[Patch 0/6] PPC64-HWBKPT: Hardware Breakpoint interfaces - ver IX
K.Prasad
prasad at linux.vnet.ibm.com
Fri Sep 4 04:39:30 EST 2009
Hi All,
Please find a new set of patches with the changes as listed below.
These patches have to be applied over the set of patches sent to LKML here:
http://lkml.org/lkml/2009/8/28/272 that enable per-cpu breakpoint support and
a few new APIs.
Changelog - ver IX
-------------------
- Invocation of user-defined callback will be 'trigger-after-execute' (except
for ptrace).
- Creation of a new global per-CPU breakpoint structure to help invocation of
user-defined callback from single-step handler.
- Validation before registration will fail only if the address does not match
the kernel symbol's (if specified) resolved address
(through kallsyms_lookup_name()).
- 'symbolsize' value is expected to within the range contained by the symbol's
starting address and the end of a double-word boundary (8 Bytes).
- PPC64's arch-dependant code is now aware of 'cpumask' in 'struct hw_breakpoint'
and can accomodate requests for a subset of CPUs in the system.
- Introduced arch_disable_hw_breakpoint() required for
<enable><disable>_hw_breakpoint() APIs.
Kindly let me know your comments on the same.
Thanks,
K.Prasad
Changelog - ver VIII
-------------------
- Reverting changes to allow one-shot breakpoints only for ptrace requests.
- Minor changes in sanity checking in arch_validate_hwbkpt_settings().
- put_cpu_no_resched() is no longer available. Converted to put_cpu().
Changelog - ver VII
-------------------
- Allow the one-shot behaviour for exception handlers to be defined by the user.
A new 'is_one_shot' flag is added to 'struct arch_hw_breakpoint'.
Changelog - ver VI
------------------
The task of identifying 'genuine' breakpoint exceptions from those caused by
'out-of-range' accesses turned out to be more tricky than originally thought.
Some changes to this effect were made in version IV of this patchset, but they
were not sufficient for user-space. Basically the breakpoint address received
through ptrace is always aligned to 8-bytes since ptrace receives an encoded
'data' (consisting of address | translation_enable | bkpt_type), and the size of
the symbol is not known. However for kernel-space addresses, the symbol-size can
be determined using kallsyms_lookup_size_offset() and this is used to check if
DAR (in the exception context) is
'bkpt_address <= DAR <= (bkpt_address + symbol_size)', failing which we conclude
it as a stray exception.
The following changes are made to enable check:
- Addition of a symbolsize field in 'struct arch_hw_breakpoint' field.
- Store the size of the 'watched' kernel symbol into 'symbolsize' field in
arch_store_info(0 routine.
- Verify if the above described condition is true when is_one_shot is FALSE in
hw_breakpoint_handler().
Changelog - ver V
------------------
- Breakpoint requests from ptrace (for user-space) are designed to be one-shot
in PPC64. The patch contains changes to retain this behaviour by returning early
in hw_breakpoint_handler() [without re-initialising DABR] and unregistering the
user-space request in ptrace_triggered(). It is safe to make a
unregister_user_hw_breakpoint() call from the breakpoint exception context
[through ptrace_triggered()] without giving rise to circular locking-dependancy.
This is because there can be no kernel code running on the CPU (which received
the exception) with the same spinlock held.
- Minor change in 'type' member of 'struct arch_hw_breakpoint' from u8 to 'int'.
Changelog - ver IV
------------------
- While DABR register requires double-word (8 bytes) aligned addresses, i.e.
the breakpoint is active over a range of 8 bytes, PPC64 allows byte-level
addressability. This may lead to stray exceptions which have to be ignored in
hw_breakpoint_handler(), when DAR != (Breakpoint request address). However DABR
will be populated with the requested breakpoint address aligned to the previous
double-word address. The code is now modified to store user-requested address
in 'bp->info.address' but update the DABR with a double-word aligned address.
- Please note that the Data Breakpoint facility in Xmon is broken as of 2.6.29
and the same has not been integrated into this facility as described in Ver I.
Changelog - ver III
------------------
- Patches are based on commit 08f16e060bf54bdc34f800ed8b5362cdeda75d8b of -tip
tree.
- The declarations in arch/powerpc/include/asm/hw_breakpoint.h are done only if
CONFIG_PPC64 is defined. This eliminates the need to conditionally include this
header file.
- load_debug_registers() is done in start_secondary() i.e. during CPU initialisation.
- arch_check_va_<> routines in hw_breakpoint.c are now replaced with a much
simpler is_kernel_addr() check in arch_validate_hwbkpt_settings()
- Return code of hw_breakpoint_handler() when triggered due to Lazy debug
register switching is now changed to NOTIFY_STOP.
- The ptrace code no longer sets the TIF_DEBUG task flag as it is proposed to
be done in register_user_hw_breakpoint() routine.
- hw_breakpoint_handler() is now modified to use hbp_kernel_pos value to
determine if the trigger was a user/kernel space address. The DAR register
value is checked with the address stored in 'struct hw_breakpoint' to avoid
handling of exceptions that belong to kprobe/Xmon.
Changelog - ver II
------------------
- Split the monolithic patch into six logical patches
- Changed the signature of arch_check_va_in_<user><kernel>space functions. They
are now marked static.
- HB_NUM is now called as HBP_NUM (to preserve a consistent short-name
convention)
- Introduced hw_breakpoint_disable() and changes to kexec code to disable
breakpoints before a reboot.
- Minor changes in ptrace code to use macro-defined constants instead of
numbers.
- Introduced a new constant definition INSTRUCTION_LEN in reg.h
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