lib/profile/InstrProfilingPlatformWindows.c - llvm-project/compiler-rt - Git at Google

 /*===- InstrProfilingPlatformWindows.c - Profile data on Windows ----------===*\
 |*
 |* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 |* See https://llvm.org/LICENSE.txt for license information.
 |* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 |*
 \*===----------------------------------------------------------------------===*/

 #include <stddef.h>

 #include "InstrProfiling.h"
 #include "InstrProfilingInternal.h"

 #if defined(_WIN32)

 #if defined(_MSC_VER)
 /* Merge read-write sections into .data. */
 #pragma comment(linker, "/MERGE:.lprfb=.data")
 #pragma comment(linker, "/MERGE:.lprfd=.data")
 #pragma comment(linker, "/MERGE:.lprfv=.data")
 #pragma comment(linker, "/MERGE:.lprfnd=.data")
 /* Do *NOT* merge .lprfn and .lcovmap into .rdata. llvm-cov must be able to find
  * after the fact.
  * Do *NOT* merge .lprfc .rdata. When binary profile correlation is enabled,
  * llvm-cov must be able to find after the fact.
  */

 /* Allocate read-only section bounds. */
 #pragma section(".lprfn$A", read)
 #pragma section(".lprfn$Z", read)

 /* Allocate read-write section bounds. */
 #pragma section(".lprfd$A", read, write)
 #pragma section(".lprfd$Z", read, write)
 #pragma section(".lprfc$A", read, write)
 #pragma section(".lprfc$Z", read, write)
 #pragma section(".lprfb$A", read, write)
 #pragma section(".lprfb$Z", read, write)
 #pragma section(".lorderfile$A", read, write)
 #pragma section(".lprfnd$A", read, write)
 #pragma section(".lprfnd$Z", read, write)
 #endif

 __llvm_profile_data COMPILER_RT_SECTION(".lprfd$A") DataStart = {0};
 __llvm_profile_data COMPILER_RT_SECTION(".lprfd$Z") DataEnd = {0};

 const char COMPILER_RT_SECTION(".lprfn$A") NamesStart = '\0';
 const char COMPILER_RT_SECTION(".lprfn$Z") NamesEnd = '\0';

 char COMPILER_RT_SECTION(".lprfc$A") CountersStart;
 char COMPILER_RT_SECTION(".lprfc$Z") CountersEnd;
 char COMPILER_RT_SECTION(".lprfb$A") BitmapStart;
 char COMPILER_RT_SECTION(".lprfb$Z") BitmapEnd;
 uint32_t COMPILER_RT_SECTION(".lorderfile$A") OrderFileStart;

 ValueProfNode COMPILER_RT_SECTION(".lprfnd$A") VNodesStart;
 ValueProfNode COMPILER_RT_SECTION(".lprfnd$Z") VNodesEnd;

 const __llvm_profile_data *__llvm_profile_begin_data(void) {
   return &DataStart + 1;
 }
 const __llvm_profile_data *__llvm_profile_end_data(void) { return &DataEnd; }

 // Type profiling isn't implemented under MSVC ABI, so return NULL (rather than
 // implementing linker magic on Windows) to make it more explicit. To elaborate,
 // the current type profiling implementation maps a profiled vtable address to a
 // vtable variable through vtables mangled name. Under MSVC ABI, the variable
 // name for vtables might not be the mangled name (see
 // MicrosoftCXXABI::getAddrOfVTable in MicrosoftCXXABI.cpp for more details on
 // how a vtable name is computed). Note the mangled name is still in the vtable
 // IR (just not variable name) for mapping purpose, but more implementation work
 // is required.
 const VTableProfData *__llvm_profile_begin_vtables(void) { return NULL; }
 const VTableProfData *__llvm_profile_end_vtables(void) { return NULL; }

 const char *__llvm_profile_begin_names(void) { return &NamesStart + 1; }
 const char *__llvm_profile_end_names(void) { return &NamesEnd; }

 // Type profiling isn't supported on Windows, so return NULl to make it more
 // explicit.
 const char *__llvm_profile_begin_vtabnames(void) { return NULL; }
 const char *__llvm_profile_end_vtabnames(void) { return NULL; }

 char *__llvm_profile_begin_counters(void) { return &CountersStart + 1; }
 char *__llvm_profile_end_counters(void) { return &CountersEnd; }
 char *__llvm_profile_begin_bitmap(void) { return &BitmapStart + 1; }
 char *__llvm_profile_end_bitmap(void) { return &BitmapEnd; }
 uint32_t *__llvm_profile_begin_orderfile(void) { return &OrderFileStart; }

 ValueProfNode *__llvm_profile_begin_vnodes(void) { return &VNodesStart + 1; }
 ValueProfNode *__llvm_profile_end_vnodes(void) { return &VNodesEnd; }

 ValueProfNode *CurrentVNode = &VNodesStart + 1;
 ValueProfNode *EndVNode = &VNodesEnd;

 /* lld-link provides __buildid symbol which points to the 16 bytes build id when
  * using /build-id flag. https://lld.llvm.org/windows_support.html#lld-flags */
 #define BUILD_ID_LEN 16
 COMPILER_RT_WEAK uint8_t __buildid[BUILD_ID_LEN] = {0};
 COMPILER_RT_VISIBILITY int __llvm_write_binary_ids(ProfDataWriter *Writer) {
   static const uint8_t zeros[BUILD_ID_LEN] = {0};
   if (memcmp(__buildid, zeros, BUILD_ID_LEN) != 0) {
     if (Writer &&
         lprofWriteOneBinaryId(Writer, BUILD_ID_LEN, __buildid, 0) == -1)
       return -1;
     return sizeof(uint64_t) + BUILD_ID_LEN;
   }
   return 0;
 }

 #endif
	/===- InstrProfilingPlatformWindows.c - Profile data on Windows ----------===\
	\|*
	\|* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	\|* See https://llvm.org/LICENSE.txt for license information.
	\|* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	\|*
	\===----------------------------------------------------------------------===/

	#include <stddef.h>

	#include "InstrProfiling.h"
	#include "InstrProfilingInternal.h"

	#if defined(_WIN32)

	#if defined(_MSC_VER)
	/* Merge read-write sections into .data. */
	#pragma comment(linker, "/MERGE:.lprfb=.data")
	#pragma comment(linker, "/MERGE:.lprfd=.data")
	#pragma comment(linker, "/MERGE:.lprfv=.data")
	#pragma comment(linker, "/MERGE:.lprfnd=.data")
	/* Do NOT merge .lprfn and .lcovmap into .rdata. llvm-cov must be able to find
	* after the fact.
	* Do NOT merge .lprfc .rdata. When binary profile correlation is enabled,
	* llvm-cov must be able to find after the fact.
	*/

	/* Allocate read-only section bounds. */
	#pragma section(".lprfn$A", read)
	#pragma section(".lprfn$Z", read)

	/* Allocate read-write section bounds. */
	#pragma section(".lprfd$A", read, write)
	#pragma section(".lprfd$Z", read, write)
	#pragma section(".lprfc$A", read, write)
	#pragma section(".lprfc$Z", read, write)
	#pragma section(".lprfb$A", read, write)
	#pragma section(".lprfb$Z", read, write)
	#pragma section(".lorderfile$A", read, write)
	#pragma section(".lprfnd$A", read, write)
	#pragma section(".lprfnd$Z", read, write)
	#endif

	__llvm_profile_data COMPILER_RT_SECTION(".lprfd$A") DataStart = {0};
	__llvm_profile_data COMPILER_RT_SECTION(".lprfd$Z") DataEnd = {0};

	const char COMPILER_RT_SECTION(".lprfn$A") NamesStart = '\0';
	const char COMPILER_RT_SECTION(".lprfn$Z") NamesEnd = '\0';

	char COMPILER_RT_SECTION(".lprfc$A") CountersStart;
	char COMPILER_RT_SECTION(".lprfc$Z") CountersEnd;
	char COMPILER_RT_SECTION(".lprfb$A") BitmapStart;
	char COMPILER_RT_SECTION(".lprfb$Z") BitmapEnd;
	uint32_t COMPILER_RT_SECTION(".lorderfile$A") OrderFileStart;

	ValueProfNode COMPILER_RT_SECTION(".lprfnd$A") VNodesStart;
	ValueProfNode COMPILER_RT_SECTION(".lprfnd$Z") VNodesEnd;

	const __llvm_profile_data *__llvm_profile_begin_data(void) {
	return &DataStart + 1;
	}
	const __llvm_profile_data *__llvm_profile_end_data(void) { return &DataEnd; }

	// Type profiling isn't implemented under MSVC ABI, so return NULL (rather than
	// implementing linker magic on Windows) to make it more explicit. To elaborate,
	// the current type profiling implementation maps a profiled vtable address to a
	// vtable variable through vtables mangled name. Under MSVC ABI, the variable
	// name for vtables might not be the mangled name (see
	// MicrosoftCXXABI::getAddrOfVTable in MicrosoftCXXABI.cpp for more details on
	// how a vtable name is computed). Note the mangled name is still in the vtable
	// IR (just not variable name) for mapping purpose, but more implementation work
	// is required.
	const VTableProfData *__llvm_profile_begin_vtables(void) { return NULL; }
	const VTableProfData *__llvm_profile_end_vtables(void) { return NULL; }

	const char *__llvm_profile_begin_names(void) { return &NamesStart + 1; }
	const char *__llvm_profile_end_names(void) { return &NamesEnd; }

	// Type profiling isn't supported on Windows, so return NULl to make it more
	// explicit.
	const char *__llvm_profile_begin_vtabnames(void) { return NULL; }
	const char *__llvm_profile_end_vtabnames(void) { return NULL; }

	char *__llvm_profile_begin_counters(void) { return &CountersStart + 1; }
	char *__llvm_profile_end_counters(void) { return &CountersEnd; }
	char *__llvm_profile_begin_bitmap(void) { return &BitmapStart + 1; }
	char *__llvm_profile_end_bitmap(void) { return &BitmapEnd; }
	uint32_t *__llvm_profile_begin_orderfile(void) { return &OrderFileStart; }

	ValueProfNode *__llvm_profile_begin_vnodes(void) { return &VNodesStart + 1; }
	ValueProfNode *__llvm_profile_end_vnodes(void) { return &VNodesEnd; }

	ValueProfNode *CurrentVNode = &VNodesStart + 1;
	ValueProfNode *EndVNode = &VNodesEnd;

	/* lld-link provides __buildid symbol which points to the 16 bytes build id when
	* using /build-id flag. https://lld.llvm.org/windows_support.html#lld-flags */
	#define BUILD_ID_LEN 16
	COMPILER_RT_WEAK uint8_t __buildid[BUILD_ID_LEN] = {0};
	COMPILER_RT_VISIBILITY int __llvm_write_binary_ids(ProfDataWriter *Writer) {
	static const uint8_t zeros[BUILD_ID_LEN] = {0};
	if (memcmp(__buildid, zeros, BUILD_ID_LEN) != 0) {
	if (Writer &&
	lprofWriteOneBinaryId(Writer, BUILD_ID_LEN, __buildid, 0) == -1)
	return -1;
	return sizeof(uint64_t) + BUILD_ID_LEN;
	}
	return 0;
	}

	#endif