// ========== Copyright Header Begin ========================================== // // OpenSPARC T2 Processor File: dmu_imu_rds_mess_addr_decode.v // Copyright (C) 1995-2007 Sun Microsystems, Inc. All Rights Reserved // 4150 Network Circle, Santa Clara, California 95054, U.S.A. // // * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; version 2 of the License. // // This 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 program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // For the avoidance of doubt, and except that if any non-GPL license // choice is available it will apply instead, Sun elects to use only // the General Public License version 2 (GPLv2) at this time for any // software where a choice of GPL license versions is made // available with the language indicating that GPLv2 or any later version // may be used, or where a choice of which version of the GPL is applied is // otherwise unspecified. // // Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, // CA 95054 USA or visit www.sun.com if you need additional information or // have any questions. // // ========== Copyright Header End ============================================ module dmu_imu_rds_mess_addr_decode ( clk, rst_l, daemon_csrbus_valid, daemon_csrbus_addr, csrbus_src_bus, daemon_csrbus_wr, daemon_csrbus_wr_out, daemon_csrbus_wr_data, daemon_csrbus_wr_data_out, daemon_csrbus_mapped, csrbus_acc_vio, daemon_transaction_in_progress, instance_id, daemon_csrbus_done, err_cor_mapping_select_pulse, err_nonfatal_mapping_select_pulse, err_fatal_mapping_select_pulse, pm_pme_mapping_select_pulse, pme_to_ack_mapping_select_pulse ); //==================================================================== // Polarity declarations //==================================================================== input clk; // Clock signal input rst_l; // Reset input daemon_csrbus_valid; // Daemon_Valid input [`FIRE_CSRBUS_ADDR_WIDTH - 1:0] daemon_csrbus_addr; // Daemon_Addr input [1:0] csrbus_src_bus; // Source bus input daemon_csrbus_wr; // Read/Write signal output daemon_csrbus_wr_out; // Read/Write signal input [`FIRE_CSRBUS_DATA_WIDTH-1:0] daemon_csrbus_wr_data; // Write data output [`FIRE_CSRBUS_DATA_WIDTH-1:0] daemon_csrbus_wr_data_out; // Write data output daemon_csrbus_mapped; // mapped output csrbus_acc_vio; // acc_vio input daemon_transaction_in_progress; // daemon_transaction_in_progress input instance_id; // Instance ID output daemon_csrbus_done; // Operation is done output err_cor_mapping_select_pulse; // select signal output err_nonfatal_mapping_select_pulse; // select signal output err_fatal_mapping_select_pulse; // select signal output pm_pme_mapping_select_pulse; // select signal output pme_to_ack_mapping_select_pulse; // select signal //==================================================================== // Type declarations //==================================================================== wire clk; // Clock signal wire rst_l; // Reset wire daemon_csrbus_valid; // Daemon_Valid wire [`FIRE_CSRBUS_ADDR_WIDTH - 1:0] daemon_csrbus_addr; // Daemon_Addr wire [1:0] csrbus_src_bus; // Source bus wire daemon_csrbus_wr; // Read/Write signal reg daemon_csrbus_wr_out; // Read/Write signal wire [`FIRE_CSRBUS_DATA_WIDTH-1:0] daemon_csrbus_wr_data; // Write data reg [`FIRE_CSRBUS_DATA_WIDTH-1:0] daemon_csrbus_wr_data_out; // Write data wire daemon_csrbus_mapped; // mapped wire csrbus_acc_vio; // acc_vio wire daemon_transaction_in_progress; // daemon_transaction_in_progress wire instance_id; // Instance ID wire daemon_csrbus_done; // Operation is done reg err_cor_mapping_select_pulse; // select signal reg err_nonfatal_mapping_select_pulse; // select signal reg err_fatal_mapping_select_pulse; // select signal reg pm_pme_mapping_select_pulse; // select signal reg pme_to_ack_mapping_select_pulse; // select signal //==================================================================== // Clocked valid //==================================================================== reg clocked_valid; reg clocked_valid_pulse; always @(posedge clk) begin if(~rst_l) begin clocked_valid <= 1'b0; clocked_valid_pulse <= 1'b0; end else begin clocked_valid <= daemon_csrbus_valid; clocked_valid_pulse <= daemon_csrbus_valid & ~clocked_valid; end end //==================================================================== // Address Decode //==================================================================== reg err_cor_mapping_addr_decoded; reg err_nonfatal_mapping_addr_decoded; reg err_fatal_mapping_addr_decoded; reg pm_pme_mapping_addr_decoded; reg pme_to_ack_mapping_addr_decoded; always @(daemon_csrbus_addr or daemon_csrbus_valid or instance_id) begin if (~daemon_csrbus_valid) begin err_cor_mapping_addr_decoded = 1'b0; err_nonfatal_mapping_addr_decoded = 1'b0; err_fatal_mapping_addr_decoded = 1'b0; pm_pme_mapping_addr_decoded = 1'b0; pme_to_ack_mapping_addr_decoded = 1'b0; end else case (instance_id) `FIRE_DLC_IMU_RDS_MESS_INSTANCE_ID_VALUE_A: begin err_cor_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_A_ERR_COR_MAPPING_HW_ADDR; err_nonfatal_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_A_ERR_NONFATAL_MAPPING_HW_ADDR; err_fatal_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_A_ERR_FATAL_MAPPING_HW_ADDR; pm_pme_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_A_PM_PME_MAPPING_HW_ADDR; pme_to_ack_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_A_PME_TO_ACK_MAPPING_HW_ADDR; end `FIRE_DLC_IMU_RDS_MESS_INSTANCE_ID_VALUE_B: begin err_cor_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_B_ERR_COR_MAPPING_HW_ADDR; err_nonfatal_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_B_ERR_NONFATAL_MAPPING_HW_ADDR; err_fatal_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_B_ERR_FATAL_MAPPING_HW_ADDR; pm_pme_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_B_PM_PME_MAPPING_HW_ADDR; pme_to_ack_mapping_addr_decoded = daemon_csrbus_addr[26:0] == `FIRE_DLC_IMU_RDS_MESS_CSR_B_PME_TO_ACK_MAPPING_HW_ADDR; end default: begin err_cor_mapping_addr_decoded = 1'b0; err_nonfatal_mapping_addr_decoded = 1'b0; err_fatal_mapping_addr_decoded = 1'b0; pm_pme_mapping_addr_decoded = 1'b0; pme_to_ack_mapping_addr_decoded = 1'b0; // vlint flag_system_call off // synopsys translate_off if(daemon_csrbus_valid) begin // axis tbcall_region `ifdef PR_ERROR if ($time > 1 && rst_l) `PR_ERROR("dmu_imu_rds_mess_addr_decode",`MON_ERROR,"ERROR: Instance ID for module dmu_imu_rds_mess_csr is bad"); `endif end // end of tbcall_region // synopsys translate_on // vlint flag_system_call on end endcase end //==================================================================== // Register violations //==================================================================== //----- reg_acc_vio: err_cor_mapping reg err_cor_mapping_acc_vio; always @(csrbus_src_bus or daemon_csrbus_wr or err_cor_mapping_addr_decoded or daemon_transaction_in_progress) begin if (daemon_transaction_in_progress | ~err_cor_mapping_addr_decoded) err_cor_mapping_acc_vio = 1'b0; else case ({csrbus_src_bus, daemon_csrbus_wr}) // reads {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b0}: err_cor_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b0}: err_cor_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b0}: err_cor_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b0}: err_cor_mapping_acc_vio = 1'b0; // writes {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b1}: err_cor_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b1}: err_cor_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b1}: err_cor_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b1}: err_cor_mapping_acc_vio = 1'b0; default: begin err_cor_mapping_acc_vio = 1'b0; begin // axis tbcall_region // vlint flag_system_call off // synopsys translate_off `ifdef PR_ERROR if ($time > 1 && rst_l) `PR_ERROR("dmu_imu_rds_mess_addr_decode",`MON_ERROR,"acc_vio: default case of dmu_imu_rds_mess_csr_a_err_cor_mapping"); `endif // synopsys translate_on // vlint flag_system_call on end // end of tbcall_region end endcase end //----- reg_acc_vio: err_nonfatal_mapping reg err_nonfatal_mapping_acc_vio; always @(csrbus_src_bus or daemon_csrbus_wr or err_nonfatal_mapping_addr_decoded or daemon_transaction_in_progress) begin if (daemon_transaction_in_progress | ~err_nonfatal_mapping_addr_decoded) err_nonfatal_mapping_acc_vio = 1'b0; else case ({csrbus_src_bus, daemon_csrbus_wr}) // reads {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b0}: err_nonfatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b0}: err_nonfatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b0}: err_nonfatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b0}: err_nonfatal_mapping_acc_vio = 1'b0; // writes {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b1}: err_nonfatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b1}: err_nonfatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b1}: err_nonfatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b1}: err_nonfatal_mapping_acc_vio = 1'b0; default: begin err_nonfatal_mapping_acc_vio = 1'b0; begin // axis tbcall_region // vlint flag_system_call off // synopsys translate_off `ifdef PR_ERROR if ($time > 1 && rst_l) `PR_ERROR("dmu_imu_rds_mess_addr_decode",`MON_ERROR,"acc_vio: default case of dmu_imu_rds_mess_csr_a_err_nonfatal_mapping"); `endif // synopsys translate_on // vlint flag_system_call on end // end of tbcall_region end endcase end //----- reg_acc_vio: err_fatal_mapping reg err_fatal_mapping_acc_vio; always @(csrbus_src_bus or daemon_csrbus_wr or err_fatal_mapping_addr_decoded or daemon_transaction_in_progress) begin if (daemon_transaction_in_progress | ~err_fatal_mapping_addr_decoded) err_fatal_mapping_acc_vio = 1'b0; else case ({csrbus_src_bus, daemon_csrbus_wr}) // reads {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b0}: err_fatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b0}: err_fatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b0}: err_fatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b0}: err_fatal_mapping_acc_vio = 1'b0; // writes {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b1}: err_fatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b1}: err_fatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b1}: err_fatal_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b1}: err_fatal_mapping_acc_vio = 1'b0; default: begin err_fatal_mapping_acc_vio = 1'b0; begin // axis tbcall_region // vlint flag_system_call off // synopsys translate_off `ifdef PR_ERROR if ($time > 1 && rst_l) `PR_ERROR("dmu_imu_rds_mess_addr_decode",`MON_ERROR,"acc_vio: default case of dmu_imu_rds_mess_csr_a_err_fatal_mapping"); `endif // synopsys translate_on // vlint flag_system_call on end // end of tbcall_region end endcase end //----- reg_acc_vio: pm_pme_mapping reg pm_pme_mapping_acc_vio; always @(csrbus_src_bus or daemon_csrbus_wr or pm_pme_mapping_addr_decoded or daemon_transaction_in_progress) begin if (daemon_transaction_in_progress | ~pm_pme_mapping_addr_decoded) pm_pme_mapping_acc_vio = 1'b0; else case ({csrbus_src_bus, daemon_csrbus_wr}) // reads {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b0}: pm_pme_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b0}: pm_pme_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b0}: pm_pme_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b0}: pm_pme_mapping_acc_vio = 1'b0; // writes {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b1}: pm_pme_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b1}: pm_pme_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b1}: pm_pme_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b1}: pm_pme_mapping_acc_vio = 1'b0; default: begin pm_pme_mapping_acc_vio = 1'b0; begin // axis tbcall_region // vlint flag_system_call off // synopsys translate_off `ifdef PR_ERROR if ($time > 1 && rst_l) `PR_ERROR("dmu_imu_rds_mess_addr_decode",`MON_ERROR,"acc_vio: default case of dmu_imu_rds_mess_csr_a_pm_pme_mapping"); `endif // synopsys translate_on // vlint flag_system_call on end // end of tbcall_region end endcase end //----- reg_acc_vio: pme_to_ack_mapping reg pme_to_ack_mapping_acc_vio; always @(csrbus_src_bus or daemon_csrbus_wr or pme_to_ack_mapping_addr_decoded or daemon_transaction_in_progress) begin if (daemon_transaction_in_progress | ~pme_to_ack_mapping_addr_decoded) pme_to_ack_mapping_acc_vio = 1'b0; else case ({csrbus_src_bus, daemon_csrbus_wr}) // reads {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b0}: pme_to_ack_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b0}: pme_to_ack_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b0}: pme_to_ack_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b0}: pme_to_ack_mapping_acc_vio = 1'b0; // writes {`FIRE_CSRBUS_SRC_BUS_ENC_JTAG, 1'b1}: pme_to_ack_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_SLOW, 1'b1}: pme_to_ack_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_MED, 1'b1}: pme_to_ack_mapping_acc_vio = 1'b0; {`FIRE_CSRBUS_SRC_BUS_ENC_PIO_FAST, 1'b1}: pme_to_ack_mapping_acc_vio = 1'b0; default: begin pme_to_ack_mapping_acc_vio = 1'b0; begin // axis tbcall_region // vlint flag_system_call off // synopsys translate_off `ifdef PR_ERROR if ($time > 1 && rst_l) `PR_ERROR("dmu_imu_rds_mess_addr_decode",`MON_ERROR,"acc_vio: default case of dmu_imu_rds_mess_csr_a_pme_to_ack_mapping"); `endif // synopsys translate_on // vlint flag_system_call on end // end of tbcall_region end endcase end //==================================================================== // Status: daemon_csrbus_mapped / csrbus_acc_vio //==================================================================== //----- OUTPUT: daemon_csrbus_mapped assign daemon_csrbus_mapped = clocked_valid_pulse & ( err_cor_mapping_addr_decoded | err_nonfatal_mapping_addr_decoded | err_fatal_mapping_addr_decoded | pm_pme_mapping_addr_decoded | pme_to_ack_mapping_addr_decoded ); // daemon_csrbus_mapped gets asserted after fixed number of cycles // after daemon_csrbus_valid become high /* 0in assert_together -name mapped_after_valid -leader $0in_rising_edge($0in_delay(daemon_csrbus_valid, 1)) -follower $0in_rising_edge(daemon_csrbus_mapped) -message ("daemon_csrbus_mapped was not asserted 1 clock cycles from csrbus_valid") -module dmu_imu_rds_mess_addr_decode -clock clk -active $0in_rising_edge(daemon_csrbus_mapped) */ // daemon_csrbus_mapped is a pulse /* 0in assert_timer -name daemon_csrbus_mapped_pulse -var daemon_csrbus_mapped -max 1 -message "daemon_csrbus_mapped pulse length is not 1" -module dmu_imu_rds_mess_addr_decode -clock clk */ //----- OUTPUT: csrbus_acc_vio assign csrbus_acc_vio = clocked_valid_pulse & err_cor_mapping_acc_vio | err_nonfatal_mapping_acc_vio | err_fatal_mapping_acc_vio | pm_pme_mapping_acc_vio | pme_to_ack_mapping_acc_vio; //==================================================================== // Select //==================================================================== always @(posedge clk) begin if(~rst_l) begin err_cor_mapping_select_pulse <= 1'b0; err_nonfatal_mapping_select_pulse <= 1'b0; err_fatal_mapping_select_pulse <= 1'b0; pm_pme_mapping_select_pulse <= 1'b0; pme_to_ack_mapping_select_pulse <= 1'b0; end else begin err_cor_mapping_select_pulse <= ~err_cor_mapping_acc_vio & clocked_valid_pulse & err_cor_mapping_addr_decoded; err_nonfatal_mapping_select_pulse <= ~err_nonfatal_mapping_acc_vio & clocked_valid_pulse & err_nonfatal_mapping_addr_decoded; err_fatal_mapping_select_pulse <= ~err_fatal_mapping_acc_vio & clocked_valid_pulse & err_fatal_mapping_addr_decoded; pm_pme_mapping_select_pulse <= ~pm_pme_mapping_acc_vio & clocked_valid_pulse & pm_pme_mapping_addr_decoded; pme_to_ack_mapping_select_pulse <= ~pme_to_ack_mapping_acc_vio & clocked_valid_pulse & pme_to_ack_mapping_addr_decoded; end end //==================================================================== // daemon_csrbus_wr / daemon_csrbus_wr_data //==================================================================== always @(posedge clk) begin if(~rst_l) begin daemon_csrbus_wr_out <= 1'b0; daemon_csrbus_wr_data_out <= `FIRE_CSRBUS_DATA_WIDTH'b0; end else begin daemon_csrbus_wr_out <= daemon_csrbus_wr; daemon_csrbus_wr_data_out <= daemon_csrbus_wr_data; end end //==================================================================== // Cycle Counter: Used for ExtReadTiming / ExtWriteTiming //==================================================================== //==================================================================== // OUTPUT: daemon_csrbus_done (pipelining) //==================================================================== //----- DONE for internal/extern registers reg stage_1_daemon_csrbus_done_internal_0; reg stage_2_daemon_csrbus_done_internal_0; always @(posedge clk) begin if(~rst_l) begin stage_1_daemon_csrbus_done_internal_0 <= 1'b0; end else begin stage_1_daemon_csrbus_done_internal_0 <= err_cor_mapping_select_pulse | err_nonfatal_mapping_select_pulse | err_fatal_mapping_select_pulse | pm_pme_mapping_select_pulse | pme_to_ack_mapping_select_pulse; end if(~rst_l) begin stage_2_daemon_csrbus_done_internal_0 <= 1'b0; end else begin stage_2_daemon_csrbus_done_internal_0 <= stage_1_daemon_csrbus_done_internal_0; end end //----- OUTPUT: daemon_csrbus_done assign daemon_csrbus_done = daemon_csrbus_valid & ( stage_2_daemon_csrbus_done_internal_0 ); // daemon_csrbus_done gets asserted only when csrbus_valid is high /* 0in assert -name daemon_csrbus_done_high -var daemon_csrbus_valid -active daemon_csrbus_done -message "csrbus_done got asserted while csrbus_valid is low" -module dmu_imu_rds_mess_addr_decode -clock clk */ // daemon_csrbus_done is a pulse /* 0in assert_timer -name daemon_csrbus_done_pulse -var daemon_csrbus_done -max 1 -message "csrbus_done pulse length is not 1" -module dmu_imu_rds_mess_addr_decode -clock clk */ endmodule // dmu_imu_rds_mess_addr_decode