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|
/***************************************************************************
* Copyright (C) 2005 by Dominic Rath *
* Dominic.Rath@gmx.de *
* *
* Copyright (C) 2006 by Magnus Lundin *
* lundin@mlu.mine.nu *
* *
* Copyright (C) 2008 by Spencer Oliver *
* spen@spen-soft.co.uk *
* *
* 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. *
* *
* *
* Cortex-M3(tm) TRM, ARM DDI 0337C *
* *
***************************************************************************/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "cortex_m3.h"
#include "target_request.h"
#include "target_type.h"
/* cli handling */
int cortex_m3_register_commands(struct command_context_s *cmd_ctx);
int handle_cortex_m3_mask_interrupts_command(struct command_context_s *cmd_ctx, char *cmd, char **args, int argc);
/* forward declarations */
void cortex_m3_enable_breakpoints(struct target_s *target);
void cortex_m3_enable_watchpoints(struct target_s *target);
int cortex_m3_target_create(struct target_s *target, Jim_Interp *interp);
int cortex_m3_init_target(struct command_context_s *cmd_ctx, struct target_s *target);
int cortex_m3_quit(void);
int cortex_m3_load_core_reg_u32(target_t *target, enum armv7m_regtype type, u32 num, u32 *value);
int cortex_m3_store_core_reg_u32(target_t *target, enum armv7m_regtype type, u32 num, u32 value);
int cortex_m3_target_request_data(target_t *target, u32 size, u8 *buffer);
int cortex_m3_examine(struct target_s *target);
#ifdef ARMV7_GDB_HACKS
extern u8 armv7m_gdb_dummy_cpsr_value[];
extern reg_t armv7m_gdb_dummy_cpsr_reg;
#endif
target_type_t cortexm3_target =
{
.name = "cortex_m3",
.poll = cortex_m3_poll,
.arch_state = armv7m_arch_state,
.target_request_data = cortex_m3_target_request_data,
.halt = cortex_m3_halt,
.resume = cortex_m3_resume,
.step = cortex_m3_step,
.assert_reset = cortex_m3_assert_reset,
.deassert_reset = cortex_m3_deassert_reset,
.soft_reset_halt = cortex_m3_soft_reset_halt,
.get_gdb_reg_list = armv7m_get_gdb_reg_list,
.read_memory = cortex_m3_read_memory,
.write_memory = cortex_m3_write_memory,
.bulk_write_memory = cortex_m3_bulk_write_memory,
.checksum_memory = armv7m_checksum_memory,
.blank_check_memory = armv7m_blank_check_memory,
.run_algorithm = armv7m_run_algorithm,
.add_breakpoint = cortex_m3_add_breakpoint,
.remove_breakpoint = cortex_m3_remove_breakpoint,
.add_watchpoint = cortex_m3_add_watchpoint,
.remove_watchpoint = cortex_m3_remove_watchpoint,
.register_commands = cortex_m3_register_commands,
.target_create = cortex_m3_target_create,
.init_target = cortex_m3_init_target,
.examine = cortex_m3_examine,
.quit = cortex_m3_quit
};
int cortexm3_dap_read_coreregister_u32(swjdp_common_t *swjdp, u32 *value, int regnum)
{
int retval;
u32 dcrdr;
/* because the DCB_DCRDR is used for the emulated dcc channel
* we gave to save/restore the DCB_DCRDR when used */
mem_ap_read_u32(swjdp, DCB_DCRDR, &dcrdr);
swjdp->trans_mode = TRANS_MODE_COMPOSITE;
/* mem_ap_write_u32(swjdp, DCB_DCRSR, regnum); */
dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF, DCB_DCRSR & 0xFFFFFFF0);
dap_ap_write_reg_u32(swjdp, AP_REG_BD0 | (DCB_DCRSR & 0xC), regnum );
/* mem_ap_read_u32(swjdp, DCB_DCRDR, value); */
dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF, DCB_DCRDR & 0xFFFFFFF0);
dap_ap_read_reg_u32(swjdp, AP_REG_BD0 | (DCB_DCRDR & 0xC), value );
mem_ap_write_u32(swjdp, DCB_DCRDR, dcrdr);
retval = swjdp_transaction_endcheck(swjdp);
return retval;
}
int cortexm3_dap_write_coreregister_u32(swjdp_common_t *swjdp, u32 value, int regnum)
{
int retval;
u32 dcrdr;
/* because the DCB_DCRDR is used for the emulated dcc channel
* we gave to save/restore the DCB_DCRDR when used */
mem_ap_read_u32(swjdp, DCB_DCRDR, &dcrdr);
swjdp->trans_mode = TRANS_MODE_COMPOSITE;
/* mem_ap_write_u32(swjdp, DCB_DCRDR, core_regs[i]); */
dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF, DCB_DCRDR & 0xFFFFFFF0);
dap_ap_write_reg_u32(swjdp, AP_REG_BD0 | (DCB_DCRDR & 0xC), value );
/* mem_ap_write_u32(swjdp, DCB_DCRSR, i | DCRSR_WnR ); */
dap_setup_accessport(swjdp, CSW_32BIT | CSW_ADDRINC_OFF, DCB_DCRSR & 0xFFFFFFF0);
dap_ap_write_reg_u32(swjdp, AP_REG_BD0 | (DCB_DCRSR & 0xC), regnum | DCRSR_WnR );
mem_ap_write_u32(swjdp, DCB_DCRDR, dcrdr);
retval = swjdp_transaction_endcheck(swjdp);
return retval;
}
int cortex_m3_write_debug_halt_mask(target_t *target, u32 mask_on, u32 mask_off)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
/* mask off status bits */
cortex_m3->dcb_dhcsr &= ~((0xFFFF << 16) | mask_off);
/* create new register mask */
cortex_m3->dcb_dhcsr |= DBGKEY | C_DEBUGEN | mask_on;
return mem_ap_write_atomic_u32(swjdp, DCB_DHCSR, cortex_m3->dcb_dhcsr);
}
int cortex_m3_clear_halt(target_t *target)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
/* clear step if any */
cortex_m3_write_debug_halt_mask(target, C_HALT, C_STEP);
/* Read Debug Fault Status Register */
mem_ap_read_atomic_u32(swjdp, NVIC_DFSR, &cortex_m3->nvic_dfsr);
/* Write Debug Fault Status Register to enable processing to resume ?? Try with and without this !! */
mem_ap_write_atomic_u32(swjdp, NVIC_DFSR, cortex_m3->nvic_dfsr);
LOG_DEBUG(" NVIC_DFSR 0x%x", cortex_m3->nvic_dfsr);
return ERROR_OK;
}
int cortex_m3_single_step_core(target_t *target)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
u32 dhcsr_save;
/* backup dhcsr reg */
dhcsr_save = cortex_m3->dcb_dhcsr;
/* mask interrupts if not done already */
if (!(cortex_m3->dcb_dhcsr & C_MASKINTS))
mem_ap_write_atomic_u32(swjdp, DCB_DHCSR, DBGKEY | C_MASKINTS | C_HALT | C_DEBUGEN);
mem_ap_write_atomic_u32(swjdp, DCB_DHCSR, DBGKEY | C_MASKINTS | C_STEP | C_DEBUGEN);
LOG_DEBUG(" ");
/* restore dhcsr reg */
cortex_m3->dcb_dhcsr = dhcsr_save;
cortex_m3_clear_halt(target);
return ERROR_OK;
}
int cortex_m3_exec_opcode(target_t *target,u32 opcode, int len /* MODE, r0_invalue, &r0_outvalue */ )
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
u32 savedram;
int retvalue;
mem_ap_read_u32(swjdp, 0x20000000, &savedram);
mem_ap_write_u32(swjdp, 0x20000000, opcode);
cortexm3_dap_write_coreregister_u32(swjdp, 0x20000000, 15);
cortex_m3_single_step_core(target);
armv7m->core_cache->reg_list[15].dirty = armv7m->core_cache->reg_list[15].valid;
retvalue = mem_ap_write_atomic_u32(swjdp, 0x20000000, savedram);
return retvalue;
}
#if 0
/* Enable interrupts */
int cortex_m3_cpsie(target_t *target, u32 IF)
{
return cortex_m3_exec_opcode(target, ARMV7M_T_CPSIE(IF), 2);
}
/* Disable interrupts */
int cortex_m3_cpsid(target_t *target, u32 IF)
{
return cortex_m3_exec_opcode(target, ARMV7M_T_CPSID(IF), 2);
}
#endif
int cortex_m3_endreset_event(target_t *target)
{
int i;
u32 dcb_demcr;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
cortex_m3_fp_comparator_t *fp_list = cortex_m3->fp_comparator_list;
cortex_m3_dwt_comparator_t *dwt_list = cortex_m3->dwt_comparator_list;
mem_ap_read_atomic_u32(swjdp, DCB_DEMCR, &dcb_demcr);
LOG_DEBUG("DCB_DEMCR = 0x%8.8x",dcb_demcr);
/* this regsiter is used for emulated dcc channel */
mem_ap_write_u32(swjdp, DCB_DCRDR, 0);
/* Enable debug requests */
mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &cortex_m3->dcb_dhcsr);
if (!(cortex_m3->dcb_dhcsr & C_DEBUGEN))
mem_ap_write_u32(swjdp, DCB_DHCSR, DBGKEY | C_DEBUGEN);
/* clear any interrupt masking */
cortex_m3_write_debug_halt_mask(target, 0, C_MASKINTS);
/* Enable trace and dwt */
mem_ap_write_u32(swjdp, DCB_DEMCR, TRCENA | VC_HARDERR | VC_BUSERR);
/* Monitor bus faults */
mem_ap_write_u32(swjdp, NVIC_SHCSR, SHCSR_BUSFAULTENA);
/* Enable FPB */
target_write_u32(target, FP_CTRL, 3);
cortex_m3->fpb_enabled = 1;
/* Restore FPB registers */
for (i = 0; i < cortex_m3->fp_num_code + cortex_m3->fp_num_lit; i++)
{
target_write_u32(target, fp_list[i].fpcr_address, fp_list[i].fpcr_value);
}
/* Restore DWT registers */
for (i = 0; i < cortex_m3->dwt_num_comp; i++)
{
target_write_u32(target, dwt_list[i].dwt_comparator_address, dwt_list[i].comp);
target_write_u32(target, dwt_list[i].dwt_comparator_address | 0x4, dwt_list[i].mask);
target_write_u32(target, dwt_list[i].dwt_comparator_address | 0x8, dwt_list[i].function);
}
swjdp_transaction_endcheck(swjdp);
armv7m_invalidate_core_regs(target);
/* make sure we have latest dhcsr flags */
mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &cortex_m3->dcb_dhcsr);
return ERROR_OK;
}
int cortex_m3_examine_debug_reason(target_t *target)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
/* THIS IS NOT GOOD, TODO - better logic for detection of debug state reason */
/* only check the debug reason if we don't know it already */
if ((target->debug_reason != DBG_REASON_DBGRQ)
&& (target->debug_reason != DBG_REASON_SINGLESTEP))
{
/* INCOMPLETE */
if (cortex_m3->nvic_dfsr & DFSR_BKPT)
{
target->debug_reason = DBG_REASON_BREAKPOINT;
if (cortex_m3->nvic_dfsr & DFSR_DWTTRAP)
target->debug_reason = DBG_REASON_WPTANDBKPT;
}
else if (cortex_m3->nvic_dfsr & DFSR_DWTTRAP)
target->debug_reason = DBG_REASON_WATCHPOINT;
}
return ERROR_OK;
}
int cortex_m3_examine_exception_reason(target_t *target)
{
u32 shcsr, except_sr, cfsr = -1, except_ar = -1;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
mem_ap_read_u32(swjdp, NVIC_SHCSR, &shcsr);
switch (armv7m->exception_number)
{
case 2: /* NMI */
break;
case 3: /* Hard Fault */
mem_ap_read_atomic_u32(swjdp, NVIC_HFSR, &except_sr);
if (except_sr & 0x40000000)
{
mem_ap_read_u32(swjdp, NVIC_CFSR, &cfsr);
}
break;
case 4: /* Memory Management */
mem_ap_read_u32(swjdp, NVIC_CFSR, &except_sr);
mem_ap_read_u32(swjdp, NVIC_MMFAR, &except_ar);
break;
case 5: /* Bus Fault */
mem_ap_read_u32(swjdp, NVIC_CFSR, &except_sr);
mem_ap_read_u32(swjdp, NVIC_BFAR, &except_ar);
break;
case 6: /* Usage Fault */
mem_ap_read_u32(swjdp, NVIC_CFSR, &except_sr);
break;
case 11: /* SVCall */
break;
case 12: /* Debug Monitor */
mem_ap_read_u32(swjdp, NVIC_DFSR, &except_sr);
break;
case 14: /* PendSV */
break;
case 15: /* SysTick */
break;
default:
except_sr = 0;
break;
}
swjdp_transaction_endcheck(swjdp);
LOG_DEBUG("%s SHCSR 0x%x, SR 0x%x, CFSR 0x%x, AR 0x%x", armv7m_exception_string(armv7m->exception_number), \
shcsr, except_sr, cfsr, except_ar);
return ERROR_OK;
}
int cortex_m3_debug_entry(target_t *target)
{
int i;
u32 xPSR;
int retval;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
LOG_DEBUG(" ");
if (armv7m->pre_debug_entry)
armv7m->pre_debug_entry(target);
cortex_m3_clear_halt(target);
mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &cortex_m3->dcb_dhcsr);
if ((retval = armv7m->examine_debug_reason(target)) != ERROR_OK)
return retval;
/* Examine target state and mode */
/* First load register acessible through core debug port*/
for (i = 0; i < ARMV7M_PRIMASK; i++)
{
if (!armv7m->core_cache->reg_list[i].valid)
armv7m->read_core_reg(target, i);
}
xPSR = buf_get_u32(armv7m->core_cache->reg_list[ARMV7M_xPSR].value, 0, 32);
#ifdef ARMV7_GDB_HACKS
/* copy real xpsr reg for gdb, setting thumb bit */
buf_set_u32(armv7m_gdb_dummy_cpsr_value, 0, 32, xPSR);
buf_set_u32(armv7m_gdb_dummy_cpsr_value, 5, 1, 1);
armv7m_gdb_dummy_cpsr_reg.valid = armv7m->core_cache->reg_list[ARMV7M_xPSR].valid;
armv7m_gdb_dummy_cpsr_reg.dirty = armv7m->core_cache->reg_list[ARMV7M_xPSR].dirty;
#endif
/* For IT instructions xPSR must be reloaded on resume and clear on debug exec */
if (xPSR & 0xf00)
{
armv7m->core_cache->reg_list[ARMV7M_xPSR].dirty = armv7m->core_cache->reg_list[ARMV7M_xPSR].valid;
cortex_m3_store_core_reg_u32(target, ARMV7M_REGISTER_CORE_GP, 16, xPSR &~ 0xff);
}
/* Now we can load SP core registers */
for (i = ARMV7M_PRIMASK; i < ARMV7NUMCOREREGS; i++)
{
if (!armv7m->core_cache->reg_list[i].valid)
armv7m->read_core_reg(target, i);
}
/* Are we in an exception handler */
if (xPSR & 0x1FF)
{
armv7m->core_mode = ARMV7M_MODE_HANDLER;
armv7m->exception_number = (xPSR & 0x1FF);
}
else
{
armv7m->core_mode = buf_get_u32(armv7m->core_cache->reg_list[ARMV7M_CONTROL].value, 0, 1);
armv7m->exception_number = 0;
}
if (armv7m->exception_number)
{
cortex_m3_examine_exception_reason(target);
}
LOG_DEBUG("entered debug state in core mode: %s at PC 0x%x, target->state: %s",
armv7m_mode_strings[armv7m->core_mode],
*(u32*)(armv7m->core_cache->reg_list[15].value),
Jim_Nvp_value2name_simple( nvp_target_state, target->state )->name);
if (armv7m->post_debug_entry)
armv7m->post_debug_entry(target);
return ERROR_OK;
}
int cortex_m3_poll(target_t *target)
{
int retval;
enum target_state prev_target_state = target->state;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
/* Read from Debug Halting Control and Status Register */
retval = mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &cortex_m3->dcb_dhcsr);
if (retval != ERROR_OK)
{
target->state = TARGET_UNKNOWN;
return retval;
}
if (cortex_m3->dcb_dhcsr & S_RESET_ST)
{
/* check if still in reset */
mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &cortex_m3->dcb_dhcsr);
if (cortex_m3->dcb_dhcsr & S_RESET_ST)
{
target->state = TARGET_RESET;
return ERROR_OK;
}
}
if (target->state == TARGET_RESET)
{
/* Cannot switch context while running so endreset is called with target->state == TARGET_RESET */
LOG_DEBUG("Exit from reset with dcb_dhcsr 0x%x", cortex_m3->dcb_dhcsr);
cortex_m3_endreset_event(target);
target->state = TARGET_RUNNING;
prev_target_state = TARGET_RUNNING;
}
if (cortex_m3->dcb_dhcsr & S_HALT)
{
target->state = TARGET_HALTED;
if ((prev_target_state == TARGET_RUNNING) || (prev_target_state == TARGET_RESET))
{
if ((retval = cortex_m3_debug_entry(target)) != ERROR_OK)
return retval;
target_call_event_callbacks(target, TARGET_EVENT_HALTED);
}
if (prev_target_state == TARGET_DEBUG_RUNNING)
{
LOG_DEBUG(" ");
if ((retval = cortex_m3_debug_entry(target)) != ERROR_OK)
return retval;
target_call_event_callbacks(target, TARGET_EVENT_DEBUG_HALTED);
}
}
/*
if (cortex_m3->dcb_dhcsr & S_SLEEP)
target->state = TARGET_SLEEP;
*/
#if 0
/* Read Debug Fault Status Register, added to figure out the lockup when running flashtest.script */
mem_ap_read_atomic_u32(swjdp, NVIC_DFSR, &cortex_m3->nvic_dfsr);
LOG_DEBUG("dcb_dhcsr 0x%x, nvic_dfsr 0x%x, target->state: %s", cortex_m3->dcb_dhcsr, cortex_m3->nvic_dfsr, Jim_Nvp_value2name_simple( nvp_target_state, target->state )->name );
#endif
return ERROR_OK;
}
int cortex_m3_halt(target_t *target)
{
LOG_DEBUG("target->state: %s",
Jim_Nvp_value2name_simple(nvp_target_state, target->state )->name);
if (target->state == TARGET_HALTED)
{
LOG_DEBUG("target was already halted");
return ERROR_OK;
}
if (target->state == TARGET_UNKNOWN)
{
LOG_WARNING("target was in unknown state when halt was requested");
}
if (target->state == TARGET_RESET)
{
if ((jtag_reset_config & RESET_SRST_PULLS_TRST) && jtag_srst)
{
LOG_ERROR("can't request a halt while in reset if nSRST pulls nTRST");
return ERROR_TARGET_FAILURE;
}
else
{
/* we came here in a reset_halt or reset_init sequence
* debug entry was already prepared in cortex_m3_prepare_reset_halt()
*/
target->debug_reason = DBG_REASON_DBGRQ;
return ERROR_OK;
}
}
/* Write to Debug Halting Control and Status Register */
cortex_m3_write_debug_halt_mask(target, C_HALT, 0);
target->debug_reason = DBG_REASON_DBGRQ;
return ERROR_OK;
}
int cortex_m3_soft_reset_halt(struct target_s *target)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
u32 dcb_dhcsr = 0;
int retval, timeout = 0;
/* Enter debug state on reset, cf. end_reset_event() */
mem_ap_write_u32(swjdp, DCB_DEMCR, TRCENA | VC_HARDERR | VC_BUSERR | VC_CORERESET);
/* Request a reset */
mem_ap_write_atomic_u32(swjdp, NVIC_AIRCR, AIRCR_VECTKEY | AIRCR_VECTRESET);
target->state = TARGET_RESET;
/* registers are now invalid */
armv7m_invalidate_core_regs(target);
while (timeout < 100)
{
retval = mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &dcb_dhcsr);
if (retval == ERROR_OK)
{
mem_ap_read_atomic_u32(swjdp, NVIC_DFSR, &cortex_m3->nvic_dfsr);
if ((dcb_dhcsr & S_HALT) && (cortex_m3->nvic_dfsr & DFSR_VCATCH))
{
LOG_DEBUG("system reset-halted, dcb_dhcsr 0x%x, nvic_dfsr 0x%x", dcb_dhcsr, cortex_m3->nvic_dfsr);
cortex_m3_poll(target);
return ERROR_OK;
}
else
LOG_DEBUG("waiting for system reset-halt, dcb_dhcsr 0x%x, %i ms", dcb_dhcsr, timeout);
}
timeout++;
alive_sleep(1);
}
return ERROR_OK;
}
int cortex_m3_resume(struct target_s *target, int current, u32 address, int handle_breakpoints, int debug_execution)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
breakpoint_t *breakpoint = NULL;
u32 resume_pc;
if (target->state != TARGET_HALTED)
{
LOG_WARNING("target not halted");
return ERROR_TARGET_NOT_HALTED;
}
if (!debug_execution)
{
target_free_all_working_areas(target);
cortex_m3_enable_breakpoints(target);
cortex_m3_enable_watchpoints(target);
}
if (debug_execution)
{
/* Disable interrupts */
/* We disable interrupts in the PRIMASK register instead of masking with C_MASKINTS,
* This is probably the same issue as Cortex-M3 Errata 377493:
* C_MASKINTS in parallel with disabled interrupts can cause local faults to not be taken. */
buf_set_u32(armv7m->core_cache->reg_list[ARMV7M_PRIMASK].value, 0, 32, 1);
armv7m->core_cache->reg_list[ARMV7M_PRIMASK].dirty = 1;
armv7m->core_cache->reg_list[ARMV7M_PRIMASK].valid = 1;
/* Make sure we are in Thumb mode */
buf_set_u32(armv7m->core_cache->reg_list[ARMV7M_xPSR].value, 0, 32,
buf_get_u32(armv7m->core_cache->reg_list[ARMV7M_xPSR].value, 0, 32) | (1<<24));
armv7m->core_cache->reg_list[ARMV7M_xPSR].dirty = 1;
armv7m->core_cache->reg_list[ARMV7M_xPSR].valid = 1;
}
/* current = 1: continue on current pc, otherwise continue at <address> */
if (!current)
{
buf_set_u32(armv7m->core_cache->reg_list[15].value, 0, 32, address);
armv7m->core_cache->reg_list[15].dirty = 1;
armv7m->core_cache->reg_list[15].valid = 1;
}
resume_pc = buf_get_u32(armv7m->core_cache->reg_list[15].value, 0, 32);
armv7m_restore_context(target);
/* the front-end may request us not to handle breakpoints */
if (handle_breakpoints)
{
/* Single step past breakpoint at current address */
if ((breakpoint = breakpoint_find(target, resume_pc)))
{
LOG_DEBUG("unset breakpoint at 0x%8.8x", breakpoint->address);
cortex_m3_unset_breakpoint(target, breakpoint);
cortex_m3_single_step_core(target);
cortex_m3_set_breakpoint(target, breakpoint);
}
}
/* Restart core */
cortex_m3_write_debug_halt_mask(target, 0, C_HALT);
target->debug_reason = DBG_REASON_NOTHALTED;
/* registers are now invalid */
armv7m_invalidate_core_regs(target);
if (!debug_execution)
{
target->state = TARGET_RUNNING;
target_call_event_callbacks(target, TARGET_EVENT_RESUMED);
LOG_DEBUG("target resumed at 0x%x", resume_pc);
}
else
{
target->state = TARGET_DEBUG_RUNNING;
target_call_event_callbacks(target, TARGET_EVENT_DEBUG_RESUMED);
LOG_DEBUG("target debug resumed at 0x%x", resume_pc);
}
return ERROR_OK;
}
/* int irqstepcount=0; */
int cortex_m3_step(struct target_s *target, int current, u32 address, int handle_breakpoints)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
breakpoint_t *breakpoint = NULL;
if (target->state != TARGET_HALTED)
{
LOG_WARNING("target not halted");
return ERROR_TARGET_NOT_HALTED;
}
/* current = 1: continue on current pc, otherwise continue at <address> */
if (!current)
buf_set_u32(armv7m->core_cache->reg_list[15].value, 0, 32, address);
/* the front-end may request us not to handle breakpoints */
if (handle_breakpoints)
if ((breakpoint = breakpoint_find(target, buf_get_u32(armv7m->core_cache->reg_list[15].value, 0, 32))))
cortex_m3_unset_breakpoint(target, breakpoint);
target->debug_reason = DBG_REASON_SINGLESTEP;
armv7m_restore_context(target);
target_call_event_callbacks(target, TARGET_EVENT_RESUMED);
/* set step and clear halt */
cortex_m3_write_debug_halt_mask(target, C_STEP, C_HALT);
mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &cortex_m3->dcb_dhcsr);
/* registers are now invalid */
armv7m_invalidate_core_regs(target);
if (breakpoint)
cortex_m3_set_breakpoint(target, breakpoint);
LOG_DEBUG("target stepped dcb_dhcsr = 0x%x nvic_icsr = 0x%x", cortex_m3->dcb_dhcsr, cortex_m3->nvic_icsr);
cortex_m3_debug_entry(target);
target_call_event_callbacks(target, TARGET_EVENT_HALTED);
LOG_DEBUG("target stepped dcb_dhcsr = 0x%x nvic_icsr = 0x%x", cortex_m3->dcb_dhcsr, cortex_m3->nvic_icsr);
return ERROR_OK;
}
int cortex_m3_assert_reset(target_t *target)
{
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
int assert_srst = 1;
LOG_DEBUG("target->state: %s",
Jim_Nvp_value2name_simple( nvp_target_state, target->state )->name );
if (!(jtag_reset_config & RESET_HAS_SRST))
{
LOG_ERROR("Can't assert SRST");
return ERROR_FAIL;
}
/* Enable debug requests */
mem_ap_read_atomic_u32(swjdp, DCB_DHCSR, &cortex_m3->dcb_dhcsr);
if (!(cortex_m3->dcb_dhcsr & C_DEBUGEN))
mem_ap_write_u32(swjdp, DCB_DHCSR, DBGKEY | C_DEBUGEN);
mem_ap_write_u32(swjdp, DCB_DCRDR, 0 );
if (!target->reset_halt)
{
/* Set/Clear C_MASKINTS in a separate operation */
if (cortex_m3->dcb_dhcsr & C_MASKINTS)
mem_ap_write_atomic_u32(swjdp, DCB_DHCSR, DBGKEY | C_DEBUGEN | C_HALT);
/* clear any debug flags before resuming */
cortex_m3_clear_halt(target);
/* clear C_HALT in dhcsr reg */
cortex_m3_write_debug_halt_mask(target, 0, C_HALT);
/* Enter debug state on reset, cf. end_reset_event() */
mem_ap_write_u32(swjdp, DCB_DEMCR, TRCENA | VC_HARDERR | VC_BUSERR);
}
else
{
/* Enter debug state on reset, cf. end_reset_event() */
mem_ap_write_atomic_u32(swjdp, DCB_DEMCR, TRCENA | VC_HARDERR | VC_BUSERR | VC_CORERESET);
}
/* following hack is to handle luminary reset
* when srst is asserted the luminary device seesm to also clear the debug registers
* which does not match the armv7 debug TRM */
if (strcmp(target->variant, "lm3s") == 0)
{
/* get revision of lm3s target, only early silicon has this issue
* Fury Rev B, DustDevil Rev B, Tempest all ok */
u32 did0;
if (target_read_u32(target, 0x400fe000, &did0) == ERROR_OK)
{
switch ((did0 >> 16) & 0xff)
{
case 0:
/* all Sandstorm suffer issue */
assert_srst = 0;
break;
case 1:
case 3:
/* only Fury/DustDevil rev A suffer reset problems */
if (((did0 >> 8) & 0xff) == 0)
assert_srst = 0;
break;
}
}
}
if (assert_srst)
{
/* default to asserting srst */
if (jtag_reset_config & RESET_SRST_PULLS_TRST)
{
jtag_add_reset(1, 1);
}
else
{
jtag_add_reset(0, 1);
}
}
else
{
/* this causes the luminary device to reset using the watchdog */
mem_ap_write_atomic_u32(swjdp, NVIC_AIRCR, AIRCR_VECTKEY | AIRCR_SYSRESETREQ);
LOG_DEBUG("Using Luminary Reset: SYSRESETREQ");
{
/* I do not know why this is necessary, but it fixes strange effects
* (step/resume cause a NMI after reset) on LM3S6918 -- Michael Schwingen */
u32 tmp;
mem_ap_read_atomic_u32(swjdp, NVIC_AIRCR, &tmp);
}
}
target->state = TARGET_RESET;
jtag_add_sleep(50000);
armv7m_invalidate_core_regs(target);
if (target->reset_halt)
{
int retval;
if ((retval = target_halt(target))!=ERROR_OK)
return retval;
}
return ERROR_OK;
}
int cortex_m3_deassert_reset(target_t *target)
{
LOG_DEBUG("target->state: %s",
Jim_Nvp_value2name_simple(nvp_target_state, target->state )->name);
/* deassert reset lines */
jtag_add_reset(0, 0);
return ERROR_OK;
}
void cortex_m3_enable_breakpoints(struct target_s *target)
{
breakpoint_t *breakpoint = target->breakpoints;
/* set any pending breakpoints */
while (breakpoint)
{
if (breakpoint->set == 0)
cortex_m3_set_breakpoint(target, breakpoint);
breakpoint = breakpoint->next;
}
}
int cortex_m3_set_breakpoint(struct target_s *target, breakpoint_t *breakpoint)
{
int retval;
int fp_num=0;
u32 hilo;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
cortex_m3_fp_comparator_t * comparator_list = cortex_m3->fp_comparator_list;
if (breakpoint->set)
{
LOG_WARNING("breakpoint already set");
return ERROR_OK;
}
if (cortex_m3->auto_bp_type)
{
breakpoint->type = (breakpoint->address < 0x20000000) ? BKPT_HARD : BKPT_SOFT;
}
if (breakpoint->type == BKPT_HARD)
{
while(comparator_list[fp_num].used && (fp_num < cortex_m3->fp_num_code))
fp_num++;
if (fp_num >= cortex_m3->fp_num_code)
{
LOG_DEBUG("ERROR Can not find free FP Comparator");
LOG_WARNING("ERROR Can not find free FP Comparator");
exit(-1);
}
breakpoint->set = fp_num + 1;
hilo = (breakpoint->address & 0x2) ? FPCR_REPLACE_BKPT_HIGH : FPCR_REPLACE_BKPT_LOW;
comparator_list[fp_num].used = 1;
comparator_list[fp_num].fpcr_value = (breakpoint->address & 0x1FFFFFFC) | hilo | 1;
target_write_u32(target, comparator_list[fp_num].fpcr_address, comparator_list[fp_num].fpcr_value);
LOG_DEBUG("fpc_num %i fpcr_value 0x%x", fp_num, comparator_list[fp_num].fpcr_value);
if (!cortex_m3->fpb_enabled)
{
LOG_DEBUG("FPB wasn't enabled, do it now");
target_write_u32(target, FP_CTRL, 3);
}
}
else if (breakpoint->type == BKPT_SOFT)
{
u8 code[4];
buf_set_u32(code, 0, 32, ARMV7M_T_BKPT(0x11));
if((retval = target_read_memory(target, breakpoint->address & 0xFFFFFFFE, breakpoint->length, 1, breakpoint->orig_instr)) != ERROR_OK)
{
return retval;
}
if((retval = target_write_memory(target, breakpoint->address & 0xFFFFFFFE, breakpoint->length, 1, code)) != ERROR_OK)
{
return retval;
}
breakpoint->set = 0x11; /* Any nice value but 0 */
}
return ERROR_OK;
}
int cortex_m3_unset_breakpoint(struct target_s *target, breakpoint_t *breakpoint)
{
int retval;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
cortex_m3_fp_comparator_t * comparator_list = cortex_m3->fp_comparator_list;
if (!breakpoint->set)
{
LOG_WARNING("breakpoint not set");
return ERROR_OK;
}
if (breakpoint->type == BKPT_HARD)
{
int fp_num = breakpoint->set - 1;
if ((fp_num < 0) || (fp_num >= cortex_m3->fp_num_code))
{
LOG_DEBUG("Invalid FP Comparator number in breakpoint");
return ERROR_OK;
}
comparator_list[fp_num].used = 0;
comparator_list[fp_num].fpcr_value = 0;
target_write_u32(target, comparator_list[fp_num].fpcr_address, comparator_list[fp_num].fpcr_value);
}
else
{
/* restore original instruction (kept in target endianness) */
if (breakpoint->length == 4)
{
if((retval = target_write_memory(target, breakpoint->address & 0xFFFFFFFE, 4, 1, breakpoint->orig_instr)) != ERROR_OK)
{
return retval;
}
}
else
{
if((retval = target_write_memory(target, breakpoint->address & 0xFFFFFFFE, 2, 1, breakpoint->orig_instr)) != ERROR_OK)
{
return retval;
}
}
}
breakpoint->set = 0;
return ERROR_OK;
}
int cortex_m3_add_breakpoint(struct target_s *target, breakpoint_t *breakpoint)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
if (cortex_m3->auto_bp_type)
{
breakpoint->type = (breakpoint->address < 0x20000000) ? BKPT_HARD : BKPT_SOFT;
#ifdef ARMV7_GDB_HACKS
if (breakpoint->length != 2) {
/* XXX Hack: Replace all breakpoints with length != 2 with
* a hardware breakpoint. */
breakpoint->type = BKPT_HARD;
breakpoint->length = 2;
}
#endif
}
if ((breakpoint->type == BKPT_HARD) && (breakpoint->address >= 0x20000000))
{
LOG_INFO("flash patch comparator requested outside code memory region");
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
if ((breakpoint->type == BKPT_SOFT) && (breakpoint->address < 0x20000000))
{
LOG_INFO("soft breakpoint requested in code (flash) memory region");
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
if ((breakpoint->type == BKPT_HARD) && (cortex_m3->fp_code_available < 1))
{
LOG_INFO("no flash patch comparator unit available for hardware breakpoint");
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
if ((breakpoint->length != 2))
{
LOG_INFO("only breakpoints of two bytes length supported");
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
if (breakpoint->type == BKPT_HARD)
cortex_m3->fp_code_available--;
cortex_m3_set_breakpoint(target, breakpoint);
return ERROR_OK;
}
int cortex_m3_remove_breakpoint(struct target_s *target, breakpoint_t *breakpoint)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
if (target->state != TARGET_HALTED)
{
LOG_WARNING("target not halted");
return ERROR_TARGET_NOT_HALTED;
}
if (cortex_m3->auto_bp_type)
{
breakpoint->type = (breakpoint->address < 0x20000000) ? BKPT_HARD : BKPT_SOFT;
}
if (breakpoint->set)
{
cortex_m3_unset_breakpoint(target, breakpoint);
}
if (breakpoint->type == BKPT_HARD)
cortex_m3->fp_code_available++;
return ERROR_OK;
}
int cortex_m3_set_watchpoint(struct target_s *target, watchpoint_t *watchpoint)
{
int dwt_num=0;
u32 mask, temp;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
cortex_m3_dwt_comparator_t * comparator_list = cortex_m3->dwt_comparator_list;
if (watchpoint->set)
{
LOG_WARNING("watchpoint already set");
return ERROR_OK;
}
if (watchpoint->mask == 0xffffffffu)
{
while(comparator_list[dwt_num].used && (dwt_num < cortex_m3->dwt_num_comp))
dwt_num++;
if (dwt_num >= cortex_m3->dwt_num_comp)
{
LOG_DEBUG("ERROR Can not find free DWT Comparator");
LOG_WARNING("ERROR Can not find free DWT Comparator");
return -1;
}
watchpoint->set = dwt_num + 1;
mask = 0;
temp = watchpoint->length;
while (temp > 1)
{
temp = temp / 2;
mask++;
}
comparator_list[dwt_num].used = 1;
comparator_list[dwt_num].comp = watchpoint->address;
comparator_list[dwt_num].mask = mask;
comparator_list[dwt_num].function = watchpoint->rw + 5;
target_write_u32(target, comparator_list[dwt_num].dwt_comparator_address, comparator_list[dwt_num].comp);
target_write_u32(target, comparator_list[dwt_num].dwt_comparator_address|0x4, comparator_list[dwt_num].mask);
target_write_u32(target, comparator_list[dwt_num].dwt_comparator_address|0x8, comparator_list[dwt_num].function);
LOG_DEBUG("dwt_num %i 0x%x 0x%x 0x%x", dwt_num, comparator_list[dwt_num].comp, comparator_list[dwt_num].mask, comparator_list[dwt_num].function);
}
else
{
LOG_WARNING("Cannot watch data values"); /* Move this test to add_watchpoint */
return ERROR_OK;
}
return ERROR_OK;
}
int cortex_m3_unset_watchpoint(struct target_s *target, watchpoint_t *watchpoint)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
cortex_m3_dwt_comparator_t * comparator_list = cortex_m3->dwt_comparator_list;
int dwt_num;
if (!watchpoint->set)
{
LOG_WARNING("watchpoint not set");
return ERROR_OK;
}
dwt_num = watchpoint->set - 1;
if ((dwt_num < 0) || (dwt_num >= cortex_m3->dwt_num_comp))
{
LOG_DEBUG("Invalid DWT Comparator number in watchpoint");
return ERROR_OK;
}
comparator_list[dwt_num].used = 0;
comparator_list[dwt_num].function = 0;
target_write_u32(target, comparator_list[dwt_num].dwt_comparator_address|0x8, comparator_list[dwt_num].function);
watchpoint->set = 0;
return ERROR_OK;
}
int cortex_m3_add_watchpoint(struct target_s *target, watchpoint_t *watchpoint)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
if (target->state != TARGET_HALTED)
{
LOG_WARNING("target not halted");
return ERROR_TARGET_NOT_HALTED;
}
if (cortex_m3->dwt_comp_available < 1)
{
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
if ((watchpoint->length != 1) && (watchpoint->length != 2) && (watchpoint->length != 4))
{
return ERROR_TARGET_RESOURCE_NOT_AVAILABLE;
}
cortex_m3->dwt_comp_available--;
return ERROR_OK;
}
int cortex_m3_remove_watchpoint(struct target_s *target, watchpoint_t *watchpoint)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
if (target->state != TARGET_HALTED)
{
LOG_WARNING("target not halted");
return ERROR_TARGET_NOT_HALTED;
}
if (watchpoint->set)
{
cortex_m3_unset_watchpoint(target, watchpoint);
}
cortex_m3->dwt_comp_available++;
return ERROR_OK;
}
void cortex_m3_enable_watchpoints(struct target_s *target)
{
watchpoint_t *watchpoint = target->watchpoints;
/* set any pending watchpoints */
while (watchpoint)
{
if (watchpoint->set == 0)
cortex_m3_set_watchpoint(target, watchpoint);
watchpoint = watchpoint->next;
}
}
int cortex_m3_load_core_reg_u32(struct target_s *target, enum armv7m_regtype type, u32 num, u32 * value)
{
int retval;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
if ((type == ARMV7M_REGISTER_CORE_GP) && (num <= ARMV7M_PSP))
{
/* read a normal core register */
retval = cortexm3_dap_read_coreregister_u32(swjdp, value, num);
if (retval != ERROR_OK)
{
LOG_ERROR("JTAG failure %i",retval);
return ERROR_JTAG_DEVICE_ERROR;
}
LOG_DEBUG("load from core reg %i value 0x%x",num,*value);
}
else if (type == ARMV7M_REGISTER_CORE_SP) /* Special purpose core register */
{
/* read other registers */
cortexm3_dap_read_coreregister_u32(swjdp, value, 20);
switch (num)
{
case 19:
*value = buf_get_u32((u8*)value, 0, 8);
break;
case 20:
*value = buf_get_u32((u8*)value, 8, 8);
break;
case 21:
*value = buf_get_u32((u8*)value, 16, 8);
break;
case 22:
*value = buf_get_u32((u8*)value, 24, 8);
break;
}
LOG_DEBUG("load from special reg %i value 0x%x", num, *value);
}
else
{
return ERROR_INVALID_ARGUMENTS;
}
return ERROR_OK;
}
int cortex_m3_store_core_reg_u32(struct target_s *target, enum armv7m_regtype type, u32 num, u32 value)
{
int retval;
u32 reg;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
#ifdef ARMV7_GDB_HACKS
/* If the LR register is being modified, make sure it will put us
* in "thumb" mode, or an INVSTATE exception will occur. This is a
* hack to deal with the fact that gdb will sometimes "forge"
* return addresses, and doesn't set the LSB correctly (i.e., when
* printing expressions containing function calls, it sets LR=0.) */
if (num == 14)
value |= 0x01;
#endif
if ((type == ARMV7M_REGISTER_CORE_GP) && (num <= ARMV7M_PSP))
{
retval = cortexm3_dap_write_coreregister_u32(swjdp, value, num);
if (retval != ERROR_OK)
{
LOG_ERROR("JTAG failure %i", retval);
armv7m->core_cache->reg_list[num].dirty = armv7m->core_cache->reg_list[num].valid;
return ERROR_JTAG_DEVICE_ERROR;
}
LOG_DEBUG("write core reg %i value 0x%x", num, value);
}
else if (type == ARMV7M_REGISTER_CORE_SP) /* Special purpose core register */
{
/* write other registers */
cortexm3_dap_read_coreregister_u32(swjdp, ®, 20);
switch (num)
{
case 19:
buf_set_u32((u8*)®, 0, 8, value);
break;
case 20:
buf_set_u32((u8*)®, 8, 8, value);
break;
case 21:
buf_set_u32((u8*)®, 16, 8, value);
break;
case 22:
buf_set_u32((u8*)®, 24, 8, value);
break;
}
cortexm3_dap_write_coreregister_u32(swjdp, reg, 20);
LOG_DEBUG("write special reg %i value 0x%x ", num, value);
}
else
{
return ERROR_INVALID_ARGUMENTS;
}
return ERROR_OK;
}
int cortex_m3_read_memory(struct target_s *target, u32 address, u32 size, u32 count, u8 *buffer)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
int retval;
/* sanitize arguments */
if (((size != 4) && (size != 2) && (size != 1)) || (count == 0) || !(buffer))
return ERROR_INVALID_ARGUMENTS;
/* cortex_m3 handles unaligned memory access */
switch (size)
{
case 4:
retval = mem_ap_read_buf_u32(swjdp, buffer, 4 * count, address);
break;
case 2:
retval = mem_ap_read_buf_u16(swjdp, buffer, 2 * count, address);
break;
case 1:
retval = mem_ap_read_buf_u8(swjdp, buffer, count, address);
break;
default:
LOG_ERROR("BUG: we shouldn't get here");
exit(-1);
}
return retval;
}
int cortex_m3_write_memory(struct target_s *target, u32 address, u32 size, u32 count, u8 *buffer)
{
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
int retval;
/* sanitize arguments */
if (((size != 4) && (size != 2) && (size != 1)) || (count == 0) || !(buffer))
return ERROR_INVALID_ARGUMENTS;
switch (size)
{
case 4:
retval = mem_ap_write_buf_u32(swjdp, buffer, 4 * count, address);
break;
case 2:
retval = mem_ap_write_buf_u16(swjdp, buffer, 2 * count, address);
break;
case 1:
retval = mem_ap_write_buf_u8(swjdp, buffer, count, address);
break;
default:
LOG_ERROR("BUG: we shouldn't get here");
exit(-1);
}
return retval;
}
int cortex_m3_bulk_write_memory(target_t *target, u32 address, u32 count, u8 *buffer)
{
return cortex_m3_write_memory(target, address, 4, count, buffer);
}
void cortex_m3_build_reg_cache(target_t *target)
{
armv7m_build_reg_cache(target);
}
int cortex_m3_init_target(struct command_context_s *cmd_ctx, struct target_s *target)
{
cortex_m3_build_reg_cache(target);
return ERROR_OK;
}
int cortex_m3_examine(struct target_s *target)
{
int retval;
u32 cpuid, fpcr, dwtcr, ictr;
int i;
/* get pointers to arch-specific information */
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
if ((retval = ahbap_debugport_init(swjdp)) != ERROR_OK)
return retval;
if (!target_was_examined(target))
{
target_set_examined(target);
/* Read from Device Identification Registers */
if ((retval = target_read_u32(target, CPUID, &cpuid)) != ERROR_OK)
return retval;
if (((cpuid >> 4) & 0xc3f) == 0xc23)
LOG_DEBUG("CORTEX-M3 processor detected");
LOG_DEBUG("cpuid: 0x%8.8x", cpuid);
target_read_u32(target, NVIC_ICTR, &ictr);
cortex_m3->intlinesnum = (ictr & 0x1F) + 1;
cortex_m3->intsetenable = calloc(cortex_m3->intlinesnum, 4);
for (i = 0; i < cortex_m3->intlinesnum; i++)
{
target_read_u32(target, NVIC_ISE0 + 4 * i, cortex_m3->intsetenable + i);
LOG_DEBUG("interrupt enable[%i] = 0x%8.8x", i, cortex_m3->intsetenable[i]);
}
/* Setup FPB */
target_read_u32(target, FP_CTRL, &fpcr);
cortex_m3->auto_bp_type = 1;
cortex_m3->fp_num_code = ((fpcr >> 8) & 0x70) | ((fpcr >> 4) & 0xF); /* bits [14:12] and [7:4] */
cortex_m3->fp_num_lit = (fpcr >> 8) & 0xF;
cortex_m3->fp_code_available = cortex_m3->fp_num_code;
cortex_m3->fp_comparator_list = calloc(cortex_m3->fp_num_code + cortex_m3->fp_num_lit, sizeof(cortex_m3_fp_comparator_t));
cortex_m3->fpb_enabled = fpcr & 1;
for (i = 0; i < cortex_m3->fp_num_code + cortex_m3->fp_num_lit; i++)
{
cortex_m3->fp_comparator_list[i].type = (i < cortex_m3->fp_num_code) ? FPCR_CODE : FPCR_LITERAL;
cortex_m3->fp_comparator_list[i].fpcr_address = FP_COMP0 + 4 * i;
}
LOG_DEBUG("FPB fpcr 0x%x, numcode %i, numlit %i", fpcr, cortex_m3->fp_num_code, cortex_m3->fp_num_lit);
/* Setup DWT */
target_read_u32(target, DWT_CTRL, &dwtcr);
cortex_m3->dwt_num_comp = (dwtcr >> 28) & 0xF;
cortex_m3->dwt_comp_available = cortex_m3->dwt_num_comp;
cortex_m3->dwt_comparator_list = calloc(cortex_m3->dwt_num_comp, sizeof(cortex_m3_dwt_comparator_t));
for (i = 0; i < cortex_m3->dwt_num_comp; i++)
{
cortex_m3->dwt_comparator_list[i].dwt_comparator_address = DWT_COMP0 + 0x10 * i;
}
}
return ERROR_OK;
}
int cortex_m3_quit(void)
{
return ERROR_OK;
}
int cortex_m3_dcc_read(swjdp_common_t *swjdp, u8 *value, u8 *ctrl)
{
u16 dcrdr;
mem_ap_read_buf_u16( swjdp, (u8*)&dcrdr, 1, DCB_DCRDR);
*ctrl = (u8)dcrdr;
*value = (u8)(dcrdr >> 8);
LOG_DEBUG("data 0x%x ctrl 0x%x", *value, *ctrl);
/* write ack back to software dcc register
* signify we have read data */
if (dcrdr & (1 << 0))
{
dcrdr = 0;
mem_ap_write_buf_u16( swjdp, (u8*)&dcrdr, 1, DCB_DCRDR);
}
return ERROR_OK;
}
int cortex_m3_target_request_data(target_t *target, u32 size, u8 *buffer)
{
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
u8 data;
u8 ctrl;
u32 i;
for (i = 0; i < (size * 4); i++)
{
cortex_m3_dcc_read(swjdp, &data, &ctrl);
buffer[i] = data;
}
return ERROR_OK;
}
int cortex_m3_handle_target_request(void *priv)
{
target_t *target = priv;
if (!target_was_examined(target))
return ERROR_OK;
armv7m_common_t *armv7m = target->arch_info;
swjdp_common_t *swjdp = &armv7m->swjdp_info;
if (!target->dbg_msg_enabled)
return ERROR_OK;
if (target->state == TARGET_RUNNING)
{
u8 data;
u8 ctrl;
cortex_m3_dcc_read(swjdp, &data, &ctrl);
/* check if we have data */
if (ctrl & (1 << 0))
{
u32 request;
/* we assume target is quick enough */
request = data;
cortex_m3_dcc_read(swjdp, &data, &ctrl);
request |= (data << 8);
cortex_m3_dcc_read(swjdp, &data, &ctrl);
request |= (data << 16);
cortex_m3_dcc_read(swjdp, &data, &ctrl);
request |= (data << 24);
target_request(target, request);
}
}
return ERROR_OK;
}
int cortex_m3_init_arch_info(target_t *target, cortex_m3_common_t *cortex_m3, jtag_tap_t *tap)
{
int retval;
armv7m_common_t *armv7m;
armv7m = &cortex_m3->armv7m;
armv7m_init_arch_info(target, armv7m);
/* prepare JTAG information for the new target */
cortex_m3->jtag_info.tap = tap;
cortex_m3->jtag_info.scann_size = 4;
armv7m->swjdp_info.dp_select_value = -1;
armv7m->swjdp_info.ap_csw_value = -1;
armv7m->swjdp_info.ap_tar_value = -1;
armv7m->swjdp_info.jtag_info = &cortex_m3->jtag_info;
armv7m->swjdp_info.memaccess_tck = 8;
/* initialize arch-specific breakpoint handling */
cortex_m3->common_magic = CORTEX_M3_COMMON_MAGIC;
cortex_m3->arch_info = NULL;
/* register arch-specific functions */
armv7m->examine_debug_reason = cortex_m3_examine_debug_reason;
armv7m->pre_debug_entry = NULL;
armv7m->post_debug_entry = NULL;
armv7m->pre_restore_context = NULL;
armv7m->post_restore_context = NULL;
armv7m->arch_info = cortex_m3;
armv7m->load_core_reg_u32 = cortex_m3_load_core_reg_u32;
armv7m->store_core_reg_u32 = cortex_m3_store_core_reg_u32;
target_register_timer_callback(cortex_m3_handle_target_request, 1, 1, target);
if ((retval = arm_jtag_setup_connection(&cortex_m3->jtag_info)) != ERROR_OK)
{
return retval;
}
return ERROR_OK;
}
int cortex_m3_target_create(struct target_s *target, Jim_Interp *interp)
{
cortex_m3_common_t *cortex_m3 = calloc(1,sizeof(cortex_m3_common_t));
cortex_m3_init_arch_info(target, cortex_m3, target->tap);
return ERROR_OK;
}
int cortex_m3_register_commands(struct command_context_s *cmd_ctx)
{
int retval;
command_t *cortex_m3_cmd;
retval = armv7m_register_commands(cmd_ctx);
cortex_m3_cmd = register_command(cmd_ctx, NULL, "cortex_m3", NULL, COMMAND_ANY, "cortex_m3 specific commands");
register_command(cmd_ctx, cortex_m3_cmd, "maskisr", handle_cortex_m3_mask_interrupts_command, COMMAND_EXEC, "mask cortex_m3 interrupts ['on'|'off']");
return retval;
}
int handle_cortex_m3_mask_interrupts_command(struct command_context_s *cmd_ctx, char *cmd, char **args, int argc)
{
target_t *target = get_current_target(cmd_ctx);
armv7m_common_t *armv7m = target->arch_info;
cortex_m3_common_t *cortex_m3 = armv7m->arch_info;
if (target->state != TARGET_HALTED)
{
command_print(cmd_ctx, "target must be stopped for \"%s\" command", cmd);
return ERROR_OK;
}
if (argc > 0)
{
if (!strcmp(args[0], "on"))
{
cortex_m3_write_debug_halt_mask(target, C_HALT|C_MASKINTS, 0);
}
else if (!strcmp(args[0], "off"))
{
cortex_m3_write_debug_halt_mask(target, C_HALT, C_MASKINTS);
}
else
{
command_print(cmd_ctx, "usage: cortex_m3 maskisr ['on'|'off']");
}
}
command_print(cmd_ctx, "cortex_m3 interrupt mask %s",
(cortex_m3->dcb_dhcsr & C_MASKINTS) ? "on" : "off");
return ERROR_OK;
}
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