORY_BASE + i_length[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
else
|
|
begin
|
|
check_rx_packet(max_tmp, ((`MEMORY_BASE + i_length[1:0]) + max_tmp), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
if (tmp > 0)
|
|
begin
|
|
`TIME; $display("*E Wrong data of the received packet");
|
|
test_fail("Wrong data of the received packet");
|
|
fail = fail + 1;
|
|
end
|
|
// check WB INT signal
|
|
if (i_length[1:0] == 2'h0)
|
|
begin
|
|
if (wb_int !== 1'b1)
|
|
begin
|
|
`TIME; $display("*E WB INT signal should be set");
|
|
test_fail("WB INT signal should be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
|
begin
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
`TIME; $display("*E WB INT signal should not be set");
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// check RX buffer descriptor of a packet
|
|
check_rx_bd(num_of_bd, data);
|
|
if (i_length[1] == 1'b0) // interrupt enabled
|
|
begin
|
|
if ( ((data[15:0] !== 16'h6000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
|
((data[15:0] !== 16'h4000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else // interrupt not enabled
|
|
begin
|
|
if ( ((data[15:0] !== 16'h2000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
|
((data[15:0] !== 16'h0000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// clear first half of 8 frames from RX buffer descriptor 0
|
|
if (num_of_frames < 4)
|
|
clear_rx_bd(num_of_bd, num_of_bd);
|
|
// clear BD with wrap bit
|
|
if (num_of_frames == 140)
|
|
clear_rx_bd(127, 127);
|
|
// check interrupts
|
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
|
begin
|
|
if ((data & `ETH_INT_RXB) !== `ETH_INT_RXB)
|
|
begin
|
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
|
test_fail("Interrupt Receive Buffer was not set");
|
|
fail = fail + 1;
|
|
end
|
|
if ((data & (~`ETH_INT_RXB)) !== 0)
|
|
begin
|
|
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
|
begin
|
|
if (data !== 0)
|
|
begin
|
|
`TIME; $display("*E Any of interrupts (except Receive Buffer) was set, interrupt reg: %0h, len: %0h", data, i_length[1:0]);
|
|
test_fail("Any of interrupts (except Receive Buffer) was set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// clear interrupts
|
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// check WB INT signal
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
// INTERMEDIATE DISPLAYS
|
|
if ((i_length + 4) == (min_tmp + 7))
|
|
begin
|
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using only RX BD 0 out of 128 BDs assigned to RX (wrap at first BD - RX BD 0)");
|
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
|
min_tmp, (min_tmp + 7));
|
|
$display(" ->all packets were received on RX BD 0");
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == (min_tmp + 128))
|
|
begin
|
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
(min_tmp + 8), (min_tmp + 128));
|
|
$display(" ->packets were received on RX BD %0d to RX BD %0d respectively",
|
|
1'b0, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// set receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == (max_tmp - 16))
|
|
begin
|
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
|
$display(" receive small packets is selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
|
(min_tmp + 64 + 128), tmp_data);
|
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == max_tmp)
|
|
begin
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
|
(max_tmp - (4 + 16)), max_tmp);
|
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
end
|
|
// set length (loop variable)
|
|
if ((i_length + 4) < (min_tmp + 128))
|
|
i_length = i_length + 1;
|
|
else if ( ((i_length + 4) == (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
i_length = 256;
|
|
else if ( ((i_length + 4) > (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
begin
|
|
i_length = i_length + 128;
|
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
|
end
|
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
|
i_length = max_tmp - (4 + 16);
|
|
else if ((i_length + 4) >= (max_tmp - 16))
|
|
i_length = i_length + 1;
|
|
else
|
|
begin
|
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
|
#10 $stop;
|
|
end
|
|
// the number of frame transmitted
|
|
num_of_frames = num_of_frames + 1;
|
|
if ((num_of_frames <= 8) || ((num_of_frames - 8) == 128))
|
|
num_of_bd = 0;
|
|
else
|
|
num_of_bd = num_of_bd + 1;
|
|
end
|
|
// disable RX
|
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
@(posedge wb_clk);
|
|
if(fail == 0)
|
|
test_ok;
|
|
else
|
|
fail = 0;
|
|
end
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
|
//// ////
|
|
//// Test receive packets form MINFL to MAXFL sizes at ////
|
|
//// maximum RX buffer decriptors ( 100Mbps ). ////
|
|
//// ////
|
|
////////////////////////////////////////////////////////////////////
|
|
if (test_num == 7) //
|
|
begin
|
|
// TEST 7: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 100Mbps )
|
|
test_name = "TEST 7: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 100Mbps )";
|
|
`TIME; $display(" TEST 7: RECEIVE PACKETS FROM MINFL TO MAXFL SIZES AT MAX RX BDs ( 100Mbps )");
|
|
|
|
// reset MAC registers
|
|
hard_reset;
|
|
// reset MAC and MII LOGIC with soft reset
|
|
reset_mac;
|
|
reset_mii;
|
|
// set wb slave response
|
|
wb_slave.cycle_response(`ACK_RESPONSE, wbs_waits, wbs_retries);
|
|
|
|
max_tmp = 0;
|
|
min_tmp = 0;
|
|
num_of_frames = 0;
|
|
num_of_bd = 0;
|
|
// set maximum RX buffer descriptors (128) - must be set before RX enable
|
|
wbm_write(`ETH_TX_BD_NUM, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// enable RX, set full-duplex mode, NO receive small, NO correct IFG
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// prepare two packets of MAXFL length
|
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
|
min_tmp = tmp[31:16];
|
|
st_data = 8'hAC;
|
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
|
st_data = 8'h35;
|
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
|
// check WB INT signal
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
|
|
// write to phy's control register for 100Mbps
|
|
#Tp eth_phy.control_bit14_10 = 5'b01000; // bit 13 set - speed 100
|
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
|
speed = 100;
|
|
|
|
i_length = (min_tmp - 4);
|
|
while (i_length <= (max_tmp - 4))
|
|
begin
|
|
// append CRC to packet
|
|
if (i_length[0] == 1'b0)
|
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
|
else
|
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
|
// choose generating carrier sense and collision
|
|
case (i_length[1:0])
|
|
2'h0: // Interrupt is generated
|
|
begin
|
|
// Reset_tx_bd nable interrupt generation
|
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// not detect carrier sense in FD and no collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
|
eth_phy.collision(0);
|
|
end
|
|
2'h1: // Interrupt is not generated
|
|
begin
|
|
// set_tx_bd enable interrupt generation
|
|
// mask interrupts
|
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// detect carrier sense in FD and no collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
|
eth_phy.collision(0);
|
|
end
|
|
2'h2: // Interrupt is not generated
|
|
begin
|
|
// set_tx_bd disable the interrupt generation
|
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// not detect carrier sense in FD and set collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
|
eth_phy.collision(1);
|
|
end
|
|
default: // 2'h3: // Interrupt is not generated
|
|
begin
|
|
// set_tx_bd disable the interrupt generation
|
|
// mask interrupts
|
|
wbm_write(`ETH_INT_MASK, 32'h0, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// detect carrier sense in FD and set collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
|
eth_phy.collision(1);
|
|
end
|
|
endcase
|
|
// first 8 frames are received with RX BD 0 (wrap bit on RX BD 0)
|
|
// number of all frames is 154 (146 without first 8)
|
|
if (num_of_frames < 8)
|
|
begin
|
|
case (i_length[1:0])
|
|
2'h0: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
2'h1: // Interrupt is not generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(0, 0, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
2'h2: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, (`MEMORY_BASE + i_length[1:0]));
|
|
// interrupts are unmasked
|
|
end
|
|
default: // 2'h3: // Interrupt is not generated
|
|
begin
|
|
// disable interrupt generation
|
|
set_rx_bd(0, 0, 1'b0, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
// interrupts are masked
|
|
end
|
|
endcase
|
|
// set wrap bit
|
|
set_rx_bd_wrap(0);
|
|
end
|
|
// after first 8 number of frames, 128 frames form RX BD 0 to 127 will be received
|
|
else if ((num_of_frames - 8) == 0)
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 0; // RX BD number
|
|
while (tmp_bd_num < 128) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(127);
|
|
end
|
|
// after 128 + first 8 number of frames, 19 frames form RX BD 0 to 18 will be received
|
|
else if ((num_of_frames - 8) == 20) // 128
|
|
begin
|
|
tmp_len = tmp_len; // length of frame remaines from previous settings
|
|
tmp_bd_num = 0; // TX BD number
|
|
while (tmp_bd_num < 19) // (tmp_len <= (max_tmp - 4)) - this is the last frame
|
|
begin
|
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, !tmp_len[1], ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
if ((tmp_len + 4) < (min_tmp + 128))
|
|
tmp_len = tmp_len + 1;
|
|
else if ( ((tmp_len + 4) == (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = 256;
|
|
else if ( ((tmp_len + 4) > (min_tmp + 128)) && ((tmp_len + 4) <= (max_tmp - 256)) )
|
|
tmp_len = tmp_len + 128;
|
|
else if ( ((tmp_len + 4) > (max_tmp - 256)) && ((tmp_len + 4) < (max_tmp - 16)) )
|
|
tmp_len = max_tmp - (4 + 16);
|
|
else if ((tmp_len + 4) >= (max_tmp - 16))
|
|
tmp_len = tmp_len + 1;
|
|
// set TX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
end
|
|
// set empty bit
|
|
if (num_of_frames < 8)
|
|
set_rx_bd_empty(0, 0);
|
|
else if ((num_of_frames - 8) < 128)
|
|
set_rx_bd_empty((num_of_frames - 8), (num_of_frames - 8));
|
|
else if ((num_of_frames - 136) < 19)
|
|
set_rx_bd_empty((num_of_frames - 136), (num_of_frames - 136));
|
|
// CHECK END OF RECEIVE
|
|
fork
|
|
begin
|
|
if (i_length[0] == 1'b0)
|
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
|
else
|
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
|
repeat(10) @(posedge mrx_clk);
|
|
end
|
|
begin
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
if (i_length < min_tmp) // just first four
|
|
begin
|
|
while (data[15] === 1)
|
|
begin
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
@(posedge wb_clk);
|
|
end
|
|
repeat (1) @(posedge wb_clk);
|
|
end
|
|
else
|
|
begin
|
|
wait (MRxDV === 1'b1); // start transmit
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
if (data[15] !== 1)
|
|
begin
|
|
test_fail("Wrong buffer descriptor's ready bit read out from MAC");
|
|
fail = fail + 1;
|
|
end
|
|
wait (MRxDV === 1'b0); // end transmit
|
|
while (data[15] === 1)
|
|
begin
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
@(posedge wb_clk);
|
|
end
|
|
repeat (1) @(posedge wb_clk);
|
|
end
|
|
end
|
|
join
|
|
// check length of a PACKET
|
|
if (data[31:16] != (i_length + 4))
|
|
begin
|
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
|
data[31:16], (i_length + 4));
|
|
test_fail("Wrong length of the packet out from PHY");
|
|
fail = fail + 1;
|
|
end
|
|
// check received RX packet data and CRC
|
|
if (i_length[0] == 1'b0)
|
|
begin
|
|
check_rx_packet(0, (`MEMORY_BASE + i_length[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
else
|
|
begin
|
|
check_rx_packet(max_tmp, ((`MEMORY_BASE + i_length[1:0]) + max_tmp), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
if (tmp > 0)
|
|
begin
|
|
`TIME; $display("*E Wrong data of the received packet");
|
|
test_fail("Wrong data of the received packet");
|
|
fail = fail + 1;
|
|
end
|
|
// check WB INT signal
|
|
if (i_length[1:0] == 2'h0)
|
|
begin
|
|
if (wb_int !== 1'b1)
|
|
begin
|
|
`TIME; $display("*E WB INT signal should be set");
|
|
test_fail("WB INT signal should be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
|
begin
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
`TIME; $display("*E WB INT signal should not be set");
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// check RX buffer descriptor of a packet
|
|
check_rx_bd(num_of_bd, data);
|
|
if (i_length[1] == 1'b0) // interrupt enabled
|
|
begin
|
|
if ( ((data[15:0] !== 16'h6000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
|
((data[15:0] !== 16'h4000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else // interrupt not enabled
|
|
begin
|
|
if ( ((data[15:0] !== 16'h2000) && ((num_of_frames < 8) || ((num_of_frames - 8) == 127))) || // wrap bit
|
|
((data[15:0] !== 16'h0000) && (num_of_frames >= 8) && ((num_of_frames - 8) != 127)) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h", data[15:0]);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// clear first half of 8 frames from RX buffer descriptor 0
|
|
if (num_of_frames < 4)
|
|
clear_rx_bd(num_of_bd, num_of_bd);
|
|
// clear BD with wrap bit
|
|
if (num_of_frames == 140)
|
|
clear_rx_bd(127, 127);
|
|
// check interrupts
|
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
if ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1))
|
|
begin
|
|
if ((data & `ETH_INT_RXB) !== `ETH_INT_RXB)
|
|
begin
|
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
|
test_fail("Interrupt Receive Buffer was not set");
|
|
fail = fail + 1;
|
|
end
|
|
if ((data & (~`ETH_INT_RXB)) !== 0)
|
|
begin
|
|
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
|
begin
|
|
if (data !== 0)
|
|
begin
|
|
`TIME; $display("*E Any of interrupts (except Receive Buffer) was set, interrupt reg: %0h, len: %0h", data, i_length[1:0]);
|
|
test_fail("Any of interrupts (except Receive Buffer) was set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// clear interrupts
|
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// check WB INT signal
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
// INTERMEDIATE DISPLAYS
|
|
if ((i_length + 4) == (min_tmp + 7))
|
|
begin
|
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using only RX BD 0 out of 128 BDs assigned to RX (wrap at first BD - RX BD 0)");
|
|
$display(" ->packets with lengths from %0d (MINFL) to %0d are checked (length increasing by 1 byte)",
|
|
min_tmp, (min_tmp + 7));
|
|
$display(" ->all packets were received on RX BD 0");
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == (min_tmp + 128))
|
|
begin
|
|
// starting length is min_tmp, ending length is (min_tmp + 128)
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
(min_tmp + 8), (min_tmp + 128));
|
|
$display(" ->packets were received on RX BD %0d to RX BD %0d respectively",
|
|
1'b0, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// set receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == (max_tmp - 16))
|
|
begin
|
|
// starting length is for +128 longer than previous ending length, while ending length is tmp_data
|
|
$display(" receive small packets is selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 128 bytes)",
|
|
(min_tmp + 64 + 128), tmp_data);
|
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
tmp_bd = num_of_bd + 1;
|
|
// reset receive small, remain the rest
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
end
|
|
else if ((i_length + 4) == max_tmp)
|
|
begin
|
|
$display(" receive small packets is NOT selected");
|
|
$display(" using all 128 BDs assigned to RX (wrap at 128th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d (MAXFL) are checked (length increasing by 1 byte)",
|
|
(max_tmp - (4 + 16)), max_tmp);
|
|
if (tmp_bd > num_of_bd)
|
|
$display(" ->packets were received from RX BD %0d to RX BD 127 and from RX BD 0 to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
else
|
|
$display(" ->packets were received from RX BD %0d to RX BD %0d respectively",
|
|
tmp_bd, num_of_bd);
|
|
end
|
|
// set length (loop variable)
|
|
if ((i_length + 4) < (min_tmp + 128))
|
|
i_length = i_length + 1;
|
|
else if ( ((i_length + 4) == (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
i_length = 256;
|
|
else if ( ((i_length + 4) > (min_tmp + 128)) && ((i_length + 4) <= (max_tmp - 256)) )
|
|
begin
|
|
i_length = i_length + 128;
|
|
tmp_data = i_length + 4; // last tmp_data is ending length
|
|
end
|
|
else if ( ((i_length + 4) > (max_tmp - 256)) && ((i_length + 4) < (max_tmp - 16)) )
|
|
i_length = max_tmp - (4 + 16);
|
|
else if ((i_length + 4) >= (max_tmp - 16))
|
|
i_length = i_length + 1;
|
|
else
|
|
begin
|
|
$display("*E TESTBENCH ERROR - WRONG PARAMETERS IN TESTBENCH");
|
|
#10 $stop;
|
|
end
|
|
// the number of frame transmitted
|
|
num_of_frames = num_of_frames + 1;
|
|
if ((num_of_frames <= 8) || ((num_of_frames - 8) == 128))
|
|
num_of_bd = 0;
|
|
else
|
|
num_of_bd = num_of_bd + 1;
|
|
end
|
|
// disable RX
|
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
@(posedge wb_clk);
|
|
if(fail == 0)
|
|
test_ok;
|
|
else
|
|
fail = 0;
|
|
end
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
|
//// ////
|
|
//// Test receive packets form 0 to (MINFL + 12) sizes at ////
|
|
//// 8 RX buffer decriptors ( 10Mbps ). ////
|
|
//// ////
|
|
////////////////////////////////////////////////////////////////////
|
|
if (test_num == 8) //
|
|
begin
|
|
// TEST 8: RECEIVE PACKETS FROM 0 TO (MINFL + 12) SIZES AT 8 TX BD ( 10Mbps )
|
|
test_name = "TEST 8: RECEIVE PACKETS FROM 0 TO (MINFL + 12) SIZES AT 8 TX BD ( 10Mbps )";
|
|
`TIME; $display(" TEST 8: RECEIVE PACKETS FROM 0 TO (MINFL + 12) SIZES AT 8 TX BD ( 10Mbps )");
|
|
|
|
// reset MAC registers
|
|
hard_reset;
|
|
// reset MAC and MII LOGIC with soft reset
|
|
reset_mac;
|
|
reset_mii;
|
|
// set wb slave response
|
|
wb_slave.cycle_response(`ACK_RESPONSE, wbs_waits, wbs_retries);
|
|
|
|
max_tmp = 0;
|
|
min_tmp = 0;
|
|
// set 8 RX buffer descriptors (120 - 127) - must be set before RX enable
|
|
wbm_write(`ETH_TX_BD_NUM, 32'h78, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// enable RX, set full-duplex mode, receive small, NO correct IFG
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// prepare two packets of MAXFL length
|
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
|
min_tmp = tmp[31:16];
|
|
st_data = 8'hAC;
|
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
|
st_data = 8'h35;
|
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
|
// check WB INT signal
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
|
|
// write to phy's control register for 10Mbps
|
|
#Tp eth_phy.control_bit14_10 = 5'b00000; // bit 13 reset - speed 10
|
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
|
speed = 10;
|
|
|
|
frame_ended = 0;
|
|
num_of_frames = 0;// 0; // 10;
|
|
num_of_bd = 120;
|
|
i_length = 0 - 4;// (0 - 4); // 6; // 4 less due to CRC
|
|
while ((i_length + 4) < 78) // (min_tmp - 4))
|
|
begin
|
|
// append CRC to packet
|
|
if ((i_length[0] == 1'b0) && (num_of_frames > 4))
|
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
|
else if (num_of_frames > 4)
|
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
|
// choose generating carrier sense and collision
|
|
case (i_length[1:0])
|
|
2'h0:
|
|
begin
|
|
// not detect carrier sense in FD and no collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
|
eth_phy.collision(0);
|
|
end
|
|
2'h1:
|
|
begin
|
|
// detect carrier sense in FD and no collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
|
eth_phy.collision(0);
|
|
end
|
|
2'h2:
|
|
begin
|
|
// not detect carrier sense in FD and set collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
|
eth_phy.collision(1);
|
|
end
|
|
default: // 2'h3:
|
|
begin
|
|
// detect carrier sense in FD and set collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
|
eth_phy.collision(1);
|
|
end
|
|
endcase
|
|
#1;
|
|
// first 10 frames are received with RX BD 120 (wrap bit on RX BD 120)
|
|
if (num_of_frames <= 9)
|
|
begin
|
|
case (i_length[1:0])
|
|
2'h0: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
end
|
|
2'h1: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
end
|
|
2'h2: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
end
|
|
default: // 2'h3: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
end
|
|
endcase
|
|
// set wrap bit
|
|
set_rx_bd_wrap(120);
|
|
end
|
|
// 10 <= num_of_frames < 18 => wrap set to TX BD 123
|
|
else if ((num_of_frames == 10) || (num_of_frames == 14))
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 120; // RX BD number
|
|
while (tmp_bd_num < 124) //
|
|
begin
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(123);
|
|
end
|
|
// 18 <= num_of_frames < 28 => wrap set to RX BD 124
|
|
else if ((num_of_frames == 18) || (num_of_frames == 23))
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 120; // RX BD number
|
|
while (tmp_bd_num < 125) //
|
|
begin
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(124);
|
|
end
|
|
// 28 <= num_of_frames < 40 => wrap set to RX BD 125
|
|
else if ((num_of_frames == 28) || (num_of_frames == 34))
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 120; // RX BD number
|
|
while (tmp_bd_num < 126) //
|
|
begin
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(125);
|
|
end
|
|
// 40 <= num_of_frames < 54 => wrap set to RX BD 126
|
|
else if ((num_of_frames == 40) || (num_of_frames == 47))
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 120; // RX BD number
|
|
while (tmp_bd_num < 127) //
|
|
begin
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(126);
|
|
end
|
|
// 54 <= num_of_frames < 70 => wrap set to RX BD 127
|
|
else if ((num_of_frames == 54) || (num_of_frames == 62))
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 120; // RX BD number
|
|
while (tmp_bd_num < 128) //
|
|
begin
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(127);
|
|
end
|
|
// 70 <= num_of_frames < 78 => wrap set to RX BD 127
|
|
else if (num_of_frames == 70)
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 120; // RX BD number
|
|
while (tmp_bd_num < 128) //
|
|
begin
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(127);
|
|
end
|
|
#1;
|
|
// SET empty bit
|
|
if (num_of_frames < 10)
|
|
set_rx_bd_empty(120, 120);
|
|
else if (num_of_frames < 14)
|
|
set_rx_bd_empty((120 + num_of_frames - 10), (120 + num_of_frames - 10));
|
|
else if (num_of_frames < 18)
|
|
set_rx_bd_empty((120 + num_of_frames - 14), (120 + num_of_frames - 14));
|
|
else if (num_of_frames < 23)
|
|
set_rx_bd_empty((120 + num_of_frames - 18), (120 + num_of_frames - 18));
|
|
else if (num_of_frames < 28)
|
|
set_rx_bd_empty((120 + num_of_frames - 23), (120 + num_of_frames - 23));
|
|
else if (num_of_frames < 34)
|
|
set_rx_bd_empty((120 + num_of_frames - 28), (120 + num_of_frames - 28));
|
|
else if (num_of_frames < 40)
|
|
set_rx_bd_empty((120 + num_of_frames - 34), (120 + num_of_frames - 34));
|
|
else if (num_of_frames < 47)
|
|
set_rx_bd_empty((120 + num_of_frames - 40), (120 + num_of_frames - 40));
|
|
else if (num_of_frames < 54)
|
|
set_rx_bd_empty((120 + num_of_frames - 47), (120 + num_of_frames - 47));
|
|
else if (num_of_frames < 62)
|
|
set_rx_bd_empty((120 + num_of_frames - 54), (120 + num_of_frames - 54));
|
|
else if (num_of_frames < 70)
|
|
set_rx_bd_empty((120 + num_of_frames - 62), (120 + num_of_frames - 62));
|
|
else if (num_of_frames < 78)
|
|
set_rx_bd_empty((120 + num_of_frames - 70), (120 + num_of_frames - 70));
|
|
// CHECK END OF RECEIVE
|
|
frame_ended = 0;
|
|
check_frame = 0;
|
|
fork
|
|
begin
|
|
if (i_length[0] == 1'b0)
|
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
|
else
|
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
|
repeat(10) @(posedge mrx_clk);
|
|
end
|
|
begin: fr_end1
|
|
wait (MRxDV === 1'b1); // start receive
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
if (data[15] !== 1)
|
|
begin
|
|
test_fail("Wrong buffer descriptor's empty bit read out from MAC");
|
|
fail = fail + 1;
|
|
end
|
|
wait (MRxDV === 1'b0); // end receive
|
|
while ((data[15] === 1) && (check_frame == 0))
|
|
begin
|
|
#1 check_rx_bd(num_of_bd, data);
|
|
@(posedge wb_clk);
|
|
end
|
|
if (data[15] === 0)
|
|
frame_ended = 1;
|
|
repeat (1) @(posedge wb_clk);
|
|
end
|
|
begin
|
|
wait (MRxDV === 1'b1); // start receive
|
|
wait (MRxDV === 1'b0); // end receive
|
|
repeat(10) @(posedge mrx_clk);
|
|
repeat(15) @(posedge wb_clk);
|
|
check_frame = 1;
|
|
end
|
|
join
|
|
// check length of a PACKET
|
|
if ( ((data[31:16] != (i_length + 4)) && (num_of_frames >= 3)) ||
|
|
((data[31:16] != 0) && (num_of_frames < 3)) )
|
|
begin
|
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
|
data[31:16], (i_length + 4));
|
|
test_fail("Wrong length of the packet out from PHY");
|
|
fail = fail + 1;
|
|
end
|
|
// check received RX packet data and CRC
|
|
if ((frame_ended == 1) && (num_of_frames >= 5)) // 5 bytes is minimum size without CRC error, since
|
|
begin // CRC has 4 bytes for itself
|
|
if (i_length[0] == 1'b0)
|
|
begin
|
|
check_rx_packet(0, (`MEMORY_BASE + i_length[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
else
|
|
begin
|
|
check_rx_packet(max_tmp, ((`MEMORY_BASE + i_length[1:0]) + max_tmp), (i_length + 4), 1'b0, 1'b0, tmp);
|
|
end
|
|
if (tmp > 0)
|
|
begin
|
|
`TIME; $display("*E Wrong data of the received packet");
|
|
test_fail("Wrong data of the received packet");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
|
|
// check WB INT signal
|
|
if (num_of_frames >= 3) // Frames smaller than 3 are not received.
|
|
begin // Frames greater then 5 always cause an interrupt (Frame received)
|
|
if (wb_int !== 1'b1) // Frames with length 3 or 4 always cause an interrupt (CRC error)
|
|
begin
|
|
`TIME; $display("*E WB INT signal should be set");
|
|
test_fail("WB INT signal should be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
|
begin
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
`TIME; $display("*E WB INT signal should not be set");
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
|
|
// check RX buffer descriptor of a packet
|
|
if (num_of_frames >= min_tmp)
|
|
begin
|
|
if ( (data[15:0] !== 16'h6000) && // wrap bit
|
|
(data[15:0] !== 16'h4000) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else if (num_of_frames > 4)
|
|
begin
|
|
if ( (data[15:0] !== 16'h6004) && // wrap bit
|
|
(data[15:0] !== 16'h4004) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else if (num_of_frames > 2)
|
|
begin
|
|
if ( (data[15:0] !== 16'h6006) && // wrap bit
|
|
(data[15:0] !== 16'h4006) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
|
begin
|
|
if (data[15] !== 1'b1)
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// check interrupts
|
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
if (num_of_frames >= 5)
|
|
begin
|
|
if ((data & `ETH_INT_RXB) !== `ETH_INT_RXB)
|
|
begin
|
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
|
test_fail("Interrupt Receive Buffer was not set");
|
|
fail = fail + 1;
|
|
end
|
|
if ((data & (~`ETH_INT_RXB)) !== 0)
|
|
begin
|
|
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else if ((num_of_frames < 3)) // Frames smaller than 3 are not received.
|
|
begin
|
|
if (data) // Checking if any interrupt is pending)
|
|
begin
|
|
`TIME; $display("*E Interrupt(s) is(are) pending although frame was ignored, interrupt reg: %0h", data);
|
|
test_fail("Interrupts were set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
else
|
|
begin
|
|
if ((data & `ETH_INT_RXE) !== `ETH_INT_RXE)
|
|
begin
|
|
`TIME; $display("*E Interrupt Receive Buffer Error was not set, interrupt reg: %0h", data);
|
|
test_fail("Interrupt Receive Buffer Error was not set");
|
|
fail = fail + 1;
|
|
end
|
|
if ((data & (~`ETH_INT_RXE)) !== 0)
|
|
begin
|
|
`TIME; $display("*E Other interrupts (except Receive Buffer Error) were set, interrupt reg: %0h", data);
|
|
test_fail("Other interrupts (except Receive Buffer Error) were set");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
|
// clear interrupts
|
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// check WB INT signal
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
// INTERMEDIATE DISPLAYS
|
|
if (num_of_frames == 3)
|
|
begin
|
|
$display(" pads appending to packets is selected");
|
|
$display(" using 1 BD out of 8 BDs (120..127) assigned to RX (wrap at 1st BD - RX BD 120)");
|
|
$display(" ->packets with lengths from %0d to %0d are not received (length increasing by 1 byte)",
|
|
0, 3);
|
|
end
|
|
else if (num_of_frames == 9)
|
|
begin
|
|
$display(" using 1 BD out of 8 BDs (120..127) assigned to RX (wrap at 1st BD - RX BD 120)");
|
|
$display(" ->packet with length 4 is not received (length increasing by 1 byte)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
5, 9);
|
|
end
|
|
else if (num_of_frames == 17)
|
|
begin
|
|
$display(" using 4 BDs out of 8 BDs (120..127) assigned to RX (wrap at 4th BD - RX BD 123)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
10, 17);
|
|
end
|
|
else if (num_of_frames == 27)
|
|
begin
|
|
$display(" using 5 BDs out of 8 BDs (120..127) assigned to RX (wrap at 5th BD - RX BD 124)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
18, 27);
|
|
end
|
|
else if (num_of_frames == 40)
|
|
begin
|
|
$display(" using 6 BDs out of 8 BDs (120..127) assigned to RX (wrap at 6th BD - RX BD 125)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
28, 40);
|
|
end
|
|
else if (num_of_frames == 54)
|
|
begin
|
|
$display(" using 7 BDs out of 8 BDs (120..127) assigned to RX (wrap at 7th BD - RX BD 126)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
41, 54);
|
|
end
|
|
else if (num_of_frames == 69)
|
|
begin
|
|
$display(" using 8 BDs out of 8 BDs (120..127) assigned to RX (wrap at 8th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
55, 69);
|
|
end
|
|
else if (num_of_frames == 69)
|
|
begin
|
|
$display(" using 8 BDs out of 8 BDs (120..127) assigned to RX (wrap at 8th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
55, 69);
|
|
end
|
|
else if (num_of_frames == 77)
|
|
begin
|
|
$display(" using 8 BDs out of 8 BDs (120..127) assigned to RX (wrap at 8th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
70, 77);
|
|
end
|
|
// set length (loop variable)
|
|
i_length = i_length + 1;
|
|
// the number of frame transmitted
|
|
num_of_frames = num_of_frames + 1;
|
|
if (/*(num_of_frames == 2) || (num_of_frames == 4) || (num_of_frames == 7) ||*/ (num_of_frames <= 10) ||
|
|
(num_of_frames == 14) || (num_of_frames == 18) || (num_of_frames == 23) || (num_of_frames == 28) ||
|
|
(num_of_frames == 34) || (num_of_frames == 40) || (num_of_frames == 47) ||
|
|
(num_of_frames == 54) || (num_of_frames == 62) || (num_of_frames == 70))
|
|
num_of_bd = 120;
|
|
else
|
|
num_of_bd = num_of_bd + 1;
|
|
end
|
|
// disable RX
|
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_PAD | `ETH_MODER_CRCEN,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
@(posedge wb_clk);
|
|
if(fail == 0)
|
|
test_ok;
|
|
else
|
|
fail = 0;
|
|
end
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
|
//// ////
|
|
//// Test receive packets form 0 to (MINFL + 12) sizes at ////
|
|
//// 8 RX buffer decriptors ( 100Mbps ). ////
|
|
//// ////
|
|
////////////////////////////////////////////////////////////////////
|
|
if (test_num == 9) //
|
|
begin
|
|
// TEST 9: RECEIVE PACKETS FROM 0 TO (MINFL + 12) SIZES AT 8 TX BD ( 100Mbps )
|
|
test_name = "TEST 9: RECEIVE PACKETS FROM 0 TO (MINFL + 12) SIZES AT 8 TX BD ( 100Mbps )";
|
|
`TIME; $display(" TEST 9: RECEIVE PACKETS FROM 0 TO (MINFL + 12) SIZES AT 8 TX BD ( 100Mbps )");
|
|
|
|
// reset MAC registers
|
|
hard_reset;
|
|
// reset MAC and MII LOGIC with soft reset
|
|
reset_mac;
|
|
reset_mii;
|
|
// set wb slave response
|
|
wb_slave.cycle_response(`ACK_RESPONSE, wbs_waits, wbs_retries);
|
|
|
|
max_tmp = 0;
|
|
min_tmp = 0;
|
|
// set 8 RX buffer descriptors (120 - 127) - must be set before RX enable
|
|
wbm_write(`ETH_TX_BD_NUM, 32'h78, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// enable RX, set full-duplex mode, receive small, NO correct IFG
|
|
wbm_write(`ETH_MODER, `ETH_MODER_RXEN | `ETH_MODER_FULLD | `ETH_MODER_RECSMALL | `ETH_MODER_IFG |
|
|
`ETH_MODER_PRO | `ETH_MODER_BRO,
|
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
// prepare two packets of MAXFL length
|
|
wbm_read(`ETH_PACKETLEN, tmp, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
max_tmp = tmp[15:0]; // 18 bytes consists of 6B dest addr, 6B source addr, 2B type/len, 4B CRC
|
|
min_tmp = tmp[31:16];
|
|
st_data = 8'hAC;
|
|
set_rx_packet(0, (max_tmp - 4), 1'b0, 48'h0102_0304_0506, 48'h0708_090A_0B0C, 16'h0D0E, st_data); // length without CRC
|
|
st_data = 8'h35;
|
|
set_rx_packet((max_tmp), (max_tmp - 4), 1'b0, 48'h1234_5678_8765, 48'hA1B2_C3D4_E5F6, 16'hE77E, st_data);
|
|
// check WB INT signal
|
|
if (wb_int !== 1'b0)
|
|
begin
|
|
test_fail("WB INT signal should not be set");
|
|
fail = fail + 1;
|
|
end
|
|
// unmask interrupts
|
|
wbm_write(`ETH_INT_MASK, `ETH_INT_TXB | `ETH_INT_TXE | `ETH_INT_RXB | `ETH_INT_RXE | `ETH_INT_BUSY |
|
|
`ETH_INT_TXC | `ETH_INT_RXC, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
|
|
|
// write to phy's control register for 100Mbps
|
|
#Tp eth_phy.control_bit14_10 = 5'b01000; // bit 13 set - speed 100
|
|
#Tp eth_phy.control_bit8_0 = 9'h1_00; // bit 6 reset - (10/100), bit 8 set - FD
|
|
speed = 100;
|
|
|
|
frame_ended = 0;
|
|
num_of_frames = 0;
|
|
num_of_bd = 120;
|
|
i_length = 0 - 4;// (0 - 4); // 6; // 4 less due to CRC
|
|
while ((i_length + 4) < 78) // (min_tmp - 4))
|
|
begin
|
|
// append CRC to packet
|
|
if ((i_length[0] == 1'b0) && (i_length > 0))
|
|
append_rx_crc (0, i_length, 1'b0, 1'b0);
|
|
else if (i_length > 0)
|
|
append_rx_crc (max_tmp, i_length, 1'b0, 1'b0);
|
|
// choose generating carrier sense and collision
|
|
case (i_length[1:0])
|
|
2'h0:
|
|
begin
|
|
// not detect carrier sense in FD and no collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
|
eth_phy.collision(0);
|
|
end
|
|
2'h1:
|
|
begin
|
|
// detect carrier sense in FD and no collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
|
eth_phy.collision(0);
|
|
end
|
|
2'h2:
|
|
begin
|
|
// not detect carrier sense in FD and set collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(0);
|
|
eth_phy.collision(1);
|
|
end
|
|
default: // 2'h3:
|
|
begin
|
|
// detect carrier sense in FD and set collision
|
|
eth_phy.no_carrier_sense_rx_fd_detect(1);
|
|
eth_phy.collision(1);
|
|
end
|
|
endcase
|
|
#1;
|
|
// first 10 frames are received with RX BD 120 (wrap bit on RX BD 120)
|
|
if (num_of_frames <= 9)
|
|
begin
|
|
case (i_length[1:0])
|
|
2'h0: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
end
|
|
2'h1: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
end
|
|
2'h2: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, (`MEMORY_BASE + i_length[1:0]));
|
|
end
|
|
default: // 2'h3: // Interrupt is generated
|
|
begin
|
|
// enable interrupt generation
|
|
set_rx_bd(120, 120, 1'b1, ((`MEMORY_BASE + i_length[1:0]) + max_tmp));
|
|
end
|
|
endcase
|
// set wrap bit
|
// set wrap bit
|
set_tx_bd_wrap(0);
|
set_rx_bd_wrap(120);
|
end
|
end
|
// 10 <= num_of_frames < 18 => wrap set to TX BD 3
|
// 10 <= num_of_frames < 18 => wrap set to TX BD 123
|
else if ((num_of_frames == 10) || (num_of_frames == 14))
|
else if ((num_of_frames == 10) || (num_of_frames == 14))
|
begin
|
begin
|
tmp_len = i_length; // length of frame
|
tmp_len = i_length; // length of frame
|
tmp_bd_num = 0; // TX BD number
|
tmp_bd_num = 120; // RX BD number
|
while (tmp_bd_num < 4) //
|
while (tmp_bd_num < 124) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set RX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
set_tx_bd_wrap(3);
|
set_rx_bd_wrap(123);
|
end
|
end
|
// 18 <= num_of_frames < 28 => wrap set to TX BD 4
|
// 18 <= num_of_frames < 28 => wrap set to RX BD 124
|
else if ((num_of_frames == 18) || (num_of_frames == 23))
|
else if ((num_of_frames == 18) || (num_of_frames == 23))
|
begin
|
begin
|
tmp_len = i_length; // length of frame
|
tmp_len = i_length; // length of frame
|
tmp_bd_num = 0; // TX BD number
|
tmp_bd_num = 120; // RX BD number
|
while (tmp_bd_num < 5) //
|
while (tmp_bd_num < 125) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set RX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
set_tx_bd_wrap(4);
|
set_rx_bd_wrap(124);
|
end
|
end
|
// 28 <= num_of_frames < 40 => wrap set to TX BD 5
|
// 28 <= num_of_frames < 40 => wrap set to RX BD 125
|
else if ((num_of_frames == 28) || (num_of_frames == 34))
|
else if ((num_of_frames == 28) || (num_of_frames == 34))
|
begin
|
begin
|
tmp_len = i_length; // length of frame
|
tmp_len = i_length; // length of frame
|
tmp_bd_num = 0; // TX BD number
|
tmp_bd_num = 120; // RX BD number
|
while (tmp_bd_num < 6) //
|
while (tmp_bd_num < 126) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set RX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
set_tx_bd_wrap(5);
|
set_rx_bd_wrap(125);
|
end
|
end
|
// 40 <= num_of_frames < 54 => wrap set to TX BD 6
|
// 40 <= num_of_frames < 54 => wrap set to RX BD 126
|
else if ((num_of_frames == 40) || (num_of_frames == 47))
|
else if ((num_of_frames == 40) || (num_of_frames == 47))
|
begin
|
begin
|
tmp_len = i_length; // length of frame
|
tmp_len = i_length; // length of frame
|
tmp_bd_num = 0; // TX BD number
|
tmp_bd_num = 120; // RX BD number
|
while (tmp_bd_num < 7) //
|
while (tmp_bd_num < 127) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set RX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
set_tx_bd_wrap(6);
|
set_rx_bd_wrap(126);
|
end
|
end
|
// 54 <= num_of_frames < 70 => wrap set to TX BD 7
|
// 54 <= num_of_frames < 70 => wrap set to RX BD 127
|
else if ((num_of_frames == 54) || (num_of_frames == 62))
|
else if ((num_of_frames == 54) || (num_of_frames == 62))
|
begin
|
begin
|
tmp_len = i_length; // length of frame
|
tmp_len = i_length; // length of frame
|
tmp_bd_num = 0; // TX BD number
|
tmp_bd_num = 120; // RX BD number
|
while (tmp_bd_num < 8) //
|
while (tmp_bd_num < 128) //
|
begin
|
begin
|
// if i_length[1] == 0 then enable interrupt generation otherwise disable it
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
if (tmp_len[0] == 0)
|
if (tmp_len[0] == 0)
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, `MEMORY_BASE);
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
else
|
else
|
set_tx_bd(tmp_bd_num, tmp_bd_num, tmp_len, !tmp_len[1], 1'b1, 1'b1, (`MEMORY_BASE + max_tmp));
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
tmp_len = tmp_len + 1;
|
tmp_len = tmp_len + 1;
|
// set TX BD number
|
// set RX BD number
|
tmp_bd_num = tmp_bd_num + 1;
|
tmp_bd_num = tmp_bd_num + 1;
|
end
|
end
|
// set wrap bit
|
// set wrap bit
|
set_tx_bd_wrap(7);
|
set_rx_bd_wrap(127);
|
|
end
|
|
// 70 <= num_of_frames < 78 => wrap set to RX BD 127
|
|
else if (num_of_frames == 70)
|
|
begin
|
|
tmp_len = i_length; // length of frame
|
|
tmp_bd_num = 120; // RX BD number
|
|
while (tmp_bd_num < 128) //
|
|
begin
|
|
// if i_length[0] == 0 then base address is `MEMORY_BASE otherwise it is `MEMORY_BASE + max_tmp
|
|
if (tmp_len[0] == 0)
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, (`MEMORY_BASE + tmp_len[1:0]));
|
|
else
|
|
set_rx_bd(tmp_bd_num, tmp_bd_num, 1'b1, ((`MEMORY_BASE + tmp_len[1:0]) + max_tmp));
|
|
// set length (loop variable) - THE SAME AS AT THE END OF THIS TASK !!!
|
|
tmp_len = tmp_len + 1;
|
|
// set RX BD number
|
|
tmp_bd_num = tmp_bd_num + 1;
|
|
end
|
|
// set wrap bit
|
|
set_rx_bd_wrap(127);
|
end
|
end
|
#1;
|
#1;
|
// SET ready bit
|
// SET empty bit
|
if (num_of_frames < 10)
|
if (num_of_frames < 10)
|
set_tx_bd_ready(0, 0);
|
set_rx_bd_empty(120, 120);
|
else if (num_of_frames < 14)
|
else if (num_of_frames < 14)
|
set_tx_bd_ready((num_of_frames - 10), (num_of_frames - 10));
|
set_rx_bd_empty((120 + num_of_frames - 10), (120 + num_of_frames - 10));
|
else if (num_of_frames < 18)
|
else if (num_of_frames < 18)
|
set_tx_bd_ready((num_of_frames - 14), (num_of_frames - 14));
|
set_rx_bd_empty((120 + num_of_frames - 14), (120 + num_of_frames - 14));
|
else if (num_of_frames < 23)
|
else if (num_of_frames < 23)
|
set_tx_bd_ready((num_of_frames - 18), (num_of_frames - 18));
|
set_rx_bd_empty((120 + num_of_frames - 18), (120 + num_of_frames - 18));
|
else if (num_of_frames < 28)
|
else if (num_of_frames < 28)
|
set_tx_bd_ready((num_of_frames - 23), (num_of_frames - 23));
|
set_rx_bd_empty((120 + num_of_frames - 23), (120 + num_of_frames - 23));
|
else if (num_of_frames < 34)
|
else if (num_of_frames < 34)
|
set_tx_bd_ready((num_of_frames - 28), (num_of_frames - 28));
|
set_rx_bd_empty((120 + num_of_frames - 28), (120 + num_of_frames - 28));
|
else if (num_of_frames < 40)
|
else if (num_of_frames < 40)
|
set_tx_bd_ready((num_of_frames - 34), (num_of_frames - 34));
|
set_rx_bd_empty((120 + num_of_frames - 34), (120 + num_of_frames - 34));
|
else if (num_of_frames < 47)
|
else if (num_of_frames < 47)
|
set_tx_bd_ready((num_of_frames - 40), (num_of_frames - 40));
|
set_rx_bd_empty((120 + num_of_frames - 40), (120 + num_of_frames - 40));
|
else if (num_of_frames < 54)
|
else if (num_of_frames < 54)
|
set_tx_bd_ready((num_of_frames - 47), (num_of_frames - 47));
|
set_rx_bd_empty((120 + num_of_frames - 47), (120 + num_of_frames - 47));
|
else if (num_of_frames < 62)
|
else if (num_of_frames < 62)
|
set_tx_bd_ready((num_of_frames - 54), (num_of_frames - 54));
|
set_rx_bd_empty((120 + num_of_frames - 54), (120 + num_of_frames - 54));
|
else if (num_of_frames < 70)
|
else if (num_of_frames < 70)
|
set_tx_bd_ready((num_of_frames - 62), (num_of_frames - 62));
|
set_rx_bd_empty((120 + num_of_frames - 62), (120 + num_of_frames - 62));
|
// CHECK END OF TRANSMITION
|
else if (num_of_frames < 78)
|
frame_started = 0;
|
set_rx_bd_empty((120 + num_of_frames - 70), (120 + num_of_frames - 70));
|
if (num_of_frames >= 5)
|
// CHECK END OF RECEIVE
|
#1 check_tx_bd(num_of_bd, data);
|
frame_ended = 0;
|
|
check_frame = 0;
|
fork
|
fork
|
begin: fr_st
|
|
wait (MTxEn === 1'b1); // start transmit
|
|
frame_started = 1;
|
|
end
|
|
begin
|
|
repeat (30) @(posedge mtx_clk);
|
|
if (num_of_frames < 5)
|
|
begin
|
|
if (frame_started == 1)
|
|
begin
|
begin
|
`TIME; $display("*E Frame should NOT start!");
|
if (i_length[0] == 1'b0)
|
end
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, 0, (i_length + 4), 1'b0);
|
disable fr_st;
|
|
end
|
|
else
|
else
|
begin
|
#1 eth_phy.send_rx_packet(64'h0055_5555_5555_5555, 4'h7, 8'hD5, max_tmp, (i_length + 4), 1'b0);
|
if (frame_started == 0)
|
repeat(10) @(posedge mrx_clk);
|
begin
|
|
`TIME; $display("*W Frame should start!");
|
|
disable fr_st;
|
|
end
|
|
end
|
|
end
|
end
|
join
|
begin: fr_end2
|
// check packets larger than 4 bytes
|
wait (MRxDV === 1'b1); // start receive
|
if (num_of_frames >= 5)
|
#1 check_rx_bd(num_of_bd, data);
|
|
if (data[15] !== 1)
|
begin
|
begin
|
wait (MTxEn === 1'b0); // end transmit
|
test_fail("Wrong buffer descriptor's empty bit read out from MAC");
|
while (data[15] === 1)
|
fail = fail + 1;
|
|
end
|
|
wait (MRxDV === 1'b0); // end receive
|
|
while ((data[15] === 1) && (check_frame == 0))
|
begin
|
begin
|
#1 check_tx_bd(num_of_bd, data);
|
#1 check_rx_bd(num_of_bd, data);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
end
|
end
|
|
if (data[15] === 0)
|
|
frame_ended = 1;
|
repeat (1) @(posedge wb_clk);
|
repeat (1) @(posedge wb_clk);
|
// check length of a PACKET
|
|
if (i_length <= (min_tmp - 4))
|
|
begin
|
|
if (eth_phy.tx_len != min_tmp)
|
|
begin
|
|
test_fail("Wrong length of the packet out from MAC");
|
|
fail = fail + 1;
|
|
end
|
|
end
|
end
|
else
|
|
begin
|
begin
|
if (eth_phy.tx_len != (i_length + 4))
|
wait (MRxDV === 1'b1); // start receive
|
|
wait (MRxDV === 1'b0); // end receive
|
|
repeat(10) @(posedge mrx_clk);
|
|
repeat(15) @(posedge wb_clk);
|
|
check_frame = 1;
|
|
end
|
|
join
|
|
// check length of a PACKET
|
|
if ( (data[31:16] != (i_length + 4))/* && (frame_ended == 1)*/ )
|
begin
|
begin
|
test_fail("Wrong length of the packet out from MAC");
|
`TIME; $display("*E Wrong length of the packet out from PHY (%0d instead of %0d)",
|
|
data[31:16], (i_length + 4));
|
|
test_fail("Wrong length of the packet out from PHY");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
// check received RX packet data and CRC
|
// check transmitted TX packet data
|
if ((frame_ended == 1) && (num_of_frames >= 5))
|
if (i_length[0] == 0)
|
|
begin
|
begin
|
#1 check_tx_packet(`MEMORY_BASE, (num_of_frames * 16), i_length, tmp);
|
if (i_length[0] == 1'b0)
|
end
|
|
else
|
|
begin
|
begin
|
#1 check_tx_packet((`MEMORY_BASE + max_tmp), (num_of_frames * 16), i_length, tmp);
|
check_rx_packet(0, (`MEMORY_BASE + i_length[1:0]), (i_length + 4), 1'b0, 1'b0, tmp);
|
end
|
end
|
if (tmp > 0)
|
else
|
begin
|
begin
|
test_fail("Wrong data of the transmitted packet");
|
check_rx_packet(max_tmp, ((`MEMORY_BASE + i_length[1:0]) + max_tmp), (i_length + 4), 1'b0, 1'b0, tmp);
|
fail = fail + 1;
|
|
end
|
end
|
// check transmited TX packet CRC
|
|
if (num_of_frames < (min_tmp - 4))
|
|
#1 check_tx_crc((num_of_frames * 16), (min_tmp - 4), 1'b0, tmp); // length without CRC
|
|
else
|
|
#1 check_tx_crc((num_of_frames * 16), i_length, 1'b0, tmp); // length without CRC
|
|
if (tmp > 0)
|
if (tmp > 0)
|
begin
|
begin
|
test_fail("Wrong CRC of the transmitted packet");
|
`TIME; $display("*E Wrong data of the received packet");
|
|
test_fail("Wrong data of the received packet");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
|
|
// check WB INT signal
|
// check WB INT signal
|
if ((i_length[1:0] == 2'h0) && (num_of_frames >= 5))
|
if (num_of_frames >= 5)
|
begin
|
begin
|
if (wb_int !== 1'b1)
|
if (wb_int !== 1'b1)
|
begin
|
begin
|
`TIME; $display("*E WB INT signal should be set");
|
`TIME; $display("*E WB INT signal should be set");
|
test_fail("WB INT signal should be set");
|
test_fail("WB INT signal should be set");
|
Line 12519... |
Line 13812... |
`TIME; $display("*E WB INT signal should not be set");
|
`TIME; $display("*E WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// check TX buffer descriptor of a packet
|
|
check_tx_bd(num_of_bd, data);
|
// display RX buffer descriptor of a packet with length smaller than 7
|
if (num_of_frames >= 5)
|
check_rx_bd(num_of_bd, data);
|
|
if (num_of_frames <= 6)
|
begin
|
begin
|
if (i_length[1] == 1'b0) // interrupt enabled
|
`TIME; $display("=> RX buffer descriptor is: %0h - len: %0d", data[15:0], num_of_frames);
|
|
end
|
|
// check RX buffer descriptor of a packet
|
|
if (num_of_frames >= min_tmp)
|
begin
|
begin
|
if ( (data[15:0] !== 16'h7800) && // wrap bit
|
if ( (data[15:0] !== 16'h6000) && // wrap bit
|
(data[15:0] !== 16'h5800) ) // without wrap bit
|
(data[15:0] !== 16'h4000) ) // without wrap bit
|
begin
|
begin
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
test_fail("TX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else // interrupt not enabled
|
else if (num_of_frames > 4)
|
begin
|
begin
|
if ( (data[15:0] !== 16'h3800) && // wrap bit
|
if ( (data[15:0] !== 16'h6004) && // wrap bit
|
(data[15:0] !== 16'h1800) ) // without wrap bit
|
(data[15:0] !== 16'h4004) ) // without wrap bit
|
begin
|
begin
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
test_fail("TX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
|
else if (num_of_frames > 2)
|
|
begin
|
|
if ( (data[15:0] !== 16'h6006) && // wrap bit
|
|
(data[15:0] !== 16'h4006) ) // without wrap bit
|
|
begin
|
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
|
test_fail("RX buffer descriptor status is not correct");
|
|
fail = fail + 1;
|
|
end
|
end
|
end
|
else
|
else
|
begin
|
begin
|
if (data[15] !== 1'b1)
|
if (data[15] !== 1'b1)
|
begin
|
begin
|
`TIME; $display("*E TX buffer descriptor status is not correct: %0h", data[15:0]);
|
`TIME; $display("*E RX buffer descriptor status is not correct: %0h - len: %0d", data[15:0], num_of_frames);
|
test_fail("TX buffer descriptor status is not correct");
|
test_fail("RX buffer descriptor status is not correct");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// clear TX BD with wrap bit
|
|
if (num_of_frames == 63)
|
|
clear_tx_bd(16, 16);
|
|
// check interrupts
|
// check interrupts
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_read(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
if ( ((i_length[1:0] == 2'h0) || (i_length[1:0] == 2'h1)) && (num_of_frames >= 5) )
|
if (num_of_frames >= 40)
|
begin
|
begin
|
if ((data & `ETH_INT_TXB) !== 1'b1)
|
if ((data & `ETH_INT_RXB) !== 1'b1)//`ETH_INT_RXB)
|
begin
|
begin
|
`TIME; $display("*E Interrupt Transmit Buffer was not set, interrupt reg: %0h", data);
|
`TIME; $display("*E Interrupt Receive Buffer was not set, interrupt reg: %0h", data);
|
test_fail("Interrupt Transmit Buffer was not set");
|
test_fail("Interrupt Receive Buffer was not set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
if ((data & (~`ETH_INT_TXB)) !== 0)
|
if ((data & (~`ETH_INT_RXB)) !== 0)
|
begin
|
begin
|
`TIME; $display("*E Other interrupts (except Transmit Buffer) were set, interrupt reg: %0h", data);
|
`TIME; $display("*E Other interrupts (except Receive Buffer) were set, interrupt reg: %0h", data);
|
test_fail("Other interrupts (except Transmit Buffer) were set");
|
test_fail("Other interrupts (except Receive Buffer) were set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
else
|
else
|
begin
|
begin
|
if (data !== 0)
|
if ((data & `ETH_INT_RXE) !== 1'b1)//`ETH_INT_RXE)
|
begin
|
begin
|
`TIME; $display("*E Any of interrupts (except Transmit Buffer) was set, interrupt reg: %0h, len: %0h", data, i_length[1:0]);
|
`TIME; $display("*E Interrupt Receive Buffer Error was not set, interrupt reg: %0h", data);
|
test_fail("Any of interrupts (except Transmit Buffer) was set");
|
test_fail("Interrupt Receive Buffer Error was not set");
|
|
fail = fail + 1;
|
|
end
|
|
if ((data & (~`ETH_INT_RXE)) !== 0)
|
|
begin
|
|
`TIME; $display("*E Other interrupts (except Receive Buffer Error) were set, interrupt reg: %0h", data);
|
|
test_fail("Other interrupts (except Receive Buffer Error) were set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
end
|
end
|
// clear interrupts
|
// clear interrupts
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
wbm_write(`ETH_INT, data, 4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
Line 12591... |
Line 13900... |
begin
|
begin
|
test_fail("WB INT signal should not be set");
|
test_fail("WB INT signal should not be set");
|
fail = fail + 1;
|
fail = fail + 1;
|
end
|
end
|
// INTERMEDIATE DISPLAYS
|
// INTERMEDIATE DISPLAYS
|
if (i_length == 3)
|
if (num_of_frames == 3)
|
begin
|
begin
|
$display(" pads appending to packets is selected");
|
$display(" pads appending to packets is selected");
|
$display(" using 1 BD out of 8 BDs assigned to TX (wrap at 1st BD - TX BD 0)");
|
$display(" using 1 BD out of 8 BDs (120..127) assigned to RX (wrap at 1st BD - RX BD 120)");
|
$display(" ->packets with lengths from %0d to %0d are not transmitted (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d are not received (length increasing by 1 byte)",
|
0, 3);
|
0, 3);
|
end
|
end
|
else if (i_length == 9)
|
else if (num_of_frames == 9)
|
begin
|
begin
|
$display(" using 1 BD out of 8 BDs assigned to TX (wrap at 1st BD - TX BD 0)");
|
$display(" using 1 BD out of 8 BDs (120..127) assigned to RX (wrap at 1st BD - RX BD 120)");
|
$display(" ->packet with length 4 is not transmitted (length increasing by 1 byte)");
|
$display(" ->packet with length 4 is not received (length increasing by 1 byte)");
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
5, 9);
|
5, 9);
|
end
|
end
|
else if (i_length == 17)
|
else if (num_of_frames == 17)
|
begin
|
begin
|
$display(" using 4 BDs out of 8 BDs assigned to TX (wrap at 4th BD - TX BD 3)");
|
$display(" using 4 BDs out of 8 BDs (120..127) assigned to RX (wrap at 4th BD - RX BD 123)");
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
10, 17);
|
10, 17);
|
end
|
end
|
else if (i_length == 27)
|
else if (num_of_frames == 27)
|
begin
|
begin
|
$display(" using 5 BDs out of 8 BDs assigned to TX (wrap at 5th BD - TX BD 4)");
|
$display(" using 5 BDs out of 8 BDs (120..127) assigned to RX (wrap at 5th BD - RX BD 124)");
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
18, 27);
|
18, 27);
|
end
|
end
|
else if (i_length == 40)
|
else if (num_of_frames == 40)
|
begin
|
begin
|
$display(" using 6 BDs out of 8 BDs assigned to TX (wrap at 6th BD - TX BD 5)");
|
$display(" using 6 BDs out of 8 BDs (120..127) assigned to RX (wrap at 6th BD - RX BD 125)");
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
28, 40);
|
28, 40);
|
end
|
end
|
else if (i_length == 54)
|
else if (num_of_frames == 54)
|
begin
|
begin
|
$display(" using 7 BDs out of 8 BDs assigned to TX (wrap at 7th BD - TX BD 6)");
|
$display(" using 7 BDs out of 8 BDs (120..127) assigned to RX (wrap at 7th BD - RX BD 126)");
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
41, 54);
|
41, 54);
|
end
|
end
|
else if (i_length == 69)
|
else if (num_of_frames == 69)
|
begin
|
begin
|
$display(" using 8 BDs out of 8 BDs assigned to TX (wrap at 8th BD - TX BD 7)");
|
$display(" using 8 BDs out of 8 BDs (120..127) assigned to RX (wrap at 8th BD - RX BD 127)");
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
55, 69);
|
55, 69);
|
end
|
end
|
|
else if (num_of_frames == 69)
|
|
begin
|
|
$display(" using 8 BDs out of 8 BDs (120..127) assigned to RX (wrap at 8th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
55, 69);
|
|
end
|
|
else if (num_of_frames == 77)
|
|
begin
|
|
$display(" using 8 BDs out of 8 BDs (120..127) assigned to RX (wrap at 8th BD - RX BD 127)");
|
|
$display(" ->packets with lengths from %0d to %0d are checked (length increasing by 1 byte)",
|
|
70, 77);
|
|
end
|
// set length (loop variable)
|
// set length (loop variable)
|
i_length = i_length + 1;
|
i_length = i_length + 1;
|
// the number of frame transmitted
|
// the number of frame transmitted
|
num_of_frames = num_of_frames + 1;
|
num_of_frames = num_of_frames + 1;
|
if (/*(num_of_frames == 2) || (num_of_frames == 4) || (num_of_frames == 7) ||*/ (num_of_frames <= 10) ||
|
if (/*(num_of_frames == 2) || (num_of_frames == 4) || (num_of_frames == 7) ||*/ (num_of_frames <= 10) ||
|
(num_of_frames == 14) || (num_of_frames == 18) || (num_of_frames == 23) || (num_of_frames == 28) ||
|
(num_of_frames == 14) || (num_of_frames == 18) || (num_of_frames == 23) || (num_of_frames == 28) ||
|
(num_of_frames == 34) || (num_of_frames == 40) || (num_of_frames == 47) ||
|
(num_of_frames == 34) || (num_of_frames == 40) || (num_of_frames == 47) ||
|
(num_of_frames == 54) || (num_of_frames == 62))
|
(num_of_frames == 54) || (num_of_frames == 62) || (num_of_frames == 70))
|
num_of_bd = 0;
|
num_of_bd = 120;
|
else
|
else
|
num_of_bd = num_of_bd + 1;
|
num_of_bd = num_of_bd + 1;
|
end
|
end
|
// disable TX
|
// disable RX
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_PAD | `ETH_MODER_CRCEN,
|
wbm_write(`ETH_MODER, `ETH_MODER_FULLD | `ETH_MODER_PAD | `ETH_MODER_CRCEN,
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
4'hF, 1, wbm_init_waits, wbm_subseq_waits);
|
@(posedge wb_clk);
|
@(posedge wb_clk);
|
if(fail == 0)
|
if(fail == 0)
|
test_ok;
|
test_ok;
|
else
|
else
|
fail = 0;
|
fail = 0;
|
end
|
end
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
|
//// ////
|
|
//// Test receive packet synchronization with receive ////
|
|
//// disable/enable ( 10Mbps ). ////
|
|
//// ////
|
|
////////////////////////////////////////////////////////////////////
|
|
if (test_num == 10) // Test no receive when all buffers are TX ( 10Mbps ).
|
|
begin
|
|
// TEST 10: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )
|
|
test_name = "TEST 10: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )";
|
|
`TIME; $display(" TEST 10: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )");
|
|
|
|
|
|
|
|
|
|
|
|
|
|
end
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
|
//// ////
|
|
//// Test receive packet synchronization with receive ////
|
|
//// disable/enable ( 10Mbps ). ////
|
|
//// ////
|
|
////////////////////////////////////////////////////////////////////
|
|
if (test_num == 12) // Test no receive when all buffers are TX ( 10Mbps ).
|
|
begin
|
|
// TEST 12: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )
|
|
test_name = "TEST 12: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )";
|
|
`TIME; $display(" TEST 12: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )");
|
|
|
|
|
|
|
|
|
|
|
|
|
|
end
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
|
//// ////
|
|
//// Test receive packet synchronization with receive ////
|
|
//// disable/enable ( 10Mbps ). ////
|
|
//// ////
|
|
////////////////////////////////////////////////////////////////////
|
|
if (test_num == 14) // Test no receive when all buffers are TX ( 10Mbps ).
|
|
begin
|
|
// TEST 14: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )
|
|
test_name = "TEST 14: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )";
|
|
`TIME; $display(" TEST 14: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )");
|
|
|
|
|
|
|
|
|
|
|
|
|
|
end
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////
|
|
//// ////
|
|
//// Test receive packet synchronization with receive ////
|
|
//// disable/enable ( 10Mbps ). ////
|
|
//// ////
|
|
////////////////////////////////////////////////////////////////////
|
|
if (test_num == 16) // Test no receive when all buffers are TX ( 10Mbps ).
|
|
begin
|
|
// TEST 16: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )
|
|
test_name = "TEST 16: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )";
|
|
`TIME; $display(" TEST 16: RECEIVE PACKET SYNCHRONIZATION WITH RECEIVE DISABLE/ENABLE ( 10Mbps )");
|
|
|
|
|
|
|
|
|
|
|
|
|
|
end
|
|
|
|
|
|
|
end // for (test_num=start_task; test_num <= end_task; test_num=test_num+1)
|
end // for (test_num=start_task; test_num <= end_task; test_num=test_num+1)
|
|
|
end
|
end
|
endtask // test_mac_full_duplex_receive
|
endtask // test_mac_full_duplex_receive
|
Line 13370... |
Line 14771... |
eth_phy.rx_mem[buffer] = {4'h0, 4'hD /*sd[3:0]*/};
|
eth_phy.rx_mem[buffer] = {4'h0, 4'hD /*sd[3:0]*/};
|
delta_t = !delta_t;
|
delta_t = !delta_t;
|
end
|
end
|
endtask // set_rx_packet
|
endtask // set_rx_packet
|
|
|
|
task set_rx_addr_type;
|
|
input [31:0] rxpnt;
|
|
input [47:0] eth_dest_addr;
|
|
input [47:0] eth_source_addr;
|
|
input [15:0] eth_type_len;
|
|
integer i;
|
|
reg [47:0] dest_addr;
|
|
reg [47:0] source_addr;
|
|
reg [15:0] type_len;
|
|
reg [21:0] buffer;
|
|
reg delta_t;
|
|
begin
|
|
buffer = rxpnt[21:0];
|
|
dest_addr = eth_dest_addr;
|
|
source_addr = eth_source_addr;
|
|
type_len = eth_type_len;
|
|
delta_t = 0;
|
|
for(i = 0; i < 14; i = i + 1)
|
|
begin
|
|
if (i < 6)
|
|
begin
|
|
eth_phy.rx_mem[buffer] = dest_addr[47:40];
|
|
dest_addr = dest_addr << 8;
|
|
end
|
|
else if (i < 12)
|
|
begin
|
|
eth_phy.rx_mem[buffer] = source_addr[47:40];
|
|
source_addr = source_addr << 8;
|
|
end
|
|
else // if (i < 14)
|
|
begin
|
|
eth_phy.rx_mem[buffer] = type_len[15:8];
|
|
type_len = type_len << 8;
|
|
end
|
|
buffer = buffer + 1;
|
|
end
|
|
delta_t = !delta_t;
|
|
end
|
|
endtask // set_rx_addr_type
|
|
|
task check_rx_packet;
|
task check_rx_packet;
|
input [31:0] rxpnt_phy; // source
|
input [31:0] rxpnt_phy; // source
|
input [31:0] rxpnt_wb; // destination
|
input [31:0] rxpnt_wb; // destination
|
input [15:0] len;
|
input [15:0] len;
|
input plus_dribble_nibble; // if length is longer for one nibble
|
input plus_dribble_nibble; // if length is longer for one nibble
|
Line 13400... |
Line 14841... |
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + 2];
|
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + 2];
|
i = 3;
|
i = 3;
|
if (data_phy[23:0] !== data_wb[23:0])
|
if (data_phy[23:0] !== data_wb[23:0])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong 1. word (3 bytes) of TX packet!");
|
$display(" addr_phy = %h, addr_wb = %h", rxpnt_phy, rxpnt_wb);
|
|
$display("*E Wrong 1. word (3 bytes) of RX packet! phy = %h, wb = %h", data_phy[23:0], data_wb[23:0]);
|
failure = 1;
|
failure = 1;
|
end
|
end
|
end
|
end
|
else if (addr_wb[1:0] == 2)
|
else if (addr_wb[1:0] == 2)
|
begin
|
begin
|
Line 13414... |
Line 14856... |
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + 1];
|
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + 1];
|
i = 2;
|
i = 2;
|
if (data_phy[15:0] !== data_wb[15:0])
|
if (data_phy[15:0] !== data_wb[15:0])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong 1. word (2 bytes) of TX packet!");
|
$display(" addr_phy = %h, addr_wb = %h", rxpnt_phy, rxpnt_wb);
|
|
$display("*E Wrong 1. word (2 bytes) of RX packet! phy = %h, wb = %h", data_phy[15:0], data_wb[15:0]);
|
failure = 1;
|
failure = 1;
|
end
|
end
|
end
|
end
|
else if (addr_wb[1:0] == 3)
|
else if (addr_wb[1:0] == 3)
|
begin
|
begin
|
Line 13427... |
Line 14870... |
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0]];
|
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0]];
|
i = 1;
|
i = 1;
|
if (data_phy[7:0] !== data_wb[7:0])
|
if (data_phy[7:0] !== data_wb[7:0])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong 1. word (1 byte) of TX packet!");
|
$display(" addr_phy = %h, addr_wb = %h", rxpnt_phy, rxpnt_wb);
|
|
$display("*E Wrong 1. word (1 byte) of RX packet! phy = %h, wb = %h", data_phy[7:0], data_wb[7:0]);
|
failure = 1;
|
failure = 1;
|
end
|
end
|
end
|
end
|
else
|
else
|
i = 0;
|
i = 0;
|
Line 13445... |
Line 14889... |
data_phy[15: 8] = eth_phy.rx_mem[addr_phy[21:0] + i + 2];
|
data_phy[15: 8] = eth_phy.rx_mem[addr_phy[21:0] + i + 2];
|
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + i + 3];
|
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + i + 3];
|
if (data_phy[31:0] !== data_wb[31:0])
|
if (data_phy[31:0] !== data_wb[31:0])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong %d. word (4 bytes) of TX packet!", ((i/4)+1));
|
if (i == 0)
|
|
$display(" addr_phy = %h, addr_wb = %h", rxpnt_phy, rxpnt_wb);
|
|
$display("*E Wrong %0d. word (4 bytes) of RX packet! phy = %h, wb = %h", ((i/4)+1), data_phy[31:0], data_wb[31:0]);
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
delta_t = !delta_t;
|
delta_t = !delta_t;
|
|
|
Line 13465... |
Line 14911... |
else
|
else
|
data_phy[ 7: 0] = 0;
|
data_phy[ 7: 0] = 0;
|
if (data_phy[31:8] !== data_wb[31:8])
|
if (data_phy[31:8] !== data_wb[31:8])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong %d. word (3 bytes) of TX packet!", ((i/4)+1));
|
$display("*E Wrong %0d. word (3 bytes) of RX packet! phy = %h, wb = %h", ((i/4)+1), data_phy[31:8], data_wb[31:8]);
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
if (plus_dribble_nibble && successful_dribble_nibble)
|
if (plus_dribble_nibble && successful_dribble_nibble)
|
begin
|
begin
|
if (data_phy[3:0] !== data_wb[3:0])
|
if (data_phy[3:0] !== data_wb[3:0])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (3 bytes) of TX packet!", ((i/4)+1));
|
$display("*E Wrong dribble nibble in %0d. word (3 bytes) of RX packet!", ((i/4)+1));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
else if (plus_dribble_nibble && !successful_dribble_nibble)
|
else if (plus_dribble_nibble && !successful_dribble_nibble)
|
begin
|
begin
|
if (data_phy[3:0] === data_wb[3:0])
|
if (data_phy[3:0] === data_wb[3:0])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (3 bytes) of TX packet!", ((i/4)+1));
|
$display("*E Wrong dribble nibble in %0d. word (3 bytes) of RX packet!", ((i/4)+1));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
end
|
end
|
else if((len - i) == 2)
|
else if((len - i) == 2)
|
Line 13500... |
Line 14946... |
data_phy[15: 8] = 0;
|
data_phy[15: 8] = 0;
|
data_phy[ 7: 0] = 0;
|
data_phy[ 7: 0] = 0;
|
if (data_phy[31:16] !== data_wb[31:16])
|
if (data_phy[31:16] !== data_wb[31:16])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong %d. word (2 bytes) of TX packet!", ((i/4)+1));
|
$display("*E Wrong %0d. word (2 bytes) of RX packet! phy = %h, wb = %h", ((i/4)+1), data_phy[31:16], data_wb[31:16]);
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
if (plus_dribble_nibble && successful_dribble_nibble)
|
if (plus_dribble_nibble && successful_dribble_nibble)
|
begin
|
begin
|
if (data_phy[11:8] !== data_wb[11:8])
|
if (data_phy[11:8] !== data_wb[11:8])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (2 bytes) of TX packet!", ((i/4)+1));
|
$display("*E Wrong dribble nibble in %0d. word (2 bytes) of RX packet!", ((i/4)+1));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
else if (plus_dribble_nibble && !successful_dribble_nibble)
|
else if (plus_dribble_nibble && !successful_dribble_nibble)
|
begin
|
begin
|
if (data_phy[11:8] === data_wb[11:8])
|
if (data_phy[11:8] === data_wb[11:8])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (2 bytes) of TX packet!", ((i/4)+1));
|
$display("*E Wrong dribble nibble in %0d. word (2 bytes) of RX packet!", ((i/4)+1));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
end
|
end
|
else if((len - i) == 1)
|
else if((len - i) == 1)
|
Line 13535... |
Line 14981... |
data_phy[15: 8] = 0;
|
data_phy[15: 8] = 0;
|
data_phy[ 7: 0] = 0;
|
data_phy[ 7: 0] = 0;
|
if (data_phy[31:24] !== data_wb[31:24])
|
if (data_phy[31:24] !== data_wb[31:24])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong %d. word (1 byte) of TX packet!", ((i/4)+1));
|
$display("*E Wrong %0d. word (1 byte) of RX packet! phy = %h, wb = %h", ((i/4)+1), data_phy[31:24], data_wb[31:24]);
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
if (plus_dribble_nibble && successful_dribble_nibble)
|
if (plus_dribble_nibble && successful_dribble_nibble)
|
begin
|
begin
|
if (data_phy[19:16] !== data_wb[19:16])
|
if (data_phy[19:16] !== data_wb[19:16])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (1 byte) of TX packet!", ((i/4)+1));
|
$display("*E Wrong dribble nibble in %0d. word (1 byte) of RX packet!", ((i/4)+1));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
else if (plus_dribble_nibble && !successful_dribble_nibble)
|
else if (plus_dribble_nibble && !successful_dribble_nibble)
|
begin
|
begin
|
if (data_phy[19:16] === data_wb[19:16])
|
if (data_phy[19:16] === data_wb[19:16])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (1 byte) of TX packet!", ((i/4)+1));
|
$display("*E Wrong dribble nibble in %0d. word (1 byte) of RX packet!", ((i/4)+1));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
end
|
end
|
else if((len - i) == 4)
|
else if((len - i) == 4)
|
Line 13567... |
Line 15013... |
data_phy[15: 8] = eth_phy.rx_mem[addr_phy[21:0] + i + 2];
|
data_phy[15: 8] = eth_phy.rx_mem[addr_phy[21:0] + i + 2];
|
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + i + 3];
|
data_phy[ 7: 0] = eth_phy.rx_mem[addr_phy[21:0] + i + 3];
|
if (data_phy[31:0] !== data_wb[31:0])
|
if (data_phy[31:0] !== data_wb[31:0])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong %d. word (4 bytes) of TX packet!", ((i/4)+1));
|
$display("*E Wrong %0d. word (4 bytes) of RX packet! phy = %h, wb = %h", ((i/4)+1), data_phy[31:0], data_wb[31:0]);
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
if (plus_dribble_nibble)
|
if (plus_dribble_nibble)
|
begin
|
begin
|
wb_slave.rd_mem(addr_wb + i + 4, data_wb, 4'h8);
|
wb_slave.rd_mem(addr_wb + i + 4, data_wb, 4'h8);
|
Line 13579... |
Line 15025... |
if (successful_dribble_nibble)
|
if (successful_dribble_nibble)
|
begin
|
begin
|
if (data_phy[27:24] !== data_wb[27:24])
|
if (data_phy[27:24] !== data_wb[27:24])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (0 bytes) of TX packet!", ((i/4)+2));
|
$display("*E Wrong dribble nibble in %0d. word (0 bytes) of RX packet!", ((i/4)+2));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
else
|
else
|
begin
|
begin
|
if (data_phy[27:24] === data_wb[27:24])
|
if (data_phy[27:24] === data_wb[27:24])
|
begin
|
begin
|
`TIME;
|
`TIME;
|
$display("*E Wrong dribble nibble in %d. word (0 bytes) of TX packet!", ((i/4)+2));
|
$display("*E Wrong dribble nibble in %0d. word (0 bytes) of RX packet!", ((i/4)+2));
|
failure = failure + 1;
|
failure = failure + 1;
|
end
|
end
|
end
|
end
|
end
|
end
|
end
|
end
|
Line 13612... |
Line 15058... |
input negated_crc; // if appended CRC is correct or not
|
input negated_crc; // if appended CRC is correct or not
|
reg [31:0] crc;
|
reg [31:0] crc;
|
reg [31:0] addr_wb;
|
reg [31:0] addr_wb;
|
reg delta_t;
|
reg delta_t;
|
begin
|
begin
|
addr_wb = txpnt_wb + len;
|
addr_wb = txpnt_wb + {16'h0, len};
|
delta_t = 0;
|
delta_t = 0;
|
// calculate CRC from prepared packet
|
// calculate CRC from prepared packet
|
paralel_crc_mac(txpnt_wb, {16'h0, len}, 1'b0, crc);
|
paralel_crc_mac(txpnt_wb, {16'h0, len}, 1'b0, crc);
|
if (negated_crc)
|
if (negated_crc)
|
crc = ~crc;
|
crc = ~crc;
|
Line 14607... |
Line 16053... |
delta_t = !delta_t;
|
delta_t = !delta_t;
|
end
|
end
|
end
|
end
|
endtask // clear_memories
|
endtask // clear_memories
|
|
|
|
task clear_buffer_descriptors;
|
|
reg [8:0] adr_i;
|
|
reg delta_t;
|
|
begin
|
|
delta_t = 0;
|
|
for (adr_i = 0; adr_i < 256; adr_i = adr_i + 1)
|
|
begin
|
|
wbm_write((`TX_BD_BASE + {adr_i[7:0], 2'b0}), 32'h0, 4'hF, 1, 4'h1, 4'h1);
|
|
delta_t = !delta_t;
|
|
end
|
|
end
|
|
endtask // clear_buffer_descriptors
|
|
|
task test_note;
|
task test_note;
|
input [799:0] test_note ;
|
input [799:0] test_note ;
|
reg [799:0] display_note ;
|
reg [799:0] display_note ;
|
begin
|
begin
|
display_note = test_note;
|
display_note = test_note;
|