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

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/**
 *  @file     top_module.h
 *  @brief    Implementation the TOP_MODULE.
 *            This header contains code related to the top module which decides
 *            the model hierarchy for example#9.
 *  @author   P V S Phaneendra, CircuitSutra Technologies   <pvs@circuitsutra.com>
 *            Girish Verma, CircuitSutra Technologies      <girish@circuitsutra.com>
 *            Parvinder Pal Singh, CircuitSutra Technologies   <parvinder@circuitsutra.com>
 *  @date     29th April, 2011 (Friday)
 */

#ifndef EXAMPLES_EX09_HIERARCHICAL_OVERRIDE_OF_PARAMETER_VALUES_TOP_MODULE_H_
#define EXAMPLES_EX09_HIERARCHICAL_OVERRIDE_OF_PARAMETER_VALUES_TOP_MODULE_H_

#include <cci_configuration>
#include <scc/report.h>
#include <sstream>
#include <tlm>
#include <vector>

#include "initiator.h"
#include "router.h"
#include "target.h"

/**
 *  @class  top_module
 *  @brief  This module instantiated a initiator, target, and router and binds them correctly for communication.
 */
SC_MODULE(top_module) {
public:
    /**
     *  @fn     top_module
     *  @brief  The class constructor
     */
    SC_CTOR(top_module)
    : n_initiators("number_of_initiators", 0)
    , n_targets("number_of_targets", 0)
    , m_broker(cci::cci_get_broker()) {
        std::stringstream ss;

        SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] -- [TOP MODULE CONSTRUCTOR BEGINS HERE]";

        SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] :  Number of initiators : " << n_initiators.get_value();
        SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] :  Number of targets : " << n_targets.get_value();

        // Set and lock the number of initiators in Router Table
        // to value passed from 'sc_main'
        m_broker.set_preset_cci_value("top_module_inst.RouterInstance.r_initiators", n_initiators.get_cci_value());
        m_broker.lock_preset_value("top_module_inst.RouterInstance.r_initiators");

        // Set and lock the number of targets in Router Table
        // to value passed from 'sc_main'
        m_broker.set_preset_cci_value("top_module_inst.RouterInstance.r_targets", n_targets.get_cci_value());
        m_broker.lock_preset_value("top_module_inst.RouterInstance.r_targets");

        // Declaring and defining router module
        char routerName[15] = "RouterInstance";
        SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] : Creating Router : " << routerName;
        routerInstance = new router(routerName);

        // Top_Module begins construction of the model hierarchy from here
        // ----------------------------------------------------------------

        cci::cci_param_handle r_addr_limit_handle = m_broker.get_param_handle("top_module_inst.RouterInstance.addr_limit");
        if(r_addr_limit_handle.is_valid()) {
            r_addr_max = atoi((r_addr_limit_handle.get_cci_value().to_json()).c_str());

            SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] : Router's maximum addressable limit : " << r_addr_max;
        }

        /// Creating instances of initiator(s)
        for(int i = 0; i < n_initiators; i++) {
            snprintf(initiatorName, sizeof(initiatorName), "initiator_%d", i);
            SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] : Creating initiator : " << initiatorName;

            snprintf(stringMisc, sizeof(stringMisc), "%s.%s.initiator_ID", name(), initiatorName);

            snprintf(initiatorName, sizeof(initiatorName), "\"initiator_%d\"", i);
            m_broker.set_preset_cci_value(stringMisc, cci::cci_value::from_json(initiatorName));
            snprintf(initiatorName, sizeof(initiatorName), "initiator_%d", i);
            initiatorList.push_back(new initiator(initiatorName));

            //     Binding of initiator to Router
            SCCINFO(SCMOD) << "[TOP MODULE C_TOR] : Binding Router_Initiator to " << initiatorName;
            initiatorList[i]->initiator_socket.bind(routerInstance->Router_target);
        }

        // Defining target size
        targetSize = 128;

        // Creating instances of target(s)
        for(int i = 0; i < n_targets; i++) {
            snprintf(targetName, sizeof(targetName), "target_%d", i);
            SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] : Creating target : " << targetName;

            snprintf(stringMisc, sizeof(stringMisc), "%s.%s.target_ID", name(), targetName);
            snprintf(targetName, sizeof(targetName), "\"target_%d\"", i);
            m_broker.set_preset_cci_value(stringMisc, cci::cci_value::from_json(targetName));
            snprintf(targetName, sizeof(targetName), "target_%d", i);

            // Set preset value for maximum target size(memory)
            snprintf(stringMisc, sizeof(stringMisc), "%s.%s.s_size", name(), targetName);
            ss.clear();
            ss.str("");
            ss << targetSize;

            m_broker.set_preset_cci_value(stringMisc, cci::cci_value::from_json(ss.str()));
            targetList.push_back(new target(targetName));

            // Binding Router to target
            SCCINFO(SCMOD) << "[TOP MODULE C_TOR] : Binding Router_Initiator to " << targetName;
            routerInstance->Router_initiator.bind(targetList[i]->target_socket);
        }

        // Try re-setting locked values for Router Table contents
        for(int i = 0; i < n_targets; i++) {
            snprintf(targetName, sizeof(targetName), "%s.RouterInstance.r_index_%d", name(), i);
            ss.clear();
            ss.str("");
            ss << i;

            try {
                SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] : Re-setting fields of target_" << i;
                m_broker.set_preset_cci_value(targetName, cci::cci_value::from_json(ss.str()));
            } catch(sc_core::sc_report const& exception) {
                SCCINFO(SCMOD) << "[ROUTER : Caught] : " << exception.what();
            }

            snprintf(targetName, sizeof(targetName), "%s.RouterInstance.r_sa_%d", name(), i);
            ss.clear();
            ss.str("");
            ss << (i * targetSize);

            snprintf(targetBaseAddr, sizeof(targetBaseAddr), "%s.target_%d.s_base_addr", name(), i);

            cci::cci_param_untyped_handle h = m_broker.get_param_handle(targetBaseAddr);
            h.set_cci_value(cci::cci_value::from_json(ss.str()));

            try {
                SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] : Re-setting start addr of target_" << i;
                m_broker.set_preset_cci_value(targetName, cci::cci_value::from_json(ss.str()));
            } catch(sc_core::sc_report const& exception) {
                SCCINFO(SCMOD) << "[ROUTER : Caught] : " << exception.what();
            }

            snprintf(targetName, sizeof(targetName), "%s.RouterInstance.r_ea_%d", name(), i);
            ss.clear();
            ss.str("");
            ss << ((i + 1) * targetSize - 1);

            try {
                SCCINFO(SCMOD) << "[TOP_MODULE C_TOR] : Re-setting end addr of target_" << i;
                m_broker.set_preset_cci_value(targetName, cci::cci_value::from_json(ss.str()));
            } catch(sc_core::sc_report const& exception) {
                SCCINFO(SCMOD) << "[ROUTER : Caught] : " << exception.what();
            }
        }
    }

    /**
     *  @fn     ~top_module()
     *  @brief  The class destructor
     *  @return void
     */
    ~top_module() {
        if(!initiatorList.empty()) {
            for(std::vector<initiator*>::iterator it = initiatorList.begin(); it != initiatorList.end(); ++it) {
                delete(*it);
            }
            initiatorList.clear();
        }

        if(!targetList.empty()) {
            for(std::vector<target*>::iterator it = targetList.begin(); it != targetList.end(); ++it) {
                delete(*it);
            }
            targetList.clear();
        }
    }

private:
    // Immutable type cci-parameters
    cci::cci_param<int, cci::CCI_IMMUTABLE_PARAM> n_initiators; ///< Number of initiators to be instantiated
    cci::cci_param<int, cci::CCI_IMMUTABLE_PARAM> n_targets;    ///< Number of targets to be instantiated

    cci::cci_broker_handle m_broker; ///< Configuration broker handle

    router* routerInstance; ///< Declaration of a router pointer

    // STD::VECTORs for creating instances of initiator and target
    std::vector<initiator*> initiatorList; ///< STD::VECTOR for initiators
    std::vector<target*> targetList;       ///< STD::VECTOR for targets

    char initiatorName[50];  ///< initiator_ID
    char targetName[50];     ///< target_ID
    char stringMisc[50];     ///< String to be used for misc things
    char targetBaseAddr[50]; ///< The base address of the target

    int addrValue{0}; ///< Address Value
    int targetSize;   ///< Maximum target Size (preset value)
    int r_addr_max;   ///< Maximum Router Table's memory range
};
    // top_module

#endif // EXAMPLES_EX09_HIERARCHICAL_OVERRIDE_OF_PARAMETER_VALUES_TOP_MODULE_H_