release/v19-0-0-0/SimpleLTInitiator2__DMI_8h_source.html

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   more contributor license agreements.  See the NOTICE file distributed
   with this work for additional information regarding copyright ownership.
   Accellera licenses this file to you under the Apache License, Version 2.0
   (the "License"); you may not use this file except in compliance with the
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 //====================================================================
 //  Nov 06, 2008
 //
 //  Updated by:
 //    Xiaopeng Qiu, JEDA Technologies, Inc
 //    Email:  qiuxp@jedatechnologies.net
 //
 //  To fix violations of TLM2.0 rules, which are detected by JEDA
 //  TLM2.0 checker.
 //
 //====================================================================

 #ifndef __SIMPLE_LT_INITIATOR2_DMI_H__
 #define __SIMPLE_LT_INITIATOR2_DMI_H__

 #include "tlm.h"
 #include "tlm_utils/simple_initiator_socket.h"
 #include <systemc>
 #include <cassert>
 #include <iostream>
 #include <iomanip>
 #include <map>

 class SimpleLTInitiator2_dmi : public sc_core::sc_module
 {
 public:
   typedef tlm::tlm_generic_payload                      transaction_type;
   typedef tlm::tlm_dmi                                  dmi_type;
   typedef tlm::tlm_phase                                phase_type;
   typedef tlm::tlm_sync_enum                            sync_enum_type;
   typedef tlm_utils::simple_initiator_socket<SimpleLTInitiator2_dmi> initiator_socket_type;

 public:
   initiator_socket_type socket;

 public:
   SC_HAS_PROCESS(SimpleLTInitiator2_dmi);
   SimpleLTInitiator2_dmi(sc_core::sc_module_name name,
                   unsigned int nrOfTransactions = 0x5,
                   unsigned int baseAddress = 0x0) :
     sc_core::sc_module(name),
     socket("socket"),
     mNrOfTransactions(nrOfTransactions),
     mBaseAddress(baseAddress),
     mTransactionCount(0)
   {
     mDMIDataReads.first.set_start_address(1);
     mDMIDataReads.first.set_end_address(0);
     mDMIDataWrites.first.set_start_address(1);
     mDMIDataWrites.first.set_end_address(0);

     // register invalidate method
     socket.register_invalidate_direct_mem_ptr(this, &SimpleLTInitiator2_dmi::invalidate_direct_mem_ptr);

     // Initiator thread
     SC_THREAD(run);
   }

   bool initTransaction(transaction_type& trans)
   {
     if (mTransactionCount < mNrOfTransactions) {
       trans.set_address(mBaseAddress + 4*mTransactionCount);
       mData = mTransactionCount;
       trans.set_command(tlm::TLM_WRITE_COMMAND);

     } else if (mTransactionCount < 2 * mNrOfTransactions) {
       trans.set_address(mBaseAddress + 4*(mTransactionCount-mNrOfTransactions));
       mData = 0;
       trans.set_command(tlm::TLM_READ_COMMAND);

     } else {
       return false;
     }

     trans.set_data_ptr(reinterpret_cast<unsigned char*>(&mData));
     trans.set_data_length(4);
     trans.set_streaming_width(4);
     trans.set_dmi_allowed(false);
     trans.set_response_status(tlm::TLM_INCOMPLETE_RESPONSE);

     ++mTransactionCount;
     return true;
   }

   void logStartTransation(transaction_type& trans)
   {
     if (trans.get_command() == tlm::TLM_WRITE_COMMAND) {
       std::cout << name() << ": Send write request: A = 0x"
                 << std::hex << (unsigned int)trans.get_address()
                 << ", D = 0x" << mData << std::dec
                 << " @ " << sc_core::sc_time_stamp() << std::endl;

     } else {
       std::cout << name() << ": Send read request: A = 0x"
                 << std::hex << (unsigned int)trans.get_address() << std::dec
                 << " @ " << sc_core::sc_time_stamp() << std::endl;
     }
   }

   void logEndTransaction(transaction_type& trans)
   {
     if (trans.get_response_status() != tlm::TLM_OK_RESPONSE) {
       std::cout << name() << ": Received error response @ "
                 << sc_core::sc_time_stamp() << std::endl;

     } else {
       std::cout << name() <<  ": Received ok response";
       if (trans.get_command() == tlm::TLM_READ_COMMAND) {
         std::cout << ": D = 0x" << std::hex << mData << std::dec;
       }
       std::cout << " @ " << sc_core::sc_time_stamp() << std::endl;
     }
   }

   std::pair<dmi_type, bool>& getDMIData(const transaction_type& trans)
   {
     if (trans.get_command() == tlm::TLM_READ_COMMAND) {
       return mDMIDataReads;

     } else { // WRITE
       return mDMIDataWrites;
     }
   }

   void run()
   {
     transaction_type trans;
     sc_core::sc_time t;

     while (initTransaction(trans)) {
       // Create transaction and initialise t
       t = sc_core::SC_ZERO_TIME;

       logStartTransation(trans);

       // DMI handling:
       // We do *not* use the DMI hint to check if it makes sense to ask for
       // DMI pointers. So the pattern is:
       // - if the address is not covered by a DMI region try to acquire DMI
       //   pointers
       // - if we have a DMI pointer, do the DMI "transaction"
       // - otherwise fall back to a normal transaction

       std::pair<dmi_type, bool>& dmi_data = getDMIData(trans);

       // Check if we need to acquire a DMI pointer
       if((trans.get_address() < dmi_data.first.get_start_address()) ||
          (trans.get_address() > dmi_data.first.get_end_address()) )
       {
           sc_dt::uint64 address = trans.get_address(); //save original address
           dmi_data.second =
             socket->get_direct_mem_ptr(trans,
                                        dmi_data.first);
           trans.set_address(address);
       }
       // Do DMI "transaction" if we have a valid region
       if (dmi_data.second &&
           (trans.get_address() >= dmi_data.first.get_start_address()) &&
           (trans.get_address() <= dmi_data.first.get_end_address()) )
       {
           // We can handle the data here. As the logEndTransaction is assuming
           // something to happen in the data structure, we really need to
           // do this:
           trans.set_response_status(tlm::TLM_OK_RESPONSE);
           sc_dt::uint64 tmp = trans.get_address() - dmi_data.first.get_start_address();
           if (trans.get_command() == tlm::TLM_WRITE_COMMAND)
           {
               *(unsigned int*)&dmi_data.first.get_dmi_ptr()[tmp] = mData;
           }
           else
           {
               mData = *(unsigned int*)&dmi_data.first.get_dmi_ptr()[tmp];
           }

           // Do the wait immediately. Note that doing the wait here eats almost
           // all the performance anyway, so we only gain something if we're
           // using temporal decoupling.
           if (trans.get_command() == tlm::TLM_WRITE_COMMAND) {
             wait(dmi_data.first.get_write_latency());

           } else {
             wait(dmi_data.first.get_read_latency());
           }
       }
       else // we need a full transaction
       {
           socket->b_transport(trans, t);
           wait(t);
       }
       logEndTransaction(trans);
     }
     wait();

   }

   // Invalidate DMI pointer(s)
   void invalidate_direct_mem_ptr(sc_dt::uint64 start_range,
                                  sc_dt::uint64 end_range)
   {
     // FIXME: probably faster to always invalidate everything?
     if (start_range <= mDMIDataReads.first.get_end_address ()&&
         end_range >= mDMIDataReads.first.get_start_address()) {
         mDMIDataReads.second = false;
     }
     if (start_range <= mDMIDataWrites.first.get_end_address ()&&
         end_range >= mDMIDataWrites.first.get_start_address()) {
       mDMIDataWrites.second = false;
     }
   }

   // Test for transport_dbg, this one should fail in bus_dmi as we address
   // a target that doesn't support transport_dbg:
   // FIXME: use a configurable address
   void end_of_simulation()
   {
     std::cout <<  name() << ", <<SimpleLTInitiator1>>:" << std::endl
               << std::endl;
     unsigned char data[32];

     transaction_type trans;
     trans.set_address(mBaseAddress);
     trans.set_data_length(32);
     trans.set_data_ptr(data);
     trans.set_read();

     unsigned int n = socket->transport_dbg(trans);

     std::cout << "Mem @" << std::hex << mBaseAddress << std::endl;
     unsigned int j = 0;

     if (n > 0)
     {
         // always align endianness, so that we don't get a diff when
         // printing the raw data
         int e_start = 0;
         int e_end = 4;
         int e_increment = 1;
         if (!tlm::host_has_little_endianness())
         {
             e_start = 3;
             e_end = -1;
             e_increment = -1;
         }

         for (unsigned int i=0; i<n; i+=4)
         {
             for (int k=e_start; k!=e_end; k+=e_increment)
             {
                 std::cout << std::setw(2) << std::setfill('0')
                           << (int)data[i+k];
                 j++;
                 if (j==16) {
                     j=0;
                     std::cout << std::endl;
                 } else {
                     std::cout << " ";
                 }
             }
         }
     }
     else
     {
         std::cout << "OK: debug transaction didn't give data." << std::endl;
     }
     std::cout << std::dec << std::endl;
   }
 private:
   std::pair<dmi_type, bool> mDMIDataReads;
   std::pair<dmi_type, bool> mDMIDataWrites;

   sc_core::sc_event mEndEvent;
   unsigned int mNrOfTransactions;
   unsigned int mBaseAddress;
   unsigned int mTransactionCount;
   unsigned int mData;
 };

 #endif
SimpleLTInitiator2_dmi::mEndEvent
sc_core::sc_event mEndEvent
Definition: SimpleLTInitiator2_DMI.h:292

tlm::tlm_generic_payload::set_response_status
void set_response_status(const tlm_response_status response_status)
Definition: gp.hh:204

SimpleLTInitiator2_dmi::getDMIData
std::pair< dmi_type, bool > & getDMIData(const transaction_type &trans)
Definition: SimpleLTInitiator2_DMI.h:134

tlm::tlm_generic_payload::set_streaming_width
void set_streaming_width(const unsigned int streaming_width)
Definition: gp.hh:213

tlm_utils::simple_initiator_socket_b::register_invalidate_direct_mem_ptr
void register_invalidate_direct_mem_ptr(MODULE *mod, void(MODULE::*cb)(sc_dt::uint64, sc_dt::uint64))
Definition: simple_initiator_socket.h:71

sc_core::sc_time
Definition: sc_time.hh:51

sc_core::sc_module::wait
void wait()
Definition: sc_module.cc:430

ArmISA::i
Bitfield< 7 > i
Definition: miscregs_types.hh:66

std::pair
STL pair class.
Definition: stl.hh:61

tlm::TLM_OK_RESPONSE
Definition: gp.hh:91

tlm::tlm_generic_payload
Definition: gp.hh:116

SimpleLTInitiator2_dmi::sync_enum_type
tlm::tlm_sync_enum sync_enum_type
Definition: SimpleLTInitiator2_DMI.h:49

SimpleLTInitiator2_dmi::logEndTransaction
void logEndTransaction(transaction_type &trans)
Definition: SimpleLTInitiator2_DMI.h:119

sc_core::sc_object::name
const char * name() const
Definition: sc_object.cc:46

tlm::tlm_dmi
Definition: dmi.hh:29

tlm::TLM_INCOMPLETE_RESPONSE
Definition: gp.hh:92

tlm::tlm_generic_payload::set_read
void set_read()
Definition: gp.hh:177

tlm::TLM_WRITE_COMMAND
Definition: gp.hh:85

SimpleLTInitiator2_dmi::initTransaction
bool initTransaction(transaction_type &trans)
Definition: SimpleLTInitiator2_DMI.h:78

tlm::tlm_generic_payload::get_address
sc_dt::uint64 get_address() const
Definition: gp.hh:184

SimpleLTInitiator2_dmi::SimpleLTInitiator2_dmi
SimpleLTInitiator2_dmi(sc_core::sc_module_name name, unsigned int nrOfTransactions=0x5, unsigned int baseAddress=0x0)
Definition: SimpleLTInitiator2_DMI.h:57

SimpleLTInitiator2_dmi::mNrOfTransactions
unsigned int mNrOfTransactions
Definition: SimpleLTInitiator2_DMI.h:293

SimpleLTInitiator2_dmi::socket
initiator_socket_type socket
Definition: SimpleLTInitiator2_DMI.h:53

ArmISA::n
Bitfield< 31 > n
Definition: miscregs_types.hh:452

tlm::tlm_generic_payload::set_address
void set_address(const sc_dt::uint64 address)
Definition: gp.hh:185

SimpleLTInitiator2_dmi::mBaseAddress
unsigned int mBaseAddress
Definition: SimpleLTInitiator2_DMI.h:294

SimpleLTInitiator2_dmi::mDMIDataReads
std::pair< dmi_type, bool > mDMIDataReads
Definition: SimpleLTInitiator2_DMI.h:289

SC_THREAD
#define SC_THREAD(name)
Definition: sc_module.hh:311

sc_core
Definition: messages.cc:33

sc_core::sc_event
Definition: sc_event.hh:171

SimpleLTInitiator2_dmi
Definition: SimpleLTInitiator2_DMI.h:43

sc_core::sc_module::sc_module
sc_module()
Definition: sc_module.cc:258

SimpleLTInitiator2_dmi::mDMIDataWrites
std::pair< dmi_type, bool > mDMIDataWrites
Definition: SimpleLTInitiator2_DMI.h:290

MipsISA::k
Bitfield< 23 > k
Definition: dt_constants.hh:80

tlm::host_has_little_endianness
bool host_has_little_endianness()
Definition: helpers.hh:43

tlm::tlm_generic_payload::set_data_ptr
void set_data_ptr(unsigned char *data)
Definition: gp.hh:189

SimpleLTInitiator2_dmi::mTransactionCount
unsigned int mTransactionCount
Definition: SimpleLTInitiator2_DMI.h:295

SimpleLTInitiator2_dmi::logStartTransation
void logStartTransation(transaction_type &trans)
Definition: SimpleLTInitiator2_DMI.h:104

SimpleLTInitiator2_dmi::run
void run()
Definition: SimpleLTInitiator2_DMI.h:144

sc_core::sc_module
Definition: sc_module.hh:99

SimpleLTInitiator2_dmi::transaction_type
tlm::tlm_generic_payload transaction_type
Definition: SimpleLTInitiator2_DMI.h:46

SimpleLTInitiator2_dmi::mData
unsigned int mData
Definition: SimpleLTInitiator2_DMI.h:296

SimpleLTInitiator2_dmi::invalidate_direct_mem_ptr
void invalidate_direct_mem_ptr(sc_dt::uint64 start_range, sc_dt::uint64 end_range)
Definition: SimpleLTInitiator2_DMI.h:218

ArmISA::j
Bitfield< 24 > j
Definition: miscregs_types.hh:57

sc_core::sc_time_stamp
const sc_time & sc_time_stamp()
Definition: sc_main.cc:130

tlm_utils::simple_initiator_socket< SimpleLTInitiator2_dmi >

tlm::tlm_generic_payload::get_response_status
tlm_response_status get_response_status() const
Definition: gp.hh:199

tlm::TLM_READ_COMMAND
Definition: gp.hh:84

sc_core::SC_ZERO_TIME
const sc_time SC_ZERO_TIME
Definition: sc_time.cc:292

tlm::tlm_generic_payload::set_dmi_allowed
void set_dmi_allowed(bool dmi_allowed)
Definition: gp.hh:239

sc_dt::uint64
uint64_t uint64
Definition: sc_nbdefs.hh:172

tlm::tlm_generic_payload::get_command
tlm_command get_command() const
Definition: gp.hh:180

sc_core::sc_module_name
Definition: sc_module_name.hh:43

tlm::tlm_phase
Definition: phase.hh:47

tlm::tlm_generic_payload::set_command
void set_command(const tlm_command command)
Definition: gp.hh:181

SimpleLTInitiator2_dmi::phase_type
tlm::tlm_phase phase_type
Definition: SimpleLTInitiator2_DMI.h:48

SimpleLTInitiator2_dmi::initiator_socket_type
tlm_utils::simple_initiator_socket< SimpleLTInitiator2_dmi > initiator_socket_type
Definition: SimpleLTInitiator2_DMI.h:50

tlm::tlm_sync_enum
tlm_sync_enum
Definition: fw_bw_ifs.hh:31

ArmISA::t
Bitfield< 5 > t
Definition: miscregs_types.hh:70

tlm::tlm_generic_payload::set_data_length
void set_data_length(const unsigned int length)
Definition: gp.hh:193

SimpleLTInitiator2_dmi::end_of_simulation
void end_of_simulation()
Definition: SimpleLTInitiator2_DMI.h:235

data
const char data[]
Definition: circlebuf.test.cc:44

SimpleLTInitiator2_dmi::dmi_type
tlm::tlm_dmi dmi_type
Definition: SimpleLTInitiator2_DMI.h:47

SimpleLTInitiator2_dmi::SC_HAS_PROCESS
SC_HAS_PROCESS(SimpleLTInitiator2_dmi)