[PATCH 00/21] Support Architectural LBR
From: kan . liang
Date: Fri Jun 19 2020 - 10:09:22 EST
From: Kan Liang <kan.liang@xxxxxxxxxxxxxxx>
LBR (Last Branch Records) enables recording of software path history
by logging taken branches and other control flows within architectural
registers. Intel CPUs have had model-specific LBRs for quite some time
but this evolves them into an architectural feature now.
The main advantages for the users are:
- Faster context switching due to XSAVES support and faster reset of
LBR MSRs via the new DEPTH MSR
- Faster LBR read for a non-PEBS event due to XSAVES support, which
lowers the overhead of the NMI handler. (For a PEBS event, the LBR
information is recorded in the PEBS records. There is no impact on
the PEBS event.)
- Linux kernel can support the LBR features without knowing the model
number of the current CPU.
- Clean exposure of LBRs to guests without relying on model-specific
features. (An improvement for KVM. Not included in this patch series.)
- Supports for running with a smaller number of LBRs than the full 32,
to lower overhead (currently not exposed, however)
The key improvements for the perf kernel in this patch series include,
- Doesn't require a model check. The capabilities of Architectural LBR
can be enumerated by CPUID.
- Each LBR record or entry is still comprised of three MSRs,
IA32_LBR_x_FROM_IP, IA32_LBR_x_TO_IP and IA32_LBR_x_TO_IP, but they
become architectural MSRs.
- Architectural LBR is stack-like now. Entry 0 is always the youngest
branch, entry 1 the next youngest... The TOS MSR has been removed.
- A new IA32_LBR_CTL MSR is introduced to enable and configure LBRs,
which replaces the IA32_DEBUGCTL[bit 0] and the LBR_SELECT MSR.
- The possible LBR depth can be retrieved from CPUID enumeration. The
max value is written to the new MSR_ARCH_LBR_DEPTH as the number of
LBR entries.
- Faster LBR MSRs reset via the new DEPTH MSR, which avoids touching
potentially nearly a hundred MSRs.
- XSAVES and XRSTORS are used to read, save/restore LBR related MSRs
- Faster direct reporting of the branch type with the LBR without needing
access to the code
The existing LBR capabilities, such as CPL filtering, Branch filtering,
Call stack, Mispredict information, cycles information, Branch Type
information, are still kept for Architectural LBRs.
XSAVES and XRSTORS improvements:
In perf with call stack mode, LBR information is used to reconstruct
a call stack. To get a complete call stack, perf has to save and restore
all LBR registers during a context switch. However, the number of LBR
registers is huge. To reduce the overhead, LBR state component is
introduced with architectural LBR. Perf subsystem will use XSAVES/XRSTORS
to save/restore LBRs during a context switch.
LBR call stack mode is not always enabled. Perf subsystem only needs to
save/restore an LBR state on demand. To avoid unnecessary save/restore of
the LBR state at a context switch, a software concept, dynamic supervisor
state, is introduced, which
- does not allocate a buffer in each task->fpu;
- does not save/restore a state component at each context switch;
- sets the bit corresponding to a dynamic supervisor feature in
IA32_XSS at boot time, and avoids setting it at run time;
- dynamically allocates a specific buffer for a state component
on demand, e.g. only allocate a LBR-specific XSAVE buffer when LBR is
enabled in perf. (Note: The buffer has to include the LBR state
component, legacy region and XSAVE header.)
- saves/restores a state component on demand, e.g. manually invoke
the XSAVES/XRSTORS instruction to save/restore the LBR state
to/from the buffer when perf is active and a call stack is required.
The specification of Architectural LBR can be found in the latest Intel
Architecture Instruction Set Extensions and Future Features Programming
Reference, 319433-038.
Kan Liang (21):
x86/cpufeatures: Add Architectural LBRs feature bit
perf/x86/intel/lbr: Add pointers for LBR enable and disable
perf/x86/intel/lbr: Add pointer for LBR reset
perf/x86/intel/lbr: Add pointer for LBR read
perf/x86/intel/lbr: Add pointers for LBR save and restore
perf/x86/intel/lbr: Factor out a new struct for generic optimization
perf/x86/intel/lbr: Use dynamic data structure for task_ctx
x86/msr-index: Add bunch of MSRs for Arch LBR
perf/x86: Expose CPUID enumeration bits for arch LBR
perf/x86/intel: Check Arch LBR MSRs
perf/x86/intel/lbr: Support LBR_CTL
perf/x86/intel/lbr: Support Architectural LBR
perf/core: Factor out functions to allocate/free the task_ctx_data
perf/core: Use kmem_cache to allocate the PMU specific data
perf/x86/intel/lbr: Create kmem_cache for the LBR context data
perf/x86: Remove task_ctx_size
x86/fpu: Use proper mask to replace full instruction mask
x86/fpu/xstate: Support dynamic supervisor feature for LBR
x86/fpu/xstate: Add helpers for LBR dynamic supervisor feature
perf/x86/intel/lbr: Support XSAVES/XRSTORS for LBR context switch
perf/x86/intel/lbr: Support XSAVES for arch LBR read
arch/x86/events/core.c | 2 +-
arch/x86/events/intel/core.c | 50 ++-
arch/x86/events/intel/lbr.c | 633 +++++++++++++++++++++++++++++++-----
arch/x86/events/perf_event.h | 159 ++++++++-
arch/x86/include/asm/cpufeatures.h | 1 +
arch/x86/include/asm/fpu/internal.h | 9 +-
arch/x86/include/asm/fpu/types.h | 26 ++
arch/x86/include/asm/fpu/xstate.h | 36 ++
arch/x86/include/asm/msr-index.h | 20 ++
arch/x86/kernel/fpu/xstate.c | 90 ++++-
include/linux/perf_event.h | 5 +-
kernel/events/core.c | 25 +-
12 files changed, 951 insertions(+), 105 deletions(-)
--
2.7.4