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// ========== Copyright Header Begin ========================================== // // OpenSPARC T1 Processor File: sparc_tlu_intctl.v // Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved. // DO NOT ALTER OR REMOVE COPYRIGHT NOTICES. // // The above named program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public // License version 2 as published by the Free Software Foundation. // // The above named program is distributed in the hope that it will be // useful, but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public // License along with this work; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. // // ========== Copyright Header End ============================================ `ifdef SIMPLY_RISC_TWEAKS `define SIMPLY_RISC_SCANIN .si(0) `else `define SIMPLY_RISC_SCANIN .si() `endif //////////////////////////////////////////////////////////////////////// /* // Module Name: sparc_tlu_intctl // Description: // Contains the code for receiving interrupts from the crossbar, // and sending interrupts out to other processors through the corssbar. // The interrupt receive register (INRR, asi=0x49/VA=0), incoming // vector register (INVR, asi=0x7f/VA=0x40), and interrupt vector // dispatch register (INDR, asi=0x77/VA=0) are implemented in this // block. This block also initiates thread reset/wake up when a // reset packet is received. // */ `include "iop.h" // from intdp.v for now `define INT_THR_HI 12 //////////////////////////////////////////////////////////////////////// // Local header file includes / local defines //////////////////////////////////////////////////////////////////////// `include "tlu.h" module sparc_tlu_intctl(/*AUTOARG*/ // Outputs so, int_rst_l, tlu_ifu_hwint_i3, tlu_ifu_rstthr_i2, tlu_ifu_rstint_i2, tlu_ifu_nukeint_i2, tlu_ifu_resumint_i2, tlu_ifu_pstate_ie, int_tlu_longop_done, inc_ind_ld_int_i1, inc_indr_req_valid, inc_ind_rstthr_i1, // inc_ind_asi_thr, inc_ind_asi_wr_inrr, // inc_ind_asi_rd_invr, inc_ind_asi_inrr, inc_ind_asi_wr_indr, inc_ind_indr_grant, inc_ind_thr_m, tlu_lsu_int_ld_ill_va_w2, inc_indr_req_thrid, tlu_asi_data_nf_vld_w2, tlu_asi_rdata_mxsel_g, // Inputs // modified to abide to the Niagara reset methodology // clk, se, si, reset, const_cpuid, lsu_tlu_cpx_vld, lsu_tlu_cpx_req, rclk, se, sehold, si, rst_tri_en, arst_l, grst_l, const_cpuid, lsu_tlu_cpx_vld, lsu_tlu_cpx_req, lsu_tlu_pcxpkt_ack, tlu_ld_data_vld_g, ind_inc_thrid_i1, ind_inc_type_i1, tlu_int_asi_vld, tlu_int_asi_load, tlu_int_asi_store, tlu_int_asi_thrid, tlu_int_asi_state, tlu_int_tid_m, tlu_int_pstate_ie, int_pending_i2_l, // indr_inc_rst_pkt, tlu_int_redmode, tlu_asi_queue_rd_vld_g, tlu_va_ill_g); // tlu_flush_all_w2 // // modified to abide to the Niagara reset methodology // input clk, se, si, reset; input rclk, se, si; input arst_l, grst_l; input sehold; input rst_tri_en; input [3:0] const_cpuid; input lsu_tlu_cpx_vld; // cpx from lsu input [3:0] lsu_tlu_cpx_req; // cpx req type // the flush bit is included in lsu_tlu_cpx_vld // input lsu_tlu_cpx_nc; input lsu_tlu_pcxpkt_ack; // removed unused pins // input [`INT_THR_HI:0] lsu_tlu_st_rs3_data_g; // input lsu_tlu_pmode; // input [3:0] tlu_int_sftint_pend; input [4:0] ind_inc_thrid_i1; // connect to lsu_tlu_intpkt[12:8] input [1:0] ind_inc_type_i1; // connect to lsu_tlu_intpkt[16] input tlu_int_asi_vld; input tlu_int_asi_load; // read enable input tlu_int_asi_store; // write enable input [1:0] tlu_int_asi_thrid; // thread making asi request input [7:0] tlu_int_asi_state; // asi to be read/written // input tlu_scpd_rd_vld_g; // rdata vld from scratchpad // removed no longer necessary // input tlu_va_all_zero_g; // va address - all zero input tlu_va_ill_g; // illega va range input tlu_asi_queue_rd_vld_g; // rdata vld from asi queues input tlu_ld_data_vld_g; // rdata vld from asi queues // input tlu_flush_all_w2; // flush pipe from tcl input [1:0] tlu_int_tid_m; input [3:0] tlu_int_pstate_ie; // input [3:0] tlu_int_redmode; // from int_dp input [3:0] int_pending_i2_l; // uncleared interrupt // input indr_inc_rst_pkt; // added for timing // input [1:0] lsu_tlu_rst_pkt; output int_rst_l, so; // to ifu output [3:0] tlu_ifu_hwint_i3; // interrupt output [3:0] tlu_ifu_rstthr_i2; // reset, nuke or resume output tlu_ifu_rstint_i2; // reset msg output tlu_ifu_nukeint_i2; // idle/suspend message output tlu_ifu_resumint_i2;// resume message output [3:0] tlu_ifu_pstate_ie; output [3:0] int_tlu_longop_done; // // removed - IFU will derive the signal locally // output [3:0] tlu_ifu_int_activate_i3;// wake up signal for thread // to int_dp output [3:0] inc_ind_ld_int_i1; // ld new interrupt output [3:0] inc_ind_rstthr_i1; // ld new rst vector // convert the signal back to non-inverting version for grape // output [3:0] inc_ind_asi_thr_l; // choose asi op thread // output [3:0] inc_ind_asi_thr; // choose asi op thread // output [3:0] inc_ind_asi_wr_inrr; // write to INRR (per thread) // output [3:0] inc_ind_asi_wr_indr; // write to INDR // output [3:0] inc_ind_asi_rd_invr; // read INVR and // reset corr. bit in INRR // obsolete output // output inc_ind_asi_inrr; // choose which reg to read // convert the signal back to non-inverting version for grape // output [3:0] inc_ind_indr_grant_l; // move on to next pcx pkt output [3:0] inc_ind_indr_grant; // move on to next pcx pkt // convert the signal back to non-inverting version for grape // output [3:0] inc_ind_thr_m_l; // M stage thread output [3:0] inc_ind_thr_m; // M stage thread // pcx pkt fields output inc_indr_req_valid; // valid bit for PCX int pkt output [1:0] inc_indr_req_thrid; // thread sending pcx int pkt // to tlu // output tlu_lsu_int_ldxa_vld_w2; // valid asi data from int or scpd output tlu_asi_data_nf_vld_w2; // valid asi data from int or scpd output tlu_lsu_int_ld_ill_va_w2; // illega va range - load // to intdp output [3:0] tlu_asi_rdata_mxsel_g; // mux selects to the asi rdata // local signals // wire indr_inc_rst_pkt; wire inc_ind_asi_inrr; // choose which reg to read wire int_tlu_asi_data_vld_g, int_tlu_asi_data_vld_w2; wire int_ld_ill_va_g, int_ld_ill_va_w2; wire hw_int_i1, rst_int_i1, nuke_int_i1, resum_int_i1; wire [3:0] int_thr_i1, rstthr_i1, asi_thr; wire [3:0] int_pending_i2; // int_activate_i2; wire asi_write, asi_read, asi_invr, asi_indr; wire [3:0] indr_vld, indr_rst, indr_vld_next, indr_grant; // added for bug 3945 wire [3:0] indr_req_vec; wire indr_req_valid_disable; // wire [3:0] int_or_redrst; wire [3:0] intd_done; // wire red_thread, valid_dest; wire local_rst; // local reset wire local_rst_l; // local reset wire clk; // local clk // // Code Starts Here // //========================================================================================= // reset //========================================================================================= dffrl_async dffrl_local_rst_l( .din (grst_l), .clk (clk), .rst_l(arst_l), .q (local_rst_l), .se (se), `SIMPLY_RISC_SCANIN, .so () ); assign local_rst = ~local_rst_l; assign int_rst_l = local_rst_l; // create local clk assign clk = rclk; //------------------------------------- // Basic Operation //------------------------------------- sink s1(const_cpuid[3]); assign tlu_ifu_pstate_ie = tlu_int_pstate_ie; // process cpx interrupt type // int = 00 // the flush bit from cpx packet is now included in the // lsu_tlu_cpx_vld qualification assign hw_int_i1 = (lsu_tlu_cpx_vld & // (lsu_tlu_cpx_req == `INT_RET) & ~lsu_tlu_cpx_nc & (lsu_tlu_cpx_req == `INT_RET) & (ind_inc_thrid_i1[4:2] == const_cpuid[2:0])) ? ~ind_inc_type_i1[1] & ~ind_inc_type_i1[0] : 1'b0; //reset = 01 // the flush bit from cpx packet is now included in the // lsu_tlu_cpx_vld qualification assign rst_int_i1 = (lsu_tlu_cpx_vld & // (lsu_tlu_cpx_req == `INT_RET) && ~lsu_tlu_cpx_nc & (lsu_tlu_cpx_req == `INT_RET) & (ind_inc_thrid_i1[4:2] == const_cpuid[2:0])) ? ~ind_inc_type_i1[1] & ind_inc_type_i1[0] : 1'b0; // idle/nuke = 10 // the flush bit from cpx packet is now included in the // lsu_tlu_cpx_vld qualification assign nuke_int_i1 = (lsu_tlu_cpx_vld & // (lsu_tlu_cpx_req == `INT_RET) & ~lsu_tlu_cpx_nc & (lsu_tlu_cpx_req == `INT_RET) & (ind_inc_thrid_i1[4:2] == const_cpuid[2:0])) ? ind_inc_type_i1[1] & ~ind_inc_type_i1[0] : 1'b0; // resume = 11 // the flush bit from cpx packet is now included in the // lsu_tlu_cpx_vld qualification assign resum_int_i1 = (lsu_tlu_cpx_vld & // (lsu_tlu_cpx_req == `INT_RET) & ~lsu_tlu_cpx_nc & (lsu_tlu_cpx_req == `INT_RET) & (ind_inc_thrid_i1[4:2] == const_cpuid[2:0])) ? ind_inc_type_i1[1] & ind_inc_type_i1[0] : 1'b0; dffr_s #1 rstint_ff(.din (rst_int_i1), .q (tlu_ifu_rstint_i2), .clk (clk), // // modified to abide to the Niagara reset methodology // .rst (reset), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so()); dffr_s #1 nukint_ff(.din (nuke_int_i1), .q (tlu_ifu_nukeint_i2), .clk (clk), // // modified to abide to the Niagara reset methodology // .rst (reset), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so()); dffr_s #1 resint_ff(.din (resum_int_i1), .q (tlu_ifu_resumint_i2), .clk (clk), // // modified to abide to the Niagara reset methodology // .rst (reset), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so()); // decode int thread id assign int_thr_i1[0] = ~ind_inc_thrid_i1[1] & ~ind_inc_thrid_i1[0]; assign int_thr_i1[1] = ~ind_inc_thrid_i1[1] & ind_inc_thrid_i1[0]; assign int_thr_i1[2] = ind_inc_thrid_i1[1] & ~ind_inc_thrid_i1[0]; assign int_thr_i1[3] = ind_inc_thrid_i1[1] & ind_inc_thrid_i1[0]; assign inc_ind_ld_int_i1 = {4{hw_int_i1}} & int_thr_i1; assign inc_ind_rstthr_i1 = {4{rst_int_i1}} & int_thr_i1; assign rstthr_i1 = {4{rst_int_i1 | nuke_int_i1 | resum_int_i1}} & int_thr_i1; // decode thr_m // convert the signal back to non-inverting version for grape /* assign inc_ind_thr_m_l[0] = ~(~tlu_int_tid_m[1] & ~tlu_int_tid_m[0]); assign inc_ind_thr_m_l[1] = ~(~tlu_int_tid_m[1] & tlu_int_tid_m[0]); assign inc_ind_thr_m_l[2] = ~( tlu_int_tid_m[1] & ~tlu_int_tid_m[0]); assign inc_ind_thr_m_l[3] = ~( tlu_int_tid_m[1] & tlu_int_tid_m[0]); */ assign inc_ind_thr_m[0] = ~tlu_int_tid_m[1] & ~tlu_int_tid_m[0]; assign inc_ind_thr_m[1] = ~tlu_int_tid_m[1] & tlu_int_tid_m[0]; assign inc_ind_thr_m[2] = tlu_int_tid_m[1] & ~tlu_int_tid_m[0]; assign inc_ind_thr_m[3] = tlu_int_tid_m[1] & tlu_int_tid_m[0]; // Interrupt continues to be signalled even 1 cycle after read is // done. This should not be a problem, since the lsu will probably // burn one cycle to complete the read by forwarding it to the reg // file. Otherwise, just burn another cycle in the IFU before // starting the thread (this is also done right now). assign int_pending_i2 = ~int_pending_i2_l; // removed IFU will derive the siganl locally /* assign int_activate_i2 = ~int_pending_i2_l | tlu_int_sftint_pend; // send message to SWL to wake up thread if it is halted dff_s #4 act_signal_reg(.din (int_activate_i2[3:0]), .q (tlu_ifu_int_activate_i3[3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so()); */ // ask IFU to schedule interrupt dff_s #4 int_signal_reg(.din (int_pending_i2[3:0]), .q (tlu_ifu_hwint_i3[3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so()); dff_s #4 rst_signal_reg(.din (rstthr_i1[3:0]), .q (tlu_ifu_rstthr_i2[3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so()); //---------------------------------- // ASI Registers //---------------------------------- //ASI_INTR_RECEIVE: 0x72 //ASI_UDB_INTR_W: 0x73 //ASI_UDB_INTR_R: 0x74 //ASI_MESSAGE_MASK: 0x7D // decode asi thread assign asi_thr[0] = ~tlu_int_asi_thrid[1] & ~tlu_int_asi_thrid[0]; assign asi_thr[1] = ~tlu_int_asi_thrid[1] & tlu_int_asi_thrid[0]; assign asi_thr[2] = tlu_int_asi_thrid[1] & ~tlu_int_asi_thrid[0]; assign asi_thr[3] = tlu_int_asi_thrid[1] & tlu_int_asi_thrid[0]; // convert the signal back to non-inverting version for grape // assign inc_ind_asi_thr_l = ~asi_thr; // assign inc_ind_asi_thr = asi_thr; // read or write op assign asi_write = tlu_int_asi_vld & tlu_int_asi_store; assign asi_read = tlu_int_asi_vld & tlu_int_asi_load; // decode asi target // ASI_INTR_RECEIVE assign inc_ind_asi_inrr = ~tlu_int_asi_state[7] & tlu_int_asi_state[6] & tlu_int_asi_state[5] & tlu_int_asi_state[4] & ~tlu_int_asi_state[3] & ~tlu_int_asi_state[2] & tlu_int_asi_state[1] & ~tlu_int_asi_state[0]; // 0x72 // need to also check if VA=0x40 // what else is mapped to this asi? // ASI_UDB_INTR_R assign asi_invr = ~tlu_int_asi_state[7] & tlu_int_asi_state[6] & tlu_int_asi_state[5] & tlu_int_asi_state[4] & ~tlu_int_asi_state[3] & tlu_int_asi_state[2] & ~tlu_int_asi_state[1] & ~tlu_int_asi_state[0]; // 0x74 // VA<63:19>=0 is not checked // ASI_UDB_INTR_W assign asi_indr = ~tlu_int_asi_state[7] & tlu_int_asi_state[6] & tlu_int_asi_state[5] & tlu_int_asi_state[4] & ~tlu_int_asi_state[3] & ~tlu_int_asi_state[2] & tlu_int_asi_state[1] & tlu_int_asi_state[0]; // 0x73 /* // ASI_MESSAGE_MASK_REG // not implemented any more assign inc_ind_asi_wr_inrr = asi_thr & {4{inc_ind_asi_inrr & asi_write}}; assign inc_ind_asi_wr_indr = asi_thr & {4{asi_indr & asi_write}}; assign inc_ind_asi_rd_invr = asi_thr & {4{asi_invr & asi_read}}; assign red_thread = (tlu_int_redmode[0] & asi_thr[0] | tlu_int_redmode[1] & asi_thr[1] | tlu_int_redmode[2] & asi_thr[2] | tlu_int_redmode[3] & asi_thr[3]); */ // modified for bug 2109 // modified for one-hot mux problem and support of macro test // assign tlu_asi_rdata_mxsel_g[0] = asi_invr & ~(rst_tri_en | sehold); assign tlu_asi_rdata_mxsel_g[1] = inc_ind_asi_inrr & ~(rst_tri_en | asi_invr | sehold); assign tlu_asi_rdata_mxsel_g[2] = ~((|tlu_asi_rdata_mxsel_g[1:0]) | tlu_asi_rdata_mxsel_g[3]); assign tlu_asi_rdata_mxsel_g[3] = tlu_asi_queue_rd_vld_g & ~(rst_tri_en | asi_invr | sehold | inc_ind_asi_inrr); // assign int_tlu_asi_data_vld_g = ((asi_invr | inc_ind_asi_inrr) & asi_read) | tlu_ld_data_vld_g; dffr_s dffr_int_tlu_asi_data_vld_w2 ( .din (int_tlu_asi_data_vld_g), .q (int_tlu_asi_data_vld_w2), .clk (clk), .rst (local_rst), .se (1'b0), `SIMPLY_RISC_SCANIN, .so () ); // modified for timing // assign tlu_lsu_int_ldxa_vld_w2 = // int_tlu_asi_data_vld_w2 & ~tlu_flush_all_w2; assign tlu_asi_data_nf_vld_w2 = int_tlu_asi_data_vld_w2; // // illegal va range // /* assign int_ld_ill_va_g = ((asi_invr | inc_ind_asi_inrr) & asi_read & ~tlu_va_all_zero_g) | tlu_va_ill_g; */ assign int_ld_ill_va_g = tlu_va_ill_g; dffr_s dffr_tlu_lsu_int_ld_ill_va_w2 ( .din (int_ld_ill_va_g), // .q (tlu_lsu_int_ld_ill_va_w2), .q (int_ld_ill_va_w2), .clk (clk), .rst (local_rst), .se (1'b0), `SIMPLY_RISC_SCANIN, .so () ); assign tlu_lsu_int_ld_ill_va_w2 = int_ld_ill_va_w2; // Write to INDR // Can send reset pkt's only in red mode // modified for timing // modified for bug3170 /* assign int_or_redrst[3:0] = ({4{~indr_inc_rst_pkt}} | tlu_int_redmode[3:0]) & asi_thr[3:0]; assign indr_vld_next[3:0] = inc_ind_asi_wr_indr[3:0] & int_or_redrst[3:0] | // set indr_vld[3:0] & ~indr_rst[3:0]; // reset // // original code assign indr_vld_next[3] = (asi_indr & asi_write & asi_thr[3] & (~(|lsu_tlu_rst_pkt[1:0]) | tlu_int_redmode[3])) | (indr_vld[3] & ~indr_rst[3]); assign indr_vld_next[2] = (asi_indr & asi_write & asi_thr[2] & (~(|lsu_tlu_rst_pkt[1:0]) | tlu_int_redmode[2])) | (indr_vld[2] & ~indr_rst[2]); assign indr_vld_next[1] = (asi_indr & asi_write & asi_thr[1] & (~(|lsu_tlu_rst_pkt[1:0]) | tlu_int_redmode[1])) | (indr_vld[1] & ~indr_rst[1]); assign indr_vld_next[0] = (asi_indr & asi_write & asi_thr[0] & (~(|lsu_tlu_rst_pkt[1:0]) | tlu_int_redmode[0])) | (indr_vld[0] & ~indr_rst[0]); */ assign indr_vld_next[3] = (asi_indr & asi_write & asi_thr[3]) | (indr_vld[3] & ~indr_rst[3]); assign indr_vld_next[2] = (asi_indr & asi_write & asi_thr[2]) | (indr_vld[2] & ~indr_rst[2]); assign indr_vld_next[1] = (asi_indr & asi_write & asi_thr[1]) | (indr_vld[1] & ~indr_rst[1]); assign indr_vld_next[0] = (asi_indr & asi_write & asi_thr[0]) | (indr_vld[0] & ~indr_rst[0]); dff_s #4 indr_vld_reg(.din (indr_vld_next[3:0]), .q (indr_vld[3:0]), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so()); // // modified for bug 3945 dffr_s dffr_indr_req_valid_disable( .din (|indr_vld[3:0]), .q (indr_req_valid_disable), .clk (clk), .rst (local_rst | lsu_tlu_pcxpkt_ack), .se (se), `SIMPLY_RISC_SCANIN, .so()); dffe_s #(4) dffe_indr_req_vec( .din (indr_vld_next[3:0]), .q (indr_req_vec[3:0]), .en (~indr_req_valid_disable), .clk (clk), .se (se), `SIMPLY_RISC_SCANIN, .so()); // Round robin scheduler for indr request to pcx sparc_ifu_rndrob indr_sched( // .req_vec (indr_vld[3:0]), .req_vec (indr_req_vec[3:0]), .advance (lsu_tlu_pcxpkt_ack), .rst_tri_enable (rst_tri_en), .clk (clk), .reset (local_rst), .se (se), .si (si), .grant_vec (indr_grant[3:0]), .so ()); // convert the signal back to non-inverting version for grape // modified to fix one-hot indetermination assign inc_ind_indr_grant[0] = ~(|inc_ind_indr_grant[3:1]); assign inc_ind_indr_grant[1] = indr_grant[1]; assign inc_ind_indr_grant[2] = indr_grant[2] & ~indr_grant[1]; assign inc_ind_indr_grant[3] = indr_grant[3] & ~(|inc_ind_indr_grant[2:1]); // assign indr_rst[3:0] = {4{local_rst}} | (indr_grant[3:0] & {4{lsu_tlu_pcxpkt_ack}}); assign intd_done[3:0] = (indr_grant[3:0] & indr_vld[3:0] & {4{lsu_tlu_pcxpkt_ack}}); dffr_s #(4) intd_reg( .din (intd_done[3:0]), .q (int_tlu_longop_done[3:0]), .clk (clk), .rst (local_rst), .se (se), `SIMPLY_RISC_SCANIN, .so()); // INDR pcx request control signals // modified for bug 3945 // assign inc_indr_req_valid = (|indr_vld[3:0]) & ~lsu_tlu_pcxpkt_ack; assign inc_indr_req_valid = indr_req_valid_disable; assign inc_indr_req_thrid[1] = indr_grant[3] | indr_grant[2]; assign inc_indr_req_thrid[0] = indr_grant[3] | indr_grant[1]; endmodule // sparc_tlu_intctl