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path: root/src/target/arm11_dbgtap.c
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/***************************************************************************
 *   Copyright (C) 2008 digenius technology GmbH.                          *
 *                                                                         *
 *   Copyright (C) 2008 Oyvind Harboe oyvind.harboe@zylin.com              *
 *                                                                         *
 *   This program is free software; you can redistribute it and/or modify  *
 *   it under the terms of the GNU General Public License as published by  *
 *   the Free Software Foundation; either version 2 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 General Public License for more details.                          *
 *                                                                         *
 *   You should have received a copy of the GNU General Public License     *
 *   along with this program; if not, write to the                         *
 *   Free Software Foundation, Inc.,                                       *
 *   59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.             *
 ***************************************************************************/

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include "arm11.h"
#include "jtag.h"
#include "log.h"

#include <stdlib.h>
#include <string.h>

#if 0
#define JTAG_DEBUG(expr ...)	DEBUG(expr)
#else
#define JTAG_DEBUG(expr ...)	do {} while(0)
#endif

enum tap_state arm11_move_pi_to_si_via_ci[] =
{
    TAP_E2I, TAP_UI, TAP_SDS, TAP_SIS, TAP_CI, TAP_SI
};


int arm11_add_ir_scan_vc(int num_fields, scan_field_t *fields, enum tap_state state)
{
    if (cmd_queue_cur_state == TAP_PI)
	jtag_add_pathmove(asizeof(arm11_move_pi_to_si_via_ci), arm11_move_pi_to_si_via_ci);

    jtag_add_ir_scan(num_fields, fields, state);
    return ERROR_OK;
}

enum tap_state arm11_move_pd_to_sd_via_cd[] =
{
    TAP_E2D, TAP_UD, TAP_SDS, TAP_CD, TAP_SD
};

int arm11_add_dr_scan_vc(int num_fields, scan_field_t *fields, enum tap_state state)
{
    if (cmd_queue_cur_state == TAP_PD)
	jtag_add_pathmove(asizeof(arm11_move_pd_to_sd_via_cd), arm11_move_pd_to_sd_via_cd);

    jtag_add_dr_scan(num_fields, fields, state);
    return ERROR_OK;
}


/** Code de-clutter: Construct scan_field_t to write out a value
 *
 * \param arm11		Target state variable.
 * \param num_bits	Length of the data field
 * \param out_data	pointer to the data that will be sent out
 *			<em>(data is read when it is added to the JTAG queue)</em>
 * \param in_data	pointer to the memory that will receive data that was clocked in
 *			<em>(data is written when the JTAG queue is executed)</em>
 * \param field target data structure that will be initialized
 */
void arm11_setup_field(arm11_common_t * arm11, int num_bits, void * out_data, void * in_data, scan_field_t * field)
{
    field->device		= arm11->jtag_info.chain_pos;
    field->num_bits		= num_bits;
    field->out_mask		= NULL;
    field->in_check_mask	= NULL;
    field->in_check_value	= NULL;
    field->in_handler		= NULL;
    field->in_handler_priv	= NULL;

    field->out_value		= out_data;
    field->in_value		= in_data;
}


/** Write JTAG instruction register
 *
 * \param arm11 Target state variable.
 * \param instr An ARM11 DBGTAP instruction. Use enum #arm11_instructions.
 * \param state Pass the final TAP state or -1 for the default value (Pause-IR).
 *
 * \remarks This adds to the JTAG command queue but does \em not execute it.
 */
void arm11_add_IR(arm11_common_t * arm11, u8 instr, enum tap_state state)
{
    jtag_device_t *device = jtag_get_device(arm11->jtag_info.chain_pos);

    if (buf_get_u32(device->cur_instr, 0, 5) == instr)
    {
	JTAG_DEBUG("IR <= 0x%02x SKIPPED", instr);
	return;
    }

    JTAG_DEBUG("IR <= 0x%02x", instr);

    scan_field_t field;

    arm11_setup_field(arm11, 5, &instr, NULL, &field);

    arm11_add_ir_scan_vc(1, &field, state == -1 ? TAP_PI : state);
}

/** Verify shifted out data from Scan Chain Register (SCREG)
 *  Used as parameter to scan_field_t::in_handler in
 *  arm11_add_debug_SCAN_N().
 *
 */
static int arm11_in_handler_SCAN_N(u8 *in_value, void *priv, struct scan_field_s *field)
{
    /** \todo TODO: clarify why this isnt properly masked in jtag.c jtag_read_buffer() */
    u8 v = *in_value & 0x1F;

    if (v != 0x10)
    {
        LOG_ERROR("'arm11 target' JTAG communication error SCREG SCAN OUT 0x%02x (expected 0x10)", v);
        return ERROR_FAIL;
    }

    JTAG_DEBUG("SCREG SCAN OUT 0x%02x", v);
    return ERROR_OK;
}

/** Select and write to Scan Chain Register (SCREG)
 * 
 * This function sets the instruction register to SCAN_N and writes
 * the data register with the selected chain number.
 *
 * http://infocenter.arm.com/help/topic/com.arm.doc.ddi0301f/Cacbjhfg.html
 *
 * \param arm11	    Target state variable.
 * \param chain	    Scan chain that will be selected.
 * \param state	    Pass the final TAP state or -1 for the default
 *		    value (Pause-DR).
 *
 * The chain takes effect when Update-DR is passed (usually when subsequently
 * the INTEXT/EXTEST instructions are written).
 *
 * \warning (Obsolete) Using this twice in a row will \em fail. The first call will end
 *          in Pause-DR. The second call, due to the IR caching, will not
 *	    go through Capture-DR when shifting in the new scan chain number.
 *	    As a result the verification in arm11_in_handler_SCAN_N() must
 *	    fail.
 *
 * \remarks This adds to the JTAG command queue but does \em not execute it.
 */

void arm11_add_debug_SCAN_N(arm11_common_t * arm11, u8 chain, enum tap_state state)
{
    JTAG_DEBUG("SCREG <= 0x%02x", chain);

    arm11_add_IR(arm11, ARM11_SCAN_N, -1);

    scan_field_t		field;

    arm11_setup_field(arm11, 5, &chain, NULL, &field);

    field.in_handler = arm11_in_handler_SCAN_N;

    arm11_add_dr_scan_vc(1, &field, state == -1 ? TAP_PD : state);
}

/** Write an instruction into the ITR register
 * 
 * \param arm11	Target state variable.
 * \param inst	An ARM11 processor instruction/opcode.
 * \param flag	Optional parameter to retrieve the InstCompl flag
 *		(this will be written when the JTAG chain is executed). 
 * \param state	Pass the final TAP state or -1 for the default
 *		value (Run-Test/Idle).
 *
 * \remarks By default this ends with Run-Test/Idle state
 * and causes the instruction to be executed. If
 * a subsequent write to DTR is needed before
 * executing the instruction then TAP_PD should be
 * passed to \p state.
 *
 * \remarks This adds to the JTAG command queue but does \em not execute it.
 */
void arm11_add_debug_INST(arm11_common_t * arm11, u32 inst, u8 * flag, enum tap_state state)
{
    JTAG_DEBUG("INST <= 0x%08x", inst);

    scan_field_t		itr[2];

    arm11_setup_field(arm11, 32,    &inst,	NULL, itr + 0);
    arm11_setup_field(arm11, 1,	    NULL,	flag, itr + 1);

    arm11_add_dr_scan_vc(asizeof(itr), itr, state == -1 ? TAP_RTI : state);
}

/** Read the Debug Status and Control Register (DSCR)
 *
 * same as CP14 c1
 *
 * \param arm11 Target state variable.
 * \return DSCR content
 * 
 * \remarks This is a stand-alone function that executes the JTAG command queue.
 */
u32 arm11_read_DSCR(arm11_common_t * arm11)
{
    arm11_add_debug_SCAN_N(arm11, 0x01, -1);

    arm11_add_IR(arm11, ARM11_INTEST, -1);

    u32			dscr;
    scan_field_t	chain1_field;

    arm11_setup_field(arm11, 32, NULL, &dscr, &chain1_field);

    arm11_add_dr_scan_vc(1, &chain1_field, TAP_PD);

    jtag_execute_queue();

    if (arm11->last_dscr != dscr)
        JTAG_DEBUG("DSCR  = %08x (OLD %08x)", dscr, arm11->last_dscr);

    arm11->last_dscr = dscr;

    return dscr;
}

/** Write the Debug Status and Control Register (DSCR)
 *
 * same as CP14 c1
 *
 * \param arm11 Target state variable.
 * \param dscr DSCR content
 * 
 * \remarks This is a stand-alone function that executes the JTAG command queue.
 */
void arm11_write_DSCR(arm11_common_t * arm11, u32 dscr)
{
    arm11_add_debug_SCAN_N(arm11, 0x01, -1);

    arm11_add_IR(arm11, ARM11_EXTEST, -1);

    scan_field_t		    chain1_field;

    arm11_setup_field(arm11, 32, &dscr, NULL, &chain1_field);

    arm11_add_dr_scan_vc(1, &chain1_field, TAP_PD);

    jtag_execute_queue();

    JTAG_DEBUG("DSCR <= %08x (OLD %08x)", dscr, arm11->last_dscr);

    arm11->last_dscr = dscr;
}



/** Get the debug reason from Debug Status and Control Register (DSCR)
 *
 * \param dscr DSCR value to analyze
 * \return Debug reason
 * 
 */
enum target_debug_reason arm11_get_DSCR_debug_reason(u32 dscr)
{
    switch (dscr & ARM11_DSCR_METHOD_OF_DEBUG_ENTRY_MASK)
    {
    case ARM11_DSCR_METHOD_OF_DEBUG_ENTRY_HALT:
	LOG_INFO("Debug entry: JTAG HALT");
	return DBG_REASON_DBGRQ;

    case ARM11_DSCR_METHOD_OF_DEBUG_ENTRY_BREAKPOINT:
	LOG_INFO("Debug entry: breakpoint");
	return DBG_REASON_BREAKPOINT;

    case ARM11_DSCR_METHOD_OF_DEBUG_ENTRY_WATCHPOINT:
	LOG_INFO("Debug entry: watchpoint");
	return DBG_REASON_WATCHPOINT;

    case ARM11_DSCR_METHOD_OF_DEBUG_ENTRY_BKPT_INSTRUCTION:
	LOG_INFO("Debug entry: BKPT instruction");
	return DBG_REASON_BREAKPOINT;

    case ARM11_DSCR_METHOD_OF_DEBUG_ENTRY_EDBGRQ:
	LOG_INFO("Debug entry: EDBGRQ signal");
	return DBG_REASON_DBGRQ;

    case ARM11_DSCR_METHOD_OF_DEBUG_ENTRY_VECTOR_CATCH:
	LOG_INFO("Debug entry: VCR vector catch");
	return DBG_REASON_BREAKPOINT;

    default:
	LOG_INFO("Debug entry: unknown");
	return DBG_REASON_DBGRQ;
    }
};



/** Prepare the stage for ITR/DTR operations
 * from the arm11_run_instr... group of functions.
 *
 * Put arm11_run_instr_data_prepare() and arm11_run_instr_data_finish()
 * around a block of arm11_run_instr_... calls.
 *
 * Select scan chain 5 to allow quick access to DTR. When scan
 * chain 4 is needed to put in a register the ITRSel instruction
 * shortcut is used instead of actually changing the Scan_N
 * register.
 *
 * \param arm11 Target state variable.
 *
 */
void arm11_run_instr_data_prepare(arm11_common_t * arm11)
{
    arm11_add_debug_SCAN_N(arm11, 0x05, -1);
}

/** Cleanup after ITR/DTR operations
 * from the arm11_run_instr... group of functions
 *
 * Put arm11_run_instr_data_prepare() and arm11_run_instr_data_finish()
 * around a block of arm11_run_instr_... calls.
 *
 * Any RTI can lead to an instruction execution when
 * scan chains 4 or 5 are selected and the IR holds
 * INTEST or EXTEST. So we must disable that before
 * any following activities lead to an RTI.
 *
 * \param arm11 Target state variable.
 *
 */
void arm11_run_instr_data_finish(arm11_common_t * arm11)
{
    arm11_add_debug_SCAN_N(arm11, 0x00, -1);
}


/** Execute one or multiple instructions via ITR
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	Pointer to sequence of ARM opcodes
 * \param count		Number of opcodes to execute
 *
 */
void arm11_run_instr_no_data(arm11_common_t * arm11, u32 * opcode, size_t count)
{
    arm11_add_IR(arm11, ARM11_ITRSEL, -1);

    while (count--)
    {
	arm11_add_debug_INST(arm11, *opcode++, NULL, TAP_RTI);

	while (1)
	{
	    u8 flag;

	    arm11_add_debug_INST(arm11, 0, &flag, count ? TAP_RTI : TAP_PD);

	    jtag_execute_queue();

	    if (flag)
		break;
	}
    }
}

/** Execute one instruction via ITR
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	ARM opcode
 *
 */
void arm11_run_instr_no_data1(arm11_common_t * arm11, u32 opcode)
{
    arm11_run_instr_no_data(arm11, &opcode, 1);
}


/** Execute one instruction via ITR repeatedly while
 *  passing data to the core via DTR on each execution.
 *
 *  The executed instruction \em must read data from DTR.
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	ARM opcode
 * \param data		Pointer to the data words to be passed to the core
 * \param count		Number of data words and instruction repetitions
 *
 */
void arm11_run_instr_data_to_core(arm11_common_t * arm11, u32 opcode, u32 * data, size_t count)
{
    arm11_add_IR(arm11, ARM11_ITRSEL, -1);

    arm11_add_debug_INST(arm11, opcode, NULL, TAP_PD);

    arm11_add_IR(arm11, ARM11_EXTEST, -1);

    scan_field_t	chain5_fields[3];

    u32			Data;
    u8			Ready;
    u8			nRetry;

    arm11_setup_field(arm11, 32,    &Data,  NULL,	chain5_fields + 0);
    arm11_setup_field(arm11,  1,    NULL,   &Ready,	chain5_fields + 1);
    arm11_setup_field(arm11,  1,    NULL,   &nRetry,	chain5_fields + 2);

    while (count--)
    {
	do
	{
	    Data	    = *data;

	    arm11_add_dr_scan_vc(asizeof(chain5_fields), chain5_fields, TAP_RTI);
	    jtag_execute_queue();

	    JTAG_DEBUG("DTR  Ready %d  nRetry %d", Ready, nRetry);
	}
	while (!Ready);

	data++;
    }

    arm11_add_IR(arm11, ARM11_INTEST, -1);

    do
    {
	Data	    = 0;

	arm11_add_dr_scan_vc(asizeof(chain5_fields), chain5_fields, TAP_PD);
	jtag_execute_queue();

	JTAG_DEBUG("DTR  Data %08x  Ready %d  nRetry %d", Data, Ready, nRetry);
    }
    while (!Ready);
}

/** JTAG path for arm11_run_instr_data_to_core_noack
 *
 *  The repeated TAP_RTI's do not cause a repeated execution
 *  if passed without leaving the state.
 *
 *  Since this is more than 7 bits (adjustable via adding more
 *  TAP_RTI's) it produces an artificial delay in the lower
 *  layer (FT2232) that is long enough to finish execution on
 *  the core but still shorter than any manually inducible delays.
 *
 */
enum tap_state arm11_MOVE_PD_RTI_PD_with_delay[] =
{
    TAP_E2D, TAP_UD, TAP_RTI, TAP_RTI, TAP_RTI, TAP_SDS, TAP_CD, TAP_SD
};



/** Execute one instruction via ITR repeatedly while
 *  passing data to the core via DTR on each execution.
 *
 *  No Ready check during transmission.
 *
 *  The executed instruction \em must read data from DTR.
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	ARM opcode
 * \param data		Pointer to the data words to be passed to the core
 * \param count		Number of data words and instruction repetitions
 *
 */
void arm11_run_instr_data_to_core_noack(arm11_common_t * arm11, u32 opcode, u32 * data, size_t count)
{
    arm11_add_IR(arm11, ARM11_ITRSEL, -1);

    arm11_add_debug_INST(arm11, opcode, NULL, TAP_PD);

    arm11_add_IR(arm11, ARM11_EXTEST, -1);

    scan_field_t	chain5_fields[3];

    arm11_setup_field(arm11, 32,    NULL/*&Data*/,  NULL,	chain5_fields + 0);
    arm11_setup_field(arm11,  1,    NULL,   NULL /*&Ready*/,	chain5_fields + 1);
    arm11_setup_field(arm11,  1,    NULL,   NULL,	chain5_fields + 2);

    u8			Readies[count + 1];
    u8	*		ReadyPos	    = Readies;

    while (count--)
    {
	chain5_fields[0].out_value	= (void *)(data++);
	chain5_fields[1].in_value	= ReadyPos++;

	if (count)
	{
	    jtag_add_dr_scan(asizeof(chain5_fields), chain5_fields, TAP_PD);
	    jtag_add_pathmove(asizeof(arm11_MOVE_PD_RTI_PD_with_delay),
		arm11_MOVE_PD_RTI_PD_with_delay); 
	}
	else
	{
	    jtag_add_dr_scan(asizeof(chain5_fields), chain5_fields, TAP_RTI);
	}
    }

    arm11_add_IR(arm11, ARM11_INTEST, -1);

    chain5_fields[0].out_value	= 0;
    chain5_fields[1].in_value   = ReadyPos++;

    arm11_add_dr_scan_vc(asizeof(chain5_fields), chain5_fields, TAP_PD);

    jtag_execute_queue();

    size_t error_count = 0;

    {size_t i;
    for (i = 0; i < asizeof(Readies); i++)
    {
	if (Readies[i] != 1)
	{
	    error_count++;
	}
    }}

    if (error_count)
	LOG_ERROR("Transfer errors " ZU, error_count);
}


/** Execute an instruction via ITR while handing data into the core via DTR.
 *
 *  The executed instruction \em must read data from DTR.
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	ARM opcode
 * \param data		Data word to be passed to the core via DTR
 *
 */
void arm11_run_instr_data_to_core1(arm11_common_t * arm11, u32 opcode, u32 data)
{
    arm11_run_instr_data_to_core(arm11, opcode, &data, 1);
}


/** Execute one instruction via ITR repeatedly while
 *  reading data from the core via DTR on each execution.
 *
 *  The executed instruction \em must write data to DTR.
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	ARM opcode
 * \param data		Pointer to an array that receives the data words from the core
 * \param count		Number of data words and instruction repetitions
 *
 */
void arm11_run_instr_data_from_core(arm11_common_t * arm11, u32 opcode, u32 * data, size_t count)
{
    arm11_add_IR(arm11, ARM11_ITRSEL, -1);

    arm11_add_debug_INST(arm11, opcode, NULL, TAP_RTI);

    arm11_add_IR(arm11, ARM11_INTEST, -1);

    scan_field_t	chain5_fields[3];

    u32			Data;
    u8			Ready;
    u8			nRetry;

    arm11_setup_field(arm11, 32,    NULL,	&Data,	    chain5_fields + 0);
    arm11_setup_field(arm11,  1,    NULL,	&Ready,	    chain5_fields + 1);
    arm11_setup_field(arm11,  1,    NULL,	&nRetry,    chain5_fields + 2);

    while (count--)
    {
	do
	{
	    arm11_add_dr_scan_vc(asizeof(chain5_fields), chain5_fields, count ? TAP_RTI : TAP_PD);
	    jtag_execute_queue();

	    JTAG_DEBUG("DTR  Data %08x  Ready %d  nRetry %d", Data, Ready, nRetry);
	}
	while (!Ready);

	*data++ = Data;
    }
}

/** Execute one instruction via ITR
 *  then load r0 into DTR and read DTR from core.
 *
 *  The first executed instruction (\p opcode) should write data to r0.
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	ARM opcode to write r0 with the value of interest
 * \param data		Pointer to a data word that receives the value from r0 after \p opcode was executed.
 *
 */
void arm11_run_instr_data_from_core_via_r0(arm11_common_t * arm11, u32 opcode, u32 * data)
{
    arm11_run_instr_no_data1(arm11, opcode);

    /* MCR p14,0,R0,c0,c5,0 (move r0 -> wDTR -> local var) */
    arm11_run_instr_data_from_core(arm11, 0xEE000E15, data, 1);
}

/** Load data into core via DTR then move it to r0 then
 *  execute one instruction via ITR
 *
 *  The final executed instruction (\p opcode) should read data from r0.
 *
 * \pre arm11_run_instr_data_prepare() /  arm11_run_instr_data_finish() block
 *
 * \param arm11		Target state variable.
 * \param opcode	ARM opcode to read r0 act upon it
 * \param data		Data word that will be written to r0 before \p opcode is executed
 *
 */
void arm11_run_instr_data_to_core_via_r0(arm11_common_t * arm11, u32 opcode, u32 data)
{
    /* MRC p14,0,r0,c0,c5,0 */
    arm11_run_instr_data_to_core1(arm11, 0xEE100E15, data);

    arm11_run_instr_no_data1(arm11, opcode);
}

/** Apply reads and writes to scan chain 7
 *
 * \see arm11_sc7_action_t
 *
 * \param arm11		Target state variable.
 * \param actions	A list of read and/or write instructions
 * \param count		Number of instructions in the list.
 *
 */
void arm11_sc7_run(arm11_common_t * arm11, arm11_sc7_action_t * actions, size_t count)
{
    arm11_add_debug_SCAN_N(arm11, 0x07, -1);

    arm11_add_IR(arm11, ARM11_EXTEST, -1);

    scan_field_t	chain7_fields[3];

    u8		nRW;
    u32		DataOut;
    u8		AddressOut;
    u8		Ready;
    u32		DataIn;
    u8		AddressIn;

    arm11_setup_field(arm11,  1, &nRW,		&Ready,		chain7_fields + 0);
    arm11_setup_field(arm11, 32, &DataOut,	&DataIn,	chain7_fields + 1);
    arm11_setup_field(arm11,  7, &AddressOut,	&AddressIn,	chain7_fields + 2);

    {size_t i;
    for (i = 0; i < count + 1; i++)
    {
	if (i < count)
	{
	    nRW		= actions[i].write ? 1 : 0;
	    DataOut	= actions[i].value;
	    AddressOut	= actions[i].address;
	}
	else
	{
	    nRW		= 0;
	    DataOut	= 0;
	    AddressOut	= 0;
	}

        do
	{
	    JTAG_DEBUG("SC7 <= Address %02x  Data %08x    nRW %d", AddressOut, DataOut, nRW);

	    arm11_add_dr_scan_vc(asizeof(chain7_fields), chain7_fields, TAP_PD);
	    jtag_execute_queue();

	    JTAG_DEBUG("SC7 => Address %02x  Data %08x  Ready %d", AddressIn, DataIn, Ready);
	}
	while (!Ready); /* 'nRW' is 'Ready' on read out */

	if (i > 0)
	{
	    if (actions[i - 1].address != AddressIn)
	    {
		LOG_WARNING("Scan chain 7 shifted out unexpected address");
	    }

	    if (!actions[i - 1].write)
	    {
		actions[i - 1].value = DataIn;
	    }
	    else
	    {
		if (actions[i - 1].value != DataIn)
		{
		    LOG_WARNING("Scan chain 7 shifted out unexpected data");
		}
	    }
	}
    }}

    {size_t i;
    for (i = 0; i < count; i++)
    {
	JTAG_DEBUG("SC7 %02d: %02x %s %08x", i, actions[i].address, actions[i].write ? "<=" : "=>", actions[i].value);
    }}
}

/** Clear VCR and all breakpoints and watchpoints via scan chain 7
 *
 * \param arm11		Target state variable.
 *
 */
void arm11_sc7_clear_vbw(arm11_common_t * arm11)
{
    arm11_sc7_action_t		clear_bw[arm11->brp + arm11->wrp + 1];
    arm11_sc7_action_t *	pos = clear_bw;

    {size_t i;
    for (i = 0; i < asizeof(clear_bw); i++)
    {
	clear_bw[i].write	= true;
	clear_bw[i].value	= 0;
    }}

    {size_t i;
    for (i = 0; i < arm11->brp; i++)
	(pos++)->address = ARM11_SC7_BCR0 + i;
    }

    {size_t i;
    for (i = 0; i < arm11->wrp; i++)
	(pos++)->address = ARM11_SC7_WCR0 + i;
    }

    (pos++)->address = ARM11_SC7_VCR;

    arm11_sc7_run(arm11, clear_bw, asizeof(clear_bw));
}

/** Write VCR register
 *
 * \param arm11		Target state variable.
 * \param value		Value to be written
 */
void arm11_sc7_set_vcr(arm11_common_t * arm11, u32 value)
{
    arm11_sc7_action_t		set_vcr;

    set_vcr.write		= true;
    set_vcr.address		= ARM11_SC7_VCR;
    set_vcr.value		= value;


    arm11_sc7_run(arm11, &set_vcr, 1);
}



/** Read word from address
 *
 * \param arm11		Target state variable.
 * \param address	Memory address to be read
 * \param result	Pointer where to store result
 *
 */
void arm11_read_memory_word(arm11_common_t * arm11, u32 address, u32 * result)
{
    arm11_run_instr_data_prepare(arm11);

    /* MRC p14,0,r0,c0,c5,0 (r0 = address) */
    arm11_run_instr_data_to_core1(arm11, 0xee100e15, address);

    /* LDC p14,c5,[R0],#4 (DTR = [r0]) */
    arm11_run_instr_data_from_core(arm11, 0xecb05e01, result, 1);

    arm11_run_instr_data_finish(arm11);
}