source: branches/reconfiguration/modules/vci_xicu/caba/source/src/vci_xicu.cpp @ 973

/* -*- c++ -*-
 *
 * SOCLIB_LGPL_HEADER_BEGIN
 *
 * This file is part of SoCLib, GNU LGPLv2.1.
 *
 * SoCLib is free software; you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as published
 * by the Free Software Foundation; version 2.1 of the License.
 *
 * SoCLib 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with SoCLib; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
 * 02110-1301 USA
 *
 * SOCLIB_LGPL_HEADER_END
 *
 * Copyright (c) UPMC, Lip6
 *         Nicolas Pouillon <nipo@ssji.net>, 2009
 */

#include <strings.h>

#include "xicu.h"
#include "register.h"
#include "arithmetics.h"
#include "alloc_elems.h"
#include "../include/vci_xicu.h"

namespace soclib {
namespace caba {

using namespace soclib;

#define tmpl(t) template<typename vci_param> t VciXicu<vci_param>

#ifdef SOCLIB_MODULE_DEBUG
#define CHECK_BOUNDS(x)                                                \
    do {                                                               \
        if ( idx >= (m_##x##_count) ) {                                \
            std::cout << name() << " error: " #x " index " << idx      \
                      << " out of bounds ("                            \
                      << m_##x##_count << ")"                          \
                      << std::endl;                                    \
            return false;                                              \
        }                                                              \
    } while(0)
#else
#define CHECK_BOUNDS(x) do { if ( idx >= (m_##x##_count) ) return false; } while(0)
#endif

//////////////////////////////////////////////////////
tmpl(bool)::on_write( int                        seg,
                      typename vci_param::addr_t addr,
                      typename vci_param::data_t data,
                      int                        be)
{
    size_t cell = (size_t)addr / vci_param::B;
    size_t idx = cell & 0x1f;
    size_t func = (cell >> 5) & 0x1f;

    if ( be != 0xf )
        return false;

    switch (func)
    {
        case XICU_WTI_REG:
        CHECK_BOUNDS(wti);
        r_wti_reg[idx] = data;
        r_wti_pending |= 1<<idx;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write WTI_REG[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_PTI_PER:
        CHECK_BOUNDS(pti);
        r_pti_per[idx] = data;
        if ( !data )
        {
            r_pti_pending &= ~(1<<idx);
            r_pti_val[idx] = 0;
        }
        else if (r_pti_val[idx] == 0)
        {
            r_pti_val[idx] = data;
        }

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write PTI_PER[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_PTI_VAL:
        CHECK_BOUNDS(pti);
        r_pti_val[idx] = data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write PTI_VAL[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_PTI:
        CHECK_BOUNDS(irq);
        r_msk_pti[idx] = data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write MASK_PTI[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_PTI_ENABLE:
        CHECK_BOUNDS(irq);
        r_msk_pti[idx] |= data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write PTI_ENABLE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_PTI_DISABLE:
        CHECK_BOUNDS(irq);
        r_msk_pti[idx] &= ~data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write PTI_DISABLE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_HWI:
        CHECK_BOUNDS(irq);
        r_msk_hwi[idx] = data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write MSK_HWI[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_HWI_ENABLE:
        CHECK_BOUNDS(irq);
        r_msk_hwi[idx] |= data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write HWI_ENABLE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_HWI_DISABLE:
        CHECK_BOUNDS(irq);
        r_msk_hwi[idx] &= ~data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write HWI_DISABLE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_WTI:
        CHECK_BOUNDS(irq);
        r_msk_wti[idx] = data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write MSK_WTI[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_WTI_ENABLE:
        CHECK_BOUNDS(irq);
        r_msk_wti[idx] |= data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write WTI_ENABLE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_WTI_DISABLE:
        CHECK_BOUNDS(irq);
        r_msk_wti[idx] &= ~data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write WTI_DISABLE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_CFG_REG:
        CHECK_BOUNDS(cfg);
        r_cfg_reg[idx] = data;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Write CFG_REG[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;
    }
    return false;
} // end on_write()

/////////////////////////////////////////////////////
tmpl(bool)::on_read( int                        seg,
                     typename vci_param::addr_t addr,
                     typename vci_param::data_t &data)
{
    size_t cell = (size_t)addr / vci_param::B;
    size_t idx = cell & 0x1f;
    size_t func = (cell >> 5) & 0x1f;

    switch (func)
    {
    case XICU_WTI_REG:
        CHECK_BOUNDS(wti);
        data = r_wti_reg[idx];
        r_wti_pending &= ~(1<<idx);

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_WTI_REG[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_PTI_PER:
        CHECK_BOUNDS(pti);
        data = r_pti_per[idx];

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_PTI_PER[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_PTI_VAL:
        CHECK_BOUNDS(pti);
        data = r_pti_val[idx];

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_PTI_VAL[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_PTI_ACK:
        CHECK_BOUNDS(pti);
        r_pti_pending &= ~(1<<idx);
        data = 0;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_PTI_ACK[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_PTI:
        CHECK_BOUNDS(irq);
        data = r_msk_pti[idx];

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_MSK_PTI[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_PTI_ACTIVE:
        CHECK_BOUNDS(irq);
        data = r_msk_pti[idx] & r_pti_pending;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_PTI_ACTIVE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_HWI:
        CHECK_BOUNDS(irq);
        data = r_msk_hwi[idx];

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_MSK_HWI[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_HWI_ACTIVE:
        CHECK_BOUNDS(irq);
        data = r_msk_hwi[idx] & r_hwi_pending;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_HWI_ACTIVE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_MSK_WTI:
        CHECK_BOUNDS(irq);
        data = r_msk_wti[idx];

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_MSK_WTI[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_WTI_ACTIVE:
        CHECK_BOUNDS(irq);
        data = r_msk_wti[idx] & r_wti_pending;

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_WTI_ACTIVE[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

        case XICU_PRIO:
        CHECK_BOUNDS(irq);
        data =
            (((r_msk_pti[idx] & r_pti_pending) ? 1 : 0) << 0) |
            (((r_msk_hwi[idx] & r_hwi_pending) ? 1 : 0) << 1) |
            (((r_msk_wti[idx] & r_wti_pending) ? 1 : 0) << 2) |
            ((soclib::common::ctz<uint32_t>(r_msk_pti[idx] & r_pti_pending) & 0x1f) <<  8) |
            ((soclib::common::ctz<uint32_t>(r_msk_hwi[idx] & r_hwi_pending) & 0x1f) << 16) |
            ((soclib::common::ctz<uint32_t>(r_msk_wti[idx] & r_wti_pending) & 0x1f) << 24);

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_PRIO[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

    case XICU_CONFIG:
        data = (m_irq_count << 24) | (m_wti_count << 16) | (m_hwi_count << 8) | m_pti_count;
#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_CONFIG = " << std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;

    case XICU_CFG_REG:
        CHECK_BOUNDS(cfg);
        data = r_cfg_reg[idx];

#if SOCLIB_MODULE_DEBUG
std::cout << "[" << name() << "] Read XICU_CFG_REG[" << std::dec << idx << "] = "
<< std::hex << (int)data << std::dec << " time = " << m_clock_cycles << std::endl;
#endif
        return true;
    }
    return false;
} // end on_read()

////////////////////////
tmpl(void)::transition()
{
#if SOCLIB_MODULE_DEBUG
    m_clock_cycles++;
#endif

    if (!p_resetn.read())
    {
        m_vci_fsm.reset();

        for ( size_t i = 0; i<m_pti_count; ++i )
        {
            r_pti_per[i] = 0;
            r_pti_val[i] = 0;
        }
        for ( size_t i = 0; i<m_wti_count; ++i )
        {
            r_wti_reg[i] = 0;
        }
        for ( size_t i = 0; i<m_irq_count; ++i )
        {
            r_msk_pti[i] = 0;
            r_msk_wti[i] = 0;
            r_msk_hwi[i] = 0;
        }
        for ( size_t i = 0; i<m_cfg_count; ++i )
        {
            r_cfg_reg[i] = 0;
        }
        r_pti_pending = 0;
        r_wti_pending = 0;
        r_hwi_pending = 0;

        return;
    }

    // update timer interrupt vector
    for ( size_t i = 0; i<m_pti_count; ++i )
    {
        uint32_t per = r_pti_per[i];

        if ( per && --r_pti_val[i] == 0 )
        {
            r_pti_pending |= 1<<i;
            r_pti_val[i] = per;
        }
    }

    // update pending hardware interrupt vector
    uint32_t hwi_pending = 0;
    for ( size_t i = 0; i<m_hwi_count; ++i )
        hwi_pending |= (p_hwi[i].read() ? 1 : 0) << i;
    r_hwi_pending = hwi_pending;

    m_vci_fsm.transition();
}

//////////////////////////////////////////
tmpl(void)::print_trace( size_t channel )
{
    assert( (channel < m_irq_count) and
    "ERROR in XICU print_trace() : channel larger than proc number");

    std::cout << "XICU " << name() << std::hex
              << " / HWI_MASK = " << r_msk_hwi[channel]
              << " / SWI_MASK = " << r_msk_wti[channel]
              << " / PTI_MASK = " << r_msk_pti[channel]
              << " / HWI = " << r_hwi_pending
              << " / WTI = " << r_wti_pending
              << " / PTI = " << r_pti_pending
              << std::endl;
}

///////////////////////
tmpl(void)::genMoore()
{
    m_vci_fsm.genMoore();

    // output irqs
    for ( size_t i = 0; i<m_irq_count; ++i )
    {
        bool b = (r_msk_pti[i] & r_pti_pending) ||
                 (r_msk_wti[i] & r_wti_pending) ||
                 (r_msk_hwi[i] & r_hwi_pending);

#if SOCLIB_MODULE_DEBUG
if ( b && !p_irq[i].read())
{
    std::cout << "[" << name() << "] set p_irq[" << i << "] / "
              << std::hex
              << " msk_pti[" << i << "] = " << r_msk_pti[i] << " / "
              << " pti_pending = " << r_pti_pending << " / "
              << " msk_wti[" << i << "] = " << r_msk_wti[i] << " / "
              << " wti_pending = " << r_wti_pending << " / "
              << " msk_hwi[" << i << "] = " << r_msk_hwi[i] << " / "
              << " hwi_pending = " << r_hwi_pending
              << std::dec << std::endl;
}
if ( !b && p_irq[i].read())
{
    std::cout << "[" << name() << "] unset p_irq[" << i << "]" << std::endl;
}
#endif
        p_irq[i] = b;
    }

    // output cfg registers
    for ( size_t i = 0; i<m_cfg_count; ++i )
    {
        p_cfg[i] = r_cfg_reg[i];
    }
}

//////////////////////////////////////////////////
tmpl(/**/)::VciXicu( sc_core::sc_module_name name,
                     const MappingTable      &mt,
                     const                   IntTab &index,
                     size_t                  pti_count,
                     size_t                  hwi_count,
                     size_t                  wti_count,
                     size_t                  irq_count,
                     size_t                  cfg_count )
           : caba::BaseModule(name),
           m_seglist(mt.getSegmentList(index)),
           m_vci_fsm(p_vci, m_seglist),
           m_pti_count(pti_count),
           m_hwi_count(hwi_count),
           m_wti_count(wti_count),
           m_irq_count(irq_count),
           m_cfg_count(cfg_count),
           r_msk_pti(new uint32_t[irq_count]),
           r_msk_wti(new uint32_t[irq_count]),
           r_msk_hwi(new uint32_t[irq_count]),
           r_pti_pending(0),
           r_wti_pending(0),
           r_hwi_pending(0),
           r_pti_per(new uint32_t[pti_count]),
           r_pti_val(new uint32_t[pti_count]),
           r_wti_reg(new uint32_t[wti_count]),
           m_clock_cycles(0),
           p_clk("clk"),
           p_resetn("resetn"),
           p_vci("vci"),
           p_irq(soclib::common::alloc_elems<sc_core::sc_out<bool> >("irq", irq_count)),
           p_hwi(soclib::common::alloc_elems<sc_core::sc_in<bool> >("hwi", hwi_count))
{
    std::cout << "  - Building VciXicu : " << name << std::endl;

    std::list<soclib::common::Segment>::iterator seg;
    for ( seg = m_seglist.begin() ; seg != m_seglist.end() ; seg++ )
    {
        std::cout << "    => segment " << seg->name()
                  << " / base = " << std::hex << seg->baseAddress()
                  << " / size = " << seg->size() << std::endl;
    }

    if ( cfg_count > 0 )
    {
        r_cfg_reg = new uint32_t[cfg_count];
        p_cfg = soclib::common::alloc_elems<sc_core::sc_out<uint32_t> >("cfg", cfg_count);
    }

    m_vci_fsm.on_read_write( on_read, on_write );

    SC_METHOD(transition);
    dont_initialize();
    sensitive << p_clk.pos();

    SC_METHOD(genMoore);
    dont_initialize();
    sensitive << p_clk.neg();
}

//////////////////////
tmpl(/**/)::~VciXicu()
{
    delete [] r_msk_pti;
    delete [] r_msk_wti;
    delete [] r_msk_hwi;
    delete [] r_pti_per;
    delete [] r_pti_val;
    delete [] r_wti_reg;
    soclib::common::dealloc_elems(p_irq, m_irq_count);
    soclib::common::dealloc_elems(p_hwi, m_hwi_count);
    if ( m_cfg_count > 0 )
    {
        delete [] r_cfg_reg;
        soclib::common::dealloc_elems(p_cfg, m_cfg_count);
    }
}

}}

// Local Variables:
// tab-width: 4
// c-basic-offset: 4
// c-file-offsets:((innamespace . 0)(inline-open . 0))
// indent-tabs-mode: nil
// End:

// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=4:softtabstop=4