SystemC-Components-Test/tests/configuration/router.h

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/**
 *  @file     router.h
 *  @brief    Definition of the router module.
 *            This file declares and implements the functionality of the router.
 *            Few of the parameters of the target and initiator sc_module(s) are
 *            configured by the router sc_module
 *  @authors  P V S Phaneendra, CircuitSutra Technologies   <pvs@circuitsutra.com>
 *  @date     29th April, 2011 (Friday)
 */

#ifndef EXAMPLES_EX09_HIERARCHICAL_OVERRIDE_OF_PARAMETER_VALUES_ROUTER_H_
#define EXAMPLES_EX09_HIERARCHICAL_OVERRIDE_OF_PARAMETER_VALUES_ROUTER_H_

#ifdef _MSC_VER
#define snprintf _snprintf
#endif

#include <cci_configuration>
#include <iomanip>
#include <sstream>
#include <tlm>
#include <vector>

#include <tlm_utils/multi_passthrough_initiator_socket.h>
#include <tlm_utils/multi_passthrough_target_socket.h>

/**
 *  @class  router
 *  @brief  Thes module implements a router functionality
 */
SC_MODULE(router) {
public:
    // Declare tlm multi-passthrough sockets for target and initiator modules
    tlm_utils::multi_passthrough_target_socket<router, 32> Router_target;
    tlm_utils::multi_passthrough_initiator_socket<router, 32> Router_initiator;

    /**
     *  @fn     router
     *  @brief  The class constructor
     *  @return void
     */
    SC_CTOR(router)
    : Router_target("Router_target")
    , Router_initiator("Router_initiator")
    , r_initiators("r_initiators", 0)
    , r_targets("r_targets", 0)
    , addr_limit("addr_max", 64)
    , m_broker(cci::cci_get_broker())
    , addrSize(0) {
        SCCINFO(SCMOD) << "[ROUTER C_TOR] ----- [ROUTER CONSTRUCTOR BEGINS HERE] ------";

        // Register b_transport
        Router_target.register_b_transport(this, &router::b_transport);
    }

    /**
     *  @fn     void before_end_of_elaboration(void)
     *  @brief  The router table information is filled in during this function
     *  @return void
     */
    void before_end_of_elaboration(void) {
        SCCINFO(SCMOD) << "[ROUTER in beoe] : Number of initiator(s) : " << r_initiators.get_cci_value().to_json();
        SCCINFO(SCMOD) << "[ROUTER in beoe] : Number of target(s) : " << r_targets.get_value();
        SCCINFO(SCMOD) << "[ROUTER in beoe] : Maximum Addressable Limit of the router : " << addr_limit.get_value();

        char targetName[10]; ///< Holds router table's fields' names
        addrSize = (unsigned int)(addr_limit.get_value() / r_targets);

        // Printing the Router Table contents
        SCCINFO(SCMOD) << "============= ROUTER TABLE INFORMATION ==============";
        SCCINFO(SCMOD) << "-----------------------------------------------------";
        SCCINFO(SCMOD) << "| Target ID  | Start Addr |  End Addr  | Base Addr  |";
        SCCINFO(SCMOD) << "-----------------------------------------------------";

        // Sets the contents of the routing table with (default) values
        // calculated within 'beoe' phase
        for(int i = 0; i < r_targets; i++) {
            snprintf(targetName, sizeof(targetName), "r_index_%d", i);
            r_target_index.push_back(new cci::cci_param<unsigned int, cci::CCI_IMMUTABLE_PARAM>(targetName, i));

            snprintf(targetName, sizeof(targetName), "r_sa_%d", i);
            r_addr_start.push_back(new cci::cci_param<unsigned int, cci::CCI_IMMUTABLE_PARAM>(targetName, (i * addrSize)));

            snprintf(targetName, sizeof(targetName), "r_ea_%d", i);
            r_addr_end.push_back(new cci::cci_param<unsigned int, cci::CCI_IMMUTABLE_PARAM>(targetName, ((i + 1) * addrSize - 1)));
        }

        for(int i = 0; i < r_targets; i++) {
            snprintf(stringName, sizeof(stringName), "top_module_inst.target_%d.s_base_addr", i);

            base_handle = m_broker.get_param_handle(stringName);
            if(!base_handle.is_valid()) {
                sc_assert(!"target Base Address Handle returned is NULL");
            }
            std::stringstream row_ss;
            row_ss << "| " << std::setw(10) << r_target_index[i]->get_value() << " | " << std::setw(10) << std::hex << std::showbase
                   << r_addr_start[i]->get_value() << " | " << std::setw(10) << r_addr_end[i]->get_value() << " | " << std::setw(10)
                   << base_handle.get_cci_value().to_json() << " |";
            SCCINFO(SCMOD) << row_ss.str().c_str();
            SCCINFO(SCMOD) << "-----------------------------------------------------";
        }
    }

    // Blocking transport implementation of the router
    void b_transport(int i_, tlm::tlm_generic_payload& trans, sc_core::sc_time& delay) {
        wait(delay);

        delay = sc_core::SC_ZERO_TIME;

        sc_dt::uint64 addr = trans.get_address();

        if(addr >= static_cast<sc_dt::uint64>(addr_limit.get_value())) {
            trans.set_response_status(tlm::TLM_ADDRESS_ERROR_RESPONSE);
            return;
        }

        for(unsigned int i = 0; i < r_target_index.size(); i++) {
            if((addr >= (r_addr_start[i]->get_value())) && (addr <= (r_addr_end[i]->get_value()))) {
                SCCINFO(SCMOD) << "[Router in 'b_transport' layer]";
                SCCINFO(SCMOD) << "Address       = " << std::hex << addr;
                SCCINFO(SCMOD) << "Index         = " << (r_target_index[i])->get_value();
                SCCINFO(SCMOD) << "Start addres  = " << std::hex << (r_addr_start[i]->get_value());
                SCCINFO(SCMOD) << "End   Address = " << std::hex << (r_addr_end[i]->get_value());
                Router_initiator[(r_target_index[i])->get_value()]->b_transport(trans, delay);
                break;
            }
        }
    }

private:
    /// Demonstrates Model-to-Model Configuration (UC12)
    /// Elaboration Time Parameters for setting up the model hierarcy;
    cci::cci_param<int, cci::CCI_MUTABLE_PARAM> r_initiators;        ///< initiator ID assigned by the top_module upon instantiation
    cci::cci_param<int, cci::CCI_MUTABLE_PARAM> r_targets;           ///< target ID assigned by the top_module upon instantiation
    cci::cci_param<unsigned int, cci::CCI_MUTABLE_PARAM> addr_limit; ///< Router Addressing Range
    cci::cci_broker_handle m_broker;                                 ///< CCI configuration broker handle

    /// Router Table contents holding targets related information
    std::vector<cci::cci_param<unsigned int, cci::CCI_IMMUTABLE_PARAM>*> r_target_index; ///< Router table target index
    std::vector<cci::cci_param<unsigned int, cci::CCI_IMMUTABLE_PARAM>*> r_addr_start;   ///< Router table start address
    std::vector<cci::cci_param<unsigned int, cci::CCI_IMMUTABLE_PARAM>*> r_addr_end;     ///< Router table end address

    cci::cci_param_handle base_handle; ///< CCI base parameter handle for target base address

    /**
     *  @fn     void end_of_elaboration()
     *  @brief  end of elaboration function to lock structural param
     *  @return void
     */
    void end_of_elaboration() {
        r_initiators.lock();
        r_targets.lock();
    }

    int addrSize;
    char stringName[50];
};
    // router

#endif // EXAMPLES_EX09_HIERARCHICAL_OVERRIDE_OF_PARAMETER_VALUES_ROUTER_H_