#include #include #include #include #include #include "mapping_table.h" #include "mips32.h" #include "iss2_simhelper.h" #include "vci_simple_ram.h" #include "vci_multi_tty.h" //#include "vci_vgsb.h" //#include "vci_vgmn.h" #include "vci_simple_ring_network.h" #include "vci_mem_cache_v1.h" #include "vci_cc_xcache_wrapper_multi.h" #include "vci_logger.h" #ifdef USE_GDB_SERVER #include "iss/gdbserver.h" #endif #include "segmentation.h" int _main(int argc, char *argv[]) { using namespace sc_core; // Avoid repeating these everywhere using soclib::common::IntTab; using soclib::common::Segment; // Define VCI parameters typedef soclib::caba::VciParams<4,8,32,1,1,1,8,6,6,1> vci_param; typedef soclib::common::Iss2Simhelper proc_iss; // Mapping table soclib::common::MappingTable maptabp(32, IntTab(8), IntTab(8), 0x00300000); maptabp.add(Segment("reset", RESET_BASE, RESET_SIZE, IntTab(2), true)); maptabp.add(Segment("excep", EXCEP_BASE, EXCEP_SIZE, IntTab(2), true)); maptabp.add(Segment("text" , TEXT_BASE , TEXT_SIZE , IntTab(2), true)); maptabp.add(Segment("tty" , TTY_BASE , TTY_SIZE , IntTab(1), false)); maptabp.add(Segment("mc_r" , MC_R_BASE , MC_R_SIZE , IntTab(2), false, true, IntTab(0))); maptabp.add(Segment("mc_m" , MC_M_BASE , MC_M_SIZE , IntTab(2), true )); maptabp.add(Segment("ptba" , PTD_ADDR , TAB_SIZE , IntTab(2), true)); std::cout << maptabp << std::endl; soclib::common::MappingTable maptabc(32, IntTab(8), IntTab(8), 0x00300000); maptabc.add(Segment("c_proc0" , C_PROC0_BASE , C_PROC0_SIZE , IntTab(0), false, true, IntTab(0))); maptabc.add(Segment("c_proc1" , C_PROC1_BASE , C_PROC1_SIZE , IntTab(1), false, true, IntTab(1))); maptabc.add(Segment("c_proc2" , C_PROC2_BASE , C_PROC2_SIZE , IntTab(2), false, true, IntTab(2))); maptabc.add(Segment("c_proc3" , C_PROC3_BASE , C_PROC3_SIZE , IntTab(3), false, true, IntTab(3))); maptabc.add(Segment("mc_r" , MC_R_BASE , MC_R_SIZE , IntTab(4), false, false)); maptabc.add(Segment("mc_m" , MC_M_BASE , MC_M_SIZE , IntTab(4), false, false)); maptabc.add(Segment("reset", RESET_BASE, RESET_SIZE, IntTab(4), false, false)); maptabc.add(Segment("excep", EXCEP_BASE, EXCEP_SIZE, IntTab(4), false, false)); maptabc.add(Segment("text" , TEXT_BASE , TEXT_SIZE , IntTab(4), false, false)); maptabc.add(Segment("ptba" , PTD_ADDR , TAB_SIZE , IntTab(4), false, false)); std::cout << maptabc << std::endl; soclib::common::MappingTable maptabx(32, IntTab(8), IntTab(8), 0x00300000); maptabx.add(Segment("xram" , MC_M_BASE , MC_M_SIZE , IntTab(0), false)); maptabx.add(Segment("reset", RESET_BASE, RESET_SIZE, IntTab(0), false)); maptabx.add(Segment("excep", EXCEP_BASE, EXCEP_SIZE, IntTab(0), false)); maptabx.add(Segment("text" , TEXT_BASE , TEXT_SIZE , IntTab(0), false)); maptabx.add(Segment("ptba" , PTD_ADDR , TAB_SIZE , IntTab(0), false)); std::cout << maptabx << std::endl; // Signals sc_clock signal_clk("clk"); sc_signal signal_resetn("resetn"); sc_signal signal_proc0_it0("proc0_it0"); sc_signal signal_proc0_it1("proc0_it1"); sc_signal signal_proc0_it2("proc0_it2"); sc_signal signal_proc0_it3("proc0_it3"); sc_signal signal_proc0_it4("proc0_it4"); sc_signal signal_proc0_it5("proc0_it5"); sc_signal signal_proc1_it0("proc1_it0"); sc_signal signal_proc1_it1("proc1_it1"); sc_signal signal_proc1_it2("proc1_it2"); sc_signal signal_proc1_it3("proc1_it3"); sc_signal signal_proc1_it4("proc1_it4"); sc_signal signal_proc1_it5("proc1_it5"); sc_signal signal_proc2_it0("proc2_it0"); sc_signal signal_proc2_it1("proc2_it1"); sc_signal signal_proc2_it2("proc2_it2"); sc_signal signal_proc2_it3("proc2_it3"); sc_signal signal_proc2_it4("proc2_it4"); sc_signal signal_proc2_it5("proc2_it5"); sc_signal signal_proc3_it0("proc3_it0"); sc_signal signal_proc3_it1("proc3_it1"); sc_signal signal_proc3_it2("proc3_it2"); sc_signal signal_proc3_it3("proc3_it3"); sc_signal signal_proc3_it4("proc3_it4"); sc_signal signal_proc3_it5("proc3_it5"); soclib::caba::VciSignals signal_vci_ini_d_proc0("vci_ini_d_proc0"); soclib::caba::VciSignals signal_vci_ini_c_proc0("vci_ini_c_proc0"); soclib::caba::VciSignals signal_vci_tgt_proc0("vci_tgt_proc0"); soclib::caba::VciSignals signal_vci_ini_d_proc1("vci_ini_d_proc1"); soclib::caba::VciSignals signal_vci_ini_c_proc1("vci_ini_c_proc1"); soclib::caba::VciSignals signal_vci_tgt_proc1("vci_tgt_proc1"); soclib::caba::VciSignals signal_vci_ini_d_proc2("vci_ini_d_proc2"); soclib::caba::VciSignals signal_vci_ini_c_proc2("vci_ini_c_proc2"); soclib::caba::VciSignals signal_vci_tgt_proc2("vci_tgt_proc2"); soclib::caba::VciSignals signal_vci_ini_d_proc3("vci_ini_d_proc3"); soclib::caba::VciSignals signal_vci_ini_c_proc3("vci_ini_c_proc3"); soclib::caba::VciSignals signal_vci_tgt_proc3("vci_tgt_proc3"); soclib::caba::VciSignals signal_vci_tgt_tty("vci_tgt_tty"); soclib::caba::VciSignals signal_vci_tgt_rom("vci_tgt_rom"); soclib::caba::VciSignals signal_vci_tgt_xram("vci_tgt_xram"); soclib::caba::VciSignals signal_vci_ixr_memc("vci_ixr_memc"); soclib::caba::VciSignals signal_vci_ini_memc("vci_ini_memc"); soclib::caba::VciSignals signal_vci_tgt_memc("vci_tgt_memc"); soclib::caba::VciSignals signal_vci_tgt_cleanup_memc("vci_tgt_cleanup_memc"); sc_signal signal_tty_irq0("signal_tty_irq0"); sc_signal signal_tty_irq1("signal_tty_irq1"); sc_signal signal_tty_irq2("signal_tty_irq2"); sc_signal signal_tty_irq3("signal_tty_irq3"); sc_signal signal_stuck0("signal_stuck0"); soclib::common::Loader loader("soft/bin.soft"); // Components soclib::caba::VciCcXCacheWrapperMulti proc0("proc0", 0, maptabp, maptabc, IntTab(0),IntTab(0),IntTab(0),4,64,16,4,64,16,4,8); soclib::caba::VciCcXCacheWrapperMulti proc1("proc1", 1, maptabp, maptabc, IntTab(1),IntTab(1),IntTab(1),4,64,16,4,64,16,4,8); soclib::caba::VciCcXCacheWrapperMulti proc2("proc2", 2, maptabp, maptabc, IntTab(2),IntTab(2),IntTab(2),4,64,16,4,64,16,4,8); soclib::caba::VciCcXCacheWrapperMulti proc3("proc3", 3, maptabp, maptabc, IntTab(3),IntTab(3),IntTab(3),4,64,16,4,64,16,4,8); soclib::caba::VciSimpleRam rom("rom", IntTab(0), maptabp, loader); soclib::caba::VciSimpleRam xram("xram", IntTab(0), maptabx, loader); soclib::caba::VciMemCacheV1 memc("memc",maptabp,maptabc,maptabx,IntTab(0),IntTab(4),IntTab(2), IntTab(4),4,16,16); soclib::caba::VciMultiTty tty("tty",IntTab(1),maptabp,"tty0","tty1","tty2","tty3",NULL); // soclib::caba::VciLogger vci_logger_proc0("vci_logger_proc0",maptabp); // soclib::caba::VciLogger vci_logger_proc1("vci_logger_proc1",maptabp); // soclib::caba::VciLogger vci_logger_proc2("vci_logger_proc2",maptabp); // soclib::caba::VciLogger vci_logger_proc3("vci_logger_proc3",maptabp); // soclib::caba::VciLogger vci_logger_memc("vci_logger_memc",maptabp); soclib::caba::VciSimpleRingNetwork ringd("ringd",maptabp, IntTab(), 2, 4, 3); // soclib::caba::VciVgsb // ringd("ringd",maptabp, 4, 3); // soclib::caba::VciVgmn // ringd("ringd",maptabp, 4, 3, 2, 2); soclib::caba::VciSimpleRingNetwork ringc("ringc",maptabc, IntTab(), 2, 5, 5); // soclib::caba::VciVgsb // ringc("ringc",maptabc, 5, 5); // soclib::caba::VciVgmn // ringc("ringd",maptabc, 5, 5, 2, 2); soclib::caba::VciSimpleRingNetwork ringx("ringx",maptabx, IntTab(), 2, 1, 1); // soclib::caba::VciVgsb // ringx("ringx",maptabx, 1, 1); // soclib::caba::VciVgmn // ringx("ringd",maptabx, 1, 1, 2, 2); // Net-List proc0.p_clk(signal_clk); proc0.p_resetn(signal_resetn); proc0.p_irq[0](signal_proc0_it0); proc0.p_irq[1](signal_proc0_it1); proc0.p_irq[2](signal_proc0_it2); proc0.p_irq[3](signal_proc0_it3); proc0.p_irq[4](signal_proc0_it4); proc0.p_irq[5](signal_proc0_it5); proc0.p_vci_ini_d(signal_vci_ini_d_proc0); proc0.p_vci_ini_c(signal_vci_ini_c_proc0); proc0.p_vci_tgt_c(signal_vci_tgt_proc0); proc1.p_clk(signal_clk); proc1.p_resetn(signal_resetn); proc1.p_irq[0](signal_proc1_it0); proc1.p_irq[1](signal_proc1_it1); proc1.p_irq[2](signal_proc1_it2); proc1.p_irq[3](signal_proc1_it3); proc1.p_irq[4](signal_proc1_it4); proc1.p_irq[5](signal_proc1_it5); proc1.p_vci_ini_d(signal_vci_ini_d_proc1); proc1.p_vci_ini_c(signal_vci_ini_c_proc1); proc1.p_vci_tgt_c(signal_vci_tgt_proc1); proc2.p_clk(signal_clk); proc2.p_resetn(signal_resetn); proc2.p_irq[0](signal_proc2_it0); proc2.p_irq[1](signal_proc2_it1); proc2.p_irq[2](signal_proc2_it2); proc2.p_irq[3](signal_proc2_it3); proc2.p_irq[4](signal_proc2_it4); proc2.p_irq[5](signal_proc2_it5); proc2.p_vci_ini_d(signal_vci_ini_d_proc2); proc2.p_vci_ini_c(signal_vci_ini_c_proc2); proc2.p_vci_tgt_c(signal_vci_tgt_proc2); proc3.p_clk(signal_clk); proc3.p_resetn(signal_resetn); proc3.p_irq[0](signal_proc3_it0); proc3.p_irq[1](signal_proc3_it1); proc3.p_irq[2](signal_proc3_it2); proc3.p_irq[3](signal_proc3_it3); proc3.p_irq[4](signal_proc3_it4); proc3.p_irq[5](signal_proc3_it5); proc3.p_vci_ini_d(signal_vci_ini_d_proc3); proc3.p_vci_ini_c(signal_vci_ini_c_proc3); proc3.p_vci_tgt_c(signal_vci_tgt_proc3); rom.p_clk(signal_clk); rom.p_resetn(signal_resetn); rom.p_vci(signal_vci_tgt_rom); // vci_logger_proc0.p_clk(signal_clk); // vci_logger_proc0.p_resetn(signal_resetn); // vci_logger_proc0.p_vci(signal_vci_ini_d_proc0); // vci_logger_proc1.p_clk(signal_clk); // vci_logger_proc1.p_resetn(signal_resetn); // vci_logger_proc1.p_vci(signal_vci_ini_d_proc2); // vci_logger_proc2.p_clk(signal_clk); // vci_logger_proc2.p_resetn(signal_resetn); // vci_logger_proc2.p_vci(signal_vci_ini_d_proc2); // vci_logger_proc3.p_clk(signal_clk); // vci_logger_proc3.p_resetn(signal_resetn); // vci_logger_proc3.p_vci(signal_vci_ini_d_proc3); // vci_logger_memc.p_clk(signal_clk); // vci_logger_memc.p_resetn(signal_resetn); // vci_logger_memc.p_vci(signal_vci_tgt_memc); tty.p_clk(signal_clk); tty.p_resetn(signal_resetn); tty.p_vci(signal_vci_tgt_tty); tty.p_irq[0](signal_tty_irq0); tty.p_irq[1](signal_tty_irq1); tty.p_irq[2](signal_tty_irq2); tty.p_irq[3](signal_tty_irq3); memc.p_clk(signal_clk); memc.p_resetn(signal_resetn); memc.p_vci_tgt(signal_vci_tgt_memc); memc.p_vci_tgt_cleanup(signal_vci_tgt_cleanup_memc); memc.p_vci_ini(signal_vci_ini_memc); memc.p_vci_ixr(signal_vci_ixr_memc); xram.p_clk(signal_clk); xram.p_resetn(signal_resetn); xram.p_vci(signal_vci_tgt_xram); ringd.p_clk(signal_clk); ringd.p_resetn(signal_resetn); ringd.p_to_initiator[0](signal_vci_ini_d_proc0); ringd.p_to_initiator[1](signal_vci_ini_d_proc1); ringd.p_to_initiator[2](signal_vci_ini_d_proc2); ringd.p_to_initiator[3](signal_vci_ini_d_proc3); ringd.p_to_target[0](signal_vci_tgt_rom); ringd.p_to_target[1](signal_vci_tgt_tty); ringd.p_to_target[2](signal_vci_tgt_memc); ringc.p_clk(signal_clk); ringc.p_resetn(signal_resetn); ringc.p_to_initiator[0](signal_vci_ini_c_proc0); ringc.p_to_initiator[1](signal_vci_ini_c_proc1); ringc.p_to_initiator[2](signal_vci_ini_c_proc2); ringc.p_to_initiator[3](signal_vci_ini_c_proc3); ringc.p_to_initiator[4](signal_vci_ini_memc); ringc.p_to_target[0](signal_vci_tgt_proc0); ringc.p_to_target[1](signal_vci_tgt_proc1); ringc.p_to_target[2](signal_vci_tgt_proc2); ringc.p_to_target[3](signal_vci_tgt_proc3); ringc.p_to_target[4](signal_vci_tgt_cleanup_memc); ringx.p_clk(signal_clk); ringx.p_resetn(signal_resetn); ringx.p_to_initiator[0](signal_vci_ixr_memc); ringx.p_to_target[0](signal_vci_tgt_xram); int ncycles; #ifndef SOCVIEW if (argc == 2) { ncycles = std::atoi(argv[1]); } else { std::cerr << std::endl << "The number of simulation cycles must " "be defined in the command line" << std::endl; exit(1); } sc_start(sc_core::sc_time(0, SC_NS)); signal_resetn = false; signal_stuck0 = false; sc_start(sc_core::sc_time(1, SC_NS)); signal_resetn = true; for (int i = 0; i < ncycles ; i++) { sc_start(sc_core::sc_time(1, SC_NS)); if ( i%10000 == 0 ) { proc0.print_stats(); proc1.print_stats(); proc2.print_stats(); proc3.print_stats(); memc.print_stats(); } } std::cout << "Hit ENTER to end simulation" << std::endl; char buf[1]; std::cin.getline(buf,1); return EXIT_SUCCESS; #else ncycles = 1; sc_start(sc_core::sc_time(0, SC_NS)); signal_resetn = false; sc_start(sc_core::sc_time(1, SC_NS)); signal_resetn = true; debug(); return EXIT_SUCCESS; #endif } int sc_main (int argc, char *argv[]) { try { return _main(argc, argv); } catch (std::exception &e) { std::cout << e.what() << std::endl; } catch (...) { std::cout << "Unknown exception occured" << std::endl; throw; } return 1; }