ARM Cortex R4F User Manual

Debug

ARM DDI 0363E

Copyright © 2009 ARM Limited. All rights reserved.

11-16

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[13]

ARM

Execute ARM instruction enable bit:
0 = disabled, this is the reset value
1 = enabled.
If this bit is set and an ITR write succeeds, the processor fetches an instruction from the
ITR for execution. If this bit is set to 1 when the processor is not in debug state, the
behavior of the processor is Unpredictable.

[12]

Comms

CP14 debug user access disable control bit:
0 = CP14 debug user access enable, this is the reset value
1 = CP14 debug user access disable.
If this bit is set and a User mode process attempts to access any CP14 debug registers, an
Undefined instruction exception is taken.

[11]

IntDis

Interrupts disable bit:
0 = interrupts enabled, this is the reset value
1 = interrupts disabled.
If this bit is set, the IRQ and FIQ input signals are inhibited. The external debugger can
optionally use this bit to execute pieces of code in normal state as part of the debugging
process to avoid having an interrupt taking control of the program flow. For example, the
debugger might use this bit to execute an OS service routine to bring a page from disk into
memory. It might be undesirable to service any interrupt during the routine execution.

[10]

DbgAck

DbgAck bit. If this bit is set to 1, the DBGACK output signal is forced HIGH, regardless
of the processor state. The external debugger can optionally use this bit to execute pieces
of code in normal state as part of the debugging process for the system to behave as if the
processor is in debug state. Some systems rely on DBGACK to determine whether data
accesses are application or debugger generated. This bit is 0 on reset.

[9]

Reserved

RAZ on reads, SBZP on writes.

[8]

Sticky Undefined

Sticky Undefined bit:
0 = no Undefined exception occurred in debug state since the last time this bit was cleared
1 = an Undefined exception occurred while in debug state since the last time this bit was
cleared.
This flag detects Undefined exceptions generated by instructions issued to the processor
through the ITR. This bit is set to 1 when an Undefined instruction exception occurs while
the processor is in debug state and is cleared by writing a 1 to DRCR[2].

[7]

Sticky imprecise
abort

Sticky imprecise Data Abort bit:
0 = no imprecise Data Aborts occurred since the last time this bit was cleared
1 = an imprecise Data Abort occurred since the last time this bit was cleared.
This flag detects imprecise Data Aborts triggered by instructions issued to the processor
through the ITR. This bit is set to 1 when an imprecise Data Abort occurs while the
processor is in debug state and is cleared by writing a 1 to DRCR[2].

[6]

Sticky precise
abort

Sticky precise Data Abort bit:
0 = no precise Data Abort occurred since the last time this bit was cleared
1 = a precise Data Abort occurred since the last time this bit was cleared.
This flag detects precise Data Aborts generated by instructions issued to the processor
through the ITR. This bit is set to 1 when a precise Data Abort occurs while the processor
is in debug state and is cleared by writing to the DRCR[2].

Table 11-10 Debug Status and Control Register functions (continued)

Bits

Field

Function