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[XRay][compiler-rt] Implement logging implementation registration

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Summary:
This change allows for registration of multiple logging implementations
through a central mechanism in XRay, mapping an implementation to a
"mode". Modes are strings that are used as keys to determine which
implementation to install through a single API. This mechanism allows
users to choose which implementation to install either from the
environment variable 'XRAY_OPTIONS' with the `xray_mode=` flag, or
programmatically using the `__xray_select_mode(...)` function.

Here, we introduce two API functions for the XRay logging:

__xray_log_register_mode(Mode, Impl): Associates an XRayLogImpl to a
string Mode. We can only have one implementation associated with a given
Mode.

__xray_log_select_mode(Mode): Finds the associated Impl for Mode and
installs it as if by calling `__xray_set_log_impl(...)`.

Along with these changes, we also deprecate the xray_naive_log and
xray_fdr_log flags and encourage users to instead use the xray_mode
flag.

Reviewers: kpw, dblaikie, eizan, pelikan

Subscribers: llvm-commits

Differential Revision: https://reviews.llvm.org/D40703

llvm-svn: 319759
This commit is contained in:
Dean Michael Berris 2017-12-05 12:08:56 +00:00
parent a2b5862641
commit c360f41097
6 changed files with 187 additions and 24 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

38
compiler-rt/include/xray/xray_log_interface.h
View File

@ -128,6 +128,16 @@ enum XRayLogFlushStatus {
XRAY_LOG_FLUSHED = 2,
};
/// This enum indicates the installation state of a logging implementation, when
/// associating a mode to a particular logging implementation through
/// `__xray_log_register_impl(...)` or through `__xray_log_select_mode(...`.
enum XRayLogRegisterStatus {
XRAY_REGISTRATION_OK = 0,
XRAY_DUPLICATE_MODE = 1,
XRAY_MODE_NOT_FOUND = 2,
XRAY_INCOMPLETE_IMPL = 3,
};
/// A valid XRay logging implementation MUST provide all of the function
/// pointers in XRayLogImpl when being installed through `__xray_set_log_impl`.
/// To be precise, ALL the functions pointers MUST NOT be nullptr.
@ -189,6 +199,34 @@ struct XRayLogImpl {
/// called while in any other states.
void __xray_set_log_impl(XRayLogImpl Impl);
/// This function registers a logging implementation against a "mode"
/// identifier. This allows multiple modes to be registered, and chosen at
/// runtime using the same mode identifier through
/// `__xray_log_select_mode(...)`.
///
/// We treat the Mode identifier as a null-terminated byte string, as the
/// identifier used when retrieving the log impl.
///
/// Returns:
/// - XRAY_REGISTRATION_OK on success.
/// - XRAY_DUPLICATE_MODE when an implementation is already associated with
/// the provided Mode; does not update the already-registered
/// implementation.
XRayLogRegisterStatus __xray_log_register_mode(const char *Mode,
XRayLogImpl Impl);
/// This function selects the implementation associated with Mode that has been
/// registered through __xray_log_register_mode(...) and installs that
/// implementation (as if through calling __xray_set_log_impl(...)). The same
/// caveats apply to __xray_log_select_mode(...) as with
/// __xray_log_set_log_impl(...).
///
/// Returns:
/// - XRAY_REGISTRATION_OK on success.
/// - XRAY_MODE_NOT_FOUND if there is no implementation associated with Mode;
/// does not update the currently installed implementation.
XRayLogRegisterStatus __xray_log_select_mode(const char *Mode);
/// This function removes the currently installed implementation. It will also
/// uninstall any handlers that have been previously installed. It does NOT
/// unpatch the instrumentation sleds.

31
compiler-rt/lib/xray/xray_fdr_logging.cc
View File

@ -362,16 +362,25 @@ XRayLogInitStatus fdrLoggingInit(std::size_t BufferSize, std::size_t BufferMax,
return XRayLogInitStatus::XRAY_LOG_INITIALIZED;
}
bool fdrLogDynamicInitializer() XRAY_NEVER_INSTRUMENT {
using namespace __xray;
XRayLogImpl Impl{
fdrLoggingInit,
fdrLoggingFinalize,
fdrLoggingHandleArg0,
fdrLoggingFlush,
};
auto RegistrationResult = __xray_log_register_mode("xray-fdr", Impl);
if (RegistrationResult != XRayLogRegisterStatus::XRAY_REGISTRATION_OK &&
__sanitizer::Verbosity())
Report("Cannot register XRay FDR mode to 'xray-fdr'; error = %d\n",
RegistrationResult);
if (flags()->xray_fdr_log ||
!__sanitizer::internal_strcmp(flags()->xray_mode, "xray-fdr"))
__xray_set_log_impl(Impl);
return true;
}
} // namespace __xray
static auto UNUSED Unused = [] {
using namespace __xray;
if (flags()->xray_fdr_log) {
XRayLogImpl Impl{
fdrLoggingInit, fdrLoggingFinalize, fdrLoggingHandleArg0,
fdrLoggingFlush,
};
__xray_set_log_impl(Impl);
}
return true;
}();
static auto UNUSED Unused = __xray::fdrLogDynamicInitializer();

6
compiler-rt/lib/xray/xray_flags.inc
View File

@ -18,10 +18,12 @@ XRAY_FLAG(bool, patch_premain, false,
"Whether to patch instrumentation points before main.")
XRAY_FLAG(const char *, xray_logfile_base, "xray-log.",
"Filename base for the xray logfile.")
XRAY_FLAG(const char *, xray_mode, "", "Mode to install by default.")
// Basic (Naive) Mode logging options.
XRAY_FLAG(bool, xray_naive_log, false,
"Whether to install the naive log implementation.")
"DEPRECATED: Use xray_mode=xray-basic instead.")
XRAY_FLAG(int, xray_naive_log_func_duration_threshold_us, 5,
"Naive logging will try to skip functions that execute for fewer "
"microseconds than this threshold.")
@ -33,7 +35,7 @@ XRAY_FLAG(int, xray_naive_log_thread_buffer_size, 1024,
// FDR (Flight Data Recorder) Mode logging options.
XRAY_FLAG(bool, xray_fdr_log, false,
"Whether to install the flight data recorder logging implementation.")
"DEPRECATED: Use xray_mode=xray-fdr instead.")
XRAY_FLAG(int, xray_fdr_log_func_duration_threshold_us, 5,
"FDR logging will try to skip functions that execute for fewer "
"microseconds than this threshold.")

20
compiler-rt/lib/xray/xray_inmemory_log.cc
View File

@ -334,13 +334,19 @@ void basicLoggingHandleArg0Empty(int32_t, XRayEntryType) XRAY_NEVER_INSTRUMENT {
}
bool basicLogDynamicInitializer() XRAY_NEVER_INSTRUMENT {
if (flags()->xray_naive_log) {
XRayLogImpl Impl{
basicLoggingInit,
basicLoggingFinalize,
basicLoggingHandleArg0Empty,
basicLoggingFlush,
};
XRayLogImpl Impl{
basicLoggingInit,
basicLoggingFinalize,
basicLoggingHandleArg0Empty,
basicLoggingFlush,
};
auto RegistrationResult = __xray_log_register_mode("xray-basic", Impl);
if (RegistrationResult != XRayLogRegisterStatus::XRAY_REGISTRATION_OK &&
__sanitizer::Verbosity())
Report("Cannot register XRay Basic Mode to 'xray-basic'; error = %d\n",
RegistrationResult);
if (flags()->xray_naive_log ||
!__sanitizer::internal_strcmp(flags()->xray_mode, "xray-basic")) {
__xray_set_log_impl(Impl);
BasicLoggingOptions Options;
Options.DurationFilterMicros =

57
compiler-rt/lib/xray/xray_log_interface.cc
View File

@ -12,19 +12,69 @@
//===----------------------------------------------------------------------===//
#include "xray/xray_log_interface.h"
#include "sanitizer_common/sanitizer_allocator_internal.h"
#include "sanitizer_common/sanitizer_atomic.h"
#include "sanitizer_common/sanitizer_mutex.h"
#include "xray/xray_interface.h"
#include "xray_defs.h"
__sanitizer::SpinMutex XRayImplMutex;
XRayLogImpl CurrentXRayImpl{nullptr, nullptr, nullptr, nullptr};
XRayLogImpl *GlobalXRayImpl = nullptr;
// We use a linked list of Mode to XRayLogImpl mappings. This is a linked list
// when it should be a map because we're avoiding having to depend on C++
// standard library data structures at this level of the implementation.
struct ModeImpl {
ModeImpl *Next;
const char *Mode;
XRayLogImpl Impl;
};
ModeImpl SentinelModeImpl{
nullptr, nullptr, {nullptr, nullptr, nullptr, nullptr}};
ModeImpl *ModeImpls = &SentinelModeImpl;
XRayLogRegisterStatus
__xray_log_register_mode(const char *Mode,
XRayLogImpl Impl) XRAY_NEVER_INSTRUMENT {
if (Impl.flush_log == nullptr || Impl.handle_arg0 == nullptr ||
Impl.log_finalize == nullptr || Impl.log_init == nullptr)
return XRayLogRegisterStatus::XRAY_INCOMPLETE_IMPL;
__sanitizer::SpinMutexLock Guard(&XRayImplMutex);
// First, look for whether the mode already has a registered implementation.
for (ModeImpl *it = ModeImpls; it != &SentinelModeImpl; it = it->Next) {
if (!__sanitizer::internal_strcmp(Mode, it->Mode))
return XRayLogRegisterStatus::XRAY_DUPLICATE_MODE;
}
auto *NewModeImpl =
static_cast<ModeImpl *>(__sanitizer::InternalAlloc(sizeof(ModeImpl)));
NewModeImpl->Next = ModeImpls;
NewModeImpl->Mode = __sanitizer::internal_strdup(Mode);
NewModeImpl->Impl = Impl;
ModeImpls = NewModeImpl;
return XRayLogRegisterStatus::XRAY_REGISTRATION_OK;
}
XRayLogRegisterStatus
__xray_log_select_mode(const char *Mode) XRAY_NEVER_INSTRUMENT {
__sanitizer::SpinMutexLock Guard(&XRayImplMutex);
for (ModeImpl *it = ModeImpls; it != &SentinelModeImpl; it = it->Next) {
if (!__sanitizer::internal_strcmp(Mode, it->Mode)) {
CurrentXRayImpl = it->Impl;
GlobalXRayImpl = &CurrentXRayImpl;
__xray_set_handler(it->Impl.handle_arg0);
return XRayLogRegisterStatus::XRAY_REGISTRATION_OK;
}
}
return XRayLogRegisterStatus::XRAY_MODE_NOT_FOUND;
}
void __xray_set_log_impl(XRayLogImpl Impl) XRAY_NEVER_INSTRUMENT {
if (Impl.log_init == nullptr || Impl.log_finalize == nullptr ||
Impl.handle_arg0 == nullptr || Impl.flush_log == nullptr) {
__sanitizer::SpinMutexLock Guard(&XRayImplMutex);
delete GlobalXRayImpl;
GlobalXRayImpl = nullptr;
__xray_remove_handler();
__xray_remove_handler_arg1();
@ -32,14 +82,13 @@ void __xray_set_log_impl(XRayLogImpl Impl) XRAY_NEVER_INSTRUMENT {
}
__sanitizer::SpinMutexLock Guard(&XRayImplMutex);
GlobalXRayImpl = new XRayLogImpl();
*GlobalXRayImpl = Impl;
CurrentXRayImpl = Impl;
GlobalXRayImpl = &CurrentXRayImpl;
__xray_set_handler(Impl.handle_arg0);
}
void __xray_remove_log_impl() XRAY_NEVER_INSTRUMENT {
__sanitizer::SpinMutexLock Guard(&XRayImplMutex);
delete GlobalXRayImpl;
GlobalXRayImpl = nullptr;
__xray_remove_handler();
__xray_remove_handler_arg1();

59
compiler-rt/test/xray/TestCases/Linux/logging-modes.cc Normal file
View File

@ -0,0 +1,59 @@
// Check that we can install an implementation associated with a mode.
//
// RUN: %clangxx_xray -std=c++11 %s -o %t
// RUN: %run %t | FileCheck %s
//
// UNSUPPORTED: target-is-mips64,target-is-mips64el
#include "xray/xray_interface.h"
#include "xray/xray_log_interface.h"
#include <cassert>
#include <cstdio>
[[clang::xray_never_instrument]] void printing_handler(int32_t fid,
XRayEntryType) {
thread_local volatile bool printing = false;
if (printing)
return;
printing = true;
std::printf("printing %d\n", fid);
printing = false;
}
[[clang::xray_never_instrument]] XRayLogInitStatus
printing_init(size_t, size_t, void *, size_t) {
return XRayLogInitStatus::XRAY_LOG_INITIALIZED;
}
[[clang::xray_never_instrument]] XRayLogInitStatus printing_finalize() {
return XRayLogInitStatus::XRAY_LOG_FINALIZED;
}
[[clang::xray_never_instrument]] XRayLogFlushStatus printing_flush_log() {
return XRayLogFlushStatus::XRAY_LOG_FLUSHED;
}
[[clang::xray_always_instrument]] void callme() { std::printf("called me!\n"); }
static bool unused = [] {
assert(__xray_log_register_mode("custom",
{printing_init, printing_finalize,
printing_handler, printing_flush_log}) ==
XRayLogRegisterStatus::XRAY_REGISTRATION_OK);
return true;
}();
int main(int argc, char **argv) {
assert(__xray_log_select_mode("custom") ==
XRayLogRegisterStatus::XRAY_REGISTRATION_OK);
assert(__xray_patch() == XRayPatchingStatus::SUCCESS);
assert(__xray_log_init(0, 0, nullptr, 0) ==
XRayLogInitStatus::XRAY_LOG_INITIALIZED);
// CHECK: printing {{.*}}
callme(); // CHECK: called me!
// CHECK: printing {{.*}}
assert(__xray_log_finalize() == XRayLogInitStatus::XRAY_LOG_FINALIZED);
assert(__xray_log_flushLog() == XRayLogFlushStatus::XRAY_LOG_FLUSHED);
assert(__xray_log_select_mode("not-found") ==
XRayLogRegisterStatus::XRAY_MODE_NOT_FOUND);
}