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eth: Support 32-bit sync gearbox in 10G MAC

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Signed-off-by: Alex Forencich <alex@alexforencich.com>
This commit is contained in:
Alex Forencich
2025-06-15 13:11:26 -07:00
parent ab09ceb891
commit 6407b4c7f0
9 changed files with 498 additions and 431 deletions
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399
src/eth/rtl/taxi_axis_xgmii_rx_32.sv
View File

@@ -19,6 +19,7 @@ module taxi_axis_xgmii_rx_32 #
(
parameter DATA_W = 32,
parameter CTRL_W = (DATA_W/8),
parameter logic GBX_IF_EN = 1'b0,
parameter logic PTP_TS_EN = 1'b0,
parameter PTP_TS_W = 96
)
@@ -31,6 +32,7 @@ module taxi_axis_xgmii_rx_32 #
*/
input wire logic [DATA_W-1:0] xgmii_rxd,
input wire logic [CTRL_W-1:0] xgmii_rxc,
input wire logic xgmii_rx_valid,
/*
* Receive interface (AXI stream)
@@ -257,207 +259,212 @@ always_comb begin
stat_rx_err_framing_next = 1'b0;
stat_rx_err_preamble_next = 1'b0;
// counter to measure frame length
if (&frame_len_reg[15:2] == 0) begin
if (term_present_reg) begin
frame_len_next = frame_len_reg + 16'(term_lane_reg);
if (GBX_IF_EN && !xgmii_rx_valid) begin
// XGMII data not valid - hold state
state_next = state_reg;
end else begin
// counter to measure frame length
if (&frame_len_reg[15:2] == 0) begin
if (term_present_reg) begin
frame_len_next = frame_len_reg + 16'(term_lane_reg);
end else begin
frame_len_next = frame_len_reg + 16'(CTRL_W);
end
end else begin
frame_len_next = frame_len_reg + 16'(CTRL_W);
frame_len_next = '1;
end
end else begin
frame_len_next = '1;
end
// counter for max frame length enforcement
if (frame_len_lim_reg[15:2] != 0) begin
frame_len_lim_next = frame_len_lim_reg - 16'(CTRL_W);
end else begin
frame_len_lim_next = '0;
end
// address and ethertype checks
if (&hdr_ptr_reg == 0) begin
hdr_ptr_next = hdr_ptr_reg + 1;
end
case (hdr_ptr_reg)
3'd0: begin
is_mcast_next = xgmii_rxd_d2[0];
is_bcast_next = &xgmii_rxd_d2;
// counter for max frame length enforcement
if (frame_len_lim_reg[15:2] != 0) begin
frame_len_lim_next = frame_len_lim_reg - 16'(CTRL_W);
end else begin
frame_len_lim_next = '0;
end
3'd1: is_bcast_next = is_bcast_reg && &xgmii_rxd_d2[15:0];
3'd3: is_8021q_next = {xgmii_rxd_d2[7:0], xgmii_rxd_d2[15:8]} == 16'h8100;
default: begin
// do nothing
// address and ethertype checks
if (&hdr_ptr_reg == 0) begin
hdr_ptr_next = hdr_ptr_reg + 1;
end
endcase
case (state_reg)
STATE_IDLE: begin
// idle state - wait for packet
reset_crc = 1'b1;
case (hdr_ptr_reg)
3'd0: begin
is_mcast_next = xgmii_rxd_d2[0];
is_bcast_next = &xgmii_rxd_d2;
end
3'd1: is_bcast_next = is_bcast_reg && &xgmii_rxd_d2[15:0];
3'd3: is_8021q_next = {xgmii_rxd_d2[7:0], xgmii_rxd_d2[15:8]} == 16'h8100;
default: begin
// do nothing
end
endcase
frame_len_next = 16'(CTRL_W);
frame_len_lim_next = cfg_rx_max_pkt_len;
hdr_ptr_next = 0;
case (state_reg)
STATE_IDLE: begin
// idle state - wait for packet
reset_crc = 1'b1;
pre_ok_next = xgmii_rxd_d2[31:8] == 24'h555555;
frame_len_next = 16'(CTRL_W);
frame_len_lim_next = cfg_rx_max_pkt_len;
hdr_ptr_next = 0;
pre_ok_next = xgmii_rxd_d2[31:8] == 24'h555555;
if (xgmii_start_d2 && cfg_rx_enable) begin
// start condition
if (framing_error_reg) begin
// control or error characters in first data word
stat_rx_err_framing_next = 1'b1;
state_next = STATE_IDLE;
end else begin
reset_crc = 1'b0;
stat_rx_byte_next = 3'(CTRL_W);
state_next = STATE_PREAMBLE;
end
end else begin
if (PTP_TS_EN) begin
ptp_ts_out_next = ptp_ts;
end
state_next = STATE_IDLE;
end
end
STATE_PREAMBLE: begin
// drop preamble
frame_len_lim_next = cfg_rx_max_pkt_len;
hdr_ptr_next = 0;
pre_ok_next = pre_ok_reg && xgmii_rxd_d2 == 32'hD5555555;
if (xgmii_start_d2 && cfg_rx_enable) begin
// start condition
if (framing_error_reg) begin
// control or error characters in first data word
// control or error characters in packet
stat_rx_err_framing_next = 1'b1;
state_next = STATE_IDLE;
end else begin
reset_crc = 1'b0;
start_packet_next = 1'b1;
stat_rx_byte_next = 3'(CTRL_W);
state_next = STATE_PREAMBLE;
state_next = STATE_PAYLOAD;
end
end else begin
if (PTP_TS_EN) begin
ptp_ts_out_next = ptp_ts;
end
STATE_PAYLOAD: begin
// read payload
m_axis_rx_tdata_next = xgmii_rxd_d2;
m_axis_rx_tkeep_next = {KEEP_W{1'b1}};
m_axis_rx_tvalid_next = 1'b1;
m_axis_rx_tlast_next = 1'b0;
m_axis_rx_tuser_next = 1'b0;
if (term_present_reg) begin
stat_rx_byte_next = 3'(term_lane_reg);
frame_oversize_next = frame_len_lim_reg < 16'(4+4+term_lane_reg);
end else begin
stat_rx_byte_next = 3'(CTRL_W);
frame_oversize_next = frame_len_lim_reg < 4+4;
end
state_next = STATE_IDLE;
end
end
STATE_PREAMBLE: begin
// drop preamble
frame_len_lim_next = cfg_rx_max_pkt_len;
hdr_ptr_next = 0;
pre_ok_next = pre_ok_reg && xgmii_rxd_d2 == 32'hD5555555;
if (framing_error_reg) begin
// control or error characters in packet
stat_rx_err_framing_next = 1'b1;
state_next = STATE_IDLE;
end else begin
start_packet_next = 1'b1;
stat_rx_byte_next = 3'(CTRL_W);
state_next = STATE_PAYLOAD;
end
end
STATE_PAYLOAD: begin
// read payload
m_axis_rx_tdata_next = xgmii_rxd_d2;
m_axis_rx_tkeep_next = {KEEP_W{1'b1}};
m_axis_rx_tvalid_next = 1'b1;
m_axis_rx_tlast_next = 1'b0;
m_axis_rx_tuser_next = 1'b0;
if (term_present_reg) begin
stat_rx_byte_next = 3'(term_lane_reg);
frame_oversize_next = frame_len_lim_reg < 16'(4+4+term_lane_reg);
end else begin
stat_rx_byte_next = 3'(CTRL_W);
frame_oversize_next = frame_len_lim_reg < 4+4;
end
if (framing_error_reg) begin
// control or error characters in packet
m_axis_rx_tlast_next = 1'b1;
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_bad_next = 1'b1;
stat_rx_pkt_len_next = frame_len_next;
stat_rx_pkt_ucast_next = !is_mcast_reg;
stat_rx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_rx_pkt_bcast_next = is_bcast_reg;
stat_rx_pkt_vlan_next = is_8021q_reg;
stat_rx_err_oversize_next = frame_oversize_next;
stat_rx_err_framing_next = 1'b1;
stat_rx_err_preamble_next = !pre_ok_reg;
stat_rx_pkt_fragment_next = frame_len_next[15:6] == 0;
stat_rx_pkt_jabber_next = frame_oversize_next;
reset_crc = 1'b1;
state_next = STATE_IDLE;
end else if (term_present_reg) begin
reset_crc = 1'b1;
if (term_lane_reg == 0) begin
// end this cycle
m_axis_rx_tkeep_next = 4'b1111;
if (framing_error_reg) begin
// control or error characters in packet
m_axis_rx_tlast_next = 1'b1;
if (term_lane_reg == 0 && crc_valid_save[3]) begin
// CRC valid
if (frame_oversize_next) begin
// too long
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_bad_next = 1'b1;
end else begin
// length OK
m_axis_rx_tuser_next = 1'b0;
stat_rx_pkt_good_next = 1'b1;
end
end else begin
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_fragment_next = frame_len_next[15:6] == 0;
stat_rx_pkt_jabber_next = frame_oversize_next;
stat_rx_pkt_bad_next = 1'b1;
stat_rx_err_bad_fcs_next = 1'b1;
end
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_bad_next = 1'b1;
stat_rx_pkt_len_next = frame_len_next;
stat_rx_pkt_ucast_next = !is_mcast_reg;
stat_rx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_rx_pkt_bcast_next = is_bcast_reg;
stat_rx_pkt_vlan_next = is_8021q_reg;
stat_rx_err_oversize_next = frame_oversize_next;
stat_rx_err_framing_next = 1'b1;
stat_rx_err_preamble_next = !pre_ok_reg;
stat_rx_pkt_fragment_next = frame_len_next[15:6] == 0;
stat_rx_pkt_jabber_next = frame_oversize_next;
reset_crc = 1'b1;
state_next = STATE_IDLE;
end else if (term_present_reg) begin
reset_crc = 1'b1;
if (term_lane_reg == 0) begin
// end this cycle
m_axis_rx_tkeep_next = 4'b1111;
m_axis_rx_tlast_next = 1'b1;
if (term_lane_reg == 0 && crc_valid_save[3]) begin
// CRC valid
if (frame_oversize_next) begin
// too long
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_bad_next = 1'b1;
end else begin
// length OK
m_axis_rx_tuser_next = 1'b0;
stat_rx_pkt_good_next = 1'b1;
end
end else begin
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_fragment_next = frame_len_next[15:6] == 0;
stat_rx_pkt_jabber_next = frame_oversize_next;
stat_rx_pkt_bad_next = 1'b1;
stat_rx_err_bad_fcs_next = 1'b1;
end
stat_rx_pkt_len_next = frame_len_next;
stat_rx_pkt_ucast_next = !is_mcast_reg;
stat_rx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_rx_pkt_bcast_next = is_bcast_reg;
stat_rx_pkt_vlan_next = is_8021q_reg;
stat_rx_err_oversize_next = frame_oversize_next;
stat_rx_err_preamble_next = !pre_ok_reg;
state_next = STATE_IDLE;
end else begin
// need extra cycle
state_next = STATE_LAST;
end
end else begin
// need extra cycle
state_next = STATE_LAST;
state_next = STATE_PAYLOAD;
end
end else begin
state_next = STATE_PAYLOAD;
end
end
STATE_LAST: begin
// last cycle of packet
m_axis_rx_tdata_next = xgmii_rxd_d2;
m_axis_rx_tkeep_next = {KEEP_W{1'b1}} >> 2'(CTRL_W-term_lane_d0_reg);
m_axis_rx_tvalid_next = 1'b1;
m_axis_rx_tlast_next = 1'b1;
m_axis_rx_tuser_next = 1'b0;
STATE_LAST: begin
// last cycle of packet
m_axis_rx_tdata_next = xgmii_rxd_d2;
m_axis_rx_tkeep_next = {KEEP_W{1'b1}} >> 2'(CTRL_W-term_lane_d0_reg);
m_axis_rx_tvalid_next = 1'b1;
m_axis_rx_tlast_next = 1'b1;
m_axis_rx_tuser_next = 1'b0;
reset_crc = 1'b1;
reset_crc = 1'b1;
if ((term_lane_d0_reg == 1 && crc_valid_save[0]) ||
(term_lane_d0_reg == 2 && crc_valid_save[1]) ||
(term_lane_d0_reg == 3 && crc_valid_save[2])) begin
// CRC valid
if (frame_oversize_reg) begin
// too long
if ((term_lane_d0_reg == 1 && crc_valid_save[0]) ||
(term_lane_d0_reg == 2 && crc_valid_save[1]) ||
(term_lane_d0_reg == 3 && crc_valid_save[2])) begin
// CRC valid
if (frame_oversize_reg) begin
// too long
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_bad_next = 1'b1;
end else begin
// length OK
m_axis_rx_tuser_next = 1'b0;
stat_rx_pkt_good_next = 1'b1;
end
end else begin
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_fragment_next = frame_len_reg[15:6] == 0;
stat_rx_pkt_jabber_next = frame_oversize_reg;
stat_rx_pkt_bad_next = 1'b1;
end else begin
// length OK
m_axis_rx_tuser_next = 1'b0;
stat_rx_pkt_good_next = 1'b1;
stat_rx_err_bad_fcs_next = 1'b1;
end
end else begin
m_axis_rx_tuser_next = 1'b1;
stat_rx_pkt_fragment_next = frame_len_reg[15:6] == 0;
stat_rx_pkt_jabber_next = frame_oversize_reg;
stat_rx_pkt_bad_next = 1'b1;
stat_rx_err_bad_fcs_next = 1'b1;
stat_rx_pkt_len_next = frame_len_reg;
stat_rx_pkt_ucast_next = !is_mcast_reg;
stat_rx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_rx_pkt_bcast_next = is_bcast_reg;
stat_rx_pkt_vlan_next = is_8021q_reg;
stat_rx_err_oversize_next = frame_oversize_reg;
stat_rx_err_preamble_next = !pre_ok_reg;
state_next = STATE_IDLE;
end
stat_rx_pkt_len_next = frame_len_reg;
stat_rx_pkt_ucast_next = !is_mcast_reg;
stat_rx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_rx_pkt_bcast_next = is_bcast_reg;
stat_rx_pkt_vlan_next = is_8021q_reg;
stat_rx_err_oversize_next = frame_oversize_reg;
stat_rx_err_preamble_next = !pre_ok_reg;
state_next = STATE_IDLE;
end
default: begin
// invalid state, return to idle
state_next = STATE_IDLE;
end
endcase
default: begin
// invalid state, return to idle
state_next = STATE_IDLE;
end
endcase
end
end
always_ff @(posedge clk) begin
@@ -498,39 +505,41 @@ always_ff @(posedge clk) begin
stat_rx_err_framing_reg <= stat_rx_err_framing_next;
stat_rx_err_preamble_reg <= stat_rx_err_preamble_next;
term_lane_reg <= 0;
term_present_reg <= 1'b0;
framing_error_reg <= xgmii_rxc != 0;
if (!GBX_IF_EN || xgmii_rx_valid) begin
term_lane_reg <= 0;
term_present_reg <= 1'b0;
framing_error_reg <= xgmii_rxc != 0;
for (integer i = CTRL_W-1; i >= 0; i = i - 1) begin
if (xgmii_rxc[i] && (xgmii_rxd[i*8 +: 8] == XGMII_TERM)) begin
term_lane_reg <= 2'(i);
term_present_reg <= 1'b1;
framing_error_reg <= (xgmii_rxc & ({CTRL_W{1'b1}} >> (CTRL_W-i))) != 0;
for (integer i = CTRL_W-1; i >= 0; i = i - 1) begin
if (xgmii_rxc[i] && (xgmii_rxd[i*8 +: 8] == XGMII_TERM)) begin
term_lane_reg <= 2'(i);
term_present_reg <= 1'b1;
framing_error_reg <= (xgmii_rxc & ({CTRL_W{1'b1}} >> (CTRL_W-i))) != 0;
end
end
term_lane_d0_reg <= term_lane_reg;
if (reset_crc) begin
crc_state <= '1;
end else begin
crc_state <= crc_next;
end
crc_valid_save <= crc_valid;
for (integer i = 0; i < CTRL_W; i = i + 1) begin
xgmii_rxd_d0[i*8 +: 8] <= xgmii_rxc[i] ? 8'd0 : xgmii_rxd[i*8 +: 8];
end
xgmii_rxc_d0 <= xgmii_rxc;
xgmii_rxd_d1 <= xgmii_rxd_d0;
xgmii_rxd_d2 <= xgmii_rxd_d1;
xgmii_start_d0 <= xgmii_rxc[0] && xgmii_rxd[7:0] == XGMII_START;
xgmii_start_d1 <= xgmii_start_d0;
xgmii_start_d2 <= xgmii_start_d1;
end
term_lane_d0_reg <= term_lane_reg;
if (reset_crc) begin
crc_state <= '1;
end else begin
crc_state <= crc_next;
end
crc_valid_save <= crc_valid;
for (integer i = 0; i < CTRL_W; i = i + 1) begin
xgmii_rxd_d0[i*8 +: 8] <= xgmii_rxc[i] ? 8'd0 : xgmii_rxd[i*8 +: 8];
end
xgmii_rxc_d0 <= xgmii_rxc;
xgmii_rxd_d1 <= xgmii_rxd_d0;
xgmii_rxd_d2 <= xgmii_rxd_d1;
xgmii_start_d0 <= xgmii_rxc[0] && xgmii_rxd[7:0] == XGMII_START;
xgmii_start_d1 <= xgmii_start_d0;
xgmii_start_d2 <= xgmii_start_d1;
if (rst) begin
state_reg <= STATE_IDLE;

498
src/eth/rtl/taxi_axis_xgmii_tx_32.sv
View File

@@ -19,6 +19,8 @@ module taxi_axis_xgmii_tx_32 #
(
parameter DATA_W = 32,
parameter CTRL_W = (DATA_W/8),
parameter logic GBX_IF_EN = 1'b0,
parameter GBX_CNT = 1,
parameter logic PADDING_EN = 1'b1,
parameter logic DIC_EN = 1'b1,
parameter MIN_FRAME_LEN = 64,
@@ -41,6 +43,10 @@ module taxi_axis_xgmii_tx_32 #
*/
output wire logic [DATA_W-1:0] xgmii_txd,
output wire logic [CTRL_W-1:0] xgmii_txc,
output wire logic xgmii_tx_valid,
input wire logic [GBX_CNT-1:0] tx_gbx_req_sync = '0,
input wire logic tx_gbx_req_stall = '0,
output wire logic [GBX_CNT-1:0] tx_gbx_sync,
/*
* PTP
@@ -157,6 +163,8 @@ wire [31:0] crc_state_next[3:0];
logic [DATA_W-1:0] xgmii_txd_reg = {CTRL_W{XGMII_IDLE}}, xgmii_txd_next;
logic [CTRL_W-1:0] xgmii_txc_reg = {CTRL_W{1'b1}}, xgmii_txc_next;
logic xgmii_tx_valid_reg = 1'b0;
logic [GBX_CNT-1:0] tx_gbx_sync_reg = '0;
logic start_packet_reg = 1'b0, start_packet_next;
@@ -172,10 +180,12 @@ logic stat_tx_err_oversize_reg = 1'b0, stat_tx_err_oversize_next;
logic stat_tx_err_user_reg = 1'b0, stat_tx_err_user_next;
logic stat_tx_err_underflow_reg = 1'b0, stat_tx_err_underflow_next;
assign s_axis_tx.tready = s_axis_tx_tready_reg;
assign s_axis_tx.tready = s_axis_tx_tready_reg && (!GBX_IF_EN || !tx_gbx_req_stall);
assign xgmii_txd = xgmii_txd_reg;
assign xgmii_txc = xgmii_txc_reg;
assign xgmii_tx_valid = GBX_IF_EN ? xgmii_tx_valid_reg : 1'b1;
assign tx_gbx_sync = GBX_IF_EN ? tx_gbx_sync_reg : '0;
assign m_axis_tx_cpl.tdata = PTP_TS_EN ? m_axis_tx_cpl_ts_reg : '0;
assign m_axis_tx_cpl.tkeep = 1'b1;
@@ -340,192 +350,216 @@ always_comb begin
frame_next = !s_axis_tx.tlast;
end
// counter for min frame length enforcement
if (frame_min_count_reg > MIN_LEN_W'(CTRL_W)) begin
frame_min_count_next = MIN_LEN_W'(frame_min_count_reg - CTRL_W);
if (GBX_IF_EN && tx_gbx_req_stall) begin
// gearbox stall - hold state
state_next = state_reg;
// frame_start_next = frame_start_reg;
s_axis_tx_tready_next = s_axis_tx_tready_reg;
end else begin
frame_min_count_next = 0;
end
// counter to measure frame length
if (&frame_len_reg[15:2] == 0) begin
frame_len_next = frame_len_reg + 16'(CTRL_W);
end else begin
frame_len_next = '1;
end
// counter for max frame length enforcement
if (frame_len_lim_reg[15:2] != 0) begin
frame_len_lim_next = frame_len_lim_reg - 16'(CTRL_W);
end else begin
frame_len_lim_next = '0;
end
// address and ethertype checks
if (&hdr_ptr_reg == 0) begin
hdr_ptr_next = hdr_ptr_reg + 1;
end
case (hdr_ptr_reg)
3'd0: begin
is_mcast_next = s_tdata_reg[0];
is_bcast_next = &s_tdata_reg;
// counter for min frame length enforcement
if (frame_min_count_reg > MIN_LEN_W'(CTRL_W)) begin
frame_min_count_next = MIN_LEN_W'(frame_min_count_reg - CTRL_W);
end else begin
frame_min_count_next = 0;
end
3'd1: is_bcast_next = is_bcast_reg && &s_tdata_reg[15:0];
3'd3: is_8021q_next = {s_tdata_reg[7:0], s_tdata_reg[15:8]} == 16'h8100;
default: begin
// do nothing
// counter to measure frame length
if (&frame_len_reg[15:2] == 0) begin
frame_len_next = frame_len_reg + 16'(CTRL_W);
end else begin
frame_len_next = '1;
end
endcase
if (ifg_cnt_reg[7:2] != 0) begin
ifg_cnt_next = ifg_cnt_reg - 8'(CTRL_W);
end else begin
ifg_cnt_next = '0;
end
// counter for max frame length enforcement
if (frame_len_lim_reg[15:2] != 0) begin
frame_len_lim_next = frame_len_lim_reg - 16'(CTRL_W);
end else begin
frame_len_lim_next = '0;
end
case (state_reg)
STATE_IDLE: begin
// idle state - wait for data
frame_error_next = 1'b0;
frame_min_count_next = MIN_LEN_W'(MIN_FRAME_LEN-4-CTRL_W);
hdr_ptr_next = 0;
frame_len_next = 0;
frame_len_lim_next = cfg_tx_max_pkt_len;
reset_crc = 1'b1;
// address and ethertype checks
if (&hdr_ptr_reg == 0) begin
hdr_ptr_next = hdr_ptr_reg + 1;
end
// XGMII idle
xgmii_txd_next = {CTRL_W{XGMII_IDLE}};
xgmii_txc_next = {CTRL_W{1'b1}};
case (hdr_ptr_reg)
3'd0: begin
is_mcast_next = s_tdata_reg[0];
is_bcast_next = &s_tdata_reg;
end
3'd1: is_bcast_next = is_bcast_reg && &s_tdata_reg[15:0];
3'd3: is_8021q_next = {s_tdata_reg[7:0], s_tdata_reg[15:8]} == 16'h8100;
default: begin
// do nothing
end
endcase
s_tdata_next = s_axis_tx_tdata_masked;
s_empty_next = keep2empty(s_axis_tx.tkeep);
if (ifg_cnt_reg[7:2] != 0) begin
ifg_cnt_next = ifg_cnt_reg - 8'(CTRL_W);
end else begin
ifg_cnt_next = '0;
end
case (state_reg)
STATE_IDLE: begin
// idle state - wait for data
frame_error_next = 1'b0;
frame_min_count_next = MIN_LEN_W'(MIN_FRAME_LEN-4-CTRL_W);
hdr_ptr_next = 0;
frame_len_next = 0;
frame_len_lim_next = cfg_tx_max_pkt_len;
reset_crc = 1'b1;
// XGMII idle
xgmii_txd_next = {CTRL_W{XGMII_IDLE}};
xgmii_txc_next = {CTRL_W{1'b1}};
s_tdata_next = s_axis_tx_tdata_masked;
s_empty_next = keep2empty(s_axis_tx.tkeep);
if (s_axis_tx.tvalid && cfg_tx_enable) begin
// XGMII start and preamble
xgmii_txd_next = {{3{ETH_PRE}}, XGMII_START};
xgmii_txc_next = 4'b0001;
s_axis_tx_tready_next = 1'b1;
state_next = STATE_PREAMBLE;
end else begin
ifg_count_next = 8'd0;
deficit_idle_count_next = 2'd0;
state_next = STATE_IDLE;
end
end
STATE_PREAMBLE: begin
// send preamble
reset_crc = 1'b1;
hdr_ptr_next = 0;
frame_len_next = 0;
frame_len_lim_next = cfg_tx_max_pkt_len;
s_tdata_next = s_axis_tx_tdata_masked;
s_empty_next = keep2empty(s_axis_tx.tkeep);
xgmii_txd_next = {ETH_SFD, {3{ETH_PRE}}};
xgmii_txc_next = {CTRL_W{1'b0}};
if (s_axis_tx.tvalid && cfg_tx_enable) begin
// XGMII start and preamble
xgmii_txd_next = {{3{ETH_PRE}}, XGMII_START};
xgmii_txc_next = 4'b0001;
s_axis_tx_tready_next = 1'b1;
state_next = STATE_PREAMBLE;
end else begin
ifg_count_next = 8'd0;
deficit_idle_count_next = 2'd0;
state_next = STATE_IDLE;
start_packet_next = 1'b1;
state_next = STATE_PAYLOAD;
end
end
STATE_PREAMBLE: begin
// send preamble
reset_crc = 1'b1;
STATE_PAYLOAD: begin
// transfer payload
update_crc = 1'b1;
s_axis_tx_tready_next = 1'b1;
hdr_ptr_next = 0;
frame_len_next = 0;
frame_len_lim_next = cfg_tx_max_pkt_len;
xgmii_txd_next = s_tdata_reg;
xgmii_txc_next = {CTRL_W{1'b0}};
s_tdata_next = s_axis_tx_tdata_masked;
s_empty_next = keep2empty(s_axis_tx.tkeep);
s_tdata_next = s_axis_tx_tdata_masked;
s_empty_next = keep2empty(s_axis_tx.tkeep);
xgmii_txd_next = {ETH_SFD, {3{ETH_PRE}}};
xgmii_txc_next = {CTRL_W{1'b0}};
stat_tx_byte_next = 3'(CTRL_W);
s_axis_tx_tready_next = 1'b1;
start_packet_next = 1'b1;
state_next = STATE_PAYLOAD;
end
STATE_PAYLOAD: begin
// transfer payload
update_crc = 1'b1;
s_axis_tx_tready_next = 1'b1;
if (s_axis_tx.tvalid && s_axis_tx.tlast) begin
frame_oversize_next = frame_len_lim_reg < 16'(4+4+4-keep2empty(s_axis_tx.tkeep));
end else begin
frame_oversize_next = frame_len_lim_reg < 4+4;
end
xgmii_txd_next = s_tdata_reg;
xgmii_txc_next = {CTRL_W{1'b0}};
if (!s_axis_tx.tvalid || s_axis_tx.tlast || frame_oversize_next) begin
s_axis_tx_tready_next = frame_next; // drop frame
frame_error_next = !s_axis_tx.tvalid || s_axis_tx.tuser[0] || frame_oversize_next;
stat_tx_err_user_next = s_axis_tx.tuser[0];
stat_tx_err_underflow_next = !s_axis_tx.tvalid;
s_tdata_next = s_axis_tx_tdata_masked;
s_empty_next = keep2empty(s_axis_tx.tkeep);
stat_tx_byte_next = 3'(CTRL_W);
if (s_axis_tx.tvalid && s_axis_tx.tlast) begin
frame_oversize_next = frame_len_lim_reg < 16'(4+4+4-keep2empty(s_axis_tx.tkeep));
end else begin
frame_oversize_next = frame_len_lim_reg < 4+4;
end
if (!s_axis_tx.tvalid || s_axis_tx.tlast || frame_oversize_next) begin
s_axis_tx_tready_next = frame_next; // drop frame
frame_error_next = !s_axis_tx.tvalid || s_axis_tx.tuser[0] || frame_oversize_next;
stat_tx_err_user_next = s_axis_tx.tuser[0];
stat_tx_err_underflow_next = !s_axis_tx.tvalid;
if (PADDING_EN && frame_min_count_reg != 0) begin
if (frame_min_count_reg > MIN_LEN_W'(CTRL_W)) begin
s_empty_next = 0;
state_next = STATE_PAD;
end else begin
if (keep2empty(s_axis_tx.tkeep) > 2'(CTRL_W-frame_min_count_reg)) begin
s_empty_next = 2'(CTRL_W-frame_min_count_reg);
if (PADDING_EN && frame_min_count_reg != 0) begin
if (frame_min_count_reg > MIN_LEN_W'(CTRL_W)) begin
s_empty_next = 0;
state_next = STATE_PAD;
end else begin
if (keep2empty(s_axis_tx.tkeep) > 2'(CTRL_W-frame_min_count_reg)) begin
s_empty_next = 2'(CTRL_W-frame_min_count_reg);
end
state_next = STATE_FCS_1;
end
end else begin
state_next = STATE_FCS_1;
end
end else begin
state_next = STATE_PAYLOAD;
end
end
STATE_PAD: begin
// pad frame to MIN_FRAME_LEN
s_axis_tx_tready_next = frame_next; // drop frame
xgmii_txd_next = s_tdata_reg;
xgmii_txc_next = {CTRL_W{1'b0}};
s_tdata_next = 32'd0;
s_empty_next = 0;
stat_tx_byte_next = 3'(CTRL_W);
update_crc = 1'b1;
if (frame_min_count_reg > MIN_LEN_W'(CTRL_W)) begin
state_next = STATE_PAD;
end else begin
s_empty_next = 2'(CTRL_W-frame_min_count_reg);
state_next = STATE_FCS_1;
end
end else begin
state_next = STATE_PAYLOAD;
end
end
STATE_PAD: begin
// pad frame to MIN_FRAME_LEN
s_axis_tx_tready_next = frame_next; // drop frame
STATE_FCS_1: begin
// last cycle
s_axis_tx_tready_next = frame_next; // drop frame
xgmii_txd_next = s_tdata_reg;
xgmii_txc_next = {CTRL_W{1'b0}};
xgmii_txd_next = fcs_output_txd_0;
xgmii_txc_next = fcs_output_txc_0;
s_tdata_next = 32'd0;
s_empty_next = 0;
stat_tx_byte_next = 3'(CTRL_W);
stat_tx_byte_next = 3'(CTRL_W);
update_crc = 1'b1;
update_crc = 1'b1;
if (frame_min_count_reg > MIN_LEN_W'(CTRL_W)) begin
state_next = STATE_PAD;
end else begin
s_empty_next = 2'(CTRL_W-frame_min_count_reg);
state_next = STATE_FCS_1;
ifg_count_next = (cfg_tx_ifg > 8'd12 ? cfg_tx_ifg : 8'd12) - ifg_offset + 8'(deficit_idle_count_reg);
if (frame_error_reg) begin
state_next = STATE_ERR;
end else begin
state_next = STATE_FCS_2;
end
end
end
STATE_FCS_1: begin
// last cycle
s_axis_tx_tready_next = frame_next; // drop frame
STATE_FCS_2: begin
// last cycle
s_axis_tx_tready_next = frame_next; // drop frame
xgmii_txd_next = fcs_output_txd_0;
xgmii_txc_next = fcs_output_txc_0;
xgmii_txd_next = fcs_output_txd_1;
xgmii_txc_next = fcs_output_txc_1;
stat_tx_byte_next = 3'(CTRL_W);
stat_tx_byte_next = 4-s_empty_reg;
frame_len_next = frame_len_reg + 16'(4-s_empty_reg);
update_crc = 1'b1;
ifg_count_next = (cfg_tx_ifg > 8'd12 ? cfg_tx_ifg : 8'd12) - ifg_offset + 8'(deficit_idle_count_reg);
if (frame_error_reg) begin
state_next = STATE_ERR;
end else begin
state_next = STATE_FCS_2;
if (extra_cycle) begin
state_next = STATE_FCS_3;
end else begin
stat_tx_pkt_len_next = frame_len_next;
stat_tx_pkt_good_next = !frame_error_reg;
stat_tx_pkt_bad_next = frame_error_reg;
stat_tx_pkt_ucast_next = !is_mcast_reg;
stat_tx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_tx_pkt_bcast_next = is_bcast_reg;
stat_tx_pkt_vlan_next = is_8021q_reg;
stat_tx_err_oversize_next = frame_oversize_reg;
state_next = STATE_IFG;
end
end
end
STATE_FCS_2: begin
// last cycle
s_axis_tx_tready_next = frame_next; // drop frame
STATE_FCS_3: begin
// last cycle
s_axis_tx_tready_next = frame_next; // drop frame
xgmii_txd_next = fcs_output_txd_1;
xgmii_txc_next = fcs_output_txc_1;
xgmii_txd_next = {{3{XGMII_IDLE}}, XGMII_TERM};
xgmii_txc_next = {CTRL_W{1'b1}};
stat_tx_byte_next = 4-s_empty_reg;
frame_len_next = frame_len_reg + 16'(4-s_empty_reg);
if (extra_cycle) begin
state_next = STATE_FCS_3;
end else begin
stat_tx_pkt_len_next = frame_len_next;
stat_tx_pkt_len_next = frame_len_reg;
stat_tx_pkt_good_next = !frame_error_reg;
stat_tx_pkt_bad_next = frame_error_reg;
stat_tx_pkt_ucast_next = !is_mcast_reg;
@@ -533,98 +567,81 @@ always_comb begin
stat_tx_pkt_bcast_next = is_bcast_reg;
stat_tx_pkt_vlan_next = is_8021q_reg;
stat_tx_err_oversize_next = frame_oversize_reg;
if (DIC_EN) begin
if (ifg_count_next > 8'd3) begin
state_next = STATE_IFG;
end else begin
deficit_idle_count_next = 2'(ifg_count_next);
ifg_count_next = 8'd0;
s_axis_tx_tready_next = 1'b1;
state_next = STATE_IDLE;
end
end else begin
if (ifg_count_next > 8'd0) begin
state_next = STATE_IFG;
end else begin
state_next = STATE_IDLE;
end
end
end
STATE_ERR: begin
// terminate packet with error
s_axis_tx_tready_next = frame_next; // drop frame
// XGMII error
xgmii_txd_next = {XGMII_TERM, {3{XGMII_ERROR}}};
xgmii_txc_next = {CTRL_W{1'b1}};
ifg_count_next = cfg_tx_ifg > 8'd12 ? cfg_tx_ifg : 8'd12;
stat_tx_pkt_len_next = frame_len_reg;
stat_tx_pkt_good_next = !frame_error_reg;
stat_tx_pkt_bad_next = frame_error_reg;
stat_tx_pkt_ucast_next = !is_mcast_reg;
stat_tx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_tx_pkt_bcast_next = is_bcast_reg;
stat_tx_pkt_vlan_next = is_8021q_reg;
stat_tx_err_oversize_next = frame_oversize_reg;
state_next = STATE_IFG;
end
end
STATE_FCS_3: begin
// last cycle
s_axis_tx_tready_next = frame_next; // drop frame
STATE_IFG: begin
// send IFG
s_axis_tx_tready_next = frame_next; // drop frame
xgmii_txd_next = {{3{XGMII_IDLE}}, XGMII_TERM};
xgmii_txc_next = {CTRL_W{1'b1}};
// XGMII idle
xgmii_txd_next = {CTRL_W{XGMII_IDLE}};
xgmii_txc_next = {CTRL_W{1'b1}};
stat_tx_pkt_len_next = frame_len_reg;
stat_tx_pkt_good_next = !frame_error_reg;
stat_tx_pkt_bad_next = frame_error_reg;
stat_tx_pkt_ucast_next = !is_mcast_reg;
stat_tx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_tx_pkt_bcast_next = is_bcast_reg;
stat_tx_pkt_vlan_next = is_8021q_reg;
stat_tx_err_oversize_next = frame_oversize_reg;
if (DIC_EN) begin
if (ifg_count_next > 8'd3) begin
state_next = STATE_IFG;
if (ifg_count_reg > 8'd4) begin
ifg_count_next = ifg_count_reg - 8'd4;
end else begin
deficit_idle_count_next = 2'(ifg_count_next);
ifg_count_next = 8'd0;
s_axis_tx_tready_next = 1'b1;
state_next = STATE_IDLE;
end
end else begin
if (ifg_count_next > 8'd0) begin
state_next = STATE_IFG;
if (DIC_EN) begin
if (ifg_count_next > 8'd3 || frame_reg) begin
state_next = STATE_IFG;
end else begin
deficit_idle_count_next = 2'(ifg_count_next);
ifg_count_next = 8'd0;
state_next = STATE_IDLE;
end
end else begin
state_next = STATE_IDLE;
if (ifg_count_next > 8'd0 || frame_reg) begin
state_next = STATE_IFG;
end else begin
state_next = STATE_IDLE;
end
end
end
end
STATE_ERR: begin
// terminate packet with error
s_axis_tx_tready_next = frame_next; // drop frame
// XGMII error
xgmii_txd_next = {XGMII_TERM, {3{XGMII_ERROR}}};
xgmii_txc_next = {CTRL_W{1'b1}};
ifg_count_next = cfg_tx_ifg > 8'd12 ? cfg_tx_ifg : 8'd12;
stat_tx_pkt_len_next = frame_len_reg;
stat_tx_pkt_good_next = !frame_error_reg;
stat_tx_pkt_bad_next = frame_error_reg;
stat_tx_pkt_ucast_next = !is_mcast_reg;
stat_tx_pkt_mcast_next = is_mcast_reg && !is_bcast_reg;
stat_tx_pkt_bcast_next = is_bcast_reg;
stat_tx_pkt_vlan_next = is_8021q_reg;
stat_tx_err_oversize_next = frame_oversize_reg;
state_next = STATE_IFG;
end
STATE_IFG: begin
// send IFG
s_axis_tx_tready_next = frame_next; // drop frame
// XGMII idle
xgmii_txd_next = {CTRL_W{XGMII_IDLE}};
xgmii_txc_next = {CTRL_W{1'b1}};
if (ifg_count_reg > 8'd4) begin
ifg_count_next = ifg_count_reg - 8'd4;
end else begin
ifg_count_next = 8'd0;
default: begin
// invalid state, return to idle
state_next = STATE_IDLE;
end
if (DIC_EN) begin
if (ifg_count_next > 8'd3 || frame_reg) begin
state_next = STATE_IFG;
end else begin
deficit_idle_count_next = 2'(ifg_count_next);
ifg_count_next = 8'd0;
state_next = STATE_IDLE;
end
end else begin
if (ifg_count_next > 8'd0 || frame_reg) begin
state_next = STATE_IFG;
end else begin
state_next = STATE_IDLE;
end
end
end
default: begin
// invalid state, return to idle
state_next = STATE_IDLE;
end
endcase
endcase
end
end
always_ff @(posedge clk) begin
@@ -654,8 +671,12 @@ always_ff @(posedge clk) begin
m_axis_tx_cpl_tag_reg <= m_axis_tx_cpl_tag_next;
m_axis_tx_cpl_valid_reg <= m_axis_tx_cpl_valid_next;
for (integer i = 0; i < 3; i = i + 1) begin
crc_state_reg[i] <= crc_state_next[i];
if (GBX_IF_EN && tx_gbx_req_stall) begin
// gearbox stall
end else begin
for (integer i = 0; i < 3; i = i + 1) begin
crc_state_reg[i] <= crc_state_next[i];
end
end
if (update_crc) begin
@@ -668,6 +689,7 @@ always_ff @(posedge clk) begin
xgmii_txd_reg <= xgmii_txd_next;
xgmii_txc_reg <= xgmii_txc_next;
xgmii_tx_valid_reg <= !tx_gbx_req_stall;
start_packet_reg <= start_packet_next;
@@ -683,6 +705,8 @@ always_ff @(posedge clk) begin
stat_tx_err_user_reg <= stat_tx_err_user_next;
stat_tx_err_underflow_reg <= stat_tx_err_underflow_next;
tx_gbx_sync_reg <= tx_gbx_req_sync;
if (rst) begin
state_reg <= STATE_IDLE;
@@ -697,6 +721,8 @@ always_ff @(posedge clk) begin
xgmii_txd_reg <= {CTRL_W{XGMII_IDLE}};
xgmii_txc_reg <= {CTRL_W{1'b1}};
xgmii_tx_valid_reg <= 1'b0;
tx_gbx_sync_reg <= '0;
start_packet_reg <= 1'b0;

8
src/eth/rtl/taxi_eth_mac_10g.sv
View File

@@ -341,6 +341,7 @@ end else if (DATA_W == 32) begin
taxi_axis_xgmii_rx_32 #(
.DATA_W(DATA_W),
.CTRL_W(CTRL_W),
.GBX_IF_EN(RX_GBX_IF_EN),
.PTP_TS_EN(PTP_TS_EN),
.PTP_TS_W(PTP_TS_W)
)
@@ -353,6 +354,7 @@ end else if (DATA_W == 32) begin
*/
.xgmii_rxd(xgmii_rxd),
.xgmii_rxc(xgmii_rxc),
.xgmii_rx_valid(xgmii_rx_valid),
/*
* Receive interface (AXI stream)
@@ -397,6 +399,8 @@ end else if (DATA_W == 32) begin
taxi_axis_xgmii_tx_32 #(
.DATA_W(DATA_W),
.CTRL_W(CTRL_W),
.GBX_IF_EN(TX_GBX_IF_EN),
.GBX_CNT(GBX_CNT),
.PADDING_EN(PADDING_EN),
.DIC_EN(DIC_EN),
.MIN_FRAME_LEN(MIN_FRAME_LEN),
@@ -419,6 +423,10 @@ end else if (DATA_W == 32) begin
*/
.xgmii_txd(xgmii_txd),
.xgmii_txc(xgmii_txc),
.xgmii_tx_valid(xgmii_tx_valid),
.tx_gbx_req_sync(tx_gbx_req_sync),
.tx_gbx_req_stall(tx_gbx_req_stall),
.tx_gbx_sync(tx_gbx_sync),
/*
* PTP

1
src/eth/tb/taxi_axis_xgmii_rx_32/Makefile
View File

@@ -35,6 +35,7 @@ VERILOG_SOURCES := $(call uniq_base,$(call process_f_files,$(VERILOG_SOURCES)))
# module parameters
export PARAM_DATA_W := 32
export PARAM_GBX_IF_EN := 0
export PARAM_PTP_TS_EN := 1
export PARAM_PTP_TS_W := 96

3
src/eth/tb/taxi_axis_xgmii_rx_32/test_taxi_axis_xgmii_rx_32.py
View File

@@ -39,6 +39,8 @@ class TB:
self.ptp_clock = PtpClockSimTime(ts_tod=dut.ptp_ts, clock=dut.clk)
dut.xgmii_rx_valid.setimmediatevalue(1)
dut.cfg_rx_max_pkt_len.setimmediatevalue(0)
dut.cfg_rx_enable.setimmediatevalue(0)
@@ -305,6 +307,7 @@ def test_taxi_axis_xgmii_rx_32(request):
parameters = {}
parameters['DATA_W'] = 32
parameters['GBX_IF_EN'] = 0
parameters['PTP_TS_EN'] = 1
parameters['PTP_TS_W'] = 96

4
src/eth/tb/taxi_axis_xgmii_rx_32/test_taxi_axis_xgmii_rx_32.sv
View File

@@ -19,6 +19,7 @@ module test_taxi_axis_xgmii_rx_32 #
(
/* verilator lint_off WIDTHTRUNC */
parameter DATA_W = 32,
parameter logic GBX_IF_EN = 1'b0,
parameter logic PTP_TS_EN = 1'b0,
parameter PTP_TS_W = 96
/* verilator lint_on WIDTHTRUNC */
@@ -33,6 +34,7 @@ logic rst;
logic [DATA_W-1:0] xgmii_rxd;
logic [CTRL_W-1:0] xgmii_rxc;
logic xgmii_rx_valid;
taxi_axis_if #(.DATA_W(DATA_W), .USER_EN(1), .USER_W(USER_W)) m_axis_rx();
@@ -61,6 +63,7 @@ logic stat_rx_err_preamble;
taxi_axis_xgmii_rx_32 #(
.DATA_W(DATA_W),
.CTRL_W(CTRL_W),
.GBX_IF_EN(GBX_IF_EN),
.PTP_TS_EN(PTP_TS_EN),
.PTP_TS_W(PTP_TS_W)
)
@@ -73,6 +76,7 @@ uut (
*/
.xgmii_rxd(xgmii_rxd),
.xgmii_rxc(xgmii_rxc),
.xgmii_rx_valid(xgmii_rx_valid),
/*
* AXI4-Stream output (source)

2
src/eth/tb/taxi_axis_xgmii_tx_32/Makefile
View File

@@ -35,6 +35,8 @@ VERILOG_SOURCES := $(call uniq_base,$(call process_f_files,$(VERILOG_SOURCES)))
# module parameters
export PARAM_DATA_W := 32
export PARAM_GBX_IF_EN := 0
export PARAM_GBX_CNT := 1
export PARAM_PADDING_EN := 1
export PARAM_DIC_EN := 1
export PARAM_MIN_FRAME_LEN := 64

2
src/eth/tb/taxi_axis_xgmii_tx_32/test_taxi_axis_xgmii_tx_32.py
View File

@@ -520,6 +520,8 @@ def test_taxi_axis_xgmii_tx_32(request, dic_en):
parameters = {}
parameters['DATA_W'] = 32
parameters['GBX_IF_EN'] = 0
parameters['GBX_CNT'] = 1
parameters['PADDING_EN'] = 1
parameters['DIC_EN'] = dic_en
parameters['MIN_FRAME_LEN'] = 64

12
src/eth/tb/taxi_axis_xgmii_tx_32/test_taxi_axis_xgmii_tx_32.sv
View File

@@ -19,6 +19,8 @@ module test_taxi_axis_xgmii_tx_32 #
(
/* verilator lint_off WIDTHTRUNC */
parameter DATA_W = 32,
parameter logic GBX_IF_EN = 1'b0,
parameter GBX_CNT = 1,
parameter logic PADDING_EN = 1'b1,
parameter logic DIC_EN = 1'b1,
parameter MIN_FRAME_LEN = 64,
@@ -41,6 +43,10 @@ taxi_axis_if #(.DATA_W(PTP_TS_W), .KEEP_W(1), .ID_EN(1), .ID_W(TX_TAG_W)) m_axis
logic [DATA_W-1:0] xgmii_txd;
logic [CTRL_W-1:0] xgmii_txc;
logic xgmii_tx_valid;
logic [GBX_CNT-1:0] tx_gbx_req_sync;
logic tx_gbx_req_stall;
logic [GBX_CNT-1:0] tx_gbx_sync;
logic [PTP_TS_W-1:0] ptp_ts;
@@ -64,6 +70,8 @@ logic stat_tx_err_underflow;
taxi_axis_xgmii_tx_32 #(
.DATA_W(DATA_W),
.CTRL_W(CTRL_W),
.GBX_IF_EN(GBX_IF_EN),
.GBX_CNT(GBX_CNT),
.PADDING_EN(PADDING_EN),
.DIC_EN(DIC_EN),
.MIN_FRAME_LEN(MIN_FRAME_LEN),
@@ -86,6 +94,10 @@ uut (
*/
.xgmii_txd(xgmii_txd),
.xgmii_txc(xgmii_txc),
.xgmii_tx_valid(xgmii_tx_valid),
.tx_gbx_req_sync(tx_gbx_req_sync),
.tx_gbx_req_stall(tx_gbx_req_stall),
.tx_gbx_sync(tx_gbx_sync),
/*
* PTP