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// ----------------------------------------------------------------------------
 
// TAP DR-Scan action: implementation
 
// Copyright (C) 2009  Embecosm Limited <info@embecosm.com>
 
// Contributor Jeremy Bennett <jeremy.bennett@embecosm.com>
 
// This file is part of the Embecosm cycle accurate SystemC JTAG library.
 
// This program 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, either version 3 of the License, or (at your
// option) any later version.
 
// This program 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 this program.  If not, see <http://www.gnu.org/licenses/>.
 
// The C/C++ parts of this program are commented throughout in a fashion
// suitable for processing with Doxygen.
 
// ----------------------------------------------------------------------------
 
// $Id$
 
#include <iostream>
#include <stdio.h>
#include "TapActionDRScan.h"
#include "TapStateMachine.h"
 
//! Constructor for "large" DR registers
 
//! Sets up the superclass with the SystemC completion event and initializes
//! our state as appropriate.
 
//! This constructor represents large registers as an array of uint64_t, with
//! least significant bits in the lowest numbered element, and any odd bits in
//! the highest numbered element.
 
//! However if we are presented with an array that represents a "small"
//! (i.e. up to 64-bit) register, we will store it efficiently.
 
//! @param[in] doneEvent     SystemC event to be signalled when this action is
//!                          complete.
//! @param[in] _dRegInArray  The register to shift in.
//! @param[in] _dRegSize     Size in bits of the register to shift in.
 
TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent, uint64_t * _dRegInArray, int _dRegSize):
TapAction(_doneEvent),
dRegBitSize(_dRegSize),
dRegWordSize((_dRegSize + 63) / 64),
goToPauseState(0),
bitsBeforePause(0), bitsShifted(0), dRScanState(SHIFT_DR_PREPARING)
{
        // Small registers are represented simply. Large registers are copied to a
        // local instance (since we destroy dRegIn when shifting it)
 
        if (1 == dRegWordSize) {
                dRegIn = _dRegInArray[0];
                dRegOut = 0;
        } else {
                dRegInArray = new uint64_t[dRegWordSize];
                dRegOutArray = new uint64_t[dRegWordSize];
 
                // Copy in the in array and zero the out array
                for (int i = 0; i < dRegWordSize; i++) {
                        dRegInArray[i] = _dRegInArray[i];
                        dRegOutArray[i] = 0;
                }
 
                // Create a mask for the top word
                int maskBits = ((dRegBitSize - 1) % 64) + 1;
                topMask = (1ULL << maskBits) - 1ULL;
        }
}                               // TapActionDRScan ()
 
//! Constructor for small DR registers
 
//! Sets up the superclass with the SystemC completion event and initializes
//! our state as appropriate.
 
//! This constructor represents small registers in a single uint64_t
 
//! @param[in] doneEvent  SystemC event to be signalled when this action is
//!                       complete.
//! @param[in] _dRegIn    The register to shift in.
//! @param[in] _dRegSize  Size in bits of the register to shift in. Must be no
//!                       greater than 64, or we give a rude message and set
//!                       the value to 64 anyway.
 
TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent,
                                 uint64_t _dRegIn,
                                 int _dRegSize):TapAction(_doneEvent),
dRegBitSize(_dRegSize),
dRegWordSize(1),
goToPauseState(0),
bitsBeforePause(0), bitsShifted(0), dRScanState(SHIFT_DR_PREPARING)
{
        // Print a rude message if we are not small
        if (dRegBitSize > 64) {
                std::cerr << "Simple DR size reduced to 64 bits" << std::endl;
                dRegBitSize = 64;
        }
        // Simple representation
        dRegIn = _dRegIn;
        dRegOut = 0;
 
}                               // TapActionDRScan ()
 
//! Constructor for "large" DR registers using special PAUSE state
 
//! Sets up the superclass with the SystemC completion event and initializes
//! our state as appropriate.
 
//! This constructor represents large registers as an array of uint64_t, with
//! least significant bits in the lowest numbered element, and any odd bits in
//! the highest numbered element.
 
//! However if we are presented with an array that represents a "small"
//! (i.e. up to 64-bit) register, we will store it efficiently.
 
//! @param[in] doneEvent     SystemC event to be signalled when this action is
//!                          complete.
//! @param[in] _dRegInArray  The register to shift in.
//! @param[in] _dRegSize     Size in bits of the register to shift in.
//! @param[in] _goToPauseState     Switch determining if we go to PAUSE state after _bitsBeforePauseState and poll for TDO=0
//! @param[in] _bitsBeforePauseState     Number of bits to shift in before going to shift pause state and polling TDO, indicating transaction has completed
 
TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent,
                                 uint64_t * _dRegInArray,
                                 int _dRegSize,
                                 int _goToPauseState,
                                 int
                                 _bitsBeforePauseState):TapAction(_doneEvent),
dRegBitSize(_dRegSize), dRegWordSize((_dRegSize + 63) / 64),
goToPauseState(_goToPauseState), bitsBeforePause(_bitsBeforePauseState),
pauseStateCount(0), bitsShifted(0), dRScanState(SHIFT_DR_PREPARING)
{
        // Small registers are represented simply. Large registers are copied to a
        // local instance (since we destroy dRegIn when shifting it)
 
        if (1 == dRegWordSize) {
                dRegIn = _dRegInArray[0];
                dRegOut = 0;
        } else {
                dRegInArray = new uint64_t[dRegWordSize];
                dRegOutArray = new uint64_t[dRegWordSize];
 
                // Copy in the in array and zero the out array
                for (int i = 0; i < dRegWordSize; i++) {
                        dRegInArray[i] = _dRegInArray[i];
                        dRegOutArray[i] = 0;
                }
 
                // Create a mask for the top word
                int maskBits = ((dRegBitSize - 1) % 64) + 1;
                topMask = (1ULL << maskBits) - 1ULL;
        }
}                               // TapActionDRScan ()
 
//! Constructor for small DR registers using special PAUSE state
 
//! Sets up the superclass with the SystemC completion event and initializes
//! our state as appropriate.
 
//! This constructor represents small registers in a single uint64_t
 
//! @param[in] doneEvent  SystemC event to be signalled when this action is
//!                       complete.
//! @param[in] _dRegIn    The register to shift in.
//! @param[in] _dRegSize  Size in bits of the register to shift in. Must be no
//!                       greater than 64, or we give a rude message and set
//!                       the value to 64 anyway.
//! @param[in] _goToPauseState     Switch determining if we go to PAUSE state after _bitsBeforePauseState and poll for TDO=0
//! @param[in] _bitsBeforePauseState     Number of bits to shift in before going to shift pause state and polling TDO, indicating transaction has completed
 
TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent,
                                 uint64_t _dRegIn,
                                 int _dRegSize,
                                 int _goToPauseState,
                                 int
                                 _bitsBeforePauseState):TapAction(_doneEvent),
dRegBitSize(_dRegSize), dRegWordSize(1), goToPauseState(_goToPauseState),
bitsBeforePause(_bitsBeforePauseState), pauseStateCount(0), bitsShifted(0),
dRScanState(SHIFT_DR_PREPARING)
{
        // Print a rude message if we are not small
        if (dRegBitSize > 64) {
                std::cerr << "Simple DR size reduced to 64 bits" << std::endl;
                dRegBitSize = 64;
        }
        // Simple representation
        dRegIn = _dRegIn;
        dRegOut = 0;
 
}                               // TapActionDRScan ()
 
//! Destructor.
 
//! If we allocated them, free the large registers
 
TapActionDRScan::~TapActionDRScan()
{
        if (dRegWordSize > 1) {
                delete[]dRegInArray;
                delete[]dRegOutArray;
        }
}                               // ~TapActionDRScan ()
 
//! Process the Shift-DR action
 
//! This drives the DR-Scan state. We can only do this if we have the TAP
//! state machine in a consistent state, which in turn is only possible if we
//! have been through a reset cycle.
 
//! If the state machine shows it has yet to be through a reset cycle, we
//! drive that cycle, after issuing a warning. This functionality is provided
//! by the parent class, TapAction::.
 
//! @param[in]  tapStateMachine  The TAP state machine with which this action
//!                              is associated. 
//! @param[out] tdi              The value to drive on TDI
//! @param[in]  tdo              The value currently on TDO
//! @param[out] tms              The value to drive on TMS
 
//! @return  True if the action is complete
 
bool TapActionDRScan::process(TapStateMachine * tapStateMachine,
                              bool & tdi, bool tdo, bool & tms)
{
        // Ensure we are in a consistent state. If not then we'll have moved towards
        // it and can return with the given tms
        if (!checkResetDone(tapStateMachine, tms, true)) {
                return false;
        }
 
        if (goToPauseState) {
                switch (dRScanState) {
                case SHIFT_DR_PREPARING:
 
                        // Are we in the Shift-DR state yet?
                        if (!tapStateMachine->targetState(TAP_SHIFT_DR, tms)) {
                                return false;   // Not there. Accept the TMS value
                        } else {
                                dRScanState = SHIFT_DR_SHIFTING_BEFORE_PAUSE;   // Drop through
                        }
 
                case SHIFT_DR_SHIFTING_BEFORE_PAUSE:
 
                        // Are we still shifting stuff?
                        if (bitsShifted < bitsBeforePause) {
                                // We are in the Shift-DR state. Another bit about to be done, so
                                // increment the count
                                bitsShifted++;
 
                                // Set the TDI value. In a routine to keep this tidy.
                                tdi = shiftDRegOut();
 
                                // Record the TDO value. This is always a cycle late, so we ignore
                                // it the first time. The value shifts in from the top.
                                if (bitsShifted > 1) {
                                        shiftDRegIn(tdo);
                                }
                                // TMS is 0 to keep us here UNLESS this is the last bit, in which case
                                // it is 1 to move us into Exit1-DR.
                                tms = (bitsShifted == bitsBeforePause);
 
                                // Not done until we've updated
                                return false;
                        } else {
                                // Capture the last TDO bit
                                shiftDRegIn(tdo);
 
                                // Now lower TMS to go to PAUSE_DR
                                tms = false;
 
                                dRScanState = SHIFT_DR_SHIFTING_PAUSE;
 
                        }
 
                case SHIFT_DR_SHIFTING_PAUSE:
                        {
                                if (!tapStateMachine->targetState
                                    (TAP_PAUSE_DR, tms)) {
                                        return false;   // Not there. Accept the TMS value
                                }
 
                                if (pauseStateCount++ < 3)
                                        return false;
                                // Sit in DR_PAUSE state and cycle until TDO is low
                                // tms starts false, should get set to true on the cycle
                                // tdo goes low, then the next cycle we go back to SHIFT_DR
                                // and we return so tms isn't set again.
                                if (!tdo) {
                                        tms = true;
                                        dRScanState = SHIFT_DR_EXIT2;
                                        return false;
                                }
                        }
 
                case SHIFT_DR_EXIT2:
                        {
                                tms = false;
                                shiftDRegIn(0);
                                dRScanState = SHIFT_DR_SHIFTING_AFTER_PAUSE;
                                return false;
 
                        }
 
                case SHIFT_DR_SHIFTING_AFTER_PAUSE:
                        {
                                if (bitsShifted < dRegBitSize) {
                                        // We are in the Shift-DR state. Another bit about to be done, so
                                        // increment the count
                                        bitsShifted++;
 
                                        // Set the TDI value. In a routine to keep this tidy.
                                        tdi = shiftDRegOut();
 
                                        //printf("shifting after pause (%d+32=%d) %d of %d tdo=%d\n",bitsBeforePause,bitsBeforePause+32, bitsShifted, dRegBitSize,(tdo) ? 1 : 0);
                                        shiftDRegIn(tdo);
 
                                        // TMS is 0 to keep us here UNLESS this is the last bit, in which case
                                        // it is 1 to move us into Exit1-DR.
                                        tms = (bitsShifted == dRegBitSize);
 
                                        // Not done until we've updated
                                        return false;
                                } else {
                                        // Capture the last TDO bit
                                        shiftDRegIn(tdo);
 
                                        dRScanState = SHIFT_DR_UPDATING;        // Drop through
                                }
                        }
 
                case SHIFT_DR_UPDATING:
 
                        // Are we still trying to update?
                        if (!tapStateMachine->targetState(TAP_UPDATE_DR, tms)) {
                                return false;   // Not there. Accept the TMS value
                        } else {
                                return true;    // All done
                        }
                }
        } else {
                switch (dRScanState) {
                case SHIFT_DR_PREPARING:
 
                        // Are we in the Shift-DR state yet?
                        if (!tapStateMachine->targetState(TAP_SHIFT_DR, tms)) {
                                return false;   // Not there. Accept the TMS value
                        } else {
                                dRScanState = SHIFT_DR_SHIFTING;        // Drop through
                        }
 
                case SHIFT_DR_SHIFTING:
 
                        // Are we still shifting stuff?
                        if (bitsShifted < dRegBitSize) {
                                // We are in the Shift-DR state. Another bit about to be done, so
                                // increment the count
                                bitsShifted++;
 
                                // Set the TDI value. In a routine to keep this tidy.
                                tdi = shiftDRegOut();
 
                                // Record the TDO value. This is always a cycle late, so we ignore
                                // it the first time. The value shifts in from the top.
                                if (bitsShifted > 1) {
                                        shiftDRegIn(tdo);
                                }
                                // TMS is 0 to keep us here UNLESS this is the last bit, in which case
                                // it is 1 to move us into Exit1-DR.
                                tms = (bitsShifted == dRegBitSize);
 
                                // Not done until we've updated
                                return false;
                        } else {
                                // Capture the last TDO bit
                                shiftDRegIn(tdo);
 
                                dRScanState = SHIFT_DR_UPDATING;        // Drop through
 
                        }
 
                case SHIFT_DR_UPDATING:
 
                        // Are we still trying to update?
                        if (!tapStateMachine->targetState(TAP_UPDATE_DR, tms)) {
                                return false;   // Not there. Accept the TMS value
                        } else {
                                return true;    // All done
                        }
                }
        }
}                               // process ()
 
//! Get the shifted out value.
 
//! This version works with large values.
 
//! @param[out] dRegArray  Array for the result
void TapActionDRScan::getDRegOut(uint64_t dRegArray[])
{
        if (1 == dRegWordSize) {
                dRegArray[0] = dRegOut;
        } else {
                for (int i = 0; i < dRegWordSize; i++) {
                        dRegArray[i] = dRegOutArray[i];
                }
        }
}                               // getDRegOut ()
 
//! Get the shifted out value.
 
//! This version is for small values. For large values it silently returns the
//! bottom 64 bits only.
 
//! @todo  Should we give an error. Or is it useful to allow efficient access
//!        to the bottom 64 bits?
 
//! @return  The value shifted out (or the bottom 64 bits thereof if the
//!          register is "large").
uint64_t TapActionDRScan::getDRegOut()
{
        if (1 == dRegWordSize) {
                return dRegOut;
        } else {
                return dRegOutArray[0];
        }
}                               // getDRegOut ()
 
//! Utility to shift the bottom bit out of the dReg.
 
//! Two flavours depending on whether we have a "small" register
 
//! @return  The bit shifted out.
bool TapActionDRScan::shiftDRegOut()
{
        if (1 == dRegWordSize)  // "Small" register
        {
                bool res = dRegIn & 1;
                dRegIn >>= 1;
                return res;
        } else                  // "Large" register
        {
                bool res = (dRegInArray[0] & 1) == 1;
 
                // Shift all but the first word along
                for (int i = 0; i < (dRegWordSize - 1); i++) {
                        dRegInArray[i] =
                            (dRegInArray[i] >> 1) | (dRegInArray[i + 1] << 63);
                }
 
                // Shift the first word
                dRegInArray[dRegWordSize - 1] >>= 1;
 
                return res;
        }
}                               // shiftDRegOut ()
 
//! Utility to shift the top bit into the dReg.
 
//! Two flavours depending on whether we have a "small" register
 
//! @param bitIn  The bit to shift in the top
void TapActionDRScan::shiftDRegIn(bool bitIn)
{
        if (1 == dRegWordSize)  // "Small" register
        {
                dRegOut >>= 1;  // Move all the existing bits right
 
                if (bitIn)      // OR any new bit in
                {
                        uint64_t tmpBit = 1ULL << (dRegBitSize - 1);
                        dRegOut |= tmpBit;
                }
        } else                  // "Large" register
        {
                // Shift all but the first word along
                for (int i = 0; i < (dRegWordSize - 1); i++) {
                        dRegOutArray[i] >>= 1;
                        dRegOutArray[i] |= dRegOutArray[i + 1] << 63;
                }
 
                // The first word is shifted and the new bit masked in
                dRegOutArray[dRegWordSize - 1] >>= 1;
                dRegOutArray[dRegWordSize - 1] |=
                    bitIn ? (topMask + 1) >> 1 : 0;
        }
}                               // shiftDRegIn ()

Line No.	Rev	Author	Line
1	63	julius	`// ----------------------------------------------------------------------------`
2
3			`// TAP DR-Scan action: implementation`
4
5			`// Copyright (C) 2009 Embecosm Limited <info@embecosm.com>`
6
7			`// Contributor Jeremy Bennett <jeremy.bennett@embecosm.com>`
8
9			`// This file is part of the Embecosm cycle accurate SystemC JTAG library.`
10
11			`// This program is free software: you can redistribute it and/or modify it`
12			`// under the terms of the GNU Lesser General Public License as published by`
13			`// the Free Software Foundation, either version 3 of the License, or (at your`
14			`// option) any later version.`
15
16			`// This program is distributed in the hope that it will be useful, but WITHOUT`
17			`// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or`
18			`// FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public`
19			`// License for more details.`
20
21			`// You should have received a copy of the GNU Lesser General Public License`
22			`// along with this program. If not, see <http://www.gnu.org/licenses/>.`
23
24			`// The C/C++ parts of this program are commented throughout in a fashion`
25			`// suitable for processing with Doxygen.`
26
27			`// ----------------------------------------------------------------------------`
28
29			`// $Id$`
30
31			`#include <iostream>`
32			`#include <stdio.h>`
33			`#include "TapActionDRScan.h"`
34			`#include "TapStateMachine.h"`
35
36			`//! Constructor for "large" DR registers`
37
38			`//! Sets up the superclass with the SystemC completion event and initializes`
39			`//! our state as appropriate.`
40
41			`//! This constructor represents large registers as an array of uint64_t, with`
42			`//! least significant bits in the lowest numbered element, and any odd bits in`
43			`//! the highest numbered element.`
44
45			`//! However if we are presented with an array that represents a "small"`
46			`//! (i.e. up to 64-bit) register, we will store it efficiently.`
47
48			`//! @param[in] doneEvent SystemC event to be signalled when this action is`
49			`//! complete.`
50			`//! @param[in] _dRegInArray The register to shift in.`
51			`//! @param[in] _dRegSize Size in bits of the register to shift in.`
52
53	462	julius	`TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent, uint64_t * _dRegInArray, int _dRegSize):`
54			`TapAction(_doneEvent),`
55			`dRegBitSize(_dRegSize),`
56			`dRegWordSize((_dRegSize + 63) / 64),`
57			`goToPauseState(0),`
58			`bitsBeforePause(0), bitsShifted(0), dRScanState(SHIFT_DR_PREPARING)`
59	63	julius	`{`
60	462	julius	`// Small registers are represented simply. Large registers are copied to a`
61			`// local instance (since we destroy dRegIn when shifting it)`
62	63	julius
63	462	julius	`if (1 == dRegWordSize) {`
64			`dRegIn = _dRegInArray[0];`
65			`dRegOut = 0;`
66			`} else {`
67			`dRegInArray = new uint64_t[dRegWordSize];`
68			`dRegOutArray = new uint64_t[dRegWordSize];`
69	63	julius
70	462	julius	`// Copy in the in array and zero the out array`
71			`for (int i = 0; i < dRegWordSize; i++) {`
72			`dRegInArray[i] = _dRegInArray[i];`
73			`dRegOutArray[i] = 0;`
74			`}`
75
76			`// Create a mask for the top word`
77			`int maskBits = ((dRegBitSize - 1) % 64) + 1;`
78			`topMask = (1ULL << maskBits) - 1ULL;`
79	63	julius	`}`
80	462	julius	`} // TapActionDRScan ()`
81	63	julius
82			`//! Constructor for small DR registers`
83
84			`//! Sets up the superclass with the SystemC completion event and initializes`
85			`//! our state as appropriate.`
86
87			`//! This constructor represents small registers in a single uint64_t`
88
89			`//! @param[in] doneEvent SystemC event to be signalled when this action is`
90			`//! complete.`
91			`//! @param[in] _dRegIn The register to shift in.`
92			`//! @param[in] _dRegSize Size in bits of the register to shift in. Must be no`
93			`//! greater than 64, or we give a rude message and set`
94			`//! the value to 64 anyway.`
95
96	462	julius	`TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent,`
97			`uint64_t _dRegIn,`
98			`int _dRegSize):TapAction(_doneEvent),`
99			`dRegBitSize(_dRegSize),`
100			`dRegWordSize(1),`
101			`goToPauseState(0),`
102			`bitsBeforePause(0), bitsShifted(0), dRScanState(SHIFT_DR_PREPARING)`
103	63	julius	`{`
104	462	julius	`// Print a rude message if we are not small`
105			`if (dRegBitSize > 64) {`
106			`std::cerr << "Simple DR size reduced to 64 bits" << std::endl;`
107			`dRegBitSize = 64;`
108			`}`
109			`// Simple representation`
110			`dRegIn = _dRegIn;`
111			`dRegOut = 0;`
112	63	julius
113	462	julius	`} // TapActionDRScan ()`
114	63	julius
115			`//! Constructor for "large" DR registers using special PAUSE state`
116
117			`//! Sets up the superclass with the SystemC completion event and initializes`
118			`//! our state as appropriate.`
119
120			`//! This constructor represents large registers as an array of uint64_t, with`
121			`//! least significant bits in the lowest numbered element, and any odd bits in`
122			`//! the highest numbered element.`
123
124			`//! However if we are presented with an array that represents a "small"`
125			`//! (i.e. up to 64-bit) register, we will store it efficiently.`
126
127			`//! @param[in] doneEvent SystemC event to be signalled when this action is`
128			`//! complete.`
129			`//! @param[in] _dRegInArray The register to shift in.`
130			`//! @param[in] _dRegSize Size in bits of the register to shift in.`
131			`//! @param[in] _goToPauseState Switch determining if we go to PAUSE state after _bitsBeforePauseState and poll for TDO=0`
132			`//! @param[in] _bitsBeforePauseState Number of bits to shift in before going to shift pause state and polling TDO, indicating transaction has completed`
133
134	462	julius	`TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent,`
135			`uint64_t * _dRegInArray,`
136			`int _dRegSize,`
137			`int _goToPauseState,`
138			`int`
139			`_bitsBeforePauseState):TapAction(_doneEvent),`
140			`dRegBitSize(_dRegSize), dRegWordSize((_dRegSize + 63) / 64),`
141			`goToPauseState(_goToPauseState), bitsBeforePause(_bitsBeforePauseState),`
142			`pauseStateCount(0), bitsShifted(0), dRScanState(SHIFT_DR_PREPARING)`
143	63	julius	`{`
144	462	julius	`// Small registers are represented simply. Large registers are copied to a`
145			`// local instance (since we destroy dRegIn when shifting it)`
146	63	julius
147	462	julius	`if (1 == dRegWordSize) {`
148			`dRegIn = _dRegInArray[0];`
149			`dRegOut = 0;`
150			`} else {`
151			`dRegInArray = new uint64_t[dRegWordSize];`
152			`dRegOutArray = new uint64_t[dRegWordSize];`
153	63	julius
154	462	julius	`// Copy in the in array and zero the out array`
155			`for (int i = 0; i < dRegWordSize; i++) {`
156			`dRegInArray[i] = _dRegInArray[i];`
157			`dRegOutArray[i] = 0;`
158			`}`
159
160			`// Create a mask for the top word`
161			`int maskBits = ((dRegBitSize - 1) % 64) + 1;`
162			`topMask = (1ULL << maskBits) - 1ULL;`
163	63	julius	`}`
164	462	julius	`} // TapActionDRScan ()`
165	63	julius
166			`//! Constructor for small DR registers using special PAUSE state`
167
168			`//! Sets up the superclass with the SystemC completion event and initializes`
169			`//! our state as appropriate.`
170
171			`//! This constructor represents small registers in a single uint64_t`
172
173			`//! @param[in] doneEvent SystemC event to be signalled when this action is`
174			`//! complete.`
175			`//! @param[in] _dRegIn The register to shift in.`
176			`//! @param[in] _dRegSize Size in bits of the register to shift in. Must be no`
177			`//! greater than 64, or we give a rude message and set`
178			`//! the value to 64 anyway.`
179			`//! @param[in] _goToPauseState Switch determining if we go to PAUSE state after _bitsBeforePauseState and poll for TDO=0`
180			`//! @param[in] _bitsBeforePauseState Number of bits to shift in before going to shift pause state and polling TDO, indicating transaction has completed`
181
182	462	julius	`TapActionDRScan::TapActionDRScan(sc_core::sc_event * _doneEvent,`
183			`uint64_t _dRegIn,`
184			`int _dRegSize,`
185			`int _goToPauseState,`
186			`int`
187			`_bitsBeforePauseState):TapAction(_doneEvent),`
188			`dRegBitSize(_dRegSize), dRegWordSize(1), goToPauseState(_goToPauseState),`
189			`bitsBeforePause(_bitsBeforePauseState), pauseStateCount(0), bitsShifted(0),`
190			`dRScanState(SHIFT_DR_PREPARING)`
191	63	julius	`{`
192	462	julius	`// Print a rude message if we are not small`
193			`if (dRegBitSize > 64) {`
194			`std::cerr << "Simple DR size reduced to 64 bits" << std::endl;`
195			`dRegBitSize = 64;`
196			`}`
197			`// Simple representation`
198			`dRegIn = _dRegIn;`
199			`dRegOut = 0;`
200	63	julius
201	462	julius	`} // TapActionDRScan ()`
202	63	julius
203			`//! Destructor.`
204
205			`//! If we allocated them, free the large registers`
206
207	462	julius	`TapActionDRScan::~TapActionDRScan()`
208	63	julius	`{`
209	462	julius	`if (dRegWordSize > 1) {`
210			`delete[]dRegInArray;`
211			`delete[]dRegOutArray;`
212			`}`
213			`} // ~TapActionDRScan ()`
214	63	julius
215			`//! Process the Shift-DR action`
216
217			`//! This drives the DR-Scan state. We can only do this if we have the TAP`
218			`//! state machine in a consistent state, which in turn is only possible if we`
219			`//! have been through a reset cycle.`
220
221			`//! If the state machine shows it has yet to be through a reset cycle, we`
222			`//! drive that cycle, after issuing a warning. This functionality is provided`
223			`//! by the parent class, TapAction::.`
224
225			`//! @param[in] tapStateMachine The TAP state machine with which this action`
226			`//! is associated.`
227			`//! @param[out] tdi The value to drive on TDI`
228			`//! @param[in] tdo The value currently on TDO`
229			`//! @param[out] tms The value to drive on TMS`
230
231			`//! @return True if the action is complete`
232
233	462	julius	`bool TapActionDRScan::process(TapStateMachine * tapStateMachine,`
234			`bool & tdi, bool tdo, bool & tms)`
235	63	julius	`{`
236	462	julius	`// Ensure we are in a consistent state. If not then we'll have moved towards`
237			`// it and can return with the given tms`
238			`if (!checkResetDone(tapStateMachine, tms, true)) {`
239	63	julius	`return false;`
240			`}`
241	462	julius
242			`if (goToPauseState) {`
243			`switch (dRScanState) {`
244			`case SHIFT_DR_PREPARING:`
245
246			`// Are we in the Shift-DR state yet?`
247			`if (!tapStateMachine->targetState(TAP_SHIFT_DR, tms)) {`
248			`return false; // Not there. Accept the TMS value`
249			`} else {`
250			`dRScanState = SHIFT_DR_SHIFTING_BEFORE_PAUSE; // Drop through`
251			`}`
252
253			`case SHIFT_DR_SHIFTING_BEFORE_PAUSE:`
254
255			`// Are we still shifting stuff?`
256			`if (bitsShifted < bitsBeforePause) {`
257			`// We are in the Shift-DR state. Another bit about to be done, so`
258			`// increment the count`
259			`bitsShifted++;`
260
261			`// Set the TDI value. In a routine to keep this tidy.`
262			`tdi = shiftDRegOut();`
263
264			`// Record the TDO value. This is always a cycle late, so we ignore`
265			`// it the first time. The value shifts in from the top.`
266			`if (bitsShifted > 1) {`
267			`shiftDRegIn(tdo);`
268			`}`
269			`// TMS is 0 to keep us here UNLESS this is the last bit, in which case`
270			`// it is 1 to move us into Exit1-DR.`
271			`tms = (bitsShifted == bitsBeforePause);`
272
273			`// Not done until we've updated`
274			`return false;`
275			`} else {`
276			`// Capture the last TDO bit`
277			`shiftDRegIn(tdo);`
278
279			`// Now lower TMS to go to PAUSE_DR`
280			`tms = false;`
281
282			`dRScanState = SHIFT_DR_SHIFTING_PAUSE;`
283
284			`}`
285
286			`case SHIFT_DR_SHIFTING_PAUSE:`
287			`{`
288			`if (!tapStateMachine->targetState`
289			`(TAP_PAUSE_DR, tms)) {`
290			`return false; // Not there. Accept the TMS value`
291			`}`
292
293			`if (pauseStateCount++ < 3)`
294			`return false;`
295			`// Sit in DR_PAUSE state and cycle until TDO is low`
296			`// tms starts false, should get set to true on the cycle`
297			`// tdo goes low, then the next cycle we go back to SHIFT_DR`
298			`// and we return so tms isn't set again.`
299			`if (!tdo) {`
300			`tms = true;`
301			`dRScanState = SHIFT_DR_EXIT2;`
302			`return false;`
303			`}`
304			`}`
305
306			`case SHIFT_DR_EXIT2:`
307			`{`
308			`tms = false;`
309			`shiftDRegIn(0);`
310			`dRScanState = SHIFT_DR_SHIFTING_AFTER_PAUSE;`
311			`return false;`
312
313			`}`
314
315			`case SHIFT_DR_SHIFTING_AFTER_PAUSE:`
316			`{`
317			`if (bitsShifted < dRegBitSize) {`
318			`// We are in the Shift-DR state. Another bit about to be done, so`
319			`// increment the count`
320			`bitsShifted++;`
321
322			`// Set the TDI value. In a routine to keep this tidy.`
323			`tdi = shiftDRegOut();`
324
325			`//printf("shifting after pause (%d+32=%d) %d of %d tdo=%d\n",bitsBeforePause,bitsBeforePause+32, bitsShifted, dRegBitSize,(tdo) ? 1 : 0);`
326			`shiftDRegIn(tdo);`
327
328			`// TMS is 0 to keep us here UNLESS this is the last bit, in which case`
329			`// it is 1 to move us into Exit1-DR.`
330			`tms = (bitsShifted == dRegBitSize);`
331
332			`// Not done until we've updated`
333			`return false;`
334			`} else {`
335			`// Capture the last TDO bit`
336			`shiftDRegIn(tdo);`
337
338			`dRScanState = SHIFT_DR_UPDATING; // Drop through`
339			`}`
340			`}`
341
342			`case SHIFT_DR_UPDATING:`
343
344			`// Are we still trying to update?`
345			`if (!tapStateMachine->targetState(TAP_UPDATE_DR, tms)) {`
346			`return false; // Not there. Accept the TMS value`
347			`} else {`
348			`return true; // All done`
349			`}`
350	63	julius	`}`
351	462	julius	`} else {`
352			`switch (dRScanState) {`
353			`case SHIFT_DR_PREPARING:`
354
355			`// Are we in the Shift-DR state yet?`
356			`if (!tapStateMachine->targetState(TAP_SHIFT_DR, tms)) {`
357			`return false; // Not there. Accept the TMS value`
358			`} else {`
359			`dRScanState = SHIFT_DR_SHIFTING; // Drop through`
360			`}`
361
362			`case SHIFT_DR_SHIFTING:`
363
364			`// Are we still shifting stuff?`
365			`if (bitsShifted < dRegBitSize) {`
366			`// We are in the Shift-DR state. Another bit about to be done, so`
367			`// increment the count`
368			`bitsShifted++;`
369
370			`// Set the TDI value. In a routine to keep this tidy.`
371			`tdi = shiftDRegOut();`
372
373			`// Record the TDO value. This is always a cycle late, so we ignore`
374			`// it the first time. The value shifts in from the top.`
375			`if (bitsShifted > 1) {`
376			`shiftDRegIn(tdo);`
377			`}`
378			`// TMS is 0 to keep us here UNLESS this is the last bit, in which case`
379			`// it is 1 to move us into Exit1-DR.`
380			`tms = (bitsShifted == dRegBitSize);`
381
382			`// Not done until we've updated`
383			`return false;`
384			`} else {`
385			`// Capture the last TDO bit`
386			`shiftDRegIn(tdo);`
387
388			`dRScanState = SHIFT_DR_UPDATING; // Drop through`
389
390			`}`
391
392			`case SHIFT_DR_UPDATING:`
393
394			`// Are we still trying to update?`
395			`if (!tapStateMachine->targetState(TAP_UPDATE_DR, tms)) {`
396			`return false; // Not there. Accept the TMS value`
397			`} else {`
398			`return true; // All done`
399			`}`
400			`}`
401	63	julius	`}`
402	462	julius	`} // process ()`
403	63	julius
404			`//! Get the shifted out value.`
405
406			`//! This version works with large values.`
407
408			`//! @param[out] dRegArray Array for the result`
409	462	julius	`void TapActionDRScan::getDRegOut(uint64_t dRegArray[])`
410	63	julius	`{`
411	462	julius	`if (1 == dRegWordSize) {`
412			`dRegArray[0] = dRegOut;`
413			`} else {`
414			`for (int i = 0; i < dRegWordSize; i++) {`
415			`dRegArray[i] = dRegOutArray[i];`
416			`}`
417	63	julius	`}`
418	462	julius	`} // getDRegOut ()`
419	63	julius
420			`//! Get the shifted out value.`
421
422			`//! This version is for small values. For large values it silently returns the`
423			`//! bottom 64 bits only.`
424
425			`//! @todo Should we give an error. Or is it useful to allow efficient access`
426			`//! to the bottom 64 bits?`
427
428			`//! @return The value shifted out (or the bottom 64 bits thereof if the`
429			`//! register is "large").`
430	462	julius	`uint64_t TapActionDRScan::getDRegOut()`
431	63	julius	`{`
432	462	julius	`if (1 == dRegWordSize) {`
433			`return dRegOut;`
434			`} else {`
435			`return dRegOutArray[0];`
436			`}`
437			`} // getDRegOut ()`
438	63	julius
439			`//! Utility to shift the bottom bit out of the dReg.`
440
441			`//! Two flavours depending on whether we have a "small" register`
442
443			`//! @return The bit shifted out.`
444	462	julius	`bool TapActionDRScan::shiftDRegOut()`
445	63	julius	`{`
446	462	julius	`if (1 == dRegWordSize) // "Small" register`
447	63	julius	`{`
448	462	julius	`bool res = dRegIn & 1;`
449			`dRegIn >>= 1;`
450			`return res;`
451			`} else // "Large" register`
452			`{`
453			`bool res = (dRegInArray[0] & 1) == 1;`
454	63	julius
455	462	julius	`// Shift all but the first word along`
456			`for (int i = 0; i < (dRegWordSize - 1); i++) {`
457			`dRegInArray[i] =`
458			`(dRegInArray[i] >> 1) \| (dRegInArray[i + 1] << 63);`
459			`}`
460	63	julius
461	462	julius	`// Shift the first word`
462			`dRegInArray[dRegWordSize - 1] >>= 1;`
463	63	julius
464	462	julius	`return res;`
465			`}`
466			`} // shiftDRegOut ()`
467	63	julius
468			`//! Utility to shift the top bit into the dReg.`
469
470			`//! Two flavours depending on whether we have a "small" register`
471
472			`//! @param bitIn The bit to shift in the top`
473	462	julius	`void TapActionDRScan::shiftDRegIn(bool bitIn)`
474	63	julius	`{`
475	462	julius	`if (1 == dRegWordSize) // "Small" register`
476			`{`
477			`dRegOut >>= 1; // Move all the existing bits right`
478	63	julius
479	462	julius	`if (bitIn) // OR any new bit in`
480			`{`
481			`uint64_t tmpBit = 1ULL << (dRegBitSize - 1);`
482			`dRegOut \|= tmpBit;`
483			`}`
484			`} else // "Large" register`
485	63	julius	`{`
486	462	julius	`// Shift all but the first word along`
487			`for (int i = 0; i < (dRegWordSize - 1); i++) {`
488			`dRegOutArray[i] >>= 1;`
489			`dRegOutArray[i] \|= dRegOutArray[i + 1] << 63;`
490			`}`
491
492			`// The first word is shifted and the new bit masked in`
493			`dRegOutArray[dRegWordSize - 1] >>= 1;`
494			`dRegOutArray[dRegWordSize - 1] \|=`
495			`bitIn ? (topMask + 1) >> 1 : 0;`
496	63	julius	`}`
497	462	julius	`} // shiftDRegIn ()`

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