cndm: Add support for event queues

Signed-off-by: Alex Forencich <alex@alexforencich.com>
2026-04-07 04:38:42 -07:00 · 2026-03-10 00:57:20 -07:00
parent ed61857bc3
commit c7279a1ea2
4 changed files with 174 additions and 33 deletions
--- a/src/cndm/rtl/cndm_micro_cpl_wr.sv
+++ b/src/cndm/rtl/cndm_micro_cpl_wr.sv
@@ -16,7 +16,10 @@ Authors:
 * Corundum-micro completion write module
 */
 module cndm_micro_cpl_wr #(
-    parameter CQN_W = 5
+    parameter CQN_W = 5,
    parameter logic IS_CQ = 1'b1,
    parameter logic IS_EQ = 1'b0,
    parameter logic CQ_IRQ = IS_CQ
 )
 (
    input  wire logic         clk,
@@ -48,17 +51,34 @@ module cndm_micro_cpl_wr #(
    /*
     * Completion input
     */
-    taxi_axis_if.snk          s_axis_cpl
+    taxi_axis_if.snk          s_axis_cpl,
    /*
     * Event input
     */
    taxi_axis_if.snk          s_axis_event,
    /*
     * Event output
     */
    taxi_axis_if.src          m_axis_event
 );
 localparam DMA_ADDR_W = dma_wr_desc_req.DST_ADDR_W;
 localparam IRQN_W = m_axis_irq.DATA_W;
 typedef enum logic [2:0] {
    QTYPE_EQ,
    QTYPE_CQ,
    QTYPE_SQ,
    QTYPE_RQ
 } qtype_t;
 logic [CQN_W-1:0]       cq_req_cqn_reg = '0;
 logic [2:0]             cq_req_qtype_reg = '0;
 logic                   cq_req_valid_reg = 1'b0;
 logic                   cq_req_ready;
 logic [IRQN_W-1:0]      cq_rsp_irqn;
 logic [DMA_ADDR_W-1:0]  cq_rsp_addr;
 logic                   cq_rsp_phase_tag;
 logic                   cq_rsp_error;
@@ -72,8 +92,10 @@ logic                   notify_req_ready;
 cndm_micro_queue_state #(
    .QN_W(CQN_W),
    .DQN_W(IRQN_W),
-    .IS_CQ(1),
+    .IS_CQ(IS_CQ || !IS_EQ),
-    .QTYPE_EN(0),
+    .IS_EQ(IS_EQ),
    .CQ_IRQ(CQ_IRQ),
    .QTYPE_EN(IS_CQ && IS_EQ),
    .QE_SIZE(16),
    .DMA_ADDR_W(DMA_ADDR_W)
 )
@@ -96,11 +118,11 @@ cq_mgr_inst (
     * Queue management interface
     */
    .req_qn(cq_req_cqn_reg),
-    .req_qtype('0),
+    .req_qtype(cq_req_qtype_reg),
    .req_valid(cq_req_valid_reg),
    .req_ready(cq_req_ready),
    .rsp_qn(),
-    .rsp_dqn(cq_rsp_irqn),
+    .rsp_dqn(),
    .rsp_addr(cq_rsp_addr),
    .rsp_phase_tag(cq_rsp_phase_tag),
    .rsp_error(cq_rsp_error),
@@ -117,7 +139,12 @@ cq_mgr_inst (
    /*
     * Interrupts
     */
-    .m_axis_irq(m_axis_irq)
+    .m_axis_irq(m_axis_irq),
    /*
     * Event output
     */
    .m_axis_event(m_axis_event)
 );
 typedef enum logic [1:0] {
@@ -130,8 +157,11 @@ state_t state_reg = STATE_IDLE;
 logic phase_tag_reg = 1'b0;
 logic [127:0] data_reg = '0;
 always_ff @(posedge clk) begin
    s_axis_cpl.tready <= 1'b0;
    s_axis_event.tready <= 1'b0;
    dma_wr_desc_req.req_src_sel <= '0;
    dma_wr_desc_req.req_src_asid <= '0;
@@ -155,11 +185,21 @@ always_ff @(posedge clk) begin
        STATE_IDLE: begin
            dma_wr_desc_req.req_src_addr <= '0;
-            cq_req_cqn_reg <= s_axis_cpl.tdest;
+            if (IS_EQ && s_axis_event.tvalid && !s_axis_event.tready && (!notify_req_valid_reg || notify_req_ready)) begin
-
+                data_reg <= s_axis_event.tdata;
-            if (s_axis_cpl.tvalid && !s_axis_cpl.tready && (!notify_req_valid_reg || notify_req_ready)) begin
+                cq_req_cqn_reg <= s_axis_event.tdest;
                cq_req_qtype_reg <= QTYPE_EQ;
                cq_req_valid_reg <= 1'b1;
                notify_req_qn_reg <= s_axis_event.tdest;
                s_axis_event.tready <= 1'b1;
                state_reg <= STATE_QUERY_CQ;
            end else if ((IS_CQ || !IS_EQ) && s_axis_cpl.tvalid && !s_axis_cpl.tready && (!notify_req_valid_reg || notify_req_ready)) begin
                data_reg <= s_axis_cpl.tdata;
                cq_req_cqn_reg <= s_axis_cpl.tdest;
                cq_req_qtype_reg <= QTYPE_CQ;
                cq_req_valid_reg <= 1'b1;
                notify_req_qn_reg <= s_axis_cpl.tdest;
                s_axis_cpl.tready <= 1'b1;
                state_reg <= STATE_QUERY_CQ;
            end else begin
                state_reg <= STATE_IDLE;
@@ -177,7 +217,6 @@ always_ff @(posedge clk) begin
                if (cq_rsp_error) begin
                    // drop completion
                    s_axis_cpl.tready <= 1'b1;
                    state_reg <= STATE_IDLE;
                end else begin
                    dma_wr_desc_req.req_valid <= 1'b1;
@@ -187,7 +226,6 @@ always_ff @(posedge clk) begin
        end
        STATE_WRITE_DATA: begin
            if (dma_wr_desc_sts.sts_valid) begin
                s_axis_cpl.tready <= 1'b1;
                notify_req_valid_reg <= 1'b1;
                state_reg <= STATE_IDLE;
            end
@@ -213,7 +251,7 @@ localparam SEG_BE_W = dma_ram_rd.SEG_BE_W;
 if (SEGS*SEG_DATA_W < 128)
    $fatal(0, "Total segmented interface width must be at least 128 (instance %m)");
-wire [SEGS-1:0][SEG_DATA_W-1:0] ram_data = (SEG_DATA_W*SEGS)'({phase_tag_reg, s_axis_cpl.tdata[126:0]});
+wire [SEGS-1:0][SEG_DATA_W-1:0] ram_data = (SEG_DATA_W*SEGS)'({phase_tag_reg, data_reg[126:0]});
 for (genvar n = 0; n < SEGS; n = n + 1) begin
--- a/src/cndm/rtl/cndm_micro_desc_rd.sv
+++ b/src/cndm/rtl/cndm_micro_desc_rd.sv
@@ -67,11 +67,14 @@ logic                   wq_rsp_valid;
 logic                   wq_rsp_ready_reg = 1'b0;
 taxi_axis_if axis_irq_stub();
 taxi_axis_if axis_event_stub();
 cndm_micro_queue_state #(
    .QN_W(WQN_W),
    .DQN_W(CQN_W),
    .IS_CQ(0),
    .IS_EQ(0),
    .CQ_IRQ(0),
    .QTYPE_EN(1),
    .QE_SIZE(16),
    .DMA_ADDR_W(DMA_ADDR_W)
@@ -116,7 +119,12 @@ wq_mgr_inst (
    /*
     * Interrupts
     */
-    .m_axis_irq(axis_irq_stub)
+    .m_axis_irq(axis_irq_stub),
    /*
     * Event output
     */
    .m_axis_event(axis_event_stub)
 );
 taxi_dma_desc_if #(
--- a/src/cndm/rtl/cndm_micro_port.sv
+++ b/src/cndm/rtl/cndm_micro_port.sv
@@ -483,8 +483,21 @@ cpl_mux_inst (
    .m_axis(axis_cpl)
 );
 taxi_axis_if #(
    .DATA_W(16*8),
    .KEEP_EN(1),
    .LAST_EN(1),
    .ID_EN(0),
    .DEST_EN(1),
    .DEST_W(CQN_W),
    .USER_EN(0)
 ) axis_event();
 cndm_micro_cpl_wr #(
-    .CQN_W(CQN_W)
+    .CQN_W(CQN_W),
    .IS_CQ(1),
    .IS_EQ(1),
    .CQ_IRQ(1)
 )
 cpl_wr_inst (
    .clk(clk),
@@ -516,7 +529,17 @@ cpl_wr_inst (
    /*
     * Completion input
     */
-    .s_axis_cpl(axis_cpl)
+    .s_axis_cpl(axis_cpl),
    /*
     * Event input
     */
    .s_axis_event(axis_event),
    /*
     * Event output
     */
    .m_axis_event(axis_event)
 );
 // TX path
--- a/src/cndm/rtl/cndm_micro_queue_state.sv
+++ b/src/cndm/rtl/cndm_micro_queue_state.sv
@@ -19,7 +19,9 @@ module cndm_micro_queue_state #(
    parameter QN_W = 5,
    parameter DQN_W = 5,
    parameter logic IS_CQ = 1'b0,
-    parameter logic QTYPE_EN = !IS_CQ,
+    parameter logic IS_EQ = 1'b0,
    parameter logic CQ_IRQ = IS_CQ,
    parameter logic QTYPE_EN = 1'b1,
    parameter QE_SIZE = 16,
    parameter DMA_ADDR_W = 64
 )
@@ -63,7 +65,12 @@ module cndm_micro_queue_state #(
    /*
     * Interrupts
     */
-    taxi_axis_if.src                    m_axis_irq
+    taxi_axis_if.src                    m_axis_irq,
    /*
     * Event output
     */
    taxi_axis_if.src                    m_axis_event
 );
 localparam PTR_W = 16;
@@ -78,6 +85,10 @@ localparam APB_DATA_W = s_apb_dp_ctrl.DATA_W;
 localparam IRQN_W = m_axis_irq.DATA_W;
 localparam EQN_W = m_axis_event.DEST_W;
 localparam EVENT_DATA_W = 64;
 localparam EVENT_DEST_W = m_axis_event.DEST_W;
 // check configuration
 if (s_axil_ctrl_rd.DATA_W != 32 || s_axil_ctrl_wr.DATA_W != 32)
    $fatal(0, "Error: AXI data width must be 32 (instance %m)");
@@ -91,6 +102,13 @@ if (s_apb_dp_ctrl.DATA_W != 32)
 if (s_apb_dp_ctrl.ADDR_W < ADDR_W)
    $fatal(0, "Error: APB address width is insufficient (instance %m)");
 typedef enum logic [2:0] {
    QTYPE_EQ,
    QTYPE_CQ,
    QTYPE_SQ,
    QTYPE_RQ
 } qtype_t;
 logic s_axil_ctrl_awready_reg = 1'b0, s_axil_ctrl_awready_next;
 logic s_axil_ctrl_wready_reg = 1'b0, s_axil_ctrl_wready_next;
 logic s_axil_ctrl_bvalid_reg = 1'b0, s_axil_ctrl_bvalid_next;
@@ -160,12 +178,27 @@ assign m_axis_irq.tid    = '0;
 assign m_axis_irq.tdest  = '0;
 assign m_axis_irq.tuser  = '0;
 logic [EVENT_DATA_W-1:0] m_axis_event_tdata_reg = '0, m_axis_event_tdata_next;
 logic [EQN_W-1:0] m_axis_event_tdest_reg = '0, m_axis_event_tdest_next;
 logic m_axis_event_tvalid_reg = 1'b0, m_axis_event_tvalid_next;
 assign m_axis_event.tdata  = m_axis_event.DATA_W'(m_axis_event_tdata_reg);
 assign m_axis_event.tkeep  = '1;
 assign m_axis_event.tstrb  = m_axis_event.tkeep;
 assign m_axis_event.tvalid = m_axis_event_tvalid_reg;
 assign m_axis_event.tlast  = 1'b1;
 assign m_axis_event.tid    = '0;
 assign m_axis_event.tdest  = m_axis_event_tdest_reg;
 assign m_axis_event.tuser  = '0;
 logic [2**QN_W-1:0] queue_enable_reg = '0;
 (* ram_style = "distributed", ramstyle = "no_rw_check, mlab" *)
 logic queue_mem_arm[2**QN_W] = '{default: '0};
 (* ram_style = "distributed", ramstyle = "no_rw_check, mlab" *)
 logic queue_mem_fire[2**QN_W] = '{default: '0};
 (* ram_style = "distributed", ramstyle = "no_rw_check, mlab" *)
 logic queue_mem_cq_irq[2**QN_W] = '{default: '0};
 (* ram_style = "distributed", ramstyle = "no_rw_check, mlab" *)
 logic [2:0] queue_mem_qtype[2**QN_W] = '{default: '0};
 (* ram_style = "distributed", ramstyle = "no_rw_check, mlab" *)
 logic [DQN_W-1:0] queue_mem_dqn[2**QN_W] = '{default: '0};
@@ -184,6 +217,7 @@ logic [QN_W-1:0] queue_mem_addr;
 wire queue_mem_rd_enable = queue_enable_reg[queue_mem_addr];
 wire queue_mem_rd_arm = queue_mem_arm[queue_mem_addr];
 wire queue_mem_rd_fire = queue_mem_fire[queue_mem_addr];
 wire queue_mem_rd_cq_irq = queue_mem_cq_irq[queue_mem_addr];
 wire [2:0] queue_mem_rd_qtype = queue_mem_qtype[queue_mem_addr];
 wire [DQN_W-1:0] queue_mem_rd_dqn = queue_mem_dqn[queue_mem_addr];
 wire [3:0] queue_mem_rd_log_size = queue_mem_log_size[queue_mem_addr];
@@ -197,6 +231,7 @@ wire queue_mem_rd_status_full = ($unsigned(queue_mem_rd_prod_ptr - queue_mem_rd_
 logic queue_mem_wr_enable;
 logic queue_mem_wr_arm;
 logic queue_mem_wr_fire;
 logic queue_mem_wr_cq_irq;
 logic [2:0] queue_mem_wr_qtype;
 logic [DQN_W-1:0] queue_mem_wr_dqn;
 logic [3:0] queue_mem_wr_log_size;
@@ -231,12 +266,17 @@ always_comb begin
    m_axis_irq_irqn_next = m_axis_irq_irqn_reg;
    m_axis_irq_tvalid_next = m_axis_irq_tvalid_reg && !m_axis_irq.tready;
    m_axis_event_tdata_next = m_axis_event_tdata_reg;
    m_axis_event_tdest_next = m_axis_event_tdest_reg;
    m_axis_event_tvalid_next = m_axis_event_tvalid_reg && !m_axis_event.tready;
    queue_mem_wr_en = 1'b0;
    queue_mem_addr = '0;
    queue_mem_wr_enable = queue_mem_rd_enable;
    queue_mem_wr_arm = queue_mem_rd_arm;
    queue_mem_wr_fire = queue_mem_rd_fire;
    queue_mem_wr_cq_irq = queue_mem_rd_cq_irq;
    queue_mem_wr_qtype = queue_mem_rd_qtype;
    queue_mem_wr_dqn = queue_mem_rd_dqn;
    queue_mem_wr_log_size = queue_mem_rd_log_size;
@@ -265,12 +305,12 @@ always_comb begin
        case (s_axil_ctrl_awaddr_reg_index)
            3'd2: begin
-                if (!IS_CQ) begin
+                if (!IS_CQ && !IS_EQ) begin
                    queue_mem_wr_prod_ptr = s_axil_ctrl_wr.wdata[15:0];
                end
            end
            3'd3: begin
-                if (IS_CQ) begin
+                if (IS_CQ || IS_EQ) begin
                    queue_mem_wr_cons_ptr = s_axil_ctrl_wr.wdata[15:0];
                    if (s_axil_ctrl_wr.wdata[31]) begin
                        queue_mem_wr_arm = 1'b1;
@@ -299,7 +339,10 @@ always_comb begin
                    queue_mem_wr_fire = 1'b0;
                end
-                3'd1: queue_mem_wr_dqn = s_apb_dp_ctrl.pwdata[DQN_W-1:0];
+                3'd1: begin
                    queue_mem_wr_dqn = s_apb_dp_ctrl.pwdata[DQN_W-1:0];
                    queue_mem_wr_cq_irq = s_apb_dp_ctrl.pwdata[31];
                end
                3'd2: queue_mem_wr_prod_ptr = s_apb_dp_ctrl.pwdata[15:0];
                3'd3: begin
                    queue_mem_wr_cons_ptr = s_apb_dp_ctrl.pwdata[15:0];
@@ -317,11 +360,14 @@ always_comb begin
        case (s_apb_dp_ctrl_paddr_reg_index)
            3'd0: begin
                s_apb_dp_ctrl_prdata_next[0] = queue_mem_rd_enable;
-                s_apb_dp_ctrl_prdata_next[1] = IS_CQ ? queue_mem_rd_arm : 1'b0;
+                s_apb_dp_ctrl_prdata_next[1] = (IS_CQ || IS_EQ) ? queue_mem_rd_arm : 1'b0;
                s_apb_dp_ctrl_prdata_next[19:16] = queue_mem_rd_log_size;
                s_apb_dp_ctrl_prdata_next[23:20] = QTYPE_EN ? 4'(queue_mem_rd_qtype) : '0;
            end
-            3'd1: s_apb_dp_ctrl_prdata_next = 32'(queue_mem_rd_dqn);
+            3'd1: begin
                s_apb_dp_ctrl_prdata_next[30:0] = 31'(queue_mem_rd_dqn);
                s_apb_dp_ctrl_prdata_next[31] = (IS_CQ && CQ_IRQ) ? queue_mem_rd_cq_irq : 1'b0;
            end
            3'd2: s_apb_dp_ctrl_prdata_next = 32'(queue_mem_rd_prod_ptr);
            3'd3: s_apb_dp_ctrl_prdata_next = 32'(queue_mem_rd_cons_ptr);
            3'd6: s_apb_dp_ctrl_prdata_next = queue_mem_rd_base_addr[31:0];
@@ -346,7 +392,7 @@ always_comb begin
        rsp_qn_next = req_qn;
        rsp_dqn_next = queue_mem_rd_dqn;
        rsp_error_next = !queue_mem_rd_enable || (QTYPE_EN && req_qtype != queue_mem_rd_qtype);
-        if (IS_CQ) begin
+        if (IS_CQ || IS_EQ) begin
            rsp_addr_next = queue_mem_rd_base_addr + DMA_ADDR_W'(16'(queue_mem_rd_prod_ptr & ({16{1'b1}} >> (16 - queue_mem_rd_log_size))) * QE_SIZE);
            rsp_phase_tag_next = !queue_mem_rd_prod_ptr[queue_mem_rd_log_size];
            if (queue_mem_rd_status_full)
@@ -368,16 +414,35 @@ always_comb begin
        queue_mem_addr = scrub_ptr_reg;
-        if (IS_CQ && queue_mem_rd_enable && queue_mem_rd_arm && queue_mem_rd_fire) begin
+        if ((IS_CQ || IS_EQ) && queue_mem_rd_enable && queue_mem_rd_arm && queue_mem_rd_fire) begin
-            if (!m_axis_irq_tvalid_reg || m_axis_irq.tready) begin
+            if ((IS_CQ && !IS_EQ && (!CQ_IRQ || !queue_mem_rd_cq_irq)) || (QTYPE_EN && queue_mem_rd_qtype == QTYPE_CQ && (!CQ_IRQ || !queue_mem_rd_cq_irq))) begin
-                // fire in the hole
+                // event - only for CQ
                if (!m_axis_event_tvalid_reg || m_axis_event.tready) begin
                    // fire in the hole
-                m_axis_irq_irqn_next = IRQN_W'(queue_mem_rd_dqn);
+                    m_axis_event_tdata_next = '0;
-                m_axis_irq_tvalid_next = 1'b1;
+                    m_axis_event_tdata_next[15:0] = '0; // rsvd
                    m_axis_event_tdata_next[31:16] = '0; // CPL
                    m_axis_event_tdata_next[63:32] = 32'(scrub_ptr_reg); // CQN
                    m_axis_event_tdest_next = EQN_W'(queue_mem_rd_dqn);
                    m_axis_event_tvalid_next = 1'b1;
-                queue_mem_wr_arm = 1'b0;
+                    queue_mem_wr_arm = 1'b0;
-                queue_mem_wr_fire = 1'b0;
+                    queue_mem_wr_fire = 1'b0;
-                queue_mem_wr_en = 1'b1;
+                    queue_mem_wr_en = 1'b1;
                end
            end else if ((!IS_CQ && IS_EQ) || (IS_CQ && !IS_EQ && (CQ_IRQ && queue_mem_rd_cq_irq)) || (QTYPE_EN && (queue_mem_rd_qtype == QTYPE_EQ || (queue_mem_rd_qtype == QTYPE_CQ && (CQ_IRQ && queue_mem_rd_cq_irq))))) begin
                // interrupt - EQ or CQ, but CQ requires config bit set to select interrupts
                if (!m_axis_irq_tvalid_reg || m_axis_irq.tready) begin
                    // fire in the hole
                    m_axis_irq_irqn_next = IRQN_W'(queue_mem_rd_dqn);
                    m_axis_irq_tvalid_next = 1'b1;
                    queue_mem_wr_arm = 1'b0;
                    queue_mem_wr_fire = 1'b0;
                    queue_mem_wr_en = 1'b1;
                end
            end
        end
@@ -410,12 +475,17 @@ always @(posedge clk) begin
    m_axis_irq_irqn_reg <= m_axis_irq_irqn_next;
    m_axis_irq_tvalid_reg <= m_axis_irq_tvalid_next;
    m_axis_event_tdata_reg <= m_axis_event_tdata_next;
    m_axis_event_tdest_reg <= m_axis_event_tdest_next;
    m_axis_event_tvalid_reg <= m_axis_event_tvalid_next;
    scrub_ptr_reg <= scrub_ptr_next;
    if (queue_mem_wr_en) begin
        queue_enable_reg[queue_mem_addr] <= queue_mem_wr_enable;
        queue_mem_arm[queue_mem_addr] <= queue_mem_wr_arm;
        queue_mem_fire[queue_mem_addr] <= queue_mem_wr_fire;
        queue_mem_cq_irq[queue_mem_addr] <= queue_mem_wr_cq_irq;
        queue_mem_qtype[queue_mem_addr] <= queue_mem_wr_qtype;
        queue_mem_dqn[queue_mem_addr] <= queue_mem_wr_dqn;
        queue_mem_log_size[queue_mem_addr] <= queue_mem_wr_log_size;
@@ -441,6 +511,8 @@ always @(posedge clk) begin
        m_axis_irq_tvalid_reg <= 1'b0;
        m_axis_event_tvalid_reg <= 1'b0;
        scrub_ptr_reg <= '0;
        queue_enable_reg <= '0;